##gff-version 3
sequence1	MetaGeneAnnotator	CDS	163	402	.	+	0	ID=MGA_1;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENIVKELKEKISKILEKDISISFLSKEEFKKEKKISEIIISKKKNNGRDFNFESFISGKSNSEAYNASKALINNLGNK;locus_tag=LOCUS_00010;note=MGA_1
sequence1	MetaGeneAnnotator	CDS	547	1329	.	+	0	ID=MGA_2;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLGGFKEIEQTKSEMNEIDVLLIDDIQFLANSGKTNEIFFNIFNSFIEEGKQIVITSDKFPELLNGFDKRLVSRFNQGLSVKIEPPDVETALKIIDYKTQIANLNLATESKKYIASHFGTDVRKIEGIINKIEFKLIQDQESVGEIIELDTIQKLLEDYSYAPGGEITVQKIKSVVAQNYGVNVKSIDAKNKVSSVVIARHVSMYLTTELMKKNYSEVGILFGGKDHTTVINACNKIKKAIAEDKIFKNTLKKIKKDITS;locus_tag=LOCUS_00020;note=WP_039275826.1 chromosomal replication initiator protein DnaA (Mycoplasma mycoides) [pid:42.0%25%2C q_cov:97.3%25%2C s_cov:56.2%25%2C Eval:7.4e-52%2C partial hit],internal stop codon at [400:402](+),MGA_2
sequence1	MetaGeneAnnotator	CDS	1463	1921	.	+	0	ID=MGA_3;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFSVNRLAFIEEINKCNRIIDSKVPTPSISGILLEIDADKISLISSNTSMSIKTIINMGTNDLLIKETGTILIRGKYFLEILRRMDDDIVNISNIEENIVSLSGEKSEFSLNILNYNDYPTIGFREKGDIVTVKNNDLKKSLNQTIISVNE;locus_tag=LOCUS_00030;note=WP_011166213.1 DNA polymerase III subunit beta (Mycoplasma mycoides) [pid:36.8%25%2C q_cov:100.0%25%2C s_cov:40.5%25%2C Eval:7.2e-28%2C partial hit],internal stop codon at [1919:1921](+),MGA_3
sequence1	MetaGeneAnnotator	CDS	1970	2587	.	+	0	ID=MGA_4;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFYITGTDGFRVSRKRIQLFEDIPNKFETNIPHKSVLELIKLLPEKGECKIVSVDSHVTFIINNTLFQTTILEGQFPDVNAVFPTDFNTTLYMDNKKFFKLISRADIPSEENTSTVVNLILNNDSIFIKSNIHQIGSFEEIFKEFELKGLDEQNICFNSKYLIESLKTFETKNVEINLIDSKKPIVISSSEDMDLSQIILPMFSN;locus_tag=LOCUS_00040;note=WP_011182899.1 DNA polymerase III subunit beta (Mesoplasma florum) [pid:34.3%25%2C q_cov:96.6%25%2C s_cov:53.1%25%2C Eval:1.7e-33%2C partial hit],internal stop codon at [1919:1921](+),MGA_4
sequence1	MetaGeneAnnotator	CDS	2655	2777	.	+	0	ID=MGA_5;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENNKYGANQIQVLEGLEAVRKRPGMYIGNTNKTGLHHMI;locus_tag=LOCUS_00050;note=WP_003226808.1 DNA topoisomerase (ATP-hydrolyzing) subunit B (Bacillus) [pid:74.4%25%2C q_cov:97.5%25%2C s_cov:6.1%25%2C Eval:2.7e-11%2C partial hit],internal stop codon at [2775:2777](+),MGA_5
sequence1	MetaGeneAnnotator	CDS	2784	3587	.	+	0	ID=MGA_6;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDNSVDEALAGFCNEISIFITDENEIIIKDNGRGIPVDIHPKTKKTTLETIFTVLHAGGKFDEATYKVSGGLHGVGASVVNALSLYVEAMISRDGKIYHQKFSEGGRNATAIKEIGNSDSNGSIIKFKPDPEIFKEVIDFDFKVIQNKIRQLAFLNKKLKLNLYDQRNDKYLSYIFEDGIKDYIKEINSGKEKVHDEIFYMSNSFNDIEVEISIQYNETYDENLFSFCNNIFTSEGGSHEEGFRSALLKAVNSYTNDLKNFKGNKFT;locus_tag=LOCUS_00060;note=WP_011166217.1 DNA topoisomerase (ATP-hydrolyzing) subunit B (Mycoplasma mycoides) [pid:53.6%25%2C q_cov:99.3%25%2C s_cov:41.5%25%2C Eval:9.3e-82%2C partial hit],internal stop codon at [2775:2777](+)%2C[3585:3587](+),MGA_6
sequence1	MetaGeneAnnotator	CDS	4134	4397	.	+	0	ID=MGA_7;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTDADVDGAHIRVLLLTFFYRYMKELILNGNVYIAQPPLYKIDNGKNVSDYAYNDLELEQLKENKYKELKYTIQRYKGLGEMDPIQL;locus_tag=LOCUS_00070;note=WP_011166217.1 DNA topoisomerase (ATP-hydrolyzing) subunit B (Mycoplasma mycoides) [pid:73.6%25%2C q_cov:100.0%25%2C s_cov:13.6%25%2C Eval:7.4e-33%2C partial hit],internal stop codon at [4395:4397](+),MGA_7
sequence1	MetaGeneAnnotator	CDS	4407	4559	.	+	0	ID=MGA_8;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDPERRTMIQIKVEDAFLANEVFSSLMGENADLRKQFIIENAQFVENIDI;locus_tag=LOCUS_00080;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:3.5e-14%2C partial hit],internal stop codon at [4395:4397](+),MGA_8
sequence1	MetaGeneAnnotator	CDS	4580	6997	.	+	0	ID=MGA_9;product=DNA gyrase subunit A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166218.1;translation=MSEIKHGRILEMDIKSEVEKDFLEYSMSVIVSRALPDLKDGLKPVHRRIIYAMNDLKITSDTPHKKSARIVGEVIGKYHPHGDSSVYEAMVRMSQDFSYRYPLVEGHGNFGSIDGDGAAAMRYTEARLAKITSLLLKDIDMDTVPFVDNYDASEREPKYLTGYFPNLLVNGATGIAVGMATNIPPHNLREVVGATIAYIKDDQMTIDDILKYIKGPDFPTGALMTNGKSMIEGYRTGKGNLIIRSKIDIEETSKNQRIVVSEIPYQTNKLKVVEKIVELYKNKIIMGISDIRDESNYEGIRIVIELSKNSNPQLIIKKLYKYTNLQSSFAINMLSLNNGIPVVLNIKDILKFYVKHQIEIIVKRSIFEKNKLNAKLHILNAIRVTLDHIDEIIKIIKESKTTEIAHEKLFKAFGFDEKQSKAILDMRLQRLVGLEREKVELDIKNIEIRISELEEILSSKEKQNDLLITQLEDIVNKFGDERRTKIIEEDETQIDDEELIQDTQMLITLSEDGYIRRLSNEEFKTQKRGGKGVIINNNHEDNIAIAKFGKTKDDVLFFTDEGKVYRIKAYNITQFSRNARGVPVINFIGINSSEKVTSILPLKNKKNAYKYLLFVTQKGVVKKVEIEEFNRINNFGKIAINLDEGDKLVSVIPTVGGTEILIASLNGKIIKVNEDNFRPMSRSSRGVKGMGLDKNDFVVSSCSSYKNESVATISEKGIVKKTLISEYNIFGRGAKGVLGMKLNEKTGKFKSLLAIRETDEILMISSKGKIIKIGAQDINLQSRNSAGVIGFNLETDETITSTTLE;locus_tag=LOCUS_00090;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:99.4%25%2C s_cov:96.2%25%2C Eval:2.1e-276],MGA_9
sequence1	MetaGeneAnnotator	CDS	7014	7403	.	+	0	ID=MGA_10;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLDINKIESDFEKVNSNLKKRNKDFKLELNQIVELNSKRKKITFKVEELKAKKNKISKDIGILAKNNNKNEIEKLKKEVSKINQEVEKLDNDLRLINDEINSKLSYIPNIPNDNIPLGKDENDNIEIKT;locus_tag=LOCUS_00100;note=WP_011182914.1 serine--tRNA ligase (Mesoplasma florum) [pid:50.0%25%2C q_cov:99.2%25%2C s_cov:30.3%25%2C Eval:2.2e-32%2C partial hit],internal stop codon at [7401:7403](+),MGA_10
sequence1	MetaGeneAnnotator	CDS	7458	8030	.	+	0	ID=MGA_11;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLVDFELGSKLSGSRFVVYTNLGAKIIRALADILINRHTNNGYKEMYLPLIVNKENMYGTGQLPKFEEDAYKIGDQYLIPTSEVPLTNTVRDKILEKEQLPIYLTSFTQCFRKEAGSAGRDTKGLIRLHQFNKVEMVKITDNKTSYEELEKMLIDAEECLQLFNLPYRVVELCGGDIGFSSAKTYDLEV;locus_tag=LOCUS_00110;note=WP_011166277.1 serine--tRNA ligase (Mycoplasma mycoides) [pid:70.0%25%2C q_cov:100.0%25%2C s_cov:45.0%25%2C Eval:6.6e-74%2C partial hit],internal stop codon at [7401:7403](+)%2C[8028:8030](+),MGA_11
sequence1	MetaGeneAnnotator	CDS	8103	8279	.	+	0	ID=MGA_12;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MARYKNDDNKNEYVHTLNGSGLAIDRLFAAILENYYDGDKLLIPDILKPYLGNIDFIK;locus_tag=LOCUS_00120;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:2.4e-15%2C partial hit],internal stop codon at [8028:8030](+),MGA_12
sequence1	MetaGeneAnnotator	CDS	8505	8930	.	+	0	ID=MGA_13;product=nucleoside deaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_020862455.1;translation=MELIFNTLLMELKKCKKNKDVPVSALLIDTNNKIVAKSFNSRQKKYNFSNHAEIRVLNKIYKKLKTKNLGDYRLVTSLKPCLMCITVIEQASIKKVLYYLDNIKCNYNRILTDITFEKIGSSKESTIFETELKEFFLKLRK;locus_tag=LOCUS_00130;note=WP_020862455.1 nucleoside deaminase (Mycoplasma mycoides) [pid:35.5%25%2C q_cov:97.2%25%2C s_cov:95.9%25%2C Eval:1.1e-21],MGA_13
sequence1	MetaGeneAnnotator	CDS	8967	10109	.	+	0	ID=MGA_14;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENKKSLYREYRPKNFDQVAGHNGIKEILISQINSNSFGHALLFSGQRGTGKTSIAKIFAKIVNCQNLNGYNPCDNCISCKEFNNNAHSDIFEIDAASNNGVEEIRNIKANVSLLPSFSKYKVYIIDEVHMLSNSAFNALLKTLEEPPKHVIFILATTEFSKIPATIISRCQLFNFKKIGQKDLEQKVEEICKAEGKIITKEALNEIYYMSDGSLRDALNYLEQSLTISEKEVNVEILKKIFYIATKVEKLNIIKNVIQGNTKEIISYFEVSNNQGIDFQTMTLSLLDIIKEIIEVKLTQDYNFLSNLTIEDFNNFNQTDIKIMFDLADNISDSYTKSKNSNISFQYILINILKTVSTKKLISVIEKDKLTCSLPTSTIN;locus_tag=LOCUS_00140;note=WP_011183574.1 DNA polymerase III subunit gamma/tau (Mesoplasma florum) [pid:55.1%25%2C q_cov:93.7%25%2C s_cov:56.4%25%2C Eval:2.9e-112%2C partial hit],MGA_14
sequence1	MetaGeneAnnotator	CDS	10224	10568	.	+	0	ID=MGA_15;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNNFSVKNNIQDFFKEKDDSKFLKLQMKLLISEAIIYKNIIDFTNDQIINVLVGANKQARKYYEEKFERMFNEEVINGNSKFIENFIMFYGSKITASSEDSVILVSDERTISK;locus_tag=LOCUS_00150;note=MGA_15
sequence1	MetaGeneAnnotator	CDS	10686	10844	.	+	0	ID=MGA_16;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDRKNNNKLEEFKHIDTEYFYEALNKKDDNDENQYLKRAKEILGDQNIKVVN;locus_tag=LOCUS_00160;note=MGA_16
sequence1	MetaGeneAnnotator	CDS	10844	11416	.	+	0	ID=MGA_17;product=recombination mediator RecR;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_020862453.1;translation=MDKIIEELKSIDGIGKKVAEKILFDLIINKNKISSLETVINEIKKSYSECNTCFYFKENNVCTFCNNKNRNQNIICVVSTKLDAIKIAKSNYNGLIHVLNGEINLNKNIGPEKIKISELFVRISKGIELLLALNLTFEGEVTSNYIANKAKGICEKISRIARGIPLGGVLDYIDQETLNDAILNRKKLDD;locus_tag=LOCUS_00170;gene=recR;note=WP_020862453.1 recombination mediator RecR (Mycoplasma mycoides) [pid:50.3%25%2C q_cov:97.9%25%2C s_cov:95.4%25%2C Eval:1.1e-47],MGA_17
sequence1	MetaGeneAnnotator	CDS	11434	11616	.	+	0	ID=MGA_18;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFISLEGIDGSGKTTISKMIKDNLIQKGYKVLLTREPGGEPLAEELRRIILDEKNSINP;locus_tag=LOCUS_00180;note=WP_011166257.1 dTMP kinase (Mycoplasma mycoides) [pid:58.2%25%2C q_cov:91.7%25%2C s_cov:25.8%25%2C Eval:1.5e-12%2C partial hit],internal stop codon at [11614:11616](+),MGA_18
sequence1	MetaGeneAnnotator	CDS	11629	12063	.	+	0	ID=MGA_19;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYVAARKQHLDSIILPALKEGTIVVCDRFMDSTSAYQGYARNIGMADVNELQSIVLGSTKPDLTIFFDITPKESQIRLMNRKRSADRMEQENQRFHEAVYEGYQILISENSDRIKVVDSRKQINEVLQQVDFLIDNALNERTKK;locus_tag=LOCUS_00190;note=WP_011166257.1 dTMP kinase (Mycoplasma mycoides) [pid:44.8%25%2C q_cov:100.0%25%2C s_cov:68.1%25%2C Eval:3.0e-30%2C partial hit],internal stop codon at [11614:11616](+),MGA_19
sequence1	MetaGeneAnnotator	CDS	12063	12236	.	+	0	ID=MGA_20;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVEVFSIVNELIKNKKLYHSIIISNENQTNLDEISTEILRQIYCLNNSFENDGCD;locus_tag=LOCUS_00200;note=MGA_20
sequence1	MetaGeneAnnotator	CDS	12381	12809	.	+	0	ID=MGA_21;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANGENLSESASNALLKFLEEPPKNTYALILTKDRNKILSTIKSRCKLFSIENEIIKEKFDSQIIKFFLNKEKKKLLKYLISFKKMERSEIIADLNIAFENSIDLNIKFLQELLLDTINEIKETNYINLILENLFIKMYEVI;locus_tag=LOCUS_00210;note=WP_011183571.1 DNA polymerase III subunit delta' (Mesoplasma florum) [pid:38.0%25%2C q_cov:100.0%25%2C s_cov:57.1%25%2C Eval:1.4e-21%2C partial hit],internal stop codon at [12234:12236](+),MGA_21
sequence1	MetaGeneAnnotator	CDS	13025	13531	.	+	0	ID=MGA_22;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEACKIAKKNIKINKLEDQIEIINSDIKDFILDKNNNFDLIFCNPPFFKVDKESKLNKKSKFLTPARHEILITLEEIIKSAKIALKNGGKFFMIHLSERLDEIIFLLKQNNFSVKKLQIVYSKEKQNSKRILIEAINDGNNGMKILEPLYIHNEDGSYKKEILEMFGD;locus_tag=LOCUS_00220;note=WP_011183570.1 tRNA1(Val) (adenine(37)-N6)-methyltransferase (Mesoplasma florum) [pid:51.2%25%2C q_cov:96.4%25%2C s_cov:67.5%25%2C Eval:3.9e-42%2C partial hit],internal stop codon at [12911:12913](+),MGA_22
sequence1	MetaGeneAnnotator	CDS	13521	13781	.	+	0	ID=MGA_23;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVIKLLKKSSKYILGLSGGPDSVFLFNYLLDNGFKNFVVCHVNYNFRKDSNQDLELVKKMCKKYEIEYFIKNIKQDYNNLKENFES;locus_tag=LOCUS_00230;note=WP_011183569.1 tRNA lysidine(34) synthetase TilS (Mesoplasma florum) [pid:52.0%25%2C q_cov:87.2%25%2C s_cov:18.8%25%2C Eval:2.8e-16%2C partial hit],internal stop codon at [13779:13781](+),MGA_23
sequence1	MetaGeneAnnotator	CDS	13887	14228	.	+	0	ID=MGA_24;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKNNKKKVRYFGINSESYYKNKKILRPILSIKKSDIIKDLDEKNIGYIIDSTNSDLKYERNKLRFTLRENTFNKLIKEIDIKNEKILNYKLKIEDLIYSNVLNIDKFNDDNE;locus_tag=LOCUS_00240;note=WP_011166253.1 tRNA lysidine(34) synthetase TilS (Mycoplasma mycoides) [pid:39.4%25%2C q_cov:92.0%25%2C s_cov:25.4%25%2C Eval:1.5e-17%2C partial hit],internal stop codon at [13779:13781](+),MGA_24
sequence1	MetaGeneAnnotator	CDS	14376	14522	.	+	0	ID=MGA_25;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDYELIRVVNSEELDTFEIENSNDKFFKKLLIENNIVNHENIVVTNN;locus_tag=LOCUS_00250;note=MGA_25
sequence1	MetaGeneAnnotator	CDS	14833	15105	.	+	0	ID=MGA_26;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLMNNKISKNSTEQVYSGLHIISGSYTNSSGVVRKFVLTLTNSSYTSLREDNNAFKDFTQSIITLSQGNSPFMTLIINLLPMVILIGFYI;locus_tag=LOCUS_00260;note=MGA_26
sequence1	MetaGeneAnnotator	CDS	15118	15780	.	+	0	ID=MGA_27;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKGGMGGGMFGPGKNTRPREIKSDVKFSDVAGINEEKIELVELVDYLKNPNKYALMGARVPKGVLMEGPPGTGKTLLAKAVAGEAGVAFFSMAGSEFEEMFVGLGASRVRDLFSDAKKAAPCIIFIDEIDAVGRKRSGGMGASTNEQTLNQLLVEMDGFASNTGVIVMAATNRVDVLDSALLRPGRFDRTIQISLPDIREREAILKLHSRNKSVSPEID;locus_tag=LOCUS_00270;note=WP_011166250.1 ATP-dependent zinc metalloprotease FtsH (Mycoplasma mycoides) [pid:78.8%25%2C q_cov:96.4%25%2C s_cov:32.6%25%2C Eval:1.3e-90%2C partial hit],internal stop codon at [15103:15105](+)%2C[15778:15780](+),MGA_27
sequence1	MetaGeneAnnotator	CDS	15877	16623	.	+	0	ID=MGA_28;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINILDIDEAIDRVVGGPAKKSRAMTMQDKQIVSYHEAGHALMGLRLESASKVQKVTIIPRGNAGGYTIMTPKDESNFSSKEDLFASIAGYLGGRAAEEIMFGKNKITTGAHDDLDKATNIARRMVTQFGMSTLGLTKYLTMQEESYGQTKGVYSDEVAFKIDTEINTILEKCYKTALEVINKHKDVLELIAESLRVLETITAEQIDYIDKHNKLPKEVIEEKNRKDVEDKKKESGEILEFEPDEDDK;locus_tag=LOCUS_00280;note=WP_011183568.1 ATP-dependent zinc metalloprotease FtsH (Mesoplasma florum) [pid:72.9%25%2C q_cov:99.6%25%2C s_cov:38.0%25%2C Eval:2.0e-99%2C partial hit],internal stop codon at [15778:15780](+),MGA_28
sequence1	MetaGeneAnnotator	CDS	16702	17550	.	+	0	ID=MGA_29;product=Hsp33 family molecular chaperone HslO;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_020862439.1;translation=MDMEIRAISEKNNVKISIVDISESFNEIAKLQNTNPLASVALGRTIIDNALVSLSLKDGSKMTTNLNGMGLGGSIIVEFQDKKVRGYIQNPNFEIDKINLEEGSALSQVVGKQGFLQISRDNGESTPYTSRVEIISGEVNFDFMYYLQQSDQVNSLITSAVELNEDNTIKKACGIIIQLLPGFKDEDIDFIEEKIGTLDHLVKTLIETTNYESLIKDICKDAKVLGIGELKFECTCNIEKVVSSVKLLGEKEIKKIIEEGELVEVVCDFCKKQYNVKPNEII;locus_tag=LOCUS_00290;note=WP_020862439.1 Hsp33 family molecular chaperone HslO (Mycoplasma mycoides) [pid:37.3%25%2C q_cov:100.0%25%2C s_cov:98.6%25%2C Eval:1.6e-55],MGA_29
sequence1	MetaGeneAnnotator	CDS	17605	17919	.	+	0	ID=MGA_30;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEEKDLKQQKKVEAELAQSEKIEDKKLAKKTSVGTDQTLIREFEHVELPLVTEEGVKGLKLKNKIQKQNTSKYSKKILEGKIVSTTGNKPDLEKNVIELYNVKR;locus_tag=LOCUS_00300;note=MGA_30
sequence1	MetaGeneAnnotator	CDS	17923	18591	.	+	0	ID=MGA_31;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTGDMLTPVLRGVDLKLEKGKFIVILGPSGSGKTTLLNTISGLDKTSEGDVFVLGNNLSLLKDSHLTKFRRENVGFIFQQYNLLSNLTAKENAEVGENLSKSKENKMSIEEIFKTIGMEEQMNKYPHQMSGGQQQRVSIARALAKNPEILFGDEPTGALDEEMGRKVLDILVDVKEKYNTTVIIVTHNPNISEIGDTVIHVRNGLIDEIKHNKSPKRPSQID;locus_tag=LOCUS_00310;note=WP_011182916.1 ABC transporter ATP-binding protein (Mesoplasma florum) [pid:75.2%25%2C q_cov:100.0%25%2C s_cov:36.8%25%2C Eval:3.1e-95%2C partial hit],internal stop codon at [17917:17919](+),MGA_31
sequence1	MetaGeneAnnotator	CDS	18584	18811	.	+	0	ID=MGA_32;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTDHSSKTKNYKWIICSFFNIKMTLKKYIIINVKGGEVMPIFSFKGVEENHLKEYFKQIEELALIMNTDVKKIVF;locus_tag=LOCUS_00320;note=MGA_32
sequence1	MetaGeneAnnotator	CDS	19012	19449	.	+	0	ID=MGA_33;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIRNIDIKGKVFLGPMAGTTNAAFRIICKEKGASLVYAEMVSTEGLVHNNQKTKTMIEVSELEHPITLQIFGFDVESFVEGAKIVEEFSECDVIDINMGCPAPKVALRSQAGANLLKYPERVGEVIKAVVENTSKPVTVKMRIG;locus_tag=LOCUS_00330;note=WP_011182926.1 tRNA dihydrouridine synthase DusB (Mesoplasma florum) [pid:60.7%25%2C q_cov:100.0%25%2C s_cov:44.6%25%2C Eval:5.5e-48%2C partial hit],internal stop codon at [19447:19449](+)%2C[19564:19566](+)%2C[19570:19572](+)%2C[19711:19713](+),MGA_33
sequence1	MetaGeneAnnotator	CDS	20003	20974	.	+	0	ID=MGA_34;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNNFERNFSEQENIRREKLKKLIQDKRDPFIENEFNKSHSLNELKETFSSFSKEELQEKTKIKISTAGRIRLFREAGKKAIFGNIQDQDTSLQIYVRQDEIGEKEFEYFRDLDLGDIIGIEGIMMKTDHGELTIRVKNAKLLTKALKPLPDKHLGIADIEEKYRRRYVDLIVNPESKQVFIDRTKIIRTIQSILDSKGYMEVETPILQSVRGGASAKPFITHYNALDNDFFLRIATELHLKRCIVGGFDGVYEIGRIFRNEGISTRHNPEFTSVELYVAYKNMDFLMNLCEELFKQCSLAVRGTTKINYAGHDLDLAKPFKR;locus_tag=LOCUS_00340;note=WP_011182927.1 lysine--tRNA ligase (Mesoplasma florum) [pid:67.0%25%2C q_cov:98.5%25%2C s_cov:63.7%25%2C Eval:2.1e-121%2C partial hit],internal stop codon at [20972:20974](+)%2C[21017:21019](+)%2C[21164:21166](+),MGA_34
sequence1	MetaGeneAnnotator	CDS	21026	21166	.	+	0	ID=MGA_35;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTFKEACEIAKKHKIKVDKHHFSVGHIINLFFEEFVEAKIIEPTFV;locus_tag=LOCUS_00350;note=WP_011182927.1 lysine--tRNA ligase (Mesoplasma florum) [pid:69.6%25%2C q_cov:100.0%25%2C s_cov:9.2%25%2C Eval:2.9e-13%2C partial hit],internal stop codon at [20972:20974](+)%2C[21017:21019](+)%2C[21164:21166](+),MGA_35
sequence1	MetaGeneAnnotator	CDS	21314	21514	.	+	0	ID=MGA_36;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDQIKEADAGNDEANDMDIDFIEALEYGMPPTAGIGIGIDRMVMLLTNSDSIKDVLLFPQMKPRGI;locus_tag=LOCUS_00360;note=WP_011166280.1 lysine--tRNA ligase (Mycoplasma mycoides) [pid:87.1%25%2C q_cov:93.9%25%2C s_cov:12.4%25%2C Eval:5.7e-25%2C partial hit],internal stop codon at [21164:21166](+),MGA_36
sequence1	MetaGeneAnnotator	CDS	21514	21672	.	+	0	ID=MGA_37;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYGIALGYVSKLNFKDTIKGIEFIKENIFFSLKNKFNLLNTSSALITNKAV;locus_tag=LOCUS_00370;note=MGA_37
sequence1	MetaGeneAnnotator	CDS	21898	22470	.	+	0	ID=MGA_38;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEILVEEVEMEFLNNTLIDIYKLLCSIDLKISEKFEELNNFHYSKTLTFVTYNKLKELYPLLTFTERLNKFGKDNGSFVIQNYVERILNQKNIGQFSEDVFNLKTYSKLYIYNGECEKSISVAYAGFQVDRKTLKEQNLILKENSKINNEYNHLIKSNELPLTLSIGVLINRVVMTILEKQHIGEVHSSI;locus_tag=LOCUS_00380;note=MGA_38
sequence1	MetaGeneAnnotator	CDS	22570	23181	.	+	0	ID=MGA_39;product=2-C-methyl-D-erythritol 4-phosphate cytidylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583828.1;translation=MVSLIIVANGSSERFGQNKMLVKIENQFLVNQTISNFYNIKDIKEIILVSNKEVFNVIKDNKIILIEGGATRSESVKKGLAVCKQKYVLIHDGARPFISKNLIISIIENLKLHDCVVPVLKITNCLKLIKNNKIKTVNREEYIQTQTPQGFKTELIKEAYEKKNIEAFDDCQLIEKQNNKIKFIDGDDKNIKITFKNDLKSYS;locus_tag=LOCUS_00390;gene=ispD;EC_number=2.7.7.60;note=WP_012583828.1 2-C-methyl-D-erythritol 4-phosphate cytidylyltransferase (Dictyoglomus turgidum) [pid:35.8%25%2C q_cov:96.1%25%2C s_cov:91.8%25%2C Eval:1.0e-22],MGA_39
sequence1	MetaGeneAnnotator	CDS	23293	23418	.	+	0	ID=MGA_40;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIRKYEIMYIIDQDVTDIKAVQKKLHDILTNNGGKILESED;locus_tag=LOCUS_00400;note=MGA_40
sequence1	MetaGeneAnnotator	CDS	23545	23859	.	+	0	ID=MGA_41;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRYQVINTENEKRYIQSTKLSKTDMSKFKEEKKPSRGFDRRMPRRDDNSQPQEFSEAKIQKEVKEVKEVKEVKEVKEVKEVKPKDTSKTETKEVKAPKSKDEVA;locus_tag=LOCUS_00410;note=WP_011182977.1 30S ribosomal protein S6 (Mesoplasma florum) [pid:33.3%25%2C q_cov:98.1%25%2C s_cov:31.0%25%2C Eval:1.8e-07%2C partial hit],internal stop codon at [23416:23418](+),MGA_41
sequence1	MetaGeneAnnotator	CDS	23881	24030	.	+	0	ID=MGA_42;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSVNLIGRITKDPELRSSSNGKSFVAFTLAVNEFSGGNQFTQFVPCFA;locus_tag=LOCUS_00420;note=WP_011182978.1 single-stranded DNA-binding protein (Mesoplasma florum) [pid:64.0%25%2C q_cov:100.0%25%2C s_cov:33.1%25%2C Eval:4.7e-11%2C partial hit],internal stop codon at [24028:24030](+),MGA_42
sequence1	MetaGeneAnnotator	CDS	24049	24321	.	+	0	ID=MGA_43;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKFVKKGAQISVEGSINVRQENNNGQFSQIVTVRANRIEFLNGTGSNNQSGSNNSFESNQSKPTAQPSSNNFDFDLIDDSKSSNDDSIL;locus_tag=LOCUS_00430;note=MGA_43
sequence1	MetaGeneAnnotator	CDS	24347	24568	.	+	0	ID=MGA_44;product=30S ribosomal protein S18;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182979.1;translation=MKKFVRRKKVNFFAKNNIDYIDYKDVDLLKKFISANGQILPKRVTGTSPKHQRMLAIAIKRARGMGLLPFVVQ;locus_tag=LOCUS_00440;gene=rpsR;note=WP_011182979.1 30S ribosomal protein S18 (Entomoplasmataceae) [pid:78.1%25%2C q_cov:98.6%25%2C s_cov:96.1%25%2C Eval:2.3e-26],MGA_44
sequence1	MetaGeneAnnotator	CDS	24628	25074	.	+	0	ID=MGA_45;product=50S ribosomal protein L9;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182980.1;translation=MKVILLTDVKNYGKKDDVVNVSDGYATNFLIPKGLAIVASKGDLSHLNVRKRKEEEVKKDKEIELNNLKNKLETLELNFKIKTKDGKPFGSVSLSQITDRIKKEFSIDLDKRKFEKHENINKLGLYYLKIKLDLKIIATLKIFVEGTE;locus_tag=LOCUS_00450;gene=rplI;note=WP_011182980.1 50S ribosomal protein L9 (Mesoplasma florum) [pid:39.0%25%2C q_cov:98.6%25%2C s_cov:99.3%25%2C Eval:4.9e-23],MGA_45
sequence1	MetaGeneAnnotator	CDS	25074	25670	.	+	0	ID=MGA_46;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKENIDINIESVLIDSEKAVLAIAMHSPKASFDILTQLNSEDFSLEKHQIIFEAINTVSINSQNITITKLAEYLEDKKVLEKVGGVSYLSDVSGYFYTDEGFEDYVEIVFKNSIGRQLDRALIHIKQLRESKSPIDEVFVIAQQKILNIKTDVKKDDATEVKETVVDVIKKIEALEKNGGLVNGVPSGFSDLDQITNG;locus_tag=LOCUS_00460;note=WP_011182981.1 replicative DNA helicase (Mesoplasma) [pid:38.2%25%2C q_cov:100.0%25%2C s_cov:42.9%25%2C Eval:1.3e-30%2C partial hit],internal stop codon at [25668:25670](+)%2C[25887:25889](+),MGA_46
sequence1	MetaGeneAnnotator	CDS	25710	25889	.	+	0	ID=MGA_47;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKTAFALNLAVNAAERQKGVAFFSLEMPKEQLVQRILSSISGIESSSLRNAQGLTTEK;locus_tag=LOCUS_00470;note=WP_011182981.1 replicative DNA helicase (Mesoplasma) [pid:60.7%25%2C q_cov:94.9%25%2C s_cov:12.5%25%2C Eval:5.6e-12%2C partial hit],internal stop codon at [25668:25670](+)%2C[25887:25889](+),MGA_47
sequence1	MetaGeneAnnotator	CDS	25926	26426	.	+	0	ID=MGA_48;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIVIDDTPGITVLQLQSKLRKMKRDFGVEICFIDYLQLISSMSNKFDSRQNEVATISRHLKKIARELNMPIICLSQLSRSVEKREEKTPLMSDLRDSGAIEQDADIIMFLYRDAYYKTKEYNLTSEDPTDETDVIISKHRNGATGLIKVNFLRSYGKFIDQSKNS;locus_tag=LOCUS_00480;note=WP_011182981.1 replicative DNA helicase (Mesoplasma) [pid:66.3%25%2C q_cov:96.4%25%2C s_cov:36.2%25%2C Eval:4.3e-54%2C partial hit],internal stop codon at [25668:25670](+)%2C[25887:25889](+),MGA_48
sequence1	MetaGeneAnnotator	CDS	26486	26962	.	+	0	ID=MGA_49;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSVLGSLLVVAPSVSAVVSCGIETNPVKFKVDGKDEFKIANEKVGFQKLFGSVATLPILANLVLESLSFTESKYIGEKKNEAKTFLGEKGIAMSLEKIFNDGPKDFIEFIDNSQDDNDNDNFQKYYEAPINSNFVEINYDLGIEKSELASENDK;locus_tag=LOCUS_00490;note=MGA_49
sequence1	MetaGeneAnnotator	CDS	27182	27736	.	+	0	ID=MGA_50;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSETEAKELYTKIKDSGSDKMKEDLGVNKLSQDQFKVLHTQLNKVDEKFKNGILMPGKFEKNFSQTKASFIKSSEGNPVEERKDISEGVNFYTTNDGKSMQAQVVGFKENNKRTFIYGKSDEGQQLSIDFLFNVPKDNKYSPKEKNYIIRLTLENLFVGYQLNGITLEKGFDDKDKKREDEVIY;locus_tag=LOCUS_00500;note=MGA_50
sequence1	MetaGeneAnnotator	CDS	27882	28031	.	+	0	ID=MGA_51;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYYVKFENDFFNIVDGRTNQIVASFIGELEANKFIQSLIKTGNKSLSN;locus_tag=LOCUS_00510;note=MGA_51
sequence1	MetaGeneAnnotator	CDS	28296	29639	.	+	0	ID=MGA_52;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQQPVYGYPPMQQPVYPTYNGPTQNFGIMNGQNSAPGAPFQSVGYPQPPTNFNNDMYNQPNNYFNQEQSNSNKLSGQINNLSDQLLNLSGKVNSISDKLKNEQNQAIIDNQNIQIEQRIQELKELEEKQKNEKLKELQEKQSYEEFRRFQERQNYEELEKENNLNSDEDIEINQTVQNFKDLQQYPENENENENENENEEFKFGFNDNTISIDSSLFEEDKLGAIIQEGKKFINNTDDDSLGEVSAYKEMSNFSNYEENIETKSNQENFILEDDLKMINQDFNETQISNKDSSGIQNEKGKILGLEDLPTVSADFNETPTLYLSEVASELIKEHQENKEVNEIEQLKSKNENITIDDTEFDDFNPEDLNEQYQEKLDSEVIPLKKSDPNVIDLGPVLEDDQIFSTPRKDAQLEDFEETQLSKKEKKQLRKIKKREENSRKKYEKLLK;locus_tag=LOCUS_00520;note=MGA_52
sequence1	MetaGeneAnnotator	CDS	29777	29977	.	+	0	ID=MGA_53;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNLIKPQDIKVIIIGQDPYHGKNQANGIAFSVSNNVRTPPSLRNIFKELRSDLGIDHSQNNDLSN;locus_tag=LOCUS_00530;note=WP_011183140.1 uracil-DNA glycosylase (Mesoplasma florum) [pid:68.2%25%2C q_cov:100.0%25%2C s_cov:30.6%25%2C Eval:1.4e-20%2C partial hit],internal stop codon at [29975:29977](+)%2C[30056:30058](+),MGA_53
sequence1	MetaGeneAnnotator	CDS	30493	30777	.	+	0	ID=MGA_54;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFTAINVSVTVVISLTLPITVFPPIRIAFEGVMVKITGFIFGPIIGVLVALITEVLVMIFVPSFIHPAFIIVIICYGFIAGIGSSFLRLGKGYN;locus_tag=LOCUS_00540;note=WP_011182983.1 ECF transporter S component (Mesoplasma florum) [pid:67.4%25%2C q_cov:91.5%25%2C s_cov:28.2%25%2C Eval:5.5e-28%2C partial hit],internal stop codon at [30430:30432](+)%2C[30775:30777](+)%2C[30907:30909](+)%2C[30949:30951](+)%2C[31066:31068](+),MGA_54
sequence1	MetaGeneAnnotator	CDS	31246	31677	.	+	0	ID=MGA_55;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLYDSLKREFVEIDVPKFCIYSCGPTVYDFIHIGNARPLILTDIIVRYLEYMEIKYKYLLNITDIDDKIIQRAAENNITEEDHAKIYSDAFLNDLKNLNIKSPTLITPISSKISEILIFIDDLLKKGFAYEKKGNVYFDISQ;locus_tag=LOCUS_00550;note=WP_011182984.1 cysteine--tRNA ligase (Mesoplasma florum) [pid:53.8%25%2C q_cov:100.0%25%2C s_cov:32.4%25%2C Eval:1.9e-37%2C partial hit],internal stop codon at [31675:31677](+)%2C[31783:31785](+)%2C[31810:31812](+)%2C[31822:31824](+)%2C[31843:31845](+),MGA_55
sequence1	MetaGeneAnnotator	CDS	31993	32175	.	+	0	ID=MGA_56;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHNGHISIEDVKMSKSLKNTILVKDFLEENGANSLRYIFLNSNYRQPLNISQDLINQSLD;locus_tag=LOCUS_00560;note=WP_011182984.1 cysteine--tRNA ligase (Mesoplasma florum) [pid:51.7%25%2C q_cov:96.7%25%2C s_cov:13.2%25%2C Eval:8.1e-11%2C partial hit],internal stop codon at [31783:31785](+)%2C[31810:31812](+)%2C[31822:31824](+)%2C[31843:31845](+)%2C[31990:31992](+)%2C[32173:32175](+)%2C[32212:32214](+),MGA_56
sequence1	MetaGeneAnnotator	CDS	32239	32499	.	+	0	ID=MGA_57;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINETPIDEDFNSYKYITNFKSLLNDDLNTPMIISLIDEMCKSINIQMKNKKVDLTYKKLLSILKVLGFNFNIKKLDKLDIEKIKE;locus_tag=LOCUS_00570;note=MGA_57
sequence1	MetaGeneAnnotator	CDS	32577	32720	.	+	0	ID=MGA_58;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNYIYGKNAVENTIKNFIDEIKQVFILKGHAFDPEIFSIIKQKNLE;locus_tag=LOCUS_00580;note=MGA_58
sequence1	MetaGeneAnnotator	CDS	32727	33296	.	+	0	ID=MGA_59;product=23S rRNA (guanosine(2251)-2'-O)-methyltransferase RlmB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182985.1;translation=MERQEFNSLIKDGVNHQGLIAQVKDFNYLELKDFYNNSKLKQKVLILDKIQDPQNFGSIIRTASLFGVDGIIIQETNQVQVTPAVMKASAGTIYNVPIIKVSNLKSAISSLKDRGFWIYSSYLNEESKSIGEIDFDNKSVIIIGNEGNGIGSKIIEMSDFTFKIETNNVIDSLNVSVATGIILFELSKK;locus_tag=LOCUS_00590;gene=rlmB;note=WP_011182985.1 23S rRNA (guanosine(2251)-2'-O)-methyltransferase RlmB (Mesoplasma florum) [pid:44.4%25%2C q_cov:98.9%25%2C s_cov:78.1%25%2C Eval:8.6e-42],internal stop codon at [32718:32720](+),MGA_59
sequence1	MetaGeneAnnotator	CDS	33316	33948	.	+	0	ID=MGA_60;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPNKYGALDAIKETIRIEFGNEISEKELLHFQKSVIKIINTEHIKLGYLQLDKDDFTSHVFFALKEIKSKFDINRKVPLLAYANFIIKRRILDYAKYLKRDKRKITLLIINSFRSGITEEGQTFIDRDIDKFSLQIYNEEQKNLYIRKTLKNFIEYECLEKEALIAKMMYKGYSQKEIISKLKIKRKDFLEFKEKLKILFKGFIKDSSNI;locus_tag=LOCUS_00600;note=MGA_60
sequence1	MetaGeneAnnotator	CDS	33976	34134	.	+	0	ID=MGA_61;product=50S ribosomal protein L33;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182986.1;translation=MPQSKKKVILVCSECLSRNYTIQKSTISQRERLQIKKHCITCNAHVLHKETR;locus_tag=LOCUS_00610;gene=rpmG;note=WP_011182986.1 50S ribosomal protein L33 (Mesoplasma) [pid:62.0%25%2C q_cov:96.2%25%2C s_cov:92.6%25%2C Eval:7.7e-14],MGA_61
sequence1	MetaGeneAnnotator	CDS	34137	34421	.	+	0	ID=MGA_62;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSDKNNSKEQKAQEKLKKIQDKKAQKDSKKTLKKEKKEEFTKLFNEFEGHDGTQEGKIKAAKKRKVKKEKEKINYKLAIKEAPIKFLKEVNKIQ;locus_tag=LOCUS_00620;note=MGA_62
sequence1	MetaGeneAnnotator	CDS	34670	34858	.	-	0	ID=MGA_63;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKPVTPGVFLTINQVSSVIFILMNRYPGNLFFSLILLFFPTTGPFEILISNILSSNPDVSIF;locus_tag=LOCUS_00630;note=MGA_63
sequence1	MetaGeneAnnotator	CDS	34917	35186	.	+	0	ID=MGA_64;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLEQNSQQDKNEKTSKGNANQPKKEKVLFTAKFTTKEVVRVKDGPFAGTEGQVIEMDFEKGIAIVNIELFGRITQTEFEFSNLEKAYIN;locus_tag=LOCUS_00640;note=WP_011182988.1 transcription termination/antitermination protein NusG (Mesoplasma florum) [pid:53.8%25%2C q_cov:73.0%25%2C s_cov:31.1%25%2C Eval:1.1e-12%2C partial hit],internal stop codon at [34818:34820](+),MGA_64
sequence1	MetaGeneAnnotator	CDS	35252	35497	.	+	0	ID=MGA_65;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIIKFEIILKDGKKMQAELFPELAPISVENFVNLIKNKYFDGLIFHRVIKDFMIQGGGMDVKMNEKGGLEPIKGEFSING;locus_tag=LOCUS_00650;note=WP_010966054.1 peptidylprolyl isomerase (Clostridium) [pid:52.0%25%2C q_cov:91.4%25%2C s_cov:42.0%25%2C Eval:1.7e-13%2C partial hit],internal stop codon at [35495:35497](+),MGA_65
sequence1	MetaGeneAnnotator	CDS	35543	35764	.	+	0	ID=MGA_66;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MARTNDMNSATSQFFIVTGDASFLDGQYASFGKLSNEESLKIALEISNCETTTHDYHDDVPTEPIIIETMNLI;locus_tag=LOCUS_00660;note=WP_011072524.1 peptidylprolyl isomerase (Shewanella oneidensis) [pid:44.4%25%2C q_cov:100.0%25%2C s_cov:48.2%25%2C Eval:9.8e-09%2C partial hit],internal stop codon at [35495:35497](+),MGA_66
sequence1	MetaGeneAnnotator	CDS	35891	36325	.	+	0	ID=MGA_67;product=50S ribosomal protein L11;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183506.1;translation=MAKRITRIAKLEFMAMQAKPGAELASLGINMPQFTQQFNDATKDRAGEVVPVVITAYDDKSFDFILKTTPAAFMLKKAAGITKGSSKSGTETVATITAEDVKKIAEYKMEDLNANTIEAAMRIIEGSARNMGIKVTGMPEKEGK;locus_tag=LOCUS_00670;gene=rplK;note=WP_011183506.1 50S ribosomal protein L11 (Mesoplasma florum) [pid:81.4%25%2C q_cov:97.2%25%2C s_cov:98.6%25%2C Eval:6.2e-60],MGA_67
sequence1	MetaGeneAnnotator	CDS	36328	36651	.	+	0	ID=MGA_68;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKLSKKLKAVNQKVDKTKLYPIAEAIKLAKETSVTKFDSTVEIAFNLNVDPRHADQQIRGAIVMPGGTGKTQKVLVLTKTKVKEAEDAKADFVGAEDLINKIAKEN;locus_tag=LOCUS_00680;note=WP_011183505.1 50S ribosomal protein L1 (Mesoplasma) [pid:69.2%25%2C q_cov:100.0%25%2C s_cov:47.1%25%2C Eval:1.2e-35%2C partial hit],internal stop codon at [36649:36651](+),MGA_68
sequence1	MetaGeneAnnotator	CDS	36685	37014	.	+	0	ID=MGA_69;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMAELGKIGKVLGPKGLMPNPKTGTVTMDVAKALDEIKKGKVEYRTDKEGNVHSILGKVSFNEENLMKNYTAIFDVIKKAKPAAVKGTYIKNISLSTTMGPGIKVLIEN;locus_tag=LOCUS_00690;note=WP_011183505.1 50S ribosomal protein L1 (Mesoplasma) [pid:72.0%25%2C q_cov:98.2%25%2C s_cov:47.1%25%2C Eval:3.6e-40%2C partial hit],internal stop codon at [36649:36651](+),MGA_69
sequence1	MetaGeneAnnotator	CDS	37213	37869	.	+	0	ID=MGA_70;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEHEIQPVLEKANIPYDYMICNNGAVIYENGKGVIANASIPKESREEIIKIFDTLKEKYVLGYCLKDKRMSYSKVDQPEVYDNFFLKKYASTHNNFEQGNHDILNSKDLNLLYFFLAESQIEEVKKLLEGKIKGCKAVRTHKNVIEIMREDVSKAYGIKVIQELNKFSSEDIYTSGDGENDIEMLQYTKNSFAMKNHQPGVDKAAKHIISNVFEIKNF;locus_tag=LOCUS_00700;note=WP_009930487.1 Cof-type HAD-IIB family hydrolase (Listeria monocytogenes) [pid:27.2%25%2C q_cov:87.6%25%2C s_cov:73.3%25%2C Eval:8.7e-10%2C partial hit],internal stop codon at [37171:37173](+),MGA_70
sequence1	MetaGeneAnnotator	CDS	37972	38337	.	+	0	ID=MGA_71;product=MerR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183148.1;translation=MDKIYLNELAKILKINESALRYYDSRGLIPKLQRDKNNYRFILEDDLAFPKTVICLKKTGMSLKEIKKYLDFVEQGDSSIKQRYEMILKQENIVLNKLKDIQEQIEFIEYKKGLYFKKLDK;locus_tag=LOCUS_00710;note=WP_011183148.1 MerR family transcriptional regulator (Mesoplasma florum) [pid:46.1%25%2C q_cov:95.0%25%2C s_cov:97.5%25%2C Eval:3.6e-27],MGA_71
sequence1	MetaGeneAnnotator	CDS	38343	38807	.	+	0	ID=MGA_72;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKILKTRKLGKDLIVSEIGLGCMGLSFSFPPFPTKQEAVDFIRKAYEKGVTFFDTAEIYGPFNNEEILGEALEPFRDKVVIATKFGFSYNDDGTRGGIDSSEKNIRRAIDGCLKRLRTSYIDLFYQHRVDPNTPIEEVAEVMKQLHKEGKIKH;locus_tag=LOCUS_00720;note=WP_011183149.1 aldo/keto reductase (Mesoplasma florum) [pid:72.7%25%2C q_cov:97.4%25%2C s_cov:45.4%25%2C Eval:2.8e-59%2C partial hit],internal stop codon at [38805:38807](+)%2C[38895:38897](+),MGA_72
sequence1	MetaGeneAnnotator	CDS	39428	39964	.	+	0	ID=MGA_73;product=hypoxanthine phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003013909.1;translation=MINIKHKLNLLISKQEIEKEITILANELNDKFQGEQISLIMILNGSVFFFADLARKLNMPIKMDTISISSYLGTESTRKVKFHKKIVKPIIENKHVLIIEDIIDTGRTLTNVYEYLQTLNPKTLEIITLADKEGCHEDFKYNYRSLFKVPNKFVVGYGFEIDDLYRQLDQIYTIEDEN;locus_tag=LOCUS_00730;gene=hpt;EC_number=2.4.2.8;note=WP_003013909.1 hypoxanthine phosphoribosyltransferase (Francisella tularensis) [pid:38.9%25%2C q_cov:92.1%25%2C s_cov:93.8%25%2C Eval:5.8e-26],MGA_73
sequence1	MetaGeneAnnotator	CDS	40212	40712	.	+	0	ID=MGA_74;product=50S ribosomal protein L10;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183500.1;translation=MSNARPAHAKKNEIVKEISDRIQNCKGMVIAEYKNLTVAQMTDLRNKAREKGIFIKVYKDSLVRRATEELKIKGLDAYLVQQNIYIFSDEEALFPSKLVSEFAKVNPDLVLKAGIYEGNVMDTAAINEIASLPSKEELYSMFASSLIYPLRQFMLTVKEIAKTKSQ;locus_tag=LOCUS_00740;gene=rplJ;note=WP_011183500.1 50S ribosomal protein L10 (Mesoplasma florum) [pid:61.0%25%2C q_cov:98.8%25%2C s_cov:98.8%25%2C Eval:2.6e-51],MGA_74
sequence1	MetaGeneAnnotator	CDS	40786	41151	.	+	0	ID=MGA_75;product=50S ribosomal protein L7/L12;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183499.1;translation=MAITKDDIIKALEEMKLTELNDLVKSIEDHFGVVAAAAVAAPAAAAGAAAPSEVSVMLTSAGGNKVSVIKLVKEMTGLGLMDAKKLVDGTLPVAIKENVKIEEAEEFKKQLMEAGASVDLK;locus_tag=LOCUS_00750;gene=rplL;note=WP_011183499.1 50S ribosomal protein L7/L12 (Mesoplasma) [pid:72.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.2e-40],MGA_75
sequence1	MetaGeneAnnotator	CDS	41204	41551	.	+	0	ID=MGA_76;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKSSKIYLLKDYITNTAIEVGEYSYFYSFQNEKGAREFQNRNILYHFPNVHKDKLIIGNFCAIAEDVKFLMNGANHRIDSISTYPFEMFKEFEFNEKTAKPFKSKGDTVIGHDV;locus_tag=LOCUS_00760;note=WP_001181527.1 CatB-related O-acetyltransferase (Leptospira interrogans) [pid:43.8%25%2C q_cov:95.7%25%2C s_cov:49.1%25%2C Eval:4.2e-20%2C partial hit],internal stop codon at [41549:41551](+),MGA_76
sequence1	MetaGeneAnnotator	CDS	41573	41731	.	+	0	ID=MGA_77;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPGVKIGNGSIIAAKAVVTKDVEPYSIVAGNPAKVKRMRFEKNKIKELEDLQ;locus_tag=LOCUS_00770;note=WP_010969125.1 CatB-related O-acetyltransferase (Sinorhizobium meliloti) [pid:63.3%25%2C q_cov:94.2%25%2C s_cov:22.7%25%2C Eval:1.2e-11%2C partial hit],internal stop codon at [41549:41551](+),MGA_77
sequence1	MetaGeneAnnotator	CDS	42278	42616	.	+	0	ID=MGA_78;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MESTGVEFKDSKGSLYFFEFKSKVGEKDAIQIEIKEDKEEFYLANIDIYKTGEVFFGEFPIMTDRGTFIINGSEKVVVSQLVRSPGSYFKEEMNRKNGEMIYFADIIPSRGT;locus_tag=LOCUS_00780;note=WP_011167152.1 DNA-directed RNA polymerase subunit beta (Mycoplasma mycoides) [pid:64.0%25%2C q_cov:98.2%25%2C s_cov:8.6%25%2C Eval:4.7e-35%2C partial hit],internal stop codon at [42011:42013](+)%2C[42101:42103](+)%2C[42263:42265](+)%2C[42614:42616](+),MGA_78
sequence1	MetaGeneAnnotator	CDS	42734	44401	.	+	0	ID=MGA_79;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKEQILDLFDNNEVISSSYELDTLTGDIEIDYENQVQEIYKKIRQGETATADGASKYLYGLLFDKRKYDLTKAGRFKLQQKLSVKNRLIGRVLAEDIIDVKGKVAFEKGTEITKDILDDLDKVLEAGAMVQKINFNEQITSGNEIQKVKVYKDNDLRDETATIIGITKKSKDEFINLPDIVATISYAINLMDGIGEIDDIDHLGNRRVRTVGELLQNQFRIGMMRIEKNVREKLATSNPFKMKPSSIINNKPLTAIIGEFFNLSQLSQFMDQTNPLAELTNKRRLTALGPGGLSRDRAALEVRDVHPSHYGRICPIETPEGPNIGLINNLSTYAKINEYGFIETPYRKVKNTKVMSGEYEYLTADKEKDYVVAQANINLGEDGTILDDQVIARYRGDDIMVSPKDVDYVDVSPKQIVSIATSCIPFLENDDANRALMGANMQRQAVPLINPESPIVGTGVEHEAARDSGDAVVATAPGIVKYVDSKKVVIEQKDGIKTYDLNDFSRSNNGTALTHLPIVKIGDKVKARDILADGPSMEKGELALGQNVVVAFTT;locus_tag=LOCUS_00790;note=WP_011167152.1 DNA-directed RNA polymerase subunit beta (Mycoplasma mycoides) [pid:65.6%25%2C q_cov:100.0%25%2C s_cov:43.0%25%2C Eval:2.4e-217%2C partial hit],internal stop codon at [42614:42616](+)%2C[44399:44401](+),MGA_79
sequence1	MetaGeneAnnotator	CDS	44630	45346	.	+	0	ID=MGA_80;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKVTPKSQTQLSPEDKLLHAIFGEKSRNVKDNSLRVPNGGEGIIKSIKRFSRVDGHDLPADILEIIKVYVVQKRKIQEGDKMAGRHGNKGVISKILPVEDMPHMEDGTPVDIMLNPQGVPSRMNIGQVLEIHLGMAAKKLGIKVNTPVFEGVKEQELQDIMEEAGMDNYGKVTLIDGQTGEAFDKPISVGVMYMLKLSHMVDDKLHTRNIGPYSLITQQPLGGKAQNGGQRFGEMEV;locus_tag=LOCUS_00800;note=WP_011183496.1 DNA-directed RNA polymerase subunit beta (Mesoplasma florum) [pid:82.7%25%2C q_cov:100.0%25%2C s_cov:18.9%25%2C Eval:5.6e-117%2C partial hit],internal stop codon at [44399:44401](+)%2C[45344:45346](+),MGA_80
sequence1	MetaGeneAnnotator	CDS	45370	45534	.	-	0	ID=MGA_81;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCISNPNPIISFVRTLNDSGIPGLGIGLDLTIDSYVLIRPLISSDLIVKISRNV;locus_tag=LOCUS_00810;note=MGA_81
sequence1	MetaGeneAnnotator	CDS	45509	45712	.	+	0	ID=MGA_82;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLGFDMHMIDQDGKKVQINAYDDDDDFEIDDELLLADSSFNEGDIAGFSETSEDDVITFDDESIEE;locus_tag=LOCUS_00820;note=MGA_82
sequence1	MetaGeneAnnotator	CDS	46043	46279	.	+	0	ID=MGA_83;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKVAPSRIASILDLKTKEVEEVVYFVSYIVLDPGSSKHLKKGMVLDLGNAKASLKTREKLLKTLEDIKAGIEPDTFS;locus_tag=LOCUS_00830;note=WP_011183495.1 DNA-directed RNA polymerase subunit beta' (Mesoplasma florum) [pid:64.7%25%2C q_cov:87.2%25%2C s_cov:5.3%25%2C Eval:2.8e-16%2C partial hit],internal stop codon at [45794:45796](+)%2C[46040:46042](+)%2C[46277:46279](+)%2C[46553:46555](+),MGA_83
sequence1	MetaGeneAnnotator	CDS	46334	46555	.	+	0	ID=MGA_84;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDEAATFISRYINAKFGIGANAIEDLLKNINLEKEIEKIRYDLKEKRGSSEQNKLMKRLEVLDSLKKSKSRPE;locus_tag=LOCUS_00840;note=WP_011167153.1 DNA-directed RNA polymerase subunit beta' (Mycoplasma mycoides) [pid:55.4%25%2C q_cov:100.0%25%2C s_cov:5.9%25%2C Eval:1.9e-15%2C partial hit],internal stop codon at [46040:46042](+)%2C[46277:46279](+)%2C[46553:46555](+),MGA_84
sequence1	MetaGeneAnnotator	CDS	46556	47074	.	+	0	ID=MGA_85;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILHVIPVIPPDIRPIIQLDGGRFTTSEINDLYRRIIIRNERLKKVKSMGAPSIIVNNEKRMLQEAVDALLDNERKPRPVTGKDKRPLKSLTSILKGKQGRFRQNLLGKRVDYSGRSVIAIGPDLKMYQAGIPRDMAITLFKPFIIRRLQEKDFAENVKVAEKMILTNDAKV;locus_tag=LOCUS_00850;note=WP_011183495.1 DNA-directed RNA polymerase subunit beta' (Mesoplasma florum) [pid:87.2%25%2C q_cov:100.0%25%2C s_cov:13.7%25%2C Eval:1.6e-81%2C partial hit],internal stop codon at [46553:46555](+)%2C[47072:47074](+),MGA_85
sequence1	MetaGeneAnnotator	CDS	47078	47611	.	+	0	ID=MGA_86;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLEEVIKDRPVLLNRAPTLHRLGIQAFEPKLVKGKAIRLHPLVTTAFNADFDGDQMAVHLPISDEAVAEARALMLGSKAILGPKDGKPIVTPTQDMILGNYYITTEEKGVLGEGTLFASYDEVKIAYETDSVSLNAIVAIPISELKNKKISDKHKDKFLITTVGKIFFNQMFVEEFP;locus_tag=LOCUS_00860;note=WP_011167153.1 DNA-directed RNA polymerase subunit beta' (Mycoplasma mycoides) [pid:70.8%25%2C q_cov:99.4%25%2C s_cov:14.2%25%2C Eval:3.5e-68%2C partial hit],internal stop codon at [47072:47074](+)%2C[47609:47611](+),MGA_86
sequence1	MetaGeneAnnotator	CDS	47738	47995	.	+	0	ID=MGA_87;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSIIERYFKLFGAQRTAQMLDNMKDLGFKFSSKSGTTISAADVVAYTQKFEDFKIADEKVTQITNFYNMGMLTKTEKKRRVITV;locus_tag=LOCUS_00870;note=WP_011167153.1 DNA-directed RNA polymerase subunit beta' (Mycoplasma mycoides) [pid:70.6%25%2C q_cov:100.0%25%2C s_cov:6.8%25%2C Eval:5.0e-29%2C partial hit],internal stop codon at [47609:47611](+)%2C[47993:47995](+),MGA_87
sequence1	MetaGeneAnnotator	CDS	48071	49291	.	+	0	ID=MGA_88;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MADSGARGNVSNFTQLVGMRGLMNDPKGDIKEIPIKSSFREGLTVSEYFISTHGARKGMADVALKTADSGYLTRRLVDISQEIIVTEDDCKTSKGFDVHSIIETKHDNIIVPLKDRLVGRFTFNDVVTKKGKTIVGANELITLQIADDIINAGIEEVQIRTVLTCDTNRGVCRKCYGINLATGEIVTIGEPVGVIAAQSIGEPGTQLTMRTFHTGGVAGGADITQGLPRIKELLDVTNPKGSIAIISQIDGVIKEAKEEEGIITIVVSSEQDERKYKSQYGAILRVSEGEVVTRGQKLTEGAINIKELLEVARIEDVQNYILKEVQKVYRLQGIEISDKYIEIIVKQMLNKVKIIDSGETELLPGEVISSRTFRNEVKIAIMAGKKPPLAKHVIFGIKKAPLESDS;locus_tag=LOCUS_00880;note=WP_011167153.1 DNA-directed RNA polymerase subunit beta' (Mycoplasma mycoides) [pid:70.3%25%2C q_cov:100.0%25%2C s_cov:32.4%25%2C Eval:8.0e-164%2C partial hit],internal stop codon at [47993:47995](+)%2C[49289:49291](+),MGA_88
sequence1	MetaGeneAnnotator	CDS	49560	49985	.	+	0	ID=MGA_89;product=ribose 5-phosphate isomerase B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_020862995.1;translation=MKIYIGNDHAGVDMKNHIVKYLKSNGYEVINIGTDNEDSVDYPDFGKEVAKKVVENKSFGIVICGTGIGISIAANKVKGARAALCYEDQTTILARQHNNANILALGARMIANEKAVRLVDIFLNTKFEERHKNRVEKLNNQ;locus_tag=LOCUS_00890;gene=rpiB;EC_number=5.3.1.6;note=WP_020862995.1 ribose 5-phosphate isomerase B (Mycoplasma mycoides) [pid:62.1%25%2C q_cov:97.9%25%2C s_cov:95.2%25%2C Eval:5.6e-39],MGA_89
sequence1	MetaGeneAnnotator	CDS	49999	50442	.	+	0	ID=MGA_90;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAFTIIKHPLILDKLTRMRKEDTSSKDFRENLNEIGQLMVYEIFRDVPIQEIDIKTPVTETKGYKLDIPVVLVPIIRAGLGMTEGIQRLVPTSRIAHIGLYRDEETLEPVQYFAKTTKDIENSYVIVVDPMLATGGSASKAIEIAKS;locus_tag=LOCUS_00900;note=WP_015545345.1 uracil phosphoribosyltransferase (Mycoplasma mycoides) [pid:75.3%25%2C q_cov:99.3%25%2C s_cov:70.5%25%2C Eval:5.4e-59%2C partial hit],internal stop codon at [50440:50442](+),MGA_90
sequence1	MetaGeneAnnotator	CDS	50935	51252	.	+	0	ID=MGA_91;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKNKGKIILISLVSMITCLLTILVLLKLVNYSLVTGYLLGSCFLYISLFFMKLAIKNLIDTLNPYNYMFIITLRIGFYIVPFLISFYLPNLFSIYGLVIAFVIN;locus_tag=LOCUS_00910;note=WP_011183005.1 MG406 family protein (Mesoplasma florum) [pid:34.0%25%2C q_cov:88.6%25%2C s_cov:70.2%25%2C Eval:9.7e-09%2C partial hit],MGA_91
sequence1	MetaGeneAnnotator	CDS	51331	51885	.	+	0	ID=MGA_92;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLADDKGFGDVIFAITPQLLSILITCIIICTFCIVYNVKIRNYKEDKKLTGFLVLTEMFITKVENMVITIMGKEYRKLTPYVMYLFMYIIVSSVVAILGIEPLTTSYTVTFSMGFVTFIGIYYYGLRYQKLAFFKRYYNPIEILGQFVPLISLSFRLFGNMLGGSILLGLLYASLIQLQGNIF;locus_tag=LOCUS_00920;note=WP_011183006.1 F0F1 ATP synthase subunit A (Mesoplasma florum) [pid:56.5%25%2C q_cov:92.4%25%2C s_cov:59.9%25%2C Eval:2.5e-54%2C partial hit],MGA_92
sequence1	MetaGeneAnnotator	CDS	52125	52445	.	+	0	ID=MGA_93;product=ATP synthase subunit C;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183007.1;translation=MFAQILTNLGGNFISVMPVYTTLLMFLAETKEVGQGLKLLGAGLTGMGMVGASIGQGIVGYGACIAIGRNPETAPKITSTLIITAGFAESGAIYALVIAILLIFVA;locus_tag=LOCUS_00930;note=WP_011183007.1 ATP synthase subunit C (Mesoplasma florum) [pid:58.0%25%2C q_cov:82.1%25%2C s_cov:84.6%25%2C Eval:1.3e-21],MGA_93
sequence1	MetaGeneAnnotator	CDS	52456	52980	.	+	0	ID=MGA_94;product=F0F1 ATP synthase subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011167042.1;translation=MNFMFLEAGIPNIIENLFPNLANFIAHILSTIIILILLTKLVYKPFRETIKERRKKISELLDDAVSKQAKANKNNKESFKILDSAKEESKMIMNSAKLSADNLKLEIMDNARAEAANIQKHAQKTIQLEKNEMYEQMRQEVIDLAFVAAEKLLNENISKDKNEKMIKDFINSLD;locus_tag=LOCUS_00940;gene=atpF;EC_number=7.1.2.2;note=WP_011167042.1 F0F1 ATP synthase subunit B (Mycoplasma mycoides) [pid:41.6%25%2C q_cov:95.4%25%2C s_cov:91.7%25%2C Eval:1.4e-34],MGA_94
sequence1	MetaGeneAnnotator	CDS	53541	54287	.	+	0	ID=MGA_95;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLKINEISEVIKKQIKEYGKNIIQSQEGTVASIGDGVALLFGLEDVMMGELLIFSNDIYGMALNLEEGAVGAVIMGDDSKIRQGDKVIRTCKVVETPVGDALLGRVLNGMGLPIDGNGPLKNKKFAPVEKIASGVMSRKSVNQPMETGIMSIDSIIPIGKGQRELIIGDRQTGKTAIAIDAIINQKGKNVKCIYVAIGQKESTVAQVVEKLKQAGSMEYTTVISASASESAPIQYIAPYTGVSIAEE;locus_tag=LOCUS_00950;note=WP_011183010.1 F0F1 ATP synthase subunit alpha (Mesoplasma florum) [pid:72.2%25%2C q_cov:100.0%25%2C s_cov:47.2%25%2C Eval:7.2e-102%2C partial hit],internal stop codon at [54285:54287](+),MGA_95
sequence1	MetaGeneAnnotator	CDS	54288	54881	.	+	0	ID=MGA_96;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKGDDVLIIYDDLSKHAIAYRTLSLLLRRPPGREAYPGDVFYLHSRLLERAARVNENFGGGSITALPIVETQAGDISAYIPTNVISITDGQIFLSEQLFNSGIRPAVDTGLSVSRVGSAAQIKAVKQVAGTLKLELAQYYELQSFAKFGSDLDETTKETLNHGQKIVELLKQRQYKPVAQIDQAILLLSIKERLIK;locus_tag=LOCUS_00960;note=WP_011167040.1 F0F1 ATP synthase subunit alpha (Mycoplasma mycoides) [pid:80.7%25%2C q_cov:100.0%25%2C s_cov:37.5%25%2C Eval:8.7e-88%2C partial hit],internal stop codon at [54285:54287](+)%2C[54879:54881](+),MGA_96
sequence1	MetaGeneAnnotator	CDS	54882	55115	.	+	0	ID=MGA_97;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPLSEMINFKEAVFYHFENDKNAKALRKMLDAQKEFSDNLYACVKSQLILVLKNITSKLKGYKIEDYGKNEEYESLN;locus_tag=LOCUS_00970;note=MGA_97
sequence1	MetaGeneAnnotator	CDS	55117	55350	.	+	0	ID=MGA_98;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANLSELKAGITSIKDIGKITGAMELVATAKLKKISKRMGNIQTYLDEVYDVFNYIISHSEDSIYLKKPNQILNNTL;locus_tag=LOCUS_00980;note=WP_011167039.1 ATP synthase F1 subunit gamma (Mycoplasma mycoides) [pid:49.4%25%2C q_cov:100.0%25%2C s_cov:27.5%25%2C Eval:8.5e-13%2C partial hit],internal stop codon at [55348:55350](+),MGA_98
sequence1	MetaGeneAnnotator	CDS	55555	55968	.	+	0	ID=MGA_99;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSVNLLNYFVQKEFDQIKIVYTKFINNVTFEPTVLDMFPIEKKLDENDLHQDLILEPDPETVLTTSVSMYLNTILFGTIIESQVSEHASRRMAMEAANKNGKELSENLSVVFNRKRQENITQEISEIIGGANAQNED;locus_tag=LOCUS_00990;note=WP_011183011.1 ATP synthase F1 subunit gamma (Mesoplasma florum) [pid:61.2%25%2C q_cov:94.2%25%2C s_cov:45.9%25%2C Eval:5.9e-38%2C partial hit],internal stop codon at [55348:55350](+),MGA_99
sequence1	MetaGeneAnnotator	CDS	55980	57377	.	+	0	ID=MGA_100;product=F0F1 ATP synthase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183012.1;translation=MTEKITQGKVVQVMGPVVDVKFKQEDMPKLYNTIELNNNGTKLVLEVVQHIGDDLVRTIAMGPTEGLVRGIIGTNTGGPISVPVGDKVLGRMFNVLGDPIDDKPPVKGERMPIHRLAPNYDELATSAEILETGIKVIDLMMPFAKGGKIGLFGGAGVGKTVLVQELINNVAKAHGGISVFAGVGERTREGNDLYFEMIDAGVIDKTSLVFGQMNEPPGARMRVALTGLTIAEYFRDIKNQDVLLFIDNIFRFTQAGSEVSALLGRMPSAVGYQPTLATEMGALQERITSTQKGSITSVQAVYVPADDLTDPAPATTFTHLDASVVLDRTIASLGIYPAIDPLNSNSRMLDPQIVGENHYQIALKVQETLQKYKELQSIIAILGMEELSEEDKIVVNRARKIRNFMSQPFTVGEKFTGRGGKYVAVKDTVSSFESILNGSLDHIPEILFMYAGSVEEVIERFQDKK;locus_tag=LOCUS_01000;gene=atpD;EC_number=7.1.2.2;note=WP_011183012.1 F0F1 ATP synthase subunit beta (Mesoplasma florum) [pid:75.0%25%2C q_cov:99.8%25%2C s_cov:96.9%25%2C Eval:5.7e-201],MGA_100
sequence1	MetaGeneAnnotator	CDS	57377	57664	.	+	0	ID=MGA_101;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183013.1;translation=MQLTKLKIITPDGVYIDDLEVEYANVKTSDGQITVYANHTSIVSTLLIGDMKYEIDGAKKYIHLHRGIIRVSKDQIKILTQRLYEVDEKGQRIKK;locus_tag=LOCUS_01010;note=WP_011183013.1 hypothetical protein (Mesoplasma) [pid:42.0%25%2C q_cov:92.6%25%2C s_cov:88.9%25%2C Eval:4.1e-15],MGA_101
sequence1	MetaGeneAnnotator	CDS	57676	58251	.	-	0	ID=MGA_102;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGTISRIAVKLGYKVEIVSNDKDTYQLVCDDVKVVSQQSKKCKQEIITKKEVFEKFGCKPCQIPDIKSLLGDQSDNIKGVRGMHYNTATKLVAKYGCVENIYKNLNDFPEEQRKKLELCKEKVLMNKQIAKILKNVDIGRINFKPLRINYIRFMGFLKREKMWAFTKMIEDKVKQQVSYREKIKTEIQELS;locus_tag=LOCUS_01020;note=WP_011182952.1 5'-3' exonuclease (Mesoplasma florum) [pid:43.2%25%2C q_cov:95.8%25%2C s_cov:57.7%25%2C Eval:3.7e-40%2C partial hit],internal stop codon at [58285:58287](-)%2C[58396:58398](-),MGA_102
sequence1	MetaGeneAnnotator	CDS	58396	58605	.	-	0	ID=MGA_103;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKKKVVIIDGYHLLHKGYYGSLKRKKVAINRDGVLINAVYVFVANVFQLVQSNEYHTVLVTFDVGKEC;locus_tag=LOCUS_01030;note=WP_011182952.1 5'-3' exonuclease (Mesoplasma florum) [pid:60.3%25%2C q_cov:98.6%25%2C s_cov:21.5%25%2C Eval:2.4e-20%2C partial hit],internal stop codon at [58285:58287](-)%2C[58396:58398](-),MGA_103
sequence1	MetaGeneAnnotator	CDS	58618	59214	.	-	0	ID=MGA_104;product=YigZ family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_164919770.1;translation=MIILKTLISKNIITRSFLTKKSRFITYISKVTNKTELENFIKKHSDKSATHNCYAFKYGHDGLNYGYNNDGEPNGTAGEPLLKLIEVNNVTDIIIFVKRYYGGIKLGTGGLQKAYTNSAIEIIKESEFKKLRLLNQIEINFKIADIKIINLFLIKKAEEVNYTYANDLVTAQFKLDEIKKLDFIKDKINILKIKQGYY;locus_tag=LOCUS_01040;note=WP_164919770.1 YigZ family protein (Mesoplasma florum) [pid:45.7%25%2C q_cov:89.9%25%2C s_cov:98.9%25%2C Eval:5.9e-36],MGA_104
sequence1	MetaGeneAnnotator	CDS	60165	60452	.	+	0	ID=MGA_105;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIQSFGIGLYAPAMATLSFLGLQQEVVFPIMACGSALCMLPAAHTFIKRKKYLQQTSNLIMISAIFGVVCSFLLIFVGLQMGAGMDKRTFDIVLK;locus_tag=LOCUS_01050;note=WP_009891694.1 TSUP family transporter (Clostridioides difficile) [pid:39.2%25%2C q_cov:77.9%25%2C s_cov:25.3%25%2C Eval:4.9e-08%2C partial hit],internal stop codon at [60123:60125](+),MGA_105
sequence1	MetaGeneAnnotator	CDS	60547	61443	.	+	0	ID=MGA_106;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLYNRLEKELKIRKEDKLYNIIKILEGAQSDIVKINNKDFLNMCSNNYLGFANDPITVKAIKEAVDKYGVGPGAVRSISGSYSVHSEFERVLADFKKSEDALVVQSGFQANTGLIPTITTEEDLIISDELNHASIIDGIRLSKAKRAVYKHCDMEDLEKILKENSNKVNGNIFIITDGVFSMDGDIAPLDKISVLAKKYNAYSIVDDAHGEGVLGPNGQGSIAHFGLEGKIDIEVGTLSKAYGLVGGFICGKSVLIEYLKQKSRVFLFSSSLQTGICYAGIKIVKEMQKSNERIKKL;locus_tag=LOCUS_01060;note=WP_002680038.1 glycine C-acetyltransferase (Treponema denticola) [pid:52.7%25%2C q_cov:98.0%25%2C s_cov:73.7%25%2C Eval:2.4e-81%2C partial hit],internal stop codon at [61441:61443](+),MGA_106
sequence1	MetaGeneAnnotator	CDS	61525	61737	.	+	0	ID=MGA_107;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVGEEAIATELTKILFEKQILVSPIIYPTVAKGKARIRLMISSLHSKEELDKVYKIITEEFEKIKTKGDK;locus_tag=LOCUS_01070;note=WP_012870375.1 glycine C-acetyltransferase (Thermanaerovibrio acidaminovorans) [pid:52.0%25%2C q_cov:71.4%25%2C s_cov:12.7%25%2C Eval:9.6e-09%2C partial hit],internal stop codon at [61441:61443](+),MGA_107
sequence1	MetaGeneAnnotator	CDS	61740	62012	.	+	0	ID=MGA_108;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVLITGALGQIGSELVSRLRKDLGIDNVIATDIRKLDDNFICDEGIFEKLDVTDYNSFLKLAKDNKVDTIVHLAALLSATAEKNPKFA;locus_tag=LOCUS_01080;note=WP_000723125.1 L-threonine 3-dehydrogenase (Bacillus) [pid:64.4%25%2C q_cov:100.0%25%2C s_cov:27.7%25%2C Eval:1.4e-23%2C partial hit],internal stop codon at [62010:62012](+),MGA_108
sequence1	MetaGeneAnnotator	CDS	62022	62576	.	+	0	ID=MGA_109;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTGLMNALEIAKELKTKFFAPSSIAAYGPDAQPDNTPQDTVMNPTTMYGVTKVAGELLENYYNRKYNVDSRSVRFPGLISYKVEPGGGTTDYAVDIYYQALLTGKYECYIDKGTKMDMMYMDDAIDAIVKLMNADEKRLVHRNSFNITAMSFAPEEIFESIKKYIPNFKMEYKVDPVRQKIAES;locus_tag=LOCUS_01090;note=WP_002289187.1 L-threonine 3-dehydrogenase (Enterococcus) [pid:69.6%25%2C q_cov:100.0%25%2C s_cov:58.0%25%2C Eval:1.2e-69%2C partial hit],internal stop codon at [62010:62012](+)%2C[62574:62576](+)%2C[62613:62615](+),MGA_109
sequence1	MetaGeneAnnotator	CDS	62917	65055	.	+	0	ID=MGA_110;product=preprotein translocase subunit SecA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182954.1;translation=MARDKSIVKKHGKIADEIISLEADYEKLSEADLLNKTQEFKERLANGETLDDLLVEAFAVVREVAFRVLKLKAYKVQLIGAIILHQGDIAEMRTGEGKTLTGLFPAYLNALSGQGVHVVTVNEYLSRRDSEINGQVYDMLGISVGLNGRDLSKEQKRNAYAKDITYTTNSELGFDYLRDNMVYRLDQKVQRKLNFAIIDEADSILIDEARTPLIISGGSQNRINLYKAADAFSKSLDEKTDIEIDLESKQVYLIEPGIQKAHKFFSIDNLFDFRNTEVFHLIMNALKAMFTFKKEVEYTVQGNEIILIDQFTGRTMPGRAYSDGLQQALQAKEDVEIEEETTTLATITYQNFYRLYNKLSGMTGTAKTEEEEFLKIYNTRVIVCPTNKPIIRVDEPDLTFGTINAKLKHLVKDLEEVKNAGRPILIGTTSVDSSEQVSHYLEKAGLKFEMINAKNHHREAEIVEKAGQVGSITLATNMAGRGTDIKLSEEAKKNGGLFVMGIERNEARRIDNQLRGRAGRQGDPGSSRFYISMEDELMIRFSAPKLRQMFLKLGDDHIKSRLFTRAITNAQKKLEGLNFDQRKNVLDYDNILSQQREAIYSQRDSILEQETLKGVIARFQYTIAYEIVERNSELVRGERTINIPSLIKEIDSRFVIEGSLTENDFSGLEKGQIAKKISENMMELYLSKTSSVPQEVISEMERRTILQSLDYH;locus_tag=LOCUS_01100;gene=secA;note=WP_011182954.1 preprotein translocase subunit SecA (Mesoplasma florum) [pid:68.7%25%2C q_cov:99.7%25%2C s_cov:75.3%25%2C Eval:3.1e-284],internal stop codon at [65053:65055](+),MGA_110
sequence1	MetaGeneAnnotator	CDS	65170	65325	.	+	0	ID=MGA_111;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIMIAEETIIKLYGSFVREVSQEGKNLEFRNDEPKTINISDKDIDQILEE;locus_tag=LOCUS_01110;note=MGA_111
sequence1	MetaGeneAnnotator	CDS	65455	65817	.	+	0	ID=MGA_112;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLDEVFAQQQKTTEVPFEEVERMMTKFKLKKTFTAKDVKTSYEKLIKKETDEKEKTKLLIETQILTALAAELEKRQKEFKIVDEKGKVKKTFKTNPDGSISEDDIEDTEQVQTKTKIG;locus_tag=LOCUS_01120;note=MGA_112
sequence1	MetaGeneAnnotator	CDS	65952	66578	.	+	0	ID=MGA_113;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MESTNQKFSLVTEYKPDGDQPKAIEKLIHGLKNNVKHQVLMGATGTGKTFTMANVIQEMNKPTLVLAHNKTLAMQLYIELKELFPNNRVEYYVSNFDFYQPEAYIPSRDLYIDKDAKRNNDLEMMRLSSMNALMIRRDTIVVASVACIYATQDPKEYGDVFFELEVGQLLSKKELLTFLVQTGYTRDETDLSMGYFSAKGDVIRIAPS;locus_tag=LOCUS_01130;note=WP_164919771.1 excinuclease ABC subunit UvrB (Mesoplasma florum) [pid:69.1%25%2C q_cov:98.1%25%2C s_cov:30.6%25%2C Eval:2.4e-78%2C partial hit],internal stop codon at [66576:66578](+)%2C[66777:66779](+),MGA_113
sequence1	MetaGeneAnnotator	CDS	66606	66779	.	+	0	ID=MGA_114;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFGDEIEAIEMIDVLNNTVLEKIRMFTVYPAAAYVTNFDKMKLVVENIGKELNQRVQ;locus_tag=LOCUS_01140;note=MGA_114
sequence1	MetaGeneAnnotator	CDS	66819	67937	.	+	0	ID=MGA_115;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRTKYDMETMSEFGICSGIENYSPHLDFRSPGTPPFTLIDYFGDDFLTIIDESHMMIPQLNAMYNTDRSRKETLVEHGFRLPSAIDNRPLKFEEFAGKLKNVIYTSATPGPYELDLVDNDVIEQIIRPTGLVDPQIEIRSTVNQMNDIVDEINKVVAKKQKVFITAITIRISEDITTYLQSRNLKVAYLHSELKTLERNQVLTDLRKGVYDVIVGVNLLREGLDIPEVSLVCILDADKQGFLRNTRSLIQTIGRAARNSEGRVIFYADSTSPAMKEAIEETDRRRNIQQEYNKLHGITPTTIIKKITDIISDSNIRNKVDELKKLKKKEKEKKKEDLISDLRKQMLTAAKEQNYEKAAELRDLILELQAEG;locus_tag=LOCUS_01150;note=WP_164919771.1 excinuclease ABC subunit UvrB (Mesoplasma florum) [pid:62.5%25%2C q_cov:99.5%25%2C s_cov:55.6%25%2C Eval:1.2e-134%2C partial hit],internal stop codon at [66576:66578](+)%2C[66777:66779](+),MGA_115
sequence1	MetaGeneAnnotator	CDS	67949	68923	.	+	0	ID=MGA_116;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKIIIKGAREHNLKNIDIEIPKEKLVVFTGLSGSGKSSLAFNTIYAEGERRYIESLSSFSRQFLKSVEKPDVDEIEGLSPAISIDQKTTSHNPRSTVGTTTEIHDHLRLLFANIGTPFCVNGHGPIKTSSLKEIIETLKKETKEDDQIFILAPVVRDKKGTHKDLFIKLKRENFLRVQINGEVRNLEEDIQLEQNKRHNIDIVVDRLIFKAGDEELQSRIYSAIEVGLGYSNGLIKIYYPKRNNETKLFSTKYSCSECGFSIPNLEANLFSFNKKNGACETCSGLGVNLEADPGLIIPDSSLSIREGGILYYKNIVDSTNIE;locus_tag=LOCUS_01160;note=WP_011182956.1 excinuclease ABC subunit UvrA (Mesoplasma florum) [pid:65.5%25%2C q_cov:100.0%25%2C s_cov:34.1%25%2C Eval:1.1e-122%2C partial hit],internal stop codon at [68921:68923](+),MGA_116
sequence1	MetaGeneAnnotator	CDS	69167	69634	.	+	0	ID=MGA_117;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMSKVCKTCKGKRLNDIALSVKINDLSIADFVELTIEEELTFLLNLNLTEQQAKIASLVLNQLVSRISFLNEVGLNYLTLSRSATTLSGGEAQRIRLAKQLGSKLSGVLYVLDEPSIGLHQRDNDKLITTLKKLRDLGNTLIVVEHDEDTMKASD;locus_tag=LOCUS_01170;note=WP_011167092.1 excinuclease ABC subunit UvrA (Mycoplasma mycoides) [pid:72.9%25%2C q_cov:100.0%25%2C s_cov:16.4%25%2C Eval:6.3e-59%2C partial hit],internal stop codon at [68921:68923](+)%2C[69632:69634](+),MGA_117
sequence1	MetaGeneAnnotator	CDS	70331	70789	.	+	0	ID=MGA_118;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTVQEAHDFFENIPKIREKLETILAVGLGYIKLGQNATTLSGGEAQRVKLSTFLLKRQTGKTLFLLDEPTTGLHIDDVKRLISVLNILVDQGNTVLTIEHNLDFIKVSDYVIDLGPEGGSGGGTILATGTPEQIIENKESFTAKYLKEYLND;locus_tag=LOCUS_01180;note=WP_011167092.1 excinuclease ABC subunit UvrA (Mycoplasma mycoides) [pid:74.7%25%2C q_cov:98.7%25%2C s_cov:15.9%25%2C Eval:1.3e-61%2C partial hit],internal stop codon at [70190:70192](+)%2C[70316:70318](+),MGA_118
sequence1	MetaGeneAnnotator	CDS	70782	71120	.	+	0	ID=MGA_119;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISVEENLIPSEIIFKKSYNLKKLLEDLGNPQNSFKVINVVGTNGKGSTSQFIFSGLKTKFKKVGLFISPAFLNQNERIQYNSKMISDEDLKRILSKNEKLIKKYELTFFEI;locus_tag=LOCUS_01190;note=WP_011182957.1 Mur ligase family protein (Mesoplasma florum) [pid:64.3%25%2C q_cov:100.0%25%2C s_cov:30.4%25%2C Eval:5.7e-33%2C partial hit],internal stop codon at [71118:71120](+),MGA_119
sequence1	MetaGeneAnnotator	CDS	71226	71735	.	+	0	ID=MGA_120;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAVCVTSLGLDHQEILGETIEEIIYQKLNIAKENVKIFLSADNIKYKKIIKTINDNPKVFTKKFIDPVYFQSFNKGLAKAVLNYLGIAVDSFNEAPLGRYSLLRSDPIFIIDGCHNHNGALKLSKQIKDIEDLIILFGASEGKNYKRILNVFRKRKKNIFLTEFDHKKS;locus_tag=LOCUS_01200;note=WP_009903674.1 folylpolyglutamate synthase/dihydrofolate synthase family protein (Clostridioides difficile) [pid:26.5%25%2C q_cov:93.5%25%2C s_cov:47.2%25%2C Eval:1.5e-09%2C partial hit],internal stop codon at [71118:71120](+),MGA_120
sequence1	MetaGeneAnnotator	CDS	71881	72096	.	+	0	ID=MGA_121;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLYLYTNIAAIFLILGILLCALALENFTFKKISLKHLTVISLFAACSAVLTGFTYKLPPIIGNTHIALGD;locus_tag=LOCUS_01210;note=MGA_121
sequence1	MetaGeneAnnotator	CDS	72169	72351	.	+	0	ID=MGA_122;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIVMPSSYGYHAGYMFGKCVLAFFGSLVFLTRAQNRILLKIIILYSIAYIFQSLILNQI;locus_tag=LOCUS_01220;note=MGA_122
sequence1	MetaGeneAnnotator	CDS	72600	73529	.	+	0	ID=MGA_123;product=HPr(Ser) kinase/phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182959.1;translation=MSKLYAKKIIDEFKLEVVSGQDKIENKIDVYGINRAGLELTGYFESGEKSHRIIVMSTKEYLYIMNFEEKERRLRYQKLFSRNIPMIILTDKFEDKLAITVAKESNSLLVRTRTESTSDFTQNVLEFMDDYFAPLIEVHASCVNIFGKGVLLIGESGIGKSEITLDLVKTNHLFVGDDRIVITKKSNELYGKSHEILKNLVEVRGIGIVDVSQTNGYQVILEKTKIDLVIELTQFKKNGIDDSERLGTSFATYEILGASVPYIKIPVSSGRNIPNIIEAAVAKLKIKQSGLYKDETQILSERAIKFNND;locus_tag=LOCUS_01230;gene=hprK;note=WP_011182959.1 HPr(Ser) kinase/phosphatase (Mesoplasma florum) [pid:50.3%25%2C q_cov:97.7%25%2C s_cov:98.1%25%2C Eval:2.3e-85],MGA_123
sequence1	MetaGeneAnnotator	CDS	74593	74877	.	+	0	ID=MGA_124;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFEKNRFISFLKSDSKELYEINNPNSYKIIHSGVLAGIYIVGYTMIRVILDQLRNPYELTVKNNVVLNSLFLTGFLILGLSIIIFAQFIAPKK;locus_tag=LOCUS_01240;note=MGA_124
sequence1	MetaGeneAnnotator	CDS	74897	75829	.	+	0	ID=MGA_125;product=thioredoxin-disulfide reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182961.1;translation=MKNHINVDYDLIIAGAGPAGLSAAIYAGRAGLNVLVLEKEAPGGKVIKTGEIENYPGFTNIQGPDLAMHFFEQATAMGANFEFSGLKDFEKKEVFSVILENGKILKSKALIIATGTKENLLGVPGEIELYGKGVSYCAVCDGSFYKEMPVAVVGGGYSAIEESIFLTRFVSKVYLIHRSKKFRVDNKTLEKAKSNEKIVFILDSIVESIQGSEKVSSIKIKNTIENKVLEIEVNAIFPFIGHYPVTNFVKQIQILNEEKHVVGDERMKTKIEGLFVAGDVRNTPFRQIATATSDGAIAGQNAVNYIENLD;locus_tag=LOCUS_01250;gene=trxB;EC_number=1.8.1.9;note=WP_011182961.1 thioredoxin-disulfide reductase (Mesoplasma florum) [pid:51.1%25%2C q_cov:99.7%25%2C s_cov:100.0%25%2C Eval:2.8e-91],MGA_125
sequence1	MetaGeneAnnotator	CDS	76925	77182	.	+	0	ID=MGA_126;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYQRTLSLTIIALSMFFGLLVALMAQFVFPYLFRATGFIYEQEYFYLDHENNKEFKKEIQTKKIEKNKIKEEKARQKLKEKLEKK;locus_tag=LOCUS_01260;note=MGA_126
sequence1	MetaGeneAnnotator	CDS	77193	77564	.	+	0	ID=MGA_127;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSFAMEVKEEILNHTFTNEQKIMLLSGFIKYNGEIIYTNSGVALKLTSNSNNVIRNIFSILKTVYNGKIEISIIQIKKLRNNKTYQLMLTENVIDFLTTNNIFQPALANKIIEINLEKYIKKT;locus_tag=LOCUS_01270;note=WP_011182963.1 DNA-binding protein WhiA (Mesoplasma florum) [pid:46.6%25%2C q_cov:83.7%25%2C s_cov:32.5%25%2C Eval:1.1e-20%2C partial hit],internal stop codon at [77562:77564](+),MGA_127
sequence1	MetaGeneAnnotator	CDS	77730	78140	.	+	0	ID=MGA_128;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRNKIVCYIKKSIAVSDFLKFMDASISVMKFENTRINRDVSNNINRMINIDIYNQQKSSETGLKQIREINKIMKNNLISELSPKAQLLSQIRLENPDASFSELEILMNDRNVSITKSGISNLFRIISKLANTIGE;locus_tag=LOCUS_01280;note=WP_011182963.1 DNA-binding protein WhiA (Mesoplasma florum) [pid:56.4%25%2C q_cov:96.3%25%2C s_cov:42.0%25%2C Eval:1.0e-34%2C partial hit],internal stop codon at [77562:77564](+),MGA_128
sequence1	MetaGeneAnnotator	CDS	78143	78361	.	+	0	ID=MGA_129;product=helix-turn-helix transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182964.1;translation=MEKNIIRTFSKNMKRLRVDAKLTQEELSFSSELHRNYISDTERGKRNISLKSVEKIAKALNVEPIEFFRDID;locus_tag=LOCUS_01290;note=WP_011182964.1 helix-turn-helix transcriptional regulator (Mesoplasma) [pid:44.1%25%2C q_cov:94.4%25%2C s_cov:87.2%25%2C Eval:2.8e-11],MGA_129
sequence1	MetaGeneAnnotator	CDS	78396	78566	.	-	0	ID=MGA_130;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKKNKILIIDEDSRSHLSIYKSLRIKGFKSYIFYDGYKNIKDNPKFDKLTKVVIY;locus_tag=LOCUS_01300;note=MGA_130
sequence1	MetaGeneAnnotator	CDS	78955	79248	.	+	0	ID=MGA_131;product=preprotein translocase subunit SecG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182965.1;translation=MNLLAGTASQQTLANQIILGFEILGLIVSILMIIVGLVQNKSSQTGLSALNGGNDELFSNSKERGMDKTTSIWMFSLGITLFIITIVMGIISNTVLS;locus_tag=LOCUS_01310;gene=secG;note=WP_011182965.1 preprotein translocase subunit SecG (Mesoplasma) [pid:61.4%25%2C q_cov:85.6%25%2C s_cov:94.3%25%2C Eval:2.4e-23],MGA_131
sequence1	MetaGeneAnnotator	CDS	79277	79414	.	+	0	ID=MGA_132;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNIILERLKKKEKMHLNDLINNMNEKYESVTDALRILQEDHLIG;locus_tag=LOCUS_01320;note=MGA_132
sequence1	MetaGeneAnnotator	CDS	79439	80698	.	+	0	ID=MGA_133;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGEKYKIGSIKINDKGFGFIKELNSEDDDFFVPPNGLNGSISSDEVIFTVQKENDDRFKANVEDVILRTKTSLIGEIRKSNCGRFMDFIPNEPGFKNYRIVLVNSKDYKLKEDLIIKVKILDVRDRKLFTRIQKIIGDANKAIDRIISIAYEFEIKPEFNKLTLDNAIEVAKPIDYKDEKIKRRLSNSLINKNLVTIDGADSKDLDDAIYVEKTNNGYKLIVAIADVSYYVTPFSPLDNTALFRGNSVYLANKVIPMLPEKLSNGVCSLNPNEEKLCMVAEMDFDLKGNVISKKVYESIMISKARLTYKEVNELYNNNKVEIKKEIIDMLMTAKELHEIIDLERSNRGAIEFDIAEPKIILDKDSNVIEIAKRGRGISEKLIENFMVSANECVASIIFEKKLPFIYRNHDVPKEENLIE;locus_tag=LOCUS_01330;note=WP_011183106.1 ribonuclease R (Mesoplasma florum) [pid:53.8%25%2C q_cov:99.8%25%2C s_cov:59.5%25%2C Eval:1.5e-120%2C partial hit],internal stop codon at [79412:79414](+)%2C[80696:80698](+),MGA_133
sequence1	MetaGeneAnnotator	CDS	80708	81373	.	+	0	ID=MGA_134;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRALGVNVKLTDLDKINPKMIKQALSQIESQITDSTERDVINVTLLKFMEKAAYELENIGHFGLASACYTHFTSPIRRYSDLIVHRFLKQYLISKDLREQKLEQNKNFVLKACAIINDTEKQAVSAEREVNKVCMAEYMQSKIGQEYEGIVAAVLKFGIFVQLENCVEGLIHISELPDFTFEEKTNIMVNKQNKIFRLGQKIKIKVKNADVKKRIIDFVLV;locus_tag=LOCUS_01340;note=WP_011167012.1 ribonuclease R (Mycoplasma mycoides) [pid:55.0%25%2C q_cov:100.0%25%2C s_cov:31.5%25%2C Eval:8.5e-69%2C partial hit],internal stop codon at [80696:80698](+),MGA_134
sequence1	MetaGeneAnnotator	CDS	81550	81828	.	+	0	ID=MGA_135;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEILNMNIKNYEFANNIKLDATRNRILLLHKSEIKKIIKRVQLENLTLVPLKLYLKDNLAKLELGLAKGKREIDKRETIKKRDIERRLNKIK;locus_tag=LOCUS_01350;note=WP_011183107.1 SsrA-binding protein SmpB (Mesoplasma florum) [pid:61.6%25%2C q_cov:92.4%25%2C s_cov:57.7%25%2C Eval:7.1e-23%2C partial hit],internal stop codon at [81451:81453](+),MGA_135
sequence1	MetaGeneAnnotator	CDS	81961	82101	.	+	0	ID=MGA_136;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIPMTIATKKSIGDNKPHIALGICSIFFMGILGFICGILILIPEEN;locus_tag=LOCUS_01360;note=MGA_136
sequence1	MetaGeneAnnotator	CDS	82155	82610	.	-	0	ID=MGA_137;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKTSKGLGLAGVIISIVFSSLVTVIAILGAIALQQEPGLIESDIVTTFVIGFLIVSLGISLILYILILVFLKSKNEKRILAAGIIEIVVSGLSLLTILTSTYALLSLIPSALMLASGIMICVEYNKFKKENNTNLNPTVNVTENDQNKEV;locus_tag=LOCUS_01370;note=MGA_137
sequence1	Aragorn:1.2.38	tmRNA	82781	83196	.	+	.	ID=Aragorn_1;product=transfer-messenger RNA;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_tm00010;note=Aragorn_1
sequence1	MetaGeneAnnotator	CDS	83645	83782	.	-	0	ID=MGA_138;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKLSSDGAVLIVDNAQIRPTISILIVVIDQLDHFEILIQKVEII;locus_tag=LOCUS_01380;note=MGA_138
sequence1	MetaGeneAnnotator	CDS	83811	85187	.	+	0	ID=MGA_139;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAYAYIAVINQIYLHALKLQNIVVYDNTYYLNFTSAHDQILNKIQDEKYKYGLYITYFISNFEKFESKVNGYIREQVVNSISEESYNLLQEEFPKAIFFKPNYKTFGVFVPFELKEDFSEKNNLKLEKIKSIFSTVNTSFNISNYKISVKLKSVCSFYGLHSNNLDTLLEYNLHVENDLLLKYQDENIVVNPMEIIKEKNQNKKMLSLNEIANLNQFVTLFEPIYYTRTNDFEYYFLNGLIDGLEINADEFSQKNKLIFDMGLSTLFLRYTSFHSLKKMAKQSEKIKNKKFFISYDSNYLSDKEFDAEEFILKLKNLKIDLSKIVLNFDINKEVDDKKELEKNIEKLKSHSIQISISNFGSLKTDFALLNSYKPEFIFLENEISKKINFVKENEKIVIESLKIANKLEAKLVASSVNSYLIYKHLKLLGVELFTGELIGSSVEPRENISDELKYLLNK;locus_tag=LOCUS_01390;note=MGA_139
sequence1	MetaGeneAnnotator	CDS	85208	85663	.	+	0	ID=MGA_140;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLEREEKLKTLSEEIEKVINANNIKELRKLEEEHYPQDIAEALEKLEDKITIVALRLFTNDTSSEIFPHLDADIQEEIINKMSSKQVSLLFSELYTDDIVDILEEMPSNIVKKILRSSTPETRAQINSILKYNDDTAGSIMSVDYTRFKIN;locus_tag=LOCUS_01400;note=WP_011183114.1 magnesium transporter (Mesoplasma florum) [pid:41.3%25%2C q_cov:94.7%25%2C s_cov:30.6%25%2C Eval:1.7e-29%2C partial hit],internal stop codon at [85661:85663](+),MGA_140
sequence1	MetaGeneAnnotator	CDS	85820	86053	.	+	0	ID=MGA_141;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDERVIFARTKDDQESVIELFKKYDITTLPVINVQQKLVGIVTVDDVLDVIEEEVTEDIHKMAGISPTDDEYFKTSI;locus_tag=LOCUS_01410;note=WP_005898141.1 magnesium transporter (Fusobacterium nucleatum) [pid:46.8%25%2C q_cov:100.0%25%2C s_cov:17.4%25%2C Eval:8.2e-16%2C partial hit],internal stop codon at [85661:85663](+)%2C[86051:86053](+)%2C[86078:86080](+),MGA_141
sequence1	MetaGeneAnnotator	CDS	86093	86455	.	+	0	ID=MGA_142;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSATFSQIIISVFIKIYHSKSGSQGISDQNSISYIIMILLAPLLTVISGTTGNAGSQSSTMIVRALSLKEVETKDYARVMWKEFRVAIITGLILVTVNFVRMIIIYSIEFKGNLSNPNL;locus_tag=LOCUS_01420;note=WP_011986205.1 magnesium transporter (Clostridium botulinum) [pid:44.6%25%2C q_cov:61.7%25%2C s_cov:16.7%25%2C Eval:1.6e-14%2C partial hit],internal stop codon at [86051:86053](+)%2C[86078:86080](+)%2C[86453:86455](+),MGA_142
sequence1	MetaGeneAnnotator	CDS	86410	86709	.	-	0	ID=MGA_143;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFFVQFLFLNLILNSYIKNYIKKIKPTEKNKAVDNASTRVVNNGDAIIAGSNLSFLAIIGRVPPTNLAIINDKYIAIEIVAIVYHKLGLLKFPLNSIE;locus_tag=LOCUS_01430;note=MGA_143
sequence1	MetaGeneAnnotator	CDS	86867	87034	.	+	0	ID=MGA_144;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKETTVMGVALKKAINQENFDLKNLLFLNRFAENLLDIFERNSLKGIFLNFSDP;locus_tag=LOCUS_01440;note=WP_011183115.1 tRNA (guanosine(46)-N7)-methyltransferase TrmB (Mesoplasma florum) [pid:55.2%25%2C q_cov:100.0%25%2C s_cov:26.0%25%2C Eval:1.9e-09%2C partial hit],internal stop codon at [86693:86695](+)%2C[87032:87034](+)%2C[87092:87094](+),MGA_144
sequence1	MetaGeneAnnotator	CDS	87161	87322	.	+	0	ID=MGA_145;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEQIKDSKFKIIYETNDLYSNKEFLKDNIQTEYEQKFYALGKKIKKIVIKKEV;locus_tag=LOCUS_01450;note=MGA_145
sequence1	MetaGeneAnnotator	CDS	87499	87816	.	-	0	ID=MGA_146;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTLSFMVISSIIILSMSGLELRKKISLFCQFNLNFLLVYMVCLLTNLSKISISLFYNIEVITNTETDDKEIRILKSRFVSIFITIFSIGAFFIEMTSGSVINQVS;locus_tag=LOCUS_01460;note=MGA_146
sequence1	MetaGeneAnnotator	CDS	88154	88357	.	+	0	ID=MGA_147;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSGLMAGVVVCSSTSSLVSCSKLSAISEIYLVTDAGKISDKSFNESTFKAGNEFLQEVLQRKD;locus_tag=LOCUS_01470;note=WP_011183565.1 xylose ABC transporter substrate-binding protein (Mesoplasma florum) [pid:47.6%25%2C q_cov:94.0%25%2C s_cov:13.8%25%2C Eval:9.3e-12%2C partial hit],internal stop codon at [88355:88357](+),MGA_147
sequence1	MetaGeneAnnotator	CDS	88400	88873	.	+	0	ID=MGA_148;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNQYRNARNNGAKIILLPGFHHAMPGEGENYAPQVMSEKGSTIFLDGESSATNEIGFSFRGDISGFYAGMSSIIWGLQQGNKYKEISLGSFGGISNPRAVDAFIVGYLAAIEVFNELKKTDEGKAKLKDFGLNDEAYAKKVKMTQSQFPNSPSDAS;locus_tag=LOCUS_01480;note=WP_011183565.1 xylose ABC transporter substrate-binding protein (Mesoplasma florum) [pid:53.2%25%2C q_cov:100.0%25%2C s_cov:33.9%25%2C Eval:5.8e-39%2C partial hit],internal stop codon at [88355:88357](+)%2C[88871:88873](+),MGA_148
sequence1	MetaGeneAnnotator	CDS	88925	89146	.	+	0	ID=MGA_149;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQNGANFIMPVAGPQTIDVVGLSKQKDGGDTVKVIGVDTNQAEAFPQNKNMFLTSAEKDLQNATIAGLAHTPY;locus_tag=LOCUS_01490;note=WP_011183565.1 xylose ABC transporter substrate-binding protein (Mesoplasma florum) [pid:55.9%25%2C q_cov:91.8%25%2C s_cov:13.6%25%2C Eval:2.5e-12%2C partial hit],internal stop codon at [88871:88873](+)%2C[89144:89146](+)%2C[89270:89272](+)%2C[89285:89287](+)%2C[89315:89317](+),MGA_149
sequence1	MetaGeneAnnotator	CDS	89330	89536	.	+	0	ID=MGA_150;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSAGGNNLATPELKEKILLIFEPDVLTQASIELFETIDNNAFEKSLINEKTIKAYADRILNGSAGGAF;locus_tag=LOCUS_01500;note=MGA_150
sequence1	MetaGeneAnnotator	CDS	89537	89833	.	+	0	ID=MGA_151;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKYAIEMEDISMIFNKKVIANENINFKVEKGEIHCLVGENGAGKSTLMSILFGIYQPTKGIIKINGKEEIITSPIKATKLGIGMVHQHFKMIDILPV;locus_tag=LOCUS_01510;note=WP_011183564.1 ABC transporter ATP-binding protein (Mesoplasma florum) [pid:76.6%25%2C q_cov:95.9%25%2C s_cov:18.4%25%2C Eval:2.2e-37%2C partial hit],internal stop codon at [89831:89833](+)%2C[89870:89872](+),MGA_151
sequence1	MetaGeneAnnotator	CDS	89918	90664	.	+	0	ID=MGA_152;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHKYNLEVDLNKKVQNISVGMKQRVEILKILYRDADILVFDEPTAVLTPAEIDGLLDVMLEFKKMGKTIIFITHKFAEIEKVADKATVIRKGKYIGTYDVKKIGIKDISKAMVGRSLVEVKNNSTATVGETVIKFENINVKKHSNNKVIGLKNFNLELKEGEIVAIAGVEGNGQNEIASVLSGLTKPLSGKIFYRGDDITKSSVSKRYLKNKMSFIPEDRHEHGLVLDANIINNTTLQDISTNKYSKW;locus_tag=LOCUS_01520;note=WP_011183564.1 ABC transporter ATP-binding protein (Mesoplasma florum) [pid:66.4%25%2C q_cov:99.6%25%2C s_cov:48.3%25%2C Eval:5.4e-89%2C partial hit],internal stop codon at [89831:89833](+)%2C[89870:89872](+)%2C[90662:90664](+),MGA_152
sequence1	MetaGeneAnnotator	CDS	90761	91084	.	+	0	ID=MGA_153;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSGGNQQKVIIGRELSRENDFIIIFQPTRGLDVGSIEFIHQQILKAKEERKAILLISYELSEVMQLADQIVVLNSGNIIGKLDKKEATKEKIGQLMTSNMEGVSTNV;locus_tag=LOCUS_01530;note=WP_011183564.1 ABC transporter ATP-binding protein (Mesoplasma florum) [pid:74.0%25%2C q_cov:93.5%25%2C s_cov:19.6%25%2C Eval:9.9e-38%2C partial hit],internal stop codon at [90662:90664](+),MGA_153
sequence1	MetaGeneAnnotator	CDS	91043	91216	.	-	0	ID=MGA_154;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNRTPTKRPSTIDITEDFTKPNFSKKPGDFTNASVLTFRVHNLTLNICTNSFHIRSH;locus_tag=LOCUS_01540;note=MGA_154
sequence1	MetaGeneAnnotator	CDS	91368	91565	.	+	0	ID=MGA_155;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGGSGQILSGLLMSYLIMSSIGNDTKNAFLIFIMFIISGMLISVLCGAMKVYLNVHEVASSILLN;locus_tag=LOCUS_01550;note=WP_011183563.1 ABC transporter permease (Mesoplasma florum) [pid:45.8%25%2C q_cov:100.0%25%2C s_cov:11.8%25%2C Eval:9.4e-12%2C partial hit],internal stop codon at [91563:91565](+)%2C[91572:91574](+)%2C[91587:91589](+)%2C[91665:91667](+),MGA_155
sequence1	MetaGeneAnnotator	CDS	91680	91994	.	+	0	ID=MGA_156;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLALISVVVVYIIFTFTTTGYKVKVIGNSPTAAKYAGIKSQYYILMVMAIQGALISMAGFFYYFLIQGSVTFNKDLVPQLGFDGIPIALVAFNNILGIVPIAFF;locus_tag=LOCUS_01560;note=WP_011183563.1 ABC transporter permease (Mesoplasma florum) [pid:54.9%25%2C q_cov:98.1%25%2C s_cov:16.7%25%2C Eval:9.4e-28%2C partial hit],internal stop codon at [91563:91565](+)%2C[91572:91574](+)%2C[91587:91589](+)%2C[91665:91667](+)%2C[91992:91994](+)%2C[92133:92135](+),MGA_156
sequence1	MetaGeneAnnotator	CDS	92580	92780	.	+	0	ID=MGA_157;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIENTKKEISVLKESYLASKLEAKNFLKDLKNEYKKNLKENQDTEKIKKEYFERLVEVKDKYDRLH;locus_tag=LOCUS_01570;note=MGA_157
sequence1	MetaGeneAnnotator	CDS	92764	92964	.	+	0	ID=MGA_158;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTDFISALFSDTSTFFAIFMLAAIAGMFSERSGVVNLGIEGFMTMGALGYSLFGFAVHSSGAEISQ;locus_tag=LOCUS_01580;note=WP_011183562.1 ABC transporter permease (Mesoplasma florum) [pid:60.0%25%2C q_cov:90.9%25%2C s_cov:20.1%25%2C Eval:1.1e-12%2C partial hit],internal stop codon at [92962:92964](+)%2C[92965:92967](+),MGA_158
sequence1	MetaGeneAnnotator	CDS	92998	93483	.	+	0	ID=MGA_159;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGGLLSLLHAFTAIKLKGDQIISGTAINILAQGIALVLATSTLTGPENYISTGFMVIGIGSGINIIITLYLVIAIIISLIVGFYFTFTKTGTRHIAAGENPHALDSAGISVTKYRVVCILISGMLAGLAGAIFVVSRLLGSFAGSVQGYGYISLAIMILGQ;locus_tag=LOCUS_01590;note=WP_011183562.1 ABC transporter permease (Mesoplasma florum) [pid:52.4%25%2C q_cov:100.0%25%2C s_cov:52.8%25%2C Eval:1.8e-38%2C partial hit],internal stop codon at [92962:92964](+)%2C[92965:92967](+)%2C[93481:93483](+)%2C[93574:93576](+),MGA_159
sequence1	MetaGeneAnnotator	CDS	93447	93674	.	-	0	ID=MGA_160;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAFGGFDFLAKIIIITKDITNGKILNSDPFVFIQFPAFSITGNLVPKANINENTNENKAIILILHCPKIIIAREI;locus_tag=LOCUS_01600;note=MGA_160
sequence1	MetaGeneAnnotator	CDS	93781	94497	.	+	0	ID=MGA_161;product=purine-nucleoside phosphorylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183561.1;translation=MNIPTPHINAKKEDIAKIVLMPGDPLRAKKIAETYLEDVKLVNEVRNMFMYTGTYKGVKITVAGSGMGCPSIGIYSYELFKFYDVDYIIRVGSAGSYKEEIKVYDIFNVKESFGENNYAKIAANIDSNIIEAGKVLFDKIEEVAKKKNIKIHSGRCHSSDVFYRYENVLDFAKANNLSLVEMETFALFANAKLTKKQAACLLTVSDSLVTNEVTSAEERQNNFMGMIELALEASIELK;locus_tag=LOCUS_01610;gene=deoD;EC_number=2.4.2.1;note=WP_011183561.1 purine-nucleoside phosphorylase (Mesoplasma florum) [pid:73.3%25%2C q_cov:97.5%25%2C s_cov:98.7%25%2C Eval:2.0e-98],MGA_161
sequence1	MetaGeneAnnotator	CDS	94624	95580	.	+	0	ID=MGA_162;product=tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex transferase subunit TsaD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166293.1;translation=MRILAIESSCDEFSISIMDKGKVLSNVISSQIKEHSEFGGVIPELASRLHVENFHWVLLDSLQQSNSQLEDIDYISYTSNPGLIGSLIIGKLVAQTISTYLKKPLLDMNHIEGHIYGANIEQKFQYPVLALVVSGGHTQIQLLKESLSFELIGTTQDDAVGECYDKVARVLGFNYPGGPVIDKLAQNGNDKKYKLPISKNDDSYDFSFSGLKTASLNLINKLNQNNEEIIIEDFCASFQKTAIDTLMIKFEKAIKEFKPNTITVVGGVSANQSIRSIFYKVGEKYNIKKVIIPDLKYCTDNAAMIAELTNEYLVKDKK;locus_tag=LOCUS_01620;gene=tsaD;EC_number=2.3.1.234;note=WP_011166293.1 tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex transferase subunit TsaD (Mycoplasma mycoides) [pid:63.5%25%2C q_cov:100.0%25%2C s_cov:99.7%25%2C Eval:1.3e-120],MGA_162
sequence1	MetaGeneAnnotator	CDS	95591	95980	.	+	0	ID=MGA_163;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRSFLSKLTTIDDKDLTIKEKKIVDYIKDHLKEIVDTNMKIERMAQEAGTGYSAIYGLLKKLNIKGFRDFAISLANDAENQEINIAKNDENVVSGYINIIKQNYALIEKKSIFDTLNIIKSSKKIFFCY;locus_tag=LOCUS_01630;note=WP_011183381.1 MurR/RpiR family transcriptional regulator (Mesoplasma florum) [pid:60.5%25%2C q_cov:100.0%25%2C s_cov:49.6%25%2C Eval:2.2e-40%2C partial hit],internal stop codon at [95978:95980](+),MGA_163
sequence1	MetaGeneAnnotator	CDS	96179	96370	.	+	0	ID=MGA_164;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRKVIYISGKVASSDITKYLSSIHTLIVDNPDKSIYKGHISNSVPFNYFNDLLIYHFLNSDN;locus_tag=LOCUS_01640;note=WP_011183381.1 MurR/RpiR family transcriptional regulator (Mesoplasma florum) [pid:54.1%25%2C q_cov:96.8%25%2C s_cov:23.5%25%2C Eval:2.8e-11%2C partial hit],internal stop codon at [95978:95980](+),MGA_164
sequence1	MetaGeneAnnotator	CDS	96395	96556	.	+	0	ID=MGA_165;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKSKRQRKNTLLNSVKRSFRVFYSGLEKPFSQSSLRVSKKVKVYNKTKEDKI;locus_tag=LOCUS_01650;note=MGA_165
sequence1	MetaGeneAnnotator	CDS	96776	96901	.	+	0	ID=MGA_166;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAFAKMGYNILVFDFRGHGQSENGSTTMGANEQHDLMGAVD;locus_tag=LOCUS_01660;note=MGA_166
sequence1	MetaGeneAnnotator	CDS	96938	97453	.	+	0	ID=MGA_167;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGTSMGAFVINYCSIVYKEEFEKLNLQFLVSDAGFGSVFRLFLHVRNIYLFLLPKRRTKKVINRLIEKHNRHESNLNLHNASIFKVLDTADHKSLFPTLFFHSTDDKVTSCSDTYELLLKRNCKKDDYLVFNFSMHTQSVRYHFKTYNYKLAEFINLYEKDNELFNQLVED;locus_tag=LOCUS_01670;note=WP_011166292.1 alpha/beta hydrolase (Mycoplasma mycoides) [pid:30.2%25%2C q_cov:94.7%25%2C s_cov:43.9%25%2C Eval:2.1e-14%2C partial hit],internal stop codon at [96719:96721](+)%2C[96737:96739](+)%2C[96758:96760](+)%2C[96899:96901](+),MGA_167
sequence1	MetaGeneAnnotator	CDS	97540	98265	.	+	0	ID=MGA_168;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYNNIVRGSVNMKDIKELYLKYKEIKSINLIARVRNNRQGKAVSFLVLNDGTTIKDVQVVYKSDVKGYEQATQSRVGSIIEIKGKVILTPGKQQEFEIQAEEIILLDQAIEEYPLQKKEHSPEFLREISHLRARTKTFQSIFKIRSVAAFAIHKFFQEKNYIYVNTPIITGNDAEGAGESFTVTTKKDGNYEDDFFGKKASLTVSGQLHGESYAQAFKNIYTFGPTFRAENSHTSKHAAEF;locus_tag=LOCUS_01680;note=WP_011183378.1 asparagine--tRNA ligase (Mesoplasma florum) [pid:71.7%25%2C q_cov:94.6%25%2C s_cov:50.7%25%2C Eval:7.1e-91%2C partial hit],internal stop codon at [98263:98265](+),MGA_168
sequence1	MetaGeneAnnotator	CDS	98266	98790	.	+	0	ID=MGA_169;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEPEMAFCDLKENLEVIESLIKYTINYIFETAKEELEFCNENLETGLIDKLNNVRKSNFVVSKYEEVIEVLKQAVKNGHKFEESNIEFGLDLATEHERYICEVVNKCPTFVTNYPKEIKAFYMKQDENNKTVAAADLLVPGIGELVGGSQREDSFDKIIKRCKEMGIEPEDLS;locus_tag=LOCUS_01690;note=WP_011166290.1 asparagine--tRNA ligase (Mycoplasma mycoides) [pid:73.4%25%2C q_cov:99.4%25%2C s_cov:38.3%25%2C Eval:6.6e-72%2C partial hit],internal stop codon at [98263:98265](+)%2C[98788:98790](+),MGA_169
sequence1	MetaGeneAnnotator	CDS	99358	99711	.	+	0	ID=MGA_170;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKYDNKEIDVLEYTTQLTGLSDKCIDTLLEKGKIYNLNNEYQPFAYLSTSLSNKLFKTNLLKEFGFKFRRFVRYDMLFAYKVLGQANSYLFLNINEPLEEMNLQKVQYSVFDLVNQ;locus_tag=LOCUS_01700;note=WP_011183466.1 glycosyltransferase (Mesoplasma florum) [pid:34.5%25%2C q_cov:94.0%25%2C s_cov:33.9%25%2C Eval:1.4e-12%2C partial hit],internal stop codon at [99199:99201](+)%2C[99259:99261](+)%2C[99709:99711](+)%2C[99805:99807](+)%2C[99811:99813](+),MGA_170
sequence1	MetaGeneAnnotator	CDS	100022	100492	.	+	0	ID=MGA_171;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINQENQKDERDSFRNLVKPHLGRIFFARFFDIILCSIPTLLLSFLNPIHDLKSLLINIPISQIVLFFYFVFLPYFCKGNTLGKLIFNLRLKKSNYEKIKMSEIFFRELYFLYIPLFFLLIIQIIMGIILFTSPRDSNNMIILKIINNIGYAFLAM;locus_tag=LOCUS_01710;note=MGA_171
sequence1	MetaGeneAnnotator	CDS	100496	100702	.	+	0	ID=MGA_172;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYIPLTIYLQKDNISAIDLKLKTRVYYLEKIIIIEKNEQEFDHVHLQKNKPGKINLEEIKKIIGEEDE;locus_tag=LOCUS_01720;note=MGA_172
sequence1	MetaGeneAnnotator	CDS	100695	101375	.	+	0	ID=MGA_173;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNFENTKNKLIEFVEKKYFTGAVLKINRNKENIFSFSFGINDVDKKTKMNEDLIFRGYSLTKTVTVAAFLTLIDKKIISLNEPLHKFFPEFKNMKVLNNNEIIDAKKEILIKHLLTMTSGLAYFGNKNITQKETTVLLSEFVKPVNGEFMNYKEFIKKLSKIPLEFEPGTNWRYGLSLDVIAGVIEKVTGMTYRDFVKEAIFDKLEMSDSDFYLKDKNREAKVYN;locus_tag=LOCUS_01730;note=WP_011167017.1 serine hydrolase domain-containing protein (Mycoplasma mycoides) [pid:45.1%25%2C q_cov:98.2%25%2C s_cov:63.3%25%2C Eval:1.8e-45%2C partial hit],internal stop codon at [101373:101375](+)%2C[101622:101624](+),MGA_173
sequence1	MetaGeneAnnotator	CDS	101457	101624	.	+	0	ID=MGA_174;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPMGGAGLFTTVKDYLKFLDFLIDGKDSKGNQIISKKILKEMTSDKLKKLKSNFR;locus_tag=LOCUS_01740;note=WP_011183113.1 serine hydrolase domain-containing protein (Mesoplasma florum) [pid:52.8%25%2C q_cov:96.4%25%2C s_cov:14.0%25%2C Eval:7.4e-09%2C partial hit],internal stop codon at [101373:101375](+)%2C[101622:101624](+)%2C[101715:101717](+)%2C[101859:101861](+),MGA_174
sequence1	MetaGeneAnnotator	CDS	101933	102379	.	+	0	ID=MGA_175;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKELLKELNDEQLDSVITTDVPVRIIAGAGSGKTRVITTKIAYLIEKEGIYPPKILAVTFTNKAAQEMKDRVNKIIPNLDRNPLITTFHSFCVRVLREDCEDIGISKDFTIIDASDQAKIIRDIIKKLDISTDKNRPERKILSKISN;locus_tag=LOCUS_01750;note=WP_011183464.1 UvrD-helicase domain-containing protein (Mesoplasma florum) [pid:56.4%25%2C q_cov:99.3%25%2C s_cov:20.6%25%2C Eval:4.9e-39%2C partial hit],internal stop codon at [102377:102379](+)%2C[102398:102400](+)%2C[102443:102445](+)%2C[102563:102565](+)%2C[102638:102640](+),MGA_175
sequence1	MetaGeneAnnotator	CDS	102767	103015	.	+	0	ID=MGA_176;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTENYRSTKPILDIANNFIDNNKNREKKDIFTQKKAGEIVQVKEVASRNFEAKFVTKKIKELVEENNYKYSDIFVLYRTNA;locus_tag=LOCUS_01760;note=WP_011183464.1 UvrD-helicase domain-containing protein (Mesoplasma florum) [pid:61.7%25%2C q_cov:98.8%25%2C s_cov:11.1%25%2C Eval:4.6e-22%2C partial hit],internal stop codon at [102563:102565](+)%2C[102638:102640](+)%2C[102701:102703](+)%2C[103013:103015](+),MGA_176
sequence1	MetaGeneAnnotator	CDS	103121	104089	.	+	0	ID=MGA_177;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRSVVFKDDLAMERVFTFTPKVGAVTASKLKIASEQLNLNLFDFLTSQNQEVNQISKNLNELVACLIKAREIFEENKSILKLTETLIKESGYRDRLDLKDKEDIEALQNLEAYYDQMEKYDNYYNESENELNRAVMFLQEEALSSDEDNQSEINKVTLLTIHSAKGLENKVVFIVGLNKDVFPSKMSFLSIENLEEERRAFYVAITRAQERVFISYVSGEYSYISNGELGPSRFIQELNPELYEIEKSIYFHSNTDVSSTYKGKANLEFRPDKLEAGVIKGDKIKHMIFGDGLVVKVIDRYISVAFSDPKQGVKMIPISSSA;locus_tag=LOCUS_01770;note=WP_011183464.1 UvrD-helicase domain-containing protein (Mesoplasma florum) [pid:41.3%25%2C q_cov:99.7%25%2C s_cov:44.4%25%2C Eval:2.8e-65%2C partial hit],internal stop codon at [103013:103015](+),MGA_177
sequence1	MetaGeneAnnotator	CDS	104186	104449	.	+	0	ID=MGA_178;product=HPr family phosphocarrier protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166936.1;translation=MTSFTAKVIDPVGLHARPASVLTKEASKYASEIKIKCGDKEGNLKSIMNVMALAVKTGAEITIEANGEDESAAIEAIEKAMKDNSII;locus_tag=LOCUS_01780;note=WP_011166936.1 HPr family phosphocarrier protein (Mycoplasma mycoides) [pid:62.1%25%2C q_cov:100.0%25%2C s_cov:97.8%25%2C Eval:7.4e-25],MGA_178
sequence1	MetaGeneAnnotator	CDS	105409	105969	.	+	0	ID=MGA_179;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQERAKALIPYYTGNDPLKSKVAAALMPGFLLYGGFYLPFYLSARGKLPNTSDIIRLILRDKVIHNYYSGYKYQRKVEKLSPEKQAEMKKFVFDLLYELIDLENKFLYELYDGFGIAEDAVRFSLYNAGKFLQNLGYESPFTEEETRIEPEIFTQLSARADENHDFFSGNGSSYVMGVTEETSDED;locus_tag=LOCUS_01790;note=WP_011183428.1 class 1b ribonucleoside-diphosphate reductase subunit beta (Mesoplasma florum) [pid:86.6%25%2C q_cov:100.0%25%2C s_cov:54.7%25%2C Eval:8.7e-92%2C partial hit],internal stop codon at [105151:105153](+)%2C[105172:105174](+)%2C[105388:105390](+)%2C[105967:105969](+),MGA_179
sequence1	MetaGeneAnnotator	CDS	105982	106428	.	+	0	ID=MGA_180;product=class Ib ribonucleoside-diphosphate reductase assembly flavoprotein NrdI;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183427.1;translation=MHDDVIRISNKDIKKPKGKVFVVYFSSVSNNTHRFMEKLDVNDARIPYELDDQLIVQKEYVLITPTYAGGGGDTKGAVPVQVIRFLNNENNRNLCRGVIASGNTNFGDTFAIAGPIISKKLKVPLLYQFELLGTVNDVETIRKILEDF;locus_tag=LOCUS_01800;gene=nrdI;note=WP_011183427.1 class Ib ribonucleoside-diphosphate reductase assembly flavoprotein NrdI (Mesoplasma florum) [pid:68.9%25%2C q_cov:100.0%25%2C s_cov:98.0%25%2C Eval:9.8e-56],MGA_180
sequence1	MetaGeneAnnotator	CDS	106442	108157	.	+	0	ID=MGA_181;product=class 1b ribonucleoside-diphosphate reductase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183426.1;translation=MKKDNIKNLSGTNESDEYIKLNARAKLFVPGQDNFKLDIQAAELYMKEHIEPNMMKFSTTKERIDYLVKNQYYDDEVIKKYTIKQIDELSKYAYSFDFKFPSFMGALKFFNAYGLKSFDGKQYLESYEDRVVLNALFLGGGNFEKAKNILKQIILGRFQPATPTFLNAGKKQRGEYVSCYLLRVEDNMESIARAVTTSLQLSKRGGGVAICLTNLREFGAPIKNIENQATGVIPVMKILEDSFSYANQLGQRQGAGAVYLNVHHPDIMSFLDTKRENADEKIRIKSLSLGVVVPNITFDLAKENKDMALFSPYDVEKVYKKPFSDISVTDEYENMLKNKDIKKTYINARKLFQAIAELHFESGYPYLLFDDTVNNNNAHPVAGRIVMSNLCSEIVQVSTPSEYNSDLSFKKTGEDICCNLGSMNIAKTMESGEEFSEVIYNSILALDHVSRNSDLSSAPSIENGNKNNHAVGLGAMNLHGFLSVNHIYYNSPEAIDFTNMFFYTMAFHAFKASNRLAKEYGSFAGFKISKFADGSYFDKYTKCENNKFIPQSEKIKNLFEKYKVSIPTQKE;locus_tag=LOCUS_01810;gene=nrdE;EC_number=1.17.4.1;note=WP_011183426.1 class 1b ribonucleoside-diphosphate reductase subunit alpha (Mesoplasma florum) [pid:73.2%25%2C q_cov:100.0%25%2C s_cov:79.2%25%2C Eval:3.4e-254],internal stop codon at [108155:108157](+),MGA_181
sequence1	MetaGeneAnnotator	CDS	108209	108607	.	+	0	ID=MGA_182;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAVAPTGSISYLSSCTPSLQPVVAPVEVRKEGKLGRVYVPAYKIDFDNMGYYSLGAYEVGPDPIIDIAAAAQQHVDQAISLTLFMTDQVTTRDLNKAYVRAFKKGCASIYYVRVRQEVLEDSENYECDACVI;locus_tag=LOCUS_01820;note=WP_011183426.1 class 1b ribonucleoside-diphosphate reductase subunit alpha (Mesoplasma florum) [pid:87.1%25%2C q_cov:100.0%25%2C s_cov:18.3%25%2C Eval:1.3e-61%2C partial hit],internal stop codon at [108155:108157](+),MGA_182
sequence1	MetaGeneAnnotator	CDS	108691	109092	.	+	0	ID=MGA_183;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEIKNITRKLGNFGLKDVSFTIKKGSVVAFVGDNGAGKTTTIKALFGELKLDSGEVLIDGENLFKNNNLSKVAFFPDSNNVPLDIKVHEYLHYICAANNMNKERTELSIDNVYRLLELRPYKDKKIKQLSSG;locus_tag=LOCUS_01830;note=WP_010966816.1 ATP-binding cassette domain-containing protein (Clostridium) [pid:30.7%25%2C q_cov:100.0%25%2C s_cov:57.6%25%2C Eval:9.0e-15%2C partial hit],internal stop codon at [109090:109092](+),MGA_183
sequence1	MetaGeneAnnotator	CDS	109108	109440	.	+	0	ID=MGA_184;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MASVLVRSPEYIIFDEPTANVDVESKLYFMNIFKLLSKVGITILITSHIIEELQELANYLVLIKKGQIVYANDFDRKKEHIMDVYKRHMNEPIKDLHILRDLYKNKKERE;locus_tag=LOCUS_01840;note=WP_002990429.1 ABC transporter ATP-binding protein (Streptococcus pyogenes) [pid:34.1%25%2C q_cov:76.4%25%2C s_cov:27.7%25%2C Eval:2.7e-11%2C partial hit],MGA_184
sequence1	MetaGeneAnnotator	CDS	109442	109774	.	+	0	ID=MGA_185;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENLVVNRNKKNFRNFTLLYSINLKLSLKNIGSIISGLVFSLVTIIFFITEYSNIIDKSNISSYTSLKYLTFLFGGATLIFHIVLNSLYLFKRQVKDGISSIELRAGYKT;locus_tag=LOCUS_01850;note=MGA_185
sequence1	MetaGeneAnnotator	CDS	110105	110320	.	+	0	ID=MGA_186;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLGAQDFYNTFKSDNELFDDDENEGQSKSLNGIHKYLNQSLQPLNKYENIEENSESKFNYKIIPDQKFFPA;locus_tag=LOCUS_01860;note=MGA_186
sequence1	MetaGeneAnnotator	CDS	110660	110857	.	+	0	ID=MGA_187;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNILPEYSSMFSFIQTFYNKNKTAILADNKNPYSSSNSFYNDIFDFALVNTRNKDYRKTLNFFS;locus_tag=LOCUS_01870;note=MGA_187
sequence1	MetaGeneAnnotator	CDS	111176	111496	.	+	0	ID=MGA_188;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTTDISRHFAAMSTGLFSSRLLNDSYNSSGTIFYQGQFLNIKNIFDFENFSSENKEQGKAMKPIYEKLKIKTSTSFIIPLAYFIYILIITPLGYVGYLAFNKKAKL;locus_tag=LOCUS_01880;note=MGA_188
sequence1	MetaGeneAnnotator	CDS	111511	111912	.	+	0	ID=MGA_189;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEIKNITRDLGGFVINQVSFTIKKGSVVAFVGDNGAGKTTTIKALFGELKLEQGEILMDGKSIFDEQNLQRIAFFPDSNSVPLNMKLKDYVAYICAVNNISKKEAKETADKIFKMLSLEPYINKKIKSLSAG;locus_tag=LOCUS_01890;note=WP_010979801.1 ABC transporter ATP-binding protein (Sulfurisphaera tokodaii) [pid:36.0%25%2C q_cov:100.0%25%2C s_cov:45.6%25%2C Eval:3.3e-17%2C partial hit],internal stop codon at [111910:111912](+),MGA_189
sequence1	MetaGeneAnnotator	CDS	111928	112260	.	+	0	ID=MGA_190;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MASVLVRTPEYIVFDEPTANVDVEAKLSFMNILHELSTIGVTILITSHILEELQEVANYVVFIRDGEVVLEKDFDNKKESISQLYKEVMAEKNNGEKLLKEIYKSKEMVD;locus_tag=LOCUS_01900;note=WP_010980558.1 ABC transporter ATP-binding protein (Sulfurisphaera tokodaii) [pid:33.3%25%2C q_cov:100.0%25%2C s_cov:38.0%25%2C Eval:2.7e-11%2C partial hit],internal stop codon at [111910:111912](+),MGA_190
sequence1	MetaGeneAnnotator	CDS	112262	112630	.	+	0	ID=MGA_191;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=METIKTKVLKTKKPKEFNGFKTLYLINLKRLLRNKAVLATAIISIIVTLILSSSVAGLLNTPINAFEIGVIIVSISFIFEVFFFIVFMIIMSTELIKKQMQDGIQNIETRSGIKFNSSFLLR;locus_tag=LOCUS_01910;note=MGA_191
sequence1	MetaGeneAnnotator	CDS	112573	112746	.	-	0	ID=MGA_192;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKTIPDIKSNFKTIDDAIIIFKIELISAIPPTKVINTNHLNKKELLNLIPDRVSIF;locus_tag=LOCUS_01920;note=MGA_192
sequence1	MetaGeneAnnotator	CDS	112832	113437	.	+	0	ID=MGA_193;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINILIAMILCLSGLFSSLSSMTDFTRINNYDSVMKTNIKINISKSFYDNFKDDKAVNSIFIDSKANEKSSLFLNQIQTNLELESLNAQDINYYNLSNLGQRQGLAFDSLIAALYGGGANIHYAEVEITEPEDTIKSEIAKPVLQDTEIFKILNEIYQTILTGMKSNNNKPTISSPGFKGGYLDELYGAESGFHNLSPLIK;locus_tag=LOCUS_01930;note=MGA_193
sequence1	MetaGeneAnnotator	CDS	113861	114127	.	+	0	ID=MGA_194;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYSQLFGSAFNKDLVFSKSVLAYSGITNGYTNYSELAKYDLSENKSNEALTPIFEKANLKKKFGYNVAVSYLIYLLVSFGLNYLVYLV;locus_tag=LOCUS_01940;note=MGA_194
sequence1	MetaGeneAnnotator	CDS	114325	114492	.	-	0	ID=MGA_195;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISDSSSLLFKVSIKDSPIKIEVICLAIRILNTEKPETKSIKIIAKIDLTLYFFQ;locus_tag=LOCUS_01950;note=MGA_195
sequence1	MetaGeneAnnotator	CDS	114542	114694	.	+	0	ID=MGA_196;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINEFLASNDLEMPKELVNNILQKFYFDYLSYDGKNVVAIFFGLSITKMQ;locus_tag=LOCUS_01960;note=MGA_196
sequence1	MetaGeneAnnotator	CDS	114737	115906	.	+	0	ID=MGA_197;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYIAYCFCGIISEESQTDLKNKLIKSLLTKNVDFYNKNSQGKITETIVKDCKNIAEQLKVAPIILLFIVFSTVGSTAMLIYIDKLISILMFSLILCVMLIALSVVLFIAKPVKKSMDAKSKSDSEITEKISAIRLIKSTGTWEKEIEHFNQDNQKQNKYNRKLNYAISIIPGIIIGAIGCLTLSSIVFGVFIYANDTSKLITVFSTFTAGIFVMVTPIFQLNTILQSISSTNKSSQNIASIVNDEDNIIEIENPKFINKKGIESIVFDNVSFAYPLSPESNILNNLSISFEKGKSYAFVGPSGCGKSTITRLLLRFYENYEGSIKINGDMELKDIELKDWLENIGYVDQEPQILSGTIKENLLYVKNDATDKEIIDACKKAKLHDLIMS;locus_tag=LOCUS_01970;note=WP_011166618.1 ABC transporter ATP-binding protein (Mycoplasma mycoides) [pid:34.1%25%2C q_cov:99.7%25%2C s_cov:62.8%25%2C Eval:2.5e-58%2C partial hit],internal stop codon at [115904:115906](+),MGA_197
sequence1	MetaGeneAnnotator	CDS	117058	117771	.	+	0	ID=MGA_198;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKKMSGIGASNGISIAKVYILDEQPIKISKEIPKNIESELTLITSSIVKAKTDLENLQVIAKEKLGEEKAAIFEAHASILEDPAMAEEFTALVKEKNYNAARAIKEVADKYMSMFEAMDDDYFKERAADIKDVTERLIRYVLNIPLADLATINEEVIIVAEDLTPSQTAQLNPKFVKGFACNIGGRTSHAAIMARSLEIPAVLGLKTILHDVKDKDVLAMNGETGDVEINPSDKNK;locus_tag=LOCUS_01980;note=WP_011183417.1 phosphoenolpyruvate--protein phosphotransferase (Mesoplasma florum) [pid:57.0%25%2C q_cov:100.0%25%2C s_cov:41.4%25%2C Eval:3.3e-69%2C partial hit],internal stop codon at [117769:117771](+),MGA_198
sequence1	MetaGeneAnnotator	CDS	117868	118551	.	+	0	ID=MGA_199;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEGNIGSPKDVESVLENGGEGIGLFRSEFLYMDNDHFPTEEEQFISYKKVVEEMKGKITIIRTLDIGGDKKLSYFSFPHEMNPFLGYRAIRFTLDRKDIFRDQIRALLRASAFGPVGIMFPMIATIDEFLAAKKFTLECKAELTKEGHKVGKDLQIGMMVEIPAAAVNADNFAKHADFFSVGTNDLIQYTMAADRMSENVTYLYQPYNPSILRLLKMTIDGAHKHGK;locus_tag=LOCUS_01990;note=WP_011183417.1 phosphoenolpyruvate--protein phosphotransferase (Mesoplasma florum) [pid:76.2%25%2C q_cov:100.0%25%2C s_cov:39.6%25%2C Eval:4.4e-100%2C partial hit],internal stop codon at [117769:117771](+)%2C[118549:118551](+),MGA_199
sequence1	MetaGeneAnnotator	CDS	118558	118776	.	+	0	ID=MGA_200;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCGEMAGEPDALPLLMGLGLDAYSMSATSILKARSIMSKLTLKETQQLATKALECENSDQVLKLVKAVMKDK;locus_tag=LOCUS_02000;note=WP_100609812.1 phosphoenolpyruvate--protein phosphotransferase (Entomoplasma freundtii) [pid:70.8%25%2C q_cov:90.3%25%2C s_cov:11.3%25%2C Eval:2.5e-20%2C partial hit],internal stop codon at [118549:118551](+),MGA_200
sequence1	MetaGeneAnnotator	CDS	118874	119350	.	+	0	ID=MGA_201;product=PTS glucose transporter subunit IIA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183084.1;translation=MGLFTKNKKLEVFAPVDGEIIDLSKVEDEVFSEKMLGDGIAFIPENGEFVAPIDGKLVTVFPSGHAYGISNSNGVEILLHIGLDTVSLNGDGFDIKVKQGANIKAGELLVNVDMAKVSKKVPSMNTPLIFTTDSMNGRSFEVLKTGKVKKGDLIIEVK;locus_tag=LOCUS_02010;note=WP_011183084.1 PTS glucose transporter subunit IIA (Mesoplasma) [pid:55.7%25%2C q_cov:99.4%25%2C s_cov:99.4%25%2C Eval:6.5e-46],MGA_201
sequence1	MetaGeneAnnotator	CDS	119423	119695	.	+	0	ID=MGA_202;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEKITKLRDKHFNLSEETKFRFDLLNYKTDGMIFLTSVLIVPFVLSLFVSYFGYNNNEVFALLYLVSVIVGMVFNMLRNGPGFFKGGYF;locus_tag=LOCUS_02020;note=MGA_202
sequence1	MetaGeneAnnotator	CDS	120002	120178	.	+	0	ID=MGA_203;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGASESENQKNLIGILRDSDKSITIAYVILLFILTVVVAPFCEELCLRNSFNLNASNR;locus_tag=LOCUS_02030;note=MGA_203
sequence1	MetaGeneAnnotator	CDS	120743	121297	.	+	0	ID=MGA_204;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSYLKDKKEYNPDLENSFVISHVHRIDKLTKGLVIYAKNKITLDILLNELNNKTKIKKLYLARTENNNLETGKISGYIKYDNDNQKAKFRIEKFNNAKKVEQINKIIDEQNNIYEIQILTGRKHQIRAVCNFYKSPICKDFRYGGKRSHLREIDLIAYKIIFNNFDGHLEYLNGKEYKSKYNF;locus_tag=LOCUS_02040;note=WP_011166934.1 RluA family pseudouridine synthase (Mycoplasma mycoides) [pid:50.3%25%2C q_cov:96.7%25%2C s_cov:59.3%25%2C Eval:1.3e-39%2C partial hit],internal stop codon at [120503:120505](+),MGA_204
sequence1	MetaGeneAnnotator	CDS	121426	121566	.	+	0	ID=MGA_205;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLEKFGTEFNGFVRLVTSFSAIIATAEGALGIAASILLVKPLVNND;locus_tag=LOCUS_02050;note=WP_011183460.1 transporter (Mesoplasma florum) [pid:52.2%25%2C q_cov:100.0%25%2C s_cov:6.7%25%2C Eval:9.0e-07%2C partial hit],internal stop codon at [121423:121425](+)%2C[121564:121566](+)%2C[121717:121719](+)%2C[121765:121767](+)%2C[121822:121824](+),MGA_205
sequence1	MetaGeneAnnotator	CDS	122119	122292	.	+	0	ID=MGA_206;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNSDIAIASVIFGLNVSSTLSLYLVVALNVRLIMTNFIVSFREFFVTLVARRGRIN;locus_tag=LOCUS_02060;note=WP_011183460.1 transporter (Mesoplasma florum) [pid:49.2%25%2C q_cov:98.2%25%2C s_cov:8.6%25%2C Eval:1.3e-10%2C partial hit],internal stop codon at [122032:122034](+)%2C[122095:122097](+)%2C[122290:122292](+),MGA_206
sequence1	MetaGeneAnnotator	CDS	122353	122727	.	+	0	ID=MGA_207;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSILSPYFVSALYGKNITLTDPTNPSTRAFEFMFYTPNFSMLYAAVTAFTILCDSQMTLIQAKGRYGEVSKFQNIIGVAYIVTAILIPFVLVTSGVGGINSLVIGVISMYLIKLFCLIIRYGYL;locus_tag=LOCUS_02070;note=MGA_207
sequence1	MetaGeneAnnotator	CDS	122773	123225	.	+	0	ID=MGA_208;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANNFLILIVPTFIAALLNIFVISQYLDIRKATGEGAHIAPLIGLFFGSIFSTIFALILFSYILNAKSFNGIIRNLPIIQKTLLRKTSQSRKKNLEEYGIDVNEIVDKGSQISHAMYGIEETTISSSVINESTVINVNPKNENIYVLKGK;locus_tag=LOCUS_02080;note=MGA_208
sequence1	MetaGeneAnnotator	CDS	123835	124029	.	+	0	ID=MGA_209;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMVNVEPYQYKDLIVPLLIILDAFIITSILFLFYESFTPKMRLNNRVAVFFISLVTFIITRMIF;locus_tag=LOCUS_02090;note=MGA_209
sequence1	MetaGeneAnnotator	CDS	124297	124572	.	+	0	ID=MGA_210;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVGFIFYNIILRLYLQVVIFGSILVLMLLASYLMNRRYSFVAKFELFLENHNLFTVLFVPIFFMTISTAFILAFNENILAEKYNSLNIIYI;locus_tag=LOCUS_02100;note=MGA_210
sequence1	MetaGeneAnnotator	CDS	125026	125847	.	+	0	ID=MGA_211;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDDSEYDKSLNELIKLESQYPQLITLDSPTQKVGGVVMDKFEKYKHKQPMLSLANAFNEEDLENFNDQILKEIENKKYNFFVEPKIDGLSISLIYKNGNLFKGVTRGDGIYGEDVTSNVKTIKSIPLSISDKSEYVEIRGEVFLSKNEFEKLNKQRLLNDEEIFANPRNAAAGTLRQLDSSIASSRKLDAFLYYFMDREKFHTHSDSLKYLETMNFKVNSLGKICNNIKEVYEHIQTILLQREKLEYEIDGVVVKINDFDLYEKVGYTAKSPK;locus_tag=LOCUS_02110;note=WP_011183057.1 NAD-dependent DNA ligase LigA (Mesoplasma florum) [pid:57.3%25%2C q_cov:100.0%25%2C s_cov:41.0%25%2C Eval:1.0e-83%2C partial hit],internal stop codon at [124990:124992](+)%2C[125845:125847](+)%2C[126124:126126](+),MGA_211
sequence1	MetaGeneAnnotator	CDS	126262	126612	.	+	0	ID=MGA_212;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIEGLSIKIIEKLYDNKFVSTVSDIYKLNKFRQQLIELDKMGEKSVKNLLESIEISKANSLEKLFFGLGIRHVGKKTAKTLALSFKNIDKISTITFEELEQINDVGPIVAKSVCD;locus_tag=LOCUS_02120;note=WP_011183057.1 NAD-dependent DNA ligase LigA (Mesoplasma florum) [pid:48.7%25%2C q_cov:99.1%25%2C s_cov:17.3%25%2C Eval:7.9e-27%2C partial hit],internal stop codon at [126124:126126](+)%2C[126610:126612](+),MGA_212
sequence1	MetaGeneAnnotator	CDS	126670	126933	.	+	0	ID=MGA_213;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQYLGNEGTKNNDKITLKSFVITGTLSKPRNYFKDLLEEYGAKVIDTVSKKTDFLLAGNEAGSKLEKAQKLGINILSEEQFLEMIGE;locus_tag=LOCUS_02130;note=WP_011166932.1 NAD-dependent DNA ligase LigA (Mycoplasma mycoides) [pid:57.9%25%2C q_cov:86.2%25%2C s_cov:11.4%25%2C Eval:1.4e-18%2C partial hit],internal stop codon at [126610:126612](+),MGA_213
sequence1	MetaGeneAnnotator	CDS	126936	127226	.	+	0	ID=MGA_214;product=Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166931.1;translation=MTINLELLKELQEDAMLDLSEKELQNILKYENIILKKFEKVLLVNTDNVEEMHYPFDITTNKLREDQEVKTLPKDEILKNAPSVHDDFITIVKVVK;locus_tag=LOCUS_02140;gene=gatC;note=WP_011166931.1 Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatC (Mycoplasma mycoides) [pid:38.7%25%2C q_cov:96.9%25%2C s_cov:94.9%25%2C Eval:2.6e-14],MGA_214
sequence1	MetaGeneAnnotator	CDS	127378	128697	.	+	0	ID=MGA_215;product=amidase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183059.1;translation=MQRAIEMENKIEEENVLSGIPFIHKDNISTKGILTTAGSKILSNYIPSFDATIAKKFNNANSILIGKAALDELSMGGTGLFSFNGEVRNPYDKNRIAGGSSSGSAYAVAKGIVPFATGGDTGDSIRKPASLTGIVGFKPTYGSISRYGAIPYAPSLDHLGFFTNNVEDLAYLCEATYGKDEKDFTSIDNKQEFVKNINKFNKKIKFGYIKSVNKFLKGQLLKDYLKLYETLKADGHEVIELDFNKKLLEAIPAAYMMISFAEGVSSNYNLDGIKFGLRAKGNNYKEIIKNSRTQGFGETVKRRFLIGSYQLKSENQELLLAKSKKVRRLIVEELEKLYKQVDILILPPTFEPAPTVDHVYGVDVEQKGDGDFIFAEDILILANFNGMPSITIPFVSQENMPIGINLNAKPKEDLKVLQAAKYLETIIAKNFRQVGDLNE;locus_tag=LOCUS_02150;note=WP_011183059.1 amidase family protein (Mesoplasma florum) [pid:57.5%25%2C q_cov:96.1%25%2C s_cov:86.7%25%2C Eval:1.4e-132],MGA_215
sequence1	MetaGeneAnnotator	CDS	128690	129547	.	+	0	ID=MGA_216;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNFEVVIGIENHIELKTKSKMFGLGPVTYGETPNSQVSEIDMGYPGILPSVNKEGVRLALLTCNALKMKIDSLLRFDRKNYFYPDLVKGYQITQQFFPIGKEGKIEINLENGKKKFIEIERLHIEEDTAKQTHKDDLTYIDFNRSGVGLIEIVSKPVIRSAFEAVEYVNQLRELLLFLGVSDVKMNEGSLRCDINISLRPYGYEKLGSKVEIKNLNSLNNVKKAIEFEIKRQSKILLSGGTIDQETRRFDESSQETILMRKKSNAIDYKYFREPNIFPIQLDKN;locus_tag=LOCUS_02160;note=WP_015545356.1 Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatB (Mycoplasma mycoides) [pid:71.5%25%2C q_cov:99.6%25%2C s_cov:59.3%25%2C Eval:5.2e-118%2C partial hit],internal stop codon at [129545:129547](+),MGA_216
sequence1	MetaGeneAnnotator	CDS	129647	130129	.	+	0	ID=MGA_217;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSDLALVKFFEDTISLGSDPKKIANYLLTDIKALLNKDGIELDKSNLKPKDINQIIEMLDKGIISSKHVKTILPIAFETDKEIIDIVEENNLKLISNINEIEKILLPIIKQNLNLIKEQYEQRPERVEKTIMGQLMKDTGGNVSPTIATEIIIKKIKENL;locus_tag=LOCUS_02170;note=WP_011183060.1 Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatB (Mesoplasma florum) [pid:50.0%25%2C q_cov:90.6%25%2C s_cov:30.3%25%2C Eval:1.6e-34%2C partial hit],internal stop codon at [129545:129547](+),MGA_217
sequence1	MetaGeneAnnotator	CDS	130163	130858	.	-	0	ID=MGA_218;product=NAD-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183062.1;translation=MARKKSFAIFGANYFGLSVAQTLDERKQLIKIFDYDEERLNLYINQFESVEGVVLDATNKNALEKNGISQYDGVIVCFGGNMESSILTVLNLLDLGVENIIVKARDERHKRILLALGLEEDKVIIPDVITGKMVATKSLFDIESEVQSIDNEYVFTSITVYEEEIIDKSIFDAGLVSNKDFNIIQIKRNGKTILPDEYTILKEGDILGVYAKNNVVNDLVLKIRGEQEIDE;locus_tag=LOCUS_02180;note=WP_011183062.1 NAD-binding protein (Mesoplasma florum) [pid:53.1%25%2C q_cov:97.4%25%2C s_cov:75.0%25%2C Eval:5.2e-64],MGA_218
sequence1	MetaGeneAnnotator	CDS	130947	131069	.	+	0	ID=MGA_219;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNSSSDEKDIVKSKSNKKKPEVKKSLENKNEKFFHKLKN;locus_tag=LOCUS_02190;note=MGA_219
sequence1	MetaGeneAnnotator	CDS	131199	131594	.	+	0	ID=MGA_220;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFTASSAISDTGITMVQTNTGYSFIGQLLIIIMCQIGGIGILTIKITLLVMIGRKISLDDQNIAQKERGNNSLSNTVEMIKDAFVFLLILELVGSIVLFFGFYFTPLSLDGIHKLDPSSVTNPYNDFGKSL;locus_tag=LOCUS_02200;note=WP_011263281.1 TrkH family potassium uptake protein (Aliivibrio fischeri) [pid:37.0%25%2C q_cov:76.3%25%2C s_cov:22.0%25%2C Eval:4.7e-11%2C partial hit],internal stop codon at [131181:131183](+)%2C[131592:131594](+)%2C[131724:131726](+),MGA_220
sequence1	MetaGeneAnnotator	CDS	132033	132623	.	+	0	ID=MGA_221;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLIFNVSSTRNAGFATVDVNSFTAGSKYLLSIWMFIGAAPSSTAGGIRTTTFAICILAIFSIMRNKKSVEVFKRKIPDETVKRAFAVVFISFFIVTTSIFVVYLDSNKMLFRTDETQNTEATIIKLIMYVCSAFGTVGFQPFPNEQIIQLGVISKIMLVMTMFVGQLGISNTLLAFVKPKNKQNFSYLEEEVTIG;locus_tag=LOCUS_02210;note=WP_164919774.1 TrkH family potassium uptake protein (Mesoplasma florum) [pid:52.5%25%2C q_cov:100.0%25%2C s_cov:36.6%25%2C Eval:1.4e-53%2C partial hit],internal stop codon at [131985:131987](+)%2C[132009:132011](+)%2C[132027:132029](+),MGA_221
sequence1	MetaGeneAnnotator	CDS	132979	133107	.	+	0	ID=MGA_222;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEVKKSSRLIDPTKDEETKLPENQELYQQYILNRLALENHFE;locus_tag=LOCUS_02220;note=MGA_222
sequence1	MetaGeneAnnotator	CDS	133573	134586	.	+	0	ID=MGA_223;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGISDYKFNIKFGDNQKVERNMKIYNSSNSLISLTSEFDASSYFSIKFNSKQSNQSLKYLNEKYKEYGKLTNNLNYFFNNNDKNYSHFSRINGPKQIILIFNILLTMLSILIFLISLFIFYLVSKKEFENSLSEIGYLKSMGYKNGQVIFNYLALILISILTAFVISIIMFVAFENSLLNIFSGFFNFKFKVFNYLFPIHLGVLIIFIIVFLLITRLISITVFNKPIVYLNNGIKKTKISYIARQYKKIYKNSSFNKKLRSALVISSLSKITGISFAMLLCATLTTSTVIIPKQIKNNYDSIFSNIYYKNRIEYTNPLPNNPLSFYKTYNPNFQDKE;locus_tag=LOCUS_02230;note=MGA_223
sequence1	MetaGeneAnnotator	CDS	135367	135792	.	+	0	ID=MGA_224;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAILLLTYTNSPYFIQQKIIKAIELNDNFNISNGIIPFNEKNEELGTYLKANYRNQDFNIYGTIENSKLNLMKNINNSLLNNKLFEKTENNYYPIIINKAFSKKMKVKENQILDIQVYIEKLEKYNNEIYSDIGISDLEMG;locus_tag=LOCUS_02240;note=MGA_224
sequence1	MetaGeneAnnotator	CDS	136309	136893	.	+	0	ID=MGA_225;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKFFKNLYPIFNYKISSNIDISDLTFGMSTSQRYGDHSEFGTRGSYGQIYPEECQNEEECEPIIDKDNYYEGFSVSTVKSLLPINTVEELTKDLIVSFNLSIYIFIIILLMITFIILLLATTLIITDNKEFINGMKIMGYSNFYIINQIFSVYNWLILFMFSFGFIIGFLSLISIVEYLSLLGNSIFFMSFIW;locus_tag=LOCUS_02250;note=WP_011183053.1 ABC transporter permease (Mesoplasma florum) [pid:26.6%25%2C q_cov:99.0%25%2C s_cov:12.5%25%2C Eval:2.0e-17%2C partial hit],internal stop codon at [136099:136101](+)%2C[136183:136185](+)%2C[136300:136302](+)%2C[136891:136893](+),MGA_225
sequence1	MetaGeneAnnotator	CDS	137291	137881	.	+	0	ID=MGA_226;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLGLLGSLTLITSASATVIACGEKEPEITETFDYDGLIKELKVDVQKIYQKHLVEKVAPQLFGITSTESSNAFLRKANIDKYKGNPSGIQGDDKTALKNDLEKILDVKSLETSLNNELKKQNKYKIILNDVKSLLKSVAFDFETMIIQSNETNGIYLGNVVIDYNIVLQYKGEKEVETFKLNDTLKYTSTNQN;locus_tag=LOCUS_02260;note=MGA_226
sequence1	MetaGeneAnnotator	CDS	138437	138775	.	+	0	ID=MGA_227;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEEIKAEEAFKKSLSLGYVSLKGLSIRIDNGAYVHQLPDFRIAINYLFSKDIKEDAERKNLALFSTKTLSAFHETFNIDHDYNEYPEQNTNEDFLMAIKKSTLTEDFNFKNT;locus_tag=LOCUS_02270;note=MGA_227
sequence1	MetaGeneAnnotator	CDS	138986	139144	.	+	0	ID=MGA_228;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISDPRRPNTNPNLNEGILHFNLGYIQFNFNLDKIIKGTKEIEGKKSYIKFV;locus_tag=LOCUS_02280;note=MGA_228
sequence1	MetaGeneAnnotator	CDS	139503	139991	.	+	0	ID=MGA_229;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLINITLSYLLINILHILFTLKINNFLIRVTSVYFLYALLSCVFLLSFFLLISLLTNIQVSTIIATLILSTTFISNMPYIFLIKGEEAKKISVDYNSSKTTLYVNEVYDSFDLKKQVLNKELKYSNLSLEIYNNFLENQYETDPNLLNNFESASNINKRINF;locus_tag=LOCUS_02290;note=MGA_229
sequence1	MetaGeneAnnotator	CDS	140121	140582	.	+	0	ID=MGA_230;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEYKFLTIEELQQKMHLGSLSDKQKKLLQEFIEFTQYITNYFTSFQSKFASLFESFIFLNDETNIEKNYIKNETKPEEENMLFDKKYLVEMYQNYFSFSDNKLRLENKKIEKLIEQDFYWPTMLSMRILEDYFIRYTNNMVILENSNVVKDED;locus_tag=LOCUS_02300;note=MGA_230
sequence1	MetaGeneAnnotator	CDS	140927	141283	.	+	0	ID=MGA_231;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKLINFKDYSKKFKKKVIGPFNFSIEKNKITALLGSSGSGKTVILNSLLGIIKKFNGSIDIENFNRKTRKYFIINSKIGYYTQMDFSLYTVSAYDFLLDICIMMGINKKESFKRIEH;locus_tag=LOCUS_02310;note=WP_011387452.1 ABC transporter ATP-binding protein (Mycoplasma capricolum) [pid:54.5%25%2C q_cov:93.2%25%2C s_cov:18.0%25%2C Eval:6.0e-27%2C partial hit],internal stop codon at [141281:141283](+)%2C[141302:141304](+)%2C[141434:141436](+),MGA_231
sequence1	MetaGeneAnnotator	CDS	141959	142645	.	+	0	ID=MGA_232;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLGLLGSLTLITSASATVIACGGSIESVIKEFDYGALIKQLETDVQKIYEKHLIENVGLKLFGITSTEKNNQFLKRANIDKYKDNPSGIQGNEQTALKNDLEKILDLKSFETSLNNELKKQNKYKIILNDVESLFKSVTFNFETMIIQSNEINDIYLGNVVIDYNIVLQYKGKTDIENFKLKDTLKYTLTDQKLFQEASQRFYQNITKDYFASTDPKHTVHTNLE;locus_tag=LOCUS_02320;note=MGA_232
sequence1	MetaGeneAnnotator	CDS	143069	143446	.	+	0	ID=MGA_233;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFLKELGMSVAEMDKIKEAEAFKKALSLGYVSIKGLSIKIDGGAYVHQLPDFRIAINYLFSKSGAEDTERRNLSEFSAKTLSAFHETFNVKHDYNKYPEQNTKLDFLMAIKKSTLTEDFNFINF;locus_tag=LOCUS_02330;note=MGA_233
sequence1	MetaGeneAnnotator	CDS	143657	143815	.	+	0	ID=MGA_234;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIADPGRPSNGYILNEGILHFNLGYIQFYFDLDKIMKGIKEIEGKKSFIKFV;locus_tag=LOCUS_02340;note=MGA_234
sequence1	MetaGeneAnnotator	CDS	144479	144742	.	+	0	ID=MGA_235;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDFSLYTISAYNFLLYICIMMGINKKEGRTIIITVHNIDEINEVIDNYLIINSGKLIFSGSKNKLDLYNKIKYIQMKNLILLSLKNS;locus_tag=LOCUS_02350;note=WP_011183360.1 ATP-binding cassette domain-containing protein (Mesoplasma florum) [pid:43.3%25%2C q_cov:77.0%25%2C s_cov:7.0%25%2C Eval:1.0e-10%2C partial hit],frameshifted%2C insertion/deletion at around 144414,MGA_235
sequence1	MetaGeneAnnotator	CDS	144943	145533	.	+	0	ID=MGA_236;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLGLLGSLTLITSASATVIACGEKEPEITETFDYDGLIKELKVDVQKIYQKHLVEKVAPQLFGITSTESSNQFLRKANIDKYKGNPSGIQGADKTALKNDLEKILDVKSLETSLNNELKKQNKYKIILNDVKSLLKSVAFDFETMIIQSNETNGIYLGNVVIDYDIVLQYKGEKEVETFKLNDTLKYTSTNQN;locus_tag=LOCUS_02360;note=MGA_236
sequence1	MetaGeneAnnotator	CDS	145786	146025	.	+	0	ID=MGA_237;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPIDFEGDLIYKESNLFDNSLLKVVNQNKSYNSSNSIKYDYKEENDKMMLETFFRKDPSQIATQNNLGDYYFTQKNYKM;locus_tag=LOCUS_02370;note=MGA_237
sequence1	MetaGeneAnnotator	CDS	146089	146427	.	+	0	ID=MGA_238;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEEIKAEEAFKKSLSLGYVSLKGLSIRIDNGAYVHQLPDFRIAINYLFSKDIKEDAERKNLALFSTKTLSAFHETFKIDHDYNEYPEQNTNEDFLMAIKKSTLTEDFNFKPN;locus_tag=LOCUS_02380;note=MGA_238
sequence1	MetaGeneAnnotator	CDS	146638	146796	.	+	0	ID=MGA_239;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIADPGRPNTNPNLNEGILHFNLGYIQFNFNLDKIIKGTKEIEGKKSFIKFV;locus_tag=LOCUS_02390;note=MGA_239
sequence1	MetaGeneAnnotator	CDS	147404	148267	.	+	0	ID=MGA_240;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNINENNKEIADSQNVAVGDDWYKLSNKKICSILETNPQTGLSNQEAKLRLEKYGKNNLPKSKKPNWFIIFLKSFLDPLSLIMILSGLASGLVSAISKKIETVDITGLVIIAIIVLTNSIIATIQEIKSLNQVANLNENKQFAIVLRNSKKIEVNIEELVPGDIIFVNSGGFVPADTRIIDNQLLRIDESALTGENEPVKKISDSIKDKNLMLGDQKNIAFMSTLVIEGKMMGVIFGTGKESEIGKIANKITSHKPEKTPLEKKVTLLTAIIGLTSIILGLILFLTA;locus_tag=LOCUS_02400;note=WP_011183253.1 cation-translocating P-type ATPase (Mesoplasma florum) [pid:36.3%25%2C q_cov:92.7%25%2C s_cov:27.7%25%2C Eval:3.5e-45%2C partial hit],internal stop codon at [148265:148267](+),MGA_240
sequence1	MetaGeneAnnotator	CDS	148397	149728	.	+	0	ID=MGA_241;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVATKKMARKNVIIKNPKSIETLGNVNVICSDKTGTLTQNKMTVDKIFIDFVEKDFKDFDKVKYKELINCISLCSDAIVEKEKIGSATEIATIEFIKKFDINYIKMRKNYERIDEIPFDSKRKLMSTLNNVDGKEMIYVKGAVDYLSNICTNKFINGKVTPLTEDDRNILNEQLYKFAKSGLRVLGFAQKEYKNPKDPYESNLIFLGCVAIIDPPREEVKKSVEEAKKGGIRVIMITGDHKITAFEIASRLGIADEVFDGVLTGQDINELSREELKQRLKRTNVFARVNPEHKALIVDLLQEDKNIVAMTGDGVNDAPSLVKADVGISMGITGTEVAKSVSDVILADDNFKSIISGVNSGRNVYEKIKYSISFLLAANISQIITLLLILLINKDIALNSVNILFHIFIIETIVAVPIGMQKERKGVMKNPPPTTKSESLLKGI;locus_tag=LOCUS_02410;note=WP_011183253.1 cation-translocating P-type ATPase (Mesoplasma florum) [pid:48.4%25%2C q_cov:99.5%25%2C s_cov:45.6%25%2C Eval:2.3e-103%2C partial hit],internal stop codon at [148265:148267](+)%2C[149726:149728](+),MGA_241
sequence1	MetaGeneAnnotator	CDS	149878	150120	.	-	0	ID=MGA_242;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNTVGNKELIKNIIAKIGFNPIVVKSKKSLITPTGIKVKLVTTKATAIKINNHLFGLYLSTSQIVFVALIGKKKLLYNIE;locus_tag=LOCUS_02420;note=MGA_242
sequence1	MetaGeneAnnotator	CDS	150327	150464	.	+	0	ID=MGA_243;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLAHCIIIVILALLLPILTFQMTGAISLKNDPNNVVQGTNIITKI;locus_tag=LOCUS_02430;note=MGA_243
sequence1	MetaGeneAnnotator	CDS	150558	150779	.	+	0	ID=MGA_244;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGRRIEISLRNRCLENLVRQDISYYSDKKIGEILTKIVSDTQIVGDQAVQVPLQFGLSFFEIIGAAILMYILS;locus_tag=LOCUS_02440;note=WP_011183322.1 ABC transporter B family permease/ATP-binding protein (Mesoplasma florum) [pid:58.9%25%2C q_cov:100.0%25%2C s_cov:11.9%25%2C Eval:1.8e-18%2C partial hit],internal stop codon at [150777:150779](+)%2C[151050:151052](+),MGA_244
sequence1	MetaGeneAnnotator	CDS	150783	151052	.	+	0	ID=MGA_245;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MATVTVITFTIIMALMMICFFATRKKVIKVRESITEINGNVTDRIATVRLIKSSGTENYETERFKEVHKDFYKKSKKVGTRLALMLTIM;locus_tag=LOCUS_02450;note=WP_011183321.1 ABC transporter B family permease/ATP-binding protein (Mesoplasma florum) [pid:42.7%25%2C q_cov:100.0%25%2C s_cov:14.6%25%2C Eval:6.9e-15%2C partial hit],internal stop codon at [150777:150779](+)%2C[151050:151052](+),MGA_245
sequence1	MetaGeneAnnotator	CDS	151095	151712	.	+	0	ID=MGA_246;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIYGNTDPTVSKEFFGTTFASYNLAQGLMIGPLFNIMAALFGLAQASVASQRVDDTIHAKSIMDSHYFDGEIVKSVKGDIQFKNLEFEYPEKPGKIVLPKFSFTFEEGKSYAFVGETGSGKSTIAKLLLRFYDPSKGEIIINGKTNLKDVNLASYLNHVGYVEQDPQILYGDVFENVKYGSFDATDEEVIEACKKAELHELVMT;locus_tag=LOCUS_02460;note=WP_011183322.1 ABC transporter B family permease/ATP-binding protein (Mesoplasma florum) [pid:65.3%25%2C q_cov:95.6%25%2C s_cov:31.9%25%2C Eval:3.0e-70%2C partial hit],internal stop codon at [151050:151052](+)%2C[151710:151712](+),MGA_246
sequence1	MetaGeneAnnotator	CDS	151794	152069	.	+	0	ID=MGA_247;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLKNPQVLILDEATSALDNIVEKEIQAKLDLLMKGRTTVTIAHRLSTIKNANEIIVLGGNGAGIVQRGKFSELRDQPGHFQKLYKAGLIE;locus_tag=LOCUS_02470;note=WP_011183431.1 ABC transporter ATP-binding protein/permease (Mesoplasma florum) [pid:75.6%25%2C q_cov:98.9%25%2C s_cov:14.2%25%2C Eval:4.7e-32%2C partial hit],internal stop codon at [151710:151712](+),MGA_247
sequence1	Aragorn:1.2.38	tRNA	152198	152273	.	+	.	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	152281	152356	.	+	.	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	152374	152449	.	+	.	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	152459	152534	.	+	.	ID=Aragorn_5;product=tRNA-Thr;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00040;note=Aragorn_5
sequence1	MetaGeneAnnotator	CDS	152614	152901	.	+	0	ID=MGA_248;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKSLSLITYISLSVFLLNQILVIAFIKSIYYELNNKSLEDIVYIIVISSIVFLLIVAFVAFISIIKNTTKSTFVGSIILIILGIILFFTIISFT;locus_tag=LOCUS_02480;note=MGA_248
sequence1	Aragorn:1.2.38	tRNA	153052	153127	.	+	.	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	153133	153217	.	+	.	ID=Aragorn_7;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00060;note=Aragorn_7
sequence1	MetaGeneAnnotator	CDS	153586	153777	.	+	0	ID=MGA_249;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFGATVLVPIIINSLSQKGEVINISMALFCSGVGTLIYIALTMAKVPIYLGSSFAYMTVLGIG;locus_tag=LOCUS_02490;note=WP_011183554.1 solute carrier family 23 protein (Mesoplasma florum) [pid:77.4%25%2C q_cov:98.4%25%2C s_cov:13.1%25%2C Eval:6.1e-19%2C partial hit],internal stop codon at [153553:153555](+)%2C[153775:153777](+)%2C[153856:153858](+)%2C[153871:153873](+)%2C[153985:153987](+)%2C[154003:154005](+),MGA_249
sequence1	MetaGeneAnnotator	CDS	154264	154494	.	+	0	ID=MGA_250;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVAIVPISLVTMVEHLGDHINIGTMTGRDFIKNPGISRTLMADGVAMSFAGLIGGPANATYAENTSVVGLTKVASV;locus_tag=LOCUS_02500;note=WP_011183554.1 solute carrier family 23 protein (Mesoplasma florum) [pid:59.2%25%2C q_cov:100.0%25%2C s_cov:16.4%25%2C Eval:1.2e-22%2C partial hit],internal stop codon at [154003:154005](+)%2C[154159:154161](+)%2C[154201:154203](+)%2C[154207:154209](+)%2C[154231:154233](+)%2C[154492:154494](+),MGA_250
sequence1	MetaGeneAnnotator	CDS	154528	154926	.	+	0	ID=MGA_251;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSFIAPINEIIKMIPVPVMGGISLMLFGMIASNGIKIMIDSKVDLKDAKNLVVISVILAIGIGMSIMKEDIVIGSFHITGLFLATFSGVMLNLLLPKHDNAGILTIFNSFKRKPKQDSVDSNKKQIKNKKDK;locus_tag=LOCUS_02510;note=WP_011183554.1 solute carrier family 23 protein (Mesoplasma florum) [pid:46.2%25%2C q_cov:80.3%25%2C s_cov:22.8%25%2C Eval:1.6e-24%2C partial hit],internal stop codon at [154492:154494](+),MGA_251
sequence1	MetaGeneAnnotator	CDS	155045	155302	.	+	0	ID=MGA_252;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLKENVLIFSDLDGSALASTHEFSEFTKNVVKKVYDKNYYFIPVTARCTKDTFEQQSIYLELDKLGGIAAANNGTHIYDFKKNN;locus_tag=LOCUS_02520;note=WP_011166283.1 Cof-type HAD-IIB family hydrolase (Mycoplasma mycoides) [pid:44.3%25%2C q_cov:92.9%25%2C s_cov:27.9%25%2C Eval:1.1e-12%2C partial hit],internal stop codon at [155300:155302](+)%2C[155441:155443](+),MGA_252
sequence1	MetaGeneAnnotator	CDS	155453	155878	.	+	0	ID=MGA_253;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIDYKVIDSFEEIDKEINHITVVLEKEPSQESIELFYKNFAIISNELDIIKYTDRVYELAIKGIHKGSVVKEVLNYLGLDQSNTTTFGFGDSFNDFELAQEVDNFIAMENGLKELKEKASFITKTNDENGVANYIIENIL;locus_tag=LOCUS_02530;note=WP_011183066.1 HAD-IIB family hydrolase (Mesoplasma florum) [pid:38.7%25%2C q_cov:99.3%25%2C s_cov:50.5%25%2C Eval:2.5e-15%2C partial hit],internal stop codon at [155300:155302](+)%2C[155441:155443](+),frameshifted%2C insertion/deletion at around 155554%2C155578%2C155527,MGA_253
sequence1	MetaGeneAnnotator	CDS	155994	156197	.	+	0	ID=MGA_254;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFAPIFDLTSNEESSVNFIKVDTDKLKEVALKYNVMSIPTIIMFKNGEVVKQNSGFMPKDILKQFIK;locus_tag=LOCUS_02540;note=WP_011183075.1 thioredoxin (Mesoplasma) [pid:41.8%25%2C q_cov:100.0%25%2C s_cov:65.7%25%2C Eval:5.7e-09%2C partial hit],internal stop codon at [155976:155978](+),MGA_254
sequence1	MetaGeneAnnotator	CDS	156212	156751	.	+	0	ID=MGA_255;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKLIALDIDGTLVKRRNVVSKKNIKAIKEARKKGIKICIATGRNISRAKNIAKAIGLDSAQEFLISLNGGATFKYNENAEPIMVEEHLFELEDFKFIYDVAKENKLSCFSYAKDPNIAYILKRDLFTYVLKKFSHRKLIKYNRETVKDTSYKIVVYGKPKGISTLKNKLKDKEFEMFS;locus_tag=LOCUS_02550;note=WP_011166968.1 HAD family hydrolase (Mycoplasma mycoides) [pid:34.3%25%2C q_cov:100.0%25%2C s_cov:63.1%25%2C Eval:4.4e-21%2C partial hit],internal stop codon at [156749:156751](+)%2C[156902:156904](+)%2C[157001:157003](+),MGA_255
sequence1	MetaGeneAnnotator	CDS	157335	157484	.	+	0	ID=MGA_256;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MESSHTLSYFFGETEFNYATYKRDSKNYTFYGDEQNVKRTKIYNKKINL;locus_tag=LOCUS_02560;note=MGA_256
sequence1	MetaGeneAnnotator	CDS	157713	158105	.	+	0	ID=MGA_257;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPLSFQPILIRYASKDKSNVGRLKFKINYSINNVIKEIIIDKEYQINNKLEYKVSDFGSSAMFFPNTSSKFILKNLNEVVTKRKIDYSDEDNIDFEDSKKLKKIIKLENPLLPNDSEVFEVEEKDDFIRV;locus_tag=LOCUS_02570;note=MGA_257
sequence1	MetaGeneAnnotator	CDS	158310	158519	.	+	0	ID=MGA_258;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVTRDNILGRKIKDMSERSNYESISVPNFGLGNFIKYVFTPHQDEKNVIKSFMGETLEEVFSKTADKGI;locus_tag=LOCUS_02580;note=MGA_258
sequence1	MetaGeneAnnotator	CDS	158619	158900	.	+	0	ID=MGA_259;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNFFVKDSDQRAYQVAANSLYVDSYGEITPDGIAVINQMIPLLRDQLAIHASQNQTIYEDINIYYSYDEFSAEVNNLSIDIFKDIDDTYKDF;locus_tag=LOCUS_02590;note=MGA_259
sequence1	MetaGeneAnnotator	CDS	159168	159473	.	+	0	ID=MGA_260;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFSFKVGAHGYDRYQVDGYKNDISLDGEVLDPTKEPGDSFYIYPGDSNEMFDSLRYVNMIKGINLVNKAKIILKESSNYSNYKDILQFDTKEENRYINEK;locus_tag=LOCUS_02600;note=MGA_260
sequence1	MetaGeneAnnotator	CDS	159866	160561	.	+	0	ID=MGA_261;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNNNILEIRNLTKSYDGKVVLKGVSFNIKEGEFITLLGPSGCGKTTTLNIIGGREKQDSGDLLFEGKDLTPIPSNKRQINTIFQNYALFPHYDVYDNIAYGLRVKRVKEDLITKEVMQYIKKFSLEGMENKRVHELSGGQKQRVAIARALILKPKILLLDEPMSALDVQLRKRMQDELKELQEEIGITFILVTHDQEEALTLSDRIVVMNDGAIQQIGSPEEIYNEPENN;locus_tag=LOCUS_02610;note=WP_011166424.1 spermidine/putrescine ABC transporter ATP-binding protein (Mycoplasma mycoides) [pid:73.1%25%2C q_cov:98.3%25%2C s_cov:64.7%25%2C Eval:4.7e-97%2C partial hit],internal stop codon at [160559:160561](+),MGA_261
sequence1	MetaGeneAnnotator	CDS	160914	161102	.	+	0	ID=MGA_262;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNLDNEKDIIKQKNNVEVEKELDDIENIESEGTEIETEIPKVKLKEKIQEFKIVKGIKSKV;locus_tag=LOCUS_02620;note=MGA_262
sequence1	MetaGeneAnnotator	CDS	161109	161384	.	+	0	ID=MGA_263;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLPFMVVMGFLVILPLLGIIIFSIVEATGNSIKFKLDFSNFVKLLTSGSIMYVLFLSLMYAFIASIICVACAYPIALIMAQLKNKLLAKNV;locus_tag=LOCUS_02630;note=WP_011166425.1 ABC transporter permease (Mycoplasma mycoides) [pid:48.4%25%2C q_cov:100.0%25%2C s_cov:27.6%25%2C Eval:8.3e-21%2C partial hit],internal stop codon at [161100:161102](+)%2C[161382:161384](+)%2C[161406:161408](+)%2C[161619:161621](+),MGA_263
sequence1	MetaGeneAnnotator	CDS	161415	161621	.	+	0	ID=MGA_264;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILKILGLRSLFLVISPSVLGTPIAVIIGMVYMFLPFAISPIYNAIENQDRNYYLAALDLKASKSKAF;locus_tag=LOCUS_02640;note=WP_011183408.1 ABC transporter permease (Mesoplasma) [pid:63.5%25%2C q_cov:76.5%25%2C s_cov:15.7%25%2C Eval:2.0e-14%2C partial hit],internal stop codon at [161382:161384](+)%2C[161406:161408](+)%2C[161619:161621](+)%2C[161889:161891](+),MGA_264
sequence1	MetaGeneAnnotator	CDS	161715	161891	.	+	0	ID=MGA_265;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGDGKINLITSIIENYFFRGTDFTFGATIAIALALLLFAIMGIMKLISNKFEVRGSKK;locus_tag=LOCUS_02650;note=WP_011183408.1 ABC transporter permease (Mesoplasma) [pid:50.9%25%2C q_cov:98.3%25%2C s_cov:17.2%25%2C Eval:3.0e-10%2C partial hit],internal stop codon at [161619:161621](+)%2C[161889:161891](+),MGA_265
sequence1	MetaGeneAnnotator	CDS	161938	162318	.	-	0	ID=MGA_266;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITYGTLNEICAAIKVTIPNFSPARTNKSINPTAVITSAFTKGIFAILTQLSEDLFLILVSPTTAIIPINNDIIVETIATNKDTVIDFINGELLTNALYHSRLKPLQLVTLLPELNEKIIITAIGT;locus_tag=LOCUS_02660;note=MGA_266
sequence1	MetaGeneAnnotator	CDS	162230	162619	.	+	0	ID=MGA_267;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLFVLAGLKFGIVTLIAAHISFNVPYVIITVLPFMNRIDKNILEASKDLGGNQRQTFYKVVLPILTPCIITAAAICFAMSFDDFIISYFTGGGQTNVSTFIYTAKRMQPYINAFGTLLVASIVVIVLI;locus_tag=LOCUS_02670;note=WP_011183407.1 ABC transporter permease subunit (Mesoplasma florum) [pid:65.0%25%2C q_cov:90.7%25%2C s_cov:10.8%25%2C Eval:2.2e-40%2C partial hit],internal stop codon at [161999:162001](+)%2C[162020:162022](+)%2C[162170:162172](+)%2C[162617:162619](+)%2C[162866:162868](+),MGA_267
sequence1	MetaGeneAnnotator	CDS	162932	163063	.	+	0	ID=MGA_268;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIKKSQIESKIQKMTNEKKIRKFEQVLSKLERKINKYEKEIE;locus_tag=LOCUS_02680;note=MGA_268
sequence1	MetaGeneAnnotator	CDS	163256	163609	.	+	0	ID=MGA_269;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTIEKLALLQKENEEKSRKKYEQLKLIKSKVFRKISLVDSIDKQINLLDKDDENYSVKLVELQEIREEKLKEATEAINSKLSSKEEKLEKVNNYVKAKRDKYFPDVLEETYVPKSNR;locus_tag=LOCUS_02690;note=MGA_269
sequence1	MetaGeneAnnotator	CDS	164150	164275	.	+	0	ID=MGA_270;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVNGQFKENTKLVNFLKEQDVFKNQANQKRVFYEIDPDKLS;locus_tag=LOCUS_02700;note=MGA_270
sequence1	MetaGeneAnnotator	CDS	164345	164746	.	+	0	ID=MGA_271;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYGFEKLYGNVEAKDGLKVNETLLTKQQQIDNVSSEIKNLVSYRNVGLYGDQLQDKVHDRDFDIAVMYNGDLIYATQDDYESEVEEDNLKVVREEAQTNSFDFTIISEVPRKDLTNKNIKILDKQVKKESTNL;locus_tag=LOCUS_02710;note=WP_011183407.1 ABC transporter permease subunit (Mesoplasma florum) [pid:45.2%25%2C q_cov:51.1%25%2C s_cov:6.8%25%2C Eval:5.1e-10%2C partial hit],internal stop codon at [164273:164275](+)%2C[164285:164287](+)%2C[164744:164746](+),MGA_271
sequence1	Aragorn:1.2.38	tRNA	165364	165438	.	+	.	ID=Aragorn_8;product=tRNA-Cys;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00070;note=Aragorn_8
sequence1	Aragorn:1.2.38	tRNA	165607	165683	.	+	.	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	165726	165802	.	+	.	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	165828	165903	.	+	.	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	165909	165985	.	+	.	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	166010	166086	.	+	.	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	166131	166223	.	+	.	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	166231	166306	.	+	.	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	166311	166387	.	+	.	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	166393	166468	.	+	.	ID=Aragorn_17;product=tRNA-Phe;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00160;note=Aragorn_17
sequence1	Aragorn:1.2.38	tRNA	166582	166658	.	+	.	ID=Aragorn_18;product=tRNA-Ile;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00170;note=Aragorn_18
sequence1	MetaGeneAnnotator	CDS	166878	167453	.	+	0	ID=MGA_272;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTKNKKVNNNYNNQLSKFVKLDQEQTLKKLEISNFGLSETEVETQKNKFGDNLLKEKKFNYILSFIKAFFSPFNLILIVIDTFSFYQYATDPELSDLVGALLVLTMIIISGTIYFVQEIRSFHVIKKMTFENKHMTKVIRDVDFKITNIDNANSIKLIKESEQIETSELVPGDLIYVSNGDLIPADVKVI;locus_tag=LOCUS_02720;note=WP_011183394.1 magnesium-translocating P-type ATPase (Mesoplasma florum) [pid:52.2%25%2C q_cov:96.3%25%2C s_cov:20.8%25%2C Eval:4.2e-52%2C partial hit],internal stop codon at [167451:167453](+)%2C[167694:167696](+),MGA_272
sequence1	MetaGeneAnnotator	CDS	167565	167696	.	+	0	ID=MGA_273;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGTEVVSGSALCLVIQTGQKTFFSAINDKVTEKRSKNSFEKGV;locus_tag=LOCUS_02730;note=WP_011183394.1 magnesium-translocating P-type ATPase (Mesoplasma florum) [pid:65.1%25%2C q_cov:100.0%25%2C s_cov:4.9%25%2C Eval:6.7e-10%2C partial hit],internal stop codon at [167451:167453](+)%2C[167694:167696](+)%2C[167790:167792](+),MGA_273
sequence1	MetaGeneAnnotator	CDS	167805	168167	.	+	0	ID=MGA_274;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFAISIAVGLTPEMLPVIVTANLSRGYAKIKKENVIVKNLNAVQNMGAIDILCTDKTGTITSGEINLDHVFDIKNQKNEKIEHILYLNSYFQTGFQNPIDQAVLLSKKISMPNLEQYSKE;locus_tag=LOCUS_02740;note=WP_011183394.1 magnesium-translocating P-type ATPase (Mesoplasma florum) [pid:67.8%25%2C q_cov:100.0%25%2C s_cov:13.5%25%2C Eval:5.7e-41%2C partial hit],internal stop codon at [167694:167696](+)%2C[167790:167792](+)%2C[168165:168167](+),MGA_274
sequence1	MetaGeneAnnotator	CDS	168336	169124	.	+	0	ID=MGA_275;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKSNEYNNDGFRVIGIAHNELEDEDIEEDLVFYGFGTFFDEPKKTSKKIIKELAQKGISTKILTGDNEIITRAICSKVDFKIDKLYTGKEIDSMNEEQLHKAVRKGNVFVKLSPIHKSTIIRALKEQGHVVGFMGDGINDAPVLRESDVAISFDEASNIAKEAADIILMEESLLPISHAVHEGRVSLANILKYIKVTIASNFGNVLSVLVALFLTMSEPMQPLHLLTQNLLYDIVMFAFIFDKVDSKFTDKPRPLKTKNII;locus_tag=LOCUS_02750;note=WP_011183394.1 magnesium-translocating P-type ATPase (Mesoplasma florum) [pid:73.3%25%2C q_cov:100.0%25%2C s_cov:29.6%25%2C Eval:1.8e-106%2C partial hit],internal stop codon at [168165:168167](+)%2C[169122:169124](+)%2C[169272:169274](+)%2C[169359:169361](+),MGA_275
sequence1	MetaGeneAnnotator	CDS	169395	169565	.	+	0	ID=MGA_276;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAVIVPYGFMSIDAISDGMKMGVPKWSFLPIALSFVAAYMVLAQAVKMLYIKIFKE;locus_tag=LOCUS_02760;note=MGA_276
sequence1	MetaGeneAnnotator	CDS	171341	171535	.	+	0	ID=MGA_277;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGIVPSKEPFQKLINQGMILADNGEKMSKSKGNVINPDEIIESHGADTLRLYEVFMGPLEASLP;locus_tag=LOCUS_02770;note=WP_003643180.1 leucine--tRNA ligase (Lactiplantibacillus) [pid:76.6%25%2C q_cov:100.0%25%2C s_cov:7.9%25%2C Eval:3.3e-25%2C partial hit],internal stop codon at [171089:171091](+)%2C[171149:171151](+)%2C[171164:171166](+)%2C[171251:171253](+)%2C[171320:171322](+)%2C[171533:171535](+)%2C[171566:171568](+),MGA_277
sequence1	MetaGeneAnnotator	CDS	171587	171826	.	+	0	ID=MGA_278;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIENIKLTDKNNGNLDFIYNDVVKKTTQMVEDCKFNTAISQLMMFVNSVYKETQPIYKEYIFNFIKMLSVYAPHLAEEL;locus_tag=LOCUS_02780;note=WP_011183388.1 leucine--tRNA ligase (Mesoplasma florum) [pid:59.5%25%2C q_cov:100.0%25%2C s_cov:9.9%25%2C Eval:1.5e-22%2C partial hit],internal stop codon at [171320:171322](+)%2C[171533:171535](+)%2C[171566:171568](+)%2C[171824:171826](+)%2C[171866:171868](+),MGA_278
sequence1	MetaGeneAnnotator	CDS	172173	172535	.	+	0	ID=MGA_279;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKLILSNLQDYINEHIKMQINCFNMSRKCDELGYPGFTHFFQVQAQDEFLHQRRIMNYLLDKGQGYKISSIEIKNKDFKNIVEILEEYITCRTHFAKITDEFTKNAKDKSDFTTVKFYE;locus_tag=LOCUS_02790;note=MGA_279
sequence1	MetaGeneAnnotator	CDS	172780	173811	.	+	0	ID=MGA_280;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNIIENNAVKEIILDFSFLQNVQFKENPAALDQIIEQLDIRGINTCVEFQNFLRSSLAKKSFICLLDNKTRQFSKKDKSKSSYNGIIRIELDSKNQSLLPEGTYLGFYVNIDTMNASLIISSIFMTRLKPLAQEFETIIQESQILIIRNQGQIKDDELIRRNVLNSSNISQIGKLLSTFEEEKDKWLNYLEFSDDLLKLDRKKSLPYLGLNYQKVIRIDKIYFDSNLFEYEIKEFKTKAYKYLLVNSESYLKSKRIQYQISYVVTLDLLLDELEKVNKIKKTKDLSLVPIKMNKNILTTHELVKNIYEIFDFDLDKINEIKNILQVSNMLGVLEEEITFADY;locus_tag=LOCUS_02800;note=MGA_280
sequence1	MetaGeneAnnotator	CDS	173965	176073	.	+	0	ID=MGA_281;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MESLSSGYLAYTGIGEDVLIERSKQVIKKISEGNTKNPYLINYLFNTKLVELSEVSNDIKIDDDQFTFTLNSEQKEAVIKAVNTKDIFILQGPPGTGKTQVISEIITQLTKLNRKVLISSQNHEAIKNVVDRLPIDPNLNKIRLTNQLNIKSQSSNGYSPDRVLYNYYKAIGKRAFDDMTNDENLIREFNNYKSELERLINANKSFYQNNTQVRLIQEKIDELNNQLISFKEKNLDKIRSKNLLKEELINVTNLIETISTKEFDASINVGERIITCFENSIKFELNNFVYMNLSFEPNDFLNPYLLIKEIVNDIFYKNEAFLEIKKAKSILNKYKRNADFDLAEKEESRIQGLEQILRTDTKINELNKIFETFLVSLRNLKVEIELRLQNRENETFIDLDLDKLEIEKNQLIVTKNNLGENAGSSARELRELIKIVNDKFSLNLGLTDIDLEDQVKSELKKLEKKLQDGKERKENFSEMYNSIINYLNNNYKITNNFEEELASKNFTGQTFKDSQKYINTILDNLVNVYSMTLTSTNLFKFTKDNFANKLGLEELNLRNMDVDVVIIDEASKATIIEILMPLIYGKALILVGDYRQLPPILKLQPNDVEDVNKHFKKDYSYNLMYELLDDSAFKKLIAAKNKNITTILKTQYRSHEQIMDIVNKFYDGQLKVESQVSEQKRHDLKIVNQFNKEIINSRNSVY;locus_tag=LOCUS_02810;note=WP_201626303.1 AAA domain-containing protein (Fusobacterium canifelinum) [pid:23.2%25%2C q_cov:79.3%25%2C s_cov:35.3%25%2C Eval:7.1e-15%2C partial hit],MGA_281
sequence1	MetaGeneAnnotator	CDS	176140	176637	.	+	0	ID=MGA_282;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNDLEIKITKELLTKLDKAVLSKNLKLKPSVAVISFYGLHVNKLKKEINASTFKNINLIINTVDDFQGKEADYVLVNLVRNPEKLSTKSGRDFLKKYERINVAFSRARELLIIVGAQRAVNDITVKIPTIDDPNISNSHQVYADIISKLDFEGSLLKPNEIMED;locus_tag=LOCUS_02820;note=MGA_282
sequence1	MetaGeneAnnotator	CDS	176642	177070	.	+	0	ID=MGA_283;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFNKIEIQYEKFYLPLKIKYSEIRKPTFMEFLILLIIIEHPNKNKNMEEILEIDFNIKNKILFERALRELINFKVIEIGKNKVGVGLLNMHTPIKNFSIDLNLKEEFKKGTYTISQDNKFQDVKFFADPIFKNKEIITDIN;locus_tag=LOCUS_02830;note=MGA_283
sequence1	MetaGeneAnnotator	CDS	177392	178294	.	+	0	ID=MGA_284;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLDILKSILNKYDEKIKKLFMPELNFKNKPNFMPNCDLFSNLNIKTSYNLMLVNDQFIKSDDEIIKSKELSKNIEIIIFYNSKRNTKVVTTVDNKLIFYVDYIDDEILQNNSFVYLDSKNASNSFLLANKSFDSININIPVIYKYKNPIEPIELTKLFSSKVYDVLEKFEDSLINKKYDISMNIYLILERLGLEEKVSSILENFLLKSIDFGQNYNDMKEHLAEKTDRKLALILEKVAKSLIIKISNERTDEELFDILENYQFIDTKNILDIFDKINMQNTIQNIYKINSFLEKHSIDG;locus_tag=LOCUS_02840;note=MGA_284
sequence1	MetaGeneAnnotator	CDS	178493	178759	.	+	0	ID=MGA_285;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDSIIELVGNSLDIENFDQYVLNLSESLIDFYKYYYKYKSEQFPLMTEDLVDYKVKILAGNYINRIENEINEFIDKKIYNMPIELKLV;locus_tag=LOCUS_02850;note=MGA_285
sequence1	MetaGeneAnnotator	CDS	178918	179835	.	+	0	ID=MGA_286;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSMSAEEILINCEKQFSFIKKDIDVLIEYIIELISQCEQIDNSGFYKKEIEKLLEQLKREKTDLAKNTYERELSSDTHIAIETYHEIQRFAERKRETIAEFKTQVYSFKKDVLIKEQENILKAFNKDIFKDLNSLKNELIAKYKNDQDKIYIKKMFETNQHKLINKTSDQIYSLIMEDLKELKASNQVIAKEIIGDSIQLYKEDLDVIKAIKDSANKLSLLKESKNFQKDIKQYFLSSSKLAEQEAIRKDNVIKIVKAIREVGYIVKEENIRKLEEKNMILIHGEKLTGETADFVVKLDGSFVYN;locus_tag=LOCUS_02860;note=MGA_286
sequence1	MetaGeneAnnotator	CDS	180018	180746	.	+	0	ID=MGA_287;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSVKRELNQLKNLIGIKKAIIIEGNIDDIYEFDGKYINIHDIIFNIFDYKKYSDKFIFDQNSGLKGKKITNLITTSSNRHSSNDSIGNEFEELFSGDIDKSDYKDHLTLKKPIDFFVLLNKNINREDERKIGFIADYTNFVFSDQGLDIDDRTVLTEFSKTLKESNFSISKIDELTNCIVFLTKKINQLPPSLYLDNPEIIISTLPKPSRDERKQFLSTIKSRIQVTDISTEFENIIDATEG;locus_tag=LOCUS_02870;note=MGA_287
sequence1	MetaGeneAnnotator	CDS	180879	181829	.	+	0	ID=MGA_288;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTIKEELSSKVIGQDEAVAKVAKIIYKAYTGLTGITYSSKRSKPKGTLFFVGPTGTGKTELAKAITTFLFNDEANLIRFDMSEYGQDNADQKLIGAPPGYVGFEGGGQLTNSVKEKPFSVILFDEIEKASPKIFDKFLQILEDGRLTDNTGQTVSFSETFIIFTSNIGAAEVDPNQDSKAVHNQFIRKVQDHFTNELNRPELLGRFGNNIVPFNFIKDLNLKAKIIRQKVKPIQIAIYEKYKAELHIDLTNRTVIEILLKNADERRGGRDVLNSLETNLVDPLSEFIFNNLRNIKMGTKILTSTNEGKIVFNING;locus_tag=LOCUS_02880;note=WP_010875923.1 ATP-dependent Clp protease ATP-binding subunit (Methanothermobacter thermautotrophicus) [pid:44.4%25%2C q_cov:85.4%25%2C s_cov:47.7%25%2C Eval:3.6e-62%2C partial hit],MGA_288
sequence1	MetaGeneAnnotator	CDS	182149	182418	.	+	0	ID=MGA_289;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLEEHNEILKHIDILIDGPFIMRLLDKNRRLIGSKNQRVIKITNRYKNCDYFEQPHSEVEIQIYNDRLSMNGDGAIFDNENGEFNFKIR;locus_tag=LOCUS_02890;note=MGA_289
sequence1	MetaGeneAnnotator	CDS	182510	183265	.	+	0	ID=MGA_290;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNRNISNKILDLTSSAMMISLAMCLKLIFSPLPGVDLTLLIILLTGLFLKSNISILSTIGISLLSLLMPVDIILSICTITIYLLFNISLVIFKYFLLRNKIVIYVMAPISALMITSLYLLVSIFTYGRTEGYSLYLTHLHEAYIIFFMYCLITPFLLKQFENLLIKIEGRYSSIYNKSFKKYIEESESNILKISDKKINYNIQLASMIISMMILISYFSFVPYKMVTKFEDINYLAAIIIVPILMLFVTPT;locus_tag=LOCUS_02900;note=MGA_290
sequence1	MetaGeneAnnotator	CDS	183208	183447	.	-	0	ID=MGA_291;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIGNKPATKIPNKIKPVNNNPLAKLKLLVSNELNVHIKANNNPIELIFNTFRFPIFFANLIHVGVTNNIKIGTIMIAAK;locus_tag=LOCUS_02910;note=MGA_291
sequence1	MetaGeneAnnotator	CDS	183644	184339	.	+	0	ID=MGA_292;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSDGNVLNINKDSFKTLKTNKKFFIEIFIQNYFIGFFKFLDWSLVLFFFLKFENNKIIITTQINETSLILFLIFGFISKYFAQAIFGNIKFKNNNVNRIAMFLTLISVTAFISFLISSYYINYSNMNNIYYSILLILMFIFGTAYALIEKTKAKRFKSIVSDDEFSLAMIIDHVMGNAFFSLIIASIFFIIILLTQASLLAMIILMSSFVIIGSILLVTNSLLKNKQKENI;locus_tag=LOCUS_02920;note=MGA_292
sequence1	MetaGeneAnnotator	CDS	184336	184656	.	-	0	ID=MGA_293;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLINRSATVTICNTKTKNLKDICKKADILISAAGSPNLVTKDFVNNNMTVIDVGANFKDGKYCGDVKFEEVLKIVKYITPVPGGVGPMTIACLLENTFNLYKQKEN;locus_tag=LOCUS_02930;note=WP_010965383.1 bifunctional methylenetetrahydrofolate dehydrogenase/methenyltetrahydrofolate cyclohydrolase (Clostridium) [pid:55.9%25%2C q_cov:96.2%25%2C s_cov:36.7%25%2C Eval:1.6e-27%2C partial hit],internal stop codon at [184732:184734](-),MGA_293
sequence1	MetaGeneAnnotator	CDS	184732	185178	.	-	0	ID=MGA_294;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKIIDGKYYAQELNTSLKNSIEQLNKKRRPKLVIIQIGNNFASNKYIKNKLKACENVGIIGELKKYSEDIKQSELVKQIEILNSDLTIDGIIVQLPLPSHINEKEITDIVSPSKDADGFSPITLGNVMLNKSNIYPATPFGIVKLLD;locus_tag=LOCUS_02940;note=WP_003722487.1 bifunctional methylenetetrahydrofolate dehydrogenase/methenyltetrahydrofolate cyclohydrolase FolD (Listeria monocytogenes) [pid:39.9%25%2C q_cov:99.3%25%2C s_cov:52.1%25%2C Eval:4.6e-29%2C partial hit],internal stop codon at [184732:184734](-),MGA_294
sequence1	MetaGeneAnnotator	CDS	185222	185626	.	+	0	ID=MGA_295;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKILKVLNNLKIDEKDFYFYGKEIVKINYEKYMNKKKGKLILMTSINPTPAGEGKTTTAIGLADGLKHIGKNVILALREPSLGPVFGRKGTATGGRESEVIPMDEINLHFTGDIHAITTANNLISAQIDSEIY;locus_tag=LOCUS_02950;note=WP_010922737.1 formate--tetrahydrofolate ligase (Streptococcus pyogenes) [pid:57.7%25%2C q_cov:100.0%25%2C s_cov:24.6%25%2C Eval:3.4e-38%2C partial hit],internal stop codon at [185624:185626](+)%2C[185663:185665](+),MGA_295
sequence1	MetaGeneAnnotator	CDS	185771	186313	.	+	0	ID=MGA_296;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMTILSLSKNIEDLRMRLDSSLVAYSLEGKEIFLKELDITGSLMAILKNAINPNLVLTKYDTPTLIHCGPFANIATGTNSIISTNLALSLGDYCIVESGFGSDLGFEKYINVVNQDNDLIPDCTVMVVTLRALNLHNDFENNFDHLQKHLKHITQYHLNLIVAINFIENDSIEQLSQLKK;locus_tag=LOCUS_02960;note=WP_010865397.1 formate--tetrahydrofolate ligase (Thermotoga maritima) [pid:42.0%25%2C q_cov:100.0%25%2C s_cov:35.6%25%2C Eval:1.2e-37%2C partial hit],internal stop codon at [185624:185626](+)%2C[185663:185665](+)%2C[186311:186313](+)%2C[186335:186337](+),MGA_296
sequence1	MetaGeneAnnotator	CDS	186341	186784	.	+	0	ID=MGA_297;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEAYIKGATGASALANKVVEICNTKQNFKALIKENETIEEKIKKIVNNFYYLEDFKISKAASAKINSINKTKYKNLPICMVKSSNSIDGNDNKKSNYKITIEDVNVNSGAKFILVYTNNVMSMPGLNKYPNSKDIDLQNGEVVGLK;locus_tag=LOCUS_02970;note=WP_012583985.1 formate--tetrahydrofolate ligase (Dictyoglomus turgidum) [pid:33.1%25%2C q_cov:99.3%25%2C s_cov:27.8%25%2C Eval:7.2e-19%2C partial hit],internal stop codon at [186311:186313](+)%2C[186335:186337](+),MGA_297
sequence1	MetaGeneAnnotator	CDS	186828	186980	.	-	0	ID=MGA_298;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYMFALAIQKGLTIDELPLVDIFFLPHFNKPYNFITLASLQVLGLNYFEK;locus_tag=LOCUS_02980;note=WP_011182934.1 FAD-dependent oxidoreductase (Mesoplasma florum) [pid:84.0%25%2C q_cov:100.0%25%2C s_cov:11.1%25%2C Eval:8.0e-19%2C partial hit],internal stop codon at [187044:187046](-)%2C[187059:187061](-)%2C[187179:187181](-),MGA_298
sequence1	MetaGeneAnnotator	CDS	187179	187634	.	-	0	ID=MGA_299;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPVYYDSEFTGLVEETMKEKGVNLALGQKVVKFEGKNGKVNKVITDKGEIAVDYVVFSVGVIPQTALLKGVIDLDERGAIKTNEFMQSSNKDIYAVGDCAQVYNCSMKKDTQIALATTAVRTGILAAANIVQGNKLKSPGFTGANGIEVFG;locus_tag=LOCUS_02990;note=WP_011166460.1 FAD-dependent oxidoreductase (Mycoplasma mycoides) [pid:66.9%25%2C q_cov:100.0%25%2C s_cov:33.3%25%2C Eval:6.2e-56%2C partial hit],internal stop codon at [187044:187046](-)%2C[187059:187061](-)%2C[187179:187181](-)%2C[187845:187847](-),MGA_299
sequence1	MetaGeneAnnotator	CDS	188046	188186	.	-	0	ID=MGA_300;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTIVIGTNHAGTTAVRTLRRLDKNMEITTYDQNDNISFLGCGIAL;locus_tag=LOCUS_03000;note=WP_011166460.1 FAD-dependent oxidoreductase (Mycoplasma mycoides) [pid:80.4%25%2C q_cov:100.0%25%2C s_cov:10.1%25%2C Eval:3.1e-15%2C partial hit],internal stop codon at [187845:187847](-)%2C[187950:187952](-)%2C[188046:188048](-),MGA_300
sequence1	MetaGeneAnnotator	CDS	188744	189007	.	+	0	ID=MGA_301;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGIYDCYFSNQNIFLTDNNQNVLKTIEYNSIVDVAIETFGVIISTKKNKYLFRGKNRLLTYVLLQRMIPRLGLKLEATQGLYNYFDF;locus_tag=LOCUS_03010;note=MGA_301
sequence1	MetaGeneAnnotator	CDS	189064	189237	.	+	0	ID=MGA_302;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIIKISNNSEAGKVVSDLILEEVKSNSNIVLGLATGSSPITTYENIIVKSKEQNID;locus_tag=LOCUS_03020;note=MGA_302
sequence1	MetaGeneAnnotator	CDS	189313	189714	.	+	0	ID=MGA_303;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNKLFNHINIDSKNTFVPSGMIETNQEAQKYDELIAQKGGIDLQLLGLGINGHVGFNEPGSEFEGLTSVVKLTKSTIEANARFFDNEKDVPTQAISMGLKSIMNAKKIILIATGEAKAEAVKNLVEGPVSKN;locus_tag=LOCUS_03030;note=WP_011166981.1 glucosamine-6-phosphate deaminase (Mycoplasma mycoides) [pid:57.6%25%2C q_cov:99.2%25%2C s_cov:53.3%25%2C Eval:2.2e-37%2C partial hit],internal stop codon at [189235:189237](+)%2C[189712:189714](+),MGA_303
sequence1	MetaGeneAnnotator	CDS	189917	190303	.	+	0	ID=MGA_304;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKTNSQAIEFIKTVDSKVKVNKDIIAGIAVPSIMLSDVQKVAKNIVISAQNCYFEKEGAFTGEISVPMLQDLKIKYVVIGHSERRDIFGETDEMINNKAKSLLAANITPILCCGESLETYESGKTIA;locus_tag=LOCUS_03040;note=WP_164919794.1 triose-phosphate isomerase (Mesoplasma florum) [pid:52.4%25%2C q_cov:96.9%25%2C s_cov:49.6%25%2C Eval:4.0e-34%2C partial hit],internal stop codon at [189911:189913](+)%2C[190301:190303](+)%2C[190385:190387](+),MGA_304
sequence1	MetaGeneAnnotator	CDS	190642	190977	.	+	0	ID=MGA_305;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSYKILALDMDGTTFKSLDNIVMENVEPINQAIEKNIKVVFVTGRPIHTKLNRLELFNFKNEGAIFAAFNGALIYDLKNNKAIDANPIDKELALKAFELIKTDKDFSEIEL;locus_tag=LOCUS_03050;note=WP_011166984.1 HAD-IIB family hydrolase (Mycoplasma mycoides) [pid:41.6%25%2C q_cov:91.0%25%2C s_cov:36.3%25%2C Eval:8.0e-19%2C partial hit],internal stop codon at [190975:190977](+)%2C[191182:191184](+)%2C[191197:191199](+),MGA_305
sequence1	MetaGeneAnnotator	CDS	191014	191184	.	+	0	ID=MGA_306;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPIEQGKILKHETYFFDYEPVVFDSSMEMLDCHKILTMNTNMKYVEKLREIGLEVS;locus_tag=LOCUS_03060;note=MGA_306
sequence1	MetaGeneAnnotator	CDS	191293	191460	.	+	0	ID=MGA_307;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGDGANDVPMFEFAGLSIAPANAHDEIKAKASEVSQYTNLEGAVAKAIKKYILGE;locus_tag=LOCUS_03070;note=WP_002263635.1 Cof-type HAD-IIB family hydrolase (Streptococcus mutans) [pid:54.5%25%2C q_cov:100.0%25%2C s_cov:20.1%25%2C Eval:6.3e-08%2C partial hit],MGA_307
sequence1	MetaGeneAnnotator	CDS	191640	192299	.	+	0	ID=MGA_308;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGNSEVGHIHLGAGRIKYESLTLINKAISDNKFDSNEEIQKAIKNSLDKNSAFHIMGLFSDGGVHSHMNHMFATFRAAAKAGVKEIYIHLFTDGRDTKPTVALNYLEQLNNLFKEYKVGQVGSISGRFFSMDRDKRMERVAEGYKSLVNRSCQNSFTDPAAYIQSQYDLGKDDEGILPAYNKSCENGYIKENDTVVFVNFRPDRAIQMASTFTNKKYDA;locus_tag=LOCUS_03080;note=WP_011183400.1 2%2C3-bisphosphoglycerate-independent phosphoglycerate mutase (Mesoplasma florum) [pid:53.4%25%2C q_cov:100.0%25%2C s_cov:41.5%25%2C Eval:1.1e-60%2C partial hit],internal stop codon at [191505:191507](+)%2C[191589:191591](+)%2C[191616:191618](+)%2C[192297:192299](+)%2C[192435:192437](+),MGA_308
sequence1	MetaGeneAnnotator	CDS	192630	193049	.	+	0	ID=MGA_309;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSAVEITDKLIERIASEEFDLIVLNYANCDMVGHTGVLDAAIKGVKTLDEQLKRVYEACESHGATMIITADHGNAEIMIDGEGGPNKKHTSQPVPIIITDKNIKIRKKDAAIADVATTICEILGVEIPKEMTQPSLIIK;locus_tag=LOCUS_03090;note=WP_011183400.1 2%2C3-bisphosphoglycerate-independent phosphoglycerate mutase (Mesoplasma florum) [pid:69.3%25%2C q_cov:100.0%25%2C s_cov:26.3%25%2C Eval:2.0e-49%2C partial hit],internal stop codon at [192435:192437](+),MGA_309
sequence1	MetaGeneAnnotator	CDS	193118	193309	.	-	0	ID=MGA_310;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSVYEYKIYQFDKNYKKELVTNNGVKETLRAQDKKIFNHSLSLALKNEFSNDKTKEHIKKMYD;locus_tag=LOCUS_03100;note=MGA_310
sequence1	MetaGeneAnnotator	CDS	193430	193633	.	-	0	ID=MGA_311;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLLAFCSISLTAIPSLNIISCTPEIEDEDYFIPTEQPKNIEEIETNFKLAVDKNEDFLVQAYKE;locus_tag=LOCUS_03110;note=MGA_311
sequence1	MetaGeneAnnotator	CDS	193796	193987	.	-	0	ID=MGA_312;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSVCEYKIYQFDKNYKKELVTNNGIKQTLRAQDKKIFNYSLSLALESEFSNDKTKEHIKKMYD;locus_tag=LOCUS_03120;note=MGA_312
sequence1	MetaGeneAnnotator	CDS	194108	194311	.	-	0	ID=MGA_313;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLLAFSSISLTAIPSLNIISCTPEIEDEDYFIPTEQPKNIEEIETNFKLAVDKNEDFLVQAYKE;locus_tag=LOCUS_03130;note=MGA_313
sequence1	MetaGeneAnnotator	CDS	194514	194705	.	-	0	ID=MGA_314;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSVYKYKIYQFDKNYKKELVTNKGIKRTLRAQDKKIFNHSLSLALESEFSNDKTKEHIKKMYD;locus_tag=LOCUS_03140;note=MGA_314
sequence1	MetaGeneAnnotator	CDS	194826	195029	.	-	0	ID=MGA_315;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLLAFSSISLTAIPSLNIISCTPEIEDEDYFIPTEQPKNIEEIETNFKLAVDKNEDFLVQAYKK;locus_tag=LOCUS_03150;note=MGA_315
sequence1	MetaGeneAnnotator	CDS	195542	195745	.	-	0	ID=MGA_316;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLLAFSSISLTAIPSLNIISCTPEIEDEDYFIPTEQPKNIEEIETNFKLAVDKNEDFLVQAYKE;locus_tag=LOCUS_03160;note=MGA_316
sequence1	MetaGeneAnnotator	CDS	195948	196139	.	-	0	ID=MGA_317;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSVYEYKIYQFDKNYKKELVTNNGIKDTLKAENEETFKFFLELALKNEFYNDKTKEHIKKMYD;locus_tag=LOCUS_03170;note=MGA_317
sequence1	MetaGeneAnnotator	CDS	196260	196463	.	-	0	ID=MGA_318;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLLAFSSISLTAIPSLNIISCTPEIEDEDYFIPTEQPKNIEEIETNFKLAVDKNEDFLVQAYKE;locus_tag=LOCUS_03180;note=MGA_318
sequence1	MetaGeneAnnotator	CDS	196562	197245	.	+	0	ID=MGA_319;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKKESNIKKFVDRIFNKNNKANFKRVFLLGSIFGFVSSITLAISLPIVLKSKLEQQIYFKFDNNYFSSKEEIYEYSKLNAINNNYSFQSNIYMFDDEIFNTKDELDLYIENKFQLNEIKTKRNPNDYLINNSGELSGLVKTSSNESIQTVYKGNNDLTYLSKNDALETYTNNFQLNYEIDGQHYDNIFSAREHYLNVKLKNLESSESKTMCYEQGGMCQTQEQITS;locus_tag=LOCUS_03190;note=MGA_319
sequence1	MetaGeneAnnotator	CDS	197615	198049	.	+	0	ID=MGA_320;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMNYLNNTFETLNLNKEFLNVFNRDFYSIISKNLKDDLSYGLAEIEDNDLSDFYRLLISFKRFLDLTKIYDLSIKPEELEKNLKQIVVEILNSQKDFMNNFIDVKDNKEGANILLDDSISFDDIYSLFLNTSNFFNDGGTKKIL;locus_tag=LOCUS_03200;note=MGA_320
sequence1	MetaGeneAnnotator	CDS	198089	198343	.	+	0	ID=MGA_321;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKIDKISGAVKQVSENIKDSEKTKNKNESELEKNMQKNKEMITNSLVNNEKEFINAMGLDIEESNLRFSPLLIVYIAQAVSGV;locus_tag=LOCUS_03210;note=MGA_321
sequence1	MetaGeneAnnotator	CDS	198356	199279	.	+	0	ID=MGA_322;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFSFISLKTYEAKLDSNQSLYYFKPTFKLPLLNISFGKVKDQSIYTLNDAPLKYFSPSIDGKEIKELYEFDGKYYKEKNKAIDDLKYSIYKKPENYLKTKQLLTSVISKDNNYMLNLPSICNSNSSTQGCLQSYEYEKKLAEEKEKYISNLFNKFYKDNGKEYYLDGFGGGYESKQIAIQELQRKADDSSNYKEIYTYEMNNNKVFKETKKEIQEFIRNNQIIEYKSIINTDLIETSYYYNLKENNGYDFKIYEMNFYGQKKYFRSYLEAINYLDNKINYQVYELDRKQTTYTYKGIEFLDEKNFKQ;locus_tag=LOCUS_03220;note=MGA_322
sequence1	MetaGeneAnnotator	CDS	199344	199802	.	+	0	ID=MGA_323;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKHILTVCAITNFSTASVTSITNFQNTTMLDKEQLTDFLRRDIEENKVYIGNQIYSEYDNKIFTSQESLNEYILSNSIVESEFTSSNPSKIIKDYEHMTLDENKIYDIDMDKFSPIYRDAFGNIAYTSDEALETYTHGGLVRQKYSYDEEN;locus_tag=LOCUS_03230;note=MGA_323
sequence1	MetaGeneAnnotator	CDS	199845	200270	.	+	0	ID=MGA_324;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKINKSLYYQYNNKYYNAFNIKDINNLLSNFEEGYFVNKSKSLEGNHLLQPINEYGDKEILYKKMKRELKENFLDSYYYKVSKMDYVNSLQFGIKNKSELRIAFKGESQSIYYRGQYPSIIFANKYESKTEMVNDFKDKSK;locus_tag=LOCUS_03240;note=MGA_324
sequence1	MetaGeneAnnotator	CDS	200883	201158	.	+	0	ID=MGA_325;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQGKFNTVLKYSYGATPDLSSPDGKLLADSYEEAREKQFVQSSLSLKKRYIAYDVFGKSIESGNSEQEAIRALKRNIALQSKMTHKKEIDS;locus_tag=LOCUS_03250;note=MGA_325
sequence1	MetaGeneAnnotator	CDS	201270	201467	.	+	0	ID=MGA_326;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MALKAALSNARINGDVNKMAIEKYMYTYSNSLIGEEISVIFYNNDIQSAIDKILLKTNSKKRILN;locus_tag=LOCUS_03260;note=MGA_326
sequence1	MetaGeneAnnotator	CDS	201631	201951	.	-	0	ID=MGA_327;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLGLIFISVAIYKLTIFSNYNFNNKENTLYHIMYIIVYLFALILNITMILFAIFRLCKIYENKNIEFVSSFFSGFFLIHIYILPIVILIPIIAERFSENKEVLLKK;locus_tag=LOCUS_03270;note=MGA_327
sequence1	MetaGeneAnnotator	CDS	202869	203024	.	-	0	ID=MGA_328;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQTNVVGIYAAGDCCVYPTKVRNLVSGVYESMQAIVHIEKTLKNRKAVNNG;locus_tag=LOCUS_03280;note=MGA_328
sequence1	MetaGeneAnnotator	CDS	203346	203477	.	-	0	ID=MGA_329;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLSKPIPLVEKDYDNIFYSVTNMSAFKDHNVLIFGGGDSSLD;locus_tag=LOCUS_03290;note=MGA_329
sequence1	MetaGeneAnnotator	CDS	203541	203792	.	-	0	ID=MGA_330;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAADLKLTGDIVESKDTYGGQVTTYYPEKYIYNFPAIPKIQAQVAMDQMYEAIKKEDNEIIAIYNTYVLEINIIKPEEIGHDN;locus_tag=LOCUS_03300;note=MGA_330
sequence1	MetaGeneAnnotator	CDS	203916	204224	.	+	0	ID=MGA_331;product=tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex ATPase subunit type 1 TsaE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_020862622.1;translation=MRLEINNLEELNKVIAVILPRIKQNCCLILDGEMGAGKTTFSKYLLQEMGLKELVTSPTFTIMNQYQIKELKINHIDAYRLSLQEDGEMYLEEMINSFNIIE;locus_tag=LOCUS_03310;gene=tsaE;note=WP_020862622.1 tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex ATPase subunit type 1 TsaE (Mycoplasma mycoides) [pid:48.6%25%2C q_cov:100.0%25%2C s_cov:76.1%25%2C Eval:2.7e-22],internal stop codon at [204222:204224](+),MGA_331
sequence1	MetaGeneAnnotator	CDS	204333	204899	.	+	0	ID=MGA_332;product=tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex dimerization subunit type 1 TsaB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183392.1;translation=MNLFLDTSNNKLIIILEKNNEIIDSFFLDNQIRISDITINELNNLLKNNRLTIKDIDNLYVIKGPGSYTGVRVGITIVKTLKTLNNKFKIYVLSSLAFQASTKKVISILDAKGKNIYLGIYDKGKNIIEDQLVPLEYLKDFEQQFLNFRLVEDYKEIDFKECYLQTKIFFQEIKEIKDIKPLYIKSFI;locus_tag=LOCUS_03320;gene=tsaB;EC_number=2.3.1.234;note=WP_011183392.1 tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex dimerization subunit type 1 TsaB (Mesoplasma florum) [pid:46.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.1e-44],MGA_332
sequence1	MetaGeneAnnotator	CDS	205488	205637	.	+	0	ID=MGA_333;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEQNQIIGLLLIVIGLLIIIGFGYWAYYAKNKAKNNSNFKTGNQESQTI;locus_tag=LOCUS_03330;note=MGA_333
sequence1	MetaGeneAnnotator	CDS	205768	206196	.	+	0	ID=MGA_334;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNVSQKTGEKSSNKFVAKMKSMGKNIMPTLSKLSKAFLLPIALLPIAGVFLGVGAAISSNASDGTFLFYFGSLLNKMGDVCFGNLPVLFCISVALAYTKDSGIAALTAVVGFLVMNGMQAALLHTNSVEQSTVYVQLQDNS;locus_tag=LOCUS_03340;note=WP_011183111.1 PTS transporter subunit EIIC (Mesoplasma florum) [pid:68.3%25%2C q_cov:97.9%25%2C s_cov:19.6%25%2C Eval:5.3e-45%2C partial hit],internal stop codon at [206194:206196](+)%2C[206236:206238](+)%2C[206248:206250](+)%2C[206395:206397](+)%2C[206404:206406](+),MGA_334
sequence1	MetaGeneAnnotator	CDS	206638	206766	.	+	0	ID=MGA_335;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLAAFGQASGKLPYGVDSLIYEVAERSLVPFGLHHVFYAPL;locus_tag=LOCUS_03350;note=WP_011183111.1 PTS transporter subunit EIIC (Mesoplasma florum) [pid:92.9%25%2C q_cov:100.0%25%2C s_cov:5.9%25%2C Eval:6.3e-16%2C partial hit],internal stop codon at [206395:206397](+)%2C[206404:206406](+)%2C[206623:206625](+)%2C[206764:206766](+)%2C[206767:206769](+)%2C[206848:206850](+)%2C[206944:206946](+),MGA_335
sequence1	MetaGeneAnnotator	CDS	206953	207108	.	+	0	ID=MGA_336;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGDQTMAYKVIANSDVLNFKDLDILGLNIGRFQAGKFGFMLLGLPMAGLAM;locus_tag=LOCUS_03360;note=WP_011183111.1 PTS transporter subunit EIIC (Mesoplasma florum) [pid:77.8%25%2C q_cov:70.6%25%2C s_cov:5.1%25%2C Eval:4.4e-09%2C partial hit],internal stop codon at [206764:206766](+)%2C[206767:206769](+)%2C[206848:206850](+)%2C[206944:206946](+)%2C[207106:207108](+)%2C[207229:207231](+),MGA_336
sequence1	MetaGeneAnnotator	CDS	207250	207873	.	+	0	ID=MGA_337;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPLASISFLLSGLFRTHVSMTVSGGFIDYVVFGLIPFFGNKAMSATSVFAILGVAGIMAPAYFFSFYFAVKYGNVMVPGRDGNSDVKLATKADYKEAKGLNTDDTKIENNKSSSENARIEKATKIIEFLGGEANIVDIDACASRLRVTVKDGSVVDKEGIISLGGANGALIRGTNVQIVYGGEQEAIKPRMIKVLGQQRKAKKDKQV;locus_tag=LOCUS_03370;note=WP_011183111.1 PTS transporter subunit EIIC (Mesoplasma florum) [pid:77.6%25%2C q_cov:98.1%25%2C s_cov:29.6%25%2C Eval:1.7e-89%2C partial hit],internal stop codon at [207106:207108](+)%2C[207229:207231](+),MGA_337
sequence1	MetaGeneAnnotator	CDS	207809	208000	.	-	0	ID=MGA_338;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQFFYFTKFLILSIIIFNIKNPTSIGENILIRFILYLNEILQIKLVYLFLLYVVGPILLSYVV;locus_tag=LOCUS_03380;note=MGA_338
sequence1	MetaGeneAnnotator	CDS	208101	208274	.	-	0	ID=MGA_339;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMQPTKALKYYSKNDIEEIIRRTKKSEEKISNQDLSLYKDLEMKLNGGFNITVAVIC;locus_tag=LOCUS_03390;note=MGA_339
sequence1	MetaGeneAnnotator	CDS	208491	208673	.	-	0	ID=MGA_340;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTIIKDGEPGGINGLAYSIFKKNPLIIKNTFKFEDEKLNSEENNEVFKVYKKNPEIMIIN;locus_tag=LOCUS_03400;note=MGA_340
sequence1	MetaGeneAnnotator	CDS	208806	209270	.	-	0	ID=MGA_341;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPIVLLPFIIAISMTFSVAIGILNNLLLALIIFIYPFGAALSTQLNGSINKISETSYMNTNINMHLGHLFYNSLKNNDDYKDIFEETEINFRYDSFEKEDIGDIEKRAFLNGQANLFNGDQKILSQYKIAKLIDIIYESSKEIDTYNNSIENQY;locus_tag=LOCUS_03410;note=MGA_341
sequence1	MetaGeneAnnotator	CDS	209427	209741	.	-	0	ID=MGA_342;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSKNTKSLFIIYFLNLKLALRNKSIIITGLIFICISSLFIIMQSLSSSYPKMQLMNLSLFKAVSYICSGFCFSIFLTLIAFFFFKKQKDDGIQNIELRAGIPI;locus_tag=LOCUS_03420;note=MGA_342
sequence1	MetaGeneAnnotator	CDS	209731	210066	.	-	0	ID=MGA_343;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MASVLVRSPKYIILDEPTANLDVESKIEFISILKELNKLGVTILITSHIIEELQEIANHLVLIKNGEIVYDKSFNNKKELIIDIYKKFIDPKKVNIELISNLYKEDIKNEK;locus_tag=LOCUS_03430;note=WP_010963559.1 ABC transporter ATP-binding protein (Clostridium) [pid:35.6%25%2C q_cov:93.7%25%2C s_cov:33.5%25%2C Eval:5.0e-13%2C partial hit],internal stop codon at [210082:210084](-),MGA_343
sequence1	MetaGeneAnnotator	CDS	210082	210486	.	-	0	ID=MGA_344;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEIKNLTRVFKNNTGIKDVSFNINDQDIIAFVGDNGAGKTTTIKAIFGELHLKKGNILIDNENLFSNNNLKKLAFFPDTNNIPLDMKLHEYILFLCAANGIKRKELENKIKNIYEMLGLDKFKNKKIKELSAG;locus_tag=LOCUS_03440;note=WP_011166519.1 ABC transporter ATP-binding protein (Mycoplasma mycoides group) [pid:36.3%25%2C q_cov:100.0%25%2C s_cov:57.7%25%2C Eval:1.3e-18%2C partial hit],internal stop codon at [210082:210084](-),MGA_344
sequence1	Aragorn:1.2.38	tRNA	210691	210781	.	+	.	ID=Aragorn_19;product=tRNA-Ser;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00180;note=Aragorn_19
sequence1	MetaGeneAnnotator	CDS	210889	211125	.	+	0	ID=MGA_345;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNDKNKDLSENKPKKGFLKKIFKGKEEQKKVLNIVKNKKINNLYFYTDVNNILLILERGIRLLKDQKLKKDEEYIV;locus_tag=LOCUS_03450;note=MGA_345
sequence1	MetaGeneAnnotator	CDS	211729	211890	.	+	0	ID=MGA_346;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEGFAPELATVTKVGDKNLGENLFIRPTSEVLVADFLSREINSYRDLPVKYNQ;locus_tag=LOCUS_03460;note=WP_011166523.1 proline--tRNA ligase (Mycoplasma mycoides) [pid:71.7%25%2C q_cov:100.0%25%2C s_cov:11.2%25%2C Eval:3.7e-16%2C partial hit],internal stop codon at [211528:211530](+)%2C[211618:211620](+)%2C[211888:211890](+)%2C[211906:211908](+)%2C[211951:211953](+),MGA_346
sequence1	MetaGeneAnnotator	CDS	211999	212901	.	+	0	ID=MGA_347;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTLDILEVYKKLANDVLLLPVISGRKTEKEKFAGAKETYTIESLMYDGQSLQSGTSHYFEDNFAKAFNIKFQNKNQKEEYAYSSSWGISTRLIGAIIMTHSDDFGLVLPSKVAPIQISIIAINDSQEVMTVSNDLKTKLNSSFRVELDKSDKSFGFKISEAEIKGVPIRIEVGPRDLKDGVVTISRRDLRNKVQIKLAEVENYINKEILEHDKNLYKKALKNRTDKTFKAKTLKEYVSIIEKTPGFVLVPFCGEIECENDVKQKTSTNSRCIPEGVEQTKSKCFNCNKVSSLMVYFARAY;locus_tag=LOCUS_03470;note=WP_011183374.1 proline--tRNA ligase (Mesoplasma florum) [pid:63.7%25%2C q_cov:100.0%25%2C s_cov:63.4%25%2C Eval:3.0e-111%2C partial hit],internal stop codon at [211888:211890](+)%2C[211906:211908](+)%2C[211951:211953](+),MGA_347
sequence1	MetaGeneAnnotator	CDS	213282	213449	.	+	0	ID=MGA_348;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKERGINYYCNLASPYIFEEGTVKYIDYDLDFKVFNDFSYKILDLKEFNRNRIT;locus_tag=LOCUS_03480;note=WP_003130958.1 DUF402 domain-containing protein (Lactococcus) [pid:54.7%25%2C q_cov:96.4%25%2C s_cov:30.1%25%2C Eval:6.5e-13%2C partial hit],internal stop codon at [213129:213131](+)%2C[213219:213221](+)%2C[213243:213245](+)%2C[213264:213266](+)%2C[213447:213449](+)%2C[213480:213482](+)%2C[213558:213560](+),MGA_348
sequence1	MetaGeneAnnotator	CDS	213686	214465	.	+	0	ID=MGA_349;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKSKIRNFSIIAHIDHGKSTLADRLLELTGSVEKRDMQAQLLDSMDIERERGITIKLNSVQLKYKAKDGEEYIFHLIDTPGHVDFTYEVSRSLAACEGALLVVDASQGIEAQTLANVYLALDNDLEIVPIINKVDLPAAEPERVKEEIEKVIGIDCSNAPMISAKTGLNVEDVLEAIVKYVPAPLDADDNKPLKALIFDSYYDKYRGVMVSVRIMEGTVKVGETIKMMQSQATYEVTELGVKTPYELKKDKLEAGEVG;locus_tag=LOCUS_03490;note=WP_011183371.1 translation elongation factor 4 (Mesoplasma florum) [pid:79.9%25%2C q_cov:100.0%25%2C s_cov:43.2%25%2C Eval:1.1e-116%2C partial hit],internal stop codon at [214463:214465](+),MGA_349
sequence1	MetaGeneAnnotator	CDS	214574	215488	.	+	0	ID=MGA_350;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVYCGIYPVDTARYKDLKEALEKISLSDASLVYEPESSQSLGFGFRCGFLGLLHMDVIQERLEREYDLILIATAPSVIYKVTQTNEETIEIDNPAFLPDPQKIKFIEEPFVKVTIMTPDQYLGDLMSLCQDKRGIYIDIEYLDDMRRTLIYEMPLNEIVFDFFNKLKSMSKGYASFDYELVGYKQSKLVKMDILLNGDIVDALSTIVHRDFAQVRGRILTEKLKEIIPRQNFEVPIQAAIGGKIIARETIKAMRKNVLAKCYGGDISRKKKLLEKQKEGKKRMKAIGSVEVPQEAFIAVLKLDD;locus_tag=LOCUS_03500;note=WP_003229999.1 translation elongation factor 4 (Bacillus) [pid:68.4%25%2C q_cov:100.0%25%2C s_cov:49.7%25%2C Eval:5.9e-123%2C partial hit],internal stop codon at [214463:214465](+),MGA_350
sequence1	MetaGeneAnnotator	CDS	216333	216818	.	+	0	ID=MGA_351;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHTFLYFNIEIQLKMTYFMPLLSLLIVDLIITIVDISINYENISFKNSIQRTNSIANKINDENYANQDSLKDVSDLKNKILNMKSGLNKSYEEAIHEIERTGALNGLDMSSLIKEDEQESKKDKIIPFSVEENQQILNDIENSFKQQENQQSESNNNLINE;locus_tag=LOCUS_03510;note=MGA_351
sequence1	MetaGeneAnnotator	CDS	217583	217933	.	+	0	ID=MGA_352;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIALQCMYGVIVVFGMFSIFEAHMVRKMKLDYTDFYIKDQNSRSLVNQVIEGKIEFGEFEPDEINNELKRIRKETIEEEKRMKFEKFQKMEEEYINKKKEKKERKNAKRKKKGKTE;locus_tag=LOCUS_03520;note=MGA_352
sequence1	MetaGeneAnnotator	CDS	217899	218057	.	+	0	ID=MGA_353;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKERKRVKLNKSLSYKGQQIEYCLTLKDQKFIRLKLEDTSINVSAPFHAYD;locus_tag=LOCUS_03530;note=MGA_353
sequence1	MetaGeneAnnotator	CDS	218163	218384	.	+	0	ID=MGA_354;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDQKYAARFLEKIDRKEKLDFKLYETKEETVKRMYKKLSINYFFYFESVINKYKQIMNLDFKNLSVKVMKGK;locus_tag=LOCUS_03540;note=MGA_354
sequence1	MetaGeneAnnotator	CDS	218893	219225	.	+	0	ID=MGA_355;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MASYFKETYNSISNRLGVYEATLIVLSCSKFSYYITKKFWKLFNYTFANKNINEIPLLRVFEVMQRTSLEALEGIIEKSFLLIDKRKLDPYKHHLLIEEIIDLGDDFTYH;locus_tag=LOCUS_03550;note=MGA_355
sequence1	MetaGeneAnnotator	CDS	219232	219600	.	+	0	ID=MGA_356;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYDQVIDLTVETFIFQSKYGKPNNPSKSTVESDFFSVEDEDDFDDFFEKTKTLVFNDEVNDAFNYFGISKIAKPDEFKKIYRKMAKQFHPDLNSDQSSATEMKKINLFKEIVEKYYEKYEIF;locus_tag=LOCUS_03560;note=MGA_356
sequence1	MetaGeneAnnotator	CDS	220048	220671	.	+	0	ID=MGA_357;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQKSQVDRDSLSCLLRMISICDNFFEYEYLYDSSRVLFLESKKEVMNNLKTYDYAFKELMDLNYKSFIEEINTMKISKKYILVTNDIKHIINRCEEINDFYLIIKEAYKINDLLSDLLDLLEEDEDNSFQFGTDDEVILYNFAIYHSTKIYFSLLLREHIISEEERITNTIIDENKPLIQEEELRISETKMLSDQSKEIFYKTLKN;locus_tag=LOCUS_03570;note=MGA_357
sequence1	MetaGeneAnnotator	CDS	220836	221033	.	+	0	ID=MGA_358;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIPFSVMFKMNLGLLLIDKALLILSILSIIMGFSVNTVFIIMKTNADFITFYNFFFLFFTGAF;locus_tag=LOCUS_03580;note=MGA_358
sequence1	MetaGeneAnnotator	CDS	221157	221645	.	+	0	ID=MGA_359;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIMFSITLSLINFLMINIISLIVNLDINLVVFRTTLVHFIYTIFISICLINFFTLLSLLLKSSITTILITLMLAATFISSLPYQFLKNSEKLNNISFNSNVGTPYVSKIDNVYNVFDLQHNIKNGYIKYPNLSKHINDYFVENQFRKDQFSSSSNLKLRYDF;locus_tag=LOCUS_03590;note=MGA_359
sequence1	MetaGeneAnnotator	CDS	221658	222227	.	+	0	ID=MGA_360;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINNKSVDINSSDLTIKSLPKQWTNPEIIQGSKVELNLTFNYLFYSVEEIESIIVNMEDGSKEKIILIELIEFTKSINSFYIDDFSFQNETRDVFGDMVSLKQGYIKSKNGSQETVYNESNLKNSYQLHFIDGLDGVQFQNSKESKELFEDNLYNPLYLSVRLLENYFINYTSDFVIFNNYKVNTTSEE;locus_tag=LOCUS_03600;note=WP_008363812.1 ABC-2 transporter family protein (Mycoplasma feriruminatoris) [pid:30.6%25%2C q_cov:96.8%25%2C s_cov:30.9%25%2C Eval:8.9e-15%2C partial hit],internal stop codon at [221643:221645](+)%2C[222225:222227](+)%2C[222339:222341](+)%2C[222480:222482](+),MGA_360
sequence1	MetaGeneAnnotator	CDS	222563	222922	.	+	0	ID=MGA_361;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNQDLIEFSKFSKKFHKNQIGELSFTVKPNRVTAVIGRSGSGKSVILNSLIGAIKNYKGTIKLNNRDRKKRDSYKDNSSIGFYTQMDFSLYDISAYKFLQIICPSFGINKKDLNSKIEQ;locus_tag=LOCUS_03610;note=WP_011183360.1 ATP-binding cassette domain-containing protein (Mesoplasma florum) [pid:49.6%25%2C q_cov:98.3%25%2C s_cov:12.3%25%2C Eval:2.1e-27%2C partial hit],internal stop codon at [222920:222922](+)%2C[222941:222943](+)%2C[223073:223075](+),MGA_361
sequence1	MetaGeneAnnotator	CDS	223657	225384	.	+	0	ID=MGA_362;product=translational GTPase TypA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183367.1;translation=MNKKIINIAVIAHVDAGKSTLVDAFLNQSNVFRANEEIKEQVMDSNDQERERGITIYSKNCAIEYNDYKINIVDTPGHADFSSEVERIMKTVDTVILLVDSAEGPMPQTRFVLSKALELGLRPILLINKIDKKDQRALEVVDEVLELFMELNANDEQIEFPSLFGTARDGIVQYSMEEKSENLGPLFETIIKQVGNYPLELAKEPVQLQISSLAYDSFIGRLGVGRLFKGVLKEGQQVAISKNDGSVTKGKISGLFIYEGLKRVAVKEAQAGEIVVISGIGDLTIGDTVCEPDKIDALPSIVIEEPTMSMNFLVNTSPFAGKVGKYVTTRNIKERLDKELEVNVGLRVEALTDSSADGFKVLGRGELHLSVLIETMRREGFELGISRPEVVVKIDEKGQKLEPMERVIIDVPTEFSGTVINKLNLRKGMMVDMDSDGIRDKVTYHIPTRGLIGFKSEFTNDTRGEGVMVKSSIGYEEYKGKIEGRQNGTLVSMANGITLPYALNNLEERGILFVGPQVEVYDGMIVGLHSRDNDLNVNPTTGKKLTNTRASGSDDSVKLTPAKKFTLEEALEFIE;locus_tag=LOCUS_03620;gene=typA;note=WP_011183367.1 translational GTPase TypA (Mesoplasma florum) [pid:74.2%25%2C q_cov:99.8%25%2C s_cov:93.8%25%2C Eval:2.1e-248],MGA_362
sequence1	MetaGeneAnnotator	CDS	225590	226132	.	+	0	ID=MGA_363;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKITSIIAREVLDSRGFPTVQVDVTTEFGGFGTAKVPSGASTGSREALELRDGDKKRFNGKGVLKAVANVNTKIAKEIIGMEVTEQVKIDTKMCQLDGDDFKKNLGANAILGVSLAVAKAAASELEIPLYRYIGGTNARRLPVPMLNVINGGEHADSAIDFQEFMIMPVGAPTFSESLR;locus_tag=LOCUS_03630;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:2.5e-72%2C partial hit],internal stop codon at [226130:226132](+)%2C[226229:226231](+),MGA_363
sequence1	MetaGeneAnnotator	CDS	226075	226263	.	-	0	ID=MGA_364;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKASIVSFGYAQAKFGANPPSSPTAVISFLSCNKDFSAWKVSEAHLKDSLNVGAPTGIIINS;locus_tag=LOCUS_03640;note=MGA_364
sequence1	MetaGeneAnnotator	CDS	226553	226732	.	+	0	ID=MGA_365;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTMGHKIQIVGDDLFVTNPKITAEGIEKKAANSVLIKLNQIGTLTETIETIQMAQKAG;locus_tag=LOCUS_03650;note=WP_011166450.1 phosphopyruvate hydratase (Mycoplasma mycoides) [pid:73.2%25%2C q_cov:94.9%25%2C s_cov:12.4%25%2C Eval:5.8e-17%2C partial hit],internal stop codon at [226436:226438](+)%2C[226532:226534](+)%2C[226730:226732](+),MGA_365
sequence1	MetaGeneAnnotator	CDS	226787	226942	.	+	0	ID=MGA_366;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAVALNTGQIKTGSMSRSDRIAKYNRLIEIEAELGEAAIYDGLKSFYNLTK;locus_tag=LOCUS_03660;note=WP_011166450.1 phosphopyruvate hydratase (Mycoplasma mycoides) [pid:72.5%25%2C q_cov:100.0%25%2C s_cov:11.3%25%2C Eval:2.7e-14%2C partial hit],internal stop codon at [226532:226534](+)%2C[226730:226732](+),MGA_366
sequence1	MetaGeneAnnotator	CDS	227295	227603	.	+	0	ID=MGA_367;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIEVTFLYFTKHFILQKNEFHISKFIFSIFFTFSLVGFIIFINIYLRNLFNNENNDINIYFKKALKASIFIILLFISIQLLKIIFGRNRPEDVIVQKENFQ;locus_tag=LOCUS_03670;note=MGA_367
sequence1	MetaGeneAnnotator	CDS	227891	228313	.	+	0	ID=MGA_368;product=Holliday junction resolvase RuvX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183362.1;translation=MAKYIGLDLGSKTVGIATSEGYFSNPKETIRFQEYNFLEAVNKLDIFLKKEGFEKIAIGYPKNMNGSTGERVEMVEEFIKIMLEQNLVIEEQIERVDERLTTRMAKQIMISADLSRKKQKENKDQLAAKLILETYLNSIK;locus_tag=LOCUS_03680;gene=ruvX;EC_number=3.1.21.10;note=WP_011183362.1 Holliday junction resolvase RuvX (Mesoplasma florum) [pid:56.7%25%2C q_cov:100.0%25%2C s_cov:99.3%25%2C Eval:3.1e-37],MGA_368
sequence1	MetaGeneAnnotator	CDS	228350	228796	.	+	0	ID=MGA_369;product=hypoxanthine phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166453.1;translation=METHPLVKKILFNQDQIDKRTNELAKEIESYYRDQKIKDNTVIIVGLLKGCVPFMANFIKYFNHECQTEYMVVSSYMGGTKTSGEPKINLDLNLSIKDKHVLIIEDIIDSGITLDYIKKYISFKGAKEVKIVTLLDKTEGRIAPIKSD;locus_tag=LOCUS_03690;gene=hpt;EC_number=2.4.2.8;note=WP_011166453.1 hypoxanthine phosphoribosyltransferase (Mycoplasma mycoides) [pid:55.9%25%2C q_cov:98.0%25%2C s_cov:76.3%25%2C Eval:1.3e-44],internal stop codon at [228794:228796](+),MGA_369
sequence1	MetaGeneAnnotator	CDS	228990	229136	.	+	0	ID=MGA_370;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKKIGVLTSGGDAPGMNAAVASVIKTAISKGIEPYIIRDGYKGLVNN;locus_tag=LOCUS_03700;note=WP_013447579.1 6-phosphofructokinase (Mycoplasma leachii) [pid:80.9%25%2C q_cov:97.9%25%2C s_cov:14.4%25%2C Eval:5.4e-15%2C partial hit],internal stop codon at [229134:229136](+),MGA_370
sequence1	MetaGeneAnnotator	CDS	229209	229958	.	+	0	ID=MGA_371;product=6-phosphofructokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183071.1;translation=MPEFKEESVRQKAVANLKKLKIEALVVIGGDGSYQGAEKLTKMGINCIGLPGTIDNDIVSSDYTIGFDTALNTVINALDQVRDTIQSHNRCIIVEIMGNGCGDLTLYGATGSGAEVFSTKESYLSEEEIIKQVKALHDKNKRSVIVAVAEKIYDVNDLAKKIEKQAGYETRATILGHIQRGGKPTAMDRYLAVKAGIFAVEELIAGKGGLYIGMSNNKLVARDIESTLNMPKVNKTDEYEKLREINKAV;locus_tag=LOCUS_03710;gene=pfkA;EC_number=2.7.1.11;note=WP_011183071.1 6-phosphofructokinase (Mesoplasma) [pid:67.5%25%2C q_cov:100.0%25%2C s_cov:77.1%25%2C Eval:4.2e-94],internal stop codon at [229134:229136](+),MGA_371
sequence1	MetaGeneAnnotator	CDS	229979	230809	.	+	0	ID=MGA_372;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKEIEFYEPSKIAKKIKRTKIVTTIGPSTHSKDDIRKLFEAGMNVVRLNFSHGKTEEQAEKIKSVIELRDELEKPISIMLDTKGPEIRIGKVFEGAQKIKAGTDVRVYTTQEEYLNRECKSNEMTVSYDMSIDLKPGDTVLVDDGKLTLNVINVESGLVNCKAFNSHIVKTNKRVNLPGVDFSLPFLAKKDIEDIKFGAKAKVDYIAASFVNSADNVNEIRKILKKEKTEHIQIISKIESKIGIFNIDSIIEASDGIMVARGDLGLEIPYYEVPY;locus_tag=LOCUS_03720;note=WP_011183072.1 pyruvate kinase (Mesoplasma florum) [pid:64.6%25%2C q_cov:94.2%25%2C s_cov:54.4%25%2C Eval:7.7e-95%2C partial hit],internal stop codon at [230807:230809](+),MGA_372
sequence1	MetaGeneAnnotator	CDS	230819	231265	.	+	0	ID=MGA_373;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIRKCRKAGKVVVVATQMLESMTDNPQPTRAEVTDVYYATELGADATMLSGESAAGIYPFITTETMATINKRAELGFYGKIYYDRALEVARQSTSGKRAEIADELANITRNGKYEFALVLSRTGELLRTISKFRPNVTILGVCDKEEL;locus_tag=LOCUS_03730;note=WP_011183072.1 pyruvate kinase (Mesoplasma florum) [pid:77.0%25%2C q_cov:100.0%25%2C s_cov:31.0%25%2C Eval:2.1e-58%2C partial hit],internal stop codon at [230807:230809](+)%2C[231263:231265](+)%2C[231365:231367](+),MGA_373
sequence1	MetaGeneAnnotator	CDS	231533	231706	.	+	0	ID=MGA_374;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKINLNEKMKRTKVITTIGPSVHSKEAIKELFEKGMTTIRLNFSHADFQEHGERFE;locus_tag=LOCUS_03740;note=WP_011166458.1 pyruvate kinase (Mycoplasma mycoides) [pid:70.2%25%2C q_cov:100.0%25%2C s_cov:11.9%25%2C Eval:9.6e-17%2C partial hit],internal stop codon at [231263:231265](+)%2C[231365:231367](+)%2C[231704:231706](+),MGA_374
sequence1	MetaGeneAnnotator	CDS	231788	232342	.	+	0	ID=MGA_375;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDGKQEIKVGTEVTVYTDPKDFSTRECSATEMQMSYDMSQDVKVGDTVLVDDGKLTMHVTKVQKFKVICKAFNNHLVKTNKRVNLPGIEFTLPFLAEKDYNDINFGIDNNIDYIAASFVNSADNVNEIREILKKKNAEHIQIISKIESQVGCDNIDSIIDASDGIMVARGDLGLEIPYYDVPY;locus_tag=LOCUS_03750;note=WP_011183072.1 pyruvate kinase (Mesoplasma florum) [pid:64.3%25%2C q_cov:98.9%25%2C s_cov:38.1%25%2C Eval:3.1e-65%2C partial hit],internal stop codon at [231704:231706](+)%2C[232340:232342](+),MGA_375
sequence1	MetaGeneAnnotator	CDS	232403	232798	.	+	0	ID=MGA_376;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLESMTDNPQPTRAEVTDVYYATELGADATMLSGESANGDFPFITVETMSTINKRAEIEFYEKNYYTKQLEKARKSSSGKRAEIANQLANTTISGGYEYAIVVSRTGELLRTISKFRPNVTILGVCDNEKL;locus_tag=LOCUS_03760;note=WP_011166458.1 pyruvate kinase (Mycoplasma mycoides) [pid:75.6%25%2C q_cov:100.0%25%2C s_cov:27.4%25%2C Eval:1.7e-50%2C partial hit],internal stop codon at [232340:232342](+)%2C[232796:232798](+)%2C[232898:232900](+),MGA_376
sequence1	MetaGeneAnnotator	CDS	233174	233959	.	+	0	ID=MGA_377;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSILGSASIVVSSGTYVIACNPNKDTINILFVPSQNSTEIINTVKPLEEKLANELAKIAQADNRISTKKVKIAPSTSYEVAGKTLQDGKAHLAFLPVNTYAKYRGQEKDKAFDKEGILLNASRAGAKPETTFSQFLDEQNKFNLSLAMEEVTSEASLELSKHYNKMVKDNPEEVKTQESAKKLLLDQDNEVSYYRSYIYANNKFLSDNQFDINSFENGEEYKAALKELILKGAKDKKFQFTFGASKTSSSGVLYPML;locus_tag=LOCUS_03770;note=WP_011183471.1 PhnD/SsuA/transferrin family substrate-binding protein (Mesoplasma florum) [pid:41.0%25%2C q_cov:100.0%25%2C s_cov:61.7%25%2C Eval:3.6e-46%2C partial hit],internal stop codon at [233957:233959](+)%2C[234005:234007](+),MGA_377
sequence1	MetaGeneAnnotator	CDS	234101	234424	.	+	0	ID=MGA_378;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MESKSSTDVENAFKNTTVIGATEPIVNDLIAYSKKTIKDEIFKNDLRTAFKNLIADKDNASIFEIYNHTGYVGPINIENSNDFEIATDKTITDTTNSTQALLDKMKN;locus_tag=LOCUS_03780;note=MGA_378
sequence1	MetaGeneAnnotator	CDS	234471	234686	.	-	0	ID=MGA_379;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYSSLLFQLINISPEEILLIPLIVFKSVVLPAPDKPITATNSPSSIFKLIFLKTCLPLGQTLFTFVKFIIL;locus_tag=LOCUS_03790;note=MGA_379
sequence1	MetaGeneAnnotator	CDS	235217	235387	.	+	0	ID=MGA_380;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIIIKMNRKINAITSRNVFAINDKYTKAPKKTFFISLSIIVFILIIFGFNMLETN;locus_tag=LOCUS_03800;note=MGA_380
sequence1	MetaGeneAnnotator	CDS	235520	236002	.	+	0	ID=MGA_381;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTMITAFAGTIIGVLIAIPVAILAAGNIVTNKFINNTAKSLIAIFRTIPAFVYALIFVGYFGQTILTVTIVLSIFTFSITSKILFERIEHINTKIFISQQATGANKMRSFRSAVVPQISNHITSATFYALETNIRYISVIGGVTNYGIGKLIDDSRGNDD;locus_tag=LOCUS_03810;note=WP_011183469.1 ABC transporter permease subunit (Mesoplasma florum) [pid:59.7%25%2C q_cov:96.2%25%2C s_cov:17.7%25%2C Eval:1.6e-47%2C partial hit],internal stop codon at [235385:235387](+)%2C[235451:235453](+)%2C[236000:236002](+),MGA_381
sequence1	MetaGeneAnnotator	CDS	236162	236383	.	+	0	ID=MGA_382;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNLNFYIRYVIQKDLFLNLEIAKQNKDFNSIKEIKEEMRIKKNNFLSDHKSKMKKDINDFEIFKSQNLNSKN;locus_tag=LOCUS_03820;note=MGA_382
sequence1	MetaGeneAnnotator	CDS	236408	236713	.	+	0	ID=MGA_383;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNVRRDKIYLTNFNFEVLKLKEEIKSNLDNTALQEHETYLKNLTIDEVIKKNPKRYIKRLCLYFILFALFCYSLTFIEFNIESAETIKNTNNNIIEMFKIN;locus_tag=LOCUS_03830;note=MGA_383
sequence1	MetaGeneAnnotator	CDS	236714	237550	.	+	0	ID=MGA_384;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLFIAHGYAPQSVIYLLFQTLSIAIVGTFIGAIVAYVFGILSSENIVNYYVAKFFVLITSIIRSIPTYIYAILFIALVGMGPFTATLAIAAGTVGMLTKYNREVFDDINLKVLYQLESTGLNKFQRFKYGVMPQTTSSVISYIIYRFDINFKEVALLGVVSSGNMGYLLNSYFADQLFNEFGALLFGIILFTLLIEYISTTLRNKINLGINPKYIDKIILFIKHKNFAKYKANEILGLSKADFEYIQSEAYYAYINKVIYQEAKIISKDKKVSRSHG;locus_tag=LOCUS_03840;note=WP_011183469.1 ABC transporter permease subunit (Mesoplasma florum) [pid:57.9%25%2C q_cov:98.2%25%2C s_cov:31.9%25%2C Eval:2.2e-89%2C partial hit],internal stop codon at [236711:236713](+)%2C[237548:237550](+),MGA_384
sequence1	MetaGeneAnnotator	CDS	237858	238574	.	+	0	ID=MGA_385;product=bifunctional oligoribonuclease/PAP phosphatase NrnA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183386.1;translation=MFKKLIELINSNKKIILLRHIYPDFDAIGSQMSLYQFINDNFKNKNIKLGGDLPKEYHCIGKTQKLKQEDFKDALVIITDTAIKERIDIQDLNWLALASDVFKIDHHVNIDQYGTMEIVDSSYPATCELLTELYNNSKLVFSKLTAYYLFHGLITDTDRFMYRNVTARTFEMASILIKKGFAINDVYKNIYGLSQDEVRLKGYILSNYKISKEKIAYIILTKEVMQGFNIDDNNKISL;locus_tag=LOCUS_03850;note=WP_011183386.1 bifunctional oligoribonuclease/PAP phosphatase NrnA (Mesoplasma florum) [pid:35.0%25%2C q_cov:99.6%25%2C s_cov:75.5%25%2C Eval:7.0e-35],internal stop codon at [238572:238574](+)%2C[238611:238613](+),MGA_385
sequence1	MetaGeneAnnotator	CDS	238981	239790	.	+	0	ID=MGA_386;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKITLLDGNIINYDQPKSVLEVAQEISKSLGKKCVGAVINDKEVVPNTALIDRDCKLQLITERHELYESVINYTAKVIVGLALKEIFPEGSLYPEEEGYNKLEFFSYFDCDQKLTLENIKKVEELSNKYISLALDIEFKGNTFTEKDYINMMNKMNVKEKYTMGMVDLNKKRYIKFPISAIKDVLFYSRFATLNKTSDLFKIQLNEVTAFQIREDKFVYKIHGLTATTEKAFLEKQQKIEEIKENDHKHIAKILEIYHLDPLIGQGLPI;locus_tag=LOCUS_03860;note=WP_005693993.1 threonine--tRNA ligase (Haemophilus influenzae) [pid:26.6%25%2C q_cov:95.5%25%2C s_cov:39.3%25%2C Eval:1.3e-14%2C partial hit],internal stop codon at [239788:239790](+)%2C[239920:239922](+),MGA_386
sequence1	MetaGeneAnnotator	CDS	239791	239922	.	+	0	ID=MGA_387;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPNGTILKQEIKKYLMQKEFEYDFIQIETPVIGTSELYKTSGH;locus_tag=LOCUS_03870;note=WP_011183074.1 threonine--tRNA ligase (Mesoplasma florum) [pid:74.4%25%2C q_cov:100.0%25%2C s_cov:6.7%25%2C Eval:3.8e-13%2C partial hit],internal stop codon at [239788:239790](+)%2C[239920:239922](+),MGA_387
sequence1	MetaGeneAnnotator	CDS	239941	240309	.	+	0	ID=MGA_388;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFAPMLLPKEEMVLKPMSCPHHIAVYKYKQRSYRDLPLRFAEHALQHRYESSGSLTGLERVRAMELTDSHIFVTPQQVKEEFVRCFNLITEVLLTFDIKVDYLSLSLRDPKDKEKYFNDEKM;locus_tag=LOCUS_03880;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:2.0e-46%2C partial hit],internal stop codon at [239788:239790](+)%2C[239920:239922](+)%2C[240307:240309](+),MGA_388
sequence1	MetaGeneAnnotator	CDS	240328	240615	.	+	0	ID=MGA_389;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENVLNELKIDYKKMIGEAAFYGPKLDIQAKTALGHEITVSTIQLDFLLPQRFDISYINSDGELEKPIMIHRGLVGTYERFISVLLEQTKGVLPL;locus_tag=LOCUS_03890;note=WP_011183074.1 threonine--tRNA ligase (Mesoplasma florum) [pid:75.8%25%2C q_cov:100.0%25%2C s_cov:14.8%25%2C Eval:1.4e-36%2C partial hit],internal stop codon at [240307:240309](+)%2C[240613:240615](+),MGA_389
sequence1	MetaGeneAnnotator	CDS	240945	241709	.	+	0	ID=MGA_390;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKNNRNIEEEIKILKEQDYGILDAQHSFMIDGTLGGFKAAIHKLHYTFIKQILLGIMSGVIIGFGYVACVIAMVSLEGTDFAKVGTLLLGFLFPGCIILITFLGGGLFTSHVFSTIPVLKGCASKRSYLKGIFGVLLGNFLGTFIFVAIFAGAGGLLNSNQPFLLKTFDMTIHKLYLVANDLTNGNSIKTVSIFATIGIGICSGILCNMMVCSTLPLTSSTKNSATIVLLLIFPIAFFAIGGFQHGPANSFFL;locus_tag=LOCUS_03900;note=WP_011183083.1 formate/nitrite transporter family protein (Mesoplasma florum) [pid:33.1%25%2C q_cov:96.1%25%2C s_cov:70.9%25%2C Eval:1.7e-26%2C partial hit],internal stop codon at [241707:241709](+)%2C[241830:241832](+),MGA_390
sequence1	MetaGeneAnnotator	CDS	241851	242033	.	+	0	ID=MGA_391;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPGILYYINKEYVSILFKKIKLEYLEGKTVSFKDKADKQIKRIDKKIKLQEAENDSKDNK;locus_tag=LOCUS_03910;note=MGA_391
sequence1	MetaGeneAnnotator	CDS	242676	242903	.	+	0	ID=MGA_392;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAEEALGFHMIVIPLMLVAGFDVFTATITVLLGGGIGPMLATFDPFLIFTASAAANSSQAGISEPTDGLAFRIIA;locus_tag=LOCUS_03920;note=WP_011182912.1 YfcC family protein (Mesoplasma florum) [pid:52.7%25%2C q_cov:97.3%25%2C s_cov:14.2%25%2C Eval:8.5e-13%2C partial hit],internal stop codon at [242403:242405](+)%2C[242598:242600](+)%2C[242622:242624](+)%2C[242901:242903](+)%2C[243120:243122](+),MGA_392
sequence1	MetaGeneAnnotator	CDS	242937	243122	.	+	0	ID=MGA_393;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFYARRVKRNPSLSYTFSTLEEDKKFFLKEQINEVPLTKKRISICVIFLLMFLLMIAYLFP;locus_tag=LOCUS_03930;note=WP_011182912.1 YfcC family protein (Mesoplasma florum) [pid:49.2%25%2C q_cov:96.7%25%2C s_cov:11.3%25%2C Eval:1.3e-08%2C partial hit],internal stop codon at [242901:242903](+)%2C[243120:243122](+)%2C[243165:243167](+)%2C[243282:243284](+),MGA_393
sequence1	MetaGeneAnnotator	CDS	243377	243538	.	-	0	ID=MGA_394;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAVENPEVEGNANDNGINNKKVITINANGFIALLFEPFMELSINDLIPVSLNK;locus_tag=LOCUS_03940;note=MGA_394
sequence1	MetaGeneAnnotator	CDS	243597	243731	.	+	0	ID=MGA_395;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVSGSITAFAFANGMANMVSPASGIVVGAAQIGRTSYGTIMKGT;locus_tag=LOCUS_03950;note=MGA_395
sequence1	MetaGeneAnnotator	CDS	243868	244092	.	+	0	ID=MGA_396;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKKFISDKAFSKKKFIDSFKMIGECIKRNPATFTGYIVFTIIDAIFYSSMTIVVSQMTKNIINNGEQANQFL;locus_tag=LOCUS_03960;note=MGA_396
sequence1	MetaGeneAnnotator	CDS	244288	244464	.	+	0	ID=MGA_397;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSRVINDSQGAGDSFNDFLLNLLFTTVSFIAMMVFMFILDVNLALIVLMIFIVLVIII;locus_tag=LOCUS_03970;note=MGA_397
sequence1	MetaGeneAnnotator	CDS	244837	245676	.	+	0	ID=MGA_398;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRGLTKLSNCIMRLNYIYDTNSLLNFVDQPEKVGDIEKITFDRVTFNYPESPTKKILPEINLTFEKNKSYAFVGETGVGKSTIAKLLLRFYDVTTGQILINGKNIKLLNPNDYLDKVGYVEQEPQILYGTVMENLKYPFFDKTDEQAIEAAKKAKIHNYIKKLPMGYDTILGERGFMLSGGQKQRLVIARIFLKDPQLLILDEATSALDNVIEKEIQSELDKLMIGRTTVVIAHRLSTIKNVNEIIVLDKNGVSQRGTFNELKEKEGRFKKLYTLGLMK;locus_tag=LOCUS_03980;note=WP_011183321.1 ABC transporter B family permease/ATP-binding protein (Mesoplasma florum) [pid:62.7%25%2C q_cov:92.5%25%2C s_cov:43.1%25%2C Eval:4.8e-84%2C partial hit],MGA_398
sequence1	MetaGeneAnnotator	CDS	245716	246003	.	+	0	ID=MGA_399;product=PTS lactose/cellobiose transporter subunit IIA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000134124.1;translation=MEMISCIGTSKSNAIMAIRSAKIKEFEKANKLMQEAEIEMTKAHSLHFDIVSREANGEKLDLKLIFIHAEDQMLTTQAIIDLGKEMIEMYKIINK;locus_tag=LOCUS_03990;note=WP_000134124.1 PTS lactose/cellobiose transporter subunit IIA (Streptococcus) [pid:40.0%25%2C q_cov:94.7%25%2C s_cov:88.2%25%2C Eval:4.5e-14],MGA_399
sequence1	MetaGeneAnnotator	CDS	246024	246281	.	+	0	ID=MGA_400;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPKAFTIDLGATTAKCAFFENMKIKQTFIFKTINKDKILENIAVEAFKIAKENNINMNELDFIGIAVCGIVDNKTGTVIYSTNLG;locus_tag=LOCUS_04000;note=MGA_400
sequence1	MetaGeneAnnotator	CDS	246408	246983	.	+	0	ID=MGA_401;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MALFTLGTGVGGGAIFDRKLVFGDNTGLPSEPGHGGGFQSECQCSCGLIGCIEPVSSATGIERKLREIGSKSTGPLGKIYSQLNGDIHIIDIADLVKNGDKEVIKIFENSLEPLAKCISVLIHFFDLSMIVIGGGPSNLGEPLIQIIKEKLKNYVLPDFYSRITIRTAQLGNMVGAWGVYKYGIDNLITKK;locus_tag=LOCUS_04010;note=WP_011183395.1 ROK family protein (Mesoplasma florum) [pid:46.3%25%2C q_cov:97.9%25%2C s_cov:59.6%25%2C Eval:2.4e-39%2C partial hit],internal stop codon at [246279:246281](+)%2C[246375:246377](+),MGA_401
sequence1	MetaGeneAnnotator	CDS	247151	247834	.	+	0	ID=MGA_402;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEYKSILKKDAQSIAENEYFDITSKIDLSNKIKRNLFSLDINSQIKRNNALLREITDESLELFAIARAYFDSMVVIDDEGNNNNDYYYYVLQDKEIYGNASKIMNYESEKSFLDFFGDEIIKPEFQSNAARFAVLKNNLKFTQAYYEVITSDYSKQTSQNKAYIESIHEMNKYIEDGFFVPLLKFIVMEKVISAGNSLTKLKFDKNIIEYLNVGQKGENTLDKYIGY;locus_tag=LOCUS_04020;note=MGA_402
sequence1	MetaGeneAnnotator	CDS	248057	248248	.	+	0	ID=MGA_403;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLGINKNDSKINNAIVEKDFGLEEKVQIAPRVHFNALEGILNNEEVQKFFKYGFQEVDKGGI;locus_tag=LOCUS_04030;note=MGA_403
sequence1	MetaGeneAnnotator	CDS	248254	248691	.	+	0	ID=MGA_404;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKYEKYPEIFEATKIIKENKVKLKNNKKELFELSNQLHQKKQKLKLVSSTFNKIKKEKQKDIKANFDLSLSIAKYQKTDINKLYDDYEKEIENLDTEYETKKINRIEKNKLDIEETKSKISSIKSQKISMKSKNKELKTKIKRD;locus_tag=LOCUS_04040;note=MGA_404
sequence1	MetaGeneAnnotator	CDS	249124	249306	.	+	0	ID=MGA_405;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVALKNGFFSLMPLVIVGAVFILINNIVLGAANGGFFNFFYLTADELAILDKFKTVGSYI;locus_tag=LOCUS_04050;note=WP_005172943.1 PTS N%2CN'-diacetylchitobiose transporter subunit IIC (Yersinia) [pid:43.3%25%2C q_cov:96.7%25%2C s_cov:13.2%25%2C Eval:4.2e-07%2C partial hit],internal stop codon at [249304:249306](+)%2C[249442:249444](+),MGA_405
sequence1	MetaGeneAnnotator	CDS	249475	249660	.	+	0	ID=MGA_406;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFTAMIISILSTVLFGRLSQNEKLKIRMPESVPDGVSKSFNILIPYAISAIFFGMIAFAIT;locus_tag=LOCUS_04060;note=WP_003733949.1 PTS sugar transporter subunit IIC (Listeria) [pid:40.0%25%2C q_cov:98.4%25%2C s_cov:13.5%25%2C Eval:1.3e-08%2C partial hit],internal stop codon at [249658:249660](+)%2C[249805:249807](+)%2C[249817:249819](+),MGA_406
sequence1	MetaGeneAnnotator	CDS	249673	249807	.	+	0	ID=MGA_407;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGEISIGAETVTFIDLNGLITVAIQKPMVNAVSGFGGMIAIVLL;locus_tag=LOCUS_04070;note=MGA_407
sequence1	MetaGeneAnnotator	CDS	249823	250227	.	+	0	ID=MGA_408;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGIHASGVLSPILEPIQLDGLTQNQQALAEGLDPEYVFTNPFMNNFIFMGGTGGTIGLILVILMFSKRGDYRSMAKVTLIPAIFCINEPLLFGLPLVLNPILFVPFVIGPLLAGAFAYFATTAGIIPYSSVMVP;locus_tag=LOCUS_04080;note=WP_003546442.1 PTS transporter subunit EIIC (Lactobacillus acidophilus) [pid:42.9%25%2C q_cov:99.3%25%2C s_cov:30.2%25%2C Eval:1.2e-24%2C partial hit],internal stop codon at [249805:249807](+)%2C[249817:249819](+)%2C[250225:250227](+),MGA_408
sequence1	MetaGeneAnnotator	CDS	250255	250452	.	+	0	ID=MGA_409;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTTKSFMGGIVAAINLVILMGSYTPFILLANKIEQRELLSKFTKKPKLEDINILEKQNKLNHLNS;locus_tag=LOCUS_04090;note=MGA_409
sequence1	MetaGeneAnnotator	CDS	250482	250631	.	+	0	ID=MGA_410;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKILLACNAGMSTSILVKNMQNYAFEEDINVEIKAVSINEAKLNGKN;locus_tag=LOCUS_04100;note=WP_000809626.1 PTS sugar transporter subunit IIB (Streptococcus pneumoniae) [pid:61.4%25%2C q_cov:89.8%25%2C s_cov:43.1%25%2C Eval:3.2e-07%2C partial hit],internal stop codon at [250629:250631](+),MGA_410
sequence1	MetaGeneAnnotator	CDS	250839	251423	.	+	0	ID=MGA_411;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRKLGISIYPEQSTFEKDKKYLDLAKKLGYEVVFTSILHFVGSKNDKQKAEMVLKSIQYAKKIGFYTILDVEYKSMELIKINVNDISKCKEYGIDCLRLDSPSLPFEIANVTHNKFGIDIQLNMSNNDSLIDNVMDFKPIKERLSGCHNFYPLEYTALPFEYFSEANKKYLKHNLSTAAFVGSHNGEMTSAVG;locus_tag=LOCUS_04110;note=WP_002360357.1 DUF871 domain-containing protein (Enterococcus) [pid:43.7%25%2C q_cov:94.3%25%2C s_cov:49.9%25%2C Eval:1.7e-35%2C partial hit],internal stop codon at [251421:251423](+),MGA_411
sequence1	MetaGeneAnnotator	CDS	251547	251858	.	+	0	ID=MGA_412;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEELAKIDKYEITLNLKPLYKISKTEEQILKFDHFRRGDITEYFIRSTFSRVEFKKDSIALQNTKKIYNKGDVVIINNNDIKYKGECHIILKDNFEDKQEKYN;locus_tag=LOCUS_04120;note=WP_020862965.1 MupG family TIM beta-alpha barrel fold protein (Mycoplasma mycoides) [pid:50.0%25%2C q_cov:100.0%25%2C s_cov:28.8%25%2C Eval:7.0e-23%2C partial hit],internal stop codon at [251421:251423](+)%2C[251856:251858](+)%2C[251910:251912](+),MGA_412
sequence1	MetaGeneAnnotator	CDS	252411	252560	.	+	0	ID=MGA_413;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLQELGKVLQFPIAVLPFAAILNRFGALGITYSSEVVGDKLIITNQIGY;locus_tag=LOCUS_04130;note=MGA_413
sequence1	MetaGeneAnnotator	CDS	252567	253025	.	+	0	ID=MGA_414;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIQKPGSIPFDNLALLFAIGCAFGLAKDHRGEVALVAVIFYLSIAALTGEKTLPEMLYGKLMTFTTQDGKDSFSKLLYVQKMDGDNIVGGVYVLSTGVLGGIVSGCLSAFLYNRFKDIKLPTALSFFGGRRFVPMIALVVTIPTALAFAII;locus_tag=LOCUS_04140;note=WP_011166334.1 PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:46.5%25%2C q_cov:100.0%25%2C s_cov:27.3%25%2C Eval:8.3e-32%2C partial hit],internal stop codon at [252393:252395](+)%2C[252558:252560](+)%2C[253023:253025](+)%2C[253029:253031](+)%2C[253176:253178](+)%2C[253248:253250](+),MGA_414
sequence1	MetaGeneAnnotator	CDS	253260	253619	.	+	0	ID=MGA_415;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGDINAFAKGISNSGLFQAGFFPIMMGGLPMAAVAMIMTADKNNRKEIAGFLGGVAGVSFLSGITEPLEFSFVFIAPVLLGVHAGLTGIFMAITTAMKIQIGFGFSAGFIDYAASLPQS;locus_tag=LOCUS_04150;note=WP_010918426.1 N-acetylglucosamine-specific PTS transporter subunit IIBC (Caulobacter vibrioides) [pid:54.1%25%2C q_cov:93.3%25%2C s_cov:19.1%25%2C Eval:7.0e-31%2C partial hit],internal stop codon at [253176:253178](+)%2C[253248:253250](+)%2C[253617:253619](+)%2C[253662:253664](+)%2C[253728:253730](+),MGA_415
sequence1	MetaGeneAnnotator	CDS	253731	254111	.	+	0	ID=MGA_416;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLSTPGRNVEAISPNSVNTSSKASTTKETSQKGDKYENMASIIVEAIGKDNFVSIDNCATRLRLILKDNSKIDDALIKSAGTYGIKRLGTESLQIVIGPDVEHAANALKKIVVIQENKEVKEVKK;locus_tag=LOCUS_04160;note=WP_011166334.1 PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:41.7%25%2C q_cov:89.7%25%2C s_cov:19.6%25%2C Eval:1.7e-18%2C partial hit],internal stop codon at [253617:253619](+)%2C[253662:253664](+)%2C[253728:253730](+),MGA_416
sequence1	MetaGeneAnnotator	CDS	254719	255048	.	+	0	ID=MGA_417;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSEAISKGYHHIGCKHIDIDYFPGSTRIPNKKFTKEEQKLKHNKVLKLYKLENSIRNLKYEYDNVKSSISLKNKIELISNEIENYCKENNLIRNIERENPNIADIDKFR;locus_tag=LOCUS_04170;note=MGA_417
sequence1	MetaGeneAnnotator	CDS	255273	255716	.	-	0	ID=MGA_418;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKININKKISDFFQINIKDLEIKENEIIGVMGANGSGKTTFLKLLSNSFKVDKNVKVDKIYSYSILQQVSNFGLIKLVDLVILFNNLNKKKIDINDFFKNYDLLDFKETYFAKLSPGQQQRFKFMIIQLFKTDILILDEAFNFLDSA;locus_tag=LOCUS_04180;note=WP_010964784.1 ABC transporter ATP-binding protein (Clostridium) [pid:29.9%25%2C q_cov:98.0%25%2C s_cov:65.4%25%2C Eval:7.2e-11%2C partial hit],internal stop codon at [255273:255275](-),MGA_418
sequence1	MetaGeneAnnotator	CDS	256206	256454	.	-	0	ID=MGA_419;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLDIIKFNFKRMKSKWYLILAIMFIFYFYFLLIDIGSLIISDISEEPKIELMDIRNKSINISLVMFFIFFTLYLYKDYQNGI;locus_tag=LOCUS_04190;note=MGA_419
sequence1	MetaGeneAnnotator	CDS	256625	257104	.	+	0	ID=MGA_420;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEELKFLSILKSIANKNPEDINSYIANFILNNIKEINDYSLEKFAILTNTSKPSIIRFCNKLGVSGFSELKFQIKNLIKNNLALNEQFNFKKQLVDNNDKYQNYLQIKNNSSNIVLERYIANQKDIKILLDRISKANSIYVFGMNLAYNISRNFVQRIR;locus_tag=LOCUS_04200;note=WP_011166229.1 MurR/RpiR family transcriptional regulator (Mycoplasma mycoides) [pid:33.3%25%2C q_cov:84.9%25%2C s_cov:50.2%25%2C Eval:1.2e-15%2C partial hit],internal stop codon at [257102:257104](+)%2C[257342:257344](+),MGA_420
sequence1	MetaGeneAnnotator	CDS	257520	257717	.	+	0	ID=MGA_421;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKGLTFKKEKNIDKIDIKKSKKNLLNKFQKLGRTFMLPIAMLAFCGILLGIGASLTSNATIIQIP;locus_tag=LOCUS_04210;note=WP_000125609.1 PTS maltose transporter subunit IICB (Enterobacteriaceae) [pid:65.8%25%2C q_cov:58.5%25%2C s_cov:7.2%25%2C Eval:1.7e-08%2C partial hit],internal stop codon at [257715:257717](+),MGA_421
sequence1	MetaGeneAnnotator	CDS	257751	258035	.	+	0	ID=MGA_422;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKTIGAIGFTFLPFMFAMAIPIGLASDNQGSAAFSGFIGYVTMLFVINFTLNVLPENLTSEGTFIGKSTQSILGIKTMDIGVLGAIFVGLLVY;locus_tag=LOCUS_04220;note=WP_000125583.1 PTS maltose transporter subunit IICB (Enterobacteriaceae) [pid:45.8%25%2C q_cov:98.9%25%2C s_cov:17.7%25%2C Eval:8.9e-18%2C partial hit],internal stop codon at [257715:257717](+)%2C[258033:258035](+)%2C[258084:258086](+)%2C[258159:258161](+)%2C[258186:258188](+),MGA_422
sequence1	MetaGeneAnnotator	CDS	258270	258743	.	+	0	ID=MGA_423;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHHVINTIVRFSAVGGTIILPSGEKITGALNIFYKELELGLPISASATRFLSQGYMPTVMFGLPMAAIAIYILAEKEQKKMVKSVIIPGIVASVVGGITEPLEFLFLFVAPLLYLVHCFYIGLAYMFVGLLQVKIGNTDGNIIDFIVFGLMQGLVTK;locus_tag=LOCUS_04230;note=WP_011705328.1 maltose/glucose-specific PTS transporter subunit IIBC (Aeromonas hydrophila) [pid:53.5%25%2C q_cov:100.0%25%2C s_cov:29.9%25%2C Eval:1.3e-43%2C partial hit],internal stop codon at [258033:258035](+)%2C[258084:258086](+)%2C[258159:258161](+)%2C[258186:258188](+)%2C[258741:258743](+)%2C[258771:258773](+),MGA_423
sequence1	MetaGeneAnnotator	CDS	258777	259148	.	+	0	ID=MGA_424;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLYFSTFYFYIKYRDVKTIGRTELSEEEKITLISNDKKEQISTSDEIAIKYIELLGGKENIKTLNNCYTRLRITLNKPKNISQEEVKELGAIAIKYIDDYNIQIIIGPKVEKLKNEIAKTIRN;locus_tag=LOCUS_04240;note=WP_010963891.1 glucose PTS transporter subunit IIA (Clostridium) [pid:36.6%25%2C q_cov:100.0%25%2C s_cov:17.1%25%2C Eval:1.1e-15%2C partial hit],internal stop codon at [258741:258743](+)%2C[258771:258773](+),MGA_424
sequence1	MetaGeneAnnotator	CDS	259157	259399	.	+	0	ID=MGA_425;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKSFNKKIDRSKSNERKWSIEYLEENYKIDFSKKFYNLSIADLDFQTPKPIVKSIISRAKKKTYSYTYTEKKSLQAIQI;locus_tag=LOCUS_04250;note=MGA_425
sequence1	MetaGeneAnnotator	CDS	259409	259675	.	+	0	ID=MGA_426;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHEINLKTDLIKLVHGTVNAMFEVVKCFTKEKESVLIQSPIYQPFERSIIKTKRNVIYNNLIYRDDNYYIDFVDFENKIVKNKIKLFL;locus_tag=LOCUS_04260;note=WP_011166969.1 aminotransferase class I/II-fold pyridoxal phosphate-dependent enzyme (Mycoplasma mycoides) [pid:47.7%25%2C q_cov:100.0%25%2C s_cov:22.2%25%2C Eval:3.2e-20%2C partial hit],internal stop codon at [259397:259399](+)%2C[259673:259675](+)%2C[259706:259708](+),MGA_426
sequence1	MetaGeneAnnotator	CDS	260048	260257	.	+	0	ID=MGA_427;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEYIYSNYTFLKQQLSNFQNLEIMQMQASYLVWIKFKSKLSLKDIKQQFIDNNLILSFSDDFADCKDN;locus_tag=LOCUS_04270;note=WP_011166960.1 aminotransferase class I/II-fold pyridoxal phosphate-dependent enzyme (Mycoplasma mycoides) [pid:39.7%25%2C q_cov:89.9%25%2C s_cov:15.7%25%2C Eval:1.1e-07%2C partial hit],internal stop codon at [260036:260038](+)%2C[260255:260257](+),MGA_427
sequence1	MetaGeneAnnotator	CDS	260351	260725	.	+	0	ID=MGA_428;product=RidA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166961.1;translation=MKVINTVKAPKAIGPYSQAILTNDNFLYVSGQLGLNPQTMILEDNIELQTRRVFENIDEILKEANFDRNDIIKTMVLIDNMADFDVINQIYGEYFGNHKPARSAFEVSKLPKNGLIEIEVIAKK;locus_tag=LOCUS_04280;note=WP_011166961.1 RidA family protein (Mycoplasma mycoides) [pid:61.3%25%2C q_cov:100.0%25%2C s_cov:93.2%25%2C Eval:3.1e-39],MGA_428
sequence1	MetaGeneAnnotator	CDS	260940	261470	.	+	0	ID=MGA_429;product=translation initiation factor IF-3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183085.1;translation=MADNKKIITDFVNREIRAKQILIINDDGTKNGPLNKFEALKLAEEAGLDLLQVGMQDSNTAIAKILDYGKFKYEQKRKQKENKKNQVKVENKEIRLTVGIGEHDLDTKARKAREFLLQGDRVKVSLKFKGREITFQEFGKETLDKFFTKIEDIAKVEKEAKLNTRFLDMYVVPKKG;locus_tag=LOCUS_04290;gene=infC;note=WP_011183085.1 translation initiation factor IF-3 (Mesoplasma florum) [pid:66.9%25%2C q_cov:94.3%25%2C s_cov:92.2%25%2C Eval:8.1e-57],MGA_429
sequence1	MetaGeneAnnotator	CDS	261490	261684	.	+	0	ID=MGA_430;product=50S ribosomal protein L35;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183086.1;translation=MPKMKTKSSLAKRVKKTGAGKLKRGKAYRSHLAQNKTTKQKRHLKKATFVSAGDMKRLKGLLQN;locus_tag=LOCUS_04300;gene=rpmI;note=WP_011183086.1 50S ribosomal protein L35 (Mesoplasma) [pid:73.0%25%2C q_cov:98.4%25%2C s_cov:98.4%25%2C Eval:5.2e-18],MGA_430
sequence1	MetaGeneAnnotator	CDS	261935	262063	.	+	0	ID=MGA_431;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNGLKLAGIDINRKMLSELAIHEPKQFESIVTSSKKALEAKK;locus_tag=LOCUS_04310;note=WP_011183087.1 50S ribosomal protein L20 (Mesoplasma florum) [pid:68.3%25%2C q_cov:97.6%25%2C s_cov:34.2%25%2C Eval:1.3e-08%2C partial hit],internal stop codon at [261746:261748](+)%2C[261878:261880](+),MGA_431
sequence1	MetaGeneAnnotator	CDS	262480	263175	.	-	0	ID=MGA_432;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTQFKDKSTKVKSENGTEFIPTGLLTYPALMAADILLYDAEFVPVGKDQKQHIELTRNIAERMNNKFGEMFTIPGDYTPKVGSKIMDLQDPTKKMSKSGANPKGFIALLDDINEVKKKIKSAVTDSENIIKYDVENKPGVSNLLTIYSALKNISIEEAEKFFKNKDYGILKDEVSNVVVNLLEKIQLKFKELFNSDLVDSWLEQGAEKARKLASKKLTKVKNLTGLNYKRK;locus_tag=LOCUS_04320;note=WP_011166551.1 tryptophan--tRNA ligase (Mycoplasma mycoides) [pid:67.0%25%2C q_cov:100.0%25%2C s_cov:68.5%25%2C Eval:1.9e-82%2C partial hit],internal stop codon at [263215:263217](-),MGA_432
sequence1	MetaGeneAnnotator	CDS	263215	263493	.	-	0	ID=MGA_433;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKRMLSGITTTGKMTLGNYIGAMKNFVALQDEFEMYVFVANLHGITTPIDKDILRKNIKEMVTLYFACGMDPKKSTIFLQSDVLEHTQLG;locus_tag=LOCUS_04330;note=WP_011166551.1 tryptophan--tRNA ligase (Mycoplasma mycoides) [pid:59.8%25%2C q_cov:100.0%25%2C s_cov:27.4%25%2C Eval:1.5e-28%2C partial hit],internal stop codon at [263215:263217](-),MGA_433
sequence1	MetaGeneAnnotator	CDS	264068	264400	.	+	0	ID=MGA_434;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSAGGAVILSRTSQIYQLQELVPVSTNKFRTLNAPLILNNKYVLKLKFEAKSNEIMIIDTVEYPVNDLEIEIKPSKINIKVVTDISNSKNTSKIQILRDIFIKDKEVIE;locus_tag=LOCUS_04340;note=WP_011166499.1 NAD(+)/NADH kinase (Mycoplasma mycoides) [pid:44.7%25%2C q_cov:93.6%25%2C s_cov:37.7%25%2C Eval:6.2e-16%2C partial hit],MGA_434
sequence1	MetaGeneAnnotator	CDS	264400	264768	.	+	0	ID=MGA_435;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNILYIVIAILFVICFISLFLYFSTVSMLKKRKEKFGINSIEKGATIYEKILDEIGTIENIDGIKEQKIMVLSKELVNLNNLKKLKIKAEFEEKQLTLTSKEFSIKLFLKKLSNELKNKIN;locus_tag=LOCUS_04350;note=MGA_435
sequence1	MetaGeneAnnotator	CDS	265235	266311	.	+	0	ID=MGA_436;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MADIKFMALGGQDERGKNIFVISVNDNLYIFDAGIKFPERSVLGIDVIIPNFDFLKANAKKIKGIFLSNPSSNNSGAISYILREIDVPVYCNELTTTILKYRNLKYRIKNRENNFKIINDKDVINFGDVKVEAFRTTAAFPESYGFAIHTQDGVIVYAGDYIIDGNEQSYFSTDMNHLNQIAQKGVLALISDAEYASRIGYTVPNHRIEKFIAAPIKDKKRRLILGMFEEDVFKLFEIIKQAKANDRKIAIYGKTITKVVESKVIQESLNITEKDIISIEEFMKSQDGILLLTGAGDLLYARLAKIAAGNDDKVEFTENDTIILATPPAAGVEKRHAEILDELSRTNAKLISLTEKNI;locus_tag=LOCUS_04360;note=WP_011182989.1 ribonuclease J (Mesoplasma florum) [pid:59.9%25%2C q_cov:100.0%25%2C s_cov:61.5%25%2C Eval:8.1e-133%2C partial hit],internal stop codon at [266309:266311](+),MGA_436
sequence1	MetaGeneAnnotator	CDS	266315	266950	.	+	0	ID=MGA_437;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRASYEDIKLMTRIMKPKSFIPIKGLYKDFLSAERAAIEAGVDKKNIQLINNGQILKINDGGKLVIGADSIKTADVYVDGIGVGDIGAVVLNERKQLATDGAVIIGANINNKTKELISLIDIQMRGVIYITDENPIFKLMQKQIIDILEKYKNEAKSKPASFDLNAIKKEIVSRIRSTLKQETGKQPIVLVIINELDGSFFEPKMVKSKNS;locus_tag=LOCUS_04370;note=WP_011166497.1 ribonuclease J (Mycoplasma mycoides) [pid:55.0%25%2C q_cov:99.1%25%2C s_cov:35.7%25%2C Eval:3.5e-61%2C partial hit],internal stop codon at [266309:266311](+),MGA_437
sequence1	MetaGeneAnnotator	CDS	267774	269987	.	+	0	ID=MGA_438;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEAPKRERNGRGILNILNIQNDETFDERIILSSSKESDITIELPSFTRNYENNIYEEVNTDFYNDDFSNVNLENYNSNQNYKEEYARPAPTPPPNPNRIVDYNLDQKIQEARLQAENLVRKEHNYMPRRDKDYSYDSLPYDTKYGQVSTEQAREELAKETNITPFGANGKTLELVQSRNKKEIKFEEVKSGQITLDHFISETKKEKAEEKKMIEDYGDYTSPMQENVSRNILHSSASYQSANKVNQTMEVNKNKAVEKEQFVNHSYQLPPIDILKVHVVNLKDQEAITNSAKEKAESINETFKQFGVKASVKNMSIGPSVVKFEVQPEPGTKVNSITSLENDLKLALASQNVRIEAPIQGKAAVGIEIPNDKPEAVPMRGVIENTPIVKMGNKLLFAIGKTVTGELLFGELDKMPHLLVAGSTGSGKSVMINGIISSILMRAKPHEVKFLMIDPKKVELSVYSSIPHLLAPVISDMNIANNALKKVINEMERRYALFTTYGLKNIAGFNAKQKSDSTKLPYYVIIIDELADLMMTSNKKDVEDSIMRLTQLSRAAGIHLIVATQRPSTDVITGVIKSNIPVRLAFSVASSIDSRTILDSNGAEKLIGKGDLLYTIPGSTSLVRAQGAYISDDEIEKLVKHCSSQQQQIFDSEFLKTEVEEPSYTVNLGAGQDAMFDEIKDYVIRTQKASTSLIQRKFNIGYNRAARIIDELEESGIIGPQNGSKPRDVYIQNEDVY;locus_tag=LOCUS_04380;note=WP_011182997.1 DNA translocase FtsK (Mesoplasma florum) [pid:45.2%25%2C q_cov:98.8%25%2C s_cov:72.1%25%2C Eval:7.7e-161%2C partial hit],internal stop codon at [267558:267560](+)%2C[267666:267668](+),MGA_438
sequence1	MetaGeneAnnotator	CDS	270056	271822	.	+	0	ID=MGA_439;product=excinuclease ABC subunit UvrC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182998.1;translation=MENIVKNLPEKPGCYLYKNKKEQIIYVGKAKNLKKRVSSYFNKAHNYKTTQLVRNICDIETIVTENEKESLILEQNLIKKYRPRYNIVLNDDKKYPYIAITKEQDPIYVYTRNFDNKNQISFGPLPDGTSARNILKTLERIYPLRRCKGNLGKPCIHFHIDQCSGACFKEVEPKYYQDQITKVKNFFNRTNDDFKNKLEEKMIIAADNLQFEEAQRIKEIIAHLNFSIVEQFVDFNDNLNRDVFNYFETEEYICFVVLFYRSGKLILKDQLIIKNSLEDLVSLFENFIMQIYLKNMLPDYIILPPILKNTSLNFLFQEKITYGNDETSLKILDLAKNNAQEYIRQQELYKNQKSISKEELLDNLQKTLKLPNYPYHIEMFDVANILDEFVTGAMVVFKGAQPSFNDFRKYNIIIDEKGDFQRMQNMIYRRYQKEVGEQKNLPDLIIMDGGKIQVSAAKSQLELLDLNIPIIGLVKNDKHKTEYILNHDSQEIYLDKSQEVFKFLELIQERVHNYAIAGFRKKHNKSFTRDDLSAIKGVGEKMIQKINTQFPSRMDFYNASFEEIKSIVKKDEIVLAIKEIKNQLDNKK;locus_tag=LOCUS_04390;gene=uvrC;note=WP_011182998.1 excinuclease ABC subunit UvrC (Mesoplasma florum) [pid:49.1%25%2C q_cov:100.0%25%2C s_cov:99.7%25%2C Eval:1.2e-156],MGA_439
sequence1	MetaGeneAnnotator	CDS	271887	272360	.	+	0	ID=MGA_440;product=transcription elongation factor GreA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182999.1;translation=MTDKDIILTAEGLKELKEELTHLINNVRPQVIEELVEARAQGDLSENADYDAARNRQAEVEARIKEVEAMLSKAKIIKDSNSKNKEVKIGSQVSFTSQKTKKEMTVKIVGAIEADPFENKISNESPLAKAMMGKVVGDSVEVRELKEPYKITIKDIK;locus_tag=LOCUS_04400;gene=greA;note=WP_011182999.1 transcription elongation factor GreA (Mesoplasma) [pid:67.3%25%2C q_cov:97.5%25%2C s_cov:98.1%25%2C Eval:7.0e-53],MGA_440
sequence1	MetaGeneAnnotator	CDS	272410	273291	.	+	0	ID=MGA_441;product=16S rRNA (cytidine(1402)-2'-O)-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183000.1;translation=MLKVQSTFKNNLPTIYLVGTPIGNLNDISKRVIETFENVEVIYCEDTRVSIKLIEKLKLSKKLKSLHKFNEYSVSPNLIEDLNKYKNIAIISDAGVPCISDPGAIVIRELIEKNIEVNITSINCGPAYIHAIVACGFVAKRNLFLGFIDKKNIEKELQKILNDNHNNDVIISFYESVHRIQSTLNQLALLLNENTNVVVVRELTKLNEEFLRGTIFEICDYINNNQLVLKGEFCIVIDSKFTLKNDTKVDMEKVISEVQKLISQNISKKDAIKNISKKYSVNKNELTKYFYKE;locus_tag=LOCUS_04410;gene=rsmI;EC_number=2.1.1.198;note=WP_011183000.1 16S rRNA (cytidine(1402)-2'-O)-methyltransferase (Mesoplasma florum) [pid:44.6%25%2C q_cov:99.7%25%2C s_cov:100.0%25%2C Eval:6.6e-63],MGA_441
sequence1	MetaGeneAnnotator	CDS	273336	273620	.	+	0	ID=MGA_442;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKLSIAKSREIVGGKGITGALLGGVGSVTKSISDFFSNTVGTIATTVFTAISLNKSDKLESKIGNSTFKLDNSASNKALIEAENKVPNVVNLF;locus_tag=LOCUS_04420;note=MGA_442
sequence1	MetaGeneAnnotator	CDS	273773	274171	.	+	0	ID=MGA_443;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFAIIKTGGKQIKVQSGDEIYIEKLEVEEGKKVTFNEVLMIDGTVGSPLINGAAVIGTVVKQGKGKKLRVVRYHPKKNVNKVYGHRQPYTKVKIETISLNGSKTTAAPKTTESVVSSTTAAPKTTTSNKTEE;locus_tag=LOCUS_04430;note=WP_011183340.1 50S ribosomal protein L21 (Mesoplasma) [pid:79.4%25%2C q_cov:73.5%25%2C s_cov:98.0%25%2C Eval:9.0e-39%2C partial hit],MGA_443
sequence1	MetaGeneAnnotator	CDS	274175	274486	.	+	0	ID=MGA_444;product=ribosomal-processing cysteine protease Prp;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166742.1;translation=MVKAKIVEKNNKINSFVINGHANSADYGNDLVCAAITGIVSGALNALDIKFNKNLNIKVDEKKIEIEVIVNDTILNQLLEFMIIQLETIEVQYPKNFRIERMI;locus_tag=LOCUS_04440;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:2.8e-19],MGA_444
sequence1	MetaGeneAnnotator	CDS	274488	274778	.	+	0	ID=MGA_445;product=50S ribosomal protein L27;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008362816.1;translation=MRFLLGLQYFASKKGVGSTRNGRDSESKRLGAKKADGQFANAGSIIFRQRGTKIHPGVNVGRGGDDTLFALVSGIVKYQRFGKNRTRAVVIPQESK;locus_tag=LOCUS_04450;gene=rpmA;note=WP_008362816.1 50S ribosomal protein L27 (Mycoplasma mycoides group) [pid:87.0%25%2C q_cov:95.8%25%2C s_cov:98.9%25%2C Eval:3.9e-42],MGA_445
sequence1	MetaGeneAnnotator	CDS	274813	275142	.	+	0	ID=MGA_446;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRGNNMSFLMLTLTFLLLVLLLSFFCKIRIRKSKKISKDNMNIEVALKNFKSTFASQKDKKILIKELDLVESFNKFPFKSDFKEIKIKYKNESLIQNLENTQNSFYDY;locus_tag=LOCUS_04460;note=MGA_446
sequence1	MetaGeneAnnotator	CDS	275182	275676	.	+	0	ID=MGA_447;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKNNFVIFSTKNLLLIYKDFLGQTFNLYKSTFILEVLPAVIFKQEKREYKKIKPENLNEFIDSQFIKFSQELNKIIKMIEIELRVKSKESKIDYQITEENLKLIEAYKILQVLPTDSDDKIRKAYLRLAKMYHPDKNKNVNAKEKMAQINDAYDIVVKERNKN;locus_tag=LOCUS_04470;note=WP_084322466.1 DnaJ domain-containing protein (Mesoplasma) [pid:42.9%25%2C q_cov:47.0%25%2C s_cov:24.0%25%2C Eval:1.2e-08%2C partial hit],MGA_447
sequence1	MetaGeneAnnotator	CDS	275687	275980	.	+	0	ID=MGA_448;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNVNKEILLGQYFDQALEETKKIVAMPSYRRDLKHGAPVHQDTKNVLNHCIDLLKGFGFKTFIAPDYRYGYADYGNGDKLFGIICHLDVVPPGNIDE;locus_tag=LOCUS_04480;note=WP_020862797.1 M20 family metallopeptidase (Mycoplasma mycoides) [pid:47.4%25%2C q_cov:100.0%25%2C s_cov:21.6%25%2C Eval:5.9e-22%2C partial hit],internal stop codon at [275978:275980](+)%2C[276155:276157](+)%2C[276248:276250](+),MGA_448
sequence1	MetaGeneAnnotator	CDS	276524	277039	.	+	0	ID=MGA_449;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAQFVSKYGHLNFDMKEIFGDLKDETGDLTACNGIVNISKRDFRFTINFRIPCTRDPKKDVVDVLEKFVSDKNIELKLISIEDRVYFPKDSDVVKNIMEVYKEVTGDLKAEPIAIGGGTFAKSMPNMIAFGAEFDLNDSTMHAYNEYVKIDDLKKMMEIYAKSLVKLTKLK;locus_tag=LOCUS_04490;note=WP_020862797.1 M20 family metallopeptidase (Mycoplasma mycoides) [pid:53.8%25%2C q_cov:93.6%25%2C s_cov:35.6%25%2C Eval:1.1e-47%2C partial hit],internal stop codon at [276248:276250](+)%2C[276374:276376](+)%2C[276482:276484](+),MGA_449
sequence1	MetaGeneAnnotator	CDS	277679	278077	.	+	0	ID=MGA_450;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGGIKQMHKLPAAMFVVDPKTDEIAVKEARKLRIPVIAICDTNVDPDMVDFVIPANDDIQESVNIITNFIVDVYADAAGIKMQPSSLKIVAQKKEEKQYGEGQRPYTPRNNDSMGEKSAAPKKPAVNKEETK;locus_tag=LOCUS_04500;note=WP_013729687.1 30S ribosomal protein S2 (Mycoplasma mycoides) [pid:63.3%25%2C q_cov:90.9%25%2C s_cov:39.7%25%2C Eval:2.4e-36%2C partial hit],internal stop codon at [277523:277525](+)%2C[277580:277582](+),MGA_450
sequence1	MetaGeneAnnotator	CDS	278070	278369	.	-	0	ID=MGA_451;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSINAINLSFFETKSVSEFTSKIIALLPSVFANETPSAATLSAFLAAFAKPFSLNHTTASSMFPFVASKAFLQSIIPAEVISLNSLINCGVTAILISPI;locus_tag=LOCUS_04510;note=MGA_451
sequence1	MetaGeneAnnotator	CDS	278311	278964	.	+	0	ID=MGA_452;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSETDFVSKNDKFMALIDNIGNALLKSKAKNLQEALEVKLSNGQTISEACVEATATIGEKIELRRIAAVEGKNLSIYNHANKRISVLLNFEGSISSEDAYNVCMHVAAMSPKYLASSDVPQEFKDQEMHIIRETTDLTGKPENVAENILKGKLNKKIAEITLLDQGFVMDEKQTVGNFVKSKGSTLKQMFRFEVGEGIEKVTTDFAAEVAAQLAGN;locus_tag=LOCUS_04520;note=WP_011183458.1 translation elongation factor Ts (Mesoplasma florum) [pid:58.4%25%2C q_cov:98.6%25%2C s_cov:74.4%25%2C Eval:2.2e-66%2C partial hit],internal stop codon at [278203:278205](+),MGA_452
sequence1	MetaGeneAnnotator	CDS	279305	279784	.	+	0	ID=MGA_453;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDEEKIVTLGESIKLSKIQKIIEDDQKSAVYVNYLEGRRTIKKVKFSKKTALGIYFLENASKTGVTPEKGDQVSYFKEQIAKIRQEALEMTNKSVKTPVEPVENKTEKEAKEKVEKVSKDVEQAVEKTEEIVEKPVKKPTSSVKKPTAKSKASEKKEDK;locus_tag=LOCUS_04530;note=MGA_453
sequence1	MetaGeneAnnotator	CDS	280291	280527	.	+	0	ID=MGA_454;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRRWTIFDITSISILLALYFSVGFVTGLIPPMPFYITLTFKYIPLFFGAFVLSLSASLTLCFLAATLSVFLPGAYLNF;locus_tag=LOCUS_04540;note=MGA_454
sequence1	MetaGeneAnnotator	CDS	280542	280742	.	-	0	ID=MGA_455;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSLLIISILFGFNQYTTPDVTLERYKNKTGIEIKANHTPNFIIILSVFTFGVKAPAVKINNVGSQ;locus_tag=LOCUS_04550;note=MGA_455
sequence1	MetaGeneAnnotator	CDS	281020	281229	.	+	0	ID=MGA_456;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKKIKKYRYNFAKLIFTILLLPLILLKSKKGFKLYRDFCYIYPRSEKERNFNEFPNIKSKLNCLEYHY;locus_tag=LOCUS_04560;note=MGA_456
sequence1	MetaGeneAnnotator	CDS	281392	281646	.	+	0	ID=MGA_457;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MALRLVYHYFKKGYNILSFDAFAHGDSYGNYTDIGYSSIEMLDEIIIDLKNKNNIENIGLIGNSMGASTSILYSQKGLFKKEIS;locus_tag=LOCUS_04570;note=WP_164919796.1 alpha/beta hydrolase (Mesoplasma florum) [pid:64.3%25%2C q_cov:100.0%25%2C s_cov:25.0%25%2C Eval:4.4e-25%2C partial hit],internal stop codon at [281227:281229](+)%2C[281353:281355](+)%2C[281374:281376](+)%2C[281644:281646](+)%2C[281725:281727](+)%2C[281728:281730](+)%2C[281938:281940](+),MGA_457
sequence1	MetaGeneAnnotator	CDS	281809	281940	.	+	0	ID=MGA_458;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLNNQTPIFFIHAIGDTFIPYEMSLDMYNKKISFEVNKKSSL;locus_tag=LOCUS_04580;note=WP_164919796.1 alpha/beta hydrolase (Mesoplasma florum) [pid:58.1%25%2C q_cov:100.0%25%2C s_cov:12.8%25%2C Eval:4.1e-07%2C partial hit],internal stop codon at [281644:281646](+)%2C[281725:281727](+)%2C[281728:281730](+)%2C[281938:281940](+),MGA_458
sequence1	MetaGeneAnnotator	CDS	282380	282871	.	+	0	ID=MGA_459;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSMAKSDNIYLLKTISVLILLLIGGTQIFLKNSSQISQIVFLVIKALPILFVMILALIYGSTDGLLSNKEMNQGLGQAYISSSLLIPAITMTMFSYSGTEVPTYVAGEIKNPEKTTPKVIICGVIVVISIYLIYGIALLSLASSGDEMANGNQGLLAFSKLPY;locus_tag=LOCUS_04590;note=WP_011183502.1 amino acid permease (Mesoplasma florum) [pid:55.7%25%2C q_cov:85.9%25%2C s_cov:29.7%25%2C Eval:7.1e-38%2C partial hit],internal stop codon at [282176:282178](+)%2C[282266:282268](+)%2C[282284:282286](+)%2C[282302:282304](+)%2C[282311:282313](+)%2C[282869:282871](+)%2C[283010:283012](+),MGA_459
sequence1	MetaGeneAnnotator	CDS	282878	283012	.	+	0	ID=MGA_460;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTFNILAILLFIGSINAFLLYQTRLIYKMAEEKDLSKPFLKTSK;locus_tag=LOCUS_04600;note=MGA_460
sequence1	MetaGeneAnnotator	CDS	283028	283210	.	+	0	ID=MGA_461;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAMLLLMGCAIVYIIFNQIVELLAYFSLAVSALKILMTTNVVYLRLKETSYKKVYKNWLF;locus_tag=LOCUS_04610;note=MGA_461
sequence1	MetaGeneAnnotator	CDS	283499	283666	.	+	0	ID=MGA_462;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MALKFKRVLLKISGEALKGNGDIYDKEKLDAVAKQVIELTNQGLQIGIVIGGGNI;locus_tag=LOCUS_04620;note=WP_011183454.1 UMP kinase (Mesoplasma florum) [pid:55.6%25%2C q_cov:81.8%25%2C s_cov:18.9%25%2C Eval:4.8e-08%2C partial hit],internal stop codon at [283664:283666](+),MGA_462
sequence1	MetaGeneAnnotator	CDS	283718	284212	.	+	0	ID=MGA_463;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGMLATIMNALAFEATLRKLGFDKVKVYSSLEIKTVTSSYNYRNAREKLDEGYVTIFAGGTGYSYFTTDTGASIRAIEIKADALLMAKNGTKGVYDSDPNTNSKAKFLKKLTHNDLVAGNLQVMDSTAAALSRDGKLEIVVFDMNGADNIIKIAHGELESTVIK;locus_tag=LOCUS_04630;note=WP_011183454.1 UMP kinase (Mesoplasma florum) [pid:65.2%25%2C q_cov:100.0%25%2C s_cov:68.9%25%2C Eval:4.7e-58%2C partial hit],internal stop codon at [283664:283666](+),MGA_463
sequence1	MetaGeneAnnotator	CDS	284228	284776	.	+	0	ID=MGA_464;product=ribosome recycling factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183453.1;translation=MSHEIIDITEMSMQETIESFKEYLLKIRTGRANASMLNSVMVDFYGTPTPLNQTSQVSSPEPQQLVIKPYDKGQVAAVVAGINKADLGLNPIAEADLVRINIPPLTEEIRKDLVKKMLKELETFKVRIRNARRDANEKIKKDSSSPEDVKKDLENQVQKHTDKFIEMLDKLSKDKENDLMKI;locus_tag=LOCUS_04640;gene=frr;note=WP_011183453.1 ribosome recycling factor (Mesoplasma) [pid:60.9%25%2C q_cov:98.4%25%2C s_cov:98.9%25%2C Eval:6.7e-57],MGA_464
sequence1	MetaGeneAnnotator	CDS	284938	286098	.	+	0	ID=MGA_465;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGFSIGMVVSYNHQNYVILEIIEKQIDASFIKFFKLKNLIDKQIITVNSQEVQQIHLKPKQVVNKEETQNQITDTSYIESLFSEIGSTQETDDISLFDLTGENTFTLDDVIFEKYPSDDFENEGTINIFDKTNTTMLVENFQTPEAKVHLTPRRKSSLENISPISETFSNLKMVGEVATKTAEIIPTRKLQAEKRQSEINRIQEIRDFQKHELEYKNKKIKENSSLDETVYNTNDKFKNYLIKELQSEPLNERSSYILKELNSNLISKNDKTKEIDSKDLANVGANEELKNDFTESLEKEFKLNNVSDSSNRVINEKHFDTLETGPLNTKRLFENFNKQQNFQDSLNEKYNNNIENTNTLFGVNRNFNQDALKNSKIYKKFKLMSL;locus_tag=LOCUS_04650;note=MGA_465
sequence1	MetaGeneAnnotator	CDS	286234	286533	.	+	0	ID=MGA_466;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFVVTSALLALAFLIYLVFYLIVISDKQYKKIAFYNFQLENKVEIIDSIQNYNDESSVYLIKVHNEIKKIKKEINKINQQQLNVVVSKKEENAQKISH;locus_tag=LOCUS_04660;note=MGA_466
sequence1	MetaGeneAnnotator	CDS	287144	287440	.	+	0	ID=MGA_467;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIANSQAVTILFNVILILMLIVGFIVSLIIKENKNLVQVFDNEVLDQLPRKNNFTFFVIYTLAFLLTLTSAINNSLFIKLYIALNLTNLNLNDENVLL;locus_tag=LOCUS_04670;note=MGA_467
sequence1	MetaGeneAnnotator	CDS	287957	288106	.	+	0	ID=MGA_468;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNKIFSDYNKYNSATKNLKMLIKKRVITKTKTKLNLQAIEEDINQDYE;locus_tag=LOCUS_04680;note=MGA_468
sequence1	MetaGeneAnnotator	CDS	288417	288770	.	+	0	ID=MGA_469;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTIELYLDKNNFFLNIIIKNLESEEMFFSIGHHPGFKFLNRSNLQIEKPILFSDKFENGLILNLEKDIKIKEFTNQSLDFSDSKSYITDDYNNQDININSGEIKFKIKTNDFKDLVL;locus_tag=LOCUS_04690;note=MGA_469
sequence1	MetaGeneAnnotator	CDS	288952	289281	.	-	0	ID=MGA_470;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKRLLNSLGLFENMVEVIACPTCGRLEFALREVVKEVEEFVEELQFPLKVAILGCVVNGPGEASQADIGIAGGNKGGIIFKKGKIFKTVQQDMLVPELKELIMEYYEE;locus_tag=LOCUS_04700;note=WP_002194540.1 flavodoxin-dependent (E)-4-hydroxy-3-methylbut-2-enyl-diphosphate synthase (Bacillus) [pid:43.7%25%2C q_cov:94.5%25%2C s_cov:28.1%25%2C Eval:1.4e-20%2C partial hit],internal stop codon at [289432:289434](-),MGA_470
sequence1	MetaGeneAnnotator	CDS	289432	289560	.	-	0	ID=MGA_471;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVESLREHIEILEKYDFKNIIYSLKATDPLMAIEAYELASEN;locus_tag=LOCUS_04710;note=MGA_471
sequence1	MetaGeneAnnotator	CDS	289573	290010	.	-	0	ID=MGA_472;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINRINTRKVMVGNIEIGGNNNVVIQSMTTSKTHNVKETLKQINSLYKEGCQIVRVAVLGIDDANALKEIVDNSPVPIVADIHFNYKFALIAADAGCAKIRINPGNIGIEENTIAVVEKCKEKQIPIRIGVNSGSLPKKMVAKYG;locus_tag=LOCUS_04720;note=WP_005902396.1 flavodoxin-dependent (E)-4-hydroxy-3-methylbut-2-enyl-diphosphate synthase (Fusobacterium nucleatum) [pid:54.3%25%2C q_cov:96.6%25%2C s_cov:39.5%25%2C Eval:5.7e-37%2C partial hit],internal stop codon at [289432:289434](-)%2C[289573:289575](-),MGA_472
sequence1	MetaGeneAnnotator	CDS	290137	290793	.	+	0	ID=MGA_473;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSEKITLRDIVKINKKLASKEYESQKEFSSYCDVIQEYIDETFFKNDAIIEKLVEYCENSARYLDITFKKASGIILSDENVHNYTSNIKRAIEKTIFMEERIFNFSIFVEIKSIFKYFLEKSKEYESLKNFKDSYSVSSIEFHQQNESFKYLYTIFDKLTYIAKHLKDKYYKKEPTKYSSDALRFSNDFLPNISFLAKSAQDFQKLSDIIERVTYSKA;locus_tag=LOCUS_04730;note=MGA_473
sequence1	MetaGeneAnnotator	CDS	290809	290982	.	+	0	ID=MGA_474;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRNSIEHDFVDPTYKYNICFSLELLFIIIGRILLALNKYLQSDEQIKETLESLRVEK;locus_tag=LOCUS_04740;note=MGA_474
sequence1	MetaGeneAnnotator	CDS	291084	291743	.	+	0	ID=MGA_475;product=segregation/condensation protein A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183448.1;translation=MNIMDINLLELSSQYITYIKEYELLDIEIASEYLVMAAYLIELKSKLLIPKEEVEVDSNYEEQERDDLIRRLMEYHKIKEVTNFFKLKQEDFLKTFSKTKSIIKVAKIDDDELPLAQNNIDIEKFSNIFLRAIEKNKFQRMEVNTINRVDISPEEVAEEIKSFLKNNNINEIDLAKLIELKEFSIRMMVATFLAVLDLAAKKVITLSQNGDEVIVKYLS;locus_tag=LOCUS_04750;note=WP_011183448.1 segregation/condensation protein A (Mesoplasma florum) [pid:35.0%25%2C q_cov:100.0%25%2C s_cov:83.4%25%2C Eval:4.1e-31],MGA_475
sequence1	MetaGeneAnnotator	CDS	291764	292324	.	+	0	ID=MGA_476;product=SMC-Scp complex subunit ScpB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183447.1;translation=MDNNKKIAIVEGLLFLSGDEGTTIEELQFILNEGNIGEIEKIIDKLIDRYSKDKACGLNIQKFAKNKFRLITKKENAEYYTKLANVKTESKLSTASIETLSIVAYKGPISRANVEDIRGVNCETIFYKLKLRNLIEEAGKSQDVGKPMLYKVTDDFLKYFNLNSLDELPKLKEAIEEEKDIFNRGS;locus_tag=LOCUS_04760;gene=scpB;note=WP_011183447.1 SMC-Scp complex subunit ScpB (Mesoplasma florum) [pid:42.0%25%2C q_cov:96.8%25%2C s_cov:85.2%25%2C Eval:5.5e-30],MGA_476
sequence1	MetaGeneAnnotator	CDS	292324	293073	.	+	0	ID=MGA_477;product=pseudouridine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183446.1;translation=MEERLQKIIATRGYCSRRQAERLIEQGRVKVNGTVIREMGSKFDTNVKIDINNKNLDENKEKVYYLFNKPRLVLTTMHDPKDRKTVAEFFKDSKLRVYPVGRLDYDVSGALIMTNDGEFANFVMHPKYEFRKTYQALCKGKVHKYQIKKLVDGVIIDDDYKTKAIQARMLKYDEEYDESVIELTIAEGRKHHVKKMLVAADIYLRKLKRTQIEFLTIDDLPIGKFRELKSHEIKQFYGIYNSLKVKRGK;locus_tag=LOCUS_04770;note=WP_011183446.1 pseudouridine synthase (Mesoplasma) [pid:67.6%25%2C q_cov:98.0%25%2C s_cov:97.2%25%2C Eval:1.2e-93],MGA_477
sequence1	MetaGeneAnnotator	CDS	293074	293538	.	+	0	ID=MGA_478;product=deoxynucleoside kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166577.1;translation=MRIAIFGTVGAGKSTISEEISKRLGYEIFPEPIDNNPYFDDYYKDMQANVFKMQIYMLTARSQQLIEARSLENVIFDRTILEDPIFVAVNHELKTMNDVDYKTYTDFYEHVVIPNLAHRATFDLVIYLKVSTDKAIQRIKERGRSQELNTPRQY;locus_tag=LOCUS_04780;note=WP_011166577.1 deoxynucleoside kinase (Mycoplasma mycoides) [pid:64.3%25%2C q_cov:100.0%25%2C s_cov:76.6%25%2C Eval:4.7e-54],internal stop codon at [293536:293538](+),MGA_478
sequence1	MetaGeneAnnotator	CDS	293738	294454	.	+	0	ID=MGA_479;product=YebC/PmpR family DNA-binding transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183444.1;translation=MGRAHEVRKASMEKTAAMKSAIYGRASKEIYMAAKGGSKDPDSNLALRSAIDKAKSKQVPADVIQRAIKKAEGGDADNYTSNRYEGYGPGNSMIIVESLTNNVNRAIAEIRDAFNKNGGKIANSGAVSHSFQAVSIFAFDQKNVEETLELLMETDCEVNDVVEEENMTVIYAPFNSFNQVKKTLDSAGINNYNIAETTMLADEMINLTDSEVKAGFEKLIDRLNQLEDVQEIYHNVEN;locus_tag=LOCUS_04790;note=WP_011183444.1 YebC/PmpR family DNA-binding transcriptional regulator (Mesoplasma) [pid:58.9%25%2C q_cov:98.7%25%2C s_cov:98.7%25%2C Eval:4.7e-71],MGA_479
sequence1	MetaGeneAnnotator	CDS	294502	294675	.	-	0	ID=MGA_480;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKSTDELKNTRLLIDPHSPEEFRCNGVLINIDEFHEAYETKPGDKMYLEKSKRIKI;locus_tag=LOCUS_04800;note=WP_011183138.1 M13 family metallopeptidase (Mesoplasma florum) [pid:75.0%25%2C q_cov:98.2%25%2C s_cov:8.9%25%2C Eval:2.4e-20%2C partial hit],internal stop codon at [294676:294678](-)%2C[294889:294891](-)%2C[294892:294894](-),MGA_480
sequence1	MetaGeneAnnotator	CDS	294676	294861	.	-	0	ID=MGA_481;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRTEKLVEQYNNYEINGTKVNGKLTLGENIGDLSGVAAALDICKEQCKKDIKLFFENYATV;locus_tag=LOCUS_04810;note=WP_011183138.1 M13 family metallopeptidase (Mesoplasma florum) [pid:72.1%25%2C q_cov:100.0%25%2C s_cov:9.7%25%2C Eval:9.5e-20%2C partial hit],internal stop codon at [294676:294678](-)%2C[294889:294891](-)%2C[294892:294894](-)%2C[295105:295107](-),MGA_481
sequence1	MetaGeneAnnotator	CDS	294892	295101	.	-	0	ID=MGA_482;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNPQTVNAYYNPTSNEICFPAGILQKPFYDIKEPRAKNLGGIGAVIGHEVSHGFDDEGSKFDKNGNFEN;locus_tag=LOCUS_04820;note=WP_011183138.1 M13 family metallopeptidase (Mesoplasma florum) [pid:87.0%25%2C q_cov:100.0%25%2C s_cov:10.9%25%2C Eval:3.1e-31%2C partial hit],internal stop codon at [294676:294678](-)%2C[294889:294891](-)%2C[294892:294894](-)%2C[295105:295107](-)%2C[295318:295320](-),MGA_482
sequence1	MetaGeneAnnotator	CDS	295105	295317	.	-	0	ID=MGA_483;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSQTTKQKAIEKLNSFTIKIGFPDKFDDYSKIEIRSYEQGGNLYENIRNLSKHFIQKELTEINLPVDKTK;locus_tag=LOCUS_04830;note=WP_011183138.1 M13 family metallopeptidase (Mesoplasma florum) [pid:70.0%25%2C q_cov:100.0%25%2C s_cov:11.1%25%2C Eval:2.3e-23%2C partial hit],internal stop codon at [294889:294891](-)%2C[294892:294894](-)%2C[295105:295107](-)%2C[295318:295320](-),MGA_483
sequence1	MetaGeneAnnotator	CDS	295318	295587	.	-	0	ID=MGA_484;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKTLVAFSSILSLDLYQINFNYSSIFSGVKEMKPEIDRAVEFTNSKLGELLGKEYVKKYFSQESKEDVLGIVKDLIKVYSKRINNLE;locus_tag=LOCUS_04840;note=WP_011183138.1 M13 family metallopeptidase (Mesoplasma florum) [pid:53.9%25%2C q_cov:100.0%25%2C s_cov:14.1%25%2C Eval:1.2e-22%2C partial hit],internal stop codon at [295105:295107](-)%2C[295318:295320](-)%2C[295711:295713](-),MGA_484
sequence1	MetaGeneAnnotator	CDS	295711	296295	.	-	0	ID=MGA_485;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLHKKSMDDIKELILEFKSKESKLKSDQEKITNIFKNYLNVKKRNEQGIEPIMAIIKLIDSLSSKKEFTKFLIQGFKDFNISYFHSKTIDSDFKDSNKRALMIGSMGLGMSDRDFYDENHPRHNDIKAAYKTYLEDMSRATKLSFKTKNIFDLVYNFEKEISQSMLKQEELRSPENIYNVVKITDLDKYCPFIN;locus_tag=LOCUS_04850;note=WP_011183138.1 M13 family metallopeptidase (Mesoplasma florum) [pid:54.1%25%2C q_cov:100.0%25%2C s_cov:30.5%25%2C Eval:1.9e-55%2C partial hit],internal stop codon at [295711:295713](-)%2C[296308:296310](-)%2C[296347:296349](-),MGA_485
sequence1	MetaGeneAnnotator	CDS	296522	297232	.	+	0	ID=MGA_486;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNRDIILLRTVEVAAIASYKYIGKKNKNLVDQAAVEAFQVMLKNEKGFKLKVVNGEGELDEAPMLFVGQILGDLEDPSVLTYDVSVDPVEGTHPAAYNYAGSISTIAFSRENTMLQLPEMYMEKLFVSTEFKECINLSKGIVFSIEAMQFHAKRKDLKCIILDKPRHQEIIRKMNDMGIIVRLIQDGDVLAAIDVVNGEADFVYGIGGAPEGSLMAALSISSDCKMQSRLVRYEEV;locus_tag=LOCUS_04860;note=WP_011016951.1 class II fructose-bisphosphatase (Fusobacterium nucleatum) [pid:41.0%25%2C q_cov:100.0%25%2C s_cov:71.7%25%2C Eval:1.2e-42%2C partial hit],internal stop codon at [297230:297232](+)%2C[297278:297280](+),MGA_486
sequence1	MetaGeneAnnotator	CDS	297323	297541	.	+	0	ID=MGA_487;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLIDDHKVRFFAAGLTAGGSLKPVDYKNGKFYVNAFMSSHGIVRNFNSVYDVKKVNSLKPEIKFLFDKYKR;locus_tag=LOCUS_04870;note=MGA_487
sequence1	MetaGeneAnnotator	CDS	297583	297867	.	+	0	ID=MGA_488;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDSLNKILLIALGLSLISLITIRIFNTFSLNKIIIHEINTADSNISSSKIDSIISKFMVYLRAEEINVLYGETESYYRINQMLNKRKKQIVIPK;locus_tag=LOCUS_04880;note=MGA_488
sequence1	MetaGeneAnnotator	CDS	298159	298371	.	+	0	ID=MGA_489;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFSNSLKNGLEEKYEMEIIQFVKNECDSYNKDISIARIYSKEFNKLDFKVFRFNSKTSNLKFVGPFTLL;locus_tag=LOCUS_04890;note=MGA_489
sequence1	MetaGeneAnnotator	CDS	298440	298739	.	-	0	ID=MGA_490;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGSIKMIDAGEIDTKLFGVFADDRRFDSYKKLEDVPQHLKDEIENFFLQYKALQKKEVKINGWGSAKEAMHELSECKERYKQYKDRYSKPGGKEEIMAE;locus_tag=LOCUS_04900;note=WP_011183442.1 inorganic diphosphatase (Mesoplasma florum) [pid:74.7%25%2C q_cov:100.0%25%2C s_cov:52.4%25%2C Eval:3.8e-37%2C partial hit],internal stop codon at [298440:298442](-)%2C[298815:298817](-),MGA_490
sequence1	MetaGeneAnnotator	CDS	298815	298979	.	-	0	ID=MGA_491;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMEKNVIKMIVEIPKGSSNKYEYDINTNEISLDRVLYGANFYPGEYGFVPETLD;locus_tag=LOCUS_04910;note=WP_011166592.1 inorganic diphosphatase (Mycoplasma mycoides group) [pid:73.6%25%2C q_cov:98.1%25%2C s_cov:28.5%25%2C Eval:9.7e-17%2C partial hit],internal stop codon at [298815:298817](-),MGA_491
sequence1	MetaGeneAnnotator	CDS	299299	299673	.	-	0	ID=MGA_492;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVLKDNFVLDIKRISLLAMLFAIEIVFTIISKYTIGGLAIAEAFTIEFSLIGILFIYLATNVCYAALFNILANSLRMVLPLPSNVIGVLAMTISDLSFIIFFAFIFFLLKRSILFKIKKENQMK;locus_tag=LOCUS_04920;note=WP_011183474.1 permease (Mesoplasma florum) [pid:48.4%25%2C q_cov:99.2%25%2C s_cov:53.9%25%2C Eval:4.9e-21%2C partial hit],internal stop codon at [299140:299142](-)%2C[299206:299208](-)%2C[299299:299301](-)%2C[299677:299679](-),MGA_492
sequence1	MetaGeneAnnotator	CDS	300074	300205	.	+	0	ID=MGA_493;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKKNHEIPDHDDVKEGKKDHYHDEHHFDSLGNHDDIDDTDFH;locus_tag=LOCUS_04930;note=MGA_493
sequence1	MetaGeneAnnotator	CDS	300302	300517	.	+	0	ID=MGA_494;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLYEQLLDKIPLYGVAIPFRILDILVITLSLAALGPIFSGLIAFIVPFIHLIDAHNPLTLLIDSFGYFVSI;locus_tag=LOCUS_04940;note=MGA_494
sequence1	MetaGeneAnnotator	CDS	300976	301998	.	+	0	ID=MGA_495;product=rod shape-determining protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545439.1;translation=MAGKKPIFVSMDLGTAYTLVYIEGNGIVYNEPSIVAYKIKENKIIAVGAEAYKMIGKGNKNLRIVRPMVDGVITDIKATQAQLNYIFARLRLEKALKNCVMLLACPSAITQLEKTALKKIALSLGAAEVFIEEEVKMAALGGGVNINAPTGRLVVDMGGGTTDVAVISSGDIVISKSIKVAGNYLNEEILKFIRAQYGMEIGIKTAEIIKINIGSLAKFIDEKSMKVYGRDVVSGLPREIEITPEELREVLKVPLSRVIELIVQVLEMTPPELAGDIFRNGIVLCGGTALINGIAKYVGDTLQLPTKVGEQPLLAVINGTKKFQSEIFDKLRRVKEEISY;locus_tag=LOCUS_04950;note=WP_012545439.1 rod shape-determining protein (Thermodesulfovibrio) [pid:43.1%25%2C q_cov:99.7%25%2C s_cov:98.5%25%2C Eval:6.0e-74],MGA_495
sequence1	MetaGeneAnnotator	CDS	302308	302463	.	-	0	ID=MGA_496;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCIGCMACVQIDETETLFMDDDGFAEANENDLELVECQMVCPTGAVKIGDE;locus_tag=LOCUS_04960;note=MGA_496
sequence1	MetaGeneAnnotator	CDS	302584	303024	.	+	0	ID=MGA_497;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLTRMERNKAIHEKVKKEIAYKKNIQDEKSVIHSTFEKLKMIDLDFFKEKLSIFDAKHEFEKPYLDRDKSSSLFPEDLKYEMKLEISELKKIGLNQANKISTNEVEEQENSLNLRSDKYINLYKSLQENDKNFQININKLKEKQA;locus_tag=LOCUS_04970;note=MGA_497
sequence1	MetaGeneAnnotator	CDS	303280	303867	.	+	0	ID=MGA_498;product=(d)CMP kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166595.1;translation=MKHINIAVDGTAGSGKSSVMKRVAVKLKMNFIDTGVMYRAFTKFCLDNQVNFLNDKEIEKQIKNFNFKYINENSILVNNVEYGKTIFDYDVAENIKYVAKNNKVRKFMVLAQREMTQNKNNIVIGRDITTVVLPNAELKIYFDCSVEARAQRRFNQNKRKKITPNVYEDILRQIQQRDDYDKNREMGALKIAPDA;locus_tag=LOCUS_04980;gene=cmk;EC_number=2.7.4.25;note=WP_011166595.1 (d)CMP kinase (Mycoplasma mycoides) [pid:43.1%25%2C q_cov:100.0%25%2C s_cov:87.4%25%2C Eval:2.7e-41],MGA_498
sequence1	MetaGeneAnnotator	CDS	303971	304117	.	+	0	ID=MGA_499;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MARKGIVAIVGRPNVGKSTLFNRIIREKKAIVEDKPGVTRDRMYGKAE;locus_tag=LOCUS_04990;note=WP_011183096.1 ribosome biogenesis GTPase Der (Mesoplasma florum) [pid:87.0%25%2C q_cov:95.8%25%2C s_cov:10.6%25%2C Eval:2.2e-16%2C partial hit],internal stop codon at [304115:304117](+),MGA_499
sequence1	MetaGeneAnnotator	CDS	304193	304858	.	+	0	ID=MGA_500;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQAEIAIKEADVIVFAINYKDGITQEDEAVAKILYKTHKPVILAVNKYDKKDQFDESFTFMTLGFGEPFMISSTHGIGIGDLLDKIIESFPKFDEGEENEELKLAIVGRPNVGKSSLVNSLVGEERMIVSEIAGTTIDAVDSKIKYNGNSYTIIDTAGMRKKGKIYENLEKYSYLRSISTINKADIVLLILDSSENIKDHDTNIGGFAFEENKPIIIIGNK;locus_tag=LOCUS_05000;note=WP_011183096.1 ribosome biogenesis GTPase Der (Mesoplasma florum) [pid:62.9%25%2C q_cov:100.0%25%2C s_cov:50.8%25%2C Eval:3.8e-77%2C partial hit],internal stop codon at [304115:304117](+)%2C[304856:304858](+),MGA_500
sequence1	MetaGeneAnnotator	CDS	304889	305284	.	+	0	ID=MGA_501;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRKEEEIKAYFKYLNYAKVLFISAKENKRINKIFDIVDLVQKNIKKRIRTSLLNEVFNKAQLINPAPNHNGGRLKIFYASQVEAYLPTFVLFVNNPEFVHFSYKRFLENQIRSQFDFSGVPITIIFRERK;locus_tag=LOCUS_05010;note=WP_011183096.1 ribosome biogenesis GTPase Der (Mesoplasma florum) [pid:71.3%25%2C q_cov:98.5%25%2C s_cov:29.7%25%2C Eval:6.6e-50%2C partial hit],internal stop codon at [304856:304858](+),MGA_501
sequence1	MetaGeneAnnotator	CDS	305288	306292	.	+	0	ID=MGA_502;product=NAD(P)H-dependent glycerol-3-phosphate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183097.1;translation=MQKEKIAIIGTGAYGTVLANVLADNGHDVIMYGIEETQVEDINNNHLNSKFFQDLLINSNIKATTDFPAAMEKANIVILSVPTFALDNAIENVIKYGKREMHIINVAKGLDEENLDLLSKKIKKRFEGTGVMKSYGAIYGPSVAIEVIMRKPTCVMSCNEDEAIATYIANLFSNEYFIVKVTTDVIGCEVSAALKNSVAIAAGLLHGFSAADNSKASLITIGNAEIYNIAKHFGAKIETFMNFATLGDLILTASSLKSRNFSLGVQIAQKDDAKMVLTSHKNTVEGVLSCKLAYEICSKYKIKAPMFEILYKILYNNHRPSGLVNDFFQHAKVV;locus_tag=LOCUS_05020;note=WP_011183097.1 NAD(P)H-dependent glycerol-3-phosphate dehydrogenase (Mesoplasma florum) [pid:56.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.3e-102],MGA_502
sequence1	MetaGeneAnnotator	CDS	306314	306589	.	+	0	ID=MGA_503;product=HU family DNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166598.1;translation=MTKKELSEKISAEFGNTKADAEKMINFVFDEIVNALVNKEEVAIAGFGKFVTTERASREGVNPATGAKIQIAATTVAKFKVAKQLKEAVAK;locus_tag=LOCUS_05030;note=WP_011166598.1 HU family DNA-binding protein (Mycoplasma mycoides group) [pid:55.1%25%2C q_cov:97.8%25%2C s_cov:98.9%25%2C Eval:7.1e-20],MGA_503
sequence1	MetaGeneAnnotator	CDS	306611	307183	.	+	0	ID=MGA_504;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQHASFNFAKNMFELFKTGLISKKTLLILNYSKIKINENQLAILLIIMELSNDDQKNFTPSQIAEHMIISKEEIEKEISLLLKNRIIKLEQKGKKTILDLTPLFNRLLVELEEKHSKLRNDNTYNFIEKMFDYKLTESEIDKIENFIELGISKPKIMSIIDEFKIDNIKDLFKKLEDKSKETSVKITMYN;locus_tag=LOCUS_05040;note=MGA_504
sequence1	MetaGeneAnnotator	CDS	307473	307655	.	-	0	ID=MGA_505;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIKNKGMYLETIINNSISILDENNGFIYKMPINNNIISINNNIITARLKRNYFCDYIGL;locus_tag=LOCUS_05050;note=WP_011166600.1 Holliday junction resolvase RecU (Mycoplasma mycoides) [pid:50.0%25%2C q_cov:96.7%25%2C s_cov:40.8%25%2C Eval:6.4e-08%2C partial hit],internal stop codon at [307473:307475](-),MGA_505
sequence1	MetaGeneAnnotator	CDS	307739	308068	.	+	0	ID=MGA_506;product=cell division regulator GpsB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003225629.1;translation=MADFIKLTKQEIIDKDFEVEYKGYKVEEVDAFLDMIAEDYKFFEEKNIKKEKEIATLKENINRLSSELTETLATLKLSESQMEALARAGLNSSDLIKRISNLEKERYNK;locus_tag=LOCUS_05060;gene=gpsB;note=WP_003225629.1 cell division regulator GpsB (Bacillus) [pid:31.7%25%2C q_cov:95.4%25%2C s_cov:89.8%25%2C Eval:7.3e-09],MGA_506
sequence1	MetaGeneAnnotator	CDS	308480	308932	.	+	0	ID=MGA_507;product=nicotinamide-nucleotide amidohydrolase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013447851.1;translation=MKKLFEYLKLNNLTLSSCESFTGGYFANQITNISGASQYFKGSFICYSDEFKTQVLGIDIEVIKKYSVVSREVLALMLEKTNQKIKSDIVIGFTGYAPPKDVNEKSGLSFVGFRINNRNFIFEFFIEENISREDYKQQASEFIINKLLKI;locus_tag=LOCUS_05070;note=WP_013447851.1 nicotinamide-nucleotide amidohydrolase family protein (Mycoplasma leachii) [pid:43.2%25%2C q_cov:98.0%25%2C s_cov:94.9%25%2C Eval:1.0e-26],MGA_507
sequence1	MetaGeneAnnotator	CDS	308978	309901	.	+	0	ID=MGA_508;product=recombinase RecA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166605.1;translation=MIEKILEKNTNEVLLNMSDNNIYDDPAFKSVLKDIEKTFGKGSIMKLGDSANSAIEVIPTGSFLLDRAIGVGGYPKGRIIEIYGPESSGKTTLSLHAIAEAQKNNGRAAFIDAEHALDPRYAQNIGIDIKNLVVAQPDSGEQALDILEMLIKSNTIDIIVVDSVAALVPKAELDGEMSDQQIGLQARLMSKALRKINGIVSKTNTTVIFINQLREKVGVIFGSPEITPGGRALRFYSSIRLEVRKGETISTNGEATANKVKIKVVKNKVAPPFKTCQITIAYNKGVEKDLEIIEMATIYNILNKAGV;locus_tag=LOCUS_05080;gene=recA;note=WP_011166605.1 recombinase RecA (Mycoplasma mycoides group) [pid:65.4%25%2C q_cov:95.1%25%2C s_cov:84.6%25%2C Eval:7.2e-108],internal stop codon at [309899:309901](+)%2C[309953:309955](+),MGA_508
sequence1	MetaGeneAnnotator	CDS	310423	311061	.	+	0	ID=MGA_509;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLVMNDDLVHLYIAIISFLIVLLIVLGTVIVYLIKSRQRKYILKKTLDESKEIKMKILAEAKADAALIKLNAESDASYIREEISIENKNLKQKKEQFFEEIEVLNKKEEELIQDKINTNKIKSELKIQKKKYQLALENISNLTEEQVKSELFNIVENKYLNELSNKIKDYENKLKIRAEKKASDILIDAMQSCHIQITSEKNTTFFEIENDS;locus_tag=LOCUS_05090;note=MGA_509
sequence1	MetaGeneAnnotator	CDS	311362	311958	.	+	0	ID=MGA_510;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIGKLKFRHSYGQNALQHSIEVAKICRKIALEMGLDEKIGLKSGLLHDIGKAVDFEQEGSHVKLGVDILKKYNLEFEIINAVESHHNDVEKETYYAEIVAIADAMSAARPGARNNDANEYFIRMQELEDICLQQEGVIKAYVLKAGREIRVMVNPTVIDDYNMKKISLNLKENIQKINKTPGDIYITIIREKREVIRL;locus_tag=LOCUS_05100;note=WP_011166606.1 ribonuclease Y (Mycoplasma mycoides group) [pid:55.7%25%2C q_cov:98.0%25%2C s_cov:38.1%25%2C Eval:3.7e-54%2C partial hit],MGA_510
sequence1	MetaGeneAnnotator	CDS	312014	313132	.	+	0	ID=MGA_511;product=signal recognition particle protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183377.1;translation=MGFGDFLANRMKKSIEKNLKKTTLNSDNVKDVLREIRLALLEADVNIDVVKKFIANIQEKAEGVFIEQGVRADQQMVKIVHAELVEILGKTNKALEIDKKPSIIMMVGLQGAGKTTTVGKLSHLITKKNKKKTLMVGLDIYRPGAIDQLVELGQKNNLDVFEQGKQSPVKTAQQAVDYAQKNGYEVIILDTAGRLQIDKQLMDELNEIRKVVSPQEIILTVDGMTGQDIINVSQEFDNLLKLTGVIVTKLDGDARGGATLSITDITKLPIKFIGEGEGIGALAEFHPKRMADRILGMGDVETLFEKAADVVDQRTMEKTMKRMFAGQFDLEDLRNQMEQVAKMGNLGGIMKMVPGLNGKVSESQINQAQQKL;locus_tag=LOCUS_05110;gene=ffh;note=WP_011183377.1 signal recognition particle protein (Mesoplasma) [pid:68.8%25%2C q_cov:100.0%25%2C s_cov:82.2%25%2C Eval:7.1e-148],internal stop codon at [313130:313132](+),MGA_511
sequence1	MetaGeneAnnotator	CDS	313133	313357	.	+	0	ID=MGA_512;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANILMTSMTLKERREPRLLKAITRKQRILKGSGRTEKEFNELLNQFDKGKKQVLELTKSLKSGKMPNLGGLKF;locus_tag=LOCUS_05120;note=WP_011166607.1 signal recognition particle protein (Mycoplasma mycoides) [pid:77.0%25%2C q_cov:97.3%25%2C s_cov:16.6%25%2C Eval:4.0e-26%2C partial hit],internal stop codon at [313130:313132](+),MGA_512
sequence1	MetaGeneAnnotator	CDS	313408	313533	.	-	0	ID=MGA_513;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDAEKRRMELESTQKTIEEANKKLQAISQIEKKVKAIEAK;locus_tag=LOCUS_05130;note=MGA_513
sequence1	MetaGeneAnnotator	CDS	313540	313995	.	-	0	ID=MGA_514;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYILPLRIKKYIKAMNYEFIEYETAGKKPILKLVGQPSRIVVEELVDEFHDDRLNYVIEQFRSTSEDEVEMKLILFKSISLFAHEGEALIYQKFGKYFADNFFKDVKSLETYKAENLSAKEKKHVSKIINDIFNITLLSVLLMSDAMKTGV;locus_tag=LOCUS_05140;note=MGA_514
sequence1	MetaGeneAnnotator	CDS	314023	314307	.	-	0	ID=MGA_515;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAEKNKFYSILDYRPQFENIVDALVPDIQFSYSAIMNNSTIQTYFNMISLEYYGYEYYQLLRLNKLEFKVSERSLNLTVLEMVYNIITQIIARK;locus_tag=LOCUS_05150;note=MGA_515
sequence1	MetaGeneAnnotator	CDS	314398	314862	.	+	0	ID=MGA_516;product=23S rRNA (pseudouridine(1915)-N(3))-methyltransferase RlmH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166608.1;translation=MKIKIICFNKVNKEYKEVYKTYIDKLKNHCTLEVIEINEFDHGDIKSNMVKNEQNINLKILESKEYEFFLLDINAKQYSSELIAQTLQENQNYKSGKICFIIGPSDGFSEDFRNIHKNKISFGLITLPYNLVRIILLEQIYRGFKIIKNQKYHK;locus_tag=LOCUS_05160;note=WP_011166608.1 23S rRNA (pseudouridine(1915)-N(3))-methyltransferase RlmH (Mycoplasma mycoides group) [pid:48.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-34],MGA_516
sequence1	MetaGeneAnnotator	CDS	314931	315887	.	+	0	ID=MGA_517;product=ribosome biogenesis GTPase YlqF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183436.1;translation=MNDEKSSFNWFPGHMNKSIKEIEQKISIVDLVMEIVDARAPFSTQNPLLRKILNTRPRLIILTKFDLSDKDITNQWTEYFKSIGNTTYIVKDKQADIYSDILKLINEMTKESQLKQKKRGIEKPQLNVLVVGIPNVGKSTVISKLSKGKTLKIGNKPGVTRGMQRIVMTNSITLIDTPGILPAKFENETVACNCAATNSIRLDVIPKERMATKLMRYIYNSYPSLIENTYKINKHVLRPIDYDDTFTIFEEIAKRNKFTILDEIADVERAIELFIQDIIKNNLGNISFEKPIEIKEISKQTIQEKDLESAIVSDLTVE;locus_tag=LOCUS_05170;gene=ylqF;note=WP_011183436.1 ribosome biogenesis GTPase YlqF (Mesoplasma florum) [pid:49.7%25%2C q_cov:97.5%25%2C s_cov:99.0%25%2C Eval:6.9e-85],MGA_517
sequence1	MetaGeneAnnotator	CDS	315884	316516	.	+	0	ID=MGA_518;product=ribonuclease HII;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183435.1;translation=MIENPRYLFDQKIREENKVNLISGSDEVGRGAMAGPIVVASVILKPEYNNFKIRDSKLLNEKQREELFEEIKQNCIAYSICEYDSKFVDEFNPKRTSQIGMIDTIKKLKIKPDICLIDGENIELNLCKTIKIIKGDNLSITIGAASILAKVYRDRIMNNYHLKYPQYNFIKNKGYCTIDHQNRVKEFGILDIHRFSYKPIKFLKEKKDEL;locus_tag=LOCUS_05180;EC_number=3.1.26.4;note=WP_011183435.1 ribonuclease HII (Mesoplasma florum) [pid:55.6%25%2C q_cov:97.6%25%2C s_cov:98.6%25%2C Eval:6.4e-55],MGA_518
sequence1	MetaGeneAnnotator	CDS	316587	317072	.	+	0	ID=MGA_519;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKASDEELNAAFNIQLEFGTAGIRGILGAGPGRFNLYTIKKVTMSYAKLLLSKYGDVLNRGVVIGHDNRKFSKEFSQLTAEILTSFGIKAYLFENNIMKPTPVVSFATKQLNAIGGIVITASHNPAIYNGYKIYDEFGCQLIDEDTQIIAEYMEEISDILN;locus_tag=LOCUS_05190;note=WP_011166989.1 phospho-sugar mutase (Mycoplasma mycoides) [pid:74.4%25%2C q_cov:99.4%25%2C s_cov:28.7%25%2C Eval:3.0e-65%2C partial hit],internal stop codon at [316542:316544](+)%2C[317070:317072](+)%2C[317343:317345](+),MGA_519
sequence1	MetaGeneAnnotator	CDS	317139	317345	.	+	0	ID=MGA_520;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIENLQFYKKKPRNKFKMIYSAVNGTGTEFTPPLLRSFGYEVIEVAEHAFEDSTFKNVGNPNPEFEPA;locus_tag=LOCUS_05200;note=WP_011183017.1 phospho-sugar mutase (Mesoplasma florum) [pid:70.0%25%2C q_cov:100.0%25%2C s_cov:12.5%25%2C Eval:9.9e-22%2C partial hit],internal stop codon at [317070:317072](+)%2C[317343:317345](+)%2C[317451:317453](+)%2C[317496:317498](+),MGA_520
sequence1	MetaGeneAnnotator	CDS	317511	317642	.	+	0	ID=MGA_521;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEHNLTPENPAMYSSFVTSDLGDRIANETYNVKVIKTLTGFK;locus_tag=LOCUS_05210;note=WP_011166989.1 phospho-sugar mutase (Mycoplasma mycoides) [pid:72.1%25%2C q_cov:100.0%25%2C s_cov:7.7%25%2C Eval:9.3e-12%2C partial hit],internal stop codon at [317343:317345](+)%2C[317451:317453](+)%2C[317496:317498](+)%2C[317640:317642](+)%2C[317784:317786](+),MGA_521
sequence1	MetaGeneAnnotator	CDS	317643	317786	.	+	0	ID=MGA_522;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGSEILKEPERNLNFVFAYEESYGYVLDSSTRDKDGIQATTMLVEAA;locus_tag=LOCUS_05220;note=WP_011166989.1 phospho-sugar mutase (Mycoplasma mycoides) [pid:73.9%25%2C q_cov:97.9%25%2C s_cov:8.2%25%2C Eval:3.9e-13%2C partial hit],internal stop codon at [317451:317453](+)%2C[317496:317498](+)%2C[317640:317642](+)%2C[317784:317786](+)%2C[318051:318053](+),MGA_522
sequence1	MetaGeneAnnotator	CDS	317919	318053	.	+	0	ID=MGA_523;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLREEEFSSMGGLKLSYVEDYIDGLFNMPGQNLMKFYFEDGS;locus_tag=LOCUS_05230;note=WP_011183017.1 phospho-sugar mutase (Mesoplasma florum) [pid:59.1%25%2C q_cov:100.0%25%2C s_cov:7.8%25%2C Eval:7.4e-09%2C partial hit],internal stop codon at [317640:317642](+)%2C[317784:317786](+)%2C[318051:318053](+),MGA_523
sequence1	MetaGeneAnnotator	CDS	318294	319514	.	+	0	ID=MGA_524;product=FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183549.1;translation=MKTLIIGGSATGMGVAARLKRNDPSIEITVIQDKDYVSLGACGLPYFVANNFEDKNILIARKKEEFEKTGIKIISNAKVDSVDFKNKTVSFNGQFESYDNLVLAVGAKPIKPNIIGVEGENVFSLTTLEDGVLLKEKILNNDKIKKVVIVGAGFIGLEMTETFAELNKQVYLLEMESKVMKKAFDEEISNLIEEKLIEKKINTLLGEQLVEIKLKNDKVNSILLKSGKEIKADAVLLSVGFQPNTLFLKNSDLKMNDRGTIIVNQKGETNIKGVYAAGDCATSKDFINNEDIYSPLATVASKFSKVIADNIAGKKASFAGSIQSSMLRMFDLEIARAGLTEQMALKNNMKIKSVFIKDKDHTNYTPNQKDLYLKLIINENTREIIGAQMAGSNSSVLRIYALAALI;locus_tag=LOCUS_05240;note=WP_011183549.1 FAD-dependent oxidoreductase (Mesoplasma florum) [pid:47.4%25%2C q_cov:100.0%25%2C s_cov:91.9%25%2C Eval:6.6e-102],MGA_524
sequence1	MetaGeneAnnotator	CDS	319987	320214	.	+	0	ID=MGA_525;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPIVFIAIFKITSKPGETGLGRITAKGIALLLFNVAVMFTITFFIGLLVKVGQGFELTSDSSVTGKDNVPLPQII;locus_tag=LOCUS_05250;note=WP_011167161.1 dicarboxylate/amino acid:cation symporter (Mycoplasma mycoides) [pid:51.9%25%2C q_cov:98.7%25%2C s_cov:14.7%25%2C Eval:1.4e-15%2C partial hit],internal stop codon at [319708:319710](+)%2C[319759:319761](+)%2C[319900:319902](+)%2C[319915:319917](+)%2C[319936:319938](+)%2C[320212:320214](+)%2C[320368:320370](+),MGA_525
sequence1	MetaGeneAnnotator	CDS	320377	320577	.	+	0	ID=MGA_526;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMSILMTFMKIMPLAVMSMITVSITSRPIGALVSIGKIIGVGYLGVAIALALLTLEIFLSGIKVGA;locus_tag=LOCUS_05260;note=WP_011183548.1 dicarboxylate/amino acid:cation symporter (Mesoplasma florum) [pid:71.2%25%2C q_cov:100.0%25%2C s_cov:11.3%25%2C Eval:1.0e-18%2C partial hit],internal stop codon at [320212:320214](+)%2C[320368:320370](+)%2C[320575:320577](+)%2C[320578:320580](+)%2C[320590:320592](+)%2C[320776:320778](+),MGA_526
sequence1	MetaGeneAnnotator	CDS	320638	320778	.	+	0	ID=MGA_527;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPIAMETLTQDMKVNGRSANTIQPISTTMGLIACAGVQSGLATSIL;locus_tag=LOCUS_05270;note=WP_011183548.1 dicarboxylate/amino acid:cation symporter (Mesoplasma florum) [pid:47.8%25%2C q_cov:100.0%25%2C s_cov:7.9%25%2C Eval:3.6e-08%2C partial hit],internal stop codon at [320368:320370](+)%2C[320575:320577](+)%2C[320578:320580](+)%2C[320590:320592](+)%2C[320776:320778](+),MGA_527
sequence1	MetaGeneAnnotator	CDS	320812	321336	.	+	0	ID=MGA_528;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLFTFFIMALFVTVIASLGIAGVPGTATVVTVGVLGGIGFGGYAGSVLQLIAPLDGLFDMGRTGANVVGGVAVATIVAKSEGLIEEGSNLLNERGIHSQQRILESKNLKDEHTKILISLNSTSMKELKNKDLTKEDKEKIKLKLKEDLKKEKQVYKEKKIIFKDKNNKKGDKK;locus_tag=LOCUS_05280;note=WP_011167161.1 dicarboxylate/amino acid:cation symporter (Mycoplasma mycoides) [pid:45.4%25%2C q_cov:62.1%25%2C s_cov:20.6%25%2C Eval:3.8e-19%2C partial hit],internal stop codon at [320575:320577](+)%2C[320578:320580](+)%2C[320590:320592](+)%2C[320776:320778](+),MGA_528
sequence1	MetaGeneAnnotator	CDS	321336	321641	.	+	0	ID=MGA_529;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRRILSLLSSISLIASSSTLVASCTENSKEFKTIDFEKPSETIKEFESIKLKLKNRSKINGLKIESSSNLKVQLSGKNNDELIIIAGAIKKENDQETNEKE;locus_tag=LOCUS_05290;note=MGA_529
sequence1	MetaGeneAnnotator	CDS	321648	321980	.	+	0	ID=MGA_530;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSAKNAYTEVIEFKITANLEGYKAIEVSGLNNENNLHLKAGLKETIVILNYEQLINFKINSDSTESINYMQNGDNIIVNAKQNSQSGASLKLILSADNSKVALEINIEVI;locus_tag=LOCUS_05300;note=MGA_530
sequence1	MetaGeneAnnotator	CDS	322050	322214	.	+	0	ID=MGA_531;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNVTIIGQMEGEPQVVFDSKDGQKKLYKFVLKVPRNYKTKTGETIADFINVKV;locus_tag=LOCUS_05310;note=WP_011183434.1 single-stranded DNA-binding protein (Mesoplasma florum) [pid:60.4%25%2C q_cov:98.1%25%2C s_cov:52.5%25%2C Eval:7.2e-12%2C partial hit],internal stop codon at [322212:322214](+),MGA_531
sequence1	MetaGeneAnnotator	CDS	322455	323111	.	+	0	ID=MGA_532;product=DNA-processing protein DprA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183433.1;translation=MDEISNKVDCNFITILNPLYPNYLKNTHKPPFVIFYKGDLSLISNHNKTIALVGGDEVNEYGIKSTQTFMKELNEEGTVFSTIENIGVNNEVLDNGLKNNYKLIKIVEESMKDYLKKTLDIPERKNLLAITEIYESNNNIVNLMGDYANRMLCGISKAILFIQFKERDIIKKLFSFSINEGKEVFAVPDSIYSKNATNKLIKDGAKLVENAKDILNQI;locus_tag=LOCUS_05320;note=WP_011183433.1 DNA-processing protein DprA (Mesoplasma florum) [pid:35.8%25%2C q_cov:99.1%25%2C s_cov:86.5%25%2C Eval:3.6e-32],MGA_532
sequence1	MetaGeneAnnotator	CDS	323299	323589	.	+	0	ID=MGA_533;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNNNIIEEVSSEKKAKKSNNKEFKKKKSGKAFFAIIFHYLKRHPLVGIFLVILTFASSLAGVLSPKIIQNIMLILVSKSTENEITTTPLFGFNLT;locus_tag=LOCUS_05330;note=MGA_533
sequence1	MetaGeneAnnotator	CDS	323629	324219	.	+	0	ID=MGA_534;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIFTFASNYLAGIMGKNVEIELRNKTLEKLVKQDMSYYSDKKIGEILTKIVSDTQIIGDQAQQIPVTMLNASFTFFGALIMMFTIDTYLTVVVIITMIVIVTSIFSSFGIVKKAAFKTRDSITSINGDVTDRIATVRLIKASGTENYETERFKEIHKDYFKKSSSLIKLQSTIVTILVAGISSIQMIIVIAAAIK;locus_tag=LOCUS_05340;note=WP_011183432.1 ABC transporter ATP-binding protein (Mesoplasma florum) [pid:48.7%25%2C q_cov:99.5%25%2C s_cov:29.6%25%2C Eval:1.2e-44%2C partial hit],internal stop codon at [323587:323589](+)%2C[323596:323598](+)%2C[324217:324219](+),MGA_534
sequence1	MetaGeneAnnotator	CDS	324280	324816	.	+	0	ID=MGA_535;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVGPIMQVARLQIGLIQASTSAVRIDEILTSKSRIDPHYNPEEGIRIENIDKAIIFKDVEFRYPEKPEKIIIPKFSFTFEHGKSYAFVGETGAGKSTIAKLLLRFYDPFKGKILINGTNDLRDVNLASYLDKVGYVEQEPQILFGDVLDNIKYGRFNATDEEAIEAAKLAELHDLVMT;locus_tag=LOCUS_05350;note=WP_011183432.1 ABC transporter ATP-binding protein (Mesoplasma florum) [pid:59.0%25%2C q_cov:100.0%25%2C s_cov:27.0%25%2C Eval:1.4e-56%2C partial hit],internal stop codon at [324217:324219](+)%2C[324814:324816](+),MGA_535
sequence1	MetaGeneAnnotator	CDS	324856	325170	.	+	0	ID=MGA_536;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSGGQKQRLVIARMFLKDPQLLILDEATSALDNIVEKEIQSKLDTLMKGRTTVTIAHRLSTIKNVDTIIVLAPEKGIAQVGSFSELKNKAGHFKNLYDAGLMG;locus_tag=LOCUS_05360;note=WP_011183432.1 ABC transporter ATP-binding protein (Mesoplasma florum) [pid:84.2%25%2C q_cov:97.1%25%2C s_cov:15.3%25%2C Eval:2.6e-41%2C partial hit],internal stop codon at [324814:324816](+),MGA_536
sequence1	MetaGeneAnnotator	CDS	325539	326270	.	+	0	ID=MGA_537;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010905426.1;translation=MEGIIMIAKEQINEKTSNIDENIPLIEISNITKTYKHKNALDDVSLVINPGDRIGIIGPNGGGKSTLSEILGGIRKPTSGKIKRQENMTIGLQFQESKYPIGITVLDMIKYYLETFNIPMNEGKLIEILRKFQIENYKNKFLEGLSGGQQQRVNILLSLIHNPDLVIFDEISTGLDIEVRSEIFDVIKENVVSKNKAMILVTHMMSEIEELCDKYIYIHNGKIREQGLVKDLVKKHGSVHNFT;locus_tag=LOCUS_05370;note=WP_010905426.1 ABC transporter ATP-binding protein (Lactococcus) [pid:32.1%25%2C q_cov:89.3%25%2C s_cov:81.0%25%2C Eval:3.2e-30],internal stop codon at [326268:326270](+),MGA_537
sequence1	MetaGeneAnnotator	CDS	326409	326741	.	+	0	ID=MGA_538;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYYAKGFAVPFFLFFFPLILLFLEGFVFKSMEMPGAAGSGKPGALLHNLIGSLAIMQIISVGVFIIPQTILEFKNSVLMKRIGATNIKPIFFILTVVAMGIIFMLMGFF;locus_tag=LOCUS_05380;note=MGA_538
sequence1	MetaGeneAnnotator	CDS	326838	327056	.	+	0	ID=MGA_539;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTLVQAVSMGMLLASIFKSTTTYIAVSNILYMPIAFLGGSFLPIDLIMNSPVLKYATYLNIFKYCMEPFSNA;locus_tag=LOCUS_05390;note=MGA_539
sequence1	MetaGeneAnnotator	CDS	327239	328102	.	+	0	ID=MGA_540;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKIVNIIGAGLAGCEAAYQLAKRNIKVKLYEKKTLKRNPVQKLDYFAELVCSNTLRSSDLKNAVGTLKEEMRMFDSLIIKAAEFAQIPAGGSLAVDRELFSKYITNEMKTNKYIEVIEQEFQKIDKNQITLIASGPLTSKTLQLEISKLIGQDYFYFFDAVAPIITKDSINMNIAFRKNRYEKGETQDYINCPMNKEQYELFHKELVAAQLAPVHLESEQNLKYFEGCMPLEVMAKRGFDTLTFGPLKPAGLRNLDGTNNFAVVQLRQDNAADNLYNFVGFQTNLT;locus_tag=LOCUS_05400;note=WP_011183430.1 methylenetetrahydrofolate--tRNA-(uracil(54)-C(5))-methyltransferase (FADH(2)-oxidizing) TrmFO (Mesoplasma florum) [pid:70.8%25%2C q_cov:99.0%25%2C s_cov:63.7%25%2C Eval:9.7e-112%2C partial hit],internal stop codon at [328100:328102](+),MGA_540
sequence1	MetaGeneAnnotator	CDS	328172	328444	.	+	0	ID=MGA_541;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHQNNFINSPTVLNEFNQLKSNHNIFFAGQITGVEGYVESTSSGIIAAINIARLINQKELKKFPIDTVMGGLQNYIIATSSKNFQPMKAN;locus_tag=LOCUS_05410;note=WP_011183430.1 methylenetetrahydrofolate--tRNA-(uracil(54)-C(5))-methyltransferase (FADH(2)-oxidizing) TrmFO (Mesoplasma florum) [pid:65.6%25%2C q_cov:100.0%25%2C s_cov:20.2%25%2C Eval:1.9e-25%2C partial hit],internal stop codon at [328100:328102](+)%2C[328442:328444](+),MGA_541
sequence1	MetaGeneAnnotator	CDS	328686	328892	.	+	0	ID=MGA_542;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYPVVYLGVIQYSLYRGIVLTEIPLEENNSYTEYILERYEEIYKIRYRFVKDKPKKANLKDKETYELC;locus_tag=LOCUS_05420;note=MGA_542
sequence1	MetaGeneAnnotator	CDS	329346	330161	.	+	0	ID=MGA_543;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEEISAVTMLDDGEELYDQIKNYLPLFIFDDKYINEKGELKTELKKSNVKILSPFANQNINIEVLIPYIESKGERFISYNPETLFRTSEIIYTVLAKLRLILLVHEYLPNLIDSRIMPKKKLYVDVLNLFEEVKEDKFKRKLDVENLLEFDFLISEDDINEVLELKYTKLEDFYNKKCFYKIGKIISLLLGVENTTASKMNYDLFELFKNILILMGPHPLDHTVQTQILVKKLYSKFEKMCKEYEKLLSEDFEKSKMYISNLELPLKLLR;locus_tag=LOCUS_05430;note=MGA_543
sequence1	MetaGeneAnnotator	CDS	330176	330364	.	-	0	ID=MGA_544;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLHAITLELDVATKLTAPKIVNNFLIIFSFVLFKNIIYKITNILYNKFNGSSKHNIKVIIFF;locus_tag=LOCUS_05440;note=MGA_544
sequence1	MetaGeneAnnotator	CDS	330288	330515	.	+	0	ID=MGA_545;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKLLTILGAVSLVATSSSSVIACNNPVPPPPVEKVDLTDELLKEFVKENNEFSYEGPFVFEEGYLFSDKSISTY;locus_tag=LOCUS_05450;note=MGA_545
sequence1	MetaGeneAnnotator	CDS	330828	331151	.	+	0	ID=MGA_546;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSTSKNKKIDIFQTIRVRLTSKALEEIADKTKKIEKLEEEFINGFKNDEGTQSKSFLNSVKINIKDFDKSELDEYRDTYNLDLKIALKDNISIFINKKLNIILSKKG;locus_tag=LOCUS_05460;note=MGA_546
sequence1	MetaGeneAnnotator	CDS	331212	331364	.	+	0	ID=MGA_547;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKLLTILGAVSLVATSSSSVIACNNPVPPPVEKVDLTDELLKEFVKENN;locus_tag=LOCUS_05470;note=MGA_547
sequence1	MetaGeneAnnotator	CDS	331749	332069	.	+	0	ID=MGA_548;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSTSSSEKIDIFNSLSIDLTTKELDQIEEKNDKLKELENKITKNIKATEESQEKSILNLVNINVTDFKKMDFDQFKDVYKLDLKISLKTDNSVFIVKELNTTLKKE;locus_tag=LOCUS_05480;note=MGA_548
sequence1	Aragorn:1.2.38	tRNA	332205	332281	.	+	.	ID=Aragorn_20;product=tRNA-Arg;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00190;note=Aragorn_20
sequence1	MetaGeneAnnotator	CDS	332367	332543	.	+	0	ID=MGA_549;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEFKYKSKISEVKKYDTIAKVYLSYYVDPVNNEINKLEVNNHELLSFNDHPTSIIKKN;locus_tag=LOCUS_05490;note=MGA_549
sequence1	MetaGeneAnnotator	CDS	332673	333110	.	+	0	ID=MGA_550;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MALNLNDLKKYEKYSVKKAEFIKVDNKEQLDNFVKIVGTIFSDEVTDSKKFYGIFEEYQKVSELYIIKYDDQYVGTGHLTHFDENITVIDDIAMLEIARGKGLATFLMKSLINRCLEKGQKEACLFGSKMAFNIYKKLGFKEEDF;locus_tag=LOCUS_05500;note=MGA_550
sequence1	MetaGeneAnnotator	CDS	333268	333726	.	+	0	ID=MGA_551;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFQLFDPFKLILLGTIFTIIYGAIKNLLFSRFVNLKNYRKNLRNNILFEFDNTIIYIDNLKKIIVANDLSGAKKALKDFKAISYIPDYLSDFIDKLANTLLLEKDITIYSEAIEVISNNVKETFNLERERTLKNQRGLQELKMSEAYYTNTS;locus_tag=LOCUS_05510;note=WP_011166878.1 membrane protein (Mycoplasma mycoides) [pid:29.9%25%2C q_cov:90.1%25%2C s_cov:26.3%25%2C Eval:3.1e-18%2C partial hit],internal stop codon at [333724:333726](+)%2C[333784:333786](+),MGA_551
sequence1	MetaGeneAnnotator	CDS	333832	334014	.	+	0	ID=MGA_552;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAFLINVTVFVITGIIMSLNNVRINNYFFAGFALAMLIVAMIHYNISIILSSRKLNIKIY;locus_tag=LOCUS_05520;note=MGA_552
sequence1	MetaGeneAnnotator	CDS	334032	334238	.	-	0	ID=MGA_553;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDCSNSSKRPPNTYVNNIVENTIYNILFNKLSSSELYQTGCSEPLLVETSGKKIILSIMFANIIEIIT;locus_tag=LOCUS_05530;note=MGA_553
sequence1	MetaGeneAnnotator	CDS	334731	334898	.	+	0	ID=MGA_554;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKLRLKRAGKKRAAFYRIVASDARVKRDGEYIELIGTYNPINGEVSLKKEIALK;locus_tag=LOCUS_05540;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:8.5e-13%2C partial hit],internal stop codon at [334896:334898](+),MGA_554
sequence1	MetaGeneAnnotator	CDS	334959	335105	.	+	0	ID=MGA_555;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTDLHNVKLENKKAKPKAPKKAAKPKAASAQKAAPKKVSEAKENTSNK;locus_tag=LOCUS_05550;note=MGA_555
sequence1	MetaGeneAnnotator	CDS	335105	335368	.	+	0	ID=MGA_556;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQDIFKAFERILKDIIPSDVLYVLKQKYETDQTYEFILVIQEKDQELFKNKKNEGFLEAITNICNSEISIFSKKIIIDLEVLELHV;locus_tag=LOCUS_05560;note=MGA_556
sequence1	MetaGeneAnnotator	CDS	335361	335771	.	+	0	ID=MGA_557;product=ribosome maturation factor RimM;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081983.1;translation=MFNNLQKIGKIVATHGLKGELKFKLESGLILIKEIKSEQFFLESISKNLDVFEVKKSYFLNKKHIIALDNINTIEKAQKLINNTVYVKRESELIEEEFSYIGFECFYQNKSYGKVIDEMFNGAHDLIKIVIENNQL;locus_tag=LOCUS_05570;gene=rimM;note=WP_004081983.1 ribosome maturation factor RimM (Thermotoga) [pid:31.2%25%2C q_cov:94.9%25%2C s_cov:76.7%25%2C Eval:4.4e-09],internal stop codon at [335769:335771](+),MGA_557
sequence1	MetaGeneAnnotator	CDS	335855	336127	.	+	0	ID=MGA_558;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFSIITLFPNLINSYISESIIKRAIEKNSIDVEVIDLRKHTKLKHNQVDDYQLGGGKGMVLMVEPVVNAIESCKRENSLVVLTSPQGKT;locus_tag=LOCUS_05580;note=WP_011183438.1 tRNA (guanosine(37)-N1)-methyltransferase TrmD (Mesoplasma florum) [pid:71.1%25%2C q_cov:100.0%25%2C s_cov:37.0%25%2C Eval:4.7e-32%2C partial hit],internal stop codon at [336125:336127](+),MGA_558
sequence1	MetaGeneAnnotator	CDS	336137	336586	.	+	0	ID=MGA_559;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MARKYSLNYEHIILVCGHYEGFDERILDYVDLELSIGDYVLTGGEIASIVILDSITRLLEGVIAKDSHLNDSFENNLLDHPVYTKPIEFRGKKAPEVLTSGHHANVEKYRQEGRLRNTFNKRPDLLEKSELSKSDLDFIEKLKKLKGDN;locus_tag=LOCUS_05590;note=WP_011183438.1 tRNA (guanosine(37)-N1)-methyltransferase TrmD (Mesoplasma florum) [pid:62.2%25%2C q_cov:99.3%25%2C s_cov:60.9%25%2C Eval:6.1e-53%2C partial hit],internal stop codon at [336125:336127](+),MGA_559
sequence1	MetaGeneAnnotator	CDS	336589	336990	.	+	0	ID=MGA_560;product=50S ribosomal protein L19;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183437.1;translation=MNMLTKNTKALIDEQLNTNLPNFTSGDTIKVNVKIKEGEKFRIQAFEGVVIKTQGSGISYSVCVRKNSNGVFVERTFPVHSPIIETIEIIKRGRVRRARIYYIRKLTGKAARIKEVINNKAKDASAVKKAVKK;locus_tag=LOCUS_05600;gene=rplS;note=WP_011183437.1 50S ribosomal protein L19 (Mesoplasma) [pid:77.0%25%2C q_cov:85.0%25%2C s_cov:88.3%25%2C Eval:1.1e-44],MGA_560
sequence1	MetaGeneAnnotator	CDS	337096	337293	.	+	0	ID=MGA_561;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNYYEDIMQKINEIMSKNDYDEAFKIVCEELSAPYVPQDFEKQLEQMQKIIMEKIKFEEKNFTN;locus_tag=LOCUS_05610;note=MGA_561
sequence1	MetaGeneAnnotator	CDS	337318	337839	.	+	0	ID=MGA_562;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKKLDQDSHLMAFDALRGLNARLILEDIKAYLLDSEIKPEYKTFLIMVLIEQLVDQEILIEKNGSKISINPAKYNLREAQDILKDIELKIEQTIYDSNPSLFTICQHIANTYFYNVFPILNFDKFTLNDLAMAIIMKACDSLGIVLEESLELKIDFNKENTMILLSELNNII;locus_tag=LOCUS_05620;note=MGA_562
sequence1	MetaGeneAnnotator	CDS	337858	338091	.	+	0	ID=MGA_563;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKTTFTEEDFVKYNDPKSVMMQLFGVTCSVCGIDEIDYVDEKAPKTLGQIAKEILDEDPEIDDDELNDMIEPQIDA;locus_tag=LOCUS_05630;note=MGA_563
sequence1	MetaGeneAnnotator	CDS	338238	339251	.	+	0	ID=MGA_564;product=GTPase ObgE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183420.1;translation=MKFVDLAHFNIKSGKGGDGAVSFRHELYVANGGPNGGDGGKGGDIIFIADEGKSSLLDLKLQKFYSAEDGFKGDIKNMHGKNGKDTYIKVPVGTIIYNNDTNELLFDFISDGQQEVLAQGGKGGRGNARFANSRNKAPTIFEAGDPGQEVNIKAELKVLADVGFVGLPNAGKSTLLRAISNSKPQIADYPFTTLNPQLGVSRDKSGRTFTVADLPGLIEGASLGKGLGHEFLRHIERCKIICHVIDMSGNYATEDVIKNYELIRKELIEYNFNLEKRVEIIVANKIDIDEAKINLLYFKEKYKDKKIIEVSGLTKINIDELLLEIGSTLEVVKDIPL;locus_tag=LOCUS_05640;gene=obgE;note=WP_011183420.1 GTPase ObgE (Mesoplasma florum) [pid:67.8%25%2C q_cov:100.0%25%2C s_cov:78.5%25%2C Eval:4.9e-129],internal stop codon at [339249:339251](+)%2C[339345:339347](+)%2C[339519:339521](+),MGA_564
sequence1	MetaGeneAnnotator	CDS	339697	340095	.	+	0	ID=MGA_565;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPCNSSDLDEKCKLELIEKFDLKNVSVDLSKTFNVLSDSLNDSGIKQSKIALANSKARLRMTTLYSMAQTHNYLVLGTDNADEWHIGYFTKFGDGGVDLLPIVHLLKREVREAAKILGVPQSIINRAPTASL;locus_tag=LOCUS_05650;note=WP_011183419.1 NAD(+) synthase (Mesoplasma florum) [pid:68.2%25%2C q_cov:100.0%25%2C s_cov:54.1%25%2C Eval:3.1e-47%2C partial hit],internal stop codon at [339568:339570](+)%2C[339694:339696](+)%2C[340093:340095](+),MGA_565
sequence1	MetaGeneAnnotator	CDS	340317	340457	.	+	0	ID=MGA_566;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAVKGKNKMKKLLAVLGSITLITSSSFTVVSCFGGKTDTSEDKKTT;locus_tag=LOCUS_05660;note=MGA_566
sequence1	MetaGeneAnnotator	CDS	340695	340814	.	+	0	ID=MGA_567;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSAFYVGKSEEEVKNAFPKSHSKTVLEFGSEMTYDNQFK;locus_tag=LOCUS_05670;note=MGA_567
sequence1	MetaGeneAnnotator	CDS	341004	341231	.	+	0	ID=MGA_568;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDFFEEYKSQLKSPNLEIVEEVNQKQEIIANKDNQHLKLKLSNAEFTFNDSIKYKNDENRKINAALNLYLNNKI;locus_tag=LOCUS_05680;note=MGA_568
sequence1	MetaGeneAnnotator	CDS	341800	341919	.	+	0	ID=MGA_569;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSAFYIGKSEEEVKNAFPKLHSKTVLEFGSEMTYDNQFK;locus_tag=LOCUS_05690;note=MGA_569
sequence1	MetaGeneAnnotator	CDS	342109	342504	.	+	0	ID=MGA_570;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDFFEEYKSQLDSPYLKIQEDINQEINDTNANNQHLHLRFENANFKFTQKINYREDENEEIETMKVSEALNLYLLHQISLHHYGFNSKNEKSDYSGFKFNWDLDLEDPNKEDYDNHYNYGFELSGPNQKR;locus_tag=LOCUS_05700;note=MGA_570
sequence1	MetaGeneAnnotator	CDS	343838	344287	.	+	0	ID=MGA_571;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTEVQANSISEYIDNLPDEIADKMFEELIAGMSLYFAIVLFGEEIEKNYEPLKLDGKSLEEISRVVKENEIGEEEVYSALMGSLQEESDAELFAEDCVQSIAFSPEFPKEVLAKLEELNIEINDFSMNLIVTLKDEFIDFFVNDLDIQE;locus_tag=LOCUS_05710;note=MGA_571
sequence1	MetaGeneAnnotator	CDS	344509	344715	.	+	0	ID=MGA_572;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLVFTIIASISLTIYFLILFRKNRKFYFEKEQVSADEFKRLEKFEIQRNNFELEIAKIRKIQRDRIKK;locus_tag=LOCUS_05720;note=MGA_572
sequence1	MetaGeneAnnotator	CDS	344752	345819	.	+	0	ID=MGA_573;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSGLINPIKNEELNDNQNQQTVGTFALNSNPQNNPNYFNETAIYQKNLIENKNSGYIRPRQLNFDNSYQQNKMPEYKRSEIRDPNEKVYFQNNQRDFMQYQQPRYQPSQIQSYVNYQNQYNNNLKQERLDFENMSRINYGNYRDENQYNRMVYPPNNQINNIQRNEIYSNKPLYENYHMPNNNMQYGYNDFSNNNQFYNPNPNFGYNPEVDYAPVSSNNYNPYEHNSYGQRMKNANIIPKEIAREIRSEKLRIFLIFLIGVVGIITSSIMLAIYYKAGEAGTYMGVERAKVMYPFFSITLLIVASGFFITSLTDFAFIYSNVKKYEKDLLFGKELVPYFITRNYRSLISRGVFLN;locus_tag=LOCUS_05730;note=MGA_573
sequence1	MetaGeneAnnotator	CDS	346209	346829	.	+	0	ID=MGA_574;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRSNKIIDRKINSLYVHIPFCEHICFYCDFVKVKKPQDPQVIEKYLDKIELELESYKNRLDDVQSIYIGGGTPSCLNEEQTTRMCTILSKYTNKENFEYSIELNPESVTIEKLNIYKKFNINRISMGIQTFDNELLKKIGRIHDNSLAIKAYKLIKKAGFKNVSIDLMYNLYDQTKKNIATDLEYLKDLKPDHISWYSLIMKEKSV;locus_tag=LOCUS_05740;note=WP_003732347.1 radical SAM family heme chaperone HemW (Listeria) [pid:41.1%25%2C q_cov:100.0%25%2C s_cov:53.8%25%2C Eval:6.0e-42%2C partial hit],internal stop codon at [346827:346829](+)%2C[346977:346979](+),MGA_574
sequence1	MetaGeneAnnotator	CDS	346842	346979	.	+	0	ID=MGA_575;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVPENDELFDELVNQGLKDLGYIRYEISNYALGKDNKSLHNISY;locus_tag=LOCUS_05750;note=MGA_575
sequence1	MetaGeneAnnotator	CDS	347133	347321	.	+	0	ID=MGA_576;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMGLRMVEGIDISLEKNKDIIDFYQEKIQEKIKQNLLEIVNNNLRCTERGFNILNEILIDFL;locus_tag=LOCUS_05760;note=MGA_576
sequence1	MetaGeneAnnotator	CDS	347308	347514	.	+	0	ID=MGA_577;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFYNMKKALIVVDYQYDFAHPLGKLYVPQGELIKKEIENKIIEYKNNGDYVIFSGDFHPQKHVSFKQ;locus_tag=LOCUS_05770;note=WP_011167163.1 isochorismatase family protein (Mycoplasma mycoides) [pid:47.6%25%2C q_cov:92.6%25%2C s_cov:38.0%25%2C Eval:7.4e-09%2C partial hit],internal stop codon at [347512:347514](+)%2C[347689:347691](+),MGA_577
sequence1	MetaGeneAnnotator	CDS	347858	348088	.	+	0	ID=MGA_578;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLEQLKNINNNNFALLKVVNNDNFVDFKDIIYNFLNQPQIRIEKKYDILFSQAFKINCFKKVVKELEKEFTKNYVL;locus_tag=LOCUS_05780;note=MGA_578
sequence1	MetaGeneAnnotator	CDS	348233	348604	.	+	0	ID=MGA_579;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLNKKQTEKIKPSKNLDNINYKLLLLFCDFNENEDLRSLITKEQKELLNLVLKSDKIEDYVELNNKIKINIFKYLPINIKLFQGEVTRLTSKLNKKEKAKLAYVTFMQLYCIFVEENYINKN;locus_tag=LOCUS_05790;note=MGA_579
sequence1	MetaGeneAnnotator	CDS	348739	349701	.	+	0	ID=MGA_580;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFMDFTQKPDPLNDPEILNKYTRDLTKDAKEGKIDPIIGRDDEIMRVIRILSRKTKNNPVLIGEPGVGKTAIAEGLAQRINKGDVPSVLKDKKILELDMGSVMAGASFLGDYEARIKGIVNAIQKENGQIILFIDELHLIVGAGKTGNGGGMDVSNLLKPSLARGGIKVIGATTLKEYREYIEKDAALERRFQKVIVSEPTIEETISILRGLKERFETYHGVRIHDNALVAAAQLSDRYISDRFLPDKAIDLVDEASATIKTELASVPTELYQIDRKVMQLEIEKAALSKEQDDKSKERLQQAEKELKKLKVIQADFNNK;locus_tag=LOCUS_05800;note=WP_011183317.1 AAA family ATPase (Mesoplasma florum) [pid:78.2%25%2C q_cov:97.5%25%2C s_cov:43.5%25%2C Eval:5.1e-136%2C partial hit],internal stop codon at [349699:349701](+)%2C[349936:349938](+),MGA_580
sequence1	MetaGeneAnnotator	CDS	349951	350892	.	+	0	ID=MGA_581;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENLIESEKQKLLGLSTALKKMVRGQNQALDLVSDAIIRSRSGIKDPNKPIGSFLFLGPTGVGKTEVAKSLAKNLFGSEKKMLRFDMSEYMEKHSVSKLLGSPPGYVGYEEGGKLTEAVRRAPYSILLFDEVEKAHPDVFNIFLQILDDGRVTDSLGKTIDFKNTIIIMTSNIGSEYLISTPPELIDQDILTENLRKFFRPEFLNRIDNIVNFNALSKDVIKEIIIKTLDELKERVLLTNEYIINFTDSSIKKVLEEGYDQQYGARPIKRYIERNIETLIARAIVSGEIEPKRNYVIDVNNNNFVLSTSNKLN;locus_tag=LOCUS_05810;note=WP_011166789.1 AAA family ATPase (Mycoplasma mycoides) [pid:66.7%25%2C q_cov:100.0%25%2C s_cov:44.0%25%2C Eval:4.0e-114%2C partial hit],internal stop codon at [349699:349701](+)%2C[349936:349938](+),MGA_581
sequence1	MetaGeneAnnotator	CDS	350955	351746	.	+	0	ID=MGA_582;product=heat-inducible transcriptional repressor HrcA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183316.1;translation=MLTKRQNLILKSIIEEYIKTALPVGSKRIQEVLTMEVSSATIRNESAFLEEQGFLEKAHTSSGKVPSTKGYRYYVDNLMESNNIEDIKVQINEIFKKRGATIDEILEKTSSILSEMTKLATVVATSEINGELLLSKIELIPISSKSAVVIFVLSNGAIENKNISLDSISLEELRLSIDLFNERLINSKISEIETKSQAMIPVLRQQVKKYEFVLQTLIGALIHTDSNKSRTSGVKYLLENPEFNDAKKIKDIIQFIENASPFV;locus_tag=LOCUS_05820;gene=hrcA;note=WP_011183316.1 heat-inducible transcriptional repressor HrcA (Mesoplasma florum) [pid:49.4%25%2C q_cov:99.6%25%2C s_cov:76.9%25%2C Eval:5.7e-68],internal stop codon at [351744:351746](+),MGA_582
sequence1	MetaGeneAnnotator	CDS	351977	352642	.	+	0	ID=MGA_583;product=nucleotide exchange factor GrpE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183315.1;translation=MEKEKMKSILDLFENIKKELKIDSKENKDQKNNKDHKEQKNPHENKDSKENKDKNHDKENKVEELTNIEKLELEFVALNEQIAKLEEARLIAVADNQNTVRRFQNESALVRKYGGEKLASELIPAIDMFRGVLKSTPDNPEIKNYLMGFEMIINQIDQALTNAGVTMVVVKPGDDFNPEVHSAIEQVKSEEFKSGKIAIVVSNGYKLHDRVIKHAAVKVAE;locus_tag=LOCUS_05830;note=WP_011183315.1 nucleotide exchange factor GrpE (Mesoplasma florum) [pid:35.7%25%2C q_cov:90.0%25%2C s_cov:98.9%25%2C Eval:4.3e-28],MGA_583
sequence1	MetaGeneAnnotator	CDS	352673	353305	.	+	0	ID=MGA_584;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKERIIGIDLGTTNSCVAIMEGGQPMVLENPEGQRTTPSVVAFKNSDIIIGGAAKRQAVTNPNTAISIKRDMGTNKKRNLEGKDYSPEQISAEILRYLKKYAEDKIGTKVTKAVITVPAYFNDAQRKATKDAGKIAGLDVERIINEPTAAALAYGIDKQDKEMKVLVYDLGGGTFDVSLLELAEGTYDVLSTSGDNELGGDDFDQKIMD;locus_tag=LOCUS_05840;note=WP_011183314.1 molecular chaperone DnaK (Mesoplasma florum) [pid:81.9%25%2C q_cov:100.0%25%2C s_cov:35.5%25%2C Eval:4.0e-97%2C partial hit],internal stop codon at [353303:353305](+),MGA_584
sequence1	MetaGeneAnnotator	CDS	353357	354502	.	+	0	ID=MGA_585;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MALQRFKDEAEKAKINLSSQVETEINLPFIAMNENGPVNFSTKLSRAEFQKMSKDLVERTRKPVEDALKEAKLKATDIDQVLLVGGSTRIPAVQELVKSLLGKEPNRTINPDEVVAMGAAIQGGVLAGDVTDVLLLDVTPLTLGIETMGGVMTPLIQRNTTIPTEKSQVFSTAVDNQPAVDINVLQGERPMAADNKSLGQFQLTGIKPAPKGTPQIEVTFKIDVNGIVSVTAKDKATNEEKTITISNSGSLSDAEIERMVKEAEENQESDNKKRKNIELKNKAESYLNIIESSMSETGDQVNEEQKKQSEEMAKEIRELITKEDYEALEKKMNELEQAMKMASEMAAQQAQAGATEKPKEDIEDKKDKKDKKDKNKDEESK;locus_tag=LOCUS_05850;note=WP_011183314.1 molecular chaperone DnaK (Mesoplasma florum) [pid:79.2%25%2C q_cov:88.5%25%2C s_cov:56.9%25%2C Eval:2.8e-147%2C partial hit],internal stop codon at [353303:353305](+),MGA_585
sequence1	MetaGeneAnnotator	CDS	354559	355689	.	+	0	ID=MGA_586;product=molecular chaperone DnaJ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183313.1;translation=MAKRDYYEILGIAKSSSEDDIKKAYRKLAKKYHPDICKEPDAEEKFKEATEAAEVLLDANKRQAYDQFGHEGLSGMGSGFGGGFGQGFGDFFSNMGGAGDFFSDIFSNFFGGRGGSSSRGRSSSRGKDVVISVSLTLKELLFGVDKEVKLDLISKCDDCDGVGAKSKSDIVDCEVCNGHGVVTVLQDMGIAKFQTQQACPKCKGNGKENKNPCKTCRGNATVLKKETVSMPIPRGLVPDQQIVLRNAGNYSPSGGERGHLYADIHLSGSKNLRIVNDFDIKFRFDISYLDAILANEIPIRTLDGNINIKIPKGIKNGEIITVKNYGLYKGVKSSHRGNLLLEVNLVIPKDIEKIEREKLQSILDSTDFKVKNNLEE;locus_tag=LOCUS_05860;gene=dnaJ;EC_number=1.8.4.-;note=WP_011183313.1 molecular chaperone DnaJ (Mesoplasma florum) [pid:45.7%25%2C q_cov:99.7%25%2C s_cov:100.0%25%2C Eval:5.8e-89],MGA_586
sequence1	MetaGeneAnnotator	CDS	355887	357350	.	+	0	ID=MGA_587;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVTEFDNTMEFKSKNVSKIDLVQNANSHFFAPENSNNLNFNKSDIENKKYESINLIDKMIMPRRSDIRKEIIDMRVRSYENEKNDKEYLLNQLNNDSKMPNNFRNYNLAKNENIVSNNNYYEKNIRELENSLNKKIDDIKKTVEVTSEQINEIFNYNNEIIMKKTIKDEDNKLIKSSNKAQLEINEKPKSLFSEIINETKMISDVKSSGESIFLLNDEGKTTSKIENEQLPINENVIQESTISNLNTQDSTVFDSDKQQASISELNVEKPQILQSGEDKEGSIFELNKQEGSISESKIEETSEDKEGSIFELNKQEGSISESKIEEASEDKEGSIFELNKQEESISESKIEEASEVQLNNQELLVSEVEKTESIKENIEEQKQVKVESNFANATEFFESQLDDEKLLAANRLLVENKLLTENKRLIEEKLLIENKLLAENKRLTEEKILMEQKFLAEKKLKENELEKEDSLVEKRLLEEKRKISEEQ;locus_tag=LOCUS_05870;note=MGA_587
sequence1	MetaGeneAnnotator	CDS	357459	357932	.	+	0	ID=MGA_588;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLQANEIEIEDNIVEEKTESQAIKSQTNSKQELDNIVHVNFEDQNTNKKNNDNILNLNRTLPSADLDTKELNSFFKEDNNYSLPVINNSDYTIANTVDDLQKAFNNLENRNKKDQMKAKFFEKDGGTTQLVESLQKKSKENKKKEASKSFDFDSFEN;locus_tag=LOCUS_05880;note=MGA_588
sequence1	MetaGeneAnnotator	CDS	358413	359144	.	+	0	ID=MGA_589;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGHYAGVRFNDEIKKYELFKGFDVEKDQSYFLCQLSQNQLSKTLFPLQKFKKSEIRDIAKKYDLITAEKKDSTGICFIGERDFAKFLQNYIPNQPGDIIDIKTNKKIGTHIGVMYYTIGQRKGLNLGGQKEPYYVAHKDIENKIIYVSPLSDESYLESKSCIVEDFNFISNYKNYFKSDKFECNAKFRYRQKDIKVDVEVISQSKIKITYREPVRAVTEGQEAVLYLNEICLGGGVIDKVLKN;locus_tag=LOCUS_05890;note=WP_011183311.1 tRNA 2-thiouridine(34) synthase MnmA (Mesoplasma florum) [pid:66.8%25%2C q_cov:98.8%25%2C s_cov:64.4%25%2C Eval:1.2e-90%2C partial hit],internal stop codon at [358128:358130](+)%2C[358272:358274](+),MGA_589
sequence1	MetaGeneAnnotator	CDS	359192	359554	.	+	0	ID=MGA_590;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLSSSTSTIVIGVVVLVVLIFVIVSSITSKKAQKVEQQKRKKVVKEEIKNYLAKTQNIKNIKVEYEKVYARKGVEYKYRDVFDVVVQMFEPKTNKLISTNAYEVEGITTKSGKNNYVTA;locus_tag=LOCUS_05900;note=WP_011183310.1 membrane protein (Mesoplasma florum) [pid:60.2%25%2C q_cov:81.7%25%2C s_cov:47.8%25%2C Eval:6.1e-27%2C partial hit],internal stop codon at [359552:359554](+),MGA_590
sequence1	MetaGeneAnnotator	CDS	360009	361277	.	+	0	ID=MGA_591;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSDEDFNSSFGFNAIDLYSDLLTQEESLLTKEQLIQKDLLIKQLNDLNGFEISGLPAETIVDGLAVGEAAREYYIEKLYEDNAKNKTNFEYFDFQDMEYHQTIKKTKELLENRNIKYLFEPTFEANDSMLRVRCDVLINHGNRHVTIVEFKASTASKVEHFFDVMYQKKVLEKNGYIVDDVNIGLINRDYIRATGIQNERRDFEVSNLYNIDFENDVKPKIMDIKLPISGESDLVYSQLIRITDKLDNSTKLPKINSLIDGMEANDFYFDGCINEILNFFESEKNLFNSKCQKIKFEYAKLSYKIEEKYCQHVVPYYDKTNFNLYELSGFKASAAIIHRLFPNDIYIENIKSLEDSKYIYNSKNLFKDDQKRVIKVVSNFIKNKKLEAKDIIKEGSYETILNDLKQYYKYPVYMYDFETVK;locus_tag=LOCUS_05910;note=WP_011166633.1 DUF2779 domain-containing protein (Mycoplasma mycoides) [pid:28.9%25%2C q_cov:100.0%25%2C s_cov:61.8%25%2C Eval:8.2e-34%2C partial hit],internal stop codon at [359925:359927](+)%2C[361275:361277](+),MGA_591
sequence1	MetaGeneAnnotator	CDS	361386	361628	.	+	0	ID=MGA_592;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKHLNFIASKQEDPRPEFLLNFIRDCFKYGPGVYVAYNKSFEKGVLKNLIYCYPQFTVPLTYIYMNTIDLMEFFRKKCDN;locus_tag=LOCUS_05920;note=WP_011183309.1 DUF2779 domain-containing protein (Mesoplasma florum) [pid:58.7%25%2C q_cov:92.5%25%2C s_cov:10.6%25%2C Eval:3.8e-21%2C partial hit],internal stop codon at [361275:361277](+)%2C[361626:361628](+),MGA_592
sequence1	MetaGeneAnnotator	CDS	361686	361937	.	+	0	ID=MGA_593;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDSSLNYKDLKINKGDKASQTFRQFLDNIISQEEYEIILKEDMLKYCDRDTLAMIVVLQKVVDIIKEYNPNFLEDLEKQKEDK;locus_tag=LOCUS_05930;note=WP_011183309.1 DUF2779 domain-containing protein (Mesoplasma florum) [pid:55.1%25%2C q_cov:83.1%25%2C s_cov:9.7%25%2C Eval:2.6e-17%2C partial hit],internal stop codon at [361626:361628](+),MGA_593
sequence1	MetaGeneAnnotator	CDS	361939	362571	.	+	0	ID=MGA_594;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKVIFCGTPNISVEILKGLENIGVSIEAVITQPDKQIGRKKEIKFSPVKEYSLSKKYRLFQPLKISQIYDELKKIEADFMVTCAYGQFITQPILDLFKNCVNVHASLLPKYRGGSPIQYAIMNGETKTGISLMKMIKKMDAGEIYCQSEIAIRQEDNSALVFEKMAVLGKKMIEENLLKIFKGELNGIQQDESKVTFAYNLKNDQEKID;locus_tag=LOCUS_05940;note=WP_011183308.1 methionyl-tRNA formyltransferase (Mesoplasma florum) [pid:56.7%25%2C q_cov:99.0%25%2C s_cov:67.1%25%2C Eval:5.8e-64%2C partial hit],internal stop codon at [362569:362571](+),MGA_594
sequence1	MetaGeneAnnotator	CDS	362707	362874	.	+	0	ID=MGA_595;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDILFANGEIIAIDKEGIIVNTTNGFLKILELQREGKKMVSAATFSAPNSPIKVG;locus_tag=LOCUS_05950;note=MGA_595
sequence1	MetaGeneAnnotator	CDS	362979	363275	.	+	0	ID=MGA_596;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSVNDLRPGSTFLYDGNIFVVLENSFSKTGRQQGKVTVKVKNLRTGARVEITFTGGEKVDKALIEKKDMQFLYNDGSNCVLMNTETYEQVEIASNKLE;locus_tag=LOCUS_05960;note=WP_011166635.1 elongation factor P (Mycoplasma mycoides) [pid:78.6%25%2C q_cov:100.0%25%2C s_cov:53.3%25%2C Eval:1.6e-40%2C partial hit],internal stop codon at [363273:363275](+),MGA_596
sequence1	MetaGeneAnnotator	CDS	363303	363536	.	+	0	ID=MGA_597;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKMTEYDGEILGITIPEKIELTIVEAEPAVKGDTTSGAQKKAKVETGLEITVPLFIKEGEKVLINTTDGKYAGRAN;locus_tag=LOCUS_05970;note=WP_011183306.1 elongation factor P (Mesoplasma florum) [pid:72.4%25%2C q_cov:98.7%25%2C s_cov:41.1%25%2C Eval:1.0e-26%2C partial hit],internal stop codon at [363273:363275](+),MGA_597
sequence1	MetaGeneAnnotator	CDS	363561	363851	.	+	0	ID=MGA_598;product=30S ribosomal protein S20;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183305.1;translation=MYISMERNSRGNLEIDEKILSKIIEFDVVSIAVGYKSISVSVTIHQETDLFILVRVYALGEGKFFMDGVKATSIINDSIFKTLKVKPKNIAFAFIK;locus_tag=LOCUS_05980;note=WP_011183305.1 30S ribosomal protein S20 (Mesoplasma) [pid:34.7%25%2C q_cov:97.9%25%2C s_cov:98.0%25%2C Eval:1.3e-08],MGA_598
sequence1	MetaGeneAnnotator	CDS	364388	364630	.	+	0	ID=MGA_599;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAVNNKSLGKKISTTRTKTVIVKKPGSNEYLYQKFGPKALALINKYNLQIDDSYKKLISSYERINSLPKDDPRKPNLIDL;locus_tag=LOCUS_05990;note=MGA_599
sequence1	MetaGeneAnnotator	CDS	365006	366301	.	+	0	ID=MGA_600;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQSSENEVDSTKSFIRIDEETELMTSTAIPDPNLLDFINEGTVATSLEENQKSDEVVNKEINKETKNKELKEVKETEEKKTENIGYIAKENMSREEFNRTNNIELTENSFVQEDQSLAALELGTEFFQKHLTEEFDIKTNVYVTEKMGKIEYSSKDELILPEKRNILSKEGFEINLNPEKTSLLVTNPTKIDKSDEVRPYHEERPVGHYPINYDASKRPMIHDLIAANERESLALDEMTHKVEYLRQLRNDRRHRVNMMKIERANSYIITRARRLAESRELKRLKRREDVNVKAIEKAERLRRLHERQKLIELMKERQLKRTEEKRVASVLRLERERRYERDAKYRAEIATIDAQIRQEQELIKGTELKMKAYFTKINDNEMFDESLKVAKEIVPSYKAIQEKAATIQQLEEKKRKDRVEKISRKFIKNIK;locus_tag=LOCUS_06000;note=MGA_600
sequence1	MetaGeneAnnotator	CDS	366561	367886	.	+	0	ID=MGA_601;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVKNKSRVRTESDFSLLSGKVRARVKNLIEKRLNTKTIIIFAQEYEAYDFNFRLQLIDYINYIMEIENANLPTYLRSSNQAANEAVYQNLKRTIFKPKEIDKKNFQFQLNDSKISTSKKLVNSSIQADPKKKEKEVPKLNSIDRKSIEKLLLEAKFKEEQETRLRDSKLKEQQKLVEQQRKELEEKMSLQRKKTEELAAKLREEKRILEEKRRAEERKQELEKQKILEQKLKEEKAARLIEEKKLAEEQKIAEEKRKLLEKQKAIEKKIREEKAARLKEEKRLAEEKRKAEEQRLAELERKAEEKRLAEQQKLAEKQRLAEEKRKAEEQRLAELQRKELEKQRKELEEKRAIEKKIREEKAAKLKAEREALEAKLKEEQRIAKEQRLAEEKKAKAEKQQRLLAAQKAAKEAEKENEERMIQTKSVKERDYLREQAEKEKL;locus_tag=LOCUS_06010;note=MGA_601
sequence1	MetaGeneAnnotator	CDS	367887	368090	.	+	0	ID=MGA_602;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQLYGRSREEAQKYRQNQEEDKVSKISQHNKKLYINSTDEAQKTFDILGYEFSISETIDPKNKFFSF;locus_tag=LOCUS_06020;note=MGA_602
sequence1	MetaGeneAnnotator	CDS	368625	369011	.	+	0	ID=MGA_603;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENSLNKINKDDYIKYIDSNYDPEYIARLIEKNNIAKLTYFISKLELYIDLSNILIEISKYLDYKNVYLKIKAITNEIVSLLPSIAEIFASYEESLDNSLEYEALKEKMYLFDLNLINLENKLEFKIT;locus_tag=LOCUS_06030;note=MGA_603
sequence1	MetaGeneAnnotator	CDS	369349	370359	.	+	0	ID=MGA_604;product=trigger factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183304.1;translation=MPTPVKISEKECELHFVFDLKPEIQIGTYKGLKDKELVKEELKVSKEELDKAIDQYRERFVMEKLKEKDGKIAKGDSVSFDFEGFIDGKAFKGGKGLDFKLIIGSGQMIPGFEDAMVGKGLGKSSINVVFPKDYTEELKDKKAEFKLEIKEIKERILPAKDDELVKDLNLPGITTFKELESSLKTQILDQKSVQSKNIFVNKVIDLIRLNSKIEIPKSAINKEIENLYKEFEAKVQSQKITLKDYKKQTGLTDNDIRNELFEDAKKRIESYLITDKVRNTEKFEVSEEELKQKYENLAKTFGVEIDFIKKSLLPEAQIKEEIIKEKIVDFLYTNNG;locus_tag=LOCUS_06040;gene=tig;EC_number=5.2.1.8;note=WP_011183304.1 trigger factor (Mesoplasma florum) [pid:51.3%25%2C q_cov:99.7%25%2C s_cov:77.9%25%2C Eval:1.1e-91],internal stop codon at [369115:369117](+)%2C[369142:369144](+)%2C[369298:369300](+),MGA_604
sequence1	MetaGeneAnnotator	CDS	370459	370692	.	+	0	ID=MGA_605;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKLPMLITRGSYIYPTFEQVLEIGRDKTTLAVKEAVDKYEGKILMVSQKKPLEDDPKLKDLFTFGVLAEVKIKKE;locus_tag=LOCUS_06050;note=MGA_605
sequence1	MetaGeneAnnotator	CDS	370756	371334	.	+	0	ID=MGA_606;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEFYIANYKVKDSLKSSSKEALDKITKYIKAMISSQEEFPSEIGDIIKSSSPNVNPNFIVDSAANLMPFMPIEKKQAMLEELDPVKRIEIINEFLDEKRQSADIESSISKKIKSRVDEQQREFYLREKLKAIKEELGDMDGEGDDLAKYKKRLETEPFPENIKKRILSEIDKCEGMPASSSEANITRTYID;locus_tag=LOCUS_06060;note=WP_020862721.1 endopeptidase La (Mycoplasma mycoides) [pid:29.5%25%2C q_cov:93.8%25%2C s_cov:23.3%25%2C Eval:3.5e-22%2C partial hit],internal stop codon at [370690:370692](+)%2C[371332:371334](+)%2C[371350:371352](+)%2C[371353:371355](+),MGA_606
sequence1	MetaGeneAnnotator	CDS	371560	372087	.	+	0	ID=MGA_607;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGREFVKMALGGVKDESEIRGHRKTYIGAMPGRVIQGMKKAAVKNPVFLLDEIDKMASDYRGDPASAMLEVLDPEQNSKFSDHYLEEEYDLSDVVFIATANYPENIPEALYDRMEIIELSSYTEIEKMKIAEEYLIPKVLDDHAVTKEQVVFKKEAINEIIKHYTREAGVRQLER;locus_tag=LOCUS_06070;note=WP_011183303.1 endopeptidase La (Mesoplasma florum) [pid:77.7%25%2C q_cov:100.0%25%2C s_cov:22.2%25%2C Eval:2.4e-77%2C partial hit],internal stop codon at [371332:371334](+)%2C[371350:371352](+)%2C[371353:371355](+)%2C[372085:372087](+),MGA_607
sequence1	MetaGeneAnnotator	CDS	372121	372834	.	+	0	ID=MGA_608;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKKEIEKLVVTPKVVNELLKKRIFEHTEKENEAQVGVVTGLAYTQFGGDILPIEVNHFPGKGGLILTGKLGDVMKESATIAYDFVKSNYKAFAIPKEVFNENDIHIHVPEGAVPKDGPSAGVTITTAIVSALTNKPVPKEIGMTGEITLRGLVFPIGGLREKSISAHRSGLKKILIPFKNTKDIEDIPEEVRKELEVVPVQKYSEVYENVFGIKLNDLVRELPIATPSKEEGKKAH;locus_tag=LOCUS_06080;note=WP_011183303.1 endopeptidase La (Mesoplasma florum) [pid:68.2%25%2C q_cov:90.3%25%2C s_cov:27.2%25%2C Eval:1.7e-81%2C partial hit],internal stop codon at [372085:372087](+),MGA_608
sequence1	MetaGeneAnnotator	CDS	372917	373057	.	+	0	ID=MGA_609;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDNSYNATSNPIGDAIVVNNKEESKQYIPDDKVYKLVKEKNKLKFS;locus_tag=LOCUS_06090;note=MGA_609
sequence1	MetaGeneAnnotator	CDS	373295	373459	.	+	0	ID=MGA_610;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLAVNIEVELRNLTIKRLLEQDISYYSDKKIGKLMTKLVGDTNVIGNEISGMIA;locus_tag=LOCUS_06100;note=WP_011183432.1 ABC transporter ATP-binding protein (Mesoplasma florum) [pid:56.2%25%2C q_cov:88.9%25%2C s_cov:7.3%25%2C Eval:4.4e-09%2C partial hit],internal stop codon at [373457:373459](+),MGA_610
sequence1	MetaGeneAnnotator	CDS	373487	373921	.	+	0	ID=MGA_611;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGTAMMFAIHWQLALVASICVYSLTFLVILFSLQYQKKVKKVRDVISDVNGDVIDRIGAIKLVKATGTRRYEESRLEELHKPYIKAFKPISKIDGTLLAILIASDVLINLIMITIAIEFFNDNKMLTTTLPSFISAMVGLTRPL;locus_tag=LOCUS_06110;note=WP_011166618.1 ABC transporter ATP-binding protein (Mycoplasma mycoides) [pid:37.8%25%2C q_cov:66.0%25%2C s_cov:15.7%25%2C Eval:1.1e-13%2C partial hit],internal stop codon at [373457:373459](+)%2C[373919:373921](+),MGA_611
sequence1	MetaGeneAnnotator	CDS	374132	374431	.	+	0	ID=MGA_612;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKGKSYAFVGETGSGKSTISKLLLRFYDPTEGCVLVNDKNLSDFNLKSYLSHVGYVEQEPSIIFGDVYDNVRYGHFGATEEEVHEACKKAQIDQIINS;locus_tag=LOCUS_06120;note=WP_011183322.1 ABC transporter B family permease/ATP-binding protein (Mesoplasma florum) [pid:71.7%25%2C q_cov:99.0%25%2C s_cov:16.1%25%2C Eval:2.4e-36%2C partial hit],internal stop codon at [373919:373921](+)%2C[374429:374431](+),MGA_612
sequence1	MetaGeneAnnotator	CDS	374612	374782	.	+	0	ID=MGA_613;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDKTSVIIAHRLSTIKDVDKIFVLAPGKGIVQEGTYKELIKIPGKFKDLHDAGKS;locus_tag=LOCUS_06130;note=WP_011183432.1 ABC transporter ATP-binding protein (Mesoplasma florum) [pid:73.2%25%2C q_cov:100.0%25%2C s_cov:8.5%25%2C Eval:3.7e-16%2C partial hit],internal stop codon at [374429:374431](+),MGA_613
sequence1	MetaGeneAnnotator	CDS	374840	375601	.	+	0	ID=MGA_614;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKPLSFLLRPDTLKNIIGQSHLINNKYGLISKMVEKKFITNLIFYGPPGVGKTSMAISIANDLKAKYDFFNASNDKKEKLQKLIESSNHDEQLILIVDEIHRMNRNIQDYLLEFIESKKVVVFLTTTENPYFVINPAIRSRCTILKLKEITIEEMKEGLKRVLKNNRITLDIEENAFENLCELSNGDLRVAINSIELMIELYSNIKINNEIIEAIFEQAVTKGTGEGDEYHDLKSALQKSIRGSDVDAALHY;locus_tag=LOCUS_06140;note=WP_011183302.1 replication-associated recombination protein A (Mesoplasma florum) [pid:52.2%25%2C q_cov:100.0%25%2C s_cov:61.5%25%2C Eval:6.7e-71%2C partial hit],internal stop codon at [375599:375601](+),MGA_614
sequence1	MetaGeneAnnotator	CDS	375611	375961	.	+	0	ID=MGA_615;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQIGDYEVLMRRMIIMAYEDIGLANPTIPIRVYQACQTFRQIGMPEGRIILGLAIIEMALSEKSNSSYLALEKALEDVKNGLAPPIPPYLRDNHYRNAHKLGHGIGYKYAHDYEND;locus_tag=LOCUS_06150;note=WP_011183302.1 replication-associated recombination protein A (Mesoplasma florum) [pid:67.6%25%2C q_cov:95.7%25%2C s_cov:27.1%25%2C Eval:2.6e-38%2C partial hit],internal stop codon at [375599:375601](+)%2C[375959:375961](+),MGA_615
sequence1	MetaGeneAnnotator	CDS	376287	376706	.	+	0	ID=MGA_616;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIGIVFITTKRTFTLEISDDDSSTQIRYLPFDSYSLQKIQLQFSKNAKGLHYVSLQNDSFGNGITFGTTNRDVAQHFVDTLSGRTNGEIEILPDSDDPLLAENEKEQLIDENLEKAKKKVPHKLEKKHEEIKPMKEFEQ;locus_tag=LOCUS_06160;note=MGA_616
sequence1	MetaGeneAnnotator	CDS	377008	377685	.	-	0	ID=MGA_617;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTIIGGETNTSLQTILNSHIFLGKNISEILNLLYESINSSNPNLKKVENINKASTLMANGFRNLSTALIDDKYSIFYGNDIPYKQGNNKYTSLQTLMITSDKNGLYIEFDNIKNKKVKGVKSAMFALGSDFDDLGKQKNNFREETILSGLEKIFDDPSINALFDQILEGFKEVNRIKKELTNFTYKQLIGNMNFKTKVLSYEGIDQPDTDAFIKYKTTYTDILS;locus_tag=LOCUS_06170;note=MGA_617
sequence1	MetaGeneAnnotator	CDS	377716	377850	.	-	0	ID=MGA_618;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKAIIDTFIENRSINGLDSLFDFLKTFGVKIPFRFNQDEIMKNS;locus_tag=LOCUS_06180;note=MGA_618
sequence1	MetaGeneAnnotator	CDS	378013	378549	.	-	0	ID=MGA_619;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTNKKIMNAAVKRLNNIFANLSRQNDKVIEDINELYKDIDYDFENKFGDTFAGFLKNINNLDTSNMIPILFDALFVVSAILHRITSIDFSQDTPQSHDDLYSYKGEVGRKEKKNLKFLKELGEQEFNNKYSSKILIKNLSIALNAKENDGLNFAKLIGLLFQSGSKKTFDIAKPGILG;locus_tag=LOCUS_06190;note=MGA_619
sequence1	MetaGeneAnnotator	CDS	378733	379332	.	-	0	ID=MGA_620;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIISLLGIVSITASTASVASCSMVNNKKQSIFNKVNNLTKISSTLLRGAMIQNASQSRDNGLPYDANFLLDLINSSSAKELMPDFNTNYQTNMSSLNSSYFNQNLTRDEINKIAKVKDSTNENSLFLTNNVKSPNGPADSIGSLLTVFIGIIKANGGIHPNSSGLIQSFLPELKLSENNVDQFSSEKMKPIAKILDQ;locus_tag=LOCUS_06200;note=MGA_620
sequence1	MetaGeneAnnotator	CDS	379445	379840	.	-	0	ID=MGA_621;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNQKVRGPKASMYALGTDFDTNGNQIFSKFRNSSIMQGLEYIFDDEITNQILDDLLKAFNEINSINTNISNNIYKKLIKSQNFKTKILNYKNIDQNNLEQSITYEIVYNEPFTNKTFKYQIDLILKLDQSS;locus_tag=LOCUS_06210;note=MGA_621
sequence1	MetaGeneAnnotator	CDS	380495	381109	.	-	0	ID=MGA_622;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVNSLLLQEKDADELTGQMIINASLNKINNIFARIINQENKIITGENLFSLSKNFDKDLGKIIGEFLKQITKENSNLNIQEVLKSIFEKTENISDILFVFSSLLKYISSIDFSSFIPLSNEYLFDSKKLNNDYLAELNKLTLKDNPYNTARLLKNLSTITNIENNLDGKQMQKLFYLLFNSGEKVTNIDQNIGLISLIPKISSP;locus_tag=LOCUS_06220;note=MGA_622
sequence1	MetaGeneAnnotator	CDS	381167	381874	.	-	0	ID=MGA_623;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILSILAVVSMSTSTICVTSCSTINLKKKSIKNQISNLTQISSTLLRGSIIQNASQEINKGFAYDSNYLNNLVYNSKANELIPLFDTNSETTLNSLRNLYFDNQNLDRNAINDLNKDFLSDKVKSPTSSIQSIASIAVFAITTLKSNGGIHPSLSGLIQGAIPKLGLNDNLADNLNSEKLKPIANLIKNIKDPLAKTIGFLQESNAIYAILKNFFNSEFENAIKEKDMKAIFD;locus_tag=LOCUS_06230;note=MGA_623
sequence1	MetaGeneAnnotator	CDS	381978	382442	.	+	0	ID=MGA_624;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKSLFLYLKQGIKGVMKFKIQFIVIVILSFLATFILSISFSTTKRITNDYEKTMLKMEPFDFLNQQSVGLNLAEGTGSNIIAPMDILNNQFLYVKDSKDLTSQKNNKAVDLNYNISSFDDFSSEGYQETFLTKTFQDSEIQKQFLEMLSDRDY;locus_tag=LOCUS_06240;note=WP_011166641.1 ABC transporter permease (Mycoplasma mycoides) [pid:34.4%25%2C q_cov:95.5%25%2C s_cov:8.0%25%2C Eval:1.5e-15%2C partial hit],MGA_624
sequence1	MetaGeneAnnotator	CDS	383187	383513	.	+	0	ID=MGA_625;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRGSLNQIVVNGSNNKVYNYDNSFSSKYLRHFENQSIEQTIGYYRDFNDFDTYNIEYNFEGISAAKAFYIKNEFLAKAMGFKYEARAEMEFTDVTTEINYRIIDINNH;locus_tag=LOCUS_06250;note=MGA_625
sequence1	MetaGeneAnnotator	CDS	383529	384008	.	+	0	ID=MGA_626;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYEGHLPRTKNEILINPQFATANKYHLGDNIVLGEGNFVISGFAVEPLSYFPMGNTQNPLPNNKKNAIVFATKDNFNQIISTQLEKLATKSIYSMLTVEDRNKLSESDKNLEKYRAYSFNNVIEVYNSYNYIVGNNEKLDSNNFINKYSTFESSTFRYN;locus_tag=LOCUS_06260;note=WP_011183056.1 ABC transporter permease (Mesoplasma florum) [pid:29.3%25%2C q_cov:93.7%25%2C s_cov:8.2%25%2C Eval:3.7e-12%2C partial hit],internal stop codon at [383511:383513](+)%2C[384006:384008](+)%2C[384237:384239](+),MGA_626
sequence1	MetaGeneAnnotator	CDS	384021	384239	.	+	0	ID=MGA_627;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLINGFRIFSYIFSVLVFLITIIATVVAVKKTVELNSGEIAILKAMGAGNYEIASSYMSYGIIVTIFIAPIA;locus_tag=LOCUS_06270;note=WP_011183159.1 ABC transporter permease (Mesoplasma florum) [pid:40.0%25%2C q_cov:97.2%25%2C s_cov:4.1%25%2C Eval:1.2e-09%2C partial hit],internal stop codon at [384006:384008](+)%2C[384237:384239](+)%2C[384459:384461](+),MGA_627
sequence1	MetaGeneAnnotator	CDS	384257	384493	.	-	0	ID=MGA_628;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNTLLLNLSTHLIRLTFSILYIISNVGLFTNKNAVKKEIKHNNKPKIKIEISNAEGLKIIKFDLPDEKFKNTLAINS;locus_tag=LOCUS_06280;note=MGA_628
sequence1	MetaGeneAnnotator	CDS	384525	384908	.	+	0	ID=MGA_629;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MATSGFSKTILSATTVFFAGFLISFGLTIPGLVQNVVGGYYKNVYYSNSFENRELIGNAPLAKTSLSPTREVEYYEKSLIDSNNIFGSGITQISKNVSSFAPPADNSAIPQILLNPSQTEDNKLKAD;locus_tag=LOCUS_06290;note=MGA_629
sequence1	MetaGeneAnnotator	CDS	384921	385064	.	+	0	ID=MGA_630;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSVSSEEVNLDNQNSLIAVIASLLGNNINQLVGKAISIADIQKILE;locus_tag=LOCUS_06300;note=MGA_630
sequence1	MetaGeneAnnotator	CDS	385070	385375	.	-	0	ID=MGA_631;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFVAIFNLVYTLSTPGIYLLICQPNEKLLSLFSDLVTYCFIYDGVCAIIIFTICSFQSPSVTVEPGTKFVSNCGKPSVNNPDKSVIFCNLSSKFSNSGESE;locus_tag=LOCUS_06310;note=MGA_631
sequence1	MetaGeneAnnotator	CDS	385428	385616	.	+	0	ID=MGA_632;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKNERTKLFISDYQAKILEKLINGFDVTDSEIKDVSQFYDAKTLTIPVIANGQTDFVLNNE;locus_tag=LOCUS_06320;note=MGA_632
sequence1	MetaGeneAnnotator	CDS	385767	386048	.	+	0	ID=MGA_633;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEGLSASKFTHAPIFDQTGFNLINPKNTGDKIKLKNNAYGFYNLTSDPNSKEEKINFEMRPYYSFDNITMFIPELYKENFMKLKQSGNRDSKQ;locus_tag=LOCUS_06330;note=MGA_633
sequence1	MetaGeneAnnotator	CDS	386418	386633	.	+	0	ID=MGA_634;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSGYGISKYIPFNLQYEDYTKPSGSYNVNNVSVKTYQYFNPNDFNEKAKNNIDEVIYGENKLEKSIRPSM;locus_tag=LOCUS_06340;note=MGA_634
sequence1	MetaGeneAnnotator	CDS	386724	386957	.	+	0	ID=MGA_635;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNGNNYGSSTLEMKSTILLGQQKALITKLSSIILTVATVAICLLIIIMVLTITLINDLYVNQYKKFMIVMKSLGYSN;locus_tag=LOCUS_06350;note=WP_011166641.1 ABC transporter permease (Mycoplasma mycoides) [pid:40.0%25%2C q_cov:84.4%25%2C s_cov:3.7%25%2C Eval:6.3e-08%2C partial hit],internal stop codon at [386955:386957](+)%2C[387102:387104](+)%2C[387105:387107](+),MGA_635
sequence1	MetaGeneAnnotator	CDS	387008	387250	.	-	0	ID=MGA_636;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFLAHFFIFKEFYFIRIEGDFFLIFLVVIVIERKNEPNTRMIANIGVHQVKPNGIDPSFLLIILNRIAITVKLVNTPNA;locus_tag=LOCUS_06360;note=MGA_636
sequence1	MetaGeneAnnotator	CDS	387633	387854	.	+	0	ID=MGA_637;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNPGIENVKELLVKDYDYLEFLDKSPEELINYNHTFLALTIILICLKFNKNHFHYEGIHISAKFVDKMLAVDF;locus_tag=LOCUS_06370;note=MGA_637
sequence1	MetaGeneAnnotator	CDS	387921	388283	.	+	0	ID=MGA_638;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNGLSGKAIIKKGKQLYKENNNNSNFKKIIEILYLNDFSFFPNYSDIEEKYYKYDFLEGVTLETVQTMPLKSTLKILDIILEYQSFYKTNENKVIVHGDISPVNIIFDDNLIPIKVID;locus_tag=LOCUS_06380;note=MGA_638
sequence1	MetaGeneAnnotator	CDS	388849	388998	.	+	0	ID=MGA_639;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKLREVYLITFFIYFILIIILSLNIGELVNVIGSNQGYEQKIFFTLQL;locus_tag=LOCUS_06390;note=MGA_639
sequence1	MetaGeneAnnotator	CDS	389035	389271	.	+	0	ID=MGA_640;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVILNLKMYKGFLVLLISKLGLSIIFDFTLANNQVFNNSYVGLGVSTLITQTLLFLTSLMLISKAFGFKIFFNVKSFN;locus_tag=LOCUS_06400;note=MGA_640
sequence1	MetaGeneAnnotator	CDS	389446	389655	.	+	0	ID=MGA_641;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIPNVIFAINKSIVSTSNNLDYKKRVVLILEFQLIALISLLLSFAIFIPTYNSFTLFLSNNNSDLSERS;locus_tag=LOCUS_06410;note=MGA_641
sequence1	MetaGeneAnnotator	CDS	389974	390396	.	-	0	ID=MGA_642;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGTIKNLILITKIFKKDKSKDLFKENSSSKLIHNQQILEINIRTIRNVSKKFSSLIFKDKFSNENGFRLIYSKGFNSFGFKENVDLVICDVKNKVIETYSNFGPNKMTKYYDKAASIYVLANNMNQYLNIKQNDLLKIFK;locus_tag=LOCUS_06420;note=MGA_642
sequence1	MetaGeneAnnotator	CDS	390464	390622	.	+	0	ID=MGA_643;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKVAIFVANGFEDTEVVATVDVLRRAEKLFPKSFPVVDIVSINDSKQVKGA;locus_tag=LOCUS_06430;note=MGA_643
sequence1	MetaGeneAnnotator	CDS	390740	391039	.	+	0	ID=MGA_644;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNAIEKHAKENKVIAAICAAPEILGKLGLVDGIEVTHYPGCTANLEKAIKKPHISAIADKNFITGSSIGGALQFALQIVDHFTSTEKMLELHKTLVFNY;locus_tag=LOCUS_06440;note=WP_011166642.1 DJ-1/PfpI family protein (Mycoplasma mycoides) [pid:45.1%25%2C q_cov:88.9%25%2C s_cov:48.1%25%2C Eval:8.1e-16%2C partial hit],internal stop codon at [390620:390622](+),MGA_644
sequence1	MetaGeneAnnotator	CDS	391247	391429	.	+	0	ID=MGA_645;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSVFILITGYLKVDSKNYNFLNLLMIVIGCLIINTIVCLSINNFTNILDHVQNLFLGGRD;locus_tag=LOCUS_06450;note=MGA_645
sequence1	MetaGeneAnnotator	CDS	391454	391636	.	+	0	ID=MGA_646;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQPFIKYLNDFVNRTTGKFLFLSICLLFIFSSATTSLYKFGQVFTMFNLFYMITFYLIGA;locus_tag=LOCUS_06460;note=MGA_646
sequence1	MetaGeneAnnotator	CDS	391655	392077	.	+	0	ID=MGA_647;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEGIKKFLIPTLLLLLIYLPIMFYNINVVNYKISMSTSNVITYAISILLFLLFLSIPSYNNKFINYLGKLSLYVYLFHYITQIIIMEKLFNNQFLNFSPIFIRNIVYGLIILVATTIIAVPIEYCSTNFAKYSTQKIFNI;locus_tag=LOCUS_06470;note=MGA_647
sequence1	MetaGeneAnnotator	CDS	392297	392713	.	+	0	ID=MGA_648;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLTILAGLGIASSATTSVIACGNKSEPSVEENNDVSELINQFKKESSEIMDSFINSKKDKLLGLIDDNGVYNFFNRENIEKYGTDTNSESANLDDLTENLKDDIVTDFNNILKTIDLKSELNDLATKSDKFNVII;locus_tag=LOCUS_06480;note=MGA_648
sequence1	MetaGeneAnnotator	CDS	392819	393010	.	+	0	ID=MGA_649;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSTVINLKISIQFKNQDGNKENFDTTIPLVFTYTNDEVLLKSIDKIQKNIENDFLGTESKFT;locus_tag=LOCUS_06490;note=MGA_649
sequence1	MetaGeneAnnotator	CDS	393143	393823	.	+	0	ID=MGA_650;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFIKTKYLNEINIGLQFSNNNTPVISKNSITSKVEANNYDIFLNEKDGQNYKDINNSVLINLKENGNEINFKDYGKKSVNKEVYNILNKNLKIMYENYYKNFTNFLTESNYDGVNKKTNSVAVGKVSIDGLSLIINSNYKLPINTVSIKYSLAIDNNENNESNGENLIKDTSFGNAIYFNAIEGIKSFQNVFDTKKPTILNGTTQFETPFAFSGKVRDQEIEENI;locus_tag=LOCUS_06500;note=MGA_650
sequence1	MetaGeneAnnotator	CDS	394457	395020	.	+	0	ID=MGA_651;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDNKLLYLVLANQVSRIKILLSQYILIGLAILFNIIISVSLIIFFGYFLTDAFNLILRLNLAFFIYSFVSSLFLMSFILLLLLFSNIQFTTIICTLLISITFLSNIPRQFIESKESQGTIKFNYNNGQIYKISDLYDSFDLQKYVLNYKIKYPYLSYAINNFMVNENEFTKEEFILQETINKRINNF;locus_tag=LOCUS_06510;note=WP_008363812.1 ABC-2 transporter family protein (Mycoplasma feriruminatoris) [pid:35.8%25%2C q_cov:98.4%25%2C s_cov:31.4%25%2C Eval:6.9e-28%2C partial hit],internal stop codon at [395018:395020](+),MGA_651
sequence1	MetaGeneAnnotator	CDS	395027	395614	.	+	0	ID=MGA_652;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGVIENQETIITGSDLKIKNLPVGSNLTDLREFRADDAIEVELYLENTFISKEKLLEMIISTENTNLNLVLKDLSNFLENIENSLPNFQQFTSDYFEEFIFVNETKSKIYKDSKTKEAVFKKDYLTNLYKYNLNASASLQSGFTLKAGVTENTFVKNKLFFPLMLASRVLEEYFINYTSKYIVSTKYSVDTENDG;locus_tag=LOCUS_06520;note=WP_011183358.1 ABC transporter permease (Mesoplasma florum) [pid:27.9%25%2C q_cov:96.9%25%2C s_cov:32.1%25%2C Eval:2.8e-14%2C partial hit],internal stop codon at [395018:395020](+)%2C[395612:395614](+)%2C[395681:395683](+)%2C[395726:395728](+)%2C[395864:395866](+),MGA_652
sequence1	MetaGeneAnnotator	CDS	395960	396310	.	+	0	ID=MGA_653;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEINIRKFVKKFKANQIGELNLDINSNKITAILGSSGSGKSVLINSIIGSIRKFKGNIIINGTSRKKFTHYKINKLISFYTQTDFSLYSVNVVFFLRTMCIVLGIKKREREQKIEY;locus_tag=LOCUS_06530;note=WP_011183360.1 ATP-binding cassette domain-containing protein (Mesoplasma florum) [pid:46.5%25%2C q_cov:98.3%25%2C s_cov:11.9%25%2C Eval:1.8e-23%2C partial hit],internal stop codon at [396308:396310](+)%2C[396329:396331](+)%2C[396365:396367](+)%2C[396461:396463](+),MGA_653
sequence1	MetaGeneAnnotator	CDS	396485	396886	.	+	0	ID=MGA_654;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDYKKQGKTIIITVHNIDEISDIIDEYIILEGGKKIFAGTKEKLNIYSKYKLFIKDLFDVQKFREFLLEEDIMSFKYDNDENSLVIAVDNYRQINYLFLYLIKNNLPLNNLIKLPINMESIHKALENNELNK;locus_tag=LOCUS_06540;note=WP_011387452.1 ABC transporter ATP-binding protein (Mycoplasma capricolum) [pid:35.5%25%2C q_cov:93.2%25%2C s_cov:20.3%25%2C Eval:5.1e-18%2C partial hit],internal stop codon at [396308:396310](+)%2C[396329:396331](+)%2C[396365:396367](+)%2C[396461:396463](+),MGA_654
sequence1	MetaGeneAnnotator	CDS	396950	397402	.	+	0	ID=MGA_655;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSFFINYNMGANKLMNEDKFFTNKDEQELLTEIQNEILTSDEVYLIYPFISKTILNKISLTFDYCLKNKIIIKIISTTFDDLSQFNNLYELKKLVEKYSNIQIKIEDNLEKHSERIHIKAAIFKRKTNLDSAIIGSSNLTYKGMISGRE;locus_tag=LOCUS_06550;note=WP_011183211.1 DEAD/DEAH box helicase family protein (Mesoplasma florum) [pid:74.4%25%2C q_cov:88.7%25%2C s_cov:14.7%25%2C Eval:1.1e-49%2C partial hit],internal stop codon at [397400:397402](+)%2C[397472:397474](+),MGA_655
sequence1	MetaGeneAnnotator	CDS	397487	398797	.	+	0	ID=MGA_656;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDFSDVYQRDLLIQKVKENQDQKNSLQLTKIDSSTNYIKKNLYKFQKDIIDKLSYRRFQGKNKHLIVMATGTGKTLVSAFDFKRQIETVSKNLSILFLAHQREIVDQALKTYREVLNEPNFGEVLYDGKIISEKPLHLFATIQSLSNKIDNFSKEQFDILVFDEAHHMAANSFERTFNFFKPKQIIGLTATPEREDGKDIKKYFHNEFASELRLWDAINQKLLCSFDYYCIDDTSTDLQGIDINSDREIFRKINTDSRNELLYKTIEKYLGVYARPTALIFCVTIEHANIISNFLKQKNLKAECLTAENSKDRKKILYEFSTGRINYLCVVNIFNEGIDIPEINTIILLRPTNSKTVYLQQLGRGLRKTELKSKLEVYDLISNIDNKYDLTLGIRNLFNSKIIGTNFNSIKNGLPYNSTITLEKHTEQIILQSLKK;locus_tag=LOCUS_06560;note=WP_011183211.1 DEAD/DEAH box helicase family protein (Mesoplasma florum) [pid:72.9%25%2C q_cov:99.8%25%2C s_cov:47.8%25%2C Eval:3.1e-185%2C partial hit],internal stop codon at [397400:397402](+)%2C[397472:397474](+)%2C[398795:398797](+),MGA_656
sequence1	MetaGeneAnnotator	CDS	398897	399517	.	+	0	ID=MGA_657;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQDFYNVLDDLFLKTAREIINYSAKENNTSRNKNILKQFIFLDNYQIINYFLKRLKGQIDRKHIDLDFDNLLMTSFLYEITSIEKFLDLYPNYLEIKDLIEHFIENNKLIVEELILILEYKLKYEILIFEESNNKLLSINSTYTVKQCLSVIGRTNFLHYRDEMKVLTFQAGYLTFDNSKQVILADEDGNGYGKLTKYDQDNNKFY;locus_tag=LOCUS_06570;note=WP_011183211.1 DEAD/DEAH box helicase family protein (Mesoplasma florum) [pid:62.3%25%2C q_cov:99.0%25%2C s_cov:22.5%25%2C Eval:2.9e-68%2C partial hit],internal stop codon at [398795:398797](+)%2C[399515:399517](+),MGA_657
sequence1	MetaGeneAnnotator	CDS	399533	399721	.	+	0	ID=MGA_658;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSMEHKIIKDFSNEKIKKYLFLHDKQNYDQKNMFLKLYKFIGIGQFTKMQTENYLTAEFDVL;locus_tag=LOCUS_06580;note=WP_011183211.1 DEAD/DEAH box helicase family protein (Mesoplasma florum) [pid:57.6%25%2C q_cov:95.2%25%2C s_cov:6.5%25%2C Eval:3.2e-15%2C partial hit],internal stop codon at [399515:399517](+),MGA_658
sequence1	MetaGeneAnnotator	CDS	400548	400769	.	+	0	ID=MGA_659;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTDGAKLLDAIFEIVQDKKIDKDIVLEGIKEGFQKAYEKSFDPEATVRVDIDQNTGQVKVFKILTVVQKIEDE;locus_tag=LOCUS_06590;note=WP_011183189.1 transcription termination factor NusA (Mesoplasma florum) [pid:46.1%25%2C q_cov:100.0%25%2C s_cov:16.1%25%2C Eval:6.0e-14%2C partial hit],internal stop codon at [400767:400769](+)%2C[401043:401045](+),MGA_659
sequence1	MetaGeneAnnotator	CDS	400881	401045	.	+	0	ID=MGA_660;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQVGQIIKQKIREGEKNKIYQEFLSKNHEIVGGFVKDITENSYLVDINGSIIPI;locus_tag=LOCUS_06600;note=MGA_660
sequence1	MetaGeneAnnotator	CDS	401181	401384	.	+	0	ID=MGA_661;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=METEVPEISEGIVEVKSVAREPGHRAKIAVFSHEEGVDPIGSCVGASGSRIKNITKELNGEKIDVVL;locus_tag=LOCUS_06610;note=WP_010942231.1 transcription termination factor NusA (Geobacter sulfurreducens) [pid:66.2%25%2C q_cov:97.0%25%2C s_cov:16.9%25%2C Eval:4.9e-21%2C partial hit],internal stop codon at [401043:401045](+)%2C[401382:401384](+),MGA_661
sequence1	MetaGeneAnnotator	CDS	401409	401615	.	+	0	ID=MGA_662;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSLAPVKVISIDINEENNECFIVVPNEQLSLAIGKKGMAARLVANLVNMKINIFSLENAKEKDIEIK;locus_tag=LOCUS_06620;note=WP_011183189.1 transcription termination factor NusA (Mesoplasma florum) [pid:61.2%25%2C q_cov:98.5%25%2C s_cov:13.8%25%2C Eval:1.5e-14%2C partial hit],internal stop codon at [401382:401384](+)%2C[401613:401615](+),MGA_662
sequence1	MetaGeneAnnotator	CDS	401908	402177	.	+	0	ID=MGA_663;product=YlxR family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166544.1;translation=MSKDISLRKDAASNKMYPKIELIRIVKNKSGDIFIDNTKKANGRGVYIRPTIEAVEKVRKTKALERNLKTSLENEFYEKLLEEVKLNWD;locus_tag=LOCUS_06630;note=WP_011166544.1 YlxR family protein (Mycoplasma mycoides) [pid:45.1%25%2C q_cov:92.1%25%2C s_cov:86.3%25%2C Eval:3.1e-15],MGA_663
sequence1	MetaGeneAnnotator	CDS	402168	402476	.	+	0	ID=MGA_664;product=ribosomal L7Ae/L30e/S12e/Gadd45 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166543.1;translation=MGLNIDKLLGSIGMISSSGKLVYGEKLFDCIKQKKVKLVLTTSDMGKTQLKKINDKTNFYNIRVINNLFDSQQLNKAIGKSNIKSIGINDDNFVKLILKNIE;locus_tag=LOCUS_06640;note=WP_011166543.1 ribosomal L7Ae/L30e/S12e/Gadd45 family protein (Mycoplasma mycoides) [pid:44.8%25%2C q_cov:94.1%25%2C s_cov:97.0%25%2C Eval:1.9e-15],MGA_664
sequence1	MetaGeneAnnotator	CDS	402493	402696	.	+	0	ID=MGA_665;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKNIKQNNNKNQQSKNKSKAHSANLKNQLKQTTETGLIDGIFVYTEPLSIAEFAKKLNKGPAEIVK;locus_tag=LOCUS_06650;note=WP_011183192.1 translation initiation factor IF-2 (Mesoplasma florum) [pid:57.1%25%2C q_cov:73.1%25%2C s_cov:7.8%25%2C Eval:6.7e-10%2C partial hit],internal stop codon at [402694:402696](+),MGA_665
sequence1	MetaGeneAnnotator	CDS	402715	404358	.	+	0	ID=MGA_666;product=translation initiation factor IF-2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166542.1;translation=MVTQNQILSEEQMGELCIEFGYDFKKETTVTKENIFETFNEKDDPKDLTSKPPIVTIMGHVDHGKTTLLDSIRNANVTEGEFGGITQHIGAYQTTIKSNKITFIDTPGHEAFTEMRARGSEVTDIVILVVAADDGVMPQTEEAIDHAKAANVPIIVFVNKIDKQGADPNKVKMELMNYGIVAEEYGGDIPFIEGSAKGKLGLDTLLETILLISELKDLKANANKFARGTVIEAKLDKNRGPVATILVQDGTLKIRDIIIAGGTFGTIKDLENENKTKLNQVSPGQPAVIIGLNDVPKAGDKFIIVTEEKMARDIAKAQFEKQQNEARQKNQTFTLDSIKNKIESGELKSINIILKADTQGTVEAVRNSMLKISIEGVKINVIRATVGAISVSDVTLALASDALIYGFNVRPTSQVRQKAEEDGVEIRLHNIIYKLIEEIAEAATGMLDPIFEEKSLGEAQVRQLFRHSQVGTIAGCRIMSGVVPRSSKIHILRDGIVVYSGEISSLKNKKEDIKEAKEGQECGITIKNFNDLKENDIIEAYKVEEVK;locus_tag=LOCUS_06660;gene=infB;note=WP_011166542.1 translation initiation factor IF-2 (Mycoplasma mycoides) [pid:65.6%25%2C q_cov:100.0%25%2C s_cov:89.0%25%2C Eval:4.5e-208],MGA_666
sequence1	MetaGeneAnnotator	CDS	404361	404705	.	+	0	ID=MGA_667;product=30S ribosome-binding factor RbfA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166531.1;translation=MAKDIKIERTQSTILRELNLILQREFPDSEYLNSLTIHEVRLSNDMGHAKIFYSSMDVNSNKDAIKAEIDENLKEIRMILASKVEMRSVPELTFEFDKTLENANKIEKILKDIK;locus_tag=LOCUS_06670;gene=rbfA;note=WP_011166531.1 30S ribosome-binding factor RbfA (Mycoplasma mycoides) [pid:52.3%25%2C q_cov:93.9%25%2C s_cov:92.3%25%2C Eval:2.0e-22],MGA_667
sequence1	MetaGeneAnnotator	CDS	405085	405414	.	-	0	ID=MGA_668;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKMTDNNSQEQELIQTMESIDIDYEFSKLKKSNRHTRFKSETLKITLVSLLLSMSTAVSLINVIIPLYITGVNVGFVLKYFVIAISFQVVGIYWGMIIGLLDGLLQFLI;locus_tag=LOCUS_06680;note=MGA_668
sequence1	MetaGeneAnnotator	CDS	405512	405769	.	+	0	ID=MGA_669;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHSFFLDRIEDNYFEIVNDNFHHIKNVIKLKEDEQIFCIYKNEKYLCSIFSIRENSCKAKIISKIKSSKKNYKVNLILGIIREQK;locus_tag=LOCUS_06690;note=WP_011183200.1 16S rRNA (uracil(1498)-N(3))-methyltransferase (Mesoplasma florum) [pid:41.4%25%2C q_cov:100.0%25%2C s_cov:36.6%25%2C Eval:4.7e-11%2C partial hit],internal stop codon at [405767:405769](+)%2C[405884:405886](+)%2C[406007:406009](+),MGA_669
sequence1	MetaGeneAnnotator	CDS	406231	406530	.	+	0	ID=MGA_670;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKNSSKLVTADVEEINKELKKVYIDNKFKKFIDKNIYYLKNNLKDIIQIKTHGSYATGELYNFDKQLNIDLLAIKYVNRNMYKIYEQEIETREHFDDC;locus_tag=LOCUS_06700;note=MGA_670
sequence1	MetaGeneAnnotator	CDS	406768	406974	.	+	0	ID=MGA_671;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYNRTFTLDYVKTFRTLNKLLVKKLQILFYYVRIKFRNLLTRQERLFLKIAIMSEIQYDLTKSNHLQR;locus_tag=LOCUS_06710;note=MGA_671
sequence1	MetaGeneAnnotator	CDS	407257	407412	.	+	0	ID=MGA_672;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGSTTISIKKESQKYDNLELQIHSRTIYPTNKENGLFLIFLQYFTFEIERD;locus_tag=LOCUS_06720;note=MGA_672
sequence1	MetaGeneAnnotator	CDS	407843	408001	.	+	0	ID=MGA_673;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEADIVLKLTRDFKVANRLSSGLLVNLKRLINYTLKNEFNYTYDADYYLLR;locus_tag=LOCUS_06730;note=MGA_673
sequence1	MetaGeneAnnotator	CDS	408176	408385	.	+	0	ID=MGA_674;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNTYYFNQFNFEYEEIFDGISRYSINTNSTFKIPIDYLSSVKLFDTNLLEDKTYIQENLSNENGVSNTS;locus_tag=LOCUS_06740;note=MGA_674
sequence1	MetaGeneAnnotator	CDS	408877	408999	.	+	0	ID=MGA_675;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSLLGIVTLSASTGASVVACTSVFEKDDEDFETGSK;locus_tag=LOCUS_06750;note=MGA_675
sequence1	MetaGeneAnnotator	CDS	409144	409422	.	+	0	ID=MGA_676;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAGKDILTVNDGEFVFSPYADMGIVEDTAEYLMKEKGKSQATREAAEKGLVNNIVYNDLGQIAEDTSVITQDSEVTLGFMQNAADTGELVPM;locus_tag=LOCUS_06760;note=MGA_676
sequence1	MetaGeneAnnotator	CDS	409774	410031	.	+	0	ID=MGA_677;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLAAALKILIESDPKYDFQLSLVMSTKDGVALNEGFGANGEVHLNLIGDEIYPLYNFTKYLGMNFRLNLVTGYLTVPNDVNTNSD;locus_tag=LOCUS_06770;note=MGA_677
sequence1	MetaGeneAnnotator	CDS	410257	410538	.	+	0	ID=MGA_678;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFYISRDVPSEFIDNKLTGPAQADRNALDQNIRSGTGFEQFAYAKALNGTNSGEAVPITEVKDKQEIKNIGGIDYHEDIQANTSLDQLEIGGS;locus_tag=LOCUS_06780;note=MGA_678
sequence1	MetaGeneAnnotator	CDS	410749	410901	.	+	0	ID=MGA_679;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYEGNNMQSITTNVKDFDYLTLAFVQQVNNHGDYLDLSIAGTATGDEAYE;locus_tag=LOCUS_06790;note=MGA_679
sequence1	MetaGeneAnnotator	CDS	411283	411597	.	+	0	ID=MGA_680;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPTGLTSVGYRVMNIFVEEFKKAGLSQSDLPVVDLMLMDYGDPIYVQAIKDGLTNFDLAKQAVNATKNNLATSIESNYGKVSIGNQGLYKLIGATPMIGVNDTV;locus_tag=LOCUS_06800;note=MGA_680
sequence1	MetaGeneAnnotator	CDS	411679	411798	.	+	0	ID=MGA_681;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDDRGLDVHTKKPINKSLLTHGLAYLEEYDFARAFTGD;locus_tag=LOCUS_06810;note=MGA_681
sequence1	MetaGeneAnnotator	CDS	412068	412190	.	+	0	ID=MGA_682;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLNLLASTTLVVSAGGSVVACTNVMEAKDKTFETGDK;locus_tag=LOCUS_06820;note=MGA_682
sequence1	MetaGeneAnnotator	CDS	412395	412613	.	+	0	ID=MGA_683;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGIVEDTAEYLMKDKGKSQGTRDEAEKSLNGKNIIYNDLGEIAGNKNVITENSEITLGFMQNAADTGDLVPM;locus_tag=LOCUS_06830;note=MGA_683
sequence1	MetaGeneAnnotator	CDS	412968	413222	.	+	0	ID=MGA_684;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MASALKILIESDSSYDFQLSLVMSTKDGVALHPGFGDAGNNNLNLLGDEIYPLYNFTKYLGMNFRLNLVTQALTVPNDAHTDKD;locus_tag=LOCUS_06840;note=MGA_684
sequence1	MetaGeneAnnotator	CDS	413448	413729	.	+	0	ID=MGA_685;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFYISRDVPSHYEDNGLEGPAQADRNALDQNIRSGSGFKQFTYAEALNGKLSENEIPEEIRDKDEIISKLKAIDYKKDIQENKALDQLENGGS;locus_tag=LOCUS_06850;note=MGA_685
sequence1	MetaGeneAnnotator	CDS	413958	414092	.	+	0	ID=MGA_686;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQNITSSVNGLDHLTLAFVQQVNNHSNHLDLSIAGTATGDEAYD;locus_tag=LOCUS_06860;note=MGA_686
sequence1	MetaGeneAnnotator	CDS	414510	414788	.	+	0	ID=MGA_687;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIFVEEFKKAGLSEKDLPVVNLMLMDYGDPIYVQAIKDGLTNFDLARQAVNATKNNLATSIEKNYGKVSIGNQGLYKLIGATPMIGVNDTV;locus_tag=LOCUS_06870;note=MGA_687
sequence1	MetaGeneAnnotator	CDS	414870	414989	.	+	0	ID=MGA_688;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDDRGLDVHSKKPVNKSLLTHGLAYLEEYDFARAFAGD;locus_tag=LOCUS_06880;note=MGA_688
sequence1	MetaGeneAnnotator	CDS	415588	415872	.	-	0	ID=MGA_689;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRRKSDFYKKIENEFKIISEKEHLNSSGNPVSNLNTKMFYLLKHHFNSFEEFDQAIIEEISNTLQSLEEVIVKKALSFQALAKEAYNENINPQK;locus_tag=LOCUS_06890;note=MGA_689
sequence1	MetaGeneAnnotator	CDS	415988	416851	.	+	0	ID=MGA_690;product=tRNA pseudouridine(55) synthase TruB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166532.1;translation=MNGKSGVLLVRKPEGITSNDLIQNVKKKFNIKKIGHAGTLDPLATGLMVILINQATKISNYILSSDKSYIVTMKLFIHTDSQDITGKVVQEEEYRKISKSLVKEIVAKYNGYIYDQYPPIYSAVKVDGRKLYEYARKQQDVEIRPKKVTIKECSLIDFNQKLGTIKLNVRCSKGTYIRSLVSDFAKDLETIATVIQLERTSSGGLNLSEAKELEEIEQKDLMSMYDALMKNDHTLIEYHRIRDIKQGKAISLSGINYPIIFIINDSKDVMAIYKHIAHDLYKCQRGL;locus_tag=LOCUS_06900;gene=truB;EC_number=5.4.99.25;note=WP_011166532.1 tRNA pseudouridine(55) synthase TruB (Mycoplasma mycoides) [pid:47.7%25%2C q_cov:98.6%25%2C s_cov:96.9%25%2C Eval:3.0e-73],MGA_690
sequence1	MetaGeneAnnotator	CDS	416892	417638	.	+	0	ID=MGA_691;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDIMIKYQTFLKDNEVFDLKLKPNIVCIGFFDGLHKMHKKIFNKTKKIAKEEQMIWSIITFSEKVSDFLKGVKSSLESRNRKYQNIEKNYLPDYLFEINVNNESIKLTANQFCLFLKDKLNVKKVVVGDDFRFGYKGEGKVSDLQNFFGIDNIIVFKRVSNISTSLIKENLAKGEIKKVNSIIDENFTTTFKKTGEKLFLIEDYNIVIGNGQYLVVINGKTSQIQLENNAVILDNKEEILDIEFLKKV;locus_tag=LOCUS_06910;note=WP_011166533.1 FAD synthetase (Mycoplasma mycoides) [pid:32.2%25%2C q_cov:68.5%25%2C s_cov:94.0%25%2C Eval:1.5e-19%2C partial hit],MGA_691
sequence1	MetaGeneAnnotator	CDS	417760	418026	.	+	0	ID=MGA_692;product=30S ribosomal protein S15;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_198401953.1;translation=MVSKTQIENIVKEFGVNANDTGRAEVQIAILTQDIQNLTEHLNLHKKDITSRRSLLKKVAQRRHLLNFLFKKDVERYKTIIEKLKIRK;locus_tag=LOCUS_06920;gene=rpsO;note=WP_198401953.1 30S ribosomal protein S15 (Mesoplasma florum) [pid:67.0%25%2C q_cov:100.0%25%2C s_cov:98.9%25%2C Eval:6.0e-27],MGA_692
sequence1	MetaGeneAnnotator	CDS	418172	418411	.	+	0	ID=MGA_693;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MATAKTTTGKSTTAKKAGVKSTSAKKATAKKPKLSAVKKAASNKMRPEHIQTRKKASDPKPEKIINKDIKLNDSQQKFI;locus_tag=LOCUS_06930;note=MGA_693
sequence1	MetaGeneAnnotator	CDS	418994	419398	.	+	0	ID=MGA_694;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKIIVIVGPTASGKTDLSIKIAKEFNGECINSDSTQIFKGTDIATNKITTQEMQGIKHHLLSIKEVDESYSVAEFQKQAREKIAQILESNKTPIIVGGTGLYVNAVLMDYNFTSNDHIENYVDKYKDKSNEEI;locus_tag=LOCUS_06940;note=WP_002366931.1 tRNA (adenosine(37)-N6)-dimethylallyltransferase MiaA (Enterococcus) [pid:53.8%25%2C q_cov:87.3%25%2C s_cov:37.9%25%2C Eval:3.6e-32%2C partial hit],internal stop codon at [419396:419398](+),MGA_694
sequence1	MetaGeneAnnotator	CDS	419405	419812	.	+	0	ID=MGA_695;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLKDSLEAQKIHSNNRYRVIRALELIELTGMTKTKLIKDNKNYYYNNLLIIGISAKRVELYSKINNRVLSLIKKGLFEEIQLAYNANNLNKKAQSLKCIGGPEIIKYFEKEIDYDQCIELMQKNNRHYARRQLT;locus_tag=LOCUS_06950;note=WP_000504930.1 tRNA (adenosine(37)-N6)-dimethylallyltransferase MiaA (Bacillus cereus) [pid:36.6%25%2C q_cov:97.0%25%2C s_cov:40.7%25%2C Eval:4.4e-17%2C partial hit],internal stop codon at [419396:419398](+)%2C[419810:419812](+),MGA_695
sequence1	MetaGeneAnnotator	CDS	420086	420265	.	+	0	ID=MGA_696;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCFVSLATATQFAKACYCEGYKELSIRLKVEYENVMQNKIRADQPNQADMTGMRAVINN;locus_tag=LOCUS_06960;note=MGA_696
sequence1	MetaGeneAnnotator	CDS	420353	420706	.	+	0	ID=MGA_697;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYSAKFLEDVLTNVGIQTKIIDISINLEVGKHLEFNNELVIILLTGRDTDTTVLALEYLIKAKNDIFIITTPSNIAELPDIKEQKHMLINFQDNNFFYKYRCYALISLFFSLSEKIS;locus_tag=LOCUS_06970;note=MGA_697
sequence1	Aragorn:1.2.38	tRNA	420793	420866	.	+	.	ID=Aragorn_21;product=tRNA-Gly;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00200;note=Aragorn_21
sequence1	MetaGeneAnnotator	CDS	421180	421431	.	-	0	ID=MGA_698;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGIISPFLYASRVFSKSSIFLISLFLNKTLIKTKIGVAIITIATIARNLTNNHNPVLFIKLPNKIIVIKIKEINELKVNISVS;locus_tag=LOCUS_06980;note=MGA_698
sequence1	MetaGeneAnnotator	CDS	421744	421971	.	-	0	ID=MGA_699;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPGNILVNKNKIILIDYDYISLNNKFFDIASFISETLNDDEKMIKYFIKQCIEKELIYVDEIGILNSMIKYQDLL;locus_tag=LOCUS_06990;note=MGA_699
sequence1	MetaGeneAnnotator	CDS	422263	422433	.	-	0	ID=MGA_700;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFNGYTNKVKLEKDILKKQSVDFHNIYLDKENEYNFLKQLKDINQDILLAPLKFY;locus_tag=LOCUS_07000;note=MGA_700
sequence1	MetaGeneAnnotator	CDS	422545	422757	.	+	0	ID=MGA_701;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEMIPEMEIKSLNDLKEVIDIPENEPTFEENALFKARTLANLIEGIVVADDSGLSIKNLDNFPGIYSAR;locus_tag=LOCUS_07010;note=WP_011166792.1 RdgB/HAM1 family non-canonical purine NTP pyrophosphatase (Mycoplasma mycoides) [pid:48.5%25%2C q_cov:97.1%25%2C s_cov:34.0%25%2C Eval:5.8e-14%2C partial hit],internal stop codon at [422755:422757](+)%2C[422776:422778](+),MGA_701
sequence1	MetaGeneAnnotator	CDS	423115	423309	.	+	0	ID=MGA_702;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKINIILFEPEIADNVGAIMRTCSLTNSKLHLIEPFGFIFDKRNFARSSANNFEGCEYRRYDN;locus_tag=LOCUS_07020;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:5.7e-17%2C partial hit],internal stop codon at [423307:423309](+)%2C[423568:423570](+),MGA_702
sequence1	MetaGeneAnnotator	CDS	423352	423570	.	+	0	ID=MGA_703;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTRYGKKPISDFNFKEINNEIFIMFGRESTGIPKKILKENLGKCFRIPMVASGRSLNIANSVGIASYEVLRQ;locus_tag=LOCUS_07030;note=WP_011166791.1 tRNA (cytidine(34)-2'-O)-methyltransferase (Mycoplasma mycoides) [pid:65.3%25%2C q_cov:100.0%25%2C s_cov:39.8%25%2C Eval:4.6e-22%2C partial hit],internal stop codon at [423307:423309](+)%2C[423568:423570](+),MGA_703
sequence1	MetaGeneAnnotator	CDS	423673	424341	.	+	0	ID=MGA_704;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFSDFGFKKFINDALEEIGFVYPTKIQEKVIPLIKKHRPVIAQSHTGTGKTHSFLLPILNNIAYDESNKIQCLIVTPTRELARQIYENTKDILKFNDKGTVGLFVGGDDIEKSIQNVKTKQPTVVIGTPTRLKKMYEEGNLFITTAKYVVIDECDMIFDLGFIEEVDFMLSKINKDVNVSLFSATINNGLKPFLQKYLSNSIFIENKDANPTNKNIEHVLV;locus_tag=LOCUS_07040;note=WP_011183170.1 DEAD/DEAH box helicase (Mesoplasma florum) [pid:58.1%25%2C q_cov:99.5%25%2C s_cov:48.3%25%2C Eval:6.8e-74%2C partial hit],internal stop codon at [424339:424341](+)%2C[424453:424455](+)%2C[424558:424560](+),MGA_704
sequence1	MetaGeneAnnotator	CDS	424576	425040	.	+	0	ID=MGA_705;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAARGIDIDGVSHIISVDLPKDLDYYIHRSGRTGRNQYSGQSYVLFNSTNQHQIDELKSKGITFSNFKLANNQLVEINTVKKKKDFNANLPVNVETKKIIDKYKGQKVKPGYKKRRKAEVDKVKKDIRRKHIKESIAKIKKDKYKKRREELFEN;locus_tag=LOCUS_07050;note=WP_011183170.1 DEAD/DEAH box helicase (Mesoplasma florum) [pid:53.6%25%2C q_cov:99.4%25%2C s_cov:33.0%25%2C Eval:5.4e-42%2C partial hit],internal stop codon at [424339:424341](+)%2C[424453:424455](+)%2C[424558:424560](+),MGA_705
sequence1	MetaGeneAnnotator	CDS	425104	425439	.	+	0	ID=MGA_706;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDITERIKKLISAISYQVYEKETIFRLAMLALLGEESIFLLGKPGIAKSLISRRLKFAIKGGTNFEYLMSKFSTPEEIYGPIDLRLLKEGKYVRVVENYLPASNVGFLDEI;locus_tag=LOCUS_07060;note=WP_011815252.1 ATPase RavA (Yersinia enterocolitica) [pid:54.5%25%2C q_cov:98.2%25%2C s_cov:21.9%25%2C Eval:4.3e-28%2C partial hit],internal stop codon at [425437:425439](+),MGA_706
sequence1	MetaGeneAnnotator	CDS	426040	426213	.	+	0	ID=MGA_707;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNQIDLVNSQIGQTEAQFLRLTPYTDPFKGSIAGTYYFINFTDGGDKYKICFISAGD;locus_tag=LOCUS_07070;note=MGA_707
sequence1	MetaGeneAnnotator	CDS	426304	426669	.	+	0	ID=MGA_708;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVRAYKADQILFVNENKKYLLQNESPNEFNQQMNNLADNIAELEAKYKELSAKMFKEYKKYMNMNCIFFEEIYDEKIAQAFDTKTKKQLEEEAALEKQMKLNAKNNNMKNPIEDLDFKLEI;locus_tag=LOCUS_07080;note=MGA_708
sequence1	MetaGeneAnnotator	CDS	426688	427029	.	+	0	ID=MGA_709;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFDLDKPVSEIKKEIDKLRQKDIHNSEFLTFKKNHEYAAEQLDDKINNFYSASNLSTIKQIKLPEPIRKEIIYYNYISEYYDEVSFAQNLKLIQNKLVEFDSPFSTYIDTMN;locus_tag=LOCUS_07090;note=MGA_709
sequence1	MetaGeneAnnotator	CDS	427102	428355	.	+	0	ID=MGA_710;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTKRIVDYRMKAVEDLRYNYLVEIYSIIKNYGKYAKIYKTMYDVFGKVANIEDELRNQNIESIARFAEFLYKDPSILMIAEMLGRLNGEDDLMEINITEQVVTYPTEVKLPYNPEEIVGLTVSKDLERLLPMEFAALFDEDLEIIFYKKFVESQLQTFLFESNERVIEHEIEEVEYEAPIPLEQGKFIICIDTSSSMEGAGEYIAKALSIAISKVALKEYRDLVFVNFANQHVEEFTINGKNVNIQKMLEFLAKSFYGRTNAKPAFEKVIEKMHSEDFKRADLLFISDFMMEALPNSTRAKIADLKENYNRFHSLIVGTMPNVETQDIFDNVMYYDPNDPFATNQIVKSLNETLRDLRELKDEEVAYRDEQINNLNTIRDKKRFREKHLDDPKAKKFAKQKEKLKELEIKKQQINH;locus_tag=LOCUS_07100;note=WP_011106399.1 ATPase RavA stimulator ViaA (Vibrio parahaemolyticus) [pid:32.1%25%2C q_cov:68.3%25%2C s_cov:58.5%25%2C Eval:1.9e-35%2C partial hit],MGA_710
sequence1	MetaGeneAnnotator	CDS	428367	428735	.	+	0	ID=MGA_711;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFMLVKEKSNLLVIFLEHGEDLDQQIQSIIREYKLIDAKITGYGYLERLEYGVLSQIDPFFLSKLLKEGLITVTNLNGMIDNRESTIMVSSVDDKFDRHQGRLISGVVANSFNIILEIYKTE;locus_tag=LOCUS_07110;note=MGA_711
sequence1	MetaGeneAnnotator	CDS	428855	429184	.	+	0	ID=MGA_712;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNIQSKSKKIILILILSFVAFFPILTIIMTVPGMGIESLTFINSVEKQIKRIMPKNKFVFDPNHPLYEEMMENVIKPSFKADALSTINFEDSHEKEEFYLKYSNYSEE;locus_tag=LOCUS_07120;note=WP_011183223.1 hypothetical protein (Mesoplasma florum) [pid:43.8%25%2C q_cov:88.1%25%2C s_cov:31.4%25%2C Eval:2.3e-18%2C partial hit],internal stop codon at [429182:429184](+)%2C[429197:429199](+)%2C[429323:429325](+),MGA_712
sequence1	MetaGeneAnnotator	CDS	429326	429508	.	+	0	ID=MGA_713;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKSGGLKEIFSKNTYEMSLRQQTILDQSDYDDQMKYSGPGLNGIKIKHSVGTKIVNNKV;locus_tag=LOCUS_07130;note=WP_011183223.1 hypothetical protein (Mesoplasma florum) [pid:46.7%25%2C q_cov:100.0%25%2C s_cov:19.6%25%2C Eval:3.6e-11%2C partial hit],internal stop codon at [429182:429184](+)%2C[429197:429199](+)%2C[429323:429325](+)%2C[429506:429508](+)%2C[429626:429628](+),MGA_713
sequence1	MetaGeneAnnotator	CDS	429769	430944	.	+	0	ID=MGA_714;product=SGNH/GDSL hydrolase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183222.1;translation=MKKLLSLLTVVSFSISTVTSTVSCMPKQPSTTKTSPLKIGLDIDKSQTIDTTSDPKNHFGFTNYFIVGDSLSDVNGLTTYVKDKFVVNTNLDQFIDFNLTLGGAYGFEDENGVYNSAFSNGKTTGYLLSEKLNFGGMRASNKYSKLVNSKEGYGKNYSVGGATAGKTPDLTTGLVINDFSTEEQARALVKQQKIGSNDLVFFEIGGNDMFSLIQNQDSENEKALVEYMNESIKSIRATLFTLLNNGIKNILFMGPPIMDIVPRYLNREEKQDIVDLGKEYEIKINKVVNEVKSYYPDSLFYTSLYEGENDFPTIIKGYGEYIDKEIENEYNSTSPFAETNVVEINGNTTFTFNELKAIDYKKYIDELKESSTFEKTKLNVTLKAQPSNVNQ;locus_tag=LOCUS_07140;note=WP_011183222.1 SGNH/GDSL hydrolase family protein (Mesoplasma florum) [pid:44.9%25%2C q_cov:94.6%25%2C s_cov:84.4%25%2C Eval:8.1e-73],internal stop codon at [430942:430944](+),MGA_714
sequence1	MetaGeneAnnotator	CDS	431076	431429	.	+	0	ID=MGA_715;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLAIFGTSLLVVSPAFLVVSCTKKEKNIDDISLKTAVEQIGKSVYLTDTKKYNFNYQMNDILRTKRIKDISTIYGNDTYTKDDLSSYSRFDDLYNYYFDKNLFADNLSISENIN;locus_tag=LOCUS_07150;note=MGA_715
sequence1	MetaGeneAnnotator	CDS	431469	432506	.	+	0	ID=MGA_716;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLVTIPNLLDLLGNGKIFTFIFKLIEIAPSILVSLSDNYLVSYLNKILSKENSESFSNAFSNEPYTNFTNQEALNSSIIGLSNSIDFLLGNKNELKIPTKEQSQGEYFLNSISLLTNNLRSILKKEKTINLDLIIDLPAIAEVIRFARTLIVYITNGVDSIYKENQNQSGHNYFEEIEKFRNSVIEAKKNELNILNVFEFLDSTYEDGEGLKLIFALLFQSYKEPKLRAGKLTINVGAISDENIQVKGITPLLQASINAVFPTFYITEGLPSIVVSLLKILKIDKVNLASVTIDLLNSLVSGSNFKGIIDIMNHFLIINFIKNEQLKSKIESLKEIDEIYKNSL;locus_tag=LOCUS_07160;note=MGA_716
sequence1	MetaGeneAnnotator	CDS	432651	432851	.	+	0	ID=MGA_717;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKINNNQDFKGDFKIDFSNISQIVIDLRKILDLKNGIKTDINIKDFQSNLETLFVNLQGMKKLTS;locus_tag=LOCUS_07170;note=MGA_717
sequence1	MetaGeneAnnotator	CDS	433300	433815	.	+	0	ID=MGA_718;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVIQHLKYRGKFFIIATIGYGKANAAMAITYLMEEYPTLETVLNIDLALSTNDKFDTTDTVMATKFIYRDADLTVFKDIKYGQIVHEPEAYTFNTEFVTQVKNFKLGVSDGIVGTSDMLIYNSKQFKEMVDKYGQTIDVIDTEAGALAQIAKKSSVNFVAMKIMYNNALSP;locus_tag=LOCUS_07180;note=MGA_718
sequence1	MetaGeneAnnotator	CDS	433990	434160	.	+	0	ID=MGA_719;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MALFKSNVTSIISGLGPSLMLVDKKASKPEALDIVEVLKSKLDDEGPSKIILGEDE;locus_tag=LOCUS_07190;note=MGA_719
sequence1	MetaGeneAnnotator	CDS	434491	434751	.	+	0	ID=MGA_720;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYLNEQLAEVESPFAKIVVYCKVPAEGVAKLPVIITTKSKANQAVVFEGYSSKDQKTYTVVDITRNDYDPLKVGSFKVTVRLKNL;locus_tag=LOCUS_07200;note=MGA_720
sequence1	MetaGeneAnnotator	CDS	434846	435319	.	+	0	ID=MGA_721;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKKKNKLFFEENESITHILEDLLDLSLLKFDDNENKINTFKVPEINQNKAVTLNTTRAVTNLNKNVFKKEPMVPTPEVIDLHSIIEKARQKNNKFIKETGISNFIEPEQVILEKAKKQGKSAYDSDILRELILERQKKKRELMGLSSIINKAKTRK;locus_tag=LOCUS_07210;note=MGA_721
sequence1	MetaGeneAnnotator	CDS	435387	436007	.	+	0	ID=MGA_722;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENNLNDKIDDIQEATQEILQDDIVEFQSSEEKKSISKLAKELNKGGNIDGELLSNLENKIMSKREQKLLVQQYFKTKFIRDIAKIILAAFLITITFDYFITPTGRAGLFPAGAGAIARFFATLTFPNQDQVQLQSSFYFIYYFAINIPLFIFGYIKLGKRFTFTTFIFIIMQIGFDQIIQNIPFINPREFNLLVNYQLIGSMPGS;locus_tag=LOCUS_07220;note=WP_011183171.1 YitT family protein (Mesoplasma florum) [pid:43.4%25%2C q_cov:88.3%25%2C s_cov:34.6%25%2C Eval:5.1e-33%2C partial hit],internal stop codon at [436005:436007](+)%2C[436020:436022](+),MGA_722
sequence1	MetaGeneAnnotator	CDS	436023	436313	.	+	0	ID=MGA_723;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFVFAALGGFLLGFSYSIVYKIGSSTGGLDFLTVFLSNKTNKPVGSLNRKVNFIILAIVIILNTVIIPMSLINSDIKINILQSGNYYQDNSLLKSM;locus_tag=LOCUS_07230;note=WP_011183171.1 YitT family protein (Mesoplasma florum) [pid:47.4%25%2C q_cov:99.0%25%2C s_cov:18.3%25%2C Eval:5.7e-17%2C partial hit],internal stop codon at [436005:436007](+)%2C[436020:436022](+),MGA_723
sequence1	MetaGeneAnnotator	CDS	436848	437099	.	+	0	ID=MGA_724;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDPQVKINAIITKSVRGLFNYEIKKNDERDVIRTKIEKNELELEKIRQIAIVRAQKEHEKLHKKSQKRKSKSKKQENNDKKD;locus_tag=LOCUS_07240;note=MGA_724
sequence1	MetaGeneAnnotator	CDS	437083	437451	.	+	0	ID=MGA_725;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKKINFFKETSKFIKFISFFVYNYDYSGDLMKEENLKKIIYEMLDLKLTEIRKEFTRITLKDLYCYLKDVIFKNNKIVDLNDLSFFIMNIKINKVFEYLNISAILDKHNSIETDLKIILER;locus_tag=LOCUS_07250;note=MGA_725
sequence1	MetaGeneAnnotator	CDS	437451	438290	.	+	0	ID=MGA_726;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVNLNNKEKNISKKPKKPIVKSFAILIIICSLVLGIVFSNLKFSENIKLGSDFKGYYSALVSVGNLNEDESINGQPNGDSNEGAKALNERLNPMGNNQIIIEKAGKNFLKVLSPVDAYQNETIFKNQIQKNGGIVLLDSTENKYTDLQISAEESNKIERKGINDYFTGATSTFINESNSKNPAISYSLNGDNFKSLFPKAEEGGAGETREEGTLPLFILLDADGFYNDIRNYFNLIKGNKKDRIEEFFKVIVDPLRTFYDATNTSTKVKEVLYDLFYGQ;locus_tag=LOCUS_07260;note=MGA_726
sequence1	MetaGeneAnnotator	CDS	438339	438509	.	+	0	ID=MGA_727;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MARRNGSNDSLRDANSFLEVVDSFNYLAETSKYVYDSNAVTKDFETGGRYSQNVQL;locus_tag=LOCUS_07270;note=MGA_727
sequence1	MetaGeneAnnotator	CDS	438999	439205	.	+	0	ID=MGA_728;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGPETIICSFILVGLNIEIFSSLFENMKESYYLKQRGLKTSFNISIKETVGIALDLVVALLVPAMCMF;locus_tag=LOCUS_07280;note=MGA_728
sequence1	MetaGeneAnnotator	CDS	439230	439907	.	+	0	ID=MGA_729;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIMLAMGSFFTVLFTIVVGVILFKLVINSQLIANKSYLFALNTDFASQGKFFINYKIRKIESKIAKLNSNTKTIDKELISKLENNLKSLNEKLKEINLKDIEKNNKKQELSKAKLNKKIDLITQKIAKLNSEKDAKKIQALNFKVNELIFVRDDNTQNILEEEGQIITSTNEKLKIKTIERNIKNGTKFVSLFGVILLAVSLAFGLLFGLRFDNTFGGRTDYTL;locus_tag=LOCUS_07290;note=MGA_729
sequence1	MetaGeneAnnotator	CDS	440274	440486	.	+	0	ID=MGA_730;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFTQDLKQSAIIKKMFNNLGVDKNSNSTSGNGFITKAIKPATMLWSIKEIAISVLTIIGALVIYILIRFK;locus_tag=LOCUS_07300;note=MGA_730
sequence1	MetaGeneAnnotator	CDS	440502	441050	.	+	0	ID=MGA_731;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVSIVLAPLVVVAAITALQIPLGNVAIIAIVGSIFFTIISLFIIFGKARTLIASKDEKSLINFFKQEIEIIYDTKSVKKKMNDELFNLKNEMRLNIKTNNLPKEEKKKLKLEFKEIKHNKKIEFKKVKKANKIKINRVAKQNNYLSEVLVKTFKFGLVRCLLLISLYTILGVVLAASMSSI;locus_tag=LOCUS_07310;note=MGA_731
sequence1	MetaGeneAnnotator	CDS	441247	441759	.	+	0	ID=MGA_732;product=adenine phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166658.1;translation=MDINKYILDVHNFPIEGVTFKDITPLLNDKDAFKYVIDKMVEYVKEKKATVIVAPEARGFLLASAVAYAANCRFVLVRKPGKLPRKVKDVEYVLEYGKGHIQMHVGDLKENDNVVIVDDVLATGGTMKAIVELVNQEKAKVGGIVFLADLSFLHEPDLFKEFDSKSLITY;locus_tag=LOCUS_07320;EC_number=2.4.2.7;note=WP_011166658.1 adenine phosphoribosyltransferase (Mycoplasma mycoides) [pid:63.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.1e-59],MGA_732
sequence1	MetaGeneAnnotator	CDS	441890	442117	.	+	0	ID=MGA_733;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQSRASMSEQEFNFIECRDVEVLVSEMKKYIKNKKLIDEVKRAYFYAEEKHKNQKRKSGDPFIIHPLSTAYYLAQ;locus_tag=LOCUS_07330;note=WP_011183175.1 RelA/SpoT family protein (Mesoplasma florum) [pid:57.1%25%2C q_cov:84.0%25%2C s_cov:8.2%25%2C Eval:2.8e-16%2C partial hit],internal stop codon at [442115:442117](+),MGA_733
sequence1	MetaGeneAnnotator	CDS	442121	442780	.	+	0	ID=MGA_734;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGPKTIIAGLLHDVIEDTPVTFSEIEELYGVEVADIVEAVTKVSYFTKENREQMKANYLRKLFLSMIRDIRVIIVKIADRMHNLLTLQHMKPEKQKIIAKETLEIYSTIAHRIGMKNAKNLLEDYSFEYLNPKEFKRVKSLLEEDKSTRKEIIDEIIAEVNKKLKSGGISNAIIFGRSKTIYSIYRKLTQFGKSFSDIHDVLAVRIITEKQDDCYRILG;locus_tag=LOCUS_07340;note=WP_011166659.1 RelA/SpoT family protein (Mycoplasma mycoides) [pid:61.4%25%2C q_cov:100.0%25%2C s_cov:29.3%25%2C Eval:3.3e-73%2C partial hit],internal stop codon at [442115:442117](+)%2C[442778:442780](+)%2C[442958:442960](+),MGA_734
sequence1	MetaGeneAnnotator	CDS	443030	443377	.	+	0	ID=MGA_735;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFTRLMDLEKLASEAAELDYEEESQKIDLSGEVVEEAFKSDYLAPMIYILTPDGNVVNLPFGSTVLDFAYKIHTEVGNKTIGAKINGVFSPYNSTLNSGEMVEIQTSKDTNPHEK;locus_tag=LOCUS_07350;note=WP_011183175.1 RelA/SpoT family protein (Mesoplasma florum) [pid:48.7%25%2C q_cov:99.1%25%2C s_cov:13.6%25%2C Eval:1.1e-23%2C partial hit],internal stop codon at [442778:442780](+)%2C[442958:442960](+)%2C[443375:443377](+)%2C[443537:443539](+),MGA_735
sequence1	MetaGeneAnnotator	CDS	443378	443539	.	+	0	ID=MGA_736;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRFVRTSTARRAIEDYLNAEKIKEEAKEQITNQKIIRNVKREVDRYIIAHNLK;locus_tag=LOCUS_07360;note=MGA_736
sequence1	MetaGeneAnnotator	CDS	443708	443926	.	+	0	ID=MGA_737;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTRKYKSAKGRDDLRINGIEKVNCTLAQCCYPVPIEPVTSFMSKTKGIQVHRSDCLNITNIKRVKNLLETE;locus_tag=LOCUS_07370;note=WP_003977314.1 GTP pyrophosphokinase (Streptomyces) [pid:42.1%25%2C q_cov:77.8%25%2C s_cov:6.7%25%2C Eval:1.7e-08%2C partial hit],internal stop codon at [443924:443926](+),MGA_737
sequence1	MetaGeneAnnotator	CDS	443972	444211	.	+	0	ID=MGA_738;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTTYDRPGILLDIINVFNAQRVNLNEVKVISQEEDYSGKGSMIISVNSAEQLIVILKSLSEIPGVISVTRATSSENPMA;locus_tag=LOCUS_07380;note=MGA_738
sequence1	MetaGeneAnnotator	CDS	444564	445043	.	+	0	ID=MGA_739;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKLLNLLGAVGLVATTSATVIACGQDLEKPEVTIEKVIEDFKEDVNQIVQEHIAEISKNFFLVDQENSLSFFNKEKFSSYMGSNSEKNADDSIRESIIKDFNNIIELNLLKYKIELLQKKEKYSTILDNINVFNGVTLSSNEKINLATKISTVTQDKI;locus_tag=LOCUS_07390;note=MGA_739
sequence1	MetaGeneAnnotator	CDS	445185	445604	.	+	0	ID=MGA_740;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYSSISENFIKNEISKIYTENLILKNKTYLENVDEEILDYLNSNNYILNFINFVKSDFGVELKMSSNVAIKELVTTASYRSSTVKFDDQSELDFQKSFKDFLFEDGKKIEQFISSTQENFEKEMNSKIEENLNKINKNL;locus_tag=LOCUS_07400;note=MGA_740
sequence1	MetaGeneAnnotator	CDS	446061	446231	.	+	0	ID=MGA_741;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLYKPLIKINNKKMDLGTHNSSISSFYYNVIFELDYFKISLETFKTTNNITLFVEA;locus_tag=LOCUS_07410;note=MGA_741
sequence1	MetaGeneAnnotator	CDS	446833	446967	.	+	0	ID=MGA_742;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDSNGAGKSIFINEFLGFKLDLHQITIDGKDTFTKVKEIIYIAS;locus_tag=LOCUS_07420;note=MGA_742
sequence1	MetaGeneAnnotator	CDS	447614	447763	.	+	0	ID=MGA_743;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQVLITEIFSYDYNSKLVISSISEIIVANIKANFYIEAIQLKVVNIAIY;locus_tag=LOCUS_07430;note=MGA_743
sequence1	MetaGeneAnnotator	CDS	448523	448681	.	+	0	ID=MGA_744;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQISSLVEKGVRPEDPYLTIEQAMKIEQGANPEVVAQEAKAESDAREVINPI;locus_tag=LOCUS_07440;note=MGA_744
sequence1	MetaGeneAnnotator	CDS	448876	449580	.	+	0	ID=MGA_745;product=DeoR/GlpR family DNA-binding transcription regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166993.1;translation=MIREERLKLILDFVNEQDYCSNEKISKHLNIPFTTLRRDLTDLHNESKLKRVHGGAKTIREKSILEAFLDEKLLTNIDAKKNIANKALACIKPFETIFLDAGSTTFFLAEIIKPELNNKIYTNSIINAQILAKNGIKDINLLPGKLKISTRAICGVETISALSKYNFDLAFIGINAVDNEFNFFTTDEDEAEVKRIAIKNSQFSFGLADTSKNNSKSLVKFSDKSQIALINEEV;locus_tag=LOCUS_07450;note=WP_011166993.1 DeoR/GlpR family DNA-binding transcription regulator (Mycoplasma mycoides) [pid:47.4%25%2C q_cov:99.1%25%2C s_cov:100.0%25%2C Eval:1.6e-52],MGA_745
sequence1	MetaGeneAnnotator	CDS	449583	450461	.	+	0	ID=MGA_746;product=1-phosphofructokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183077.1;translation=MIYTLTLNPAIDHIVLANKKVELGVTNYYTDEYKVIGGKGINAGIILKNLQADIQAIGIMGQDNKDIFLNKFKEINLNNNFFVNEGSTRVNYKIKHLESKQETELNGMGFNTKKSVLKDLVQYLTVNLQKEDIVMLTGSVAIGIDKDIYKQIGKIANQKKAILICDATNELLKNVLKEKPFLIKPNLEEICSTLGIEFNENISFEETKELIKKLRKLGAQNVLLSMGSQGSLYFDSNNDIYKVGIAKGKLVNSVGAGDSMLAGFVYGKYKNLSIENTLQYAAASGAATAFNE;locus_tag=LOCUS_07460;gene=pfkB;EC_number=2.7.1.56;note=WP_011183077.1 1-phosphofructokinase (Mesoplasma florum) [pid:55.1%25%2C q_cov:100.0%25%2C s_cov:93.2%25%2C Eval:1.0e-87],MGA_746
sequence1	MetaGeneAnnotator	CDS	450534	450800	.	+	0	ID=MGA_747;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELKDLFSKQISFFNADLKSKDEVIEFLSNNLEKEKYIKSTDDFKAAVYKRESEGSTGVGDGIGIPHVLNPTVQKSAIAFVKLKNKVD;locus_tag=LOCUS_07470;note=WP_011183078.1 fructose-specific PTS transporter subunit EIIC (Mesoplasma florum) [pid:59.1%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 [450798:450800](+),MGA_747
sequence1	MetaGeneAnnotator	CDS	450837	451544	.	+	0	ID=MGA_748;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIMTNGKDGNEHLTALADLSGFLMKAEVQKKLRSAKSIKDVQNALTKEEQKVEKVEKSGSYDVIGITACPTGIAHTYMAQEKLEEYAKQKGLTVKIETQGRRGIENKLTQEDIDNAKVIILAHDKALEGLSRLNGKKVIDTNTKEAIFKGDQLIEKYKKGEGLTEVKASSDSSEVSEFTMRKFLDIKGNLLGGISRMLPFVVAGGIILGIAFLIDFAAGNGNAGGEFGTINPAAG;locus_tag=LOCUS_07480;note=WP_011183078.1 fructose-specific PTS transporter subunit EIIC (Mesoplasma florum) [pid:62.6%25%2C q_cov:97.0%25%2C s_cov:32.2%25%2C Eval:8.3e-73%2C partial hit],internal stop codon at [450798:450800](+)%2C[451542:451544](+)%2C[451725:451727](+)%2C[451737:451739](+),MGA_748
sequence1	MetaGeneAnnotator	CDS	451569	451727	.	+	0	ID=MGA_749;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSMMVPILGAFIAFSIVGSQGLMPGMVAGLFSSNILGFGYAYDGDGNPIMNG;locus_tag=LOCUS_07490;note=WP_011166991.1 fructose-specific PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:63.6%25%2C q_cov:84.6%25%2C s_cov:6.5%25%2C Eval:5.7e-09%2C partial hit],internal stop codon at [451542:451544](+)%2C[451725:451727](+)%2C[451737:451739](+)%2C[451833:451835](+),MGA_749
sequence1	MetaGeneAnnotator	CDS	451845	452015	.	+	0	ID=MGA_750;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKFPKGLQGARDIVFIPVLSLLSISLTMFVINIPLGFIMGGISLGISELAQLNLL;locus_tag=LOCUS_07500;note=WP_011166991.1 fructose-specific PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:62.5%25%2C q_cov:100.0%25%2C s_cov:8.3%25%2C Eval:6.5e-13%2C partial hit],internal stop codon at [451725:451727](+)%2C[451737:451739](+)%2C[451833:451835](+)%2C[452013:452015](+)%2C[452244:452246](+)%2C[452280:452282](+),MGA_750
sequence1	MetaGeneAnnotator	CDS	452040	452246	.	+	0	ID=MGA_751;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMCVDMGGPINKIAYSLGNLAVGGKLVTDINAAGNAFNDQTIIMASAMLAGMLPPLMVAMSTIIFPRA;locus_tag=LOCUS_07510;note=WP_011183078.1 fructose-specific PTS transporter subunit EIIC (Mesoplasma florum) [pid:50.0%25%2C q_cov:100.0%25%2C s_cov:8.4%25%2C Eval:7.9e-11%2C partial hit],internal stop codon at [451833:451835](+)%2C[452013:452015](+)%2C[452244:452246](+)%2C[452280:452282](+),MGA_751
sequence1	MetaGeneAnnotator	CDS	452286	452573	.	+	0	ID=MGA_752;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGACFVSEGAIPFMVKDPKRVAVSAMAGGALIGGLVGALKIKLLASHGGVFVFPLLSSSYLENGSMNGGSIALGAGSAVLIVLGASFISAMILGL;locus_tag=LOCUS_07520;note=WP_011183078.1 fructose-specific PTS transporter subunit EIIC (Mesoplasma florum) [pid:48.5%25%2C q_cov:98.9%25%2C s_cov:13.6%25%2C Eval:2.8e-16%2C partial hit],internal stop codon at [452013:452015](+)%2C[452244:452246](+)%2C[452280:452282](+)%2C[452571:452573](+),MGA_752
sequence1	MetaGeneAnnotator	CDS	452625	452828	.	+	0	ID=MGA_753;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKESILEKIESVKNNTKINNKEEKLTLLNKKLDNYSAFETELATKQKAYQAILEEKHKQREARKANK;locus_tag=LOCUS_07530;note=MGA_753
sequence1	MetaGeneAnnotator	CDS	452916	454151	.	+	0	ID=MGA_754;product=histidine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_164919785.1;translation=MIQKPRGTEDLIDLKVREYFALEMIIRNVVDSFNYNEIKTPIFESLELFKKGVGEETDIVSKEMFTFADRKNRELTLRPEGTAPTVRAILENKMYINENLPLKLFYFGSMFRYERPQAGRNRQFNQFGIEVFGPKTPEIDSEIICLSSTILNTIGIEEYTIHLNYLVNGEQRKQYISDLKKYLKPKSLCDDCKKRIQVNPLRVLDCKIDANKFDDVIDMKDYLNQSDKDYFQTLIDNLNNIGIKPIIDKKLVRGLDYYTGFVYEVKDKKGSTLLGGGRYDELVKQLGNVDLPASGFAIGMERLLIALEEEKIYISVPNSLDAYIIALSEKAKQFSNILLLMLRKAGLKVDFDFMNRSMKSAFKQSEKLNSKNIIIIGDNELKENNVIIKNQLTKTEKKVAFDKIVDALVGE;locus_tag=LOCUS_07540;gene=hisS;EC_number=6.1.1.21;note=WP_164919785.1 histidine--tRNA ligase (Mesoplasma florum) [pid:50.0%25%2C q_cov:100.0%25%2C s_cov:99.8%25%2C Eval:5.7e-109],MGA_754
sequence1	MetaGeneAnnotator	CDS	454255	454962	.	+	0	ID=MGA_755;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFIDLRDRYGVTQLVIDESKNLENIKSEYVLEVEGMVIERKSKNLEIKTGEIEIKVEKLTVINKSELTPFEIKDNIESQEDTRLTYRYLDLRREVMQKNLLTRSKMNQTIRNYFLKNNFIEIETPIFGKSTPEGARDFLVPSRLNEGKFYALPQSPQLYKQLFMISGLDRYFQIVKCFRDEDLRIDRQPEFTQLDMEMSFANDQDVMKSIEQLIKKIIFDIKGIKIKKPIRKIT;locus_tag=LOCUS_07550;note=WP_011166529.1 aspartate--tRNA ligase (Mycoplasma mycoides) [pid:65.3%25%2C q_cov:91.1%25%2C s_cov:37.6%25%2C Eval:2.7e-79%2C partial hit],internal stop codon at [454225:454227](+)%2C[454960:454962](+)%2C[455206:455208](+),MGA_755
sequence1	MetaGeneAnnotator	CDS	454972	455208	.	+	0	ID=MGA_756;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKYGNDKPDLRFGFEIETLNYLFKDTEIPLFSNIENKSIRAICINSMLTKKDLEELTEVAKQNSVNILAFAKYDLND;locus_tag=LOCUS_07560;note=WP_011183263.1 aspartate--tRNA ligase (Mesoplasma florum) [pid:57.1%25%2C q_cov:96.2%25%2C s_cov:13.3%25%2C Eval:1.6e-16%2C partial hit],internal stop codon at [454960:454962](+)%2C[455206:455208](+)%2C[455401:455403](+),MGA_756
sequence1	MetaGeneAnnotator	CDS	455476	455874	.	+	0	ID=MGA_757;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPADKSLEDFDTNKENALAKAYDIVLNGFEIGGGSQRITDPKIQQRMFDAIGLKKEEIDTNFGWFLNAYKYGAPYHAGCALGLDRICMLLTSSENIREVIAFPKNSSGIDNMTNAPDKVSTLQLDQLHIKLK;locus_tag=LOCUS_07570;note=WP_011166529.1 aspartate--tRNA ligase (Mycoplasma mycoides) [pid:68.5%25%2C q_cov:98.5%25%2C s_cov:22.6%25%2C Eval:5.6e-49%2C partial hit],internal stop codon at [455206:455208](+)%2C[455401:455403](+),MGA_757
sequence1	MetaGeneAnnotator	CDS	456444	456605	.	+	0	ID=MGA_758;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVLSYCIFAMIRGELRFNSGDYYFNESENVNLLYPYFFLDVHHVGPGGIPGIG;locus_tag=LOCUS_07580;note=MGA_758
sequence1	MetaGeneAnnotator	CDS	456834	457457	.	+	0	ID=MGA_759;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKRKYRNIKGYYTYNLITGIVAFLFSFLTLFSKYIISLNFKDENKTEVIVYNSFGKYLMGAYHTESIDIIFNTNIALLKIMSISLTSIFIIFTAIFFINKSIKKPFFTLKKLNNIYVFLTIINLISIIIIKSIMISQFISINKTLNNHILITNIPDYLSANMDLTMFITMSVVSIIITLSACLFNISVLKILNGSFKKENDKNKIN;locus_tag=LOCUS_07590;note=MGA_759
sequence1	MetaGeneAnnotator	CDS	457618	457947	.	+	0	ID=MGA_760;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGFDNKDNFRRSRSDGPQKQEGDRDRGGDRDRGGDRDRGGDRGGRSGGFGGRGGGRSGGFGGRGGDRGGRPNGGFGGQAGNSGRIENFEKPLLELLKEINEKLDLLLKK;locus_tag=LOCUS_07600;note=MGA_760
sequence1	MetaGeneAnnotator	CDS	458346	458831	.	+	0	ID=MGA_761;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKLLSLIGALGISSSTVAPAIIIQQNSNNIISTDIEQGSMRIDVKNEKHFDKDGKIILGTRDYKEVLIEAIDKQRAFNKENNVSNFDITDSITRFPGTAENGKIRVGRSLKELVNAKEYEVLSMEVTIAKSDNSGNYKYGINFEGLADGRLVTGDLYGYQ;locus_tag=LOCUS_07610;note=MGA_761
sequence1	MetaGeneAnnotator	CDS	458928	459233	.	+	0	ID=MGA_762;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNSNIYLPDLGIKFTALQIIEMFNYEKGDLNKQAITYINSTKNTKIDSINSLKLYKAIKKDNSFEKGEAILNNTIIDEEYFFVSFESKDAIGTFNMLVHK;locus_tag=LOCUS_07620;note=MGA_762
sequence1	MetaGeneAnnotator	CDS	459424	459648	.	+	0	ID=MGA_763;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSLMSSITLISSCSTTVVSCNFSNEKNDLNIVITQYNLSEIEDNKELTIINKLKELNSNLDINSIKIENI;locus_tag=LOCUS_07630;note=MGA_763
sequence1	MetaGeneAnnotator	CDS	459910	460080	.	+	0	ID=MGA_764;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQGIKFLQSKGKKVLISMGGATGSEMRFRSNQKNELKQTILNVVNEYGFDGLDID;locus_tag=LOCUS_07640;note=WP_164919783.1 glycosyl hydrolase family 18 protein (Mesoplasma florum) [pid:66.1%25%2C q_cov:100.0%25%2C s_cov:5.1%25%2C Eval:4.8e-16%2C partial hit],internal stop codon at [459895:459897](+)%2C[460078:460080](+)%2C[460267:460269](+)%2C[460294:460296](+),MGA_764
sequence1	MetaGeneAnnotator	CDS	460312	460590	.	+	0	ID=MGA_765;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDAEEKERLNLSTSYISNDEVSLRAEFYYLMTKYLTTKYSPQNDFYLIDPDRFVLGASTNEPAGRGAATEDAIKRSYKLLSEDGIYTKGLMT;locus_tag=LOCUS_07650;note=WP_164919783.1 glycosyl hydrolase family 18 protein (Mesoplasma florum) [pid:55.7%25%2C q_cov:85.9%25%2C s_cov:7.1%25%2C Eval:3.3e-20%2C partial hit],internal stop codon at [460078:460080](+)%2C[460267:460269](+)%2C[460294:460296](+)%2C[460588:460590](+),MGA_765
sequence1	MetaGeneAnnotator	CDS	460804	461184	.	+	0	ID=MGA_766;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILSLLSSMSLVAVGSSSVVACGGIDMGDVNDENHLVHHVLRTSLGMLENDKKDTIKEKIQELNPTVDASSYKVARVNKNKTALISAVKKGAYKGAMEVKFNLLGEPIKFEDKVLVGYYSDIND;locus_tag=LOCUS_07660;note=MGA_766
sequence1	MetaGeneAnnotator	CDS	461281	461484	.	+	0	ID=MGA_767;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPTFEPKNSLNIKNGIEILHQNDKKAIISMGGPLSTKMKFSTEQKDDLKTAILGIIDEYNFDGISID;locus_tag=LOCUS_07670;note=MGA_767
sequence1	MetaGeneAnnotator	CDS	461524	461676	.	+	0	ID=MGA_768;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDVLKEIKDEREQFIIALSATPDNLRLATEIGQAPSYIPFFKGLEGYYN;locus_tag=LOCUS_07680;note=MGA_768
sequence1	MetaGeneAnnotator	CDS	462308	462673	.	+	0	ID=MGA_769;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILSLLSSFSIVLAAPIAVVSCGFNMGDVTLKNHLVHHVSKTNLGFIESEDEEIIKLKIKELNSDLKMESIAITNIKNRIAVISGTEDGIYSGQLQIKFNLKGDQVRLEDRVLVGYYFD;locus_tag=LOCUS_07690;note=MGA_769
sequence1	MetaGeneAnnotator	CDS	462710	462976	.	+	0	ID=MGA_770;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKTNYNVINVSFLYSKKNFEMPKYSPQNPEGVKAGIKLLQSKGKKVLISMGGAPSSEMKFRANQKNELKQTILDIVDEYGFDGLDIN;locus_tag=LOCUS_07700;note=WP_164919783.1 glycosyl hydrolase family 18 protein (Mesoplasma florum) [pid:58.0%25%2C q_cov:100.0%25%2C s_cov:7.9%25%2C Eval:1.1e-25%2C partial hit],internal stop codon at [462671:462673](+)%2C[462974:462976](+)%2C[463166:463168](+),MGA_770
sequence1	MetaGeneAnnotator	CDS	463235	463489	.	+	0	ID=MGA_771;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKEDYIANDNEKYRAEFYYLMTKYLTTVYSKQNDYYLIDPDKFVLGAAANEIAASGAASKDSIKRSYRLLKKDKIYTKGLMS;locus_tag=LOCUS_07710;note=WP_164919783.1 glycosyl hydrolase family 18 protein (Mesoplasma florum) [pid:48.7%25%2C q_cov:92.9%25%2C s_cov:7.0%25%2C Eval:4.9e-16%2C partial hit],internal stop codon at [462974:462976](+)%2C[463166:463168](+)%2C[463487:463489](+),MGA_771
sequence1	MetaGeneAnnotator	CDS	463655	464176	.	+	0	ID=MGA_772;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILYEKWTVKIMKKLLYLIPSVFLISSTSTSVVSCGLFSKDKKDEIKELEDDIRITNLGEIENNQEVAIINKLKELNSQLKIDSIKLSNITETKALVSSNGDGVYKGNLEVSFSLEKDPIESIDKVLVGYYYEWGGPAQVKPSFEEMANTNYNVIDISFLYSPTPYTMPVFEP;locus_tag=LOCUS_07720;note=WP_164919783.1 glycosyl hydrolase family 18 protein (Mesoplasma florum) [pid:33.1%25%2C q_cov:72.8%25%2C s_cov:10.9%25%2C Eval:5.3e-13%2C partial hit],internal stop codon at [463487:463489](+)%2C[464174:464176](+)%2C[464357:464359](+),MGA_772
sequence1	MetaGeneAnnotator	CDS	464189	464359	.	+	0	ID=MGA_773;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQGIKLLQSKGKKVLISMGGATGSEMRFRSNQKNELKQTILNVVNEYGFDGLDID;locus_tag=LOCUS_07730;note=WP_164919783.1 glycosyl hydrolase family 18 protein (Mesoplasma florum) [pid:66.1%25%2C q_cov:100.0%25%2C s_cov:5.1%25%2C Eval:3.7e-16%2C partial hit],internal stop codon at [464174:464176](+)%2C[464357:464359](+)%2C[464546:464548](+)%2C[464573:464575](+),MGA_773
sequence1	MetaGeneAnnotator	CDS	464615	464869	.	+	0	ID=MGA_774;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLSVDLITNDDVALRAEFYYLMTKYLTTKYSRLNDFYLIDPDRFVLGASTNEPAGRGAATEQSIKGSYKLLSEDGIYTKGLMT;locus_tag=LOCUS_07740;note=WP_164919783.1 glycosyl hydrolase family 18 protein (Mesoplasma florum) [pid:54.5%25%2C q_cov:91.7%25%2C s_cov:6.9%25%2C Eval:3.0e-18%2C partial hit],internal stop codon at [464357:464359](+)%2C[464546:464548](+)%2C[464573:464575](+)%2C[464867:464869](+),MGA_774
sequence1	MetaGeneAnnotator	CDS	464901	465092	.	+	0	ID=MGA_775;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVMVNKFILKNEVLSHDIMKLIIKKKNNILTMLFLFLTYINGIFIIIDVRLFKLNKVIVNKK;locus_tag=LOCUS_07750;note=MGA_775
sequence1	MetaGeneAnnotator	CDS	465697	466719	.	+	0	ID=MGA_776;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRFKDNEEKKLIYNNKEYIINQKFISDILTYSDPVNDQQLRIQASLKFKEELKYKQHTYAKLYESIVKEEIESAKLVGMKSFKNNFFERDDFSITNFLNLINFTSKNSRAYYKYYEIIKRYLNLEKFYGTDSSLELFKLERKNYSIEEAQEIIKNSLKPMGEKYISNLEYCLSNNRVDYYEDKNKSTGAFTIGSYTYDSLISLNYTNDIDSISTLTHELGHAVHNLFAKQSQPRPLNSFSNMIAEVASTFNEHLLFDYLLEKEKDEKRKLILIQNRIEFIFSNFFSAIADAEFEYQCYKLSEKGEVLTLGKISEILRKANKKVLGNSVFDKYDNEVGKYS;locus_tag=LOCUS_07760;note=WP_011166436.1 oligoendopeptidase F (Mycoplasma mycoides) [pid:33.6%25%2C q_cov:98.8%25%2C s_cov:56.2%25%2C Eval:1.1e-56%2C partial hit],internal stop codon at [465499:465501](+)%2C[465547:465549](+)%2C[466717:466719](+),MGA_776
sequence1	MetaGeneAnnotator	CDS	467813	468100	.	+	0	ID=MGA_777;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLGKYDFNQENAEKIFKFYNPVLQIVLTLLNEQKSQLKQDNIISNDFDKLFNYFKNIKYLDQFKEFKDMFDFFYYDFLNKLILLNKDEIVDRHRY;locus_tag=LOCUS_07770;note=MGA_777
sequence1	MetaGeneAnnotator	CDS	468170	468427	.	+	0	ID=MGA_778;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKDKEVISLFDCFTEIKNLIINYCNTLIKQNFNKKFIKTLDDIKNANDFNIIENLSERIINMIEYDSLNDEKVHNILEVSSQKY;locus_tag=LOCUS_07780;note=MGA_778
sequence1	MetaGeneAnnotator	CDS	468852	469070	.	+	0	ID=MGA_779;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYYGRFLKYYYANSIKISDSDIEIIKNTLKLNGIQTTIYESLFIQNMLASTIMPSIYGASSDAEFFAESFSK;locus_tag=LOCUS_07790;note=MGA_779
sequence1	MetaGeneAnnotator	CDS	469437	469580	.	+	0	ID=MGA_780;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDSYTPASQTSIEEFNSFNENYYQSFDNLDKTLAAASKDKNNYSGV;locus_tag=LOCUS_07800;note=MGA_780
sequence1	MetaGeneAnnotator	CDS	469761	469964	.	+	0	ID=MGA_781;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MALILSPDFPLKNNDGSEMNEGTMGYTSTSYYIDKQNNFVSTAYSYIVITGPSLTFKEFNSQYKQGF;locus_tag=LOCUS_07810;note=MGA_781
sequence1	MetaGeneAnnotator	CDS	470707	470976	.	+	0	ID=MGA_782;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLTLFSVTSLFVSTSNMVISCEKEKVINFVLPEQPQSEEDIVDALDYYIDEKAKVDEIINSELVACSNCNENQKNQILLNSGEARQ;locus_tag=LOCUS_07820;note=MGA_782
sequence1	MetaGeneAnnotator	CDS	471022	471180	.	+	0	ID=MGA_783;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIFDCEELESKTSQIKYKRESTNSFDEYIKKSQDYNNLSKNTKKFMKEIQQ;locus_tag=LOCUS_07830;note=MGA_783
sequence1	MetaGeneAnnotator	CDS	471349	471504	.	+	0	ID=MGA_784;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDKNIVLLVILLILGIIPGIVYLLFHPQNKLIALIILLILAIIPGVLYLV;locus_tag=LOCUS_07840;note=MGA_784
sequence1	MetaGeneAnnotator	CDS	471881	472000	.	+	0	ID=MGA_785;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNWDIKFANKNNYSENEVILFVSVFKIVNTEGKDTKIKI;locus_tag=LOCUS_07850;note=MGA_785
sequence1	MetaGeneAnnotator	CDS	472935	473276	.	+	0	ID=MGA_786;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSILSTIAFTASTSSAVVSCNTKVDKVKDIDKIIKNKDLGKISNVSENILKNALKQNNPKVDTDKLALKDVDLFNGSATFVPKNKAIDYDGQAKVKFDFGNRKAESQYL;locus_tag=LOCUS_07860;note=MGA_786
sequence1	MetaGeneAnnotator	CDS	474135	474815	.	+	0	ID=MGA_787;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLEQVEISNIKEVSTKGITEEYTNYSAVVKAKENSYSYKGTVNINFYTLVLITNPDELSGVIETTQLGEISDNTDAAIFNALAEKNKNKNLDFGNLKVESKSATSAIIKAIDNSKVYSGSVSVNFVVKEIEKPSEKKLLSEDLTTLKLGEIKDAKDSTILEAVYSKNSKVQKGEVEVKNITTTGATIKSKFNSEFYQDSQVTIEYSLKENGEKPKPSNDALLVGY;locus_tag=LOCUS_07870;note=MGA_787
sequence1	MetaGeneAnnotator	CDS	474939	475151	.	+	0	ID=MGA_788;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPTFEPFNPGSKAEIQRGIKSLQAAGKKVILSMGGATGGEMRFREDQTDQLTATFIKYIDEYGFDGIDID;locus_tag=LOCUS_07880;note=WP_164919783.1 glycosyl hydrolase family 18 protein (Mesoplasma florum) [pid:55.7%25%2C q_cov:100.0%25%2C s_cov:6.0%25%2C Eval:6.2e-16%2C partial hit],internal stop codon at [474813:474815](+)%2C[474822:474824](+)%2C[474924:474926](+)%2C[475149:475151](+)%2C[475380:475382](+),MGA_788
sequence1	MetaGeneAnnotator	CDS	475248	475382	.	+	0	ID=MGA_789;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITMAPELPYLKYNTEHGNQASYIPFLKGLDGLYDFINPQYYNG;locus_tag=LOCUS_07890;note=WP_010906225.1 glycosyl hydrolase family 18 protein (Lactococcus) [pid:55.8%25%2C q_cov:97.7%25%2C s_cov:7.5%25%2C Eval:5.3e-07%2C partial hit],internal stop codon at [475149:475151](+)%2C[475380:475382](+),MGA_789
sequence1	MetaGeneAnnotator	CDS	476186	476404	.	+	0	ID=MGA_790;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKIDRVNKKFKNKEVLRDISFSLEKGKCYGLFGNNGVGKTTLTKIIFNELNRTSGEIYLDNIEQKNIDFKE;locus_tag=LOCUS_07900;note=WP_011024245.1 ATP-binding cassette domain-containing protein (Methanosarcina acetivorans) [pid:47.4%25%2C q_cov:79.2%25%2C s_cov:18.8%25%2C Eval:1.2e-09%2C partial hit],internal stop codon at [476402:476404](+)%2C[476552:476554](+),MGA_790
sequence1	MetaGeneAnnotator	CDS	476615	476923	.	+	0	ID=MGA_791;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLKPKIIFFDEPTANLDIKNKEIILNVIKKLKSENTIIVIITHLILEVQELIDHILMMDNGQITYDSNFKKNDDINEIFSKYSSGLSDDVKNSLEEYLNEK;locus_tag=LOCUS_07910;note=WP_000942282.1 ABC transporter ATP-binding protein (Leptospira) [pid:40.5%25%2C q_cov:72.5%25%2C s_cov:28.5%25%2C Eval:5.8e-09%2C partial hit],MGA_791
sequence1	MetaGeneAnnotator	CDS	477102	477377	.	+	0	ID=MGA_792;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVNSIVILFITIYYSLTILFNQILDNTYKLELRYGISKRNIFFTRVIFILTILFSFLFISLIKSICFYLFFAINHKADILVYRIYISVYA;locus_tag=LOCUS_07920;note=MGA_792
sequence1	MetaGeneAnnotator	CDS	477356	477544	.	-	0	ID=MGA_793;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILDEELRVEIIPKELTITSNITENRVAIVPIVDSFFNNIEIKIVTENTSKIKIVYQAYTEI;locus_tag=LOCUS_07930;note=MGA_793
sequence1	MetaGeneAnnotator	CDS	477510	477701	.	+	0	ID=MGA_794;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISTLNSSSRIKQLNNIAINFSYSNHQYQEIQKDDEILNLYLALQESEFMSMSMQEVMAGYNT;locus_tag=LOCUS_07940;note=MGA_794
sequence1	MetaGeneAnnotator	CDS	477948	478424	.	+	0	ID=MGA_795;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLAYKPEKLNTNPELEEKIKNNYNPDEYLFTRALMNKLYYKTSDRLFEKMRISMITTDDIIAAQNLENIKNIFNPLRHITLMFQSIDYQNEVLINQIGASQMLFSSLNNIKIYSNDSQVTIKTKRYLNIEILYVFYTLISLLLIFGSYSIFIKKNNY;locus_tag=LOCUS_07950;note=MGA_795
sequence1	MetaGeneAnnotator	CDS	478849	479244	.	+	0	ID=MGA_796;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEENLLTMFDGILDESNENKEMLLKAREESLKYYDNVKNNNLSLDKINSNLTEMSKKYENQYKNEITRVDTSTNKVNIDFFNYSNYFSNSKKVENYEDAKASLSKFSKDLAIAQNTLSTLAVVAGIAAAGF;locus_tag=LOCUS_07960;note=MGA_796
sequence1	MetaGeneAnnotator	CDS	480545	480727	.	+	0	ID=MGA_797;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEAVKKSAKQNSNINVQVYKTYLYNYQTSLGLTIPLLAYDNDIMSAINKIIEIESSNIY;locus_tag=LOCUS_07970;note=MGA_797
sequence1	MetaGeneAnnotator	CDS	480750	480929	.	+	0	ID=MGA_798;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILTAFTAFTLFASTSLSVISCETEKGFYFPDQPKNGEDIVNSLDNYIFEQERMQGI;locus_tag=LOCUS_07980;note=MGA_798
sequence1	MetaGeneAnnotator	CDS	481425	481556	.	+	0	ID=MGA_799;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKISNLVYVYKNRKVVDISKLIIKQGEKIAIVGLNGAGKLLL;locus_tag=LOCUS_07990;note=MGA_799
sequence1	MetaGeneAnnotator	CDS	481531	481878	.	+	0	ID=MGA_800;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGQENYSCRNYFKIEKTYEGEVIFDRNYISNAVFQDSNFISDINLREIFYLYCNLYSIKKSHFKYFQKFNLLDVENNKFKNISGGQQQKFKFLISLLNDPTLLILDEISTSLDYI;locus_tag=LOCUS_08000;note=WP_002680537.1 metal ABC transporter ATP-binding protein (Treponema denticola) [pid:33.7%25%2C q_cov:87.8%25%2C s_cov:45.8%25%2C Eval:1.4e-07%2C partial hit],internal stop codon at [481878:481880](+),frameshifted%2C insertion/deletion at around 481544%2C481589,MGA_800
sequence1	MetaGeneAnnotator	CDS	481912	482091	.	+	0	ID=MGA_801;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIKKEIILLLISHDPKEIASICNRVLFMKREKIIIDINLKGSYKQRQKDIEGLMKESI;locus_tag=LOCUS_08010;note=MGA_801
sequence1	MetaGeneAnnotator	CDS	482214	482567	.	+	0	ID=MGA_802;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIILIASLTCTIIPININLCTDKLEKRIKHYFIIDKAMKKYISALYVVNLIIFEVVSLIIFLLALIFFKINVDYKVILMFLTFRLISYTFGFIIAIILGSITNSINGITPLSMLVF;locus_tag=LOCUS_08020;note=MGA_802
sequence1	MetaGeneAnnotator	CDS	483429	484148	.	+	0	ID=MGA_803;product=ATP-binding cassette domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966816.1;translation=MIEIKNLTKIFKNGIGLHDINIKLNSGEITAILGPNGAGKSTLLKLIFREYKKDSGEIIYNIGNEDLKKFSFFTDHSLFPKNVSLNYFCMYNAQLSGIKSKDAKKRLEHLLKILDLEKYKNKSFKSLSAGMQKRAMLAATLINDPEFIFFDEPTANLDINSRKELINLIKNMKDKNKTIVITSHILDELQNIIDRVIIIDSGKIVLDKKYDKNKENLETLYFSIIKGQDESKSFDKLLE;locus_tag=LOCUS_08030;note=WP_010966816.1 ATP-binding cassette domain-containing protein (Clostridium) [pid:33.9%25%2C q_cov:94.6%25%2C s_cov:100.0%25%2C Eval:2.3e-33],MGA_803
sequence1	MetaGeneAnnotator	CDS	484168	484335	.	-	0	ID=MGA_804;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIYSSKNNCAISLCEILINNPKDKFNKIINNKNIELIAIKVFDLIILKIENLKDV;locus_tag=LOCUS_08040;note=MGA_804
sequence1	MetaGeneAnnotator	CDS	484661	485656	.	+	0	ID=MGA_805;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKLTLIFSSFFLGLLSLFHFFNAAVYDFESYNPEAAGSNNVEISNYDIYFNYYILDYKKNNKSENKLLLDLEEYNSENLNLKELLYYDGEENLECNELEKNELTCDVKKYYRYFLSYNSFYRSGGLFYDIDLFNKFNKEFLVNFANYRELKFNEDLIEKNILFKELYNFDIEKSKYDLFEKNNYLINSSNILIELKFYIKNLEKYFKNNQELNYYYSDLKKINNVILDMYEKGFYFKNELYFLSNSIGQVSKDDYNIFREDFISLSPIEKRQKVFELQDISNGKSVHQSILFYIINNYKGDKLYTNKVQKPNDYIPNFYKMSNYYTSPFL;locus_tag=LOCUS_08050;note=MGA_805
sequence1	MetaGeneAnnotator	CDS	487055	487309	.	+	0	ID=MGA_806;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILTLFTAFTLFASTSLSVISCETEKGFYLPDQPKNGEDIVNSLDNYHIEQERMEVISGKELDECKYCSKDEQNTIKLKSEA;locus_tag=LOCUS_08060;note=MGA_806
sequence1	MetaGeneAnnotator	CDS	487361	487522	.	+	0	ID=MGA_807;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTQLEYDYLESKKIPEETYIIITLSIFDDFVGYRQKDETLNNNTKEYILEIQK;locus_tag=LOCUS_08070;note=MGA_807
sequence1	MetaGeneAnnotator	CDS	487730	487966	.	+	0	ID=MGA_808;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKISNLVYLYKNRKVVDISKLIIKQGEKIAIVGLNGAGKTTLVEIILKLKKLMREKLFLIGTIYQMLFFKIQILFQI;locus_tag=LOCUS_08080;note=WP_011183542.1 ABC transporter ATP-binding protein (Mesoplasma florum) [pid:55.3%25%2C q_cov:60.3%25%2C s_cov:20.1%25%2C Eval:2.4e-07%2C partial hit],internal stop codon at [488101:488103](+),MGA_808
sequence1	MetaGeneAnnotator	CDS	489310	489489	.	+	0	ID=MGA_809;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILTLFTAFTLFASTSLSVISCETEKGFYLPDQPKNGEDIVNSLDNYFIEQERTRGI;locus_tag=LOCUS_08090;note=MGA_809
sequence1	MetaGeneAnnotator	CDS	489616	489777	.	+	0	ID=MGA_810;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTQLGYDYLESKKIPEQTYIIYNLSIFDDFVGYRQKDETLNNNTKDYILEIQK;locus_tag=LOCUS_08100;note=MGA_810
sequence1	MetaGeneAnnotator	CDS	489985	490440	.	+	0	ID=MGA_811;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKISNLVYLYKNRKVVDISKLIIKQGEKIAIVGLNGAGKTTLVEIILKLKKPYEGEVIFDRNYISNAVFQDSNFISDINLREIFYLYCNLYSIKKSHFKYFQKFNLLDVENNKFKNISGGQQQKFKFLISLLNDPTLLVLDEISTSLDYI;locus_tag=LOCUS_08110;note=WP_002680537.1 metal ABC transporter ATP-binding protein (Treponema denticola) [pid:37.7%25%2C q_cov:98.7%25%2C s_cov:67.8%25%2C Eval:4.6e-19%2C partial hit],MGA_811
sequence1	MetaGeneAnnotator	CDS	490474	490653	.	+	0	ID=MGA_812;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIKKEIILLLISHDPKEIASICNRVLFMKTGKIIIDINLKGSYKQRQKDIERLMKESV;locus_tag=LOCUS_08120;note=MGA_812
sequence1	MetaGeneAnnotator	CDS	490775	491128	.	+	0	ID=MGA_813;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIILIVSLTCTIMPISINLCSDKVEKRIKHYFIINKAMKKYISALYIVNLIIFELVSLIIFLLSFIFFKINVDYKVILMFLTFPLISYTFGFIIAIILGSIINSINGIIPLSMLVF;locus_tag=LOCUS_08130;note=MGA_813
sequence1	MetaGeneAnnotator	CDS	491479	491787	.	+	0	ID=MGA_814;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKLLGILSSISLLIAAVPVLVFEKNQITLEKNNNYLNSEYATINLDELNLKTGEVNLYAIRNKLDNEKKVTLKLLMDLSNSNKENKEFSLIIKSVAKNFED;locus_tag=LOCUS_08140;note=MGA_814
sequence1	MetaGeneAnnotator	CDS	491887	492516	.	+	0	ID=MGA_815;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLDNLLLSNESVAVKLSLTSVIKETRINKIKKLTKENLESKILFQNLQYGLETRDFSIDTINYEYAIVTVTKESKYSWQVEITYESVLEDIVRVEANLARSDVYNSEQSDFKTSAVEIDIDLGKEKLLEKFKYIDYNLGANYYTQGMGRFEYIVNKNNPETIEYEYKDKSHLKPSYEIIELIENTTINVFELTYKNVNWEKDQGSLITT;locus_tag=LOCUS_08150;note=MGA_815
sequence1	MetaGeneAnnotator	CDS	492492	492626	.	-	0	ID=MGA_816;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSDNDSLASALAQVVFQADAQTQVFTFNLISNLKSLNHVVIKDP;locus_tag=LOCUS_08160;note=MGA_816
sequence1	MetaGeneAnnotator	CDS	492891	493055	.	+	0	ID=MGA_817;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNYLFNKLETIYKINKNKFLDRKKYPKDDIKVFLKQKEIKNHCEIIESGECFN;locus_tag=LOCUS_08170;note=MGA_817
sequence1	MetaGeneAnnotator	CDS	493422	493766	.	+	0	ID=MGA_818;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFSDRLRNIVPITSRYNARNFYQKNPKVNFCKINPKVNLDEDSFHYCAQLEKIKSELNSLNSENNEIEISFNVPLNKKYLGILKPENMKSSFKMYFGKIKFLEKNKYKYYSVND;locus_tag=LOCUS_08180;note=MGA_818
sequence1	MetaGeneAnnotator	CDS	493969	494289	.	+	0	ID=MGA_819;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKLLSILSSISLLITSIPTLALENNQLILDEKEKDHLYSKYATINLDELNLKIGEVNLYTIRNKLDDEKEVTMFLLVELIKNNDNKDKEQEITELIKSIVKNFED;locus_tag=LOCUS_08190;note=MGA_819
sequence1	MetaGeneAnnotator	CDS	494308	495021	.	+	0	ID=MGA_820;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPLIEGSKTTGNLSMLYLGENNDIVGILNIENISLINKNKNTKYELSNIIRDTDINNISKLNKEILEENILQKNIKYGLKETYFSIQTITYESAIAKATEISHYSGFVIITFDDIFKNIKNTATELAQSDAYNSEQSNFKTSAIELDIDLGKNNFLNSYTYMDYSLNANYYTQGMGRFNYTINQTQIDPKYEAYKNTNHVKPKYKRINLNENTTINTFELMYKNVNQEKTFGTLTTR;locus_tag=LOCUS_08200;note=MGA_820
sequence1	MetaGeneAnnotator	CDS	495147	495692	.	+	0	ID=MGA_821;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKQAIFYSIITAIIPSTLAISCAPNIIIEPEFIAIPSKIVEQVYRNTIKDFENFLIGEYGNDINPKLDFYSFEYHIENKQIIKNTVNKLNYFFEINKRKFLQNVKYKADDIYFEVVKKEENYNCLTLDGKQCAFNNIYSLDENKIKIGDYHLGNFSIIIFSKLSDEFTYTKNIVYPVKNY;locus_tag=LOCUS_08210;note=MGA_821
sequence1	MetaGeneAnnotator	CDS	495891	496280	.	+	0	ID=MGA_822;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKSKSLIYKNLSNSFIDITPYNSKYNFKNFYKKNPNKGFCEITASENPEVDKFHYCGQFETIKNKLINHKISSKNNNIDMYINVNLNSDYLGILEPSITDFTYKFFFGSFLKLSENIFIYHFDNLFYE;locus_tag=LOCUS_08220;note=MGA_822
sequence1	MetaGeneAnnotator	CDS	497007	497543	.	+	0	ID=MGA_823;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKLFVKNDLIFNDGFNILEDMMNEEHFINRFKINNIINFKIKKQQIEIIFNEIFLDEKTNKIYCKIKIKFFNADSKNIEFNDFQNFFDKKNKYKLEKNNDNIIITFYKNINRYNDLENLNSKYVDQFNFVNTISIIPGLFSMRKMSNKNLHKKMIDIVKRDCLNLKNFNFFDSFPEG;locus_tag=LOCUS_08230;note=MGA_823
sequence1	MetaGeneAnnotator	CDS	497821	497970	.	+	0	ID=MGA_824;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCNCSNQTKSKIHFTVTDLNEERDNHYLNKKLLMHFQNPVKYFNEEDEI;locus_tag=LOCUS_08240;note=MGA_824
sequence1	MetaGeneAnnotator	CDS	499408	500013	.	+	0	ID=MGA_825;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012972550.1;translation=MKNDSNILLKNVIKNKILNDINISIIKGQTVAIMGYSGSGKTTLLNLMSGLDTPDSGTIIINGTTINLIKEPRLTEFRSKNISYIFQDYKLIEYLSINENITLIQDINKIKINKNKFDNICKKLNITNLLDKKVSQLSGGQKQRVAIARALIGDNDFIFADEPTGALDMMTRDVIIKELIENSKVFNKTLVVVTHDPMVAK;locus_tag=LOCUS_08250;note=WP_012972550.1 ABC transporter ATP-binding protein (Streptococcus mitis) [pid:50.0%25%2C q_cov:91.5%25%2C s_cov:76.2%25%2C Eval:6.9e-40],internal stop codon at [500011:500013](+),MGA_825
sequence1	MetaGeneAnnotator	CDS	500234	501199	.	+	0	ID=MGA_826;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGQTEDEFNTAGFAVIYFSMVLLISVIMVKITTNMNFELKRDQYYDLRILGFKNSQIRKIIFYENIIFILPFMILSYIISYPLSMLFIEQLKRDAIFSESFKLIINPIQIIIYILLATLFVLLLLFISTKKINIINTKKIITRKKEIISIIISTIISLFLLASSIGIYISGPTIDGATYLFGGLFLIASIAVIIKPLCKLIIYFLNIVFCKNKTTVFCLKEFEHSKNKLLNISIMYIITAFFASYSFSFLNFKSERPIAYLEIDPNEIYANGLAFLGKIIFIVVGVYSFAMSISSTAIFILENKNTYLSLMIMGYRTSNII;locus_tag=LOCUS_08260;note=MGA_826
sequence1	MetaGeneAnnotator	CDS	501778	502587	.	+	0	ID=MGA_827;product=SIS domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011167081.1;translation=MNIIDLIKENENELSPQERKVIFFIKDNLNNFNNISIKNISKQLNVQESVITKSLSKIGIGGFKKLKLLLEDSYYSIDDKLIEKKNIDIYFSKLIENINSFKKSFNSDSIIKLSNLITSINPEIIFFATGKTAKIIEPFFFNLLELNFKVKLETSLYNHEIYDVKNKLIIIFTISGNNSKVFRYLNLIKEKNALKIIGISTNESFANDLLDDHIFGTVKSFFTDNSRSTPLIEKYTIQLICDALLLMIISKSSVKNLEMREKISTKNKE;locus_tag=LOCUS_08270;note=WP_011167081.1 SIS domain-containing protein (Mycoplasma mycoides) [pid:36.2%25%2C q_cov:86.2%25%2C s_cov:93.2%25%2C Eval:1.6e-33],MGA_827
sequence1	MetaGeneAnnotator	CDS	502678	503253	.	+	0	ID=MGA_828;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKEIKKTKFKKFLTTLRSGLEQFGRAILVPVTVIPLLALIGSIGYAGQAIATEVGTYSGGTKIALDAIKNIGMIAITNIDFLVAIGLAAGLAKSEKVSAALSGIMAYAALHFAANLMLQVVYPEMLKNAKEYGLITRFGVISFQYSAFGGMVAGLIGYYIHKYTYKLKFPEFLSFFGGPRFSPVASTLVA;locus_tag=LOCUS_08280;note=WP_010890592.1 PTS transporter subunit EIIC (Borreliella burgdorferi) [pid:28.1%25%2C q_cov:88.5%25%2C s_cov:35.4%25%2C Eval:3.0e-18%2C partial hit],internal stop codon at [503251:503253](+)%2C[503281:503283](+)%2C[503323:503325](+),MGA_828
sequence1	MetaGeneAnnotator	CDS	503478	503702	.	-	0	ID=MGA_829;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSIGSVVPANADANIAEIIAPPATFRFSFGIHIYIANEAPPKLKIFVGNVPLTIQVSFAVIKTPSPNFAIATL;locus_tag=LOCUS_08290;note=MGA_829
sequence1	MetaGeneAnnotator	CDS	503590	503826	.	+	0	ID=MGA_830;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAMYMCIPKENRKVAGGAIISAMLASALAGTTEPIEFTFLFTAPVLYGLHIIFTGLTYMTMYICGFAQVSTRGSGIIT;locus_tag=LOCUS_08300;note=WP_011263611.1 PTS transporter subunit EIIC (Aliivibrio fischeri) [pid:47.4%25%2C q_cov:97.4%25%2C s_cov:14.2%25%2C Eval:1.3e-13%2C partial hit],internal stop codon at [503323:503325](+)%2C[503443:503445](+)%2C[503536:503538](+)%2C[503824:503826](+),MGA_830
sequence1	MetaGeneAnnotator	CDS	503842	504321	.	+	0	ID=MGA_831;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFKNIQNVWGLFIVGPIAGAIYFGSFYYLIKKFNYNTPGRDGEIAVMITKNNPIKDQENLENKDLKDKAKSNKKEQYDEEFILNIINGCGGKENIKIMANCITRLRVTLVDKDKFNAEIINKTNCYGIKDMGDQKQIIYGPRVTNIATKVREYLGVED;locus_tag=LOCUS_08310;note=WP_011948069.1 PTS transporter subunit EIIC (Clostridium) [pid:37.2%25%2C q_cov:92.5%25%2C s_cov:26.6%25%2C Eval:1.5e-18%2C partial hit],internal stop codon at [503824:503826](+),MGA_831
sequence1	MetaGeneAnnotator	CDS	504322	504819	.	+	0	ID=MGA_832;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPFAQITKNLYLGDQFSNKLDQPNMELKISNMYYDIFKKNYSNESNVFYNDYFVKTKNKLALNLLDSHDPDDFNDYKFALAIKFINENIKDNLIYTHCQLGVSRSASTIFIYLVICKILNQNNFEVALNEYIKKFYPYIKVNYGIYKYLKNNFPYTNVEKISKMT;locus_tag=LOCUS_08320;note=MGA_832
sequence1	MetaGeneAnnotator	CDS	505196	505375	.	+	0	ID=MGA_833;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGFIDLKYSELNIYNKKLNKLFKFNLGKQKILNLINRYFYLNHNSTLNTKKTKELLKQI;locus_tag=LOCUS_08330;note=MGA_833
sequence1	MetaGeneAnnotator	CDS	505560	505763	.	+	0	ID=MGA_834;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLISLIIFITVALILFAISLILIFINKNKKNINFKAESKNKSFIKFLPITLFCSGILVLFVGLATYI;locus_tag=LOCUS_08340;note=MGA_834
sequence1	MetaGeneAnnotator	CDS	506776	507510	.	+	0	ID=MGA_835;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011387629.1;translation=MIEIKNISKIFKKNKGIFNVSFSIKDGDLTGLIGDNGAGKTTLIKSIMGDYKLDEGEIIFFEKNKNFRLLIGYFPDQNNFPKSEKIYDYCEYILDLKKIKIKDIKTKFENLVSMLGLEEYINNTFEKLSSGMQKRALLIPLLLTEPRLIILDEPTENLDVNSRLEFLKLIKYLAIEFKIMILITSHNINELEDYINKIIFLKNGKICYENNFDKSKESLIDLYHKHLGAENENMVFDKLKEIKK;locus_tag=LOCUS_08350;note=WP_011387629.1 ABC transporter ATP-binding protein (Mycoplasma capricolum) [pid:33.8%25%2C q_cov:86.9%25%2C s_cov:92.3%25%2C Eval:1.7e-31],MGA_835
sequence1	MetaGeneAnnotator	CDS	507852	508490	.	+	0	ID=MGA_836;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTMLLSFYFINVLFFSFVKNIYFQINLLNQIIVLIGIISVDIFVSSIFIIVSQFKKQVTFGVIAGVFILVLPFNSFINLLTNLSNESYVTAENNIKYETTKRSHELYKSNSNFKLLVDQYSSLPSYLKLNNESQTYIIIDSEEDYAQFLADKGAFYFFSLYKEKFPYNRFYNFNEEEFKNNLIFQFIEQSNKLFELESVKPINNSSESIEEI;locus_tag=LOCUS_08360;note=MGA_836
sequence1	MetaGeneAnnotator	CDS	508740	508880	.	+	0	ID=MGA_837;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNPGVMIFEKGLLDIINAYYNVNKNYSHEINENNNEFAISQTKKLY;locus_tag=LOCUS_08370;note=MGA_837
sequence1	MetaGeneAnnotator	CDS	509799	510551	.	+	0	ID=MGA_838;product=MurR/RpiR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183323.1;translation=MIKSIREELIKISQSNVNDSSTIISKEIIKNYDNYIFLSQKELANKCFVSESLITYFAKKMNYTGYRELVSRLKLERDLYNMDNPIKLEDNSIGNYRQEFEKTLSSIDAQNLEIIKTIDFLKNAKRIFILSSYDQVNNAESLFNIMQIQGKDVHFSKYRKTNGYYVNELTEEDAAFFLVSGLDNNSLVNYYERLFKNNCKRIVVVSNSQAYKFKEPDSLIVIQNIEKHEIYETARSSYIYYLLNFILINI;locus_tag=LOCUS_08380;note=WP_011183323.1 MurR/RpiR family transcriptional regulator (Mesoplasma florum) [pid:35.9%25%2C q_cov:94.4%25%2C s_cov:94.4%25%2C Eval:4.2e-33],MGA_838
sequence1	MetaGeneAnnotator	CDS	510660	511154	.	+	0	ID=MGA_839;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKINLYAPCDGIIHPIEDLNDGVFSQKALGDGFFIEPITNTICSPLESATVSLIFETQHAFYIENKKTRLLIHIGIDTVALNGDGFKTAVTLNQKIKKNDILTSIDFELLEKRNLNKAIIVAIDSEKGESILHLKISKNQIKQGQLIGYLEVKKSPIKTEKSNL;locus_tag=LOCUS_08390;note=WP_011183215.1 glucose PTS transporter subunit IIA (Mesoplasma florum) [pid:40.3%25%2C q_cov:96.3%25%2C s_cov:18.1%25%2C Eval:1.5e-24%2C partial hit],internal stop codon at [511152:511154](+)%2C[511311:511313](+),MGA_839
sequence1	MetaGeneAnnotator	CDS	511584	511754	.	+	0	ID=MGA_840;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLFIGSKVGLEMIGIVFCYNTVKYLGGDPIMGIFLGIALTTRHFLGSGFGEGALN;locus_tag=LOCUS_08400;note=WP_011182930.1 glucose PTS transporter subunit IIA (Mesoplasma florum) [pid:49.1%25%2C q_cov:98.2%25%2C s_cov:6.4%25%2C Eval:2.7e-11%2C partial hit],internal stop codon at [511311:511313](+)%2C[511422:511424](+)%2C[511530:511532](+)%2C[511752:511754](+)%2C[511890:511892](+),MGA_840
sequence1	MetaGeneAnnotator	CDS	511893	512072	.	+	0	ID=MGA_841;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPGAVDIVFRPAIVFMTAFVATLFIIGPITGIIEQLLGQSVIAIGDLPIGLGVAIFCGF;locus_tag=LOCUS_08410;note=WP_011183209.1 PTS glucose transporter subunit IIA (Mesoplasma florum) [pid:46.4%25%2C q_cov:94.9%25%2C s_cov:6.6%25%2C Eval:1.7e-08%2C partial hit],internal stop codon at [511752:511754](+)%2C[511890:511892](+)%2C[512070:512072](+),MGA_841
sequence1	MetaGeneAnnotator	CDS	512079	512435	.	+	0	ID=MGA_842;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVLTGVHIAVANAVKFPIMANQGSSMLAAGFGIAILAQFGACIGVFLRTRDQKLKQAAVGAMPSIIFGISEPTIFGVNLPKIRPFVCGSIAAFFGGMLSGILKLDADVIGGGGFLQIM;locus_tag=LOCUS_08420;note=WP_011182930.1 glucose PTS transporter subunit IIA (Mesoplasma florum) [pid:45.0%25%2C q_cov:100.0%25%2C s_cov:13.9%25%2C Eval:3.1e-23%2C partial hit],internal stop codon at [511890:511892](+)%2C[512070:512072](+)%2C[512433:512435](+)%2C[512568:512570](+),MGA_842
sequence1	MetaGeneAnnotator	CDS	512631	513050	.	+	0	ID=MGA_843;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDKEKNIIVDLNNNKKEYYKYEKLKLEEIKLKQKLENSAAGKINNKNFENKINDIKVNLKEQEIVINDFNKKMIKVIDNYLTEISYVSKNNELLILRNDYLNSLNSLFNIYNNREKMESHLEVTNLNFKNKLLYVFRK;locus_tag=LOCUS_08430;note=MGA_843
sequence1	MetaGeneAnnotator	CDS	513575	513796	.	+	0	ID=MGA_844;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGIKRPQNCNVLKHVFQMNHNITVAQALVMEECHKRFDSKVKIGTAPNISSIYPASCKPEDIVASKNIAVLRN;locus_tag=LOCUS_08440;note=WP_010890696.1 glycoside hydrolase family 1 protein (Clostridium) [pid:50.7%25%2C q_cov:100.0%25%2C s_cov:15.4%25%2C Eval:2.7e-14%2C partial hit],internal stop codon at [513290:513292](+)%2C[513446:513448](+)%2C[513527:513529](+)%2C[513794:513796](+)%2C[514073:514075](+),MGA_844
sequence1	MetaGeneAnnotator	CDS	513869	514075	.	+	0	ID=MGA_845;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFEIRQGDMEIIKKANPDFIAFNYYTTTTVKMNEKIDNYKLPDQERVFGFPGFGQTVSNANLAKTQFG;locus_tag=LOCUS_08450;note=WP_011183210.1 glycoside hydrolase family 1 protein (Mesoplasma florum) [pid:52.9%25%2C q_cov:97.1%25%2C s_cov:14.5%25%2C Eval:4.9e-13%2C partial hit],internal stop codon at [513794:513796](+)%2C[514073:514075](+),MGA_845
sequence1	MetaGeneAnnotator	CDS	514910	515410	.	+	0	ID=MGA_846;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKISLLNLLLLSNPVLTSVNNVCIENENIYSSKNEYLTNNSKVLENHIEENLKMSHSYLVPTGYFLKSGEKYKIKLNKKVSESDNIGISIGQNGRYDNSNLVSGFQHFLIDKESDEIEFVADRDGVLYIYDNLGNRTYSLKTISGNNFIKIPTYILGKTNLNEFL;locus_tag=LOCUS_08460;note=MGA_846
sequence1	MetaGeneAnnotator	CDS	515798	516133	.	+	0	ID=MGA_847;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLEVTVNLSALYIQENLGIGLSIDNASNQKRVKEYLSKPNEEKDFQSIRDLTQSLTMFYQLQTSFGPKFYPYLSQFYRAQFLVEKDFDKINKYIYMTSFVSGYNLSKFFDE;locus_tag=LOCUS_08470;note=MGA_847
sequence1	MetaGeneAnnotator	CDS	516609	516821	.	+	0	ID=MGA_848;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVLENELMTDIIIKNIMRLIFMMKRENYLKMKLLKEMNQLLNINQQIFEKMEWTIKKVIGLNYQLEKIIK;locus_tag=LOCUS_08480;note=MGA_848
sequence1	MetaGeneAnnotator	CDS	516764	516946	.	+	0	ID=MGA_849;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDYKEGYRIELSVGENHKMTYYSDVNKSMTFKQLSPKAQYENYVFKINNGDILFDSYYIK;locus_tag=LOCUS_08490;note=MGA_849
sequence1	MetaGeneAnnotator	CDS	517270	517488	.	+	0	ID=MGA_850;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKILSLLGEISLVISSSSSVVSCFDTRPIIDHTFKDEFVIFDLGTISGNEDIPSIEIIYNAITKAHENVVD;locus_tag=LOCUS_08500;note=WP_011183507.1 lipoprotein (Mesoplasma florum) [pid:59.7%25%2C q_cov:100.0%25%2C s_cov:19.9%25%2C Eval:2.6e-17%2C partial hit],internal stop codon at [517486:517488](+)%2C[517492:517494](+),MGA_850
sequence1	MetaGeneAnnotator	CDS	517516	517701	.	+	0	ID=MGA_851;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFVNEPTIKLCTIRVMEGRDQPTLTGEVQFTYTYKKIEKSEMNFYSSGQKDNFIKRDATME;locus_tag=LOCUS_08510;note=WP_011183507.1 lipoprotein (Mesoplasma florum) [pid:58.3%25%2C q_cov:98.4%25%2C s_cov:16.6%25%2C Eval:2.7e-14%2C partial hit],internal stop codon at [517486:517488](+)%2C[517492:517494](+)%2C[517699:517701](+)%2C[517732:517734](+)%2C[517843:517845](+)%2C[517891:517893](+)%2C[517894:517896](+),frameshifted%2C insertion/deletion at around 517944%2C517746,MGA_851
sequence1	MetaGeneAnnotator	CDS	518602	518865	.	-	0	ID=MGA_852;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIITSVDDSLTFINSTIFIFKTFLISSNDIILLKVIFLFNNKKLSSLSKDILQNLILNERSLKLILNSLFISMALIFLLNNNLQNK;locus_tag=LOCUS_08520;note=MGA_852
sequence1	MetaGeneAnnotator	CDS	518774	519082	.	+	0	ID=MGA_853;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLDEIKKVLNINIVEFINVNESSTEVIINTIICSKNELFGNYKSKITYLKMYDFEITKKIFGLYSQKKYNKNNFLETYKIYIENDINTIKDLLILQNSALN;locus_tag=LOCUS_08530;note=MGA_853
sequence1	MetaGeneAnnotator	CDS	519561	519884	.	+	0	ID=MGA_854;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNEDIKQELDKIKIFKKNNEKLDKSNKKIYFIINFIILICIYIAISFIIIFVSLSMESQLFLLLAEILIAPIFLLIAFIFSFFISFHKRYKLNRINKKISQLENIN;locus_tag=LOCUS_08540;note=MGA_854
sequence1	MetaGeneAnnotator	CDS	520077	520433	.	+	0	ID=MGA_855;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDEELKYVQLTQKIYFNRKLSNSEINRIFKGKENNIIVDRNTLKTTKITRIINLCLEVELIKYSKNYKNKYLISYGAYLNSLIFGLHLQKNYKKINYVEHYKTIILNDISILEKILKY;locus_tag=LOCUS_08550;note=MGA_855
sequence1	MetaGeneAnnotator	CDS	521231	521434	.	+	0	ID=MGA_856;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIFFIDQFHTRYNIGYTEGLKSDLKSKNELDFSADDSTIGLGEYISICSLFNYFHTTKKLKYFTDQ;locus_tag=LOCUS_08560;note=MGA_856
sequence1	MetaGeneAnnotator	CDS	522008	522199	.	+	0	ID=MGA_857;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDEWYSTPLSKGLIELTDSIKNITFSNSEALILQSNQALKKYIDKENLIFNEDIFYKFNYYES;locus_tag=LOCUS_08570;note=MGA_857
sequence1	MetaGeneAnnotator	CDS	522590	523021	.	+	0	ID=MGA_858;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLNILGGALFATSSATVTMNTVSCEKEYTKDDFEKLVKEISNLDESKYTEESIAYLFKILEETTSEVNEGKNINVNYTKLKKAFESLVLKETENGELKEYKLKDLFDNSLFEGDAIKLNIVFDSQLDYENRTKDNSAIRN;locus_tag=LOCUS_08580;note=MGA_858
sequence1	MetaGeneAnnotator	CDS	523075	523242	.	+	0	ID=MGA_859;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEKEFKDNTSTLEKELDIEHETNFEITKNLISEIEKAQVKSGSIKIKYKFSIKS;locus_tag=LOCUS_08590;note=MGA_859
sequence1	MetaGeneAnnotator	CDS	523278	523487	.	+	0	ID=MGA_860;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLTFLSVTMLSTSSVEATFATVSCGETFTRDDLNKLLKEASKIDRTKYTKESYSNMQLAFLEATSA;locus_tag=LOCUS_08600;note=MGA_860
sequence1	MetaGeneAnnotator	CDS	525156	525491	.	+	0	ID=MGA_861;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKLLSILGSIGLLASTGVTVTACNPKQEKLIIPAFPATVEEAQKIISDLSKPYALTKLEINKLKAKENSDNLTEILNLIIKNKFNEYESIIYASIFKIVELEGNESEIKI;locus_tag=LOCUS_08610;note=MGA_861
sequence1	MetaGeneAnnotator	CDS	525510	525674	.	+	0	ID=MGA_862;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNVEEIEISINVYLKDSENDLFYSLEKNINSKTTFPNEVIGREKMINNLKDIRK;locus_tag=LOCUS_08620;note=MGA_862
sequence1	MetaGeneAnnotator	CDS	526926	527267	.	+	0	ID=MGA_863;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKLLAILGSIGLLASTSVTVTACNPKQEKFIIPAFPETVEEAQKIISDLSKPYALTELEITKLDEEEEEEFDNLSKILNLIIKNKFNEYESIIFASIFKIVELEGMESKIKI;locus_tag=LOCUS_08630;note=MGA_863
sequence1	MetaGeneAnnotator	CDS	527286	527450	.	+	0	ID=MGA_864;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVEEIETPINEYLTPSEDTFFYYLEQNINSKMIFPNDVIGREEMINNLKDIRK;locus_tag=LOCUS_08640;note=MGA_864
sequence1	MetaGeneAnnotator	CDS	528496	528702	.	+	0	ID=MGA_865;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAEILEIIKSGKNILVDFESFNLSPEIKNIPLVFGYSQLEFNKNKSFFFMKEYKSIFIPYKIKNPENF;locus_tag=LOCUS_08650;note=MGA_865
sequence1	MetaGeneAnnotator	CDS	529842	530183	.	+	0	ID=MGA_866;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKLLAILGSIGLLASTSVTVAACNPKQEKFIIPAFPETVEEAQKIISDLSKPYALTELEITKLEEEEEEEFDNLTEILNLTIKNKFNEYEAILFASIFKIAELEGMESKIKI;locus_tag=LOCUS_08660;note=MGA_866
sequence1	MetaGeneAnnotator	CDS	530202	530369	.	+	0	ID=MGA_867;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVEEIETSINEYSTEPEDVFFYYLEDNINSSSTFPNEVIGGEEMVNNLKDIRKW;locus_tag=LOCUS_08670;note=MGA_867
sequence1	MetaGeneAnnotator	CDS	530385	530525	.	+	0	ID=MGA_868;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEAFSDQFSSFKVVLKEEKQEEEALEKVIELRKNEDITIENIKFYA;locus_tag=LOCUS_08680;note=MGA_868
sequence1	MetaGeneAnnotator	CDS	532128	532499	.	+	0	ID=MGA_869;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIRHKGDNNKNMFHPFLILYISNKRVLALQFSSIDIHGNSYYGKFRNNNLFDIITSNSFNGVHANSEKVILTNVEGMEYQSLGDPKILYSFYLENLNEYNCKYKTLLTDYQFRIICQQIPNQG;locus_tag=LOCUS_08690;note=MGA_869
sequence1	MetaGeneAnnotator	CDS	532825	533013	.	+	0	ID=MGA_870;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MASFFIIMGFLLNSKSQFHNKKIYVVIFEGIIFLFINRKYKLESKNCTTNLIPYLKIEDNYI;locus_tag=LOCUS_08700;note=MGA_870
sequence1	MetaGeneAnnotator	CDS	534227	534415	.	+	0	ID=MGA_871;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFNATSGAGKSTTMQRMLKNEILNGNKVYLIDSENKYSKFDDYFGESKIFLGDGLYKINPL;locus_tag=LOCUS_08710;note=MGA_871
sequence1	MetaGeneAnnotator	CDS	534798	535757	.	+	0	ID=MGA_872;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSLRENKKGTYSMFYNGYTSIDIANNYLTIFDMSSLKDGIDTRLFAMQMFLVIKLLERQIKVNYGLNTNTPQRVIFDEAHLLMDKDFPIALNFIYRMVKMIRKRNGGITVITQNPEDFLSTPEIAKKTKAIINNSQYAFIMQATETNINKIEKLYSDSDGFTEYEKKSLVTATQGFCLLITSKSRRFTLNMDVQQEDFRNIAVDESTLKIWVLGYLTTRLYNILNGLKHIDTKLEECVSIKEINDQKTLQIKLKEKHNLKAELFKQNIEIKAVNLENNILSFVFKDLHNQIAYKFYDKITKKLMLINEQINQEVDSNE;locus_tag=LOCUS_08720;note=WP_011166393.1 DUF853 family protein (Mycoplasma mycoides) [pid:33.0%25%2C q_cov:55.2%25%2C s_cov:21.4%25%2C Eval:2.2e-22%2C partial hit],MGA_872
sequence1	MetaGeneAnnotator	CDS	535750	535989	.	+	0	ID=MGA_873;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNQKASKNEICRVIAENTNIRMKEIEIVFDEIFNEIKSKLKEGKSLTIKNFGKFKIYGYKNMNMNKSSIIKVKKSKKG;locus_tag=LOCUS_08730;note=MGA_873
sequence1	MetaGeneAnnotator	CDS	536188	536385	.	+	0	ID=MGA_874;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNHTLDETVIPRVSKIIKTTNEHNLIKIELVNRKINFLINEMGQARIIDGKPIINDINLKVKDKN;locus_tag=LOCUS_08740;note=MGA_874
sequence1	MetaGeneAnnotator	CDS	537165	537311	.	+	0	ID=MGA_875;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFVKENYRLKSNNNFFSKIYGDRLKELNLVDTIYINNDIFSIPKNFTD;locus_tag=LOCUS_08750;note=MGA_875
sequence1	MetaGeneAnnotator	CDS	537357	537530	.	+	0	ID=MGA_876;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=METVKFKNKIFELRDLKIDSLSEAEFIDFYKKMNNSKLRIKNYFNSIKKIRDLLAHF;locus_tag=LOCUS_08760;note=MGA_876
sequence1	MetaGeneAnnotator	CDS	537838	538074	.	+	0	ID=MGA_877;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQDIKIQINFNNNIINFDGSTPLIEFKKYIDKLSIEDAHMIQKNVRKQINSYLKVIPKQEKINLEPPIIDDSEKEKIN;locus_tag=LOCUS_08770;note=MGA_877
sequence1	MetaGeneAnnotator	CDS	538361	538543	.	+	0	ID=MGA_878;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYQVVLVVISCGFDQGDNGNKQGPIKPEPPTIIKELSQNNDGFDYVYDTKNNILKLVNII;locus_tag=LOCUS_08780;note=MGA_878
sequence1	MetaGeneAnnotator	CDS	538870	538995	.	+	0	ID=MGA_879;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQTALYRYKTAKQSQIDNPPEAANIQDLEKDMKFIEDLTEF;locus_tag=LOCUS_08790;note=MGA_879
sequence1	MetaGeneAnnotator	CDS	539283	539744	.	+	0	ID=MGA_880;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKTINKIDSLMVVLIKLIFEKNDDISNELNNNFSLEKDIKLKEKNKMKTITEEVKELKTPVIFRIKPLYKFSKNREERIKRVEYYYSGRAQRDGKTKNRTYLDYITRNNANRKIELSREEILELNKLRKTNIKEYNKKIEYYSKIKSQNLGL;locus_tag=LOCUS_08800;note=MGA_880
sequence1	MetaGeneAnnotator	CDS	540216	540977	.	+	0	ID=MGA_881;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEINNKTIAVIIDFDNFNKDLHLQILFNELEQMGNVIYKGAFYTNTVDKDVKNKGIKYGINDFIVEPSYSKGKNAVDIRIALDIMELLNKEYIDCFCLATTDLDFAPIIKKLKQRNKFVIGSGLSSTKEEYKKLCHRFISVDKIEEALEDTKEVKSKNNNQNQKSKIANNRNNESIKELVKIVNLILKNSEKDNEEYIQFSVIIENLYKKIPDFNPKNYGFSNNKPSLFFKDTLKDTYDFKQSNKTLYIKIKK;locus_tag=LOCUS_08810;note=WP_010932155.1 NYN domain-containing protein (Chlorobaculum tepidum) [pid:27.0%25%2C q_cov:100.0%25%2C s_cov:56.3%25%2C Eval:1.3e-18%2C partial hit],MGA_881
sequence1	MetaGeneAnnotator	CDS	541367	542206	.	+	0	ID=MGA_882;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKTFTILKTTFNITSTKFNFLIYDFGGFARKNRNYIFNISESNEFYFPEYFLEQYTNYNKNKQDILNLSKVSIEYESLKNKIQVQEKKITGQFSEICQIGMSIENKKYKNINKHSRNSKNVSRNGYDGILVDPEKSEILFFESKSSICKISEGETISKIKSLFKKGLETIYGIRDDKFSKVMNPIDQKPLDAKKIIDRVIEFDRMTKDLEKYNIANKDIVAAEITRFAQEASRIESENIFLDIKRQIIGITIFNNENENLEDIFIDFQNSIQAEFAK;locus_tag=LOCUS_08820;note=MGA_882
sequence1	MetaGeneAnnotator	CDS	542373	543362	.	+	0	ID=MGA_883;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKENYNGFLNYFEMFGALSNLYSLFDKNLLTKIGNLDEKEIGTILGVIKYIIRKDISIEGFERDEQKNSINDILNILDDVLNKFFGNSDDNKQILKQINDLKAKLGYPKKSNNYLLNDNINLFNDQKIFFQNLDYAILKRKNIIISAPTSFGKSFMMREIILKKNMGNFFFIVPTISLQNEYFSEFYKKLLNKDFEKKIYIGIEVVNDHDFNAFNKNIFILTQEKMLSFIRKYENSMLNIDYVVFDEFQEFIMNPFDSRGSIMYSVIEFFNNFNTPHVFAMPLIASPLSKIKKVLQNIEERNYVEIISKIDYSLKDFYLLKNNSTSEK;locus_tag=LOCUS_08830;note=WP_092520565.1 DEAD/DEAH box helicase (Xenorhabdus japonica) [pid:27.2%25%2C q_cov:55.9%25%2C s_cov:27.7%25%2C Eval:1.7e-09%2C partial hit],MGA_883
sequence1	MetaGeneAnnotator	CDS	543624	544187	.	+	0	ID=MGA_884;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENGVAIHHSDIDFYLKKQIEFLYKNKIIKCIFTTETLAHGVNLNATNFIFDANVSGSVHKSNSRKELTYKNLIGRVGRINNNRGKIFLFKEDKYHKMTKKVEFLDLQLDIDIDTNLNMIKEQIKNHKLISEQSILKMATNFSCFPINEDILKENNYSNSDIQDCKNNEFIYDSSPVPTSSIKDAKK;locus_tag=LOCUS_08840;note=MGA_884
sequence1	MetaGeneAnnotator	CDS	544521	544820	.	+	0	ID=MGA_885;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGYSTLVDYLTYVRKRYLEYGYTTFISDISHIYEVNFEEKLFEYEFEEIRNKLSNIGIDSDLINKIIINDKEINNISLHLSKINSYKDLIEILTDKELK;locus_tag=LOCUS_08850;note=MGA_885
sequence1	MetaGeneAnnotator	CDS	545339	545500	.	+	0	ID=MGA_886;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGEIDMKIKKIIAKNFMHPGKQTFALSEDHILKQGIYNDANDILELNKIFNGT;locus_tag=LOCUS_08860;note=MGA_886
sequence1	MetaGeneAnnotator	CDS	545513	545662	.	+	0	ID=MGA_887;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSFEKYYPKFARKLANKEMNLQIDALFFLEEEELTQLNKILKSLGVVKE;locus_tag=LOCUS_08870;note=MGA_887
sequence1	MetaGeneAnnotator	CDS	545729	546163	.	+	0	ID=MGA_888;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPAEFKTDKVIGIGSHYEKFFKANLSKRDILTTMGINAVGQLREIYFKYKDVKVKEEEQEDYKRYLEVLKSTFRYDEEFIKKLGQAIYSIDDGDIINYADELEFFIRNNHFDNFLNTIPLLRENKKYREDFATLLFNVYLVDLK;locus_tag=LOCUS_08880;note=MGA_888
sequence1	MetaGeneAnnotator	CDS	546363	546536	.	+	0	ID=MGA_889;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLNMTKSLKRMQLNLSMSNQSLNEIKKEDKTYNSNDMYNINVEELFFTGGLLWVKK;locus_tag=LOCUS_08890;note=MGA_889
sequence1	MetaGeneAnnotator	CDS	546521	547696	.	+	0	ID=MGA_890;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGEKIIKNELLKNLVNKQDLYKAAKNIKLSNEDTQRFIESIFSNYFLDNDNINFLVKNGYNFFAFEDQELCFCLSGEEFLACCKKHLAKTKNPSYTPFIKAIIATEKYEDYLKFSSQLFESNYSKLAKTEKCNFVNCEQKAVENSLYDFELDNEKYLTSNKRNIFDNNYKMGESFFNEVQSNQFKYFGFCQNHMNQISEIKMNKNSNDAEILLFNFPTIVNKLFISRVQLEALKEEFRNYFNSIEEEAVKPMFIYNLKKVSNHVSSLLETYTFFVESLSGKTNNFAIAKFSLPKTNNFRIKDVFQPQITPDDFKVVNSINNFFISENFASLVMFSDKTNSFITMVYDKSKENLNAFFDQYLKIIHLKSKSEAAFISNCSLILADNILFRKQ;locus_tag=LOCUS_08900;note=MGA_890
sequence1	MetaGeneAnnotator	CDS	547899	548060	.	-	0	ID=MGA_891;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEKCQTPTCNNDLNFMDKKRIYQYDENLEDEIAIYVCDECYKKSKDEENNID;locus_tag=LOCUS_08910;note=MGA_891
sequence1	MetaGeneAnnotator	CDS	548246	548536	.	-	0	ID=MGA_892;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCMIGSLFAAHEESPGANVTVEGEMFKEYYGSASEYNKGEKRYVEGKKELIKVRGKLMETYKEMHEDLQSSISYSGGTKLNDIKKVDYVILKTSNF;locus_tag=LOCUS_08920;note=WP_011183067.1 GMP reductase (Mesoplasma florum) [pid:87.5%25%2C q_cov:100.0%25%2C s_cov:30.0%25%2C Eval:1.3e-42%2C partial hit],internal stop codon at [548627:548629](-)%2C[548648:548650](-)%2C[548732:548734](-),MGA_892
sequence1	MetaGeneAnnotator	CDS	548732	549208	.	-	0	ID=MGA_893;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYAFDYEDIQLIPSMCVVKSRSECNTEVKLGKHTFKMPVMPANMASVINEKLCEMLAKNGYFYVMHRFNVDSYAFVKKMLKANLVASISVGVKQEDYALIEKMAKDNIIPDYITIDIAHGHSVSVKNMIEHIRKYMKNKTFIIAGNVGTPYAVRDLEF;locus_tag=LOCUS_08930;note=WP_011183067.1 GMP reductase (Mesoplasma florum) [pid:70.7%25%2C q_cov:99.4%25%2C s_cov:49.1%25%2C Eval:1.2e-60%2C partial hit],internal stop codon at [548627:548629](-)%2C[548648:548650](-)%2C[548732:548734](-),MGA_893
sequence1	MetaGeneAnnotator	CDS	549483	549908	.	-	0	ID=MGA_894;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKKILVITGTVSPAEKSFSLALTNRFVKEYQSLNPNDEIIHLDLNNEQMAHKTLSRENFGTYFNEQDALKYINQLKEVDKVIISSPMNNFNVSGLIKNYLDHVLLADQTFSYKYVKQGDAKGLLEHLTVQILTTQGAPFG;locus_tag=LOCUS_08940;note=WP_011182943.1 FMN-dependent NADH-azoreductase (Mesoplasma florum) [pid:55.8%25%2C q_cov:97.9%25%2C s_cov:69.3%25%2C Eval:8.6e-40%2C partial hit],internal stop codon at [549441:549443](-)%2C[549474:549476](-)%2C[549483:549485](-),MGA_894
sequence1	MetaGeneAnnotator	CDS	550011	550634	.	+	0	ID=MGA_895;product=uridine kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183203.1;translation=MKKVTIIIVAGGSASGKTTVAQTIANEIFMNKPVTHLSMDSYYKDFSDLTFEEKQLVNFDHPSSLDIELLCQHLDDLKEFKAIETPVYDFKTHSQSGETIKVEPSNVVILDGILALHIEEIRKRGDIKIFIRTDDDIRFIRRLMRDVNERGRKLEDITNQYLNTVRPMYKFFVEPSIDHADLIIPYYEGNNIAIDLVAAKISSLLKK;locus_tag=LOCUS_08950;gene=udk;EC_number=2.7.1.48;note=WP_011183203.1 uridine kinase (Mesoplasma florum) [pid:62.7%25%2C q_cov:98.6%25%2C s_cov:98.1%25%2C Eval:2.0e-69],MGA_895
sequence1	MetaGeneAnnotator	CDS	550828	550962	.	+	0	ID=MGA_896;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAENNKNLSYTEDSIQILEGLEAVRKRPGMYIGSTDSRGLHHLV;locus_tag=LOCUS_08960;note=WP_002456533.1 DNA topoisomerase IV subunit B (Staphylococcus) [pid:82.5%25%2C q_cov:90.9%25%2C s_cov:6.0%25%2C Eval:3.8e-13%2C partial hit],internal stop codon at [550960:550962](+),MGA_896
sequence1	MetaGeneAnnotator	CDS	551365	551922	.	+	0	ID=MGA_897;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFSTTKFSFSTISERLKESALLNSGLKLTLKDNRSDKYVEYLYENGLTEFVNELRGDQKALCSPIMLKGSEQNIDVEIALTYTSDFSETVLGFANNVKTSDGGTHVTGFRSGLVKALNEYGKNQSILKEKDKKLDSSDIKEGLIAIVTVKIPESLIQYEGQTKGKLGTSEARYACEKVTEEHFSF;locus_tag=LOCUS_08970;note=WP_011183206.1 DNA topoisomerase IV subunit B (Mesoplasma florum) [pid:61.5%25%2C q_cov:98.4%25%2C s_cov:28.1%25%2C Eval:4.2e-62%2C partial hit],internal stop codon at [551920:551922](+),MGA_897
sequence1	MetaGeneAnnotator	CDS	552052	552492	.	+	0	ID=MGA_898;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLGKLTPAQGKNKQENELYLVEGDSAGGSAKSGRDRKFQAILPLRGKVINAEKTKLIDLLKNEEITTIINAIGAGIGSDFDISDINYGKIILMTDADTDGAHIQTLLLTFFYRYMKELIVNKNIYIAMPPLFKITTGSNKKDFMYL;locus_tag=LOCUS_08980;note=WP_011166694.1 DNA topoisomerase IV subunit B (Mycoplasma mycoides) [pid:78.8%25%2C q_cov:100.0%25%2C s_cov:22.4%25%2C Eval:5.8e-61%2C partial hit],internal stop codon at [551920:551922](+)%2C[552490:552492](+)%2C[552589:552591](+)%2C[552709:552711](+),MGA_898
sequence1	MetaGeneAnnotator	CDS	552779	553012	.	+	0	ID=MGA_899;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDVVNVENKLSFTQKAKIIVQKIEEYNKINKEIKRYGDIFNTFSFYYELKEPELFFELKSTDYDENDFSVTSLATEQ;locus_tag=LOCUS_08990;note=MGA_899
sequence1	MetaGeneAnnotator	CDS	553097	553678	.	+	0	ID=MGA_900;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKAREISKPHVGILVYDEFTDSYYLNPTTGPILLKSKEILKEISSTRIDIFNIFINLRSVAVEEDRAVEIFGLNLEEVIEKIQQALESINGLAKKIMKIEGIPRYISSIEIVDKVMYYNGYATIDFGLAAEDKNKVNEVSLEANINEIEQLEKIYVQIRKDEEVSKIMASLGRSLVSKNNPKLYIQNSITGL;locus_tag=LOCUS_09000;note=MGA_900
sequence1	MetaGeneAnnotator	CDS	553786	554079	.	+	0	ID=MGA_901;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNNKEEKGIINFALEDLMGDRFGRYAKYIIQERALPDVRDGLKPVQRRILFTMNEINLTHDRAYKKSARVVGDVIGKYHPHGDTSVYDALVRMSQP;locus_tag=LOCUS_09010;note=WP_011183207.1 DNA topoisomerase IV subunit A (Mesoplasma florum) [pid:83.2%25%2C q_cov:97.9%25%2C s_cov:10.5%25%2C Eval:3.9e-42%2C partial hit],internal stop codon at [554077:554079](+),MGA_901
sequence1	MetaGeneAnnotator	CDS	554104	555303	.	+	0	ID=MGA_902;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHGNNGSIDGDSAAAMRYTETRLAKISSIILADLQKNTVLFAPNYDDSEKEPTVLPGYFPNILVNGATGIAAGYATNMPPHNSIEIIDAVIATIKNPKIKLSDISKIVKGPDFPTGGIVMGQEGIDSAFETGKGRVIVQSKIHREGDTLVIDEIPYEIIKQDLVKKIGDVVDANPHLEVKEVRDETDRTGLRIVIELSPKADYEITRKFLLKNTPLQISYNYNNVVIVEKQPKQLGIIPIITAYIKHYKEIFSRKTKFDLEKAEKRLEIIQGLIKAISILDEVIKIIRDSSNRSDAIANLIARYEFSETQAIAIVDLRLYRLTSTDIVKLEEEKKELSSLIEGYKAILGDVKVLEEKIIEQLTTTKKEFGVPRRSEVVSEIENIEVEIKKTIVQKDYTI;locus_tag=LOCUS_09020;note=WP_011183207.1 DNA topoisomerase IV subunit A (Mesoplasma florum) [pid:66.7%25%2C q_cov:100.0%25%2C s_cov:43.9%25%2C Eval:1.4e-149%2C partial hit],internal stop codon at [554077:554079](+)%2C[555301:555303](+)%2C[555394:555396](+)%2C[555496:555498](+),MGA_902
sequence1	MetaGeneAnnotator	CDS	555511	555993	.	+	0	ID=MGA_903;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHINKVATISGNERILAAFVVKQFQNAKQEILLATKKGMIKRTPVEDLETKMFSKPFRIIKLQNEDELVSASLVTSKTKTVTMLTRTGFAVRYDIAEIPSAGPNAKGVKSTVVKEEDIVAGKAFSNGDVLIITNKGNVKKIKQDHVPIMARPKRGVRLYP;locus_tag=LOCUS_09030;note=WP_011183207.1 DNA topoisomerase IV subunit A (Mesoplasma florum) [pid:50.9%25%2C q_cov:100.0%25%2C s_cov:17.7%25%2C Eval:2.9e-41%2C partial hit],internal stop codon at [555301:555303](+)%2C[555394:555396](+)%2C[555496:555498](+)%2C[555991:555993](+),MGA_903
sequence1	MetaGeneAnnotator	CDS	556060	556770	.	+	0	ID=MGA_904;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDEEDNLIQLNVKNFKFADLEDVPEDLDMAEIITTTLEKSFIIKNNDIPPTPKGGEDEEPKKVVGLKKSPPVKKIAAAKVEKPNDIKVEIQEEIAPHEVEEEVIFDDVEQEIILDDVEDEIISDDVEEEVIFDEVEQEIIPEEIEEEVIVDDVEDVEDEVISEEVQEEVIFDEVEQEIIPEEIEEEVILGDVEDEVISEEVQEEMIKESMESNENKKGSISDEETSDLKIDLDDLI;locus_tag=LOCUS_09040;note=MGA_904
sequence1	MetaGeneAnnotator	CDS	556848	557498	.	+	0	ID=MGA_905;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQYKGKVSKFIFKSDNGYAIAVFVLFTDEKKSIVITGPIGMMKIGIIYEVSGEEIDDPKRNQKSLAIKSFSQVKNFDNDGLIKYLSSSVFPTIGKNLAKNIVEYFKEDVFSKIMNNKNELFNIKDMTQAKAEIIYDVVISKFGDTKILDIFVENNLKIEFLNLLQKEEEDINFIEQILREDFYSYANEKKMQPFYEVDRVCITFGMEENDERRVS;locus_tag=LOCUS_09050;note=WP_014584390.1 AAA family ATPase (Mycoplasma leachii) [pid:31.4%25%2C q_cov:93.1%25%2C s_cov:27.4%25%2C Eval:4.4e-22%2C partial hit],internal stop codon at [557496:557498](+),MGA_905
sequence1	MetaGeneAnnotator	CDS	557556	559058	.	+	0	ID=MGA_906;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDQLLKKMKAHFNLSENEIINKLVYAKNQKIIYFKNQKIYTKESYEDEQFIAKELFDLLNRSNYLKREFNFEEKLKEVEQFISLRSGIKNFKYNNEQVEAIKNFIENDVSIITGGPGTGKTTVITGIVKMYELIYNDSNFALTAPTGRAAGKIKDDSGYKTSTIHRLLQYSGNDIFEANENKPIFKNLVVIDECSMIDNHLFASLLRGVKGIKKLLLVGDVEQLPSVSYGNLYEDLIVSNYFKTTRLVKNNRQLNSEGEINSIIALSDAIKNESINNFNFENSTNVNFNFSKDYDNVINFLKETYSNLNPSNIDEQLNDLQIIAPMYKEKLGIDNLNSIIQNLVNPTKSKVYKRYDLEFRVNDKVMYIENDPIYELSNGDVGYIKELNFIGDKLKTAKIIFNEREIEMGSSSFQKIKLSYACSIHKTQGSEYKNTIIVLDGNNRNSNFILNKKMLYTAITRAKQNLFIISDQILFLKSCNRNPKPRLTTLKEAILTLKEQ;locus_tag=LOCUS_09060;note=WP_014584390.1 AAA family ATPase (Mycoplasma leachii) [pid:41.2%25%2C q_cov:98.4%25%2C s_cov:66.2%25%2C Eval:2.9e-97%2C partial hit],internal stop codon at [557496:557498](+),MGA_906
sequence1	MetaGeneAnnotator	CDS	559502	560275	.	+	0	ID=MGA_907;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEGPFISKEKKGAHEVSLLTNPDIAYLKELVKASKDNVRIVTYAADLQDGSFTKYLLENNILPSVGHTNMSFAQCERDYQIGFRHVTHLFNGMSGVSQYEPGLATFSLYKDDILCEVITDGIHIEKDTLKLIYKIKGADNICIITDAMNAKGLDDGEYKLGNLEVIKKGMKVFLKESGVLAGAGATYDFNVRVMLEANPEIKMTDLIKMTSINIAKQLKIFDKRGSIEKNKFADLVVLNKNLEVLKTFVEGERVYEK;locus_tag=LOCUS_09070;note=WP_011166715.1 N-acetylglucosamine-6-phosphate deacetylase (Mycoplasma mycoides) [pid:59.8%25%2C q_cov:99.6%25%2C s_cov:66.2%25%2C Eval:8.4e-85%2C partial hit],internal stop codon at [559268:559270](+),MGA_907
sequence1	MetaGeneAnnotator	CDS	560265	560732	.	+	0	ID=MGA_908;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166717.1;translation=MKNKVNPRSFTLIKFLLTLGLIFNYSISLISFINVFKGNGQSLIIESKTYIAVQILLLISSISSLLIFFFVRKNVHKKLNYKYIKREKIQILLCLIFISIIFVLSIIDILTFLFIFKNIYVMVIIFLIIQLILGVIISILESFSRLSEQVIANKL;locus_tag=LOCUS_09080;note=WP_011166717.1 hypothetical protein (Mycoplasma mycoides) [pid:26.3%25%2C q_cov:99.4%25%2C s_cov:79.4%25%2C Eval:1.4e-10],internal stop codon at [560730:560732](+),MGA_908
sequence1	MetaGeneAnnotator	CDS	560839	561819	.	+	0	ID=MGA_909;product=Gfo/Idh/MocA family oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183105.1;translation=MIKFGTIGTSKITQQFITAAVKNPNCKVVCCYSRDKTKAKDFIRDHKLYAKAVDNFDQMLDEVDAVYIASPNGLHYEQAKYFLTQQKHVLLEKPLTLSFQQALEISQIAKRNNVFLMEAYKTFHCPQISHLFKFVKSYQPFIANLNLNRYSSRMAQVKMGQYDSVFDAKLGKGSTYDMLIYPVELSIALFGPVTEVKSMGQRLANGSGMNDCVILKHDSDVLTNIVCSKASRGVIENELLSDIATLTFKNVIQLEEINLYKTNSNDVEVIHKTENDKDLFEYEIAVFLKMIAENDFSLRDYLLDISCETVRVLNLVESNQEKPGEI;locus_tag=LOCUS_09090;note=WP_011183105.1 Gfo/Idh/MocA family oxidoreductase (Mesoplasma florum) [pid:38.4%25%2C q_cov:97.5%25%2C s_cov:99.7%25%2C Eval:1.4e-59],MGA_909
sequence1	MetaGeneAnnotator	CDS	561821	562126	.	+	0	ID=MGA_910;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLNKYIDHTLLKADAKKVEIEKLCLEAKDYDFATVCINPTHIIYAKELLKGTNVGITTVIGFPLGATTSEVKAFETKQAIENGATEIDMVINVGAVKDAN;locus_tag=LOCUS_09100;note=WP_011183018.1 deoxyribose-phosphate aldolase (Mesoplasma florum) [pid:69.3%25%2C q_cov:100.0%25%2C s_cov:45.9%25%2C Eval:4.6e-35%2C partial hit],internal stop codon at [562124:562126](+),MGA_910
sequence1	MetaGeneAnnotator	CDS	562145	562483	.	+	0	ID=MGA_911;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIAVKKAALNNCVKVILENCLLTKEEITKCCQLALKANLEFVKTSTGFSTGGATFEDVALMKSIVKDQAKVKAAGGVRTYQDAIKMIENGADRLGTSGGVAIVKGEEHKNGY;locus_tag=LOCUS_09110;note=WP_011183018.1 deoxyribose-phosphate aldolase (Mesoplasma florum) [pid:71.4%25%2C q_cov:100.0%25%2C s_cov:50.9%25%2C Eval:2.0e-38%2C partial hit],internal stop codon at [562124:562126](+),MGA_911
sequence1	MetaGeneAnnotator	CDS	562876	563067	.	+	0	ID=MGA_912;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKYNRKLQIQELNAEIIKLPEKIIARNNLEKDVITKGKLLINVKEDSKYYNQAKLEITITPN;locus_tag=LOCUS_09120;note=MGA_912
sequence1	MetaGeneAnnotator	CDS	563653	565308	.	+	0	ID=MGA_913;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYGFEMDDYNLPSSIRKRIDDLVELNINPSTINLITTEFSSSSEETKENIGNYIQKLLEIEEFIIYQNSKKGNNANIKQELNSKKRLANLKKIQQIFIRKNALNVQQQLNKRYQPINNVSRKLHSLREIKADNNSDFSDQNKMQEIANKKAKIEMAIKGEQQKIKLAQIEYEKAKLEEDQITQELKLNIAKFANNRLKKISDAMTTYKTIDQIPDKIIDESFSNDENEFDYKEVIHELCNLDETEFNSDILKTIEINLETFFDVPGFDNYEEEMINMSRSRYTQALRNKSEKRELKNLQNEEINFEKTKIEKELQEEIKNNNSKIINNAIYEQNSSLNNEIQNKQNLKTILQETKIIEKEEKESKQDIDNEIINKSTYQQDPLFDNKIAIEQTLQEIEINKSETEKSKIDSNERTKDISKVVEPKVIIKEINNFLFENDNTRELITKNKVSDNIENFEKENNFLVLENTNEKIIKKIKKKARAKDRQIEKLIKENEFLHKELIKLREEKKIAELRELENKKRRLNENFEDTLKRERRKIETTYQILERK;locus_tag=LOCUS_09130;note=MGA_913
sequence1	MetaGeneAnnotator	CDS	565423	565611	.	+	0	ID=MGA_914;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVEDNSNKLKANNNEIKVIVENNKFNNTISLNESNSGNENSSIDRNVVINDDSKVIIKQSN;locus_tag=LOCUS_09140;note=MGA_914
sequence1	MetaGeneAnnotator	CDS	565810	566253	.	+	0	ID=MGA_915;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVTNNKESEFIIENNSINNRVLNTDNSSEKNIENEVNNVTTNNKELKVITKKVSTVNQKGRTNSKKNSSQKIIVDQKISFANKNNLSTEFKNQNQYEGDEKRILYLESRRKLNIITKEEAKELELKKRQNHHTSSKIVLSKYKLVKR;locus_tag=LOCUS_09150;note=MGA_915
sequence1	MetaGeneAnnotator	CDS	566678	566905	.	+	0	ID=MGA_916;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQRNLYLSKLFFGGLETFNSGIIGGILVGSYVTFIYKKFKDINLPKGLEFFAKERFVIILSVLFSIIAACLFIII;locus_tag=LOCUS_09160;note=WP_011166334.1 PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:45.6%25%2C q_cov:76.0%25%2C s_cov:10.2%25%2C Eval:3.7e-08%2C partial hit],MGA_916
sequence1	MetaGeneAnnotator	CDS	567089	567259	.	+	0	ID=MGA_917;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIQYLLRVTESENLSIINELLNINQKGFGQDEITKIFQNNLNNADFAKIEENINF;locus_tag=LOCUS_09170;note=MGA_917
sequence1	MetaGeneAnnotator	CDS	567371	567787	.	+	0	ID=MGA_918;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRVSRFISGGYINSIFILPTLSLTLLLMTPKGEKRSKMGIYITAALTAMLVGVTEPVEYLFCYTMPLFYFVIYCPLNGLLAMLTSLFKVKLGTSFSTGLFDFILSGVVPTANGVNTRIWIIPIIGIIASIFIFTIAFF;locus_tag=LOCUS_09180;note=WP_011183111.1 PTS transporter subunit EIIC (Mesoplasma florum) [pid:33.0%25%2C q_cov:79.0%25%2C s_cov:15.4%25%2C Eval:2.0e-14%2C partial hit],MGA_918
sequence1	MetaGeneAnnotator	CDS	568114	568266	.	-	0	ID=MGA_919;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLVVNLASAMESDTNEIKILLTKSKQVIEFNNSKKNEVAVNILKTINDHI;locus_tag=LOCUS_09190;note=MGA_919
sequence1	MetaGeneAnnotator	CDS	568294	568794	.	-	0	ID=MGA_920;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKIIELEENNYKNLKDKSILLNFGKTRSYIDKVRYITNASSGKMGNELKKVLKNNCKSLKTVFGDTLLPNFTDNDNVYVKTNDEMLEEMLKNYENSDIVICSAALYDFEVANYTDKKIEKRSLSENDLNLSLYPAVDVLKELGKVKTHQFLVGFSLANDFNLEKA;locus_tag=LOCUS_09200;note=WP_004082203.1 bifunctional phosphopantothenoylcysteine decarboxylase/phosphopantothenate--cysteine ligase CoaBC (Thermotoga maritima) [pid:44.1%25%2C q_cov:86.7%25%2C s_cov:36.0%25%2C Eval:8.7e-23%2C partial hit],internal stop codon at [568294:568296](-)%2C[568864:568866](-),MGA_920
sequence1	MetaGeneAnnotator	CDS	568864	569289	.	-	0	ID=MGA_921;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKQINLIVTGGIAASKSLKLYKLLSKKYEVKLITTKNAKKFVNFANIDYLEDIFDREFYDSHHYGDHIKIAFQSTLNVVYPASYNYIGKIANGLADDLASLIFSVSNYKTILFPSMNSNMYLNPILEKNKTILEATGNVK;locus_tag=LOCUS_09210;note=WP_011016598.1 bifunctional phosphopantothenoylcysteine decarboxylase/phosphopantothenate--cysteine ligase CoaBC (Fusobacterium nucleatum) [pid:38.6%25%2C q_cov:96.5%25%2C s_cov:35.1%25%2C Eval:4.6e-17%2C partial hit],internal stop codon at [568864:568866](-),MGA_921
sequence1	MetaGeneAnnotator	CDS	569412	569576	.	+	0	ID=MGA_922;product=30S ribosomal protein S21;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183260.1;translation=MASVVVREGEPIEKALKRFQKVAASNKSEARKREYHLSKKEKRIYKQKQNKKFG;locus_tag=LOCUS_09220;gene=rpsU;note=WP_011183260.1 30S ribosomal protein S21 (Entomoplasmataceae) [pid:84.9%25%2C q_cov:98.1%25%2C s_cov:98.1%25%2C Eval:7.2e-20],MGA_922
sequence1	MetaGeneAnnotator	CDS	569686	570120	.	+	0	ID=MGA_923;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNDKSAYSINNLYSLGSSEKLESGRTVGKPENLTNNQISKIELLRKSNSMGSSKEKKAVSQLGDLPEEIKKSIEKKAKLHEILNNGRHYTVEDLKIKLAMEKKPIDKKRASQIKEERIMFFKENIEKLKLNKKRKIKIVYEE;locus_tag=LOCUS_09230;note=MGA_923
sequence1	MetaGeneAnnotator	CDS	570196	570747	.	+	0	ID=MGA_924;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYCLEGYILEQDEECLLLKVNQIGYKGFKIFKENFALNKLKLLYVINYKNEYSNDLLFFESKKVRDLSELILNIKNIGISTIKKIFKNVSEENFIKICKEQDINTLNKISNLSESICKKVINEIRFKLFNEKYNLKQMNVINSLNKLGYKLSDIYKSIQNIDLNLSEEILLSKAILNLNNYGN;locus_tag=LOCUS_09240;note=MGA_924
sequence1	MetaGeneAnnotator	CDS	570737	571657	.	+	0	ID=MGA_925;product=Holliday junction branch migration DNA helicase RuvB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166725.1;translation=METNIFRPNSLEEFIGQKNIINNLNVFVMSAQKRNKNLDHILIHGPSGLGKTSLGYLVSKIINKKIHILNGQSLQKPSDIISPLTSLKENEILFIDEIHSVSKEIFEVLYPVLEDNKLNIIVGKEYNSKVVNIKLANFTLIGATTEINKLVEPFKNRFSILFHFQHYSDNEITEIIKLNCKKLNMNLDIEVIKYISKFCQNTPRVAINLLKRIYDYIIILELKNVNIEIIKNIFLELEIYKFGLSNQELLYLKLLYKHSTLGIETIQQVMGLQQQIIIKTIEPILIRNFLIEKTVKGRKITEKAIL;locus_tag=LOCUS_09250;gene=ruvB;EC_number=3.6.4.12;note=WP_011166725.1 Holliday junction branch migration DNA helicase RuvB (Mycoplasma mycoides) [pid:52.8%25%2C q_cov:98.4%25%2C s_cov:98.0%25%2C Eval:5.3e-87],MGA_925
sequence1	MetaGeneAnnotator	CDS	571750	572007	.	+	0	ID=MGA_926;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLRLARTLTNVGIYLILTLLINIMIFSILLISIKPLMDGSYKYFLDLGKWLQSNLDASLSLIKSLGIIILLASFLSFIILILILI;locus_tag=LOCUS_09260;note=MGA_926
sequence1	MetaGeneAnnotator	CDS	572101	572274	.	+	0	ID=MGA_927;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTFGVFANGDELSILLSLIFFLLMGLSNSLLLTGSIFGILSAKTYLDNYEDKNKSKE;locus_tag=LOCUS_09270;note=MGA_927
sequence1	MetaGeneAnnotator	CDS	572334	572501	.	+	0	ID=MGA_928;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKKVYNLKKSSLGKVTFEDGTAFCMITGKNDNGEEFREILIIKSLEELIKNFHK;locus_tag=LOCUS_09280;note=MGA_928
sequence1	MetaGeneAnnotator	CDS	572583	572810	.	+	0	ID=MGA_929;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENGILSFKKELYENSGLEEIKNMGAIEFLNSEPEISQLILVHIATKYTSGHLKIPINELELSIRYIKNILAINF;locus_tag=LOCUS_09290;note=MGA_929
sequence1	MetaGeneAnnotator	CDS	572884	573903	.	+	0	ID=MGA_930;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVINLKKIINFFGVATLLNSTIITVISCGGTPNYNSFYETNYNKAFQTVFKNEKNIQIKEFSMFPELVKNNKIPEPESKEKKYIEQLILSGNEFKLNCEEFICKNDNFFYGKKLTSIEYGNLGEDKNIKERIKTQYALDDLASWFNIEPNTKPDFFYDYTNLELTLDYSKNIYFFKKYREEQDLILWSKQNSLEIVDKSKDKKINTEFNFFDKNFILDQEIIKKLVLADLVEINTEEVTESSTKEGEKQNILKIYFKNIDKLKTKEKVNNVKSLFYSYQQDIEFKLINNTIKNNLENDNENYETINLESFNIDNKKISKIILEINIKEDNNEKNNSYII;locus_tag=LOCUS_09300;note=MGA_930
sequence1	MetaGeneAnnotator	CDS	573889	574143	.	-	0	ID=MGA_931;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNSTILFSILFEDKLDSNPLCSHESFINSKYSKLYTLIVSFFLKKIFKSLVNPVKLFEAIEIIGLHETLIIEDVGIMNKLDNI;locus_tag=LOCUS_09310;note=MGA_931
sequence1	MetaGeneAnnotator	CDS	574683	574943	.	-	0	ID=MGA_932;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDIVSNDPDFQKRKEASEIIEHYFGNIIGQEIQENEIEELSVENINENSKIIVFNKGIMISEELRGKIELINCIFKNSKEFKKSNV;locus_tag=LOCUS_09320;note=MGA_932
sequence1	MetaGeneAnnotator	CDS	574986	575159	.	-	0	ID=MGA_933;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKMQINNITKNLNKSLKIIETLLNKLGEDTLLNEIEYEDLEYILQKNLEKTLKKLKE;locus_tag=LOCUS_09330;note=MGA_933
sequence1	MetaGeneAnnotator	CDS	575607	576047	.	+	0	ID=MGA_934;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRNSIQIIDEGFFLLNENQNFRFDRERSKKILENIQFPIMVLDTEFFNHSHDNGENDKKLYDDNNKDLVYVIQYSFAKSLKEISNRDNKKAIKSITIKRNFNDNAYNFFDQYSKMIISFLNMCRNKEIRTIVCAGASNDVKIINK;locus_tag=LOCUS_09340;note=WP_020862792.1 hypothetical protein (Mycoplasma mycoides) [pid:52.1%25%2C q_cov:98.6%25%2C s_cov:46.7%25%2C Eval:2.2e-36%2C partial hit],internal stop codon at [576045:576047](+)%2C[576204:576206](+)%2C[576282:576284](+),MGA_934
sequence1	MetaGeneAnnotator	CDS	576339	576542	.	+	0	ID=MGA_935;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCCSAYSFFSRSTNKKMDYEEYKTMNKNIKRVIDHCYNDVLKVLEFLSFVYEFTNVPYAKNTYIKKY;locus_tag=LOCUS_09350;note=WP_020862792.1 hypothetical protein (Mycoplasma mycoides) [pid:41.5%25%2C q_cov:97.0%25%2C s_cov:20.3%25%2C Eval:6.7e-10%2C partial hit],internal stop codon at [576204:576206](+)%2C[576282:576284](+),MGA_935
sequence1	MetaGeneAnnotator	CDS	576597	576749	.	+	0	ID=MGA_936;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNKKSRNLLLLNYFKPSIYLESYEKINLDSLKNSGIKLIMCDMDNTLIG;locus_tag=LOCUS_09360;note=MGA_936
sequence1	MetaGeneAnnotator	CDS	576921	577181	.	+	0	ID=MGA_937;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLVKKLFKYKEEEMIIIGDQLVTDVLVANRAHIKSILVSPLSRNKEESKMVQFLEKHILKKLSQKNILHEGFYNEGEIGGNYEIL;locus_tag=LOCUS_09370;note=WP_011836600.1 YqeG family HAD IIIA-type phosphatase (Streptococcus sanguinis) [pid:41.9%25%2C q_cov:70.9%25%2C s_cov:36.7%25%2C Eval:3.7e-08%2C partial hit],internal stop codon at [576747:576749](+)%2C[576891:576893](+),MGA_937
sequence1	MetaGeneAnnotator	CDS	577168	577611	.	+	0	ID=MGA_938;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFSNNDKLNDIEKQLENLEDVALQINSNIAEPNSSKVKQRSKVSLTEPKPGIGNTTNYKSVGPKKCIGCGKQLQMDDKRLPGFSLDIAKQDLCLRCFKIKYYNKLVEQEINDEDFIAIIDEINQTKNKIRYYYVVDMFDLPGSRLT;locus_tag=LOCUS_09380;note=WP_011183248.1 ribosome biogenesis GTPase YqeH (Mesoplasma florum) [pid:45.8%25%2C q_cov:55.1%25%2C s_cov:22.5%25%2C Eval:1.1e-14%2C partial hit],internal stop codon at [577609:577611](+),MGA_938
sequence1	MetaGeneAnnotator	CDS	577879	578040	.	+	0	ID=MGA_939;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFNHQIPSIVTSKYVNTTLDKIKINFTENNYVYDTPGLVKHNHIAIATAPNY;locus_tag=LOCUS_09390;note=MGA_939
sequence1	MetaGeneAnnotator	CDS	578212	578376	.	+	0	ID=MGA_940;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPLHRTKKVNAQHYFKKNRYSLSPRLLSSDSDFEVHTFLYNDDKKIDLHISGLG;locus_tag=LOCUS_09400;note=MGA_940
sequence1	MetaGeneAnnotator	CDS	578646	579002	.	+	0	ID=MGA_941;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLVLVIEVGISASKVGLVNQYGDLQAQFSVDHQKDRIIPNLYEKIIDGLETIGINYDDDIEKVGIAIPGYVDHMLGIIRYSANLELTNYNIKEEAEELFKKQIFVINDANASALGEF;locus_tag=LOCUS_09410;note=WP_011183395.1 ROK family protein (Mesoplasma florum) [pid:31.6%25%2C q_cov:98.3%25%2C s_cov:36.9%25%2C Eval:1.7e-10%2C partial hit],internal stop codon at [579000:579002](+),MGA_941
sequence1	MetaGeneAnnotator	CDS	579138	579596	.	+	0	ID=MGA_942;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFQDKYDCVCGLKGCIEPMSSTTGIVNHFKKSLKSKKNHPASSYFNNIETITFKEIVEVFENNEDPIEVILLLQEAVEPLVMHMATMQNALDPEAIILAGGLTQLDQHIIKIIKKNIKKYIIEMFAEELTIENAQLGNDSAMIGSAYYALND;locus_tag=LOCUS_09420;note=MGA_942
sequence1	MetaGeneAnnotator	CDS	579639	579845	.	+	0	ID=MGA_943;product=DUF896 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000071351.1;translation=MEIEELLKRINELAKIAKERELTPKEVKERDQLRKRYIVIFRQGLEQQLENVSIIDENGTITKPKKIK;locus_tag=LOCUS_09430;note=WP_000071351.1 DUF896 domain-containing protein (Staphylococcus) [pid:51.6%25%2C q_cov:91.2%25%2C s_cov:78.5%25%2C Eval:1.0e-10],MGA_943
sequence1	MetaGeneAnnotator	CDS	579994	580617	.	+	0	ID=MGA_944;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLGLLGAAGLVATTSATVVACGGDKEEEKIDLSKLTLTVESGKTLEEAKTDITKQINEKSADAKIDTDFTVTLKSKEANDEETGKDVLKDGTVLTVAATGDSKLLTGSKEVEVGAKPESEKKDISKLTAEIKAETTQEDAKKAIVAEIEKLSKDAKETVDYTIAFTKKTNEGEDVVAEGDSFKVEATKSSKLLTGTATIVVVKK;locus_tag=LOCUS_09440;note=MGA_944
sequence1	MetaGeneAnnotator	CDS	580825	580986	.	+	0	ID=MGA_945;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNRENKNLNALRILGIEAVNKANSGHPGIVLGASPVVFTLFTKLMNLNPKNPS;locus_tag=LOCUS_09450;note=WP_011183246.1 transketolase (Mesoplasma florum) [pid:73.1%25%2C q_cov:98.1%25%2C s_cov:7.9%25%2C Eval:1.5e-17%2C partial hit],internal stop codon at [580984:580986](+),MGA_945
sequence1	MetaGeneAnnotator	CDS	581083	581454	.	+	0	ID=MGA_946;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQFRQLNSKTPGHPEFGHTQGVEATTGPLGQGFTMGVGMALAESHLAGKYNTKDFNIVDHFTYVLCGDGDLQEGVCQEAISFAGRYKLNKLIVLHDSNDIQLDAPVELAQSEDIALKFKAAG;locus_tag=LOCUS_09460;note=WP_020862658.1 transketolase (Mycoplasma mycoides) [pid:69.4%25%2C q_cov:98.4%25%2C s_cov:18.4%25%2C Eval:4.2e-44%2C partial hit],internal stop codon at [580984:580986](+)%2C[581452:581454](+)%2C[581650:581652](+),MGA_946
sequence1	MetaGeneAnnotator	CDS	581461	581652	.	+	0	ID=MGA_947;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYIKNGEDLKEIEKAILTAQKSDKPTYIEVKTIIGIGATNQGTTKVHGAPLGNDIETVKNYFN;locus_tag=LOCUS_09470;note=WP_011183246.1 transketolase (Mesoplasma florum) [pid:75.4%25%2C q_cov:96.8%25%2C s_cov:9.3%25%2C Eval:3.6e-19%2C partial hit],internal stop codon at [581452:581454](+)%2C[581650:581652](+)%2C[581695:581697](+)%2C[581818:581820](+),MGA_947
sequence1	MetaGeneAnnotator	CDS	582019	582654	.	+	0	ID=MGA_948;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYGVREFAMCAINNGMALHGGLLPVASGFFVFADYLKPALRMSAIMKVQTLSIFTHDSVAVGEDGPTHQPIEQLAMLRSIPNMSLYRPCDMAETIASYYNALNNKNNPSVIVATRQNLKELEHNNKIIEDVKKGAYILSETKNANITLIATGSEVALAMDVKAILESKGNKVNVVSMPNMNEFIKQPKKYQDSIINRNTHRFSIELSTTFG;locus_tag=LOCUS_09480;note=WP_011183246.1 transketolase (Mesoplasma florum) [pid:60.4%25%2C q_cov:100.0%25%2C s_cov:32.2%25%2C Eval:1.8e-65%2C partial hit],internal stop codon at [581818:581820](+)%2C[582652:582654](+),MGA_948
sequence1	MetaGeneAnnotator	CDS	583164	583766	.	+	0	ID=MGA_949;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYRNINYKIRTVDKKMIQVFTCKKFKRVNAFLLYNEDKKAVLFDTAYQSYKEIIKFVESNNIQITDIFITHGHFPHFYGLNEISKNQNSPNVFIGKEDLLNLFDPIKNMSNYFEGVNKCIIEPIKNLKVISQDGKVNLNGYDIEIFKKNCHTEGSLIISVPKEKCLFTGDFILKDETYLVDGLLQLNNENEKLILETFN;locus_tag=LOCUS_09490;note=WP_011183552.1 MBL fold metallo-hydrolase (Mesoplasma florum) [pid:31.9%25%2C q_cov:81.0%25%2C s_cov:68.4%25%2C Eval:2.5e-13%2C partial hit],MGA_949
sequence1	MetaGeneAnnotator	CDS	583956	584177	.	-	0	ID=MGA_950;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDSFLIINLVITFAAIILLARHYQNIIRLIKGTEPAFLGKNKIKSNEQKEESKKSEKNIKTESELKVEKNQQK;locus_tag=LOCUS_09500;note=MGA_950
sequence1	MetaGeneAnnotator	CDS	584469	584609	.	-	0	ID=MGA_951;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLDSFKIFLAVLLAFLISLIPTGSTEIFKNTILIIPGFFALVGHC;locus_tag=LOCUS_09510;note=MGA_951
sequence1	MetaGeneAnnotator	CDS	584622	584795	.	-	0	ID=MGA_952;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTLGIIIGTFITSILAYLLGSFSFSIAIVKLKTNKDVREQGSKNAGATNASRIIGKK;locus_tag=LOCUS_09520;note=MGA_952
sequence1	MetaGeneAnnotator	CDS	584927	585202	.	+	0	ID=MGA_953;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLSEKINLKSMIFNLYKKDLLGLLSKKEFNLSEEQKNELISLGQTSECKTLFEGINNFFEKNINNEPIELSLMLTLVLQRYHYFYKTELE;locus_tag=LOCUS_09530;note=MGA_953
sequence1	MetaGeneAnnotator	CDS	585623	585751	.	+	0	ID=MGA_954;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNKYDKMNQKELEEKLLIVEKEYKELLNEEKKIDKKVKKNL;locus_tag=LOCUS_09540;note=MGA_954
sequence1	MetaGeneAnnotator	CDS	586199	586351	.	-	0	ID=MGA_955;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELINSIKKAKNIYAISCYQQLFNTELFISELNLLGYNGHFNYQRKLNET;locus_tag=LOCUS_09550;note=MGA_955
sequence1	MetaGeneAnnotator	CDS	586448	586693	.	-	0	ID=MGA_956;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKSIKEKLILIKANLENQTHVSIANYLLECIENKKTPKINECSKESFCSESVITAFAKKYGYDGFKELAIRIKVETEYYN;locus_tag=LOCUS_09560;note=WP_011183323.1 MurR/RpiR family transcriptional regulator (Mesoplasma florum) [pid:62.5%25%2C q_cov:98.8%25%2C s_cov:32.1%25%2C Eval:5.2e-23%2C partial hit],internal stop codon at [586199:586201](-)%2C[586448:586450](-),MGA_956
sequence1	MetaGeneAnnotator	CDS	586812	587051	.	+	0	ID=MGA_957;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINFSKKFEIGASMSAMQTEGKGVTKIGQLAFDKYFQEKPELFHNNIGPDITCDITRHYKEDIKMFKEIGFDSLRTGFS;locus_tag=LOCUS_09570;note=WP_011183324.1 glycoside hydrolase family 1 protein (Mesoplasma florum) [pid:69.6%25%2C q_cov:100.0%25%2C s_cov:17.5%25%2C Eval:5.4e-28%2C partial hit],internal stop codon at [587049:587051](+)%2C[587181:587183](+)%2C[587202:587204](+),MGA_957
sequence1	MetaGeneAnnotator	CDS	587286	587471	.	+	0	ID=MGA_958;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTFNEPLVPVYEGYLNDRHYPAIDDPKQAVQQAYGIFLAHSKVLLAFRKYGLKAPIGVVFN;locus_tag=LOCUS_09580;note=WP_011183324.1 glycoside hydrolase family 1 protein (Mesoplasma florum) [pid:60.7%25%2C q_cov:100.0%25%2C s_cov:13.5%25%2C Eval:2.2e-16%2C partial hit],internal stop codon at [587049:587051](+)%2C[587181:587183](+)%2C[587202:587204](+)%2C[587469:587471](+)%2C[587736:587738](+),MGA_958
sequence1	MetaGeneAnnotator	CDS	587562	587738	.	+	0	ID=MGA_959;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNGVIDPILIKTLKQYSILPIYSEEELLIIKQTKIDFLGINYYFPCRVKAQSNGKNR;locus_tag=LOCUS_09590;note=WP_011183324.1 glycoside hydrolase family 1 protein (Mesoplasma florum) [pid:65.5%25%2C q_cov:100.0%25%2C s_cov:12.8%25%2C Eval:1.9e-17%2C partial hit],internal stop codon at [587469:587471](+)%2C[587736:587738](+)%2C[587799:587801](+)%2C[587868:587870](+)%2C[588030:588032](+),MGA_959
sequence1	MetaGeneAnnotator	CDS	587889	588032	.	+	0	ID=MGA_960;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGVENENRFRDEQGVINDDYRIEFLENHLSQIKKAIDDGSNCFGYHI;locus_tag=LOCUS_09600;note=WP_011183324.1 glycoside hydrolase family 1 protein (Mesoplasma florum) [pid:72.3%25%2C q_cov:100.0%25%2C s_cov:10.4%25%2C Eval:1.4e-15%2C partial hit],internal stop codon at [587736:587738](+)%2C[587799:587801](+)%2C[587868:587870](+)%2C[588030:588032](+)%2C[588048:588050](+)%2C[588138:588140](+),MGA_960
sequence1	MetaGeneAnnotator	CDS	588392	588643	.	+	0	ID=MGA_961;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEVAEFYETFCKINGYDTDGRTLLVKSTNSKDSDFKTKQLEEIKQIKGKFRVKGFTNKCLSFVSKVFSPIVYPLIGYGLLLTI;locus_tag=LOCUS_09610;note=WP_011183325.1 PTS transporter subunit EIIB (Mesoplasma florum) [pid:57.3%25%2C q_cov:98.8%25%2C s_cov:14.5%25%2C Eval:1.5e-20%2C partial hit],internal stop codon at [588296:588298](+)%2C[588641:588643](+)%2C[588662:588664](+)%2C[588914:588916](+),MGA_961
sequence1	MetaGeneAnnotator	CDS	588752	588916	.	+	0	ID=MGA_962;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFITIAVSYTVFKAMRCTSIYGILIGVVLTAPGLVTMGAVQVEEGQTILSQYPG;locus_tag=LOCUS_09620;note=WP_011183325.1 PTS transporter subunit EIIB (Mesoplasma florum) [pid:55.6%25%2C q_cov:100.0%25%2C s_cov:9.9%25%2C Eval:4.2e-12%2C partial hit],internal stop codon at [588641:588643](+)%2C[588662:588664](+)%2C[588914:588916](+)%2C[588947:588949](+)%2C[589019:589021](+)%2C[589160:589162](+),MGA_962
sequence1	MetaGeneAnnotator	CDS	589196	589624	.	+	0	ID=MGA_963;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPLLGALYGPLVITGLHHSLTPIILQGQSAYGATIIQGLCTLSNVSQGVATIAFVVLNRRVRQLKELGVSNGVSAIVGGITEPSLFTVNLKHLFPLIACSIGVFCGSIILVASNTFALQGASSIFGFLMFQHKAPEATGVTT;locus_tag=LOCUS_09630;note=WP_011183325.1 PTS transporter subunit EIIB (Mesoplasma florum) [pid:77.5%25%2C q_cov:100.0%25%2C s_cov:26.2%25%2C Eval:4.5e-60%2C partial hit],internal stop codon at [588914:588916](+)%2C[588947:588949](+)%2C[589019:589021](+)%2C[589160:589162](+)%2C[589622:589624](+)%2C[589643:589645](+),MGA_963
sequence1	MetaGeneAnnotator	CDS	589688	589897	.	+	0	ID=MGA_964;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTLILGKIKYFNSRTRDLLLEEYKEDLNELKLISKGDFKEILKKEKETKKSLKHQIKLEKRNKHIRNNV;locus_tag=LOCUS_09640;note=MGA_964
sequence1	MetaGeneAnnotator	CDS	590035	590259	.	+	0	ID=MGA_965;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHICILLVLSFCIIFNFSTPKINYEVNKVNTKEKVIMITFDDGPSLADETILDILKENNAKATFFGTGINYEKY;locus_tag=LOCUS_09650;note=WP_011183456.1 polysaccharide deacetylase family protein (Mesoplasma florum) [pid:61.6%25%2C q_cov:97.3%25%2C s_cov:29.6%25%2C Eval:4.0e-18%2C partial hit],internal stop codon at [590257:590259](+),MGA_965
sequence1	MetaGeneAnnotator	CDS	590293	590655	.	+	0	ID=MGA_966;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVNEGHTLGNHSYYHNKYQFKTKSAYDEFYKTSDMIVKIYAENNIPKTISDVPIRMPFLQYYRGMDYLQSKMQVEYFVRGYLGCDYDEAICGKEKILKQYKSNIRPGQILVCHTRDYAKE;locus_tag=LOCUS_09660;note=WP_011183456.1 polysaccharide deacetylase family protein (Mesoplasma florum) [pid:58.3%25%2C q_cov:100.0%25%2C s_cov:48.6%25%2C Eval:3.2e-36%2C partial hit],internal stop codon at [590257:590259](+)%2C[590653:590655](+),MGA_966
sequence1	MetaGeneAnnotator	CDS	591190	591333	.	+	0	ID=MGA_967;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKIFKPLAIIILIIGLIFLTFMYALPKGKDKKVQEQNFVMNHGNKD;locus_tag=LOCUS_09670;note=MGA_967
sequence1	MetaGeneAnnotator	CDS	591913	593835	.	+	0	ID=MGA_968;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNVSVKSKNNNVVQVTNENEIIKVTALAEGETKIIVNADNAKSPIEINVIVNKKLFDIELSNNKISIENGQTNSSIIIKNYKNLENVNVDIKNSKIASVINEGEVVKVTALAEGETKIIVNADNAKNPVEINVTVTKKLFIIELSNNNISIENGQASSSIKIKNYESLNNVSVESKNINVAQVTNENEVIKVTALAEGETKIIVNADNAKNPVEINVIVTKKLFNIELSNNNISVEAEKTDSTISIKNFEDLNNVSFKITNEKNINVTNENEIIKVTGLVEGETKIIVNADNAITPVEINVIVTKKLFNIELSNKEISIEAGQSDSITIENYNSLKNINIESKNSKIALVINESNNIKISAIAEGETKIIVNADNAITPVEINVIVTKKLFNIELSNDNITLESGQTNSSIRINNYDSLVNVGIKSKNNNVAEIKNENGIIKISALAEGETKIIVNADNAKNPVEINVIVTKKLFNIELSNNNISIEAEQNDLITIENFENLINVSIKSNNEDIIGVVHENEKIKIEGLVEGETKIIVNADNAKNPVEINVTITKKLIDIKVNKTKVKIRVGSALTKIKILNYEDLENPEVKNSSSGLITVSVKEDTISIKALLIGDATITVNADNAREIVKIEVKARLI;locus_tag=LOCUS_09680;note=MGA_968
sequence1	MetaGeneAnnotator	CDS	593981	594226	.	-	0	ID=MGA_969;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSYETSFSSIFLSDLLNQKNYKTNIFDLSKNLNNLNQIHFLDYSYIFIFTGNETESLYNAYEFLKNKIDKNNIFILYTYL;locus_tag=LOCUS_09690;note=MGA_969
sequence1	MetaGeneAnnotator	CDS	594841	595113	.	+	0	ID=MGA_970;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKKIFDLNRELKFDLDYVYFNQGISDCLHDNLAEDKRDSYFKCTKCFTIFTFESMKQALKFQKRILKDFDFELAENNYKLLRNGDNNEQ;locus_tag=LOCUS_09700;note=MGA_970
sequence1	MetaGeneAnnotator	CDS	595385	595522	.	+	0	ID=MGA_971;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINTMDDLDLYQNISGFLNIKKMIVANNFLLKEASKFSTSFVKKC;locus_tag=LOCUS_09710;note=MGA_971
sequence1	MetaGeneAnnotator	CDS	596680	597492	.	+	0	ID=MGA_972;product=deoxyribonuclease IV;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183230.1;translation=MEKQKFYLGSHVGMNAANNYLIGSAKESIENGANTLMFFTGAPQNTRRTETSKLNIVEFKSMLIENNIDISKVICHGPYTINLANTVKAETFDLGVRLLKEELLRLEEIGVHTVVLHPGAAVGAPRELALANIAKGLNMVYKALPNTPVKVALETMSGKGTEVCITFEEIKTVLDLVEQKDKVGVCFDTCHMHDAGYDVKNNFDKVVEEFDQIVGLDKLLAIHLNDSKNPIANHKDRHENIGYGYIGFESLANIVHNPLFKEIPIVLETP;locus_tag=LOCUS_09720;EC_number=3.1.21.2;note=WP_011183230.1 deoxyribonuclease IV (Mesoplasma florum) [pid:52.2%25%2C q_cov:98.9%25%2C s_cov:91.1%25%2C Eval:1.1e-72],MGA_972
sequence1	MetaGeneAnnotator	CDS	597758	598033	.	-	0	ID=MGA_973;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSDDFLDDNVNMNTLFHLLGNNQRNEITNKEINELCIKVLSNFNLIYSDLKIINLFDKECLKKYKCDFKKILENEQINLKEMNQYSENPSI;locus_tag=LOCUS_09730;note=MGA_973
sequence1	MetaGeneAnnotator	CDS	598438	598857	.	+	0	ID=MGA_974;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGFLIGNEEKLITFLTDSFQNDKSKPVEVYFKYKDPNNKENPDKLNDKYLDLKFTNIPELKKGVYKDSNSIFGNINKTIQIEKYFFNDLSDVVKQNDTKSLDSAFFKKNKKSTLKFIKGIFKAIKESSENNIDLSNTLQ;locus_tag=LOCUS_09740;note=MGA_974
sequence1	MetaGeneAnnotator	CDS	599112	599336	.	+	0	ID=MGA_975;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKTISILKKRRKNTIQILYRLFLLEEDINKIKQEVLDGFQLETFEEELNNYIFDILDNTLEYKALISNLLPEL;locus_tag=LOCUS_09750;note=MGA_975
sequence1	MetaGeneAnnotator	CDS	599526	599936	.	+	0	ID=MGA_976;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSITNFTNFKDDLADHLSLMAKEIKFLLYKEFKNYIFKLKISSYTEVKENFFTKAFCELSTYCYLQSFESKLLNSKNYLIVKDYLKNSKRKFSKQNFENVVFITATKVSKKDPEIQDVIHKLTDELNVNVTIRNLD;locus_tag=LOCUS_09760;note=MGA_976
sequence1	MetaGeneAnnotator	CDS	600252	600494	.	+	0	ID=MGA_977;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDNYKATLVNDLKFFEIFIKDDSPIFTIDKDNFFSLLKPLSLRNFKNFNELIKYLFKNKKRNPTTELTTDTSKTTDTLN;locus_tag=LOCUS_09770;note=MGA_977
sequence1	MetaGeneAnnotator	CDS	601059	601241	.	+	0	ID=MGA_978;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTEMIFKITDFTDMLKEYLENSNTFKNVNVKGEVANLTLNKTGHIYFSLKDSQAKIDCAI;locus_tag=LOCUS_09780;note=WP_011183228.1 exodeoxyribonuclease VII large subunit (Mesoplasma florum) [pid:51.7%25%2C q_cov:100.0%25%2C s_cov:14.9%25%2C Eval:3.3e-12%2C partial hit],internal stop codon at [601239:601241](+)%2C[601431:601433](+),MGA_978
sequence1	MetaGeneAnnotator	CDS	601713	602099	.	+	0	ID=MGA_979;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEVLQAIKESEIPVISGVGHEPDITLADYVSDFRASTPTAAGEKATPDTESVLQALSTKTNDFAKVLKNKIEKIIIEVDNFSAKLQLSIKSKFNQMINNFKNTSINFNSIIINKLNFINTSFENNILI;locus_tag=LOCUS_09790;note=WP_011183228.1 exodeoxyribonuclease VII large subunit (Mesoplasma florum) [pid:40.5%25%2C q_cov:98.4%25%2C s_cov:27.5%25%2C Eval:8.9e-18%2C partial hit],internal stop codon at [601698:601700](+)%2C[602097:602099](+),MGA_979
sequence1	MetaGeneAnnotator	CDS	602320	602532	.	+	0	ID=MGA_980;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNMNKKNFNELLDEIKNISNKLNDSNTSMEDSIELFKKGTDMIKEAKEQLTNLEGEVKKVLDNNEVTNF;locus_tag=LOCUS_09800;note=MGA_980
sequence1	MetaGeneAnnotator	CDS	602556	602930	.	-	0	ID=MGA_981;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=METDGGLDLVLLGIGIDGHFCGNLSGVTKFGDKTRLIKNKDLENNISVPKLDNNLFHDEYVTMGPREIMATKNIIMIANGENKAEIIDQLLNGPVVEDIPSTILTLHPYFNLIIDEDANKIAKK;locus_tag=LOCUS_09810;note=WP_011182928.1 glucosamine-6-phosphate deaminase (Mesoplasma florum) [pid:78.1%25%2C q_cov:91.9%25%2C s_cov:47.7%25%2C Eval:3.3e-49%2C partial hit],internal stop codon at [602949:602951](-),MGA_981
sequence1	MetaGeneAnnotator	CDS	602949	603275	.	-	0	ID=MGA_982;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRVITTKNYEDMSNKALELFIDIINKDEHKKRINVALTGGKTPLLFYKKLISNLDKINELERIHFYNFDEIPYKNDLSKGITIDDLERIFYSLTKIDEGNIHKMNILN;locus_tag=LOCUS_09820;note=WP_011182928.1 glucosamine-6-phosphate deaminase (Mesoplasma florum) [pid:53.7%25%2C q_cov:100.0%25%2C s_cov:45.2%25%2C Eval:4.7e-32%2C partial hit],internal stop codon at [602949:602951](-),MGA_982
sequence1	MetaGeneAnnotator	CDS	603419	603748	.	+	0	ID=MGA_983;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLIDLKNFKDLYQLKDNENLKQLAQEIRFFLNDFVKKNKGHIGSNLGVVELTLSILVYYNLDNSIVLFDTGHQSHVYKLLIHGIKKFNTLKKFKGLSNFQEIQESEHD;locus_tag=LOCUS_09830;note=WP_010965377.1 1-deoxy-D-xylulose-5-phosphate synthase (Clostridium) [pid:45.3%25%2C q_cov:95.4%25%2C s_cov:17.1%25%2C Eval:2.7e-19%2C partial hit],internal stop codon at [603746:603748](+),MGA_983
sequence1	MetaGeneAnnotator	CDS	603800	604693	.	+	0	ID=MGA_984;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MASNKENIISIIGDAAFLGSYTLPGLINLQNTNKKTITILNDNNQAIGENSIKIKDMKMYIESLGLKYIKCNDGNNFDQLFSAFDQAKKETKHVFIHCITKKALGYSGEEILFENHSLEAIIPNNYSKLVSSELEKYFTKNDYLVCPAMISSSNFNNLKNKFNQNVIDVGINEEFSVLTACAIANTSKKTFISIYSTFFQRIFDQLVHDVFRNNLAITFLIDRGGLSYGGGVSHHGIYDLSLINNFNQAIVCQPYSINDLKQMVKQAYITNNKQFFLRYENLEAIEDGSNSQFEIGE;locus_tag=LOCUS_09840;note=WP_003733809.1 1-deoxy-D-xylulose-5-phosphate synthase (Listeria monocytogenes) [pid:29.6%25%2C q_cov:93.3%25%2C s_cov:51.1%25%2C Eval:2.8e-32%2C partial hit],internal stop codon at [603746:603748](+)%2C[604691:604693](+),MGA_984
sequence1	MetaGeneAnnotator	CDS	605058	605747	.	+	0	ID=MGA_985;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENIIDKNYFLDKVSKDKEIVDLLHKQTSKENIEFFEHLKELRRILHLKTQTDKKILFEYEKLIVIPTGSEDTLVKELNKFNKEIYANLPEHYILEFEKDENIKNTSSNNLEKAYQKNLNPIVEKTIQDFGDSISSESNPNDFIDNLLKDETYESEIIKNSREIYVDSNEEKNKMLLDIRDSLKKGNYNKLNLTKPFSLSTTKYMKKLEALKKGFEDTYGSELFKKVSL;locus_tag=LOCUS_09850;note=MGA_985
sequence1	MetaGeneAnnotator	CDS	605875	606099	.	+	0	ID=MGA_986;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKRLDQILLDLQLSENRNKARGFIIDGKVLVNDEKITKPGTLFDQEKVKIKITKQENEFVSRAGNKLQKAIKY;locus_tag=LOCUS_09860;note=WP_004081998.1 TlyA family rRNA (cytidine-2'-O)-methyltransferase (Thermotoga) [pid:44.4%25%2C q_cov:97.3%25%2C s_cov:26.2%25%2C Eval:2.9e-08%2C partial hit],internal stop codon at [606097:606099](+)%2C[606226:606228](+),MGA_986
sequence1	MetaGeneAnnotator	CDS	606683	607033	.	+	0	ID=MGA_987;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKNKKVIFLLDMDAFFASCHMAKDPSLRNKNVVVASPNRRAIVTTASYNARKFGIRAGTPVFKALEMCKDLYIANSDFSLYIDYSEKVFDIIYNNFTKSFEVASIDECYIDMTKT;locus_tag=LOCUS_09870;note=WP_011183225.1 DNA polymerase IV (Mesoplasma florum) [pid:53.6%25%2C q_cov:95.7%25%2C s_cov:30.3%25%2C Eval:2.7e-27%2C partial hit],internal stop codon at [607031:607033](+)%2C[607214:607216](+),MGA_987
sequence1	MetaGeneAnnotator	CDS	607079	607216	.	+	0	ID=MGA_988;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIYKETGLTCSIGISTNKFLAKTCVDFNKPKGISFLLEEEIEEKL;locus_tag=LOCUS_09880;note=MGA_988
sequence1	MetaGeneAnnotator	CDS	607220	607363	.	+	0	ID=MGA_989;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVEKMFMIGPATQKILNQNNISTIRDLALHDLNFLIEILGKRGMTL;locus_tag=LOCUS_09890;note=MGA_989
sequence1	MetaGeneAnnotator	CDS	607442	607705	.	+	0	ID=MGA_990;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFTTTNHEEIEEIIYELSLKIADRAKKRFLQGKTITIVVKYLDDNTSEFYNDKLRKKHITKQESVQELTNDPEIIYSVAKQCFYEL;locus_tag=LOCUS_09900;note=MGA_990
sequence1	MetaGeneAnnotator	CDS	607724	607984	.	+	0	ID=MGA_991;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLGVRISNLANQIEQTKQLSIDEIDLYEGIDYSEVEKVIYNLNLKFGKDKIFTGDKLLKYIEKNVVQSKFLKNDDVHISNEQMINK;locus_tag=LOCUS_09910;note=MGA_991
sequence1	MetaGeneAnnotator	CDS	608008	608172	.	+	0	ID=MGA_992;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYRIDDLILELHSIHNQLNKFLFSNTLLQVKINIETSKRKSRLTLGHFDTAKD;locus_tag=LOCUS_09920;note=MGA_992
sequence1	MetaGeneAnnotator	CDS	608257	608622	.	+	0	ID=MGA_993;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVHQYNFERNIKDVENNQRHNKHFKKICEEVAMLTVAKNSRRGFSSTSPSQELVKFIENELDFNKDLFTSLMHKDAINYHPKGYNKSNKYLCKGCDTIINNSREVTLNIKCMDCNIMFEIL;locus_tag=LOCUS_09930;note=MGA_993
sequence1	MetaGeneAnnotator	CDS	608746	609606	.	+	0	ID=MGA_994;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSGIVPKFCPTHLKIHTCELQNVFNKNKVIHEGLNAKIRRMHGIQTEEEIAQSNLKQKDAPGSIGDILSKAKVRIEEEKEKIAKLPHNEEPETKVVNNDEINDRIANLKAKMAENNQSPSNTSSDLQTVIENAQNYQSNHPETQYEAPKRANQGKTNGRILPRANRPHITSKSADLVANNTTKSAKIKQTSIKKDIDERMFTQEETQELIQLAVKEALKQVGLIKNDKIKKKPTTKKLTNKTKTSTVAKKATNKKVSTKTKESAIVKKQSNKKPTVTKKVISKKNK;locus_tag=LOCUS_09940;note=MGA_994
sequence1	MetaGeneAnnotator	CDS	609660	609854	.	-	0	ID=MGA_995;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENDQRVKIVKKRDNRELEEIESITAFQLKKLKKTKFDYILKNNQSKSKFFKEIDNLIKLIEEG;locus_tag=LOCUS_09950;note=MGA_995
sequence1	MetaGeneAnnotator	CDS	609978	610235	.	-	0	ID=MGA_996;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIIGVSGFIGTGKTTMLEYLIKNPKIKVIEADKVSKDILYDVKILNFIKKFMPEAISENKINRSILRGFLFNNHKLNEKFTKIA;locus_tag=LOCUS_09960;note=WP_011183178.1 dephospho-CoA kinase (Mesoplasma florum) [pid:45.1%25%2C q_cov:96.5%25%2C s_cov:43.5%25%2C Eval:3.4e-09%2C partial hit],internal stop codon at [609978:609980](-),MGA_996
sequence1	MetaGeneAnnotator	CDS	610710	610997	.	-	0	ID=MGA_997;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNTINNFEENKTSEIQQNQQSLETKPYENIKEVKKNYNEIDLSQDKTFDPLVETKCILFYKKLIKMLEIADNTDTQLYLNVVEKLKIIKDSQYND;locus_tag=LOCUS_09970;note=MGA_997
sequence1	MetaGeneAnnotator	CDS	611022	611222	.	-	0	ID=MGA_998;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKAFDLQTGTSLADQYVKVKKPKINEKNLIDKSIYKDDIKIKNSEISKNLETNDFKTAEIAKNITN;locus_tag=LOCUS_09980;note=MGA_998
sequence1	MetaGeneAnnotator	CDS	611403	611558	.	-	0	ID=MGA_999;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTLTTFLSLLSASPFFMGVSLQFSISNFIEIDEAITIKIVNQLEGQFGQIY;locus_tag=LOCUS_09990;note=MGA_999
sequence1	MetaGeneAnnotator	CDS	611574	611717	.	-	0	ID=MGA_1000;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLSLLAIIFLTSRLITYYIGYKIKNKNGISRIVRPIRSYQITIIFV;locus_tag=LOCUS_10000;note=MGA_1000
sequence1	MetaGeneAnnotator	CDS	611757	611969	.	-	0	ID=MGA_1001;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKFKILKNNKKSQFMIIALIVCSFLILIYTILLSISPIISKNNILTINDAILQENYQNILSMFLYNGKS;locus_tag=LOCUS_10010;note=MGA_1001
sequence1	MetaGeneAnnotator	CDS	612066	613127	.	-	0	ID=MGA_1002;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKEGANMKKIKRNLILPTDFLNNWLTQKEDGSFCFKYIDFVSDKVEEIKMDNVPFIEVLFSDYENYDVKKILKQFNQISKVAKAIIDKRIKKNKDNIEVTGKEVLFLKYFYFLITIINGEYKYSFSNSNKKYRIFDVLNKDIQKEYRLIILDVISYVLFEMYDYIFSKRTFESLYEYVEDSSINFDLQEYQKRIIIPYDILVTQNYKFLDIYFHNIVNNTFFKFFRISDLDRETFLLTNKTIANFIDDRTKINILSIFVIDPKVAIGLVNLGPGRGEYRPLFKYFNESVINKEILPYCLSPEHKIEEDGIYLSGEQRFKFSVFELIENQVKLINDCLTYRDLKSDFDQFIKY;locus_tag=LOCUS_10020;note=MGA_1002
sequence1	MetaGeneAnnotator	CDS	613138	613398	.	-	0	ID=MGA_1003;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166305.1;translation=MSYYYKHEYGFSTHSIQRIRQRLRLKDEEEFKLKDKILKMIAKSIYSFETSKHIYIKTLKSEVYFVVDKIQKTIITATPISPTKQL;locus_tag=LOCUS_10030;note=WP_011166305.1 hypothetical protein (Mycoplasma mycoides group) [pid:40.7%25%2C q_cov:100.0%25%2C s_cov:94.5%25%2C Eval:1.0e-13],MGA_1003
sequence1	MetaGeneAnnotator	CDS	613378	613608	.	+	0	ID=MGA_1004;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIIITHKVPHLYDYKVFLYYIKVKIKKGYIKNVNYIYLIKNFIFLQKINMKYKLYIKLTSSTDFISFSYSFRKQS;locus_tag=LOCUS_10040;note=MGA_1004
sequence1	MetaGeneAnnotator	CDS	614515	614733	.	-	0	ID=MGA_1005;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSLLGGISLVISSSSTVVSCFDTRPIIDHTFKDEFEIFDLGLISGVKDTPSIETIYYAIERAHKNVID;locus_tag=LOCUS_10050;note=WP_011183507.1 lipoprotein (Mesoplasma florum) [pid:61.1%25%2C q_cov:100.0%25%2C s_cov:19.9%25%2C Eval:3.4e-17%2C partial hit],internal stop codon at [614283:614285](-)%2C[614289:614291](-)%2C[614509:614511](-)%2C[614515:614517](-),frameshifted%2C insertion/deletion at around 614328%2C614264,MGA_1005
sequence1	MetaGeneAnnotator	CDS	615317	615688	.	-	0	ID=MGA_1006;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFTFGPLIGIAIGYLYTGILALENAGVGMILVGLVLGLLSGVDMGGPINKIASFGATAMIPVDGGLAMGCAAAAFAVAPLGAGISTMIFRSTFKDDKELGINATVLGVMGVSESAIPFAIKYK;locus_tag=LOCUS_10060;note=WP_012870407.1 PTS fructose transporter subunit IIBC (Thermanaerovibrio acidaminovorans) [pid:33.9%25%2C q_cov:93.5%25%2C s_cov:25.4%25%2C Eval:1.0e-10%2C partial hit],internal stop codon at [615230:615232](-)%2C[615317:615319](-)%2C[615689:615691](-)%2C[615770:615772](-)%2C[615785:615787](-),MGA_1006
sequence1	MetaGeneAnnotator	CDS	616655	616777	.	-	0	ID=MGA_1007;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDGKPTKYIFALMVLENENENYLAILSEISTKLLIDEFKA;locus_tag=LOCUS_10070;note=MGA_1007
sequence1	MetaGeneAnnotator	CDS	616784	617047	.	-	0	ID=MGA_1008;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKNIFNKEQIFLDVELNTQEEVFNFISSKAFELGIVSNKESLINGFKKRESESTTGFENGFAIPHARIKEINRSSCIFVKLKNDVE;locus_tag=LOCUS_10080;note=WP_011167001.1 PTS sugar transporter subunit IIA (Mycoplasma mycoides) [pid:44.8%25%2C q_cov:100.0%25%2C s_cov:57.2%25%2C Eval:3.7e-16%2C partial hit],internal stop codon at [616784:616786](-),MGA_1008
sequence1	MetaGeneAnnotator	CDS	617175	617669	.	-	0	ID=MGA_1009;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVENILKIFKITMFENKIVKIGIINDKLSYIGFEQDNIHDFYNKYTIRNVIKDDEFIKYINFLRKFENKEKIELDFQDLFLPNLTQKQIEILKELCKLDYGQYKTYSDFAKDIKKSDHTRFIASCMGKNPILLLIPCHRLISKNLDIKYRSGREIKSFLIKNNY;locus_tag=LOCUS_10090;note=WP_003246311.1 methylated-DNA--[protein]-cysteine S-methyltransferase (Bacillus) [pid:44.2%25%2C q_cov:46.3%25%2C s_cov:43.0%25%2C Eval:2.1e-13%2C partial hit],MGA_1009
sequence1	MetaGeneAnnotator	CDS	617769	618014	.	-	0	ID=MGA_1010;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTAGTIILTLCLNPKLDRDKISKANHEYQTMIAEAMQGRKYEMDQSIYEDKKDIDDFLAELQNGKNKHNNKNKNDEKDQDA;locus_tag=LOCUS_10100;note=WP_011167095.1 hypothetical protein (Mycoplasma mycoides) [pid:52.8%25%2C q_cov:61.7%25%2C s_cov:10.8%25%2C Eval:1.4e-07%2C partial hit],MGA_1010
sequence1	MetaGeneAnnotator	CDS	618123	618284	.	-	0	ID=MGA_1011;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTLVIPSMFLIMMAFSFIKGFSYIFGSDVPLSQLSGSLFNVAKQQGEKANFSD;locus_tag=LOCUS_10110;note=MGA_1011
sequence1	MetaGeneAnnotator	CDS	618615	619028	.	-	0	ID=MGA_1012;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVNITKEKIKFVKPDNKTIDDILSDITYLQTYCFNNLQIARDTLTDESFELSEEFVKENSKISNEMKEKYLKSSEKTVIEPEIVDKQKEKPNTEIPDYSNMAGAQSAQGNPFMGTVPLHPLQDPRFYPYNNKPKYTK;locus_tag=LOCUS_10120;note=WP_011167095.1 hypothetical protein (Mycoplasma mycoides) [pid:27.9%25%2C q_cov:93.4%25%2C s_cov:30.1%25%2C Eval:3.4e-09%2C partial hit],internal stop codon at [618615:618617](-)%2C[619050:619052](-),MGA_1012
sequence1	MetaGeneAnnotator	CDS	619050	619229	.	-	0	ID=MGA_1013;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEANKIYQNSIFLLANLIKDEKLRVELLNNLDYKKQVIELVNNLLILEIDENCSFKDKK;locus_tag=LOCUS_10130;note=MGA_1013
sequence1	MetaGeneAnnotator	CDS	619249	619542	.	-	0	ID=MGA_1014;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEMNNDIFSFLALLASNLVTLRNIILLKEEKMSNSEIASTLGANPYRISKLLEQNKLNIKQINDKIKLLYLLEKNIKGGIFDNKIIPEIELLKMFNI;locus_tag=LOCUS_10140;note=WP_011183266.1 DNA polymerase III subunit delta (Mesoplasma florum) [pid:39.6%25%2C q_cov:93.8%25%2C s_cov:28.2%25%2C Eval:2.9e-13%2C partial hit],internal stop codon at [619552:619554](-),MGA_1014
sequence1	MetaGeneAnnotator	CDS	619552	619980	.	-	0	ID=MGA_1015;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHKDYDVKYVEQILNKNNSEVEVIMTLNSDKFSKKLKIAKLTDEKCKMLKLDEPNLVQKKAIVTKKLENAKIEFDSDSIEIFLDKLPNDMQVFTNEINKIIALRKKVTKKLIDEITSKYNNFDSFEIANCFISNDIKTFLKQ;locus_tag=LOCUS_10150;note=WP_013448044.1 DNA polymerase III subunit delta (Mycoplasma leachii) [pid:37.3%25%2C q_cov:98.6%25%2C s_cov:44.3%25%2C Eval:4.0e-16%2C partial hit],internal stop codon at [619552:619554](-)%2C[620005:620007](-),MGA_1015
sequence1	MetaGeneAnnotator	CDS	620005	620202	.	-	0	ID=MGA_1016;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFVYSNDNYLIKKQIDKLSQKANTDGEYEIFEYSLIDDSILKIIEEINTYSIFSTKKIIIINDC;locus_tag=LOCUS_10160;note=MGA_1016
sequence1	MetaGeneAnnotator	CDS	620183	620398	.	-	0	ID=MGA_1017;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLAKRDFSLVKIRFSCDLIFAIFVIHPSKQDIYIQIEYIVKKYLIQNKLYFFLIFNGKLYLIGDKYVLCIF;locus_tag=LOCUS_10170;note=MGA_1017
sequence1	MetaGeneAnnotator	CDS	620334	620576	.	+	0	ID=MGA_1018;product=30S ribosomal protein S20;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008362910.1;translation=MANIKSQEKRILTNEKSRLANKAFRSSVKTAIKKALIAKQEDSKEKEALINEAVSLLDKSVTKGIFKANKAAREKSRLMK;locus_tag=LOCUS_10180;gene=rpsT;note=WP_008362910.1 30S ribosomal protein S20 (Mycoplasma mycoides group) [pid:75.9%25%2C q_cov:98.8%25%2C s_cov:97.5%25%2C Eval:3.0e-26],MGA_1018
sequence1	MetaGeneAnnotator	CDS	620601	621527	.	-	0	ID=MGA_1019;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFDYKLLYYYCKSFEYINIFTICGHFSILFLITYFLLFKVITSYKTEKKKIQKKLVFLFIFNCFYIFQANQFSKINPSVTMLNVGNGNSFLFQYKGKNILFDAGKGNGFNKKSLQQYLLYNGVRKIDALFISHNHKDHYDQIDDLKAIYNIKNIFYNYDNQFIFTIRDLKISNFIELENKDENDNSQVSLLEVKGKKILFTGDISKKRESRLLQNKDFLTKINGGIDLLQVAHHGSKTSSSQSFIKTIKPRNCFISGHKSKIYDFPSQDTIKTLKKYQCKTYITNAKNSYKYKVKSNRVIKVQKNFF;locus_tag=LOCUS_10190;note=WP_164919786.1 MBL fold metallo-hydrolase (Mesoplasma florum) [pid:35.2%25%2C q_cov:98.1%25%2C s_cov:48.6%25%2C Eval:5.6e-44%2C partial hit],internal stop codon at [621549:621551](-)%2C[621621:621623](-),MGA_1019
sequence1	MetaGeneAnnotator	CDS	621697	621930	.	+	0	ID=MGA_1020;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVIGFLSLYFFINKSAIIVRIKPILNIKRGFINKQTIQIIENFVIFESLNFQFSSTHFIIKSTHAFKKNKGKFNNEQ;locus_tag=LOCUS_10200;note=MGA_1020
sequence1	MetaGeneAnnotator	CDS	622176	622376	.	-	0	ID=MGA_1021;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKQLTTLYYIPVGEVKLAVGEFVNIGGSIEKVSIQGNFWEFTFNSYLLNRNVKYKIFEPIIEKKN;locus_tag=LOCUS_10210;note=MGA_1021
sequence1	MetaGeneAnnotator	CDS	622633	623169	.	-	0	ID=MGA_1022;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIKLTILLLLSLMIGFSILLIVNIKETEINNVIVDNQRYIYLKVKYDITLEEENILPVKVKNEENLSNSREFLQTSNLSYLNNLFEIDENNNLQKNNSIVFYPKDEINVIKTSRFKLDNDFFYTRGVSEKVSKKSAEIFLSLENSYDDCMIKLKKIYVGSKFNTDFYAKAIPKLIY;locus_tag=LOCUS_10220;note=MGA_1022
sequence1	MetaGeneAnnotator	CDS	623475	623678	.	-	0	ID=MGA_1023;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSYIHLKNPIYGNSNDSYSDPEFDLYAKEYNQFARKNAYLNPFTTFVRILFESSYDKYFNSLYYSTE;locus_tag=LOCUS_10230;note=MGA_1023
sequence1	MetaGeneAnnotator	CDS	623778	624377	.	-	0	ID=MGA_1024;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKIMNKYGEDSLIKQHLESLTNINKIFNFESNFFYLTEYNYLLNDSSYRKEINSRTYIRTLLINGLITESDNLRIYKDGSLINLEVSSEFKENKLINDLKEIKKLQPKEEKTNYNSTLFREYSKAEVIDKDLYKGSNGLYELIEKINSKTKNSELKDIANLIKKISKYAYDKYDFEKNPGYSILERPFDYYDYLRSGM;locus_tag=LOCUS_10240;note=MGA_1024
sequence1	MetaGeneAnnotator	CDS	624441	624698	.	-	0	ID=MGA_1025;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISILAIFIPTTQNFYSIKTLSNVLPGYFILFILDLLIFSIICLFVTINSSALIGVIGTIFALCSSMSLLIDASVTAFIFPSYTT;locus_tag=LOCUS_10250;note=MGA_1025
sequence1	MetaGeneAnnotator	CDS	624885	625853	.	-	0	ID=MGA_1026;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNNFFEVKNLSKVFKNKSGVNNVSFTLKKGDIVGFLGDNGSGKTTIIKLIFNEYIKNGGEILFEDNEIQKTKAFTKMAFFPDQNNYPKDFKIIDFAMYTANLKNISKKDVLENLSAYVKALNLEEYQNNKFSELSAGMQKRALLLSILITDPEIIILDEPTANLDIKSRLEFLKILSNLATKFKKTIVITSHNIDELSSLINRIVILKKVDNKGEIVYNQTFDNKKENIRDIYIEQVGGLTNNINFDKVIEIENKTNVIESKTKKVALNFAIAKRVFFELIKSKIFIIMSVILFTSTIFVELLFLYLLPPKNFDINSTLLA;locus_tag=LOCUS_10260;note=WP_011387629.1 ABC transporter ATP-binding protein (Mycoplasma capricolum) [pid:31.6%25%2C q_cov:73.3%25%2C s_cov:98.3%25%2C Eval:5.1e-35%2C partial hit],MGA_1026
sequence1	MetaGeneAnnotator	CDS	626374	626640	.	+	0	ID=MGA_1027;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKINSSSSKANKSSKQISLNKIPDTEMEFLANFKDKKINEIFNNYNKIYNNLFSVFIDKTIKKEKIEETMEALSFLSKAEPDIILTIL;locus_tag=LOCUS_10270;note=MGA_1027
sequence1	MetaGeneAnnotator	CDS	626687	627163	.	-	0	ID=MGA_1028;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDHIFEIVNNLREFRANQNIKNAISLNIHFNLKKSKFKSIIEKGISYINIFVEKLVNCKLDISIIDDKDLTSIAIKDYFLDISNKDFFDKDKAIQETQDKINELLLEIDRSEKMLANENFLKRAAAEKVLAEKEKYINYKKQHELLVDKLNELKKEKA;locus_tag=LOCUS_10280;note=WP_011183252.1 valine--tRNA ligase (Mesoplasma florum) [pid:40.7%25%2C q_cov:94.9%25%2C s_cov:16.8%25%2C Eval:1.3e-25%2C partial hit],internal stop codon at [627197:627199](-)%2C[627389:627391](-)%2C[627407:627409](-),MGA_1028
sequence1	MetaGeneAnnotator	CDS	627635	627868	.	-	0	ID=MGA_1029;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVFQSLEFTSSKPFKDVLIHGLIRDEQGRKMSKSLGNGVDPMDVIEKYGADSLRYFLLTNSSPGQDLRYSEEKLTST;locus_tag=LOCUS_10290;note=WP_004398606.1 valine--tRNA ligase (Bacillus) [pid:83.1%25%2C q_cov:100.0%25%2C s_cov:8.8%25%2C Eval:6.2e-32%2C partial hit],internal stop codon at [627389:627391](-)%2C[627407:627409](-)%2C[627506:627508](-)%2C[627614:627616](-)%2C[627635:627637](-)%2C[627878:627880](-)%2C[627962:627964](-)%2C[627983:627985](-)%2C[628001:628003](-)%2C[628031:628033](-)%2C[628094:628096](-)%2C[628115:628117](-)%2C[628118:628120](-)%2C[628139:628141](-),MGA_1029
sequence1	MetaGeneAnnotator	CDS	628265	628753	.	-	0	ID=MGA_1030;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYHFKYILSDNQKDFLQVATTRPETMFGDVCLVVNPKDKRYSKYIGKTVINPSNKALIPVITDEYVEIEFGTGVMKCTPAHDPNDFEIGLKHNLEQIVVMNDDATMNDLAQEFQGLDRFEARKQLIAKLTKEGTFIKKEEIVHQVGYSERSNAIVEPFISDQ;locus_tag=LOCUS_10300;note=WP_011183252.1 valine--tRNA ligase (Mesoplasma florum) [pid:65.6%25%2C q_cov:100.0%25%2C s_cov:18.6%25%2C Eval:2.9e-60%2C partial hit],internal stop codon at [627983:627985](-)%2C[628001:628003](-)%2C[628031:628033](-)%2C[628094:628096](-)%2C[628115:628117](-)%2C[628118:628120](-)%2C[628139:628141](-)%2C[628160:628162](-)%2C[628265:628267](-)%2C[628817:628819](-)%2C[628991:628993](-)%2C[628997:628999](-),MGA_1030
sequence1	MetaGeneAnnotator	CDS	629736	630347	.	-	0	ID=MGA_1031;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSTIDFQNISAISFKKILIKKNILAFLKIFILVSPLVIFTVTQGLNLETNINNIPAYLPNPIENIELVELPATVSKGIMFSLVNLIINVNKEISFGLSLIFIGSIFSLFALTFVYIAYRISMNKILKSINKTFNKIAKTLKHEELESYNDNLTEIIIELELKEKAIQYERILNLYNLLEYKETKLLKTIKKSIKKPEFSVLAI;locus_tag=LOCUS_10310;note=MGA_1031
sequence1	MetaGeneAnnotator	CDS	630375	630566	.	-	0	ID=MGA_1032;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKNIRKNIDLNNIIVYSAIISLFAIFLLIPSVDNLRFNYVNSKMLIGIKLILGTISIISIL;locus_tag=LOCUS_10320;note=MGA_1032
sequence1	MetaGeneAnnotator	CDS	630759	631058	.	-	0	ID=MGA_1033;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNVMLLPSFLNSFQKLTQSNKEVESNYKNLIKTQYFSNESLFKDAKFSENYLNVVFKKNDLVSKNGLFIFSNNKDLTNNEILEIKKINDKILDNYTKI;locus_tag=LOCUS_10330;note=WP_011183232.1 hypothetical protein (Mesoplasma florum) [pid:54.1%25%2C q_cov:99.0%25%2C s_cov:28.7%25%2C Eval:5.6e-25%2C partial hit],internal stop codon at [630684:630686](-)%2C[630759:630761](-)%2C[631161:631163](-)%2C[631167:631169](-)%2C[631275:631277](-),MGA_1033
sequence1	MetaGeneAnnotator	CDS	631275	631511	.	-	0	ID=MGA_1034;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRNQKNSINLLKKHNKIIRKFFKTNLMSLFAFIFDQTIFSITLVLFITNLFIKESNDIVSYLIVGGSIYLLLKFTYIN;locus_tag=LOCUS_10340;note=MGA_1034
sequence1	MetaGeneAnnotator	CDS	631492	631893	.	-	0	ID=MGA_1035;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVLHTVVPIATIAYYLFLMKQELNFSFKEFIKKDFLVMCIYPIIYLIFSLIRGELIYRSVGSNALLASKKGAYPYFFLEIHNNQVSGLSGIVWMFIAIIAIISIIIGLGSLYLFIASKINNYKGEITNEESEK;locus_tag=LOCUS_10350;note=WP_011183405.1 hypothetical protein (Mesoplasma florum) [pid:31.1%25%2C q_cov:88.0%25%2C s_cov:34.5%25%2C Eval:9.0e-07%2C partial hit],internal stop codon at [631903:631905](-)%2C[631906:631908](-)%2C[632077:632079](-),MGA_1035
sequence1	MetaGeneAnnotator	CDS	632077	632259	.	-	0	ID=MGA_1036;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINIGDSVYKIDGEEFKKWAIYIKDINNNKPGEFVGYDYQGYIINYFSFFTIQSNILVAI;locus_tag=LOCUS_10360;note=MGA_1036
sequence1	MetaGeneAnnotator	CDS	632516	633325	.	-	0	ID=MGA_1037;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYYILVKDGVFFVVSPDMTEVNRFLNYDEAQVFCNNLNLMSSNSNGISNPNFGVRSNFTTEFGTSEFTPSILGMNKLKPNNMPLVNYGEIVFNYGEDMTQEHNNLLHNTLQQSESNFIVNPQINHNCNHHDNNQTFGCEFCGSNINYNNSLNVTPEPIQQSTPAEETVKIIEEDKKLTEEEKKLKELEIRENLERLKVLEKMKKNNKQKATVKSKSATVVKKRIAPESVNKKALVKEERLLKKEDRNISDSDEFLTTEDIKKFITKLKK;locus_tag=LOCUS_10370;note=MGA_1037
sequence1	MetaGeneAnnotator	CDS	634279	634971	.	-	0	ID=MGA_1038;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFTTILPVILIIVAFAVMINDSSVNEMIIQGSTWSEVLTGATVALVVSSTGITYSLLLVYLLTSGNNIVASEVDKGTMVNLLTTNQSRKSVILTKGGTFVFSLFISIFIQFLTTIITISVFGKGGEINIGLFAMYFFGLFLMLYAISSIAFICSCYFNKSAASLSTAGGISIIFYVLFFASQIPSVEFLKYFSLNSLFTVEFNNVSEISKYLGQYIALGVIGTGLYIASY;locus_tag=LOCUS_10380;note=MGA_1038
sequence1	MetaGeneAnnotator	CDS	634972	635169	.	-	0	ID=MGA_1039;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKNKLEFIKEHPLNLEQYFMKYYQNEIETDVIESLDNINVNVSTKERKISFELIKDTMRKTLGL;locus_tag=LOCUS_10390;note=MGA_1039
sequence1	MetaGeneAnnotator	CDS	635245	635538	.	-	0	ID=MGA_1040;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHNPDIIVLDEPTSGLDPLMQEKFVKLVQKSKEEGKAIILSSHIFSEIERTCDYVSIIKRGKIISTINIEDIQYNDEKTYEIKFKDKVTQKDVESKN;locus_tag=LOCUS_10400;note=WP_011461396.1 ABC transporter ATP-binding protein (Desulfitobacterium hafniense) [pid:54.0%25%2C q_cov:89.7%25%2C s_cov:27.8%25%2C Eval:5.7e-25%2C partial hit],internal stop codon at [635245:635247](-)%2C[635539:635541](-)%2C[635614:635616](-)%2C[635644:635646](-)%2C[635767:635769](-),MGA_1040
sequence1	MetaGeneAnnotator	CDS	635767	636030	.	-	0	ID=MGA_1041;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNNAIVVKDLNKKFKSGYGIFDINFNVKYGKVFGYLGPNGAGKSTTIRSLMGFIKSDSGTSNVYLENKPNLKNDQSLITELIQFDS;locus_tag=LOCUS_10410;note=WP_000626612.1 ABC transporter ATP-binding protein (Bacillus cereus group) [pid:65.0%25%2C q_cov:69.0%25%2C s_cov:20.2%25%2C Eval:9.7e-17%2C partial hit],internal stop codon at [635539:635541](-)%2C[635614:635616](-)%2C[635644:635646](-)%2C[635767:635769](-),MGA_1041
sequence1	MetaGeneAnnotator	CDS	636171	636533	.	-	0	ID=MGA_1042;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITKQVNKQSIKITLKEIFLIFVNTHFLINSIAYKFNLNISFSFEIFIIQLLTSCSVLFYILIKIEMFKFYLIREMILSIILKIFKLFMKVLECISFFLRKLFLLIRQLFLETKNQFTLK;locus_tag=LOCUS_10420;note=MGA_1042
sequence1	MetaGeneAnnotator	CDS	637042	637182	.	-	0	ID=MGA_1043;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENRIKNIKQGVYKVALCSALIFLVSMLLTGVFITLLVITLSQKIS;locus_tag=LOCUS_10430;note=MGA_1043
sequence1	MetaGeneAnnotator	CDS	637533	637940	.	-	0	ID=MGA_1044;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEINLSGLLGNESNSKFEHEENQNKAVKRFNEAKPSSLNFLAKKSLKELVIELNTQFNSITKSTVNFSDLGELIARLAKDSTLEKALNDIENMFEILGYNSDGTLKNGSVFEQLFKILNDEDQLIGKMSDILSK;locus_tag=LOCUS_10440;note=MGA_1044
sequence1	MetaGeneAnnotator	CDS	638010	639395	.	-	0	ID=MGA_1045;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MASPIGAVVACGNKNTTEKEKPDEVEDNFESAERQDTISKLMSQYAKSLYLNQKELSDGETHFSSKYMMENNVRNEYLKTLKLTEFNDSEGVESNDKFYKVADKYFNTKDLLASDLKISDNVYQDYVLDPSAADEGIVDIIKNTLPTVLSLMSDPTTLQQLLGVVASNPSMISSIISPDLLKTLGKVLNQENLKLLENAFSNKIYENMNYQTALDSSMIGLSNAVEKLVKGNVTKLSYETQAEVEQNIDSATSSLAENISNLMNGSVELKLDLIANIDSIAEIIRFVRTLVVYMEQFSYEEMTSSVLTLEKIEEKRSQIFNSNSLDIKELLKKLNYMVNEDLNGVVFKNYIGILFATNSKNFSIGKQFTENVNDGLMGLLSKVAVIAMKQESINIIISKVYVNAMVRSIINGGINSSYGGSLFSTVIGALVSMPGILPSPVKELMQKITSVSGEGKKFKND;locus_tag=LOCUS_10450;note=MGA_1045
sequence1	MetaGeneAnnotator	CDS	639471	640013	.	-	0	ID=MGA_1046;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFAILDNLNNSNKREEIMQNALLNIKNALYTLLNNGAKKLVFLSPPDMTLIPRYYKINQATKEIIKMIGDDFNYEISKIIKIANKMYNDSILFFDLYTRFSEITQEFKNSGANKNITEELCDSTTSDLSGIDITNFELKATVKEKNVGKEEDFFFLDYVHPTKNGHQFAKKIIFNEIEKK;locus_tag=LOCUS_10460;note=MGA_1046
sequence1	MetaGeneAnnotator	CDS	640176	640592	.	-	0	ID=MGA_1047;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLLTLSSISLLTVSSSTVIACIPNATDINFDFDKNIGTQFDTRNAKDTSDDKTKHKGFSNFFTLGDSLSDQGGLQTIVKDQFNINLRMSGEYIGGFSNGLTTAALINQELAFSTQEFKSSNLVHKPEIELNQQKV;locus_tag=LOCUS_10470;note=WP_011183222.1 SGNH/GDSL hydrolase family protein (Mesoplasma florum) [pid:32.2%25%2C q_cov:94.2%25%2C s_cov:31.7%25%2C Eval:1.8e-10%2C partial hit],internal stop codon at [640176:640178](-),MGA_1047
sequence1	MetaGeneAnnotator	CDS	641183	641425	.	-	0	ID=MGA_1048;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITPGLGLESKKFINSIEKQIQTIMPKGMYVIDGQDLVYEQVMNTAIKSAYSSDALSTINSFEDSNYVIKKENYIDFSNQ;locus_tag=LOCUS_10480;note=WP_011183223.1 hypothetical protein (Mesoplasma florum) [pid:47.4%25%2C q_cov:95.0%25%2C s_cov:24.8%25%2C Eval:1.5e-14%2C partial hit],internal stop codon at [640940:640942](-)%2C[641003:641005](-)%2C[641042:641044](-)%2C[641168:641170](-)%2C[641183:641185](-),MGA_1048
sequence1	MetaGeneAnnotator	CDS	642510	642758	.	-	0	ID=MGA_1049;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLIVESIIALSMGMGSNDPTLMKIKPIKGKNSLFKGLGYTLFKIILFTTIASIGAYYFGMMFVTEDYLKEILGDQYNPSLS;locus_tag=LOCUS_10490;note=WP_011183253.1 cation-translocating P-type ATPase (Mesoplasma florum) [pid:50.0%25%2C q_cov:75.6%25%2C s_cov:6.4%25%2C Eval:3.6e-11%2C partial hit],internal stop codon at [642327:642329](-)%2C[642372:642374](-)%2C[642759:642761](-),frameshifted%2C insertion/deletion at around 642449%2C642515%2C642494,MGA_1049
sequence1	MetaGeneAnnotator	CDS	642759	643631	.	-	0	ID=MGA_1050;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPFDSERKMMTTVNTINKVNTAFTKGAIDQLLQRCSKIMIDNVVRDITEEDKKILLESANELSKDALRVLAFAYHLNYDKLKDKSDLEHDLVFLGAVGMIDPVRETAVNAVRLAHEAGIEVVMITGDHAVTALAIARDLDLAHSEYEVMTSNTLNQLDDKQLLRVIEQIKVFARVNPEHKVRIVDALKQKGNIVSMTGDGVNDAPSLSKADIGVAMGITGTDVAKQASDIILTDDNFETIIKGVNEGRNVYQKIKRAIAFVIGVNLANVLAIFILSVINTVSPLEATNIL;locus_tag=LOCUS_10500;note=WP_011183253.1 cation-translocating P-type ATPase (Mesoplasma florum) [pid:66.0%25%2C q_cov:100.0%25%2C s_cov:29.5%25%2C Eval:8.6e-100%2C partial hit],internal stop codon at [642759:642761](-)%2C[643647:643649](-),MGA_1050
sequence1	MetaGeneAnnotator	CDS	643647	644060	.	-	0	ID=MGA_1051;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVAITLAIGVIPECLAAVVSITLSISTKKMVKQHVIIKKLQAVETLGNVNFICTDKTGTLTQNKMTVKKMIMDNKIIASKEYAKEKNDNHMDLFLKALVLCNDSVTEGSERIGDPTELALVDFAETIGYDEQDSRDV;locus_tag=LOCUS_10510;note=WP_011183253.1 cation-translocating P-type ATPase (Mesoplasma florum) [pid:71.8%25%2C q_cov:95.6%25%2C s_cov:13.5%25%2C Eval:3.8e-45%2C partial hit],internal stop codon at [643647:643649](-)%2C[644073:644075](-)%2C[644148:644150](-),MGA_1051
sequence1	MetaGeneAnnotator	CDS	644148	644720	.	-	0	ID=MGA_1052;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGAAVISIIAPIISNKGHIEASEFIDAIVIFSIVLIDAILETVQTIKARKSMDALKSLSKPKTVVIRNDMQQEIDASELVPGDIVVLEAGKYVPAELRIIEANDLSIDESILTGESVSVDKTHLALKESTTILAEMKNIAFMSTFTTSGRAIGMVIKTGVETEIGKIAKSINENEEESTPLEKKLNSFTY;locus_tag=LOCUS_10520;note=WP_011183253.1 cation-translocating P-type ATPase (Mesoplasma florum) [pid:67.5%25%2C q_cov:100.0%25%2C s_cov:19.6%25%2C Eval:5.6e-65%2C partial hit],internal stop codon at [644073:644075](-)%2C[644148:644150](-)%2C[644769:644771](-),MGA_1052
sequence1	MetaGeneAnnotator	CDS	644769	644915	.	-	0	ID=MGA_1053;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDENLLGSDKELEKQLETNIKKGLTTEEVTLKQQKYGKNELPKGKITP;locus_tag=LOCUS_10530;note=MGA_1053
sequence1	MetaGeneAnnotator	CDS	644985	646214	.	-	0	ID=MGA_1054;product=serine hydroxymethyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011167047.1;translation=MKMSPIIEESLKKELKRQQDHIELIASENYVSNEVLKLTGSVLTNKYAEGYPGKRYYGGCRYIDEIESYGIELAKKIFKAEHANIQPHSGSQANEAAYRTLINPGDTVLSMSLDAGGHLTHGYPINFSGQLYNFVFYKVNKKTEEIDFKEISDLAIKHKPKLILAGASSYTKIIDFKRFKEIADSVGAYFMVDMAHIAGLVAGGVHPNPCEYADVVTTTTHKTLRGARGGLILCKEKFAKKLDSTVFPGVQGGPLENQIAGKTQALFEADSEEFKEYANQIIINAKHLANTLSKNGLRLVANGTENHTIIVEVKESIGITGKEAESILEAIGIISNKNMIPFDKEKPVHTSGIRLGTPAMTTRGFKEAEFEQVGNIIASVLKNHSEENLKILQKEVKDLCDKFPIYTNL;locus_tag=LOCUS_10540;note=WP_011167047.1 serine hydroxymethyltransferase (Mycoplasma mycoides) [pid:74.0%25%2C q_cov:99.8%25%2C s_cov:98.8%25%2C Eval:6.3e-177],MGA_1054
sequence1	MetaGeneAnnotator	CDS	646301	646657	.	-	0	ID=MGA_1055;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVSLNQLDKASILIKKYNKINNSEKINFLKLEIDKQYQIIDFVNLNNVLETINMNIVKNIHNSKFIDKKVEKEIEPIIFNNLNIVQIHYGLLQNKISNINLNELIEEKISAKKVLKTI;locus_tag=LOCUS_10550;note=MGA_1055
sequence1	MetaGeneAnnotator	CDS	646739	647230	.	-	0	ID=MGA_1056;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLPAGFLGITEPILYGINLPKKRPLLSGAIAAFFAGAIANIMGVTQRSQSGLGVFAAIGYFSDPVFNGVGKLDPVTNGLIYLVMCLFSISLAICLSMLTYKERASEKTLLARTFKNLATFSLLELNLNKNELITLKKELKLNLNLLDKNTLKLIKSVEKNIQK;locus_tag=LOCUS_10560;note=WP_011182905.1 glucose PTS transporter subunit IIA (Mesoplasma florum) [pid:45.4%25%2C q_cov:100.0%25%2C s_cov:19.4%25%2C Eval:8.1e-34%2C partial hit],internal stop codon at [646739:646741](-)%2C[647303:647305](-)%2C[647417:647419](-),MGA_1056
sequence1	MetaGeneAnnotator	CDS	647609	647881	.	-	0	ID=MGA_1057;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGITIAVSAANYFKLEGLMGVALGIILCSPLLFGDGGRLGLGHDFLILDLGTINTGNPMLDQITKIRVNTMNTKIFVIIAAIYTAKKLDT;locus_tag=LOCUS_10570;note=WP_011183516.1 glucose PTS transporter subunit IIA (Mesoplasma florum) [pid:43.7%25%2C q_cov:96.7%25%2C s_cov:10.0%25%2C Eval:6.6e-18%2C partial hit],internal stop codon at [647417:647419](-)%2C[647507:647509](-)%2C[647609:647611](-)%2C[647921:647923](-),MGA_1057
sequence1	MetaGeneAnnotator	CDS	647921	648217	.	-	0	ID=MGA_1058;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQIVIGQDVYKLKDEVIKLNNKELNLKSSIALKNENISLFRRFLVMFSAIMLKIIPIMVGTGLIQAMIAILTQTGVMPNIVFKISGPNQVLITDTGIG;locus_tag=LOCUS_10580;note=WP_011183516.1 glucose PTS transporter subunit IIA (Mesoplasma florum) [pid:47.0%25%2C q_cov:100.0%25%2C s_cov:11.4%25%2C Eval:3.7e-16%2C partial hit],internal stop codon at [647921:647923](-)%2C[648230:648232](-),MGA_1058
sequence1	MetaGeneAnnotator	CDS	648230	648919	.	-	0	ID=MGA_1059;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEINLYSPVDGEVKKIEDCKDSMFADRILGDGLVIIPKTNNFKGFFDNAIVTMVFETYHAYGFDINGLQFLIHCGMETVSLKGEGFTSKLKIGDKVSKNSDIFSVDLNLLESKNFSNETPIVFVINELEEYKINNLKLGKIKQGDLICTISYNFKEKQKEDLKSIDPIKFFNVSNKYEESAKLINKFVGGKINYNEVYNCMTRLRFSVKNKELVNIDNIKNLPIVKQTV;locus_tag=LOCUS_10590;note=WP_011182905.1 glucose PTS transporter subunit IIA (Mesoplasma florum) [pid:52.4%25%2C q_cov:100.0%25%2C s_cov:26.6%25%2C Eval:6.0e-60%2C partial hit],internal stop codon at [648230:648232](-),MGA_1059
sequence1	MetaGeneAnnotator	CDS	649069	649401	.	-	0	ID=MGA_1060;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MADIYKIRYQSIDNSKVIAVLEEQIDQLFKQIDLDKLNESIINIERTIIKKIYDLIHIKKSILKDVENIIFNNLNSVQIYYNLLKSKEENINLNLLIANLKQENLKQIKR;locus_tag=LOCUS_10600;note=MGA_1060
sequence1	MetaGeneAnnotator	CDS	649507	649998	.	-	0	ID=MGA_1061;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLPAGFLGITEPILYGINLPKKRPLVSGVAAAFLAGAIASLLNVTKRANTGIGVFQLIGFFAEPQLGGTAAISPIENGLFYLLACIISISLAVLFSMMSYKERASEKTLLTKTIKSLITFAQLELNLNKDEVTKIKEELNQTMLNLDKTTLKLIKATEKNIQN;locus_tag=LOCUS_10610;note=WP_011182905.1 glucose PTS transporter subunit IIA (Mesoplasma florum) [pid:47.5%25%2C q_cov:99.4%25%2C s_cov:19.3%25%2C Eval:7.6e-40%2C partial hit],internal stop codon at [649507:649509](-)%2C[650071:650073](-)%2C[650182:650184](-),MGA_1061
sequence1	MetaGeneAnnotator	CDS	650374	650646	.	-	0	ID=MGA_1062;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGIVLAVSAANYFKLEGLMGVALGVILCSPLLFGDGGRLGMGNDFLILDLGTINTGNPVLDDITKIRINTMNTKIFVIIGAIYTAKKLDT;locus_tag=LOCUS_10620;note=WP_011183516.1 glucose PTS transporter subunit IIA (Mesoplasma florum) [pid:47.1%25%2C q_cov:96.7%25%2C s_cov:10.0%25%2C Eval:2.7e-19%2C partial hit],internal stop codon at [650182:650184](-)%2C[650272:650274](-)%2C[650374:650376](-)%2C[650686:650688](-),MGA_1062
sequence1	MetaGeneAnnotator	CDS	650686	650856	.	-	0	ID=MGA_1063;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLAMFSGIMAKIIPVMVGAGLIQAIIAILVQTNIMPNIIFKTGSKDGVLIAEANVG;locus_tag=LOCUS_10630;note=MGA_1063
sequence1	MetaGeneAnnotator	CDS	650995	651690	.	-	0	ID=MGA_1064;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIRLYSPVNGEIKELEKCSDQMFAEKMLGDGFILIPSSNNFRGFTDIATVTMVFETFHAYSFDVDGLQFLVHVGMNTKPLKGVGFTTELEIGNIVNKDDDLFTVDLDYFKKNDLSKETAIVFDINDLNSYKINNLKIGRVKQGDLVCTITYEFISKNEKKILEPSTDSKEFFNISNKYENSAKLINKFVGGSSNYEEVYNCMTRLRFKIKNKSLVNIDELKKTNLVKGTV;locus_tag=LOCUS_10640;note=WP_011182905.1 glucose PTS transporter subunit IIA (Mesoplasma florum) [pid:49.1%25%2C q_cov:100.0%25%2C s_cov:26.6%25%2C Eval:1.9e-53%2C partial hit],internal stop codon at [650995:650997](-),MGA_1064
sequence1	MetaGeneAnnotator	CDS	652407	652559	.	-	0	ID=MGA_1065;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITENGLGVTETLTSDEKIHDDYRIDYYKQHIKAMSEAINDGVEMIGYMP;locus_tag=LOCUS_10650;note=WP_011183514.1 glycoside hydrolase family 1 protein (Mesoplasma florum) [pid:70.0%25%2C q_cov:100.0%25%2C s_cov:10.7%25%2C Eval:1.9e-15%2C partial hit],internal stop codon at [652284:652286](-)%2C[652407:652409](-)%2C[652626:652628](-),MGA_1065
sequence1	MetaGeneAnnotator	CDS	652626	652763	.	-	0	ID=MGA_1066;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTVQNESADDVKDSLINKTDQQTGYVIPGIGRSIKNKNLQKTEYG;locus_tag=LOCUS_10660;note=MGA_1066
sequence1	MetaGeneAnnotator	CDS	652917	653081	.	-	0	ID=MGA_1067;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHNLNVAQAKAIRLCRKMLPNAKIGPAPNIASVYANSNTPEDYLTKLTFEQIRN;locus_tag=LOCUS_10670;note=WP_011182908.1 glycoside hydrolase family 1 protein (Mesoplasma florum) [pid:66.7%25%2C q_cov:100.0%25%2C s_cov:11.6%25%2C Eval:4.1e-15%2C partial hit],internal stop codon at [652626:652628](-)%2C[652917:652919](-)%2C[653088:653090](-),MGA_1067
sequence1	MetaGeneAnnotator	CDS	653088	653300	.	-	0	ID=MGA_1068;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFHFDSPTFIDEKGGLDSNEFSNMFELYAKVLFENYGSKVKYWLTINELNMFVFVGEAIGLISEKSKASK;locus_tag=LOCUS_10680;note=WP_011182908.1 glycoside hydrolase family 1 protein (Mesoplasma florum) [pid:59.7%25%2C q_cov:95.7%25%2C s_cov:14.4%25%2C Eval:1.6e-19%2C partial hit],internal stop codon at [652917:652919](-)%2C[653088:653090](-)%2C[653409:653411](-)%2C[653472:653474](-),MGA_1068
sequence1	MetaGeneAnnotator	CDS	653761	654093	.	-	0	ID=MGA_1069;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKYKAIDNSQKINLLKEKIDEQYKLIDLERLNKNISELEKKIMSKLNKLSFLNKDVIKDLEPIIFNNLNSIQIYYGLLDNKNPNINLNEKIDELKKEKNLLKKELKLSA;locus_tag=LOCUS_10690;note=MGA_1069
sequence1	MetaGeneAnnotator	CDS	654214	654705	.	-	0	ID=MGA_1070;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLPAGLLGITEPILYGINLPKRRPLISGVCGAFFAGAFANIVGVTQRAKSGIGVFEAIGFFSEPVLGGVGKISSTLNGLFYLLACLMSVLLSLLFSMMSYKERESEKTLFNKTINKLRLLTMLELNLNKSDSLKLKKDLNQIVSSIDKENLQLIKSVEKNIQT;locus_tag=LOCUS_10700;note=WP_011182905.1 glucose PTS transporter subunit IIA (Mesoplasma florum) [pid:48.1%25%2C q_cov:99.4%25%2C s_cov:19.3%25%2C Eval:2.5e-35%2C partial hit],internal stop codon at [654214:654216](-)%2C[654778:654780](-)%2C[654895:654897](-),MGA_1070
sequence1	MetaGeneAnnotator	CDS	655087	655383	.	-	0	ID=MGA_1071;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKSTIYFIGIMVAVASASHFKLEGLMGIALGLILCCPFIFGDGGQNGMGNEFLLFDLGKINTGNPILDQITKIKVTSLSTKVFVIAGAIYTAKIIDT;locus_tag=LOCUS_10710;note=WP_011183516.1 glucose PTS transporter subunit IIA (Mesoplasma florum) [pid:41.2%25%2C q_cov:99.0%25%2C s_cov:11.1%25%2C Eval:2.1e-19%2C partial hit],internal stop codon at [654895:654897](-)%2C[654985:654987](-)%2C[655087:655089](-)%2C[655399:655401](-),MGA_1071
sequence1	MetaGeneAnnotator	CDS	655399	655554	.	-	0	ID=MGA_1072;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKMIPIGAGVGLIQAIIAILMQTGVMPNIVFKLSENPGANDVLFQDAAIG;locus_tag=LOCUS_10720;note=MGA_1072
sequence1	MetaGeneAnnotator	CDS	655717	656412	.	-	0	ID=MGA_1073;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLNLYSPVDGEIKNIQDCNDSIFADRMLGDGLVIIPKSNNFKGFFDNAKVTMIFDTYHAYGFDVEGLQFLIHCGMDTVLLKGEGFATNLKVGDKVTKDDDIFSVDLDLLKRKKIVNETPIVFEFNNLSSYQINNLKLGQVNQGDLICTIDYKFKSKKVEKDLKTITDPAHFFNMTNKYEKCAASINKLIGTQSNYNEVYNCMTRLRFSVKNKELVNIDEIQKLDLIKGTV;locus_tag=LOCUS_10730;note=WP_011182905.1 glucose PTS transporter subunit IIA (Mesoplasma florum) [pid:50.2%25%2C q_cov:100.0%25%2C s_cov:26.6%25%2C Eval:3.2e-61%2C partial hit],internal stop codon at [655717:655719](-),MGA_1073
sequence1	MetaGeneAnnotator	CDS	656993	657232	.	-	0	ID=MGA_1074;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTAINKLIKLSDSVEETNFKIIAKKIIENFAKGEFKNQEELAKECYVSLSTITKFSQKIGCTGYRELVFILKSEYDRYG;locus_tag=LOCUS_10740;note=WP_011182907.1 transcriptional regulator (Mesoplasma florum) [pid:52.6%25%2C q_cov:72.2%25%2C s_cov:23.4%25%2C Eval:1.2e-11%2C partial hit],internal stop codon at [656780:656782](-)%2C[656936:656938](-)%2C[656993:656995](-),MGA_1074
sequence1	MetaGeneAnnotator	CDS	657902	658174	.	-	0	ID=MGA_1075;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGAFFVEDNTKKTVFEKINSSYQDLHHQFIAQAKVVEYSKKFKNIQVGCMLANSTTYALDCNPINVFENQQKELMRKLFYYDVMIKGEYP;locus_tag=LOCUS_10750;note=WP_011182909.1 glycoside hydrolase family 1 protein (Mesoplasma florum) [pid:65.1%25%2C q_cov:92.2%25%2C s_cov:17.1%25%2C Eval:1.3e-29%2C partial hit],internal stop codon at [657650:657652](-)%2C[657695:657697](-)%2C[657701:657703](-)%2C[657902:657904](-)%2C[658208:658210](-)%2C[658289:658291](-)%2C[658451:658453](-),MGA_1075
sequence1	MetaGeneAnnotator	CDS	658451	658657	.	-	0	ID=MGA_1076;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIPYIELKDKKDLTATRKLTKQDLLDSIENKKGLHYPKRFGIDFYNRYKEDIALFKEAGLKIFRMSVA;locus_tag=LOCUS_10760;note=WP_011182909.1 glycoside hydrolase family 1 protein (Mesoplasma florum) [pid:86.8%25%2C q_cov:100.0%25%2C s_cov:14.0%25%2C Eval:2.9e-29%2C partial hit],internal stop codon at [658208:658210](-)%2C[658289:658291](-)%2C[658451:658453](-)%2C[658730:658732](-)%2C[658930:658932](-),MGA_1076
sequence1	MetaGeneAnnotator	CDS	658930	659082	.	-	0	ID=MGA_1077;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITENGIGAKEVLTKDEKIHDNYRIEYYQKHIKAMSEAISDGVEMIGYMP;locus_tag=LOCUS_10770;note=WP_011182908.1 glycoside hydrolase family 1 protein (Mesoplasma florum) [pid:78.0%25%2C q_cov:100.0%25%2C s_cov:10.8%25%2C Eval:4.4e-17%2C partial hit],internal stop codon at [658730:658732](-)%2C[658807:658809](-)%2C[658930:658932](-)%2C[659149:659151](-),MGA_1077
sequence1	MetaGeneAnnotator	CDS	659149	659286	.	-	0	ID=MGA_1078;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTVEYVSAQDIKKTLDNKIDQHSGLVIPGVGKTVKNKNLPKTDYG;locus_tag=LOCUS_10780;note=MGA_1078
sequence1	MetaGeneAnnotator	CDS	659440	659604	.	-	0	ID=MGA_1079;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHNLNVAQAKVIRLCKKMLPNVKIGPAPNISSVYANSNKPEDHLAKLNFDQIRN;locus_tag=LOCUS_10790;note=WP_011182908.1 glycoside hydrolase family 1 protein (Mesoplasma florum) [pid:68.5%25%2C q_cov:100.0%25%2C s_cov:11.6%25%2C Eval:6.3e-16%2C partial hit],internal stop codon at [659149:659151](-)%2C[659398:659400](-)%2C[659440:659442](-)%2C[659611:659613](-)%2C[659695:659697](-),MGA_1079
sequence1	MetaGeneAnnotator	CDS	659995	660171	.	-	0	ID=MGA_1080;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKFPKNFLWGASSSAYQFEGAINQGGKVPSIMDKFDERKNYPKGITGFKVATDHYNH;locus_tag=LOCUS_10800;note=WP_011182908.1 glycoside hydrolase family 1 protein (Mesoplasma florum) [pid:82.8%25%2C q_cov:100.0%25%2C s_cov:12.5%25%2C Eval:8.1e-24%2C partial hit],internal stop codon at [659932:659934](-)%2C[659995:659997](-),MGA_1080
sequence1	MetaGeneAnnotator	CDS	660290	660754	.	-	0	ID=MGA_1081;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLGEYNERIKNNSKIINMIHLTIGTAIGCGIIINRELFNGNTFQAGEIGKMYSSLNKTDPATITFDTGMGTALIKYLMRTGKKITGEEFFELYNSNDKLVIEMMDDFTSHLAKLIINLNYILDFDLLTIGGGVSSNEQFIEMIKQKLTKHKNFY;locus_tag=LOCUS_10810;note=WP_011183513.1 ROK family protein (Mesoplasma florum) [pid:45.5%25%2C q_cov:98.1%25%2C s_cov:49.0%25%2C Eval:5.8e-36%2C partial hit],internal stop codon at [660290:660292](-),MGA_1081
sequence1	MetaGeneAnnotator	CDS	660840	661013	.	+	0	ID=MGA_1082;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIADSLSTLLFFVSIIPGKHIAKLNFSDSWSSTFDISDNTSTNEVRRSSKFFELAIV;locus_tag=LOCUS_10820;note=MGA_1082
sequence1	MetaGeneAnnotator	CDS	661095	661433	.	-	0	ID=MGA_1083;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYMQKYNQIDNSQEINLLKSKIDQQYKLIDLEKLNKNISNIEKQIMSKLNELNFLKKDVIKDLEPIIFNNLNSVQIYYGLLENKVPKINLNEKIHELKKNKVTHKSQVSLNV;locus_tag=LOCUS_10830;note=MGA_1083
sequence1	MetaGeneAnnotator	CDS	661548	662039	.	-	0	ID=MGA_1084;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLPAGLLGITEPILYGINLPKKRPLISGVCGAFIAGAFANILGVTQRAQSGIGVFEAIGFFSEPIYGGVGKLNPTLNGSFYLLSCSVAISTSILFSMMSYKERATEKTLLNKTINKLKLLTVLELNLSKPDSLKLKKDLNEITNILDKENLQFIKIIEKNIQA;locus_tag=LOCUS_10840;note=WP_011182905.1 glucose PTS transporter subunit IIA (Mesoplasma florum) [pid:51.2%25%2C q_cov:99.4%25%2C s_cov:19.3%25%2C Eval:2.4e-38%2C partial hit],internal stop codon at [661548:661550](-)%2C[662112:662114](-)%2C[662232:662234](-),MGA_1084
sequence1	MetaGeneAnnotator	CDS	662322	662732	.	-	0	ID=MGA_1085;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFAMGKTTTYFMGIMIAVSAANYFKLEGIMGVALGLILCCPLMFGDGGSMGLGNDFLLFDLGTIDTGNPMLDQITKIKVNAMNTKVFVIVAAIYTAKILDTHLKKVIPIALELMFRPFIVIIIVAPLSFFGYGII;locus_tag=LOCUS_10850;note=WP_011183516.1 glucose PTS transporter subunit IIA (Mesoplasma florum) [pid:49.6%25%2C q_cov:96.3%25%2C s_cov:15.0%25%2C Eval:7.5e-33%2C partial hit],internal stop codon at [662112:662114](-)%2C[662232:662234](-)%2C[662322:662324](-)%2C[662736:662738](-),MGA_1085
sequence1	MetaGeneAnnotator	CDS	662736	662987	.	-	0	ID=MGA_1086;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNESLAIRASLGINNTKIPLARRFLAMFSAIMVKIIPIMVGVGLIQAIIAILMQTGVMPNIVFKLSENPGANDVLFKDASIG;locus_tag=LOCUS_10860;note=MGA_1086
sequence1	MetaGeneAnnotator	CDS	663054	663749	.	-	0	ID=MGA_1087;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKISLYSPVDGEIKNIQDCNDSMFADRMLGDGLVIIPNSNNFKGFFDNATVTMIFDTYHAYGFDIEGLQFLIHCGMDTIALNGTGFTTTLKVGDNVTKENNIFNVDLELLKQKKLSIETPIVFEINSLTDYKINDLKLGKVKQGDLICTIDYEFKEEKKEQDLKSITDPIEFFNMSNKYEKCAASINKFIGSSSNYNEVYNCMTRLRFSVKNKELVNVDEIKRLSLVKGTV;locus_tag=LOCUS_10870;note=WP_011182905.1 glucose PTS transporter subunit IIA (Mesoplasma florum) [pid:51.9%25%2C q_cov:100.0%25%2C s_cov:26.6%25%2C Eval:4.9e-62%2C partial hit],internal stop codon at [663054:663056](-),MGA_1087
sequence1	MetaGeneAnnotator	CDS	663832	664221	.	-	0	ID=MGA_1088;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIINLYPSNQIRHASAYIIELFDNLNKIVRVISSEYIKNTVKNDENELEILIICSSNNNSIIKTYEDETNEKNKKFLITTASQDIQLDVDFTDKILINYQFDKSKSIYRNIALEMLFLHIFEHIKNTF;locus_tag=LOCUS_10880;note=MGA_1088
sequence1	MetaGeneAnnotator	CDS	664330	664746	.	-	0	ID=MGA_1089;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIIKELVIDIRKNLLNDLKISSKPKSYKSKIFFISKYIIYFFLFKYIILISRKKRTKKMTVINKLIKLSDSVEETNFKAIAKKIIDNFAKGEFKNQEDLAKQCYVSLSTITKFSQKIGCAGYRELIFILKNEYDHYG;locus_tag=LOCUS_10890;note=WP_011182907.1 transcriptional regulator (Mesoplasma florum) [pid:56.1%25%2C q_cov:41.3%25%2C s_cov:23.4%25%2C Eval:4.2e-12%2C partial hit],internal stop codon at [664273:664275](-)%2C[664330:664332](-),MGA_1089
sequence1	MetaGeneAnnotator	CDS	665045	665449	.	-	0	ID=MGA_1090;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHNQFYAQAKVIQIAKTISKNIKMGCMIANMTTYSIDCNPVNVLENLLTQQINRYFFYDVVAKGEYPTYSKRFFKEKNIKIDMTAEELKVIKENTVEYITFSYYMTSTVSKELNNQNGGNLIMGGKNPFLKATE;locus_tag=LOCUS_10900;note=WP_011182931.1 glycoside hydrolase family 1 protein (Mesoplasma florum) [pid:73.1%25%2C q_cov:100.0%25%2C s_cov:27.7%25%2C Eval:9.4e-57%2C partial hit],internal stop codon at [664820:664822](-)%2C[664994:664996](-)%2C[665039:665041](-)%2C[665045:665047](-)%2C[665561:665563](-),MGA_1090
sequence1	MetaGeneAnnotator	CDS	665561	665701	.	-	0	ID=MGA_1091;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTVQHYDVPYPIAKKYKGWSNKKVIDLYIKFVSVIMNEYKDLVKY;locus_tag=LOCUS_10910;note=WP_011182931.1 glycoside hydrolase family 1 protein (Mesoplasma florum) [pid:87.0%25%2C q_cov:100.0%25%2C s_cov:9.5%25%2C Eval:3.0e-18%2C partial hit],internal stop codon at [665561:665563](-)%2C[665804:665806](-),MGA_1091
sequence1	MetaGeneAnnotator	CDS	665804	666010	.	-	0	ID=MGA_1092;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRPFNPNLDRKNNQEMNNYTKEDYEKSIENIDNLHYPKRFGIDFYHRYKEDIALFKEAGMNIFRMSIA;locus_tag=LOCUS_10920;note=WP_011182931.1 glycoside hydrolase family 1 protein (Mesoplasma florum) [pid:83.8%25%2C q_cov:100.0%25%2C s_cov:14.1%25%2C Eval:4.9e-29%2C partial hit],internal stop codon at [665561:665563](-)%2C[665804:665806](-)%2C[666083:666085](-),MGA_1092
sequence1	MetaGeneAnnotator	CDS	666209	666607	.	-	0	ID=MGA_1093;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCEKIRESDFINIYTSYQANESSRYFANMLYEYEKNVTVLNNEFRFKAKKNNEKGFNLLILTGRDNDTLIDNFSKAYDENYTNFLISSDKQIDKLNFKFTKKMTVDYSLDNSQFSSREVVLHMLFFYIFKKI;locus_tag=LOCUS_10930;note=MGA_1093
sequence1	MetaGeneAnnotator	CDS	666707	666934	.	-	0	ID=MGA_1094;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTYVFDNLKIISKEFEDTTFKIIAKRILENADRAIFCDQEELAAQTFVSISTITKFAKKMGFSGFRELNFKMKNE;locus_tag=LOCUS_10940;note=WP_011183515.1 transcriptional regulator (Mesoplasma florum) [pid:47.2%25%2C q_cov:96.0%25%2C s_cov:29.1%25%2C Eval:5.5e-12%2C partial hit],internal stop codon at [666638:666640](-)%2C[666707:666709](-),MGA_1094
sequence1	MetaGeneAnnotator	CDS	667872	668069	.	-	0	ID=MGA_1095;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDFDAITIGGGISSNSKFLDTIIQKAKNYILLFQNFSPIENINIIKSNLENKAGCFGVLAKILKS;locus_tag=LOCUS_10950;note=WP_011183513.1 ROK family protein (Mesoplasma florum) [pid:43.1%25%2C q_cov:95.4%25%2C s_cov:21.0%25%2C Eval:7.0e-07%2C partial hit],internal stop codon at [668112:668114](-),MGA_1095
sequence1	MetaGeneAnnotator	CDS	668112	668672	.	-	0	ID=MGA_1096;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPRDIKINLGISIPGIIDSKKYKILSESSLTNIKEINLKDFFAEFKNIETFEIENDAKSAAYGEYYFGQNKKYKNMLHVTVGTGLGGGIIINGKIYKGFKGGAGELSKLFANFDRPDINLIVQSTSTGANLKRYNDSIELGKVAPIENVITAKAKDSAKKKNLIDGKKFMSLVEKNDQMAVDIFDI;locus_tag=LOCUS_10960;note=WP_011182910.1 ROK family protein (Mesoplasma florum) [pid:38.6%25%2C q_cov:91.9%25%2C s_cov:48.2%25%2C Eval:3.8e-23%2C partial hit],internal stop codon at [668112:668114](-)%2C[668715:668717](-),MGA_1096
sequence1	MetaGeneAnnotator	CDS	668715	668843	.	-	0	ID=MGA_1097;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNTNYLYDIGGLSIKKIIIDDNQKILSEGVIEYDNQKRANA;locus_tag=LOCUS_10970;note=MGA_1097
sequence1	MetaGeneAnnotator	CDS	669116	669718	.	-	0	ID=MGA_1098;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSVSQRVGTGLGVFSFFGFFSNPINPEIVTVELLPNALNGFYNILCCMLSVALALMFTIFMYKERSLENNIIKKNNIKLIKIINLSNSNLSTEDKQKIVNILKTEENFFTKEEVIKIKKIERLLIESLKYKINREILFDKENKIKEKLFEQGSILINKGKIVKAKAIMEKHKKVFFEIKKEDLQMKIQQLDKKMVDKLE;locus_tag=LOCUS_10980;note=MGA_1098
sequence1	MetaGeneAnnotator	CDS	670125	670277	.	+	0	ID=MGA_1099;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKNVIRAEINNVNADFKINSKDLGTQVAIQLSTFFVIIIANITTIILAP;locus_tag=LOCUS_10990;note=MGA_1099
sequence1	MetaGeneAnnotator	CDS	670349	670483	.	-	0	ID=MGA_1100;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGVLAGLSAARYFKLNMYIAMSISIILGSPLIFGDGGPIGFGYT;locus_tag=LOCUS_11000;note=MGA_1100
sequence1	MetaGeneAnnotator	CDS	670523	670786	.	-	0	ID=MGA_1101;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYNALKIIENSGEFDLLANRKMSFKKRMLVVISSISMPLIPIMIGSGIIMAFVGVLQISKIMPDIVLKMPESGLKPGQEFIKETNVL;locus_tag=LOCUS_11010;note=MGA_1101
sequence1	MetaGeneAnnotator	CDS	671120	671530	.	-	0	ID=MGA_1102;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKKILNVYAVCDGVIDLIENIDDKVFKNNSLGIGYFISATSNEIYNPIENANVDLIFETNHGLFLKQNNLNSSIMINMCLDFELEDSKYFKIVKEQDDKLKNFEKIAKVNLEYLKVVHKNTNIAVVINDESNRLN;locus_tag=LOCUS_11020;note=MGA_1102
sequence1	MetaGeneAnnotator	CDS	671569	671802	.	-	0	ID=MGA_1103;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPMMKFNLDIPLLSANSFKYGNLLFDLENDPNQLNPLKDKKIEQMMIEKMVKKMKTVDAPLETYQRIGLDKEASKIA;locus_tag=LOCUS_11030;note=WP_001201594.1 sulfatase (Shigella dysenteriae) [pid:52.9%25%2C q_cov:66.2%25%2C s_cov:10.3%25%2C Eval:2.6e-09%2C partial hit],internal stop codon at [671803:671805](-),MGA_1103
sequence1	MetaGeneAnnotator	CDS	671803	672141	.	-	0	ID=MGA_1104;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDGKRFDKLCQTIDIAPTILEYFNMKDDFDRDGNSIYEALRKDKNNHKEILFGINGGHVNIYDGKYVYMKAAKDEKNSPNTQYTLNFNFMKGFLPDIFLNDMQYVKGTRFSN;locus_tag=LOCUS_11040;note=WP_202887107.1 sulfatase (Cohnella zeiphila) [pid:42.2%25%2C q_cov:74.1%25%2C s_cov:16.9%25%2C Eval:5.0e-13%2C partial hit],internal stop codon at [671803:671805](-)%2C[672196:672198](-)%2C[672280:672282](-),MGA_1104
sequence1	MetaGeneAnnotator	CDS	673403	674062	.	-	0	ID=MGA_1105;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGITLLWLSIIILLISILGSISGVGGGVLYVPLFLLFLNDELNEIKYISTFLVFLGSSMNVLIEIIKKRLNYKILLVGIVFSTISILIGNTISKSINSDSVIKIIVAVTLVIVTFMLIYSEYFLKIKDNSQKVYKLNKNFYITSNEGEKINILLLSLISFIGGIITSLTGMGGGPIIMPLLIIIFSLKISTAAPISHTLIMISSFISLILNPISMGYNP;locus_tag=LOCUS_11050;note=MGA_1105
sequence1	MetaGeneAnnotator	CDS	674143	674412	.	+	0	ID=MGA_1106;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILIQSGTFLMGGDAEDGFIYDKEGPPTLIDINAFYIDETSVTNAEFQKFTNETDYITEAEKFGNSFVFAGLLSDDERLTYQKADLMGI;locus_tag=LOCUS_11060;note=WP_016328122.1 formylglycine-generating enzyme family protein (Streptomyces) [pid:41.2%25%2C q_cov:76.4%25%2C s_cov:21.7%25%2C Eval:4.3e-09%2C partial hit],internal stop codon at [674410:674412](+)%2C[674434:674436](+)%2C[674530:674532](+)%2C[674563:674565](+)%2C[674608:674610](+)%2C[674653:674655](+),MGA_1106
sequence1	MetaGeneAnnotator	CDS	674852	675031	.	+	0	ID=MGA_1107;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVKTMPFEVVHIYVMMVFVKDIRFILEMEQLLDQLQEIWDLDVLKMFNKIKKVFKTKI;locus_tag=LOCUS_11070;note=MGA_1107
sequence1	MetaGeneAnnotator	CDS	675069	675581	.	+	0	ID=MGA_1108;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSYSFSKKDNAPIYLTALFANLLAFETISIIFSFDELTSIFSFTYSFIKQEINASPAPVVSAITSDFIVGTKIISLFQLHIVSLLPLVIQIKLFLFLFIRIFNASFSSFIFVNKNNSSSLNLIKFAVSKNCSHKFVNSLTSFSVTQSLSLKFGSKQNFILFSFANLNKSQ;locus_tag=LOCUS_11080;note=MGA_1108
sequence1	MetaGeneAnnotator	CDS	675575	675991	.	-	0	ID=MGA_1109;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIISIGEVLVDVYSNNSELQVEVGGASFNVACSIAALKNNESFFMGSLGNDEYKEKIELLINKFNIKKQFIQYSKLATTIAKVTLDENKERFFEFIRNSDADFKLENIDTDKLKEIDFIHFGSATAFLPGNLNKSY;locus_tag=LOCUS_11090;note=WP_011183412.1 carbohydrate kinase (Mesoplasma florum) [pid:67.4%25%2C q_cov:100.0%25%2C s_cov:45.1%25%2C Eval:2.1e-48%2C partial hit],internal stop codon at [675299:675301](-)%2C[675503:675505](-)%2C[675575:675577](-),MGA_1109
sequence1	MetaGeneAnnotator	CDS	676033	676452	.	-	0	ID=MGA_1110;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPVKELEKLRLNKIDLKNNIFNYQNGIVEIISQKVANENFEIIIKSKKKNIIIKNENNIFSIDRSLMDYNDELNLPSKINFDNLKIDSIRILIDRSCLEIFINEGEHAISLRFFIKNHNQIETNLKNLKVFQLDSNKYV;locus_tag=LOCUS_11100;note=WP_011183413.1 GH32 C-terminal domain-containing protein (Mesoplasma florum) [pid:50.4%25%2C q_cov:99.3%25%2C s_cov:28.6%25%2C Eval:2.4e-31%2C partial hit],internal stop codon at [676033:676035](-)%2C[676510:676512](-)%2C[676558:676560](-),MGA_1110
sequence1	MetaGeneAnnotator	CDS	676558	676794	.	-	0	ID=MGA_1111;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVECPNYFNIENKEYIFACLEQETSLAEGSHFVKYREVKVDNKANFKFKSKLKKIDLGFDFYAPQIFSNTENRIIMLG;locus_tag=LOCUS_11110;note=WP_011183413.1 GH32 C-terminal domain-containing protein (Mesoplasma florum) [pid:62.8%25%2C q_cov:100.0%25%2C s_cov:16.1%25%2C Eval:5.1e-26%2C partial hit],internal stop codon at [676510:676512](-)%2C[676558:676560](-)%2C[676840:676842](-)%2C[676846:676848](-),MGA_1111
sequence1	MetaGeneAnnotator	CDS	676846	677223	.	-	0	ID=MGA_1112;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYTTKDFINYVYEGLTLIPSTDYDKNGVFSGSARVNKNGEMEIYYTGNVKFNDLERTSYTLKALIDLKEKVVSKELLFECDLKKYTGHFRDPVVFEKDNKLFMLNGAQTLENKGVLNVYEFQDEE;locus_tag=LOCUS_11120;note=WP_011183413.1 GH32 C-terminal domain-containing protein (Mesoplasma florum) [pid:76.0%25%2C q_cov:96.8%25%2C s_cov:25.1%25%2C Eval:6.0e-51%2C partial hit],internal stop codon at [676558:676560](-)%2C[676840:676842](-)%2C[676846:676848](-)%2C[677227:677229](-)%2C[677362:677364](-)%2C[677437:677439](-),MGA_1112
sequence1	MetaGeneAnnotator	CDS	677449	677622	.	-	0	ID=MGA_1113;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSMKTKEKKLKEDKIKYEKYIEELKQIKQKEKEESKNNKLEKIKLKEEKKLKNKGV;locus_tag=LOCUS_11130;note=MGA_1113
sequence1	MetaGeneAnnotator	CDS	677842	678087	.	-	0	ID=MGA_1114;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAVALKTKSKQEKNLGMSSAVSTMFGITEPAIFGVNLPKIKPFIYASIGGFIGGFFAGLLNVTCPGMGVTVIPGLLLYSGD;locus_tag=LOCUS_11140;note=WP_011183414.1 PTS transporter subunit EIIC (Mesoplasma florum) [pid:75.3%25%2C q_cov:100.0%25%2C s_cov:14.2%25%2C Eval:3.1e-31%2C partial hit],internal stop codon at [677842:677844](-)%2C[678121:678123](-),MGA_1114
sequence1	MetaGeneAnnotator	CDS	678121	678426	.	-	0	ID=MGA_1115;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPKSVNIIFTPFLTILIALLAALFILGPILLLVEQGVLIGTKSILAIPFGFGTGIVAGLLQAIVITGCHQVLQGLEMQLVIDGSIPQGVNAEVTGSIFNAI;locus_tag=LOCUS_11150;note=WP_011183414.1 PTS transporter subunit EIIC (Mesoplasma florum) [pid:63.4%25%2C q_cov:100.0%25%2C s_cov:17.7%25%2C Eval:6.4e-29%2C partial hit],internal stop codon at [677842:677844](-)%2C[678121:678123](-)%2C[678427:678429](-)%2C[678520:678522](-),MGA_1115
sequence1	MetaGeneAnnotator	CDS	678784	678903	.	-	0	ID=MGA_1116;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGDIFLPIIPAIVAAGLAMGFAALIKNLIPYDPESDSLL;locus_tag=LOCUS_11160;note=MGA_1116
sequence1	MetaGeneAnnotator	CDS	678925	679110	.	-	0	ID=MGA_1117;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQIILGTGVVEATYSEVQKILEVNSKLDELDSISKSDSYEEFKLKAKANKEALRNSGGKFA;locus_tag=LOCUS_11170;note=WP_011183414.1 PTS transporter subunit EIIC (Mesoplasma florum) [pid:60.0%25%2C q_cov:98.4%25%2C s_cov:10.1%25%2C Eval:2.8e-11%2C partial hit],internal stop codon at [678784:678786](-)%2C[678925:678927](-)%2C[679123:679125](-),MGA_1117
sequence1	MetaGeneAnnotator	CDS	679123	679299	.	-	0	ID=MGA_1118;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVNYAQEAEKFINAVGGRANIESYLHCVTRLRFNVIDKSKVNIGEIKSSPIAKGTN;locus_tag=LOCUS_11180;note=WP_011183414.1 PTS transporter subunit EIIC (Mesoplasma florum) [pid:70.7%25%2C q_cov:100.0%25%2C s_cov:10.1%25%2C Eval:1.1e-17%2C partial hit],internal stop codon at [678925:678927](-)%2C[679123:679125](-),MGA_1118
sequence1	MetaGeneAnnotator	CDS	679560	679994	.	-	0	ID=MGA_1119;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYLIRENKVLPGEILPSQNMLKTKFGYSEQPIRIAFNKLIELQIVKSINGKGFVVQDKISNNLLFSFRELFPGSKNKYYDLVEITCNKQLSKMTGFQEGKKLLYFKCLRKTNTDEIILYQESYILRDKFKSITIEKLNESGLML;locus_tag=LOCUS_11190;note=WP_011183415.1 GntR family transcriptional regulator (Mesoplasma florum) [pid:68.8%25%2C q_cov:99.3%25%2C s_cov:62.1%25%2C Eval:8.9e-51%2C partial hit],internal stop codon at [679341:679343](-)%2C[679356:679358](-)%2C[679380:679382](-)%2C[679560:679562](-)%2C[680016:680018](-),MGA_1119
sequence1	MetaGeneAnnotator	CDS	680318	680653	.	-	0	ID=MGA_1120;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFAFFYPFLVITGLHQGFLPIETQLLVDSQLKYGHSFSFITPVACVSNIAQGTAALMLIFFVKKDKEQITKASSSAIGGYTGITEPAMFGINLQVKPLFIAAAIGSGIAG;locus_tag=LOCUS_11200;note=WP_002456063.1 sucrose-specific PTS transporter subunit IIBC (Staphylococcus) [pid:46.4%25%2C q_cov:87.4%25%2C s_cov:19.5%25%2C Eval:1.5e-17%2C partial hit],internal stop codon at [680675:680677](-)%2C[680753:680755](-)%2C[680765:680767](-),MGA_1120
sequence1	MetaGeneAnnotator	CDS	680765	681742	.	-	0	ID=MGA_1121;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKNIFYDNAVLMIDLLGGKENIKEIQHCATRLRFVLKDDDKFDLEQVKKHPLFKGYKKQENQHQIIIGAGVVDKLYKQIDIVLNNNSIDGELKIENKEPFWRKDVSVKSNLFMISKRGMNSFASIFVPLVPVFIAGGMSLALKSLIGSFAPSSGFTKLLDVIGGAILGSIPAFVGYTAAKKWGGNPYLGMAMGLVLISPGLLNSYSTSTPVLLEFDLGASASAIEEARKSAFSEYLINNGLPVIGPEDEGYLEALNKTVGIYYQVFGGVAGGFFKIKLIGYQAQIVPVLLVLALSVNLEKLLKKITPNVIAILVIPLGTILVSS;locus_tag=LOCUS_11210;note=WP_011183414.1 PTS transporter subunit EIIC (Mesoplasma florum) [pid:30.0%25%2C q_cov:98.8%25%2C s_cov:58.0%25%2C Eval:3.7e-33%2C partial hit],internal stop codon at [680675:680677](-)%2C[680753:680755](-)%2C[680765:680767](-),MGA_1121
sequence1	MetaGeneAnnotator	CDS	682947	683213	.	+	0	ID=MGA_1122;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVTGESKIEDYKTARDAYFDGIAKFNKQQDGDPEKYCDFIINLTNKTTKPPLHIFTGRDAYKKAETKIANLKKDMKILKKEATNLHVK;locus_tag=LOCUS_11220;note=WP_011183070.1 SDR family oxidoreductase (Mesoplasma florum) [pid:60.2%25%2C q_cov:100.0%25%2C s_cov:31.7%25%2C Eval:1.2e-27%2C partial hit],internal stop codon at [682785:682787](+)%2C[682848:682850](+),MGA_1122
sequence1	MetaGeneAnnotator	CDS	683226	683486	.	+	0	ID=MGA_1123;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIEIKKITKSSYQKFIYMFIFYFLAVHLKVKVVIVKIAISINIAPSTGCHVAVKSFEPSCKLNPLSHPLSLQPLVAYKNIKTEYL;locus_tag=LOCUS_11230;note=MGA_1123
sequence1	MetaGeneAnnotator	CDS	683441	683674	.	-	0	ID=MGA_1124;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILITLTSIALATMFGGLFSSVGSMQGMIMMIYFFSIFLSGIMLPPETFESSKGMIIFTYFIPHKYSVFIFLYATRG;locus_tag=LOCUS_11240;note=WP_011183541.1 ABC transporter permease (Mesoplasma florum) [pid:67.6%25%2C q_cov:96.1%25%2C s_cov:26.1%25%2C Eval:2.2e-24%2C partial hit],internal stop codon at [683306:683308](-)%2C[683375:683377](-)%2C[683426:683428](-)%2C[683441:683443](-)%2C[683693:683695](-)%2C[683828:683830](-)%2C[683900:683902](-),MGA_1124
sequence1	MetaGeneAnnotator	CDS	683900	684178	.	-	0	ID=MGA_1125;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKLKKQKDVNIKKQISIFNNLSLLLSKSFIKEPKSIIFMLIVPIFFNIMFFFIMGEKAAIGGNGNPNSILFAYTLLPCLTCLTLLAPAVVE;locus_tag=LOCUS_11250;note=WP_011183541.1 ABC transporter permease (Mesoplasma florum) [pid:50.0%25%2C q_cov:95.7%25%2C s_cov:27.8%25%2C Eval:7.8e-14%2C partial hit],internal stop codon at [683693:683695](-)%2C[683828:683830](-)%2C[683900:683902](-),MGA_1125
sequence1	MetaGeneAnnotator	CDS	684180	684470	.	-	0	ID=MGA_1126;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISIMNNPKIIILDELTTGLDMELQFKIIDFFSKNTKEFNQTLLLVSHHPEEVEEMCDRLIIIKDSKVFYDDSIVNTIKKHKSVRALMDKFFKGEI;locus_tag=LOCUS_11260;note=WP_011183542.1 ABC transporter ATP-binding protein (Mesoplasma florum) [pid:70.8%25%2C q_cov:100.0%25%2C s_cov:41.0%25%2C Eval:1.5e-33%2C partial hit],internal stop codon at [684564:684566](-)%2C[684636:684638](-),MGA_1126
sequence1	MetaGeneAnnotator	CDS	684636	684881	.	-	0	ID=MGA_1127;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTLIEINNISKAFGKKVIFKDFNLEIKEGQKVALMGANGCGKTTLVEMIAQFSKPDSGEIKINLEDNIKQEIGIQLQEGN;locus_tag=LOCUS_11270;note=WP_011183542.1 ABC transporter ATP-binding protein (Mesoplasma florum) [pid:70.4%25%2C q_cov:100.0%25%2C s_cov:34.6%25%2C Eval:2.0e-27%2C partial hit],internal stop codon at [684564:684566](-)%2C[684636:684638](-),MGA_1127
sequence1	MetaGeneAnnotator	CDS	685025	685465	.	-	0	ID=MGA_1128;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIPLNSNKIYTENYFGESFTFENYNKIFIKNNVESFLNIFTFNSFLNEVNIDNNFNSDYISNIGPMNNYKTLKSRFDLKNVKEDIDRVQNDETSQLSTDSSIFDQGIKPKEKGIFLIIYIYLFYIILDVIFIFFANRKFKKNIYS;locus_tag=LOCUS_11280;note=MGA_1128
sequence1	MetaGeneAnnotator	CDS	685802	685933	.	-	0	ID=MGA_1129;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGQILNVKSDETTEEILQDDLIINDGNKILGSFAFDTYEVLKD;locus_tag=LOCUS_11290;note=MGA_1129
sequence1	MetaGeneAnnotator	CDS	686024	686689	.	-	0	ID=MGA_1130;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFSLIFLIINLIFQIVLINLKNEFIDASSTAILILSNLFNYLFIGIFSIILTSTLFKSSTTLNILNMEQRHGINKNIMFFTRILFILAFLYLLIIINLITSLFFLIGNEDTNRTYYYYVIKPYLILLFITIFYVSFSVLIFSYFKKNSASIINSFLVFILSFSGLFNYIGKQIISSSPVDDVKRMSEVNVKINMGYEFYEQYKNDEYFKDIFIAPNFAKNI;locus_tag=LOCUS_11300;note=MGA_1130
sequence1	MetaGeneAnnotator	CDS	686760	687191	.	-	0	ID=MGA_1131;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKDIFIKKQEKILKMIEIEDLINKKLKNLSSGQKKKAILAGVLLTEPKFIFFDEPTANLDIDSKIEFLEIIKYLGELKIGMLITSHLAEELQLIANRVILIKKGKILYDEYFDNKKNSIQDIYQKYYTNKKMNIDLLREVYE;locus_tag=LOCUS_11310;note=WP_011387629.1 ABC transporter ATP-binding protein (Mycoplasma capricolum) [pid:41.2%25%2C q_cov:90.2%25%2C s_cov:54.3%25%2C Eval:8.2e-17%2C partial hit],internal stop codon at [687213:687215](-)%2C[687291:687293](-),MGA_1131
sequence1	MetaGeneAnnotator	CDS	687291	687491	.	-	0	ID=MGA_1132;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKINNISKVYQNFELKDVNLEFKSSDIIALIGENGSGKTTLIKSIFNLVKLDSGNIEFDNENLHI;locus_tag=LOCUS_11320;note=WP_009896018.1 ABC transporter ATP-binding protein (Clostridioides difficile) [pid:50.0%25%2C q_cov:97.0%25%2C s_cov:22.4%25%2C Eval:9.4e-12%2C partial hit],internal stop codon at [687213:687215](-)%2C[687291:687293](-),MGA_1132
sequence1	MetaGeneAnnotator	CDS	687737	687889	.	-	0	ID=MGA_1133;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAANKIKGIRAVVCSEPYSAKLSKEHNNTNILSLGSRVIGLELAKMIINE;locus_tag=LOCUS_11330;note=WP_003721856.1 ribose 5-phosphate isomerase B (Listeria monocytogenes) [pid:81.2%25%2C q_cov:96.0%25%2C s_cov:32.4%25%2C Eval:1.3e-16%2C partial hit],internal stop codon at [687737:687739](-)%2C[688043:688045](-),MGA_1133
sequence1	MetaGeneAnnotator	CDS	688107	688673	.	-	0	ID=MGA_1134;product=ribulose-phosphate 3-epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183536.1;translation=MDGNFVNNYALCQKFCKDIKEKYKNLIIDVHLMCLEPQRYIKSFSEAGANHFNFHFESVTNKSHENIINIIKEIKKTGMKAILAINPETNPVVLKPYLKLLDGVMCMAIKPGFNGQKLNEIVYDNLNYLSKYKINSKLNYFIQVDGGVRENTYEKLKLEGAEVLVVGAFINNKEANLKEQLLKIEREL;locus_tag=LOCUS_11340;note=WP_011183536.1 ribulose-phosphate 3-epimerase (Mesoplasma florum) [pid:49.7%25%2C q_cov:98.4%25%2C s_cov:81.5%25%2C Eval:7.1e-49],internal stop codon at [688689:688691](-),MGA_1134
sequence1	MetaGeneAnnotator	CDS	689197	689586	.	-	0	ID=MGA_1135;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSGRFAVYNYGLPAAGLAMIFLAKPENKKEVTGILGSAIVTSMATGIIEPLIFSFIFVAPLLFGVHALIGGLSYLFAYLLNIQAGNGFTAGMIDYVFFGLIPGYSSGVDIIGKSEITIFGMFAGRNGSL;locus_tag=LOCUS_11350;note=WP_001227709.1 glucose-specific PTS transporter subunit IIBC (Staphylococcus) [pid:57.8%25%2C q_cov:79.1%25%2C s_cov:15.0%25%2C Eval:7.2e-28%2C partial hit],MGA_1135
sequence1	MetaGeneAnnotator	CDS	689821	689970	.	-	0	ID=MGA_1136;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNVGSKEEYARTSGSIAAYFFGVFEQLLIPTGLHHVFYTPFWFTSVGGT;locus_tag=LOCUS_11360;note=MGA_1136
sequence1	MetaGeneAnnotator	CDS	690022	690258	.	-	0	ID=MGA_1137;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVEIGKNKGMLSSVMGINPTMDLSVLGGIIVGSLTAIVHNKTYNIKVPRMLSFFGGEKFVPIATFFMGIALGVVIFFV;locus_tag=LOCUS_11370;note=WP_000838205.1 glucose-specific PTS transporter subunit IIBC (Staphylococcus) [pid:52.3%25%2C q_cov:83.3%25%2C s_cov:12.6%25%2C Eval:1.4e-12%2C partial hit],internal stop codon at [689782:689784](-)%2C[689821:689823](-)%2C[689971:689973](-)%2C[690022:690024](-)%2C[690280:690282](-),MGA_1137
sequence1	MetaGeneAnnotator	CDS	690280	690450	.	-	0	ID=MGA_1138;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGILFASSIAFGFAKKSKGVAAVSAMIAFMTMTVTVSALFLPHLNQNKELIVGFDP;locus_tag=LOCUS_11380;note=MGA_1138
sequence1	MetaGeneAnnotator	CDS	690827	691645	.	+	0	ID=MGA_1139;product=MurR/RpiR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183537.1;translation=MELTSTEKLILLKIENDIETFTNKSISELSKLYYASDASILRLVKKLDYKSLKEMQIEFGSKLKISNMINNFKEDSLFETNTNIDETISSITALSLYSIFRTEENLDKKAVEKFVNIILESSSISIFGIGNSKNSASFLNNQLQRIGILSSLQDSVHGFLMQTGFLKNKNISIIISNTLKTKEIKFILNFLKNNNIPYLLITSNKNNSENEFIKFARCTIEYSINSKEKYSFPMISSFYSQIFIINIIFNRLIQKTKDFKSKIEMGNEMTLK;locus_tag=LOCUS_11390;note=WP_011183537.1 MurR/RpiR family transcriptional regulator (Mesoplasma florum) [pid:31.7%25%2C q_cov:96.0%25%2C s_cov:93.7%25%2C Eval:4.6e-28],MGA_1139
sequence1	MetaGeneAnnotator	CDS	691687	691992	.	-	0	ID=MGA_1140;product=PTS lactose/cellobiose transporter subunit IIA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003435715.1;translation=MNEKIINVSMELIATAGTAKSMALSAITIAQKKNKKKALEMLSEAKLELNKVHNIHGDLIAQEAGGEKLDISLLFVHSQDHLTSAIIIIDLAEHLINLYTN;locus_tag=LOCUS_11400;note=WP_003435715.1 PTS lactose/cellobiose transporter subunit IIA (Clostridioides difficile) [pid:39.4%25%2C q_cov:98.0%25%2C s_cov:94.3%25%2C Eval:1.4e-15],MGA_1140
sequence1	MetaGeneAnnotator	CDS	692052	692318	.	-	0	ID=MGA_1141;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDYTSEKFVNRCNEFVKQRNSYYDYQKDNKVIIKYINIYEIESLSSKSFIIFSVTNNYFEDIRYKDGDNQDDSLMSSIFFIYRKDSKN;locus_tag=LOCUS_11410;note=MGA_1141
sequence1	MetaGeneAnnotator	CDS	692560	692979	.	-	0	ID=MGA_1142;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGGTYSVAYDFCLKLQRLGFNVNVSNDSVIQETLLSANSTKKDCLFIIFSLSGETKQLVYVAEKINEKKMFLISFTGLEENKIKKLSNLNLSIFNNDNHFKSLIKGNRISFIFLIDILIQLLINLNSEKNYKSVLITTK;locus_tag=LOCUS_11420;note=MGA_1142
sequence1	MetaGeneAnnotator	CDS	693049	693387	.	-	0	ID=MGA_1143;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNVITKLKKIRINNESDANIANFVIDNIKIMDNIDIRDLAKKINHSTSSVTRFIKRLGYSSFNEFKYEVKNYINSVLVDSKYQNNENKELSLIIKSEISYINEILEKNNII;locus_tag=LOCUS_11430;note=MGA_1143
sequence1	MetaGeneAnnotator	CDS	693402	693758	.	-	0	ID=MGA_1144;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRLTLDDLNEVDFSRAKLIDKQIFFYKERFDQNILNIEEVEFNIDLLYTYIIQMINRIKEYKKIIDSKKKSNSKIIATGGLFKNRQIIELFEKEFNSDIIISTVKNLSITGLKKISHS;locus_tag=LOCUS_11440;note=MGA_1144
sequence1	MetaGeneAnnotator	CDS	693816	694607	.	-	0	ID=MGA_1145;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKIFIDLGTTNIKIEAYDNKKIVDKISVLNKKIYFDEENNFSAEKLFNFLKEYLINLNIKFNKNLFVIFSSAMHTLIFLDENYNQIGKGHSLLEKIDFTLKNEEKNYFRKINKLVNSEFLPVYKIKNYKGINYDSITTLKSFILYKFTDENVIEISDAVGLGVINSRSKNYSKTILKNINVSESIFPKLLLERKVFNCSLNNFELQIDLGISDGASAAIGSVSEENNISLSLGTTLGIRYVSQKYVEISHDFDYCFPIYNNK;locus_tag=LOCUS_11450;note=WP_012582610.1 gluconokinase (Dictyoglomus turgidum) [pid:23.9%25%2C q_cov:92.0%25%2C s_cov:53.6%25%2C Eval:7.3e-07%2C partial hit],MGA_1145
sequence1	MetaGeneAnnotator	CDS	694631	695086	.	-	0	ID=MGA_1146;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIGMQVNHLLSNDYASYIYISTQCANKNDFESILKHFDFKKHLKINLNENVTSEEKEIMSFENHFIRGDLSQNILRSTITRVEFKELSIKPRKFNGDIIPIGSIVIPNNLYNRYKGELQIVKKEIKNDGLRNVVGYLENEYLFLLEEIQP;locus_tag=LOCUS_11460;note=WP_002295800.1 DUF871 domain-containing protein (Enterococcus) [pid:37.3%25%2C q_cov:100.0%25%2C s_cov:41.2%25%2C Eval:5.1e-18%2C partial hit],internal stop codon at [694631:694633](-)%2C[695129:695131](-),MGA_1146
sequence1	MetaGeneAnnotator	CDS	695129	695719	.	-	0	ID=MGA_1147;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNLKNKLGISIYPETLEENEIIAYLDLANKYSFDLLFINFIGVIEKKDKKLFEKYKKTITEAKKRNYFVTIDVNKSTFDSVKINYKNPDLKYFFDLGVDCLRLDDQFNGFFEANLTFNSYNIKIELNPSTFNDHIDNILSYGANKQNLQALHNFYPQKYSGLDYELFKKFNSKIKVKGIKVGAFVTITEHESVGP;locus_tag=LOCUS_11470;note=WP_000440077.1 MupG family TIM beta-alpha barrel fold protein (Bacillus thuringiensis) [pid:38.9%25%2C q_cov:98.5%25%2C s_cov:52.4%25%2C Eval:1.0e-32%2C partial hit],internal stop codon at [695129:695131](-),MGA_1147
sequence1	MetaGeneAnnotator	CDS	695712	696227	.	-	0	ID=MGA_1148;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVARLSKKVKPAHANQVFTGVGLTVNDFEKNDTFINCLVSPTGKPGYVKINTGPLSSSIKNEDAIVEVNTAIQIIKDMGGDSIKFFPMNGMSTLEEYKIVARACARNNFSLEPTGGIDLENFEEIIKVALDEKVPLIIPHVYNSIIDKQSGETSIEKVKQLYKIIRGMFYE;locus_tag=LOCUS_11480;note=WP_011862024.1 KDGP aldolase family protein (Clostridioides difficile) [pid:59.6%25%2C q_cov:97.1%25%2C s_cov:66.7%25%2C Eval:1.3e-51%2C partial hit],internal stop codon at [696291:696293](-),MGA_1148
sequence1	MetaGeneAnnotator	CDS	696291	696464	.	-	0	ID=MGA_1149;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKKISFYKNRVCLNVLAKDLKNAKEIIEATEGNVVVGILSKNFPNDKTAYDEMTK;locus_tag=LOCUS_11490;note=WP_011262862.1 KDGP aldolase family protein (Aliivibrio fischeri) [pid:58.5%25%2C q_cov:93.0%25%2C s_cov:21.5%25%2C Eval:1.2e-11%2C partial hit],internal stop codon at [696291:696293](-),MGA_1149
sequence1	MetaGeneAnnotator	CDS	696467	696817	.	-	0	ID=MGA_1150;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIGKENIFGLLSALENYKINKNNNFDEYLKIFSLNKNILCKKDIDTRGIERIRFEIVNKKNSAKELANYLKECDIAIYLRDYFAFQGYLDIDIRNINIEEAKIINKYITLFFEGR;locus_tag=LOCUS_11500;note=WP_009898827.1 DgaE family pyridoxal phosphate-dependent ammonia lyase (Clostridioides difficile) [pid:34.9%25%2C q_cov:80.2%25%2C s_cov:28.2%25%2C Eval:5.3e-07%2C partial hit],internal stop codon at [696959:696961](-),MGA_1150
sequence1	MetaGeneAnnotator	CDS	696959	697522	.	-	0	ID=MGA_1151;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKKFKKVINADGRMTILGVSKFNSNVAQAMEYAGNNFFIMSEFKEIVYDKIKKIIKSENVCVVNSASAGITLSACASIYKDKIYDVNKIIPDKKEIILAKGHNIDFGAPIESLLNLVNAKIMEAGYSNKCSIEDYKYYFNKNTAALLYVVSHHCVQKNMASLDEVIKLCKENNIVLIVDCAAEEDI;locus_tag=LOCUS_11510;note=WP_009898827.1 DgaE family pyridoxal phosphate-dependent ammonia lyase (Clostridioides difficile) [pid:44.6%25%2C q_cov:97.3%25%2C s_cov:50.4%25%2C Eval:1.9e-38%2C partial hit],internal stop codon at [696959:696961](-),MGA_1151
sequence1	MetaGeneAnnotator	CDS	697506	697685	.	-	0	ID=MGA_1152;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGEIKNGYIANLTFFKIKKNKNIEIDSKENILELEEQIVPLAVIVNGKFYEVQNNDEKI;locus_tag=LOCUS_11520;note=MGA_1152
sequence1	MetaGeneAnnotator	CDS	697743	698174	.	-	0	ID=MGA_1153;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNSVTLQTGLEPLKIFADTRKEKKIRKPIMVHIGNEPPKFLDIIKLLKKGDIITHIYNYKNNSLFNKDFTKTQDLEKAIDKKILFDVGHGNESFIFECAKESYRNNFIPDIISTDIYETNIKNKKVKSLSVTMNKFRKLGME;locus_tag=LOCUS_11530;note=WP_011262860.1 amidohydrolase/deacetylase family metallohydrolase (Aliivibrio fischeri) [pid:38.7%25%2C q_cov:99.3%25%2C s_cov:37.3%25%2C Eval:1.1e-21%2C partial hit],internal stop codon at [697743:697745](-)%2C[698328:698330](-)%2C[698463:698465](-),MGA_1153
sequence1	MetaGeneAnnotator	CDS	698759	698971	.	-	0	ID=MGA_1154;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRTKNFEIEKLKIGINLNISDTKNNIKNYLITEYIENERIELAHLNSDETVLTKIFIRTKQKKENYSTSI;locus_tag=LOCUS_11540;note=MGA_1154
sequence1	MetaGeneAnnotator	CDS	700008	700217	.	-	0	ID=MGA_1155;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVGSIISKSATLKSMSRTSLVPGIFNINEPILFGLPILLNPFMWIPFVLGPVVSATIGYLLQITFGIH;locus_tag=LOCUS_11550;note=WP_003435718.1 PTS transporter subunit EIIC (Clostridioides difficile) [pid:49.2%25%2C q_cov:94.2%25%2C s_cov:15.0%25%2C Eval:1.5e-14%2C partial hit],internal stop codon at [699891:699893](-)%2C[699942:699944](-)%2C[699990:699992](-)%2C[700008:700010](-)%2C[700257:700259](-)%2C[700341:700343](-)%2C[700392:700394](-)%2C[700395:700397](-),MGA_1155
sequence1	MetaGeneAnnotator	CDS	700827	701159	.	-	0	ID=MGA_1156;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNKLIPFFGKISTQRHLLGIRNGIMAALPFILVGSVFLIISSIPIGTGDGQLLSTLFPPELKVAFDLINRFTFGIMALYMAIGIGSELARLSRLSSTQGAVIGAMGYIM;locus_tag=LOCUS_11560;note=WP_011100950.1 PTS cellobiose transporter subunit IIC (Lactiplantibacillus plantarum) [pid:34.0%25%2C q_cov:93.6%25%2C s_cov:23.1%25%2C Eval:3.2e-12%2C partial hit],internal stop codon at [700713:700715](-)%2C[700827:700829](-),MGA_1156
sequence1	MetaGeneAnnotator	CDS	701384	701509	.	-	0	ID=MGA_1157;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKGLLICSGGISTTMIAKKLNECADGYIEFEAKGIMTDTS;locus_tag=LOCUS_11570;note=MGA_1157
sequence1	MetaGeneAnnotator	CDS	701811	701963	.	-	0	ID=MGA_1158;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTENGIGGYDTLTSDGKVHDDYRIEYYKFHLKELKAAIIEDKIDIFGYNP;locus_tag=LOCUS_11580;note=WP_000206473.1 6-phospho-beta-glucosidase (Streptococcus pneumoniae) [pid:52.0%25%2C q_cov:100.0%25%2C s_cov:10.5%25%2C Eval:2.8e-11%2C partial hit],internal stop codon at [701688:701690](-)%2C[701811:701813](-)%2C[701988:701990](-)%2C[702033:702035](-),MGA_1158
sequence1	MetaGeneAnnotator	CDS	702033	702242	.	-	0	ID=MGA_1159;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFEYTEEEMKIIKKGKPDFIAFNYYASATAKMPESDELFDELPDQQKVKSVKGMYEQVKNDNLLKTQFG;locus_tag=LOCUS_11590;note=WP_011182908.1 glycoside hydrolase family 1 protein (Mesoplasma florum) [pid:56.9%25%2C q_cov:94.2%25%2C s_cov:14.0%25%2C Eval:5.8e-14%2C partial hit],internal stop codon at [701811:701813](-)%2C[701988:701990](-)%2C[702033:702035](-)%2C[702315:702317](-),MGA_1159
sequence1	MetaGeneAnnotator	CDS	702315	702554	.	-	0	ID=MGA_1160;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILFGEIVGINLPKGGNKLKNIYQVNHHMMLAQAKAINLCHEIVKNGKIGPAPNITSVYGNTNKPIDQFAAFNMRVMRN;locus_tag=LOCUS_11600;note=WP_010890696.1 glycoside hydrolase family 1 protein (Clostridium) [pid:50.6%25%2C q_cov:100.0%25%2C s_cov:16.8%25%2C Eval:1.6e-16%2C partial hit],internal stop codon at [702033:702035](-)%2C[702315:702317](-)%2C[702579:702581](-)%2C[702660:702662](-)%2C[702816:702818](-),MGA_1160
sequence1	MetaGeneAnnotator	CDS	702660	702806	.	-	0	ID=MGA_1161;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPEGDGEVNKEGIEFYNNLINELLKYKITPIVTMFHFDLPHSLNLDGG;locus_tag=LOCUS_11610;note=WP_000671631.1 glycoside hydrolase family 1 protein (Bacillus) [pid:64.6%25%2C q_cov:100.0%25%2C s_cov:10.2%25%2C Eval:1.1e-12%2C partial hit],internal stop codon at [702579:702581](-)%2C[702660:702662](-)%2C[702816:702818](-)%2C[702879:702881](-)%2C[703017:703019](-),MGA_1161
sequence1	MetaGeneAnnotator	CDS	703096	703758	.	-	0	ID=MGA_1162;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLDIGWGIVFGILAGFISLITALVLTLMLYQDRKSEYIAFRENNKLLLKTVKLNFDFDDTKLKSLKEELAKETLAIKDFNKNYKNYENTLISLQKKEIKKQNIINRFEMKKEKLYNKILKLEDKDLDKYNYFANKYNNLKLPENFNELVIEIKELELKLSNCEKEVKTFNTQKYKEVSDIIDNLNVNKNQILEDYKKVYLNAINSIDIAYELTEMNNLN;locus_tag=LOCUS_11620;note=MGA_1162
sequence1	MetaGeneAnnotator	CDS	703759	704292	.	-	0	ID=MGA_1163;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPTSVDIVFRPALVFLSTFLIMLFTVGPFFRIIEQFIAKFVILLGKIPFGIGMGIFAMIWQPLVLTGTHVAVVTVIALPMNDGDPSAMYACLQIAIMGQIGAVLALSFISKNQKTKQAIFASLPGAIFGVTEPIIYGINLPKIKPFIFGCVGGLVGGFVAGVLGVAQYRRTGTGIMS;locus_tag=LOCUS_11630;note=WP_011182930.1 glucose PTS transporter subunit IIA (Mesoplasma florum) [pid:44.6%25%2C q_cov:94.4%25%2C s_cov:19.6%25%2C Eval:4.5e-39%2C partial hit],internal stop codon at [703759:703761](-)%2C[704293:704295](-)%2C[704305:704307](-)%2C[704410:704412](-)%2C[704455:704457](-),MGA_1163
sequence1	MetaGeneAnnotator	CDS	704455	704709	.	-	0	ID=MGA_1164;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGAITAIVFPTIPILIGTGVISGLQAILAISGVISNPAPGQSVMELDLFSSLMYIMSKVGIELVGIVFLCSTVKYFNGDPWLAI;locus_tag=LOCUS_11640;note=MGA_1164
sequence1	MetaGeneAnnotator	CDS	704845	705525	.	-	0	ID=MGA_1165;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKIKIYAPVDGIVKAIENISDPVFASKSLGDGVYIEPSSDIFYSPVKDGRIELITDTKHAIYFSTNNYNVLMHIGLETVALSGKPFSLLGKQGQEVSLGDEIVKVDWKIIEAANLPKVTPVLVDLNSVSKYKLTIKNEGKKVKKGELIYEIEIEDVKIIKDNKIKIEKREGKYKSLALKYLEAIGGKNNQSLVHNCMTRLRFKIINKDLVNEKALKEIELTKGIN;locus_tag=LOCUS_11650;note=WP_011182930.1 glucose PTS transporter subunit IIA (Mesoplasma florum) [pid:42.0%25%2C q_cov:99.1%25%2C s_cov:26.3%25%2C Eval:1.0e-40%2C partial hit],internal stop codon at [704845:704847](-),MGA_1165
sequence1	MetaGeneAnnotator	CDS	705609	705866	.	-	0	ID=MGA_1166;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTGLDIDEILNYISIAKDNNINFLIITSESHFSKVVKYQDDLNKIITIKSISGLTRETRILIRLNQINIILTNLIFKLTKQVHKK;locus_tag=LOCUS_11660;note=MGA_1166
sequence1	MetaGeneAnnotator	CDS	706107	706394	.	-	0	ID=MGA_1167;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRIREKLKNVIKTNDKTLNYQIANFILKNAYNNVFLKSKEVSFKLNISKSTLTLFSKKLGYEGYGELLHKLIAEMEFYGLKEQTNNQDKELDLID;locus_tag=LOCUS_11670;note=MGA_1167
sequence1	MetaGeneAnnotator	CDS	706515	707090	.	-	0	ID=MGA_1168;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTVTTLVYGTLLILNKGNIGSLKEHHVLKMEQIIENKKEKIEEIRNQMLVLKDSLKSAKTQNDLDNIHKEINNLKEEKQKINIEAKEQIQLAKNAFNQLKDSEKLFIKENSNKIKEFIKNSKLTRKNSLQEISNKKNQEVVNLQKFDKRNYLENYSNQVDLIKDDYQKSIVDYQIKLKEKFIIDYNKLINN;locus_tag=LOCUS_11680;note=MGA_1168
sequence1	MetaGeneAnnotator	CDS	707127	707615	.	-	0	ID=MGA_1169;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNQLSSAIESGYRSESFGIGLGIGLGILLGAMASFDMGGPINKIAFVTCSALVTLENPIAEPMGAMAAAIPVAPLAMGLSTILFKRFFTNEERGMGISAMIMGTIGISEGAIPFAIRDPKRAIIANVLGGMVAGAIAGGFQVTDLAAHGGPIVAILGAVPYG;locus_tag=LOCUS_11690;note=WP_005478109.1 fructose-specific PTS transporter subunit EIIC (Vibrio parahaemolyticus) [pid:50.4%25%2C q_cov:83.3%25%2C s_cov:21.3%25%2C Eval:1.0e-28%2C partial hit],internal stop codon at [707127:707129](-)%2C[707619:707621](-)%2C[707730:707732](-)%2C[707742:707744](-),MGA_1169
sequence1	MetaGeneAnnotator	CDS	707742	707972	.	-	0	ID=MGA_1170;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKIGGAAFALMIPILAGFIANSIAGRAAIAPAMLGAFIGNDASKFMPLPGMTEVSTPTGFIGAIIAGLLVGYYVK;locus_tag=LOCUS_11700;note=WP_005478109.1 fructose-specific PTS transporter subunit EIIC (Vibrio parahaemolyticus) [pid:56.2%25%2C q_cov:96.1%25%2C s_cov:10.4%25%2C Eval:7.7e-14%2C partial hit],internal stop codon at [707619:707621](-)%2C[707730:707732](-)%2C[707742:707744](-)%2C[707988:707990](-)%2C[708048:708050](-),MGA_1170
sequence1	MetaGeneAnnotator	CDS	708048	708629	.	-	0	ID=MGA_1171;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDDKLRQKLKDAKDSKEFSKLIQVKQAVIKNNQDDNKKSGKNIVAVTACVVGVAHTYMAEDKLLSELSKAGYNIRVETQGSKGIGTPLTTKEIENADVVIIAADTKVNLQRFNGKPVYQTHVARAIKEPLKLVDEAFAKATIQMNSEFKNDGGMNKSKQGVLQHILAGISYMIPVIIMGGICLAFSIGIAKAI;locus_tag=LOCUS_11710;note=WP_005478462.1 PTS fructose transporter subunit IIBC (Vibrio parahaemolyticus) [pid:40.0%25%2C q_cov:90.7%25%2C s_cov:31.2%25%2C Eval:6.5e-32%2C partial hit],internal stop codon at [707988:707990](-)%2C[708048:708050](-),MGA_1171
sequence1	MetaGeneAnnotator	CDS	708735	709034	.	-	0	ID=MGA_1172;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENNLVERKKVENMENIYKEKNIFLNIDLNSKDEVLKYICNKANELGIYQDTKSLLKAFYDREKQGTTGFEDGFAIPHAKVKGITSASIICIRTLNGIE;locus_tag=LOCUS_11720;note=WP_009897772.1 PTS sugar transporter subunit IIA (Clostridioides difficile) [pid:45.8%25%2C q_cov:83.8%25%2C s_cov:55.3%25%2C Eval:1.3e-13%2C partial hit],internal stop codon at [708735:708737](-),MGA_1172
sequence1	MetaGeneAnnotator	CDS	709279	709422	.	-	0	ID=MGA_1173;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHIKESLDNLSIPDSKDIILRKQDNLKFNCEFFSFEKNKIEFGKAFI;locus_tag=LOCUS_11730;note=MGA_1173
sequence1	MetaGeneAnnotator	CDS	709597	709890	.	-	0	ID=MGA_1174;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLLEDNTTFKDFFEKNRDKFGISNGLDFPLLSKIITANDYLSVQVHPNDQYAKVHHNSLGKPESWYVIDCPKDAKLIYGHKANNLDSFKQLMQEGN;locus_tag=LOCUS_11740;note=WP_011166679.1 class I mannose-6-phosphate isomerase (Mycoplasma mycoides) [pid:55.6%25%2C q_cov:92.8%25%2C s_cov:28.8%25%2C Eval:4.5e-22%2C partial hit],internal stop codon at [709597:709599](-)%2C[709915:709917](-)%2C[709978:709980](-),MGA_1174
sequence1	MetaGeneAnnotator	CDS	710066	710206	.	-	0	ID=MGA_1175;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFEQFPNCYAVGNAIDGIKELSKEVIDTVQNAGVGKKLNEIVEEFQ;locus_tag=LOCUS_11750;note=MGA_1175
sequence1	MetaGeneAnnotator	CDS	710288	710548	.	-	0	ID=MGA_1176;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENKVNLDFSHFPDQKVICNYESIEELIEKGLDLDESFPGLVANIKNDKQLEYVRAVVNEYDLLALEFPKEDNCRIEIYKKGVTKS;locus_tag=LOCUS_11760;note=MGA_1176
sequence1	MetaGeneAnnotator	CDS	710561	710929	.	-	0	ID=MGA_1177;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKIKKIAATDMDGTIIFELDTISEENKKQLLKFQKKSNNSLTIVTGRNYFLADFAARELNINLPVICSNGASVIDPQTLKYIAKKHFKKEEIKELLEKFLDTGIEINVPNDFRTHFIQNED;locus_tag=LOCUS_11770;note=WP_000593361.1 Cof-type HAD-IIB family hydrolase (Staphylococcus) [pid:28.2%25%2C q_cov:95.9%25%2C s_cov:38.8%25%2C Eval:9.1e-07%2C partial hit],MGA_1177
sequence1	MetaGeneAnnotator	CDS	711579	711812	.	+	0	ID=MGA_1178;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGTVLNTAQELEIDVCPSEGFDSNMVGEVLAKHNLINLDNEKVLVGMFIGKVDTTQEFHHSFTKTRRPIEKAYKIVK;locus_tag=LOCUS_11780;note=MGA_1178
sequence1	MetaGeneAnnotator	CDS	712593	712982	.	-	0	ID=MGA_1179;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTTNNENLDHEENQSIQNKEIKKQNIFLKFLKSELSGWNAFEILLLVISTALILTLGIIAKDKAISILAGITGTIAVILGAKGKISAFIVGATNSVLYIILLLQGSLFSSIILHAAFYIPMNIIGFGL;locus_tag=LOCUS_11790;note=MGA_1179
sequence1	MetaGeneAnnotator	CDS	712969	713439	.	-	0	ID=MGA_1180;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKLKNKNIYFCPGPMITSISKKVMKKIMSLKPILHLNEKELQDYTNINNLEQAIKTLYLENKNIIYVTLGSKGVAYFDGTIFNKVVGFKVKKIVDTLGAGDAHVATIMLSLSSGKTIEQSLEFANLVASKIVEVQGAKIVNQKIIDYLKEQYENY;locus_tag=LOCUS_11800;note=WP_005419503.1 ribokinase (Aliivibrio) [pid:28.5%25%2C q_cov:89.1%25%2C s_cov:45.2%25%2C Eval:5.2e-08%2C partial hit],MGA_1180
sequence1	MetaGeneAnnotator	CDS	713530	713883	.	-	0	ID=MGA_1181;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTLIIGSAIVDIMMQVKNLPQRSGDVVSKERTINVGGCAYNVANIFKLFNQDCSLFVPIGTGVFASIIEQQLIKDEHDILLKKDYKDNGYCIALIEPDGERTFITYSGLEEEFEKQ;locus_tag=LOCUS_11810;note=WP_000011934.1 carbohydrate kinase family protein (Escherichia coli) [pid:38.6%25%2C q_cov:97.4%25%2C s_cov:35.5%25%2C Eval:2.6e-22%2C partial hit],internal stop codon at [713530:713532](-),MGA_1181
sequence1	MetaGeneAnnotator	CDS	713904	714548	.	-	0	ID=MGA_1182;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKKNLNPIEITNKALSNGSAMRIAPIGLLFKANQHKDLVDYVFKVSQVTHTSDITISGASIIAMCVNSALYKSDFNEILEDLYVVDKLALDLGSETYSPSMTKRIKLAIDIANRFKGKDIEFINELYDIIGAGVNISESVPTAIAIAYYAKDVNKAAFLAANLAGDTDTIGAMACAICGAYTGVEKIDNNFVKIIKESNEINLNFYIEKIERY;locus_tag=LOCUS_11820;note=WP_013097909.1 ADP-ribosylglycohydrolase family protein (Enterobacter cloacae) [pid:39.8%25%2C q_cov:95.8%25%2C s_cov:61.4%25%2C Eval:1.4e-33%2C partial hit],internal stop codon at [713904:713906](-)%2C[714612:714614](-)%2C[714813:714815](-),MGA_1182
sequence1	MetaGeneAnnotator	CDS	714612	714764	.	-	0	ID=MGA_1183;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDGPQENEIAKNYKKGQFTDDTAQALVILDSLFENNFIPDKKIIAKNLLN;locus_tag=LOCUS_11830;note=MGA_1183
sequence1	MetaGeneAnnotator	CDS	714813	714935	.	-	0	ID=MGA_1184;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLLNYKHNRKILGENMKSKIEGVIYGMAIGDAMGMPSEL;locus_tag=LOCUS_11840;note=MGA_1184
sequence1	MetaGeneAnnotator	CDS	715178	715717	.	-	0	ID=MGA_1185;product=ribosome biogenesis GTP-binding protein YihA/YsxC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183254.1;translation=MQDNIKEVCFIGRSNVGKSTFINALTNQNKLAKTSSTPGKTRLLNFFDINNGEFRIVDAPGYGYARVNRDQKLAFGKMMDEYLTNREELKFICQLVDLRHKPTTDDVEMYNFFKHHEIKVFIVATKRDKCKKNDIIKNEKLIKTTLNLSPDDKFLAISSTEKNNLEKVYQIFMEMFEIN;locus_tag=LOCUS_11850;gene=yihA;note=WP_011183254.1 ribosome biogenesis GTP-binding protein YihA/YsxC (Mesoplasma florum) [pid:58.4%25%2C q_cov:99.4%25%2C s_cov:89.9%25%2C Eval:4.8e-60],MGA_1185
sequence1	MetaGeneAnnotator	CDS	715792	716178	.	-	0	ID=MGA_1186;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIYDEIRGANMLKKILSNEEKKVFSEKSKKDMKNKNYEKYMKFEIAYLESLKENGGRSKLRNKFLNEKNKYLDETIETQEDLVGKLRLLYESEMSNKSNEKLQARDEMFEETEDFEKMIKEIDKILSL;locus_tag=LOCUS_11860;note=MGA_1186
sequence1	MetaGeneAnnotator	CDS	716796	717371	.	-	0	ID=MGA_1187;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYNLLIDGGATSTKVYLLDANKQIIKKDIFDGVNLYTKTNQSLAELFKIYQKYKEYCLEKLYLGAPGILEFKQYKLIYNIFNNKIIKKNIYILTDIEIQELLFCEKESYLAISLGSGSVMIENVKGKKRIMSSFGPLIADEGSAYTFAKEFIKYAIIDKEREKSSSNFIKYTLEYFNFKDIEELKTLYKN;locus_tag=LOCUS_11870;note=MGA_1187
sequence1	MetaGeneAnnotator	CDS	717587	717751	.	+	0	ID=MGA_1188;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MATANILLPLERNAPIGPGKDHGATATQWMLNKLTKIKETIAQIIGAIINGINK;locus_tag=LOCUS_11880;note=MGA_1188
sequence1	MetaGeneAnnotator	CDS	718060	718416	.	-	0	ID=MGA_1189;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKPEVLAEGGGTALPLADLGSQGLFVSMITSMIMVELYRIFKKYRITIRLPKSVPPAVSNSFIAIIPAIIYATFVILIGYIANVDLITGINNILKPLASLVNDNFGAVIMIIFFNSLF;locus_tag=LOCUS_11890;note=WP_000614053.1 PTS cellobiose transporter subunit IIC (Bacillus thuringiensis) [pid:39.3%25%2C q_cov:99.2%25%2C s_cov:27.5%25%2C Eval:4.7e-16%2C partial hit],internal stop codon at [717907:717909](-)%2C[717916:717918](-)%2C[717973:717975](-)%2C[717976:717978](-)%2C[718006:718008](-)%2C[718057:718059](-)%2C[718060:718062](-)%2C[718417:718419](-),MGA_1189
sequence1	MetaGeneAnnotator	CDS	718417	719247	.	-	0	ID=MGA_1190;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKEEKNLEIKKFKDLQKKELVDLKIEKKDKLKDKQLLKFEKELVIEQYKSQYSIIKATHNLELKALKNPEKYKKVQEQKAVELKIIEVQNNYFQDINKQKRKYKKTIKNLTKDEKKLELIELKKFNAKRKEQLREEVEQLKNSCKINSMRYFKNTTTTSAKNIHGKVMPFLGKVASQKHLMAIRNAFSSLIPFIMIASFITVIRSIPTDFDPNSDHAYLYTYFPKVLDHALVVISGLTMGIMALALSVAIGVNLGKSYGEASLMSGIMGMLGFIL;locus_tag=LOCUS_11900;note=WP_001013053.1 PTS sugar transporter subunit IIC (Bacillus cereus) [pid:32.7%25%2C q_cov:39.9%25%2C s_cov:23.2%25%2C Eval:4.5e-10%2C partial hit],internal stop codon at [718417:718419](-),MGA_1190
sequence1	MetaGeneAnnotator	CDS	719685	720143	.	-	0	ID=MGA_1191;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKNTLEQIKDISKYSENISFQVIANFLLEKYMVLEKYTIFDISKNTSTSPSTVTRFCKRLGLNGFKSLNISLKLENQYLQTINLKNQEFNFSSEANSIDKLADITKLSLEKTAKINRVAIMKAKEVIENSKNIFMFAKGGNIFLVHLFID;locus_tag=LOCUS_11910;note=WP_002286051.1 MurR/RpiR family transcriptional regulator (Enterococcus) [pid:34.2%25%2C q_cov:67.1%25%2C s_cov:37.1%25%2C Eval:1.1e-07%2C partial hit],internal stop codon at [719685:719687](-),MGA_1191
sequence1	MetaGeneAnnotator	CDS	720255	720461	.	-	0	ID=MGA_1192;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEEKTIEISMELIGISGEAKGIAFLALKNAKSGCIVKAEELAIKAKSKLNEAHRLHAQIISREAQGES;locus_tag=LOCUS_11920;note=MGA_1192
sequence1	MetaGeneAnnotator	CDS	720745	720894	.	-	0	ID=MGA_1193;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVGNQAMSEEEIINFAEVNKIDKFEFDIKLDKNLLVIEKKILDYENHF;locus_tag=LOCUS_11930;note=MGA_1193
sequence1	MetaGeneAnnotator	CDS	721075	721569	.	-	0	ID=MGA_1194;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKKQLGISIYPEHFSKKETIDYLNKCYKKGINNLFMSIIHFNKKEKDEILELYKYICVNANKIGFYIILDINDNALNLLELSINELNFFKKIGVSCVRLDSPLLPKEVADLTFNESDLDIQLNISNNDNFINNVLDYKPKRQNLFGCHNFYPLKNSGLSFNFF;locus_tag=LOCUS_11940;note=WP_011861793.1 MupG family TIM beta-alpha barrel fold protein (Clostridioides difficile) [pid:40.0%25%2C q_cov:97.6%25%2C s_cov:43.6%25%2C Eval:7.8e-29%2C partial hit],internal stop codon at [721075:721077](-),MGA_1194
sequence1	MetaGeneAnnotator	CDS	721875	722189	.	-	0	ID=MGA_1195;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEIKGLILCSGGYSSSIISKRLNELGEEYNLKFDEGGFGKDNILELANKYDLILFAPHLSMHFDDFEDALEDKKVPLIQIQSKEYASSNVEILFERILRILGL;locus_tag=LOCUS_11950;note=MGA_1195
sequence1	MetaGeneAnnotator	CDS	722690	722848	.	-	0	ID=MGA_1196;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIINNSGLLNAGKEQHPEVDSITFEQGHLKKIDYSIFSRDLAAETCQTFNDH;locus_tag=LOCUS_11960;note=MGA_1196
sequence1	MetaGeneAnnotator	CDS	723035	723325	.	-	0	ID=MGA_1197;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKMYNLSTDDYLSLFPKLNETDLKLNIKSIVKFAKENSFKYITLTTKHHDGFALYDSNGISLYDISITKTKDILSEFINECNKANIDPYLYYATWD;locus_tag=LOCUS_11970;note=WP_032841307.1 alpha-L-fucosidase (Bacteroides) [pid:38.2%25%2C q_cov:91.7%25%2C s_cov:18.1%25%2C Eval:4.4e-09%2C partial hit],internal stop codon at [722933:722935](-)%2C[723035:723037](-)%2C[723329:723331](-),MGA_1197
sequence1	MetaGeneAnnotator	CDS	723601	724029	.	-	0	ID=MGA_1198;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSLKVENKYFNKKLNNFFVYYLLIGFTLMFLSLTVFFIINLVFKNMKYLGFGFTIYYLIYTIQVLIYIILLNIKQNSIIAFVHDSQLFLFNEIITLENIIEITHNFKRTLIFITYKDEKEYQDIIKLKYNLGLYDYLKKIN;locus_tag=LOCUS_11980;note=MGA_1198
sequence1	MetaGeneAnnotator	CDS	724252	724632	.	-	0	ID=MGA_1199;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILVTGTLALIFKEKYKSFKSENFKIKEQIKILKDEFKIKKVDIDFELPKGEECYFFSDKLQLYKIKLKNQKEKEDYKKELKESDINFSIYITNKRLMIQLKNQYFQYSLKDIVFCNYLLIYVNKI;locus_tag=LOCUS_11990;note=MGA_1199
sequence1	MetaGeneAnnotator	CDS	726497	726772	.	-	0	ID=MGA_1200;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKKIIENLYLGDMHSVPNDAQLVLSCAQEIFLEQNPKKDEIKLVDEKNNRILYNFEDYPNFQDMDETLILDAIKQIENNIKDKKIYIHCI;locus_tag=LOCUS_12000;note=MGA_1200
sequence1	MetaGeneAnnotator	CDS	726795	727073	.	-	0	ID=MGA_1201;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSYYLDLNGKTEEECEKIIEPYLKNPSILGLKEMKPSIQLGPILLLENVIDNDRHICITITKNKNLEYQSVTNFDCLFINSAKEFFSKFLPF;locus_tag=LOCUS_12010;note=MGA_1201
sequence1	MetaGeneAnnotator	CDS	727140	727280	.	-	0	ID=MGA_1202;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIKDFLKQLNLELIKGNCSDIEFYEPKDFNELKQIYRIYFRNNEY;locus_tag=LOCUS_12020;note=MGA_1202
sequence1	MetaGeneAnnotator	CDS	727859	728068	.	+	0	ID=MGA_1203;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFVPYLFKYTRKGKYKGIEFNTYEHLLYDLEVKKINNFNIKKEQIREFKIGATSEEISALIVKHKNSKK;locus_tag=LOCUS_12030;note=WP_011183212.1 alpha/beta fold hydrolase (Mesoplasma florum) [pid:47.1%25%2C q_cov:97.1%25%2C s_cov:20.0%25%2C Eval:1.0e-10%2C partial hit],internal stop codon at [727790:727792](+)%2C[728066:728068](+)%2C[728246:728248](+)%2C[728357:728359](+),MGA_1203
sequence1	MetaGeneAnnotator	CDS	728078	728248	.	+	0	ID=MGA_1204;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHGFKRNKYMGLRGVFHLYEQGYNIICFDAFAHGSTYGKYSDFGLTNAKVLNEVIT;locus_tag=LOCUS_12040;note=WP_011183212.1 alpha/beta fold hydrolase (Mesoplasma florum) [pid:70.9%25%2C q_cov:98.2%25%2C s_cov:16.2%25%2C Eval:3.5e-19%2C partial hit],internal stop codon at [727790:727792](+)%2C[728066:728068](+)%2C[728246:728248](+)%2C[728357:728359](+)%2C[728438:728440](+),MGA_1204
sequence1	MetaGeneAnnotator	CDS	728444	728620	.	+	0	ID=MGA_1205;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLGINRNFRKYAKMNIKDVNLLKQDNIINDLKILFIHGKKDDFILYDNSVVLYHLKN;locus_tag=LOCUS_12050;note=WP_011183212.1 alpha/beta fold hydrolase (Mesoplasma florum) [pid:52.8%25%2C q_cov:91.4%25%2C s_cov:15.6%25%2C Eval:1.9e-09%2C partial hit],internal stop codon at [728246:728248](+)%2C[728357:728359](+)%2C[728438:728440](+)%2C[728618:728620](+),MGA_1205
sequence1	MetaGeneAnnotator	CDS	728932	729168	.	-	0	ID=MGA_1206;product=S1 RNA-binding domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183238.1;translation=MGTIVNITITKIVDFGAFCDAEIDGKIYKGLIHISEIADAYVTNVADYVTVGQQMDGYVISVDESKDQAKLSLKRVSK;locus_tag=LOCUS_12060;note=WP_011183238.1 S1 RNA-binding domain-containing protein (Mesoplasma) [pid:46.8%25%2C q_cov:98.7%25%2C s_cov:98.7%25%2C Eval:1.8e-15],MGA_1206
sequence1	MetaGeneAnnotator	CDS	729438	729650	.	-	0	ID=MGA_1207;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDPVGLRITLREMYERYQLPLMISENGIGLSETLENETVNDEIRIEYYYKHIEQLQLAISEGIEIIAYNP;locus_tag=LOCUS_12070;note=WP_011183210.1 glycoside hydrolase family 1 protein (Mesoplasma florum) [pid:62.9%25%2C q_cov:98.6%25%2C s_cov:14.9%25%2C Eval:2.1e-19%2C partial hit],internal stop codon at [729315:729317](-)%2C[729438:729440](-)%2C[729654:729656](-)%2C[729936:729938](-),MGA_1207
sequence1	MetaGeneAnnotator	CDS	729654	729929	.	-	0	ID=MGA_1208;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDAIVRGIYNPIVKKYFLDNDLMPEILETDLDILKKGKPDFLSINYYTSGTVMENQEDTDKEIKIDQQTMFDINGLFSYSKNEYLGKTEYG;locus_tag=LOCUS_12080;note=WP_011183210.1 glycoside hydrolase family 1 protein (Mesoplasma florum) [pid:54.3%25%2C q_cov:100.0%25%2C s_cov:19.6%25%2C Eval:2.2e-21%2C partial hit],internal stop codon at [729438:729440](-)%2C[729654:729656](-)%2C[729936:729938](-)%2C[730203:730205](-),MGA_1208
sequence1	MetaGeneAnnotator	CDS	729936	730178	.	-	0	ID=MGA_1209;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIMIGSKVSILNGSHSSLNEKELYQQSHNMFIAQALAVNLLKKYNKESKIGPALNNVCIYPNSKKPEDYLSAQNASIMRN;locus_tag=LOCUS_12090;note=WP_011183210.1 glycoside hydrolase family 1 protein (Mesoplasma florum) [pid:60.0%25%2C q_cov:100.0%25%2C s_cov:17.1%25%2C Eval:1.9e-20%2C partial hit],internal stop codon at [729654:729656](-)%2C[729936:729938](-)%2C[730203:730205](-)%2C[730287:730289](-)%2C[730443:730445](-),MGA_1209
sequence1	MetaGeneAnnotator	CDS	730443	730583	.	-	0	ID=MGA_1210;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSVQDIKKYGEDVSDFKVASDFYHKYKEDIALFKEMGLKSFRFSIA;locus_tag=LOCUS_12100;note=WP_011183210.1 glycoside hydrolase family 1 protein (Mesoplasma florum) [pid:69.6%25%2C q_cov:100.0%25%2C s_cov:9.8%25%2C Eval:2.4e-12%2C partial hit],internal stop codon at [730203:730205](-)%2C[730287:730289](-)%2C[730443:730445](-)%2C[730641:730643](-),MGA_1210
sequence1	MetaGeneAnnotator	CDS	730685	730864	.	-	0	ID=MGA_1211;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHIISQNINNFAIELNFADLIKLNNQYFSAIHSLDINYGLTQIKNDYLRRKDIKMKAVK;locus_tag=LOCUS_12110;note=MGA_1211
sequence1	MetaGeneAnnotator	CDS	730889	731716	.	-	0	ID=MGA_1212;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPISVQVQQQIPQLLSPGLMYGVYGQVGALVGLIIRTKDAKLRAMSIANIPAGLIGVSEPILYGINLPKQKPFIAGNIGAAIGGMISGIIGVKLHVPGGYGIFSITGYIPGGGINVAMFSLCLLITLASSALITLLIYKERPDELKEIRKINKLLVYTYCQKNNITKKEALLKLDVFLLRTNNYFSKEELKNIKELEKEIIILNKKEATFDKYNEKYEVQKNKYLLKLKKMRKTEEIEKIEILYNSFKNFEKNNKLEIMQKEIDSFKEKLKEKSK;locus_tag=LOCUS_12120;note=WP_011183209.1 PTS glucose transporter subunit IIA (Mesoplasma florum) [pid:39.3%25%2C q_cov:95.3%25%2C s_cov:30.9%25%2C Eval:8.9e-51%2C partial hit],internal stop codon at [730889:730891](-)%2C[731756:731758](-)%2C[731936:731938](-)%2C[731948:731950](-)%2C[731960:731962](-),MGA_1212
sequence1	MetaGeneAnnotator	CDS	731756	731935	.	-	0	ID=MGA_1213;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPAMVDIIFRHTLAFIIIVSATFFFVGPTLGLVEYGIGYVVNEIGLLPFGIGVAIFSFV;locus_tag=LOCUS_12130;note=WP_011183209.1 PTS glucose transporter subunit IIA (Mesoplasma florum) [pid:50.8%25%2C q_cov:100.0%25%2C s_cov:6.9%25%2C Eval:6.2e-11%2C partial hit],internal stop codon at [731756:731758](-)%2C[731936:731938](-)%2C[731948:731950](-)%2C[731960:731962](-)%2C[732047:732049](-)%2C[732053:732055](-),MGA_1213
sequence1	MetaGeneAnnotator	CDS	732053	732457	.	-	0	ID=MGA_1214;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKVFASFTNLTNNFSKENSVVKAKRSFKEKAMASLAGVMVPNLPIFIGVGMLMAVQSILIQAGVLVKPGPAGSLEEIDHFSQYFYIITDVAFKFLGLFVGYNTIRYLGGNSQMGLLICLVIANPFLFQNATPI;locus_tag=LOCUS_12140;note=WP_011183209.1 PTS glucose transporter subunit IIA (Mesoplasma florum) [pid:43.9%25%2C q_cov:98.5%25%2C s_cov:17.3%25%2C Eval:1.6e-27%2C partial hit],internal stop codon at [731936:731938](-)%2C[731948:731950](-)%2C[731960:731962](-)%2C[732047:732049](-)%2C[732053:732055](-)%2C[732494:732496](-),MGA_1214
sequence1	MetaGeneAnnotator	CDS	732776	733174	.	-	0	ID=MGA_1215;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKIKFYAPCDGKIFKIEKLNDGVFSEKMLGDGIYIEPDSNVFYSPFEEANINMIFDTKHAMFLKCKNGPNVLIHIGLDTVNLKGKPFKIFTEVNKQVSLNDKLVEVNFNMIKENKLQISTPIVIEESLEDN;locus_tag=LOCUS_12150;note=WP_011183209.1 PTS glucose transporter subunit IIA (Mesoplasma florum) [pid:46.4%25%2C q_cov:94.7%25%2C s_cov:14.7%25%2C Eval:3.8e-29%2C partial hit],internal stop codon at [732494:732496](-)%2C[732776:732778](-),MGA_1215
sequence1	MetaGeneAnnotator	CDS	733254	733979	.	-	0	ID=MGA_1216;product=MurR/RpiR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183208.1;translation=MIFDKLTKITQNNDNKNDTLIAKKLVEMYINKNFLSIKEFADTIHVSESLLTVFSKKLNLKGYRELISLLKFELAEQVDANFKFSHATNMDKEINIFDEIKKKVFEIFNKIKDGKVYILSSNQLKYYSNLIVEIFNLNNINTINIVNDYLFYNYIEKINQNDSILLFFAGQGNEILIKIYEKLKEVNKNIFIFCSNSQKYKLQTYKDIFILDLKSFPSSYIYRNISMSYILAFFNEALNLL;locus_tag=LOCUS_12160;note=WP_011183208.1 MurR/RpiR family transcriptional regulator (Mesoplasma florum) [pid:32.1%25%2C q_cov:92.9%25%2C s_cov:93.7%25%2C Eval:2.3e-25],MGA_1216
sequence1	MetaGeneAnnotator	CDS	734261	734536	.	-	0	ID=MGA_1217;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLGENDSQTMYVKTLSEYKNYFNKNPKEKLKIVKPYWSLTNIKTKEEYIIDAMLYKTDDRVFLEDTYNTMIAVRLMKDKPGVETNVLGLS;locus_tag=LOCUS_12170;note=MGA_1217
sequence1	MetaGeneAnnotator	CDS	734624	734878	.	-	0	ID=MGA_1218;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELNIEQLEAKFGALDSSGENIDNNFYKKLLISDNVEIQKLNFYIYDKVDAQYKIDFIGDFIIDNIEYKNVSLSGYEENQYFTS;locus_tag=LOCUS_12180;note=MGA_1218
sequence1	MetaGeneAnnotator	CDS	734906	735130	.	-	0	ID=MGA_1219;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLNSLTVFSLTLGSVNQISAFTIKNNENLLSVDDKFSIKISTSNFEVDNKNELLPNKSYDRKKEMQQSLVK;locus_tag=LOCUS_12190;note=MGA_1219
sequence1	MetaGeneAnnotator	CDS	735819	736136	.	-	0	ID=MGA_1220;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIQIKNFKLEKKDQFLFEIEKLLIDNNNQVIGLIGNNGSGKTSFAKAILGIENDYKGLLINKFKTLYIEQNYFLNEIFSSGGEYTKDQIIKAFNLEADLLILLKK;locus_tag=LOCUS_12200;note=WP_012774948.1 ABC transporter ATP-binding protein (Streptococcus suis) [pid:40.3%25%2C q_cov:63.8%25%2C s_cov:13.9%25%2C Eval:7.0e-07%2C partial hit],MGA_1220
sequence1	MetaGeneAnnotator	CDS	736541	736714	.	-	0	ID=MGA_1221;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRIIPYEIYKYAPDITLTALRKEFGMHDYCLNLKPNNKAMQPFLDLGRNYFNLLIFN;locus_tag=LOCUS_12210;note=MGA_1221
sequence1	MetaGeneAnnotator	CDS	738031	738495	.	-	0	ID=MGA_1222;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGYINLKGLSINLGSNAYVHELPDFKIAVNYMIDLNESEDKALDDMSEFSVKTIKAFHETFGVDYDYGYVPEANSKDDILMALKGSDFTKKIKFDQALAGGSEFMSYQLSLTNELTNLESYRESMFDLANLSSDTMFSFSQRKSKSFQYLINSK;locus_tag=LOCUS_12220;note=MGA_1222
sequence1	MetaGeneAnnotator	CDS	738595	738978	.	-	0	ID=MGA_1223;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGSKKPSDGYGKIDKELANYYDIDRKNNGFEKSIISFIKNKYFAELEALPLAFSEESIFKTEELNQTSLLASANKHKIANNEESIKYDYSNLNGQVMLKTIFRNNPETTNAKQALRNQYFVKKNKDI;locus_tag=LOCUS_12230;note=MGA_1223
sequence1	MetaGeneAnnotator	CDS	738988	739203	.	-	0	ID=MGA_1224;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYLGNVTLDYTIEIQYKGKKEIETLNIDDTLKYTSTDNVALKNATDLFYRNIANDYLSSKEQDDIKQTNLK;locus_tag=LOCUS_12240;note=MGA_1224
sequence1	MetaGeneAnnotator	CDS	739240	739671	.	-	0	ID=MGA_1225;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRLLSLLGAVTLVASSSATVVACGETDPGKDEIITAELIKKFEKDVNNIFAEHLEKNVYQNLINLPATEIDNQFLNKTTIEQYQGKSSEEIGEYRLNQLNLDIVRVLDIENLEKSLNELKFISEYKLILNDVNSLYKGIVFD;locus_tag=LOCUS_12250;note=MGA_1225
sequence1	MetaGeneAnnotator	CDS	740168	740728	.	-	0	ID=MGA_1226;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGYINLKGLSINLGSNAYIHELPDFKIVVNYMIDLNESEDKALDDMSEFSVKTIKAFHETFGVDYDYGYVPEANSKDDILMALKRSDFTKKIKFNQASVGGSEFMSYQLSLTNELTNLESYRESMFDLANLSSDTMFSFSQRYSHGSHQYLITSKYFKNYDEQKGIYISYYNPSGDSSRFENNSFH;locus_tag=LOCUS_12260;note=MGA_1226
sequence1	MetaGeneAnnotator	CDS	740828	741211	.	-	0	ID=MGA_1227;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGSKKPSDGYGKIDKELANYYDIDRKNNGFEKSIISFIKNKYFAELEALPLAFSEESIFKTEELNQTSLLASANKYKIANNEESIKYDYSNLNGQVMLKTIFRNNPETTNAKQALRNQYFVKKNKDI;locus_tag=LOCUS_12270;note=MGA_1227
sequence1	MetaGeneAnnotator	CDS	741221	741436	.	-	0	ID=MGA_1228;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYLGNVTLDYTIEIQYKGKKEIETLNIDDTLKYTSTDNVALKNATDLFYRNIANDYFSSKEQDDIKQTNLK;locus_tag=LOCUS_12280;note=MGA_1228
sequence1	MetaGeneAnnotator	CDS	741473	741904	.	-	0	ID=MGA_1229;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRLLSLLGAVTLVASSSATVVACGETDPGKDEIITAELIKKFEKDVNNIFAEHLEKNVYQNLINLPATEIDNQFLNKTTIEQYQGKSSEEIGEYRLNQLNLDIVRVLDIENLEKSLNELKFISEYKLILNDVNSLYKGIVFD;locus_tag=LOCUS_12290;note=MGA_1229
sequence1	MetaGeneAnnotator	CDS	742494	742958	.	-	0	ID=MGA_1230;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGYINLRGLSINLGSNAYIHELPDFKIAVNYMIDLNENEDKALDDMSEFSVKTIKAFHETFGVDYDYGYVPEANSKDDILMALKRSDFTKKINFNQAGAGGSEFMSYQLSLTNELTNLESYRESMFDLANLSSDTMFSFSQRYSNSFQYLFISK;locus_tag=LOCUS_12300;note=MGA_1230
sequence1	MetaGeneAnnotator	CDS	743058	743441	.	-	0	ID=MGA_1231;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGSKKESDGYGKIDKELVYYYNKDRKTNGFEKSIISFIKSEYFAGLEALPLVFEGGSIFKGAELNQTSLLTSINKIKSADNKEAIKYDYSNLNGQVMMKTIFRNNPETTNPKQALRNQYFVKRNKDI;locus_tag=LOCUS_12310;note=MGA_1231
sequence1	MetaGeneAnnotator	CDS	743451	743666	.	-	0	ID=MGA_1232;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYLGNVVLDYKIQIQYKGKKEVETLNIGDTLKYTSTDNGALKTATNLFYRNIASDYLASKAQDDIKQTNLK;locus_tag=LOCUS_12320;note=MGA_1232
sequence1	MetaGeneAnnotator	CDS	743703	744134	.	-	0	ID=MGA_1233;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSLLGAVTLVASSSATVVACGETDPGKDEIITGELIKKFEKEVTNIFAEHLEKNVYQNLINLPVTEIDNQFLNKTTIEQYQGKSAQEIGEYRLNQLSLDIIKVLDIENLEKSLNELKSINEYNIILSDVNSLYKGIVFE;locus_tag=LOCUS_12330;note=MGA_1233
sequence1	MetaGeneAnnotator	CDS	744606	745181	.	-	0	ID=MGA_1234;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGYINLKGLSINLGSNAYVHELPDFKIAVNYMIDLSENEDKTLDDMSEFSVKTIKAFHETFGVDYDYEYVPEANSDDDIFMALKRSEFTNKLRFDSFETYGSSKSMSYQLSLTNELTNLESYRESMFDLANLSSDTMFQFSQRRTDLNGEYNFLEGSNYFKHYDEQKGISISRNNIFPMSPGVAYQTSTIY;locus_tag=LOCUS_12340;note=MGA_1234
sequence1	MetaGeneAnnotator	CDS	745281	745664	.	-	0	ID=MGA_1235;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGSKKVSDGYGKIDRELANYYNLDRKNNGFEKSIISFVKSKYFYVLDSLSIVFEEESIFKGAELNETSLLTSTNKVKSGINEEATKYDYSDLNGQVMMKTIFRNNPETTNPKQALRNLYFQKKNKDI;locus_tag=LOCUS_12350;note=MGA_1235
sequence1	MetaGeneAnnotator	CDS	745674	745889	.	-	0	ID=MGA_1236;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYLGNVVLDYKIEIQYKGKKEIETLSIGDTLKYTSTDNDALKTSADTFYRNIASDYFASKKQDDVKQTNLK;locus_tag=LOCUS_12360;note=MGA_1236
sequence1	MetaGeneAnnotator	CDS	745926	746354	.	-	0	ID=MGA_1237;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSLLGAITLVASSSATVVACGDTKPEKNKITNDLIKKFEKEVNKIFAEHLEENVYQNLINLPATEINNKFLNKETINKYQGKSFDQIGEYQLNQLSSDIIRVLDIENLEKSLNKLKSINEYKIILNDVNSLYKGIVFD;locus_tag=LOCUS_12370;note=MGA_1237
sequence1	MetaGeneAnnotator	CDS	746950	747390	.	-	0	ID=MGA_1238;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGYINLKGLSINLGSNAYIHQLPDFKIAVNYMIDLSENEDKTLDDMSEFSVKTIKAFHETFGVNYDYEYVPEANSDDDILMALKSSEFTNKLKFDYFENYGCSKNLSYQLSLTNELTNLESYRESMFDLANLSSDTMFQFSQRSTE;locus_tag=LOCUS_12380;note=MGA_1238
sequence1	MetaGeneAnnotator	CDS	747490	747873	.	-	0	ID=MGA_1239;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGSKKVSDGYGKIDRELANYYDLDRKNNGFEKSIISFVKSKYFYVLDSLPIVFEEESIFKGAELNETSLLTSTNKIKSGINEEAAKYDYSDLNGQVMMKTIFRNNPETSNAKQALRNQYFVKKNKDI;locus_tag=LOCUS_12390;note=MGA_1239
sequence1	MetaGeneAnnotator	CDS	747883	748098	.	-	0	ID=MGA_1240;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYLGNVVLDYKIEIQYKGKKEVETLSIGDTLKYTSTDNDALKTSTDTFYRNIASDYLASKVQDDIKQTNLK;locus_tag=LOCUS_12400;note=MGA_1240
sequence1	MetaGeneAnnotator	CDS	748135	748563	.	-	0	ID=MGA_1241;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNLLSLLGAVTLVASSSATVIACGDTKPEKDKIINDLIKKFEKDINKIFAEHLEKNVYQNLINLPATEINNQFLNKETINKYQGKSFDQIGEYQLNQLSSDIIRVLDIKNLEKSLNELKAINEYKIILSDVKNLYKGIVFD;locus_tag=LOCUS_12410;note=MGA_1241
sequence1	MetaGeneAnnotator	CDS	749115	749663	.	-	0	ID=MGA_1242;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDFLKTLKGNFESYKSSDEYKSSIAMGYINLKGLSINLGSNAYIHQLPDFKIAVNYMIDLNENEDKSLDDMSEFSVKTIKAFHETFGVDYDYGYKPEPNSKDDILMALKRSDFTKKIEFQGFRSSSTAMSAQLSLTNDVTNLESYRESMFDLANLPSDTFFTFSQRQSSMLHVAQHFLGQSK;locus_tag=LOCUS_12420;note=MGA_1242
sequence1	MetaGeneAnnotator	CDS	749688	750071	.	-	0	ID=MGA_1243;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGSKKVSDGYGKIDKELANYYDLDRKTNGFEKSIISFVKSKYFTKLEFLPLAFEGESIFKGAELNQTSLLTSANKMKSYLREDAIKYHYSNVNDQVMLRTIFRNNPETTNAKQTLRNLYFQKKNRDI;locus_tag=LOCUS_12430;note=MGA_1243
sequence1	MetaGeneAnnotator	CDS	750081	750296	.	-	0	ID=MGA_1244;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYLGNVVLDYKIEIQYKGKKEVETLNIGDTLKYTSTDNATLKTATDLFYRNIASDYLASKAQDDIKQTNLK;locus_tag=LOCUS_12440;note=MGA_1244
sequence1	MetaGeneAnnotator	CDS	750333	750761	.	-	0	ID=MGA_1245;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSLLGAVTLVASSSATVVACEETDPGEDKITSELLKKFEKEVNNIFAEHLEKNVYQNLINLPATEINNQFLNKETIDNYQGKSAQEIGEYRLNQLNSDILRVLDIQNLEKSLNELKSINEYKIILNDVNSLYKGIVFD;locus_tag=LOCUS_12450;note=MGA_1245
sequence1	MetaGeneAnnotator	CDS	751379	751927	.	-	0	ID=MGA_1246;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDFLKTLKGNFESYKSSDEYKSSIAMGYIDLKGLSINLGSNAYIHQLPDFKIAVNYMIDLNETEDKALDDMSEFSVKTIKAFHETFGVDYDYGYTAEPNSKDDILMALKRSDFTKNIYFQGFRSSSHQMSSQLSLTNDLTNLESYRESMFDLANLPSDTFFTFSQRQSSMLHVAQHFLGQSK;locus_tag=LOCUS_12460;note=MGA_1246
sequence1	MetaGeneAnnotator	CDS	751952	752146	.	-	0	ID=MGA_1247;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNQTSLLTSANKMKSYLREDGIKYHYSNVNDQVMLRTMFRNNPETTNAKQTLRNLYFQKKNKDV;locus_tag=LOCUS_12470;note=MGA_1247
sequence1	MetaGeneAnnotator	CDS	752345	752560	.	-	0	ID=MGA_1248;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYLGNVVLDYKIEIQYKGKKEIETLSIGDTLKYTSTDNDSLKTATDLFYRNIASDYLGSKAQDDIKQTNLK;locus_tag=LOCUS_12480;note=MGA_1248
sequence1	MetaGeneAnnotator	CDS	752597	753025	.	-	0	ID=MGA_1249;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSLLGAVTLVASSSATVVACGDTDPQKDKITNDLIKKFEKDINNIFAQHLEENVYQNLINLPATEINNQFLNKETINKYQGKSFEEIGEYRLNQLNSDIIKILDIENLEKRLNELKAINEYKIILGDVKNLYKGIVFD;locus_tag=LOCUS_12490;note=MGA_1249
sequence1	MetaGeneAnnotator	CDS	753158	753562	.	-	0	ID=MGA_1250;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEYKKQNKTVIITVHNIDEIADIIDDYIIIDNGENVFNGSAEELDIYAKYKVYINERFNHKNFRFFLSEYGIKAFKFDRDENSLVVAIENFKQINFLFLYLIKNNLPLKNLVKLPINMESIHKALESKKLMQS;locus_tag=LOCUS_12500;note=WP_011183360.1 ATP-binding cassette domain-containing protein (Mesoplasma florum) [pid:31.0%25%2C q_cov:95.5%25%2C s_cov:13.5%25%2C Eval:9.9e-14%2C partial hit],internal stop codon at [753584:753586](-)%2C[753680:753682](-)%2C[753716:753718](-)%2C[753737:753739](-),MGA_1250
sequence1	MetaGeneAnnotator	CDS	753737	754093	.	-	0	ID=MGA_1251;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEDIIQFDNYLKKFKKKLIGPLNCSIKKARITALLGSSGSGKTVILNSLLGMIKNFNGKILVEGINRKSLKYFKVNKKIGYYTQMDFSLYNVSAYKFLLDISIMMGLNKKNVRMKIEN;locus_tag=LOCUS_12510;note=WP_011183360.1 ATP-binding cassette domain-containing protein (Mesoplasma florum) [pid:48.7%25%2C q_cov:95.8%25%2C s_cov:11.8%25%2C Eval:1.5e-25%2C partial hit],internal stop codon at [753584:753586](-)%2C[753680:753682](-)%2C[753716:753718](-)%2C[753737:753739](-),MGA_1251
sequence1	MetaGeneAnnotator	CDS	755032	755865	.	-	0	ID=MGA_1252;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSIIPGFSIIKYSFKSIIKEKSFLIFNGLYLLFSLFIACYSLIQKNNSNFLQVFDYYVILSIFVILFVLCLRLTQYFYVVKRDDKTLNIIITQQLSRSKLFLFQFISFILLMLINIFISYLLINIINMAVNFKANLFLLRLTTVYLIYAFLSCVFLINFFLLISLLSNIQVSTIIATLILSATFISNLPYTFLIQSEESQSKKITFLYKNSNTSMSVNEIYDSYNLKKQILNKEIRYSNLSFEIYNNFINNEFETDPNAIETNFNNEKNIQKRMEF;locus_tag=LOCUS_12520;note=MGA_1252
sequence1	MetaGeneAnnotator	CDS	756241	756402	.	-	0	ID=MGA_1253;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQLGYIIIPKSSKPVRVIDNIQIEDFELTNEDIQLIGTIKQQRVGPDPDNFDF;locus_tag=LOCUS_12530;note=WP_000793528.1 aldo/keto reductase (Bacillus cereus group) [pid:55.6%25%2C q_cov:100.0%25%2C s_cov:19.4%25%2C Eval:2.0e-09%2C partial hit],internal stop codon at [756406:756408](-),MGA_1253
sequence1	MetaGeneAnnotator	CDS	756406	756573	.	-	0	ID=MGA_1254;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHPALQNLEVVKFCQANDILVESWGTMIRGKCFEVDELKLLAKKYNKSEAQICLR;locus_tag=LOCUS_12540;note=WP_011475880.1 aldo/keto reductase (Ligilactobacillus salivarius) [pid:38.2%25%2C q_cov:100.0%25%2C s_cov:19.2%25%2C Eval:6.9e-07%2C partial hit],internal stop codon at [756406:756408](-)%2C[756700:756702](-)%2C[756727:756729](-)%2C[756823:756825](-),MGA_1254
sequence1	MetaGeneAnnotator	CDS	756823	757065	.	-	0	ID=MGA_1255;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKILNKTLKFNNGLEIPQIGLGTYELVDEQETLASIKAALKAGYKHIDTASIYNNHKIIAQAIKESGVERKTLFITSKV;locus_tag=LOCUS_12550;note=WP_010990025.1 aldo/keto reductase (Listeria monocytogenes) [pid:51.4%25%2C q_cov:92.5%25%2C s_cov:26.1%25%2C Eval:2.5e-17%2C partial hit],internal stop codon at [756700:756702](-)%2C[756727:756729](-)%2C[756823:756825](-),MGA_1255
sequence1	MetaGeneAnnotator	CDS	757521	757700	.	-	0	ID=MGA_1256;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHDRYNLPIIITENGLGAKDVLTSEGKIHDKYRIDYLRKHIEQIPKIINDGVKLFGYNP;locus_tag=LOCUS_12560;note=WP_011183514.1 glycoside hydrolase family 1 protein (Mesoplasma florum) [pid:63.2%25%2C q_cov:96.6%25%2C s_cov:12.2%25%2C Eval:7.6e-17%2C partial hit],internal stop codon at [757398:757400](-)%2C[757521:757523](-)%2C[757740:757742](-)%2C[757962:757964](-),MGA_1256
sequence1	MetaGeneAnnotator	CDS	757740	757922	.	-	0	ID=MGA_1257;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLFKKAKINFIAFNYYSSMSVKAPTKDQDFKVGDQQMGFNLENMFQSAKNDNLQVSEYG;locus_tag=LOCUS_12570;note=WP_011182908.1 glycoside hydrolase family 1 protein (Mesoplasma florum) [pid:41.7%25%2C q_cov:98.3%25%2C s_cov:12.9%25%2C Eval:4.2e-07%2C partial hit],internal stop codon at [757521:757523](-)%2C[757740:757742](-)%2C[757962:757964](-)%2C[758019:758021](-),MGA_1257
sequence1	MetaGeneAnnotator	CDS	758019	758258	.	-	0	ID=MGA_1258;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVVMFGHLLSKQFTGVDNGQESYQMFHNMNVAQAKAILLLKTINKKAKIGVAPNISLVYPQTNKPEDVLAAHNANLIRN;locus_tag=LOCUS_12580;note=WP_011182908.1 glycoside hydrolase family 1 protein (Mesoplasma florum) [pid:51.4%25%2C q_cov:89.9%25%2C s_cov:15.9%25%2C Eval:1.4e-12%2C partial hit],internal stop codon at [757740:757742](-)%2C[757962:757964](-)%2C[758019:758021](-)%2C[758280:758282](-)%2C[758364:758366](-)%2C[758523:758525](-),MGA_1258
sequence1	MetaGeneAnnotator	CDS	758971	759405	.	-	0	ID=MGA_1259;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYVERKDEIKSVKSANKVLLKYYSLAKKIKINVAKTQLAEEIKKIDSVIKTEDSIRSKEIEKVFIKINLLESKIDNLTSKLEKKKQSIISKLARLSKKEASEEQLKLLLEKYSILENNLKVKELSEELAKTKTENEKSIIEFNN;locus_tag=LOCUS_12590;note=MGA_1259
sequence1	MetaGeneAnnotator	CDS	759457	759909	.	-	0	ID=MGA_1260;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHVPVIMTVVMPMAAGHFSTLMAVNIAVFAQVGAAIGVAIRTKNGQLRSTVIAAIPGGIVGVTEPILYGINLPKMRPFIAGVIAAGAFGLLSGLMGIEARTSGGLGIFGFTGTLMEPRYVETVVNGVRLMPSANNIFIGGPNSAILNCVL;locus_tag=LOCUS_12600;note=WP_011182930.1 glucose PTS transporter subunit IIA (Mesoplasma florum) [pid:41.9%25%2C q_cov:76.7%25%2C s_cov:14.5%25%2C Eval:5.9e-19%2C partial hit],internal stop codon at [759931:759933](-)%2C[760111:760113](-)%2C[760123:760125](-),MGA_1260
sequence1	MetaGeneAnnotator	CDS	759931	760110	.	-	0	ID=MGA_1261;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPTSIDVLFRPLLIVIIAYTSIFFVLGPILFLIEQFMALIVGYLSQIPYGIGVMIFVAT;locus_tag=LOCUS_12610;note=MGA_1261
sequence1	MetaGeneAnnotator	CDS	760123	760293	.	-	0	ID=MGA_1262;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQLLLSLLIAGAPLGLGMQPDLTLFSINGFVVKAALYTSSIIPHVAMAFIIFHLDK;locus_tag=LOCUS_12620;note=MGA_1262
sequence1	MetaGeneAnnotator	CDS	760312	760521	.	-	0	ID=MGA_1263;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPSLPVLMASGLLMGLKTLLVMGNVITDMKFGTGAPIDMNVDLFSLFINIAAETGLKLMGVFVGYNTMK;locus_tag=LOCUS_12630;note=WP_011183209.1 PTS glucose transporter subunit IIA (Mesoplasma florum) [pid:37.5%25%2C q_cov:100.0%25%2C s_cov:8.5%25%2C Eval:8.1e-08%2C partial hit],internal stop codon at [760111:760113](-)%2C[760123:760125](-)%2C[760312:760314](-)%2C[760684:760686](-),MGA_1263
sequence1	MetaGeneAnnotator	CDS	760684	760902	.	-	0	ID=MGA_1264;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVEESTIYQVEKLLNTKNKYEQAAEVIYKAVGKKDNYKQVYNCMTRLRFEVLDTKKVDVETIKNINLVKGII;locus_tag=LOCUS_12640;note=WP_011183209.1 PTS glucose transporter subunit IIA (Mesoplasma florum) [pid:50.7%25%2C q_cov:97.2%25%2C s_cov:8.6%25%2C Eval:1.1e-12%2C partial hit],internal stop codon at [760684:760686](-)%2C[760981:760983](-),MGA_1264
sequence1	MetaGeneAnnotator	CDS	760981	761382	.	-	0	ID=MGA_1265;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKNIKIYSPADGKIKPLKDLNDGVFSENMLGEGVYIEPTSSEFYSPFEEGTVAQIFHTKHAFHFKSEQGPVILMHIGLDTIHLQGKPFDVKVKEGDSINLKTKIVDVDFKLLDEKNIVKSTPLVIDLNEFKG;locus_tag=LOCUS_12650;note=WP_011183215.1 glucose PTS transporter subunit IIA (Mesoplasma florum) [pid:50.8%25%2C q_cov:96.2%25%2C s_cov:14.9%25%2C Eval:9.2e-36%2C partial hit],internal stop codon at [760981:760983](-),MGA_1265
sequence1	MetaGeneAnnotator	CDS	761485	762219	.	-	0	ID=MGA_1266;product=transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182929.1;translation=MKSVLNQLFINMNINPNSANNAISKILMKSFVTKSIPSIKDLSKSANVAESTISKFAISLGYKGYRELIFKLKLEISDRETKQNLNISNRSYSQFEENIIVAIREFRYFENKISKTKEEIKKSKKIYLFSSYQFQFDALFFSELLKRNAKECFFSTQMFDQITEINKVDEKDFVIFIVGGQDTKTVEMLLNNFLYTNYLVLSTHSKVNEFTHKDRIICIDSKNLKHLYEYRSFVLKYLFLQLCN;locus_tag=LOCUS_12660;note=WP_011182929.1 transcriptional regulator (Mesoplasma florum) [pid:25.9%25%2C q_cov:77.9%25%2C s_cov:77.2%25%2C Eval:1.3e-07],MGA_1266
sequence1	MetaGeneAnnotator	CDS	762629	762895	.	-	0	ID=MGA_1267;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFGVSHAYEYPEYNSKDDFLMTLKRSELTDAIVDKFYSGHDNSGDFVKTFSLFDSQNLGFYRQQMFDEAKLPDSEYFFGFSNLAKKTI;locus_tag=LOCUS_12670;note=MGA_1267
sequence1	MetaGeneAnnotator	CDS	763580	763789	.	-	0	ID=MGA_1268;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGNVIVNYKIVVNYKGEKDIESFELGNNMKYTSTNNTALKVASDDFYQNIAKDYFLSSKAEDRKHTNIK;locus_tag=LOCUS_12680;note=MGA_1268
sequence1	MetaGeneAnnotator	CDS	763847	764281	.	-	0	ID=MGA_1269;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSLLGTISLVTTSSATVVACGEKTEPPDPIINNEALIKEFKIEVENIFQKHLDENVYKNLIGLPDTEIKNKFLNQTKIIEYTGAKASEIDQFDLQQLEHDIKNVLDIDILTKELNKLKNINKYKIILNDVNNLFKNLIIE;locus_tag=LOCUS_12690;note=MGA_1269
sequence1	MetaGeneAnnotator	CDS	764313	764819	.	-	0	ID=MGA_1270;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNRMNLILCFIKDPEIIILDEPGANLDSYWRNKIKILLVEAKKAGKTVVITVHNIDEIADIIDDFIIIDDGKNIFNGSAEELNVYAKYKIYINEKFDEKDFRTFLEEQKIKTFKYDVDENSLVVAIDNYRQINYLFLYLIKNNLPLKNLVKLPINMESIYKALEAKE;locus_tag=LOCUS_12700;note=WP_011183360.1 ATP-binding cassette domain-containing protein (Mesoplasma florum) [pid:42.0%25%2C q_cov:100.0%25%2C s_cov:17.7%25%2C Eval:9.0e-31%2C partial hit],internal stop codon at [764859:764861](-)%2C[764880:764882](-),MGA_1270
sequence1	MetaGeneAnnotator	CDS	764880	765236	.	-	0	ID=MGA_1271;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEEIIKFDNYTKRFKKKIIGPLNCSIKKARITALLGSSGSGKTVILNSLLGIIKNFKGNIEIEDSLRRSEKYYLVNKKIGYYTQMDFSLYVVSAYKFLLDICIMMGINKKEAVTKVEY;locus_tag=LOCUS_12710;note=WP_011387452.1 ABC transporter ATP-binding protein (Mycoplasma capricolum) [pid:50.9%25%2C q_cov:96.6%25%2C s_cov:18.7%25%2C Eval:3.0e-26%2C partial hit],internal stop codon at [764859:764861](-)%2C[764880:764882](-),MGA_1271
sequence1	MetaGeneAnnotator	CDS	765243	765413	.	-	0	ID=MGA_1272;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKPSYKFKLDKENNIDDKTYNNFIAPYFYIVLQFAISVINYYVAKYKFKKLDLTG;locus_tag=LOCUS_12720;note=MGA_1272
sequence1	MetaGeneAnnotator	CDS	765582	765890	.	-	0	ID=MGA_1273;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFDSFVIFNDAKNINKNYIENVTKPNEEKKLFDTKNLIDIYQSYFSFSNNKLVLESGKIKTLIEEDLFFPTMISARILENYFIRYTNNMVIFENSTVIIDEN;locus_tag=LOCUS_12730;note=MGA_1273
sequence1	MetaGeneAnnotator	CDS	766173	767000	.	-	0	ID=MGA_1274;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVIPGIWIIKFSFKLIIKERSFLIFNGLYLLFSLFIAIYSVIQKNISNFLLIFDYYVLLTIFVILFILCLRLTQYFYVVKRDDKTMNIIITQQVSRKKLFFYQFISFILLIFINLFISYLLINVINMLFLLEFNFFLLRITSTYLVYAFISCFFLINFFLLISLFTNIQVSTIVATLILASTFISNLPYTFLIQGEESKKISLIYKGSNTIFSVNEVYDSYDLKNHVLNKNLKYPNLSLAIYESFIENEYETDPNSLTNNFDTEKNIQKRMQF;locus_tag=LOCUS_12740;note=MGA_1274
sequence1	MetaGeneAnnotator	CDS	767945	768250	.	-	0	ID=MGA_1275;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFGVYHGYEYPSHNSNEDFLMTLKSSEMTKAMTDIFNSLDDNDISSQVFFRDSFSLMHTYLKESKAKLFDKANLLDNSYYYMVFATLDSSSPSERKNTGFD;locus_tag=LOCUS_12750;note=MGA_1275
sequence1	MetaGeneAnnotator	CDS	768257	768433	.	-	0	ID=MGA_1276;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLGYVNLTGLSISLDNGAYIHKLPDFRLGINYFIDINLTNAQILDLMSEFTVDSLKV;locus_tag=LOCUS_12760;note=MGA_1276
sequence1	MetaGeneAnnotator	CDS	768689	768871	.	-	0	ID=MGA_1277;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKYYETDSSQNGFRDSLIKFTKENYFDKAGNVLPLSFEGDLIYKSKKMNNFSITQAVNQ;locus_tag=LOCUS_12770;note=MGA_1277
sequence1	MetaGeneAnnotator	CDS	769190	769627	.	-	0	ID=MGA_1278;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSILGTLTLVATSSATVIACGNTTEPPGPIIEDNEELIKELKLEVEEIFVKHLNDNVYQNLVGLPDTENRYSFLNRTKIVENTNLSPEEIDPYDLKLLETDIKKVLEIDKLTTDLNNLKKINKFKIILNDVNSLLKNVIFN;locus_tag=LOCUS_12780;note=MGA_1278
sequence1	MetaGeneAnnotator	CDS	769881	770036	.	-	0	ID=MGA_1279;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIAGFLFEFIKTKNYERALKMGVACGSATAFSTRIGNKKLAFQLFKSILKL;locus_tag=LOCUS_12790;note=MGA_1279
sequence1	MetaGeneAnnotator	CDS	770076	770804	.	-	0	ID=MGA_1280;product=1-phosphofructokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861506.1;translation=MQENIYIVSLSPTIDYILLFDELVKNKTNRPKAVEMYPSGKGIHISMMLNNLNVKNESLIFTNGDFENYFYKELDKNKISYKKFKSKNNIRVNLKLIDAQQTECSVESSSIDKLEINKLINYLKNNLKKNDYLVLTGSIPKEVDKKIYSELVELSNSLKVKCIVDSYGEALNYAIDKKPFLIKPNLDELKLTLGIEINNINDVIKAGKKILERGVENILISMGADGAILINDKITEICNIGN;locus_tag=LOCUS_12800;gene=pfkB;EC_number=2.7.1.56;note=WP_011861506.1 1-phosphofructokinase (Clostridioides difficile) [pid:36.1%25%2C q_cov:94.6%25%2C s_cov:75.1%25%2C Eval:3.9e-36],internal stop codon at [770076:770078](-),MGA_1280
sequence1	MetaGeneAnnotator	CDS	770807	771517	.	-	0	ID=MGA_1281;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNQEIDFSAKNLIYYFNKLNQKKIKDAELIEAIKQAKVKLIKVDLQLENKVNQFIKDLENEKYNSKNKKNIISLLKNIKSDRQKILRNYYRDLLVNVKNLNTLNFFSKKIYNLIIKNKNLKYKLDKLIIIEEKNQADLFNKKGMKDSNLEINLVKKSKLENKIKKLEIEITEVENKIKESSLILISKKNEHYLLIDKKISEMEIIMNEDFNFYRNKYYYDIYDLEIKENLIQIKRV;locus_tag=LOCUS_12810;note=MGA_1281
sequence1	MetaGeneAnnotator	CDS	771584	771733	.	-	0	ID=MGA_1282;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIGIFQVKLDNLAGLGGIVGFLAYTNSLALAILIDLFAFGLGIAFTFFF;locus_tag=LOCUS_12820;note=WP_011166820.1 PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:61.2%25%2C q_cov:100.0%25%2C s_cov:7.8%25%2C Eval:3.4e-09%2C partial hit],internal stop codon at [771584:771586](-)%2C[771734:771736](-)%2C[771920:771922](-),MGA_1282
sequence1	MetaGeneAnnotator	CDS	771734	771913	.	-	0	ID=MGA_1283;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGATIAVGLKSKKTIDKSACFAAALPGIISGPTESCIYGVNLPKGLPFITGTLAGAIGG;locus_tag=LOCUS_12830;note=WP_011166820.1 PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:78.0%25%2C q_cov:100.0%25%2C s_cov:9.4%25%2C Eval:1.1e-20%2C partial hit],internal stop codon at [771584:771586](-)%2C[771734:771736](-)%2C[771920:771922](-)%2C[772031:772033](-)%2C[772082:772084](-),MGA_1283
sequence1	MetaGeneAnnotator	CDS	772082	772255	.	-	0	ID=MGA_1284;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGIIIAYFQKLMEKHFNPVADFILNPFLILLLGGLLAFFIMGPIMGVIENLLLNVFN;locus_tag=LOCUS_12840;note=WP_011166820.1 PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:48.2%25%2C q_cov:98.2%25%2C s_cov:8.9%25%2C Eval:1.5e-09%2C partial hit],internal stop codon at [771920:771922](-)%2C[772031:772033](-)%2C[772082:772084](-)%2C[772304:772306](-)%2C[772418:772420](-),MGA_1284
sequence1	MetaGeneAnnotator	CDS	772418	772570	.	-	0	ID=MGA_1285;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MALQQFLLRTGLVNDPTIESAIIGQDYNVFDVILNAIASTGFKMMGVIAI;locus_tag=LOCUS_12850;note=MGA_1285
sequence1	MetaGeneAnnotator	CDS	772643	772969	.	-	0	ID=MGA_1286;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKEERSIVLIQNIFDKIGGGENIKDVYHCATRMRLTLFNPQIVDLKEIKKIVNIKGALWSNGELQLIIGQEVSKVTSILKNQLNNFKTNNTDNFKIKQQENLNNFSL;locus_tag=LOCUS_12860;note=WP_011166820.1 PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:41.9%25%2C q_cov:97.2%25%2C s_cov:16.6%25%2C Eval:2.7e-19%2C partial hit],internal stop codon at [772418:772420](-)%2C[772643:772645](-),MGA_1286
sequence1	MetaGeneAnnotator	CDS	773034	773747	.	-	0	ID=MGA_1287;product=DeoR/GlpR family DNA-binding transcription regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166819.1;translation=MLKDERRNLIVELIDKQGFMKNITLSEMTDSTIQTIIMDIKELHQQKRLIKVYGGAKSLNNNQKMILRESFDEEKASLNIDFKNKIGQLAANLIEDGDLIFIDTGTTTKHMIKFLIGKQVEVVTNGYSIALELLENDITVCLVGGTIIPSTHATAGELALKFLDNFYFDKAFIGMNNLYKNEFYTTNIEEAMIKEKVFKNCEKSYILMDSTKFESRNRIKVEVSKETILISENFPSS;locus_tag=LOCUS_12870;note=WP_011166819.1 DeoR/GlpR family DNA-binding transcription regulator (Mycoplasma mycoides) [pid:63.4%25%2C q_cov:97.9%25%2C s_cov:94.3%25%2C Eval:1.1e-75],MGA_1287
sequence1	MetaGeneAnnotator	CDS	773861	774100	.	+	0	ID=MGA_1288;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTSLKMQLLKAKKEGYALAAFNFDNLEMMKAIIEAAEEENSPVVLMVTESAAKYMGLDYVFALTLTAVNNAKVPIVLH;locus_tag=LOCUS_12880;note=WP_011166818.1 class II fructose-bisphosphate aldolase family protein (Mycoplasma mycoides) [pid:63.3%25%2C q_cov:100.0%25%2C s_cov:28.1%25%2C Eval:4.5e-22%2C partial hit],internal stop codon at [774098:774100](+),MGA_1288
sequence1	MetaGeneAnnotator	CDS	774161	774589	.	+	0	ID=MGA_1289;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLDSSLKPFDENIKETLEVVNYAKNKGVEVESEIGHVGGKEDDRNSKANGYTNVNQAIEFNNLTKIDALAIAIGTSHGLFKGEVKLQFDLLKEIAAKIKTPLVLHGSSQVPLKDLQQAIKLGITKINIGTDLKIACSNALRQ;locus_tag=LOCUS_12890;note=WP_011166818.1 class II fructose-bisphosphate aldolase family protein (Mycoplasma mycoides) [pid:63.4%25%2C q_cov:100.0%25%2C s_cov:50.5%25%2C Eval:4.1e-45%2C partial hit],internal stop codon at [774098:774100](+)%2C[774587:774589](+),MGA_1289
sequence1	MetaGeneAnnotator	CDS	775008	775223	.	-	0	ID=MGA_1290;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTSRFPNDKAKDKNSQVHFRDAFSLSNTEFYKQSKAKLFDKGNILDNSNYFMVFAALDSTSPSERKDTIFD;locus_tag=LOCUS_12900;note=MGA_1290
sequence1	MetaGeneAnnotator	CDS	775992	776237	.	-	0	ID=MGA_1291;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSHLSNDGDKLYLGNVIVNYKIEIQYKGENEVESFTIDDNFKYTSTNSNSLKKASDEFYKNIAKDYFLSSKSEDRKHTNLN;locus_tag=LOCUS_12910;note=MGA_1291
sequence1	MetaGeneAnnotator	CDS	776253	776696	.	-	0	ID=MGA_1292;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSLLGTISLVATSSATVVACGGSGTTDPITGPGVDYEAIIKKLKSEVDEIFTKHLNDNVYKNLIGLPDTEKQYQFLNQTKIIENTGNKASELDPYDLILLEKDIYKVLELDQLKTDLNKLKNVTEYKVILNDVNDLFKNIVFD;locus_tag=LOCUS_12920;note=MGA_1292
sequence1	MetaGeneAnnotator	CDS	777409	777555	.	-	0	ID=MGA_1293;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTEIFPTEGDENKSSQVFFRDAFSLSNTKIFNKYHDELFEKANILENS;locus_tag=LOCUS_12930;note=MGA_1293
sequence1	MetaGeneAnnotator	CDS	778585	779019	.	-	0	ID=MGA_1294;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSLIGAISLIATSSTTVIACESGGKDREKEIDYETLVKKLKMEVNEIFTKHLDENVYKNLIGIPDTETAYSFLTQTKIMENSNKSAEELDPYDLELLEQDIKKVLELDQLISDLNQLKIIDDYKVILNDVDNLLKNVLFD;locus_tag=LOCUS_12940;note=MGA_1294
sequence1	MetaGeneAnnotator	CDS	779782	780024	.	-	0	ID=MGA_1295;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLARLIQGTIIYTFVIISICLTITIGIEIILFLTLYFTNKNRVRISKTSKRLIKLQELYKNELISLEEYQKQRQDILNSI;locus_tag=LOCUS_12950;note=MGA_1295
sequence1	MetaGeneAnnotator	CDS	780040	780537	.	-	0	ID=MGA_1296;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLIDLFSIKRGTVLNRSEHFLSDCKNCSSNNFKQISVFPNNMRDFCKEIPREVFIKENDILVYLNYPYTLILAKKEDSEKIISSNYLILRSINKVNNKKAIQIIKEGIITNKDRVKKEIIKIDEFNDYNLRDYEYLMITSKVSLDKKLTSLLKIIIVNFAMLML;locus_tag=LOCUS_12960;note=MGA_1296
sequence1	MetaGeneAnnotator	CDS	780777	780959	.	-	0	ID=MGA_1297;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIYHNNLISKYGSKECILCDCNNPSLIVGAHIKRFSDIKNQENISLEQKYKEIVDGDNGF;locus_tag=LOCUS_12970;note=MGA_1297
sequence1	MetaGeneAnnotator	CDS	781227	781841	.	-	0	ID=MGA_1298;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNIKIVFKRDSILANDKLLKELIKTMKLENCVKEIVDNNFFSIENENFKLTKFTAIIIRYENDKILECDFILTSREYEADSRNIFISQGFISFMQMFVDKKMDNKNFVLFVFKQYKNISLSCSLHIEMIRNIFKSLSFNKEVLNVYAQDDIFNCELKNIENLSYYRNELSKKNSSNKSNLLELLDANEISLLLNFGAANNGEA;locus_tag=LOCUS_12980;note=MGA_1298
sequence1	MetaGeneAnnotator	CDS	782044	783684	.	-	0	ID=MGA_1299;product=Dam family site-specific DNA-(adenine-N6)-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_209021411.1;translation=MRYLGNKDKLHEEILLFLESNNLHLKNKYIFDGFAGTGSMTGFFANHGAKVTANDYLFFSKILTEMYFCDITNKIIDKLNIYNNENNILEGYIYNTYSPKANRKYFSEINSKRIDFIVNDIYKSFNNDEIEYSEFSFLMGILLEGISGISNIAGVYGAFLKKEDPRFFKSLYLDIEKFKKRKINYLHKPILFNNRIEEVVRVLQKDKIYLTYLDPPYTSQQYSHQYHLLETISKNEKSEVSGVTGSRAKEIGSSDFSKKIIAEEAMFSLLSDINTENLLISYSNKGLIDKKVFEKMLMRFSKDEKVILKEINYKKYINSVSKNKNDENKEYLFLIKKKKFDDVIYESPLNYSGSKYKLISFLKEHFPKNKNLKFIDIFGGGFNVGINCNFENVIYNDYNFKVADLIRMFKDKKSSDIIKRLNFYIKKFSLSKNNKENYNRLREYYNNKNNSSFILFILIIFGFSNQIRFNSDLKFNNTVGLSDFNHNVREKIISFSNKIKKMNLTVESNSYEYYEEIIDKNTFIYLDPPYLITTASYNDGKRGFKG;locus_tag=LOCUS_12990;EC_number=2.1.1.72;note=WP_209021411.1 Dam family site-specific DNA-(adenine-N6)-methyltransferase (Helcococcus ovis) [pid:31.9%25%2C q_cov:98.5%25%2C s_cov:75.7%25%2C Eval:1.3e-61],internal stop codon at [782044:782046](-),MGA_1299
sequence1	MetaGeneAnnotator	CDS	784534	784716	.	-	0	ID=MGA_1300;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIFISQNIKECFSEAKKINNFLYNELLIDIITYDVKKIKEKLVDIKTELKFVKYSDKDK;locus_tag=LOCUS_13000;note=MGA_1300
sequence1	MetaGeneAnnotator	CDS	784780	786045	.	-	0	ID=MGA_1301;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNIIEGFYSFFDDNKNEENRESGPLFSIFLNDLKLKQDLYGKTYYELIYKNIKNIFLCLKNIKNNILVIGEVQSGKTNNIIGITMNALDNDYDCVIIFGGSTNLLLKQTLKRIKDTLNNNLCDILLYDINKNKSSLFSLKKDKTKIIINVIKNKTQMQKISAELNTISKNFKVLIIDDECDYGSLNNGSSKNSAIYNEIVKIKNANNTKYIGITATPYANLTNSKSNEIYPEAIVKLIIEKNYTGIDFFNNKKYFEISQLNKKDDNFSLDLLLKKFLIFYILLSSFVKKYTKLNVSSIINVDIDAKKHFILKDKLFDIHAVFLRDLKNNNVIDYFEEVKKNLNKIAYFDNYDIEKYHNSIEVKVLNNKTKNEEINNNQNCIYIGGNLVSRGLTFENLICELMLNIREHKQPIDILLQRAR;locus_tag=LOCUS_13010;note=WP_096456417.1 Z1 domain-containing protein (Corynebacterium suranareeae) [pid:23.1%25%2C q_cov:84.3%25%2C s_cov:57.3%25%2C Eval:1.5e-11%2C partial hit],internal stop codon at [784780:784782](-),MGA_1301
sequence1	MetaGeneAnnotator	CDS	786197	786388	.	-	0	ID=MGA_1302;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEETVVRSGGTEFFYIYRNPKTGISGKIKIIHIESNYVSENFYTLSKKESNNYEIILNILHPI;locus_tag=LOCUS_13020;note=MGA_1302
sequence1	MetaGeneAnnotator	CDS	786584	786760	.	-	0	ID=MGA_1303;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCGPNDFDDSQGSKNYIAGLRTNYGGKGIEYRIFGEFEIDDLILRNYVSISDQKFGFE;locus_tag=LOCUS_13030;note=MGA_1303
sequence1	MetaGeneAnnotator	CDS	787085	787378	.	-	0	ID=MGA_1304;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEYEVEKKPAEIRFNYELNDKFYRNRGTKIKISRGNFSRYDLLKKSNFIHFCNVISFKFNKFIEMGVNISIGIINEKGKDEYLTLESFTPKSENIST;locus_tag=LOCUS_13040;note=MGA_1304
sequence1	MetaGeneAnnotator	CDS	787865	789133	.	-	0	ID=MGA_1305;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIEYFLKFVLKNIHNGKRINKGIKHVFNIDEKNNLIKHRNYNNDEGVILKVKLNELIGLIVKEEENGNKIDSLFEGNVREEVKKTNISKEIIDSLENEKENFFLLNNGITMIVSNLKYDEKIIDKVIFKDPNIINGQQTMRTLYNHYLSNKKINSNDYDETYVLVRIYKLVSENLMTKLPFSTNNQNKIEIKDLLSLEKYQLNIKSILIDQNIYYEIKNGNSIANSLGRYFKNRISAGELLKLFTICFDNLVSIKNKIGKMNNQIYNDISSSYIDIKSPFYNTESIIRAFTKSKNNEYSQKILKMLNIYFLFKSKIKKNLKLLKFNSSRDLIFYTLFNFFQNENDIEKEFDIVLQEALDTLNKYFEYLIKEKNITEANLFKKESFNDLKEIIKRISLLSSLKEKKIMLKKELLNIINFNFD;locus_tag=LOCUS_13050;note=WP_164929046.1 AIPR family protein (Gloeobacter violaceus) [pid:27.2%25%2C q_cov:38.9%25%2C s_cov:26.5%25%2C Eval:1.5e-08%2C partial hit],MGA_1305
sequence1	MetaGeneAnnotator	CDS	789164	789619	.	-	0	ID=MGA_1306;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEILDKFFSLCNKKKFNNEYDKGIYQGKLFEKFVSSIISGNSLENVDEYLIDENNAEIKGMDLCYFSNETLYLIQAKARKNIKSQDYAKSKLASEQIENCLKDDSLSSKEKNKKTGIKIEIIEKLAKVNFIFTVRFIFVYTKTEQELNFKN;locus_tag=LOCUS_13060;note=MGA_1306
sequence1	MetaGeneAnnotator	CDS	789684	790670	.	-	0	ID=MGA_1307;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLNQLNNADNILNEVVKGQEFAIANVKQTLINASLGLNGIMHSEKLIKPKGILFFSGPTGTGKTELAKQIAKLVFGDENKLIRFDMSEYNHEESDQRLIGAPPGYIGYDSGGELTNAVKENPFSVLLFDEVEKAHGRILDKFLQILEDGRLTSSKNELIDFSETFIIFTSNIGVVGNNPKGNQDEIRKNFIRAVENHFVNVLKRPELLNRIGKKNIIPFNYITNRVIFKEIIESKLTKLVSALNKKHNVKISYTQDELENLVDLIMQENAIEEMGGRGIINSLSEKVINSLSIFIFEMKLKNQLGMENITHVKMKVIANKEKVIFEL;locus_tag=LOCUS_13070;note=WP_010895630.1 AAA family ATPase (Pseudomonas aeruginosa) [pid:43.4%25%2C q_cov:90.9%25%2C s_cov:47.7%25%2C Eval:5.9e-63%2C partial hit],MGA_1307
sequence1	MetaGeneAnnotator	CDS	790677	791486	.	-	0	ID=MGA_1308;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKSIEQLKVKLQQKNLLLVGGNVYDTFLENNQDSKKQFCNLDNKIVNIAKEIGYKDVIKFSPSKGKIFLLGEQDILDDENDFEDFETNSIKQILEEFINDLKNEIQDKDISRKIYIIDFSDTLLNQESIKDLVEQAAILLSTILEDDVKNQYDIINLNKLSKVIFISRDTGNIANDFSSKNIEFASVNINKPNKNERAEIFNRFYRSFNVIDREKLNLDSKERIEAVALTEGFAVKEIMQLARIQTEDDNYTFKELFSLAQFNKRDSE;locus_tag=LOCUS_13080;note=MGA_1308
sequence1	MetaGeneAnnotator	CDS	791488	792513	.	-	0	ID=MGA_1309;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSHNASITFDICNKDELLALTQVEKEIKELENFSIKNNFSDIFNEEIKNIYSQLEESKSLIEQIGGSHTISGDYDIINATKNKQIEKYYLQLDNIIKKIQNIKYTLNLEGELIRTINFEKNKIGELISQNGFIANQALKNLFSNNLEVNFNSINQEIENIRFKESNDKTIKIYKDKLKDELNNLNIAKEFKTKLYSDLSKLETNIEVMDFSALMKSIETNILKTNMLVKDVEDELKKINFKTFSKKYIILNSSTPEVGDQFVISLKVVNNKNNNIIVNFGLNGTMEYKMGNYADHLCDADAEKFIKGLQSKQRFIVSQKITRTSTTTRPIQRVRKMKVKEK;locus_tag=LOCUS_13090;note=MGA_1309
sequence1	MetaGeneAnnotator	CDS	792529	792954	.	-	0	ID=MGA_1310;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNQFDVSTKENLTLEGLKFLKNKIELTDISPIKDLRVDNFYKELNKQIEIKETPTEDKITVRIINLRKKLEQKVGVTKKKTFSKVLSANYEEDGAYSFYKDSYKFLSEFVHGRAILPNDENLEKLGYIEKTLDIVNLKKK;locus_tag=LOCUS_13100;note=MGA_1310
sequence1	MetaGeneAnnotator	CDS	793171	793872	.	-	0	ID=MGA_1311;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYKKIESNNQKIDFQIQNYLDSNYYETLGESNIKIDHLSQEIQSINLVDNYLTYIEKEHEFIIDEDKNLLPKNRRAEKLIEHIKLGLIEENYLKDIIFEKYNITLKKNNFKEKLKSEIIYPDFEDYNIYLDNILKEEVGIEGEICIYNNNIYLVNIYNDKLKIHDLNQTLLLNRFSLQKIENKYLDFINLENVVNKNLIEILLKDLENKNNYDSIQINFIKANIKSISITEI;locus_tag=LOCUS_13110;note=MGA_1311
sequence1	MetaGeneAnnotator	CDS	794029	794325	.	-	0	ID=MGA_1312;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRNTIKINANIPYFLQEIEINIASLKELNEFNSRFCLLLAYKNELEDLPPIIDLKEFLKKYFNLDFKMFIFIEDSFKELFKSKTITFKFNDYEKIDSI;locus_tag=LOCUS_13120;note=MGA_1312
sequence1	MetaGeneAnnotator	CDS	794364	795713	.	-	0	ID=MGA_1313;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHGEFKTEEVTSINKIIEVILKKINVSSEKIYLNKLKNLSNKFKSKVDNSLNKKEIESFALKALNNELINVIGITTTGKQSISYLNETRNLFIDYPINFEIIDEVSKSTTIEILNTALLADKVMLAGDYRQLPPNLSDIDENTLKKYFQAKHKKDPDEKENESEFKLFKTKIEKLFLFPLFKNHAQKLKGFGDKKAYKFLNVQHRFNKEIMDIVNFVYDDEEQLQLPEVKRKDLIVKLNYDKTYMNAVNIIDTSFISSKFVEYVRDNSKWSNEIRIYPEQVSFDQKISLFNNRMLGSAFNEYNAYCIVELIKKIKQDSSIKANQIGIISVTKSQKVIIRDMLREHINDRKYLNQIKIDTVDNFQGREKDIIILDLVRGKQSFNEERMFKEFKSRNIDFYKSIERLNVAVSRARHKLIIVGAVQEYFRSEVKPLIDNEYGEQIPLDIFNL;locus_tag=LOCUS_13130;note=WP_010878885.1 IGHMBP2 family helicase (Archaeoglobus fulgidus) [pid:24.2%25%2C q_cov:71.3%25%2C s_cov:36.3%25%2C Eval:7.8e-14%2C partial hit],MGA_1313
sequence1	MetaGeneAnnotator	CDS	795888	796535	.	-	0	ID=MGA_1314;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLFTKINRYYSAILMLEKGIYRNPYLATSLEYPECIELNKLSLSTEKDISLNLNTKQREAYEMALSSNSLSYLQGPPGTGKTQTIAAITYSISKKNENTLITSFSHEAINNAFDRLREFFRTDPNIIFYKNTYVRDKEEELSTEGYDYKHMYQNFVYAIDNFVLKDFDVQGETDLKIFFDNYKSNEEEVSFVPTFLFEMIKNREYEKYKFEDFN;locus_tag=LOCUS_13140;note=WP_164921460.1 AAA domain-containing protein (Rhodopirellula baltica) [pid:36.3%25%2C q_cov:42.3%25%2C s_cov:11.2%25%2C Eval:4.7e-08%2C partial hit],MGA_1314
sequence1	MetaGeneAnnotator	CDS	796554	796721	.	-	0	ID=MGA_1315;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNFNELKNSVEFSTYNFKSVILKTDPKDDEEKLINFNEIELSSLLKKDYKGKQI;locus_tag=LOCUS_13150;note=MGA_1315
sequence1	MetaGeneAnnotator	CDS	796773	797357	.	-	0	ID=MGA_1316;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDSKTKIAEGRYKIISSERDDIKTSAVISSLKNFDIQDYIDNKITIINEEISKNLEKVKVNEDKIKILFIDKNKVEIDFEKLEKDKEEHIETTKLASDEHLKIKEEIFNVKKNIKLLEKSIEKTSKNKKSKLNNSLKETETLKELKQDLEVFNSKEKSINLYIKKLDSKLNYIKQEINKVTTELNKINNNLNK;locus_tag=LOCUS_13160;note=MGA_1316
sequence1	MetaGeneAnnotator	CDS	797718	798212	.	-	0	ID=MGA_1317;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLQFKISEKESNYEELKLEIGIKAFNKNNDILCRDIVISKIKKILNSDIESDEFILLKFFELLNEKSLKELMYLNLSTFDTNISNDKNQNSTLRNLHAFERKLKESKDKQGILISGLAFIFKFDEKTKEEFNLLKNSIVIYADFCYEKDENNTMQDVNSDIKL;locus_tag=LOCUS_13170;note=MGA_1317
sequence1	MetaGeneAnnotator	CDS	798524	798721	.	-	0	ID=MGA_1318;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHYKDSLKRNLYSVQTAINEVQIDSSNKYDDFKYAKNRVDIVDNILNRYFKDKKRSFTYDEKFEI;locus_tag=LOCUS_13180;note=MGA_1318
sequence1	MetaGeneAnnotator	CDS	799288	799941	.	-	0	ID=MGA_1319;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDNFEFYKTSLIKLKNSDISRNDIFSLFKKYYLIDNDNNNFLNKIRLVFDDFIFNKSIKNGYKNYLSLLSSSNKIIYISDKNKSIVTNKTSDSDEEFNSNNKVHMSKFIDFYIQNRNNILEKYIKPFFNNLISIIFSDTPNKMDEIIYNDELEDKTNNKTTKKEILLLLTSMDLNSNFISEILKNLDYEMINYDYSIKNIIDCLKNEKYKEYLKMII;locus_tag=LOCUS_13190;note=MGA_1319
sequence1	MetaGeneAnnotator	CDS	800134	800679	.	-	0	ID=MGA_1320;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYISNREIYSLDTTKIPIHDLNNNFKKNIISNYIKEFITEFEDYRIFDFMKRNCLIHNGNMEATLRRMIEKCFRESDFNYIFCSSTITYGVNLNCERLIILNSKTDGNKADYLNLANLVGRVGRLGSKIVGEVFTDIRKVFDTFLNFDPDSIFVDNIKKNEKELENIIEKLNLNKERNIEH;locus_tag=LOCUS_13200;note=MGA_1320
sequence1	MetaGeneAnnotator	CDS	800716	800898	.	-	0	ID=MGA_1321;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLPYLKNSAQQIEDRISDFKVKEFNSDNSLSTQLIYFYDKNKNRMFFNKNEGINLEIKED;locus_tag=LOCUS_13210;note=MGA_1321
sequence1	MetaGeneAnnotator	CDS	800944	801192	.	-	0	ID=MGA_1322;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIFIVPTLSLVNEYFNNFNKMGISSNLSSIYKSNSINILTQERALNLISNNMSQINKNTVLLFDEFYTTMVNPYQERSNFN;locus_tag=LOCUS_13220;note=MGA_1322
sequence1	MetaGeneAnnotator	CDS	801223	801513	.	-	0	ID=MGA_1323;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDIYNILEGLTDINELRKFMFKYKLGYNDKKSLNEISDIDKLNITNYIDRIKNTVNITENSLFNEFQKKALKQMEDNNNLLISAPTSVGKSTLIR;locus_tag=LOCUS_13230;note=MGA_1323
sequence1	MetaGeneAnnotator	CDS	801833	802234	.	-	0	ID=MGA_1324;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDNILISREKNKIIILESKSSYSNFNQRLKQGFESLFIQEISSGTFANVKEHIDLAINDLWTIQNLEQNLHQQLNELFFEQLKNIYSKFIELDSDDEQKNVIVKDNKKIYYIEDSLYKNCLNVLVFFSNKIID;locus_tag=LOCUS_13240;note=MGA_1324
sequence1	MetaGeneAnnotator	CDS	802271	802525	.	-	0	ID=MGA_1325;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRDKIFLIESNGNDEANCILKELEEKLKQRKFDLFNATRNPAFNLTFPKDFFQRNSQLKFAIGIFLEYLASAYISDKYDCFAIG;locus_tag=LOCUS_13250;note=MGA_1325
sequence1	MetaGeneAnnotator	CDS	802595	802765	.	-	0	ID=MGA_1326;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKHLKNLIHENLNHLKHLKESFKSQLKPLKEMREPLLIKLKILKKIVKNYEEIDRH;locus_tag=LOCUS_13260;note=MGA_1326
sequence1	MetaGeneAnnotator	CDS	802737	802958	.	-	0	ID=MGA_1327;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKEGANYAVLVATSTGEKFKVPFLVSQKNKNILIADPDSFVFVSSMVRKLILIESNLRDKSDNNEAFEKFNS;locus_tag=LOCUS_13270;note=MGA_1327
sequence1	MetaGeneAnnotator	CDS	803154	803321	.	-	0	ID=MGA_1328;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKIESENKLLLNQKELELKTKYEEVISSKEKEITDLKVANATNRILNNKTKGEN;locus_tag=LOCUS_13280;note=MGA_1328
sequence1	MetaGeneAnnotator	CDS	803352	803834	.	-	0	ID=MGA_1329;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLITCYKCNQEIDLIQLGTRDSESINQFKKHLEEELTKTIESQITTRLHQTYSLEFESQKKDLELEKEKVVSSLKNNIDILNTSIEAIKLNNQRDLKELEANLKAKFLEEKQVEVTTLMNKIQKLEAEASSLDQLNEQKLQKQKLELESNFNLQKAQ;locus_tag=LOCUS_13290;note=MGA_1329
sequence1	MetaGeneAnnotator	CDS	804249	804506	.	-	0	ID=MGA_1330;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFSINESFLENKDLNFIADLILKNNDNSFVEVFDLESSIYLCKSNSKINALEKMTNHSHFEIKGGGNEKTAQGKIISKNSNSLLN;locus_tag=LOCUS_13300;note=MGA_1330
sequence1	MetaGeneAnnotator	CDS	804696	805544	.	-	0	ID=MGA_1331;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKNFKGYELIEVETSVSEFVNKDKFTLMYLQETVFFPESAGQISDQGFIIFNNKEYKILGLAISEDKVVHKVELISDIKVGSLVKAKLDITHRQLVSQNHSAAHLLFDTLRELYPTSIGKGYFNDQNGLRMDMYIEQKISWSNIFELNNVVKQKMATNAKKEEFIVDAKTAKNKYNLAIEFNQKELEGDLRIVKFETASIQLCSGTHVDSLKEIEDFLITSYENKGSGIYRFYAKTKIEEINLAYQNFCQLEYKEVEQLILKYINQNKYGKDDNIEMMLNA;locus_tag=LOCUS_13310;note=WP_011183510.1 alanine--tRNA ligase (Mesoplasma florum) [pid:32.8%25%2C q_cov:90.1%25%2C s_cov:28.6%25%2C Eval:2.5e-32%2C partial hit],MGA_1331
sequence1	MetaGeneAnnotator	CDS	805761	806234	.	+	0	ID=MGA_1332;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDDKQYKQDLLEVFEIAQKAIGKTLRELAGNNLDRIRYFDNKEKVKHVIQQAVFDIGLMSKMEYTFEDLQLELKPVALKYNKYGELIVKERMVLNDIYYDEIVNETFKTSRFINKNQLLLIMTYIHDYEKDFLDYQIKDAFIIDISRQKEFFLIVND;locus_tag=LOCUS_13320;note=MGA_1332
sequence1	MetaGeneAnnotator	CDS	806253	806576	.	+	0	ID=MGA_1333;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKGKAEDLNEGFTNILSASTKSQNRIDLKKQPYSNVLVRFRNYSFNINFLKEIISKKIRKIDYLNEIFEEKEVNDISDFKNEQIEEYLKSIIGTDISSYTESKANQ;locus_tag=LOCUS_13330;note=MGA_1333
sequence1	MetaGeneAnnotator	CDS	806583	807065	.	+	0	ID=MGA_1334;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAFENYLKENNKEMYDFIKVTNYKLIHKLTDNSNLQEQISTNYELDPFEILNDEFEESTFYQDIILKTYIVIMIDKSNNQVLNFKLFRLSDADIKKAQSVFYNARKEIQRIIAIGKTEEIEPNFTKIKDNLAIHLRKSKKANNTIYKVNNKEFKIPSYEF;locus_tag=LOCUS_13340;note=MGA_1334
sequence1	MetaGeneAnnotator	CDS	807141	809117	.	-	0	ID=MGA_1335;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLGLLATAGLVTTATTSVVACGGDKDKEEEKNSSLEFSKIESKDITINLGTRNDKAIVKSVSNVNEKSILKVSFGEVAENGDVVVSVIPLKLPKDKDVKETLTITYNIEKEGKQEVLSSKKIDVTVKKDTASEIKEVSTKEVQNTLDAAVKDKEFANKQQAIDALKAVVLVEGLEIDGEPVASEKFEEITIDVKVKAKDGYKIKDGDKTDFSVKATIKEKIVEVSTSAVQAALDATTNGKDFENKDEAIATVKGAKLTEGLEIDGEPVASEKFEEITIDVKVKAKVGFEIKDGDKTDFSVKAKIKQKIVEVSTSAVQAALDATTSGKDFDDKDQAIAAVKGVKLTEGLVIDGEPKNKGETGEITIDVKVKAKVGYKIKDGDKTDFSVKAKIKQKIVEVSTSAVQAALDATTSGKDFDDKDQAIVAVKGAELAEGLVIDGEPVASEKFEEITIDVKVKAKVGFEIKDGDKTDFSVKATIKEKIVEVSTSSVQDALNSTTLGKKFDDKDQAIAAVKGAKLTEGLVIDGEPTTNDETGEITIDVKVKAKVGFEIKDGDKTDFSVKATIKEKIVEVSTSDVQDALNATTSEREFENKDEAIAAVKGVKLTEGLVIDGEPTTNDETGEITIDVKVKAKDGYKIKDGDKIEFSVIAKIKVA;locus_tag=LOCUS_13350;note=MGA_1335
sequence1	MetaGeneAnnotator	CDS	809388	810065	.	-	0	ID=MGA_1336;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLGLLGAAGLVATTSATVVACGGEKDKSEDLSLEFKEIKAQTAKINIGKKTDKAVVKSESDAKDKSILEVSTGEVAENGEVVVTVTPKEIPTDKDVNEVLTITYGVVTEGKQEILTTTKIKVTVKKGEVVAPELVEIATHVTKTTLKISEVKDAAAYLVDVKKDNANLVVEEVTPELTKAPVAEIPGDGDAATVPAVDGELTINVNKGSKVYKEGKIKIILS;locus_tag=LOCUS_13360;note=MGA_1336
sequence1	MetaGeneAnnotator	CDS	810247	810498	.	-	0	ID=MGA_1337;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAASLFILCFIISNKIKDKVTLNRLKKDKKLNENLKEMSVIEIKNENELLSEEIINMQEKIEELQENIEELEEQVEELEEKME;locus_tag=LOCUS_13370;note=MGA_1337
sequence1	MetaGeneAnnotator	CDS	810443	810649	.	+	0	ID=MGA_1338;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSFILFEIIKHKINNEAAIADKLAHPTCKSTGSLIKAYVVQIHAFKKVRKNIIGESAFVFLVTHTFIT;locus_tag=LOCUS_13380;note=MGA_1338
sequence1	MetaGeneAnnotator	CDS	810813	811196	.	-	0	ID=MGA_1339;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEAKRQDKTIIVTVHNIDEIADIIDDFIIIDNGKNIFNGSAEELNIYSKYKVCISEKFEEQDFRSFLLKKDIKSFKYDQEENSLVVAIENFKQLNFLFLYLIKNNLPLKNLLKLPINMEAIYKALES;locus_tag=LOCUS_13390;note=WP_011387452.1 ABC transporter ATP-binding protein (Mycoplasma capricolum) [pid:30.1%25%2C q_cov:96.9%25%2C s_cov:20.1%25%2C Eval:2.5e-12%2C partial hit],internal stop codon at [811221:811223](-)%2C[811374:811376](-),MGA_1339
sequence1	MetaGeneAnnotator	CDS	811221	811373	.	-	0	ID=MGA_1340;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYFDIWESKDKPIRSFSWGMKNRMNLILCFIKDPEIIILDEPGANLDSY;locus_tag=LOCUS_13400;note=WP_011183360.1 ATP-binding cassette domain-containing protein (Mesoplasma florum) [pid:81.6%25%2C q_cov:98.0%25%2C s_cov:5.1%25%2C Eval:2.8e-19%2C partial hit],internal stop codon at [811221:811223](-)%2C[811374:811376](-),MGA_1340
sequence1	MetaGeneAnnotator	CDS	811374	811730	.	-	0	ID=MGA_1341;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKIIRFENYLKKFKKKVIGPLNCSIKKGRITALLGSSGSGKTVVINSLLGIIKEFKGDIRIENISRKKKKYFSVNSRVGYYTQMDFSLYVVSAYKFLLDMCIMMGLKKEFSKERIEY;locus_tag=LOCUS_13410;note=WP_011387452.1 ABC transporter ATP-binding protein (Mycoplasma capricolum) [pid:54.1%25%2C q_cov:94.1%25%2C s_cov:18.2%25%2C Eval:1.2e-27%2C partial hit],internal stop codon at [811221:811223](-)%2C[811374:811376](-),MGA_1341
sequence1	MetaGeneAnnotator	CDS	812074	812520	.	-	0	ID=MGA_1342;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTVNELEEKIKTNNYDKNKKEIINEFIKFTKLIINLNNNFQDKFYNLFDAFIFLNDKDNIDKNYIKNVTKPTEDKILLNDKNLIEIYQSHYSFSDNKLKLEAEKINNLIKEDLFFPTMLSARILENYFIRYTNNIVIFKNSSVIKNNN;locus_tag=LOCUS_13420;note=WP_011166589.1 hypothetical protein (Mycoplasma mycoides) [pid:31.4%25%2C q_cov:97.3%25%2C s_cov:46.2%25%2C Eval:5.3e-09%2C partial hit],internal stop codon at [811960:811962](-)%2C[812074:812076](-),MGA_1342
sequence1	MetaGeneAnnotator	CDS	812665	813336	.	-	0	ID=MGA_1343;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFDYYFLLSIFIILFILCLRLSQYFYVVKRDDKTLNIIVTQQLSRSKLFTYQFISFILLIFLNLLIAYLLINFTNLIFVRQLNFFLIRITTTYLFYAFISCVFLISFFLLISLFANIQVSTIIATLILASSFISNLPYTFLIQGEESKSVILSYKNVNTAISVNEIYDSFNLKKHVINKKIKYSNLSLQIYKTFINNQFETDPNSIENNFNNASSIQKRINF;locus_tag=LOCUS_13430;note=MGA_1343
sequence1	MetaGeneAnnotator	CDS	813862	813981	.	-	0	ID=MGA_1344;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGVNYNYTYPEYNSEQDLLMIINSSKLTTKFIEKNKTTT;locus_tag=LOCUS_13440;note=MGA_1344
sequence1	MetaGeneAnnotator	CDS	814264	814458	.	-	0	ID=MGA_1345;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKFSLFNAANTVKSYNNINSTKFNYKDDEGKLFLNTVFRNDPNRPETQQSLVNNYFTNNNYKT;locus_tag=LOCUS_13450;note=MGA_1345
sequence1	MetaGeneAnnotator	CDS	814663	814830	.	-	0	ID=MGA_1346;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGINDTETFDINDNFKYTSTNNEALKKGSDNFYKNIVKDYFLSEAAADKKHTNLK;locus_tag=LOCUS_13460;note=MGA_1346
sequence1	MetaGeneAnnotator	CDS	814915	815358	.	-	0	ID=MGA_1347;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSLLGSIGLVATSTITVVACGNGNKDNTSPKPPDDNSELIKELKNDTNEIFKKHLENNVYKNLIGLPEMEVKNKFLTKNKIKQYQGKKAEEIDPYDLQQLQIDINKVLDISELTKSLNVLKTINKYKILLNDVNSIIKNVIFD;locus_tag=LOCUS_13470;note=MGA_1347
sequence1	MetaGeneAnnotator	CDS	815753	816091	.	-	0	ID=MGA_1348;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKQYNLDNLSTLVKGNLVIIIISKRISKDMLKKYSDLYPLAYLHLMFIKNVEGISQVELADLTNTNTSTMHRNIKSLFDNNYIVKRISARANENEIYLTQKGEEVVQDIIY;locus_tag=LOCUS_13480;note=MGA_1348
sequence1	MetaGeneAnnotator	CDS	816418	816927	.	+	0	ID=MGA_1349;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQSINTNDIYEIVQEIGLQITPEQLEKILAGISLGSNVYEQIIQKFFYDFVYYDGSKLHIKILGGDFKLFTLAYSMIVDVIVVVILSYLNFIVSGYIAQAYENQLKRKLINKIIDQDLDYFNANKSGQLISTIIKDSSIVASFIKEAPIIYLLSTVTILFSAILMFNIS;locus_tag=LOCUS_13490;note=MGA_1349
sequence1	MetaGeneAnnotator	CDS	816967	817686	.	+	0	ID=MGA_1350;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIIFITILISNRATRKINKITQNLDNDISEKIYSIRLIKSMGTFKYEKNHFDKMIEKVSKKEKKKFLASEIPSALIIGGIGSFSMASIIFGVFLFYNNTQSLISIITAFTTGVIVMTIPIMQLRQVISAVPHARISANNVSEILKSKIAIEKFETKEINEEINSIELKNIGFLYPNTDKHVIKDLNVSLVKGKKYAFVGPTGSGKSTIAKLLLRFYDPQQGEILINKKIKLKDLNLKS;locus_tag=LOCUS_13500;note=WP_011166618.1 ABC transporter ATP-binding protein (Mycoplasma mycoides) [pid:30.8%25%2C q_cov:92.9%25%2C s_cov:36.4%25%2C Eval:6.7e-25%2C partial hit],internal stop codon at [816925:816927](+)%2C[817684:817686](+)%2C[817834:817836](+),MGA_1350
sequence1	MetaGeneAnnotator	CDS	817858	818184	.	+	0	ID=MGA_1351;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSERGSQLSGGQKQRLVIARLILKNPEILILDEATSALDNIVESEIQKELEKLMNGRTTISIAHRLSTIKNFDEIYVLEQDKGIVETGNFEKLISVEGLFKTLYQLSK;locus_tag=LOCUS_13510;note=WP_011183322.1 ABC transporter B family permease/ATP-binding protein (Mesoplasma florum) [pid:69.8%25%2C q_cov:97.2%25%2C s_cov:17.3%25%2C Eval:1.5e-33%2C partial hit],internal stop codon at [817684:817686](+)%2C[817834:817836](+),MGA_1351
sequence1	MetaGeneAnnotator	CDS	818207	818362	.	-	0	ID=MGA_1352;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFATIGLPLFGTVLAFCLYEPKRKKELKDYYEDLNEKLDILLFESNIKKAD;locus_tag=LOCUS_13520;note=MGA_1352
sequence1	MetaGeneAnnotator	CDS	818784	818957	.	-	0	ID=MGA_1353;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLCIGSDHNTPLINIVRELLMLAAPQFFEYTIEEQNLIVNQINAAIRNRYNNHPNYL;locus_tag=LOCUS_13530;note=MGA_1353
sequence1	MetaGeneAnnotator	CDS	819006	819524	.	-	0	ID=MGA_1354;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQGILIDQNNQIYKKYNYSRIFNGSDPQQLLKTYDIDVRNPDEEEYYLNAQLYQDFYYEELFPSMFLINETDVKLIFRQNSEFKYKYDILVENTHNFQNNFSFFEETSMTFNFKLNDKIAFFNSVELSEIENLYNKKISDKELNFVNERIFPPIGGSPFLTRIIYEDFGGGY;locus_tag=LOCUS_13540;note=MGA_1354
sequence1	MetaGeneAnnotator	CDS	820442	821257	.	-	0	ID=MGA_1355;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFVEKLENTLAVDLFEKNPFDYNKIKEFKEDRIKGNIYFSLRSLDEDRNEKCFSFGKKTPLTMFNKNKTDDEAIFENFLFGGFFGGVINNINYTLVNLHINKLTREIYHEINQEELEKILTIQYGESLKSNKLGNNESDDNEIGKNELDNKNLIDIRRESNLSLRHNKMRDFLAKKLKEFNYSVFPEYLTHIDIYASRGDKNLIFEIKSASSEIHKAIGQILSYENLLDFKCEKLIILDDDYDLSNYLKKTIKKYKISVMSIKKFINELHL;locus_tag=LOCUS_13550;note=MGA_1355
sequence1	MetaGeneAnnotator	CDS	821258	821395	.	-	0	ID=MGA_1356;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRAPTVPAKKFNELLKFFDFKDNFEIHREKPFVLMGNFFIDVNKF;locus_tag=LOCUS_13560;note=MGA_1356
sequence1	MetaGeneAnnotator	CDS	821520	821957	.	-	0	ID=MGA_1357;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEFDFYINEKKEYLEVKANSIFKDNYLIKLDQISDTNPYLAGVSFKEDGNGKNIMYFISKFINSKNEFLKEFIEDLSSIVKDYPRNLDYKINVDKIKIRIFDKKDFPLINQQELDERIKKVQYNVDANRIKSYSAEEFIKEVLDL;locus_tag=LOCUS_13570;note=MGA_1357
sequence1	MetaGeneAnnotator	CDS	821976	822176	.	-	0	ID=MGA_1358;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTLKLFKIIENLMSERPDHNLYSIIKDCENLFERQKRILKEEKLFGFFGELILLDKFCSIYPNAEM;locus_tag=LOCUS_13580;note=MGA_1358
sequence1	MetaGeneAnnotator	CDS	822288	822425	.	-	0	ID=MGA_1359;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNYKFIEENIELNLRLLKNDFGDLIIEKKSDKLIKEKKYENYKY;locus_tag=LOCUS_13590;note=MGA_1359
sequence1	MetaGeneAnnotator	CDS	822419	822616	.	-	0	ID=MGA_1360;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYINYMTIFLPKKDIEAYKEIEELNKTILDYKNKDGVILITSSLIEEVKNKKFDYINITSGGKKC;locus_tag=LOCUS_13600;note=MGA_1360
sequence1	MetaGeneAnnotator	CDS	822932	823846	.	-	0	ID=MGA_1361;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKEILIDYNFDFLENKKDSDNILDLFLNFNSALVFGEVQSGKTKSILQVISDVIENRLFDIVILLGGTNTILLEQTEERFEEVKVKDKGLIYLDNKNIKSVDFYSLFEDKCVVLINTMKERQNLELISNKIINASTKDKKILLIDDESDYGSINSNKKNKSTKIYSLISEIFNHSKLNKLLMYTATPYANIVNSISEDTKPKVIFPLVSNNDYMGINIFNSMKHYEEIEYIRKEINENVLSKNFIKAIKRFLISNAVYNTNNENKINFELLLNISEITDNHNEIKINVKNCLMDIKRMMNFNT;locus_tag=LOCUS_13610;note=WP_133431295.1 Z1 domain-containing protein (Macrococcus brunensis) [pid:29.6%25%2C q_cov:67.4%25%2C s_cov:25.9%25%2C Eval:6.1e-11%2C partial hit],MGA_1361
sequence1	MetaGeneAnnotator	CDS	823839	824021	.	-	0	ID=MGA_1362;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKFAIIFVLNDFVFKNLETVAEESKNVNSIFFELQKEIEGEKTPSRIISIISNRVCINV;locus_tag=LOCUS_13620;note=MGA_1362
sequence1	MetaGeneAnnotator	CDS	824118	824414	.	-	0	ID=MGA_1363;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAFNEIIKSHMNKYDKILNLYMSAQNETIRHEKKVDNNLKNRTEGSFNSNYIKNEFINNENMAAIFTVSLVKNGDKFIKVEIDISDSRKNEETLFDIS;locus_tag=LOCUS_13630;note=MGA_1363
sequence1	MetaGeneAnnotator	CDS	824781	825092	.	-	0	ID=MGA_1364;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKSLETRYLFYLKDGLDIQINASEKGINEISSKLKPSSPLIENTNLFSEIGVESNKLIVKDIEEFGKNFLNKLKEDKKENSKIDESVLKDFVGKMLNGENFT;locus_tag=LOCUS_13640;note=MGA_1364
sequence1	MetaGeneAnnotator	CDS	825195	825665	.	-	0	ID=MGA_1365;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFQQKEAKMTYHTLEQYSSFPSNDYLMICELIDNSISSYLNINYNKKQTVKGLKIHLNINRDIKDNYYLEIIDNANGMNEDQLYSCLLFGNSNREHKDSNLNIYGVGLKQSAFFIGRRLEIKTISRGSNTGIATYIDIEEIKSTEDQVVRFQLEE;locus_tag=LOCUS_13650;note=MGA_1365
sequence1	MetaGeneAnnotator	CDS	825680	825826	.	-	0	ID=MGA_1366;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAAIQSFPDDFIFSGNKSAQLVQIGNAVPPKMSKAIGLVIEKLLENNK;locus_tag=LOCUS_13660;note=WP_003690264.1 DNA (cytosine-5-)-methyltransferase (Neisseria gonorrhoeae) [pid:60.9%25%2C q_cov:95.8%25%2C s_cov:13.8%25%2C Eval:9.9e-09%2C partial hit],MGA_1366
sequence1	MetaGeneAnnotator	CDS	825926	826612	.	-	0	ID=MGA_1367;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSCGLVMAGFEPISSVEIVETAVSTYEYNFSKKFPNEKLENRDIRDSKVKKEVIDFGLKNDVDVIVGGFPCQGFSLAGNRIFVDERNSLYTDMLKIVKEIKPKIVVMENVEGLRSMLDGKIELKIIKDYQDIGYKISAHTLNSADYGVAQRRKRVIFIANRLGKKNAFPKPIFKKENYKTLGEEIERFINVPEDQTINHIFTKHSEDMKRKLSLLEEGKSLYKNYSDS;locus_tag=LOCUS_13670;note=WP_003690264.1 DNA (cytosine-5-)-methyltransferase (Neisseria gonorrhoeae) [pid:34.2%25%2C q_cov:95.6%25%2C s_cov:65.5%25%2C Eval:1.3e-27%2C partial hit],internal stop codon at [825911:825913](-)%2C[825926:825928](-),MGA_1367
sequence1	MetaGeneAnnotator	CDS	826793	826945	.	-	0	ID=MGA_1368;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENFFLTIKDVALKENKSIKTIRRLIAANKIKVSKNQGKLNQIHHNDYLE;locus_tag=LOCUS_13680;note=MGA_1368
sequence1	MetaGeneAnnotator	CDS	827133	827270	.	-	0	ID=MGA_1369;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKKLDTDGDGFDVLSYFPDGKIKRIEVKSSQNINNKSIYISQRE;locus_tag=LOCUS_13690;note=MGA_1369
sequence1	MetaGeneAnnotator	CDS	827754	827912	.	-	0	ID=MGA_1370;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTIIFYPSENGLTINICQKTEELIKTKRGRELLVENRKVLNDYLNNNFKDLN;locus_tag=LOCUS_13700;note=MGA_1370
sequence1	MetaGeneAnnotator	CDS	827943	828131	.	-	0	ID=MGA_1371;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEFNKEFKNIAKIKPLLKVNDIKSIKVKQILELVKNEIISFFNLDKNKVKLSIGQANITFTP;locus_tag=LOCUS_13710;note=MGA_1371
sequence1	MetaGeneAnnotator	CDS	828640	828975	.	-	0	ID=MGA_1372;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQTYERDQYKCFFSKDHFSFYTEDGNMYLEAHHIVPISLAPVYKINLDLLDNMVSLCPNCHKSMHYSENENKYKMLQIIKKFESDFFRKNNYLIEDIEDIYISNLYLGRK;locus_tag=LOCUS_13720;note=WP_051532688.1 DUF3578 domain-containing protein (Fusobacterium perfoetens) [pid:38.5%25%2C q_cov:69.4%25%2C s_cov:21.4%25%2C Eval:5.6e-12%2C partial hit],MGA_1372
sequence1	MetaGeneAnnotator	CDS	829183	829425	.	-	0	ID=MGA_1373;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKENFIYSLLKVSYPNEATKEVKLSLFPFRILFRIFLEKKNISKREMEYSIPYIKNSSDLQNLLINNFEKEEKYDKFCT;locus_tag=LOCUS_13730;note=MGA_1373
sequence1	MetaGeneAnnotator	CDS	829898	830167	.	-	0	ID=MGA_1374;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRNTPSGESAHKNRIHFPIKKDGSRIKGFSTTYKRIDWNKPSPTITMCNGAVSSQNNVHPGRINKDGTYSDARVLTILELMRLTGLPDN;locus_tag=LOCUS_13740;note=WP_002222757.1 DNA cytosine methyltransferase (Neisseria meningitidis) [pid:62.1%25%2C q_cov:97.8%25%2C s_cov:24.7%25%2C Eval:3.9e-26%2C partial hit],internal stop codon at [829883:829885](-)%2C[829898:829900](-)%2C[830168:830170](-)%2C[830300:830302](-),MGA_1374
sequence1	MetaGeneAnnotator	CDS	830300	830836	.	-	0	ID=MGA_1375;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKGMSLFSNVGIGEYFFKESGIEIIAANELISNRAKFYKHIYPDSEVICGDITDKKIFNKLVNIYKERNCEFLLATPPCQGMSIAGKMDTHDIRNQLVKYVIEFVKKVEPKNIIIENVAGMLKFPITINSKSVLIKDYLLDSFKKMGYFVNFGVLDAADYETPQSRRRSIFLVSKYRL;locus_tag=LOCUS_13750;note=WP_002222757.1 DNA cytosine methyltransferase (Neisseria meningitidis) [pid:40.3%25%2C q_cov:98.9%25%2C s_cov:50.9%25%2C Eval:3.9e-30%2C partial hit],internal stop codon at [830168:830170](-)%2C[830300:830302](-),MGA_1375
sequence1	MetaGeneAnnotator	CDS	830998	831528	.	-	0	ID=MGA_1376;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGQFTVRENLHSLLYFTISTGIGAGFINEGKIFEGFSGAALEIANALPIYKNKNSKRSGIEFLASGKNICLQLQELGVEVNSTKQAFELYKKGDNPIVNDFFSMIEEKFISLISTSIYFFNPQIIVIGGSVAMFNQDFFNEIFKKVIEVTEDIGYQTKFEFAQDLDDSTLLGCCKM;locus_tag=LOCUS_13760;note=WP_053240546.1 ROK family protein (Pyrobaculum islandicum) [pid:27.1%25%2C q_cov:79.0%25%2C s_cov:47.4%25%2C Eval:2.5e-10%2C partial hit],MGA_1376
sequence1	MetaGeneAnnotator	CDS	831706	831852	.	-	0	ID=MGA_1377;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLAVDIGGTSIRFGLIENNKIIKKQVIDTDGNNMKKSLNKIKTIVDS;locus_tag=LOCUS_13770;note=MGA_1377
sequence1	MetaGeneAnnotator	CDS	832083	832610	.	-	0	ID=MGA_1378;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENHYKQISSLIYDFTKPPGTSIDGDLAFYKSQLLPIEGKVLEAGVGNGRLYIPLLKYKVDIVGIDKSQEMINICQKNLEKENLLGKLICQDLENYIELNTYEYIIVPNASFNLLESRNKAIKVLKNFYQSLKEKGTLIIDLIMPIEFKAGSNHEFSHNINGQKIVVKNLSKEIN;locus_tag=LOCUS_13780;note=WP_164919772.1 class I SAM-dependent methyltransferase (Mesoplasma florum) [pid:46.9%25%2C q_cov:99.4%25%2C s_cov:70.4%25%2C Eval:2.7e-36%2C partial hit],internal stop codon at [832002:832004](-)%2C[832083:832085](-),MGA_1378
sequence1	MetaGeneAnnotator	CDS	832688	833050	.	-	0	ID=MGA_1379;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDEILENEKLNNISLYAHVQDFDFIMQLFENIEGIKIVKTAPFVLEIMHKDVSKHLGIKYLQDKYNIANNDIVVSGDGDNDFEMLSSFENSFVMNSATPLALSAGKIKIKSVSDIGKYIK;locus_tag=LOCUS_13790;note=WP_010874739.1 HAD family hydrolase (Mycoplasmoides pneumoniae) [pid:37.7%25%2C q_cov:64.2%25%2C s_cov:27.3%25%2C Eval:6.4e-08%2C partial hit],MGA_1379
sequence1	MetaGeneAnnotator	CDS	833081	833272	.	-	0	ID=MGA_1380;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKNNESIYELSIPMSERKKILENLTKLHKKCGIKISDTKNTNIISGIDEVIPRFKETLVFPH;locus_tag=LOCUS_13800;note=MGA_1380
sequence1	MetaGeneAnnotator	CDS	833635	833874	.	-	0	ID=MGA_1381;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MALDLKNVVEITNGDFGEIDNQLKQGKTVLAALQKGELLTQALQKGEMNDGFAKIQFKESKENCGTCGCQKPADTLVYL;locus_tag=LOCUS_13810;note=MGA_1381
sequence1	MetaGeneAnnotator	CDS	834138	834278	.	+	0	ID=MGA_1382;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQIIDREVEETIPLKVTYSLTNLGISLKPVLDSLSDWGVKNLNNAN;locus_tag=LOCUS_13820;note=WP_011182948.1 helix-turn-helix domain-containing protein (Mesoplasma) [pid:60.0%25%2C q_cov:87.0%25%2C s_cov:39.6%25%2C Eval:4.7e-08%2C partial hit],internal stop codon at [834018:834020](+),MGA_1382
sequence1	MetaGeneAnnotator	CDS	834477	835133	.	-	0	ID=MGA_1383;product=5'-methylthioadenosine/S-adenosylhomocysteine nucleosidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183271.1;translation=MKKYAILFAMKDEAESLIKELSAKLIKDDYFEIYQKDNIYIAISKVGLINATSCFTYVNQKFAIDCFINAGLVGTFSSDLNLLEPVIIKQSYLGNADARGFGYQLGQIPGMKAYYLSDEKLLNSFKSFKQVDICSSDIFINSQEKVDQIITPISNSISVFDMECFGFYQAAYIFKKPIIALKVVSDHINNGSNEEQFNQILKQGSLKISELILEIIKK;locus_tag=LOCUS_13830;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:37.2%25%2C q_cov:90.4%25%2C s_cov:92.1%25%2C Eval:2.4e-31],MGA_1383
sequence1	MetaGeneAnnotator	CDS	835151	835357	.	-	0	ID=MGA_1384;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSILDMIVFCADKISSERDYDGVERLRALVKSDLLTGFKELLKNQYEIAVKKHSKTTIGKGLTEAYNF;locus_tag=LOCUS_13840;note=WP_011166626.1 nicotinate-nucleotide adenylyltransferase (Mycoplasma mycoides) [pid:64.5%25%2C q_cov:91.2%25%2C s_cov:16.9%25%2C Eval:2.8e-16%2C partial hit],internal stop codon at [835418:835420](-)%2C[835457:835459](-)%2C[835529:835531](-),MGA_1384
sequence1	MetaGeneAnnotator	CDS	835529	835687	.	-	0	ID=MGA_1385;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYLYERVENKMDEKRYFHSLNVGQMAMELARLNNYDLNKALIAGTLHDIAKR;locus_tag=LOCUS_13850;note=WP_011166626.1 nicotinate-nucleotide adenylyltransferase (Mycoplasma mycoides) [pid:71.2%25%2C q_cov:100.0%25%2C s_cov:14.2%25%2C Eval:8.5e-13%2C partial hit],internal stop codon at [835418:835420](-)%2C[835457:835459](-)%2C[835529:835531](-)%2C[835889:835891](-),MGA_1385
sequence1	MetaGeneAnnotator	CDS	835889	836125	.	-	0	ID=MGA_1386;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPAYVNPFKTLSTSSVTQRLDMLKIAVKDLDYVKVKTYEISKQTSSFTYDTVKYYKTKYPEISFSFVMGSDQLDNFEK;locus_tag=LOCUS_13860;note=WP_011166626.1 nicotinate-nucleotide adenylyltransferase (Mycoplasma mycoides) [pid:50.0%25%2C q_cov:100.0%25%2C s_cov:21.3%25%2C Eval:6.9e-15%2C partial hit],internal stop codon at [835889:835891](-)%2C[836129:836131](-),MGA_1386
sequence1	MetaGeneAnnotator	CDS	836307	836432	.	-	0	ID=MGA_1387;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVDLKDIHVIGDNNNDFEMVSEMPFGLAVANASEKLKKAA;locus_tag=LOCUS_13870;note=MGA_1387
sequence1	MetaGeneAnnotator	CDS	836442	836837	.	-	0	ID=MGA_1388;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKEIIVDLINYAIEHDLDISLYTPTSVCSLTVAERIKTYKKLYGHYPDDCQPDFILYQNYHQLLEDVKKDTHKIIRVMYSLDFTKELEKANNLKKYLESKNLYYPSTIIQSRFLIDAMPKGINKATGIKK;locus_tag=LOCUS_13880;note=MGA_1388
sequence1	MetaGeneAnnotator	CDS	836859	837095	.	-	0	ID=MGA_1389;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLPYIGSDLDGTIVKNSDFKILDETVNNINEYQNLSENKLFVVTGRSLQNIKYYIKQLNIKLPVVCSNGAVVLDPIT;locus_tag=LOCUS_13890;note=WP_014584372.1 Cof-type HAD-IIB family hydrolase (Mycoplasma leachii) [pid:45.7%25%2C q_cov:89.7%25%2C s_cov:24.0%25%2C Eval:1.3e-08%2C partial hit],internal stop codon at [836859:836861](-),MGA_1389
sequence1	MetaGeneAnnotator	CDS	837166	837375	.	-	0	ID=MGA_1390;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKELKKIKKQLKKLELKFSDEKEVTVEGILFVNDILNAVPKVDVNGVNVYVSSISTMEHFTNSYIYKK;locus_tag=LOCUS_13900;note=MGA_1390
sequence1	MetaGeneAnnotator	CDS	837457	837747	.	-	0	ID=MGA_1391;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANHMQKKYNLFDSNISKKICAMLKEEYFLTLNQQLKKIERRFRNLKVFNPNDLSIFKATDDKTQNKIEVNSIVYDPSLNKLFVVLVNFYPPENID;locus_tag=LOCUS_13910;note=MGA_1391
sequence1	MetaGeneAnnotator	CDS	837748	838008	.	-	0	ID=MGA_1392;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLKKNFYSLDDITSNLLNPNSAAVPRIYSSEEVELTVKNLEFDKNAIDFNYKAIEQYYNLIYKKPLLSFLNKNQSKILVAYPEFI;locus_tag=LOCUS_13920;note=MGA_1392
sequence1	MetaGeneAnnotator	CDS	838321	838899	.	-	0	ID=MGA_1393;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKIMKTNFNKISGNNGFFDFEEKLNFFDYFNINSTDLKDAFSVLRKYENNMLTLKRMMESQITTRLNFYINNSFNKIENKFVENKTNEEKKLSKALVVSVIFLAARLVSQEYITLTTSSEYAYEYENSSNKSFNFENYKKSLKSYYETLTAWAMYFMDSNIENLSILSRMDEYIKKNVYSMERYKDIILYL;locus_tag=LOCUS_13930;note=MGA_1393
sequence1	MetaGeneAnnotator	CDS	839033	839152	.	-	0	ID=MGA_1394;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDIISHGTSEMTKRYGLIYVDQDSFGKGSQNRTPKKSYD;locus_tag=LOCUS_13940;note=WP_011183329.1 glycoside hydrolase family 1 protein (Mesoplasma florum) [pid:75.7%25%2C q_cov:94.9%25%2C s_cov:7.7%25%2C Eval:1.4e-10%2C partial hit],internal stop codon at [839033:839035](-)%2C[839159:839161](-)%2C[839375:839377](-)%2C[839381:839383](-),MGA_1394
sequence1	MetaGeneAnnotator	CDS	839159	839344	.	-	0	ID=MGA_1395;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNRLYDRYQKPLFILENGIGFDEKLENGKINDDYRIEYMKNHLEQIQNAIEDGVECIGYTA;locus_tag=LOCUS_13950;note=WP_011183329.1 glycoside hydrolase family 1 protein (Mesoplasma florum) [pid:75.4%25%2C q_cov:98.4%25%2C s_cov:12.7%25%2C Eval:1.3e-21%2C partial hit],internal stop codon at [839033:839035](-)%2C[839159:839161](-)%2C[839375:839377](-)%2C[839381:839383](-),MGA_1395
sequence1	MetaGeneAnnotator	CDS	839381	839794	.	-	0	ID=MGA_1396;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYALHNIFLANAQTVKIGKEINKNFLFGSMVATLLNYAESCDPQLVLKTEKDQQLKIYSFFDVMHRGEYSKFSLNLLKKFSIDLKISNEDKKLLKENTCDFLGFSYYMSGVVNQIEGDVTEGNLSKTGKNKFLKANE;locus_tag=LOCUS_13960;note=WP_011183329.1 glycoside hydrolase family 1 protein (Mesoplasma florum) [pid:64.2%25%2C q_cov:100.0%25%2C s_cov:28.5%25%2C Eval:6.3e-48%2C partial hit],internal stop codon at [839159:839161](-)%2C[839375:839377](-)%2C[839381:839383](-)%2C[839846:839848](-)%2C[839888:839890](-)%2C[839969:839971](-),MGA_1396
sequence1	MetaGeneAnnotator	CDS	840131	840439	.	-	0	ID=MGA_1397;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKISKDLMLGCSISANQAEGAFNVNGKGLSIAELRRYNPNLDRKDINTERKMTKEKLQEALNDDGKYVYPKKIGVNFYERYKEDVKLIADMKNDCFRTSIA;locus_tag=LOCUS_13970;note=WP_011183329.1 glycoside hydrolase family 1 protein (Mesoplasma florum) [pid:69.6%25%2C q_cov:100.0%25%2C s_cov:21.2%25%2C Eval:3.1e-39%2C partial hit],internal stop codon at [839846:839848](-)%2C[839888:839890](-)%2C[839969:839971](-)%2C[840131:840133](-),MGA_1397
sequence1	MetaGeneAnnotator	CDS	840426	840710	.	-	0	ID=MGA_1398;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTTILVSFFATLLLSKIKFFNTRTLKIFKEEYDFDIYKINEEIMKLKQDYKIQLKSYLDQKENKADNQIKIKQLKVEYRKNINLLRGVNNEKD;locus_tag=LOCUS_13980;note=MGA_1398
sequence1	MetaGeneAnnotator	CDS	840730	840864	.	+	0	ID=MGA_1399;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLPPAQVFSTIPSGGPETKPIIPKNPNGADDVHTPDAVYNKQPK;locus_tag=LOCUS_13990;note=MGA_1399
sequence1	MetaGeneAnnotator	CDS	840966	841388	.	-	0	ID=MGA_1400;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVLVAFIGVSIQRLLTKANFGNFRMLIEPLIVIVSTSLISILIIAPIGLLFTSYLSIAFKYLMTNNITKYIFTPLIGALYSPMVIFGIHRTITPIIMQDVAQFKGSLILGLLILSNVSTAVATFAFGLRYKNNKKVKQIA;locus_tag=LOCUS_14000;note=WP_011183330.1 PTS transporter subunit EIIB (Mesoplasma florum) [pid:51.4%25%2C q_cov:100.0%25%2C s_cov:27.2%25%2C Eval:2.6e-36%2C partial hit],internal stop codon at [840723:840725](-)%2C[840744:840746](-)%2C[840825:840827](-)%2C[840966:840968](-)%2C[841419:841421](-)%2C[841449:841451](-)%2C[841587:841589](-)%2C[841662:841664](-),MGA_1400
sequence1	MetaGeneAnnotator	CDS	841449	841571	.	-	0	ID=MGA_1401;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGGNEIYGIVIGAILCNPKLVALSDLKVGEGETILGQMPG;locus_tag=LOCUS_14010;note=MGA_1401
sequence1	MetaGeneAnnotator	CDS	841716	842096	.	-	0	ID=MGA_1402;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEYKKEDIKKLLSLIGGIENIVKVYHCMTRLRFVLKDDKLFNTKAIKELKFVQGVIFSSGEFQIIIGTSVSKFYKLFCEENGINLESNLPNKNDSNLEVKKQKKSFLTFISQVFAPLLIVLVAIGF;locus_tag=LOCUS_14020;note=WP_011183398.1 PTS transporter subunit EIIC (Mesoplasma florum) [pid:39.3%25%2C q_cov:92.9%25%2C s_cov:22.5%25%2C Eval:2.3e-18%2C partial hit],internal stop codon at [841586:841588](-)%2C[841668:841670](-)%2C[841671:841673](-),frameshifted%2C insertion/deletion at around 841721%2C841652,MGA_1402
sequence1	MetaGeneAnnotator	CDS	842311	842487	.	-	0	ID=MGA_1403;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNVRLIKLDKDIISIKSKNYNEINSIFILSGRDTDSLRGFFEYVYNKNSNIIVIASLN;locus_tag=LOCUS_14030;note=MGA_1403
sequence1	MetaGeneAnnotator	CDS	842617	842928	.	-	0	ID=MGA_1404;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSIYTRIDNLGRENRNTIYRIISKKILEDFSNGIFRTQDDLAYICNCSKATITAFSKAALVSGYRELQIRLKIEYENNFDSNKSNINQIEKEFSTTIQHLEK;locus_tag=LOCUS_14040;note=WP_011183331.1 transcriptional regulator (Mesoplasma florum) [pid:57.3%25%2C q_cov:86.4%25%2C s_cov:35.6%25%2C Eval:2.8e-24%2C partial hit],internal stop codon at [842617:842619](-),MGA_1404
sequence1	MetaGeneAnnotator	CDS	843058	843291	.	-	0	ID=MGA_1405;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEQANINRFAIKFRYSHKFYYDKVGIKLEDKKASTRDLELNLGFFNIRLHAISNSQTKISQITSNANKNYLFKKPKG;locus_tag=LOCUS_14050;note=MGA_1405
sequence1	MetaGeneAnnotator	CDS	843394	843750	.	-	0	ID=MGA_1406;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKGNKFDKFNSAYKEYIKKLNLNPEDFSSTNVLNYGFINISNLTVTYNDDFFALPDLSLPFDYSMNNSKTLSSLSNNLFNSINVIHENYNFKDVSKEENAGPTLAIFDPSEKDNFDF;locus_tag=LOCUS_14060;note=MGA_1406
sequence1	MetaGeneAnnotator	CDS	843751	844107	.	-	0	ID=MGA_1407;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHLTNESLFENAEEGYKSTEEPLIKYLDITNQEGILRKEIIDKELNTIFKDQSELEFNLSGQNVKLASDNRYIETDNFLTTDSIIFDKYDDNYKFIENYLLGNQEGYNVFDAQKVIQF;locus_tag=LOCUS_14070;note=MGA_1407
sequence1	MetaGeneAnnotator	CDS	844258	844815	.	-	0	ID=MGA_1408;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSLLGSVTLVASTSVTVIACGNKKPDPEIGPPEPDYDKILENLQNEVNNIFSKHLANNSSKLVNVIKDKNDNPKGYKLLNYKSLAELEVDDSGNGTFEGQEDQKLLLEEDLKNVLNLNELSQNLNELKKDIDNGYSYFLANVDNVYEKMNIKNEFKTSILNGNSDNDENEIYQFQVEIEFE;locus_tag=LOCUS_14080;note=MGA_1408
sequence1	MetaGeneAnnotator	CDS	844914	845156	.	-	0	ID=MGA_1409;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKYLCENCKKPATYKKINQVNSIVFFCKDCIITNTGAKLSNNNSLCIQCGNPANFILISQLNRLKEICESCLLKEYTKI;locus_tag=LOCUS_14090;note=MGA_1409
sequence1	MetaGeneAnnotator	CDS	845575	846300	.	-	0	ID=MGA_1410;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYIINFINGSYCVINTLSNLLVAKFIKLEDATNFVQAANTINFGFPNNINKFYNPPTTVVTPIPKSQNRVRRVYNCCSHGQCNLNHNNVNNTMAIPQDMSKENKELQEKLKDLNNKINSVIEEKTAILNENEILKSIIVNSDDEEEEEILEEEETVEEEDETFDDDDEEEESKSQNEESIKEESEVDKNKIDEKIIASQQSQVELDEAEKAYLNRQNIDEPKSKKELKRLKKEEKNLRKGK;locus_tag=LOCUS_14100;note=MGA_1410
sequence1	MetaGeneAnnotator	CDS	847271	848026	.	-	0	ID=MGA_1411;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGVIYQGYANSSELIELDKILNENVGSIPIGFFNYSPSATDFVNNKIIMLDFVNKVLQVSKQEIEDALNDYLLNNPFFIGEGLKPEHIANVIKNQIYVILMTNSIDRKNLKDKDGNPLLANEGEEEESLIIVKSMINKLRRLCEDISQLSSVNSNLKNVETLINMLDTIQNEDCVFKSISKNSFRETLKAVIEDSRDRNDPYSYHKAFYNGDLNATLFKTVSNNQKQIPLTLVNDYLDFGFDNQYKFEVQY;locus_tag=LOCUS_14110;note=MGA_1411
sequence1	MetaGeneAnnotator	CDS	848363	848707	.	-	0	ID=MGA_1412;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLCAILGSLSVAVFSSVSVVACKGGLDLSLTYTDEEKIMSIYNLTTKDLVKNGVKINTLVSPEEIDAIIKALDLNELINKNPNGSFLKQSLGVFIMSNQLLNEISSKVPGYG;locus_tag=LOCUS_14120;note=MGA_1412
sequence1	MetaGeneAnnotator	CDS	848900	849160	.	-	0	ID=MGA_1413;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSDKFIDVPKKKYLYWSTFIHFLAIATVFIIIPGLLTYLGGGGILPHQAYRAVSNGFSDNIGERIAGVCGILYYSIGCLFASIIIF;locus_tag=LOCUS_14130;note=MGA_1413
sequence1	MetaGeneAnnotator	CDS	849599	849781	.	+	0	ID=MGA_1414;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVLKVTPRGFCLGVVVSIKMAKDTVKAYPDKKIYMIGLLVHNKIIVKELEELGIIAIDD;locus_tag=LOCUS_14140;note=MGA_1414
sequence1	MetaGeneAnnotator	CDS	850295	850483	.	+	0	ID=MGA_1415;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLVELALNKGINSIRINRKEEIEIKDLKNINTVAVTAGASTSSIIQNQVIKYLEELKNETQ;locus_tag=LOCUS_14150;note=MGA_1415
sequence1	MetaGeneAnnotator	CDS	850503	850637	.	-	0	ID=MGA_1416;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLLTLGHYMENHFIDDLENKLLKTFSDEVKISAFDIKNTFIIL;locus_tag=LOCUS_14160;note=WP_011166652.1 Nif3-like dinuclear metal center hexameric protein (Mycoplasma mycoides) [pid:59.5%25%2C q_cov:95.5%25%2C s_cov:15.9%25%2C Eval:2.4e-07%2C partial hit],internal stop codon at [850659:850661](-)%2C[850668:850670](-),MGA_1416
sequence1	MetaGeneAnnotator	CDS	850668	851126	.	-	0	ID=MGA_1417;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEFAIANKSNFIISRHPFLFFDLEIEMKNLAKKEIYDLCIKNEIQVFSIHTNYDNSEKQNIIDLIETQLNVKNVEKVGVFNEGYKIKLLGSLSLKEVIEKLKFIFGKQQALLTRNSNLEKEIEYIYLTPGAGASTMMELQLQNEFFVTGEAK;locus_tag=LOCUS_14170;note=WP_011166652.1 Nif3-like dinuclear metal center hexameric protein (Mycoplasma mycoides) [pid:42.1%25%2C q_cov:100.0%25%2C s_cov:58.9%25%2C Eval:1.5e-28%2C partial hit],internal stop codon at [850659:850661](-)%2C[850668:850670](-)%2C[851223:851225](-),MGA_1417
sequence1	MetaGeneAnnotator	CDS	851422	851589	.	-	0	ID=MGA_1418;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYFVENEIIIEDNKIIYEIIKINKFAGTKIKNKKDIIFGPLLQREKNNKLFLQK;locus_tag=LOCUS_14180;note=MGA_1418
sequence1	MetaGeneAnnotator	CDS	851746	851985	.	-	0	ID=MGA_1419;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSFLTPRLFSLAKLITEGEVVADIGTDHAYLPIYLAKDGKAKKIYATDVAKKPLDVAKNNIASFGVADKVETILADGIQ;locus_tag=LOCUS_14190;note=WP_011166651.1 class I SAM-dependent methyltransferase (Mycoplasma mycoides) [pid:50.0%25%2C q_cov:96.2%25%2C s_cov:33.8%25%2C Eval:6.2e-16%2C partial hit],internal stop codon at [851599:851601](-)%2C[851746:851748](-),MGA_1419
sequence1	MetaGeneAnnotator	CDS	851988	852644	.	-	0	ID=MGA_1420;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVETINKLTRIERQLTQELGRDPTSKEIAKTFGKGITPQKVIEIKKLSIEPVSLEKPFGDEDDTHFGDFVEDKDISSPDDYAEKEALREVIDEVFCDILAPREEKVVRMRFGILPTKLRTLVRLAEECDDDSFEDLKQEITDLDIHYDTSIERIQKYKSSIIQMHLSKFDSPKTLEEVGKELKVTRERIRQIEAKTIRKFKPSASNPKARVLRDFFKG;locus_tag=LOCUS_14200;note=WP_020862729.1 sigma-70 family RNA polymerase sigma factor (Mycoplasma mycoides) [pid:68.5%25%2C q_cov:100.0%25%2C s_cov:43.1%25%2C Eval:1.5e-81%2C partial hit],internal stop codon at [852708:852710](-)%2C[852711:852713](-),MGA_1420
sequence1	MetaGeneAnnotator	CDS	852711	852923	.	-	0	ID=MGA_1421;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLEDSDPIIAKEGRDKLITSNLKLVISVARKHLNRGLDFADLIEEGNIGLMKAVDKFDYKKGFKFSTYAT;locus_tag=LOCUS_14210;note=WP_011183167.1 sigma-70 family RNA polymerase sigma factor (Mesoplasma florum) [pid:84.3%25%2C q_cov:100.0%25%2C s_cov:14.9%25%2C Eval:6.0e-27%2C partial hit],internal stop codon at [852708:852710](-)%2C[852711:852713](-),MGA_1421
sequence1	MetaGeneAnnotator	CDS	853382	853582	.	-	0	ID=MGA_1422;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKTLSPKGLEDCFDAIELYKIEDEIMLYSQKINSTNDNELKINYAEHREELLKLRNKIYEKRRKI;locus_tag=LOCUS_14220;note=MGA_1422
sequence1	MetaGeneAnnotator	CDS	853802	855328	.	-	0	ID=MGA_1423;product=DNA primase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166649.1;translation=MAISQNQIDLVLSKANIVDVIGKYIDLQKKGRNYVAVCPFHDDSDPSMNVSPDKKIFKCFVCGTGGNVITFVQEFNNITFFKALALIAKELNIKIDGLKEFEDKKKYNSKESILFEINKAAANFFNGLLISSLSTKAKNYLKERKISEQEIERFKIGFCPKNVKVYDYLIKLGFSQENIFESAIVYKSGIDYNCTFENRLIFPITNEDSNIIGFSGRVINSSDSPKYKNSSENLIFKKSQLAYNFDKAKKEARIKNEIIILEGFMDVISLESIDIKNSVAIMGTAMSDYHLKLFSRVAKKYKLFLDGDKAGVNAALKISQFLLERKIDVTIIENNTGKDPDELVKAGDKNLINQMIENSSHPANFATRFFSKDLDIQNSIKVNEFIEKVISVLKYESKENIVDSVIANLASITKIEKSTLFKTLNKAVSKIKVSATNNLYSQENNIDDFNPGQDYINRMLNSFVQDENSHFEIPEYGYETIKKDKIVQANVNEVKKNHSKNFAEAAIV;locus_tag=LOCUS_14230;gene=dnaG;note=WP_011166649.1 DNA primase (Mycoplasma mycoides) [pid:39.0%25%2C q_cov:91.5%25%2C s_cov:76.3%25%2C Eval:1.4e-91],MGA_1423
sequence1	MetaGeneAnnotator	CDS	855345	855716	.	-	0	ID=MGA_1424;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLAIFCQSYVEEKIDNGERIVMKLPYQLAPYSIAIMPLQKQQNKRANELYKELLLDFDATFDETGNIGKRYRRQDAIGTPYCITIDFDTEKDNSVTVRNRDTMNQERIEIKNLKQYLLAKIF;locus_tag=LOCUS_14240;note=WP_011183165.1 glycine--tRNA ligase (Mesoplasma florum) [pid:65.6%25%2C q_cov:98.4%25%2C s_cov:27.1%25%2C Eval:1.8e-39%2C partial hit],internal stop codon at [855852:855854](-)%2C[856005:856007](-),MGA_1424
sequence1	MetaGeneAnnotator	CDS	856017	856271	.	-	0	ID=MGA_1425;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKTNQGVVEDEASTVYLRPETAQGIFVQYKNSQRALRKKLPFGIGQIGKSFRNEITPGNFIFRTREFEQMELEFFFSPNDTND;locus_tag=LOCUS_14250;note=WP_011183165.1 glycine--tRNA ligase (Mesoplasma florum) [pid:85.7%25%2C q_cov:100.0%25%2C s_cov:18.6%25%2C Eval:5.9e-38%2C partial hit],internal stop codon at [855852:855854](-)%2C[856005:856007](-)%2C[856017:856019](-)%2C[856368:856370](-)%2C[856491:856493](-),MGA_1425
sequence1	MetaGeneAnnotator	CDS	857049	857306	.	-	0	ID=MGA_1426;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKILDQIEQISNKNYKIFKMLTFTLENISNNKNPFINYLFFITHLIQETIQPFRLNGCIRCKKTTFPIVRFEYSENGFVCARCL;locus_tag=LOCUS_14260;note=MGA_1426
sequence1	MetaGeneAnnotator	CDS	857430	857597	.	-	0	ID=MGA_1427;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGATKINAVVIESNDFDDYAKIVKVFSKQFGKLSFMAPGVNKSTSKNKYSIQTFS;locus_tag=LOCUS_14270;note=WP_011183164.1 DNA repair protein RecO (Mesoplasma florum) [pid:47.3%25%2C q_cov:100.0%25%2C s_cov:20.6%25%2C Eval:4.3e-09%2C partial hit],internal stop codon at [857430:857432](-),MGA_1427
sequence1	MetaGeneAnnotator	CDS	857661	858044	.	-	0	ID=MGA_1428;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGSNLAMLLDEIKKSLPETGIKFYPDDTFTDQPERFLIREVIREEILLQTEQEIPHSVAILIDILEEKKDIIKVIASIICERQSQKGIIIGNKGSKIKSIGINSREKLETLFNKKFYLELFVKTKEK;locus_tag=LOCUS_14280;note=WP_011183163.1 GTPase Era (Mesoplasma) [pid:48.0%25%2C q_cov:96.9%25%2C s_cov:40.9%25%2C Eval:7.5e-25%2C partial hit],internal stop codon at [857661:857663](-)%2C[858093:858095](-),MGA_1428
sequence1	MetaGeneAnnotator	CDS	858093	858509	.	-	0	ID=MGA_1429;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKIRSGFISIIGRPNVGKSTLLNTLLGKKVSIVTNKAQTTRNRINGILTHQDAQYIFVDTPGVHKAQHELGRYMNKVALSSTKGVDVILFLAPSDEFIGENDRFILNALKEREVPVFLIITKSDLLSENQLNEKVEE;locus_tag=LOCUS_14290;note=WP_011183163.1 GTPase Era (Mesoplasma) [pid:58.3%25%2C q_cov:100.0%25%2C s_cov:46.2%25%2C Eval:3.3e-41%2C partial hit],internal stop codon at [858093:858095](-),MGA_1429
sequence1	MetaGeneAnnotator	CDS	859505	859666	.	-	0	ID=MGA_1430;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKTDLLIKGKLGEIITKRFLKSKHVKMVSEGDYISRLRACCKVIYSIPIQAI;locus_tag=LOCUS_14300;note=MGA_1430
sequence1	MetaGeneAnnotator	CDS	860090	860368	.	-	0	ID=MGA_1431;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIRLDTIVTDVLAAIGLFIIVFSPLIFSSIQRKILNQRLHTTIDGEKLFEKLKYDLKLSKLTGINKKRLYKDVDYAKTIFRGAMEYNSRELT;locus_tag=LOCUS_14310;note=MGA_1431
sequence1	MetaGeneAnnotator	CDS	860588	861148	.	-	0	ID=MGA_1432;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAVLTAALIANAFGGVAHFNPAVTIAIAISDKTKNLGFGAYTGLSPVAMLFLVILIQFIGAVLGQIIVNFVYYKHIKKTLESVKVEDQANVLAMHSTIPTERNPLLNFAMEFLGTTVLIVAILSFGKFANGSGLPNFYGPILVGTTILAIGLSLGGTTGYAINPYRDLAPRLVHSLMPIKNKGTSD;locus_tag=LOCUS_14320;note=WP_011166454.1 MIP/aquaporin family protein (Mycoplasma mycoides) [pid:50.8%25%2C q_cov:99.5%25%2C s_cov:70.7%25%2C Eval:9.7e-43%2C partial hit],internal stop codon at [860576:860578](-)%2C[860588:860590](-)%2C[861152:861154](-),MGA_1432
sequence1	MetaGeneAnnotator	CDS	861489	861710	.	-	0	ID=MGA_1433;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MESIAFQTNDVLEAMREDSKINIRSIKVDGGASKNNYLIQFQSDISKSELIRPKNVETTAMGAAYLAGLAVGY;locus_tag=LOCUS_14330;note=WP_011861192.1 glycerol kinase GlpK (Clostridioides difficile) [pid:66.1%25%2C q_cov:80.8%25%2C s_cov:11.7%25%2C Eval:3.7e-16%2C partial hit],internal stop codon at [861402:861404](-)%2C[861459:861461](-)%2C[861489:861491](-)%2C[861783:861785](-)%2C[861858:861860](-)%2C[861906:861908](-),MGA_1433
sequence1	MetaGeneAnnotator	CDS	861906	862223	.	-	0	ID=MGA_1434;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLPKIKGNSEIYGYTFPELLSKNSKHQIAIASSIGDQQSALFGQMCLEPGDIKVTFGTGAFIVMNTGDKKIDSKNGLLTVIGYSINNKFIYGLEGSVMMAGATLQ;locus_tag=LOCUS_14340;note=WP_011166455.1 glycerol kinase GlpK (Mycoplasma mycoides) [pid:61.0%25%2C q_cov:100.0%25%2C s_cov:20.8%25%2C Eval:8.2e-32%2C partial hit],internal stop codon at [861783:861785](-)%2C[861858:861860](-)%2C[861906:861908](-)%2C[862263:862265](-)%2C[862347:862349](-)%2C[862356:862358](-)%2C[862431:862433](-),MGA_1434
sequence1	MetaGeneAnnotator	CDS	862725	862853	.	-	0	ID=MGA_1435;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKYIVTLDEGTTSARSLVVNKKGEIIASNQKEFSQIYPQEG;locus_tag=LOCUS_14350;note=WP_011987067.1 glycerol kinase GlpK (Clostridium botulinum) [pid:64.3%25%2C q_cov:100.0%25%2C s_cov:8.4%25%2C Eval:3.9e-10%2C partial hit],internal stop codon at [862431:862433](-)%2C[862548:862550](-)%2C[862590:862592](-)%2C[862698:862700](-)%2C[862725:862727](-),MGA_1435
sequence1	MetaGeneAnnotator	CDS	862931	863779	.	-	0	ID=MGA_1436;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILAFNREEEKHLDMLMENGFKNGCTKDEISLINQEELQKIEPSISKEVTKALLCNSSSIIDPVELTGVLLKNAKKNGVNVFFNEKVLGIKYENELFKISSQNNNYKAKIIINCAGHFADKISSLAGYDDFKLSTKRGEYIVLKGTKENQANNVLFMVPTVHGKGVIVAKTVNGNLLVGPTAEDNVAKEDINLITEEKFNQIKEIGKKIIPTLDMTKIIGRFAGSRPIFKETDDFYIHYAKLNNNFINVAGTKSPGISCAPSIADYVIEMIKKQMKLELKLK;locus_tag=LOCUS_14360;note=WP_013447578.1 type 2 glycerol-3-phosphate oxidase (Mycoplasma leachii) [pid:49.5%25%2C q_cov:98.9%25%2C s_cov:72.6%25%2C Eval:2.8e-71%2C partial hit],internal stop codon at [863819:863821](-),MGA_1436
sequence1	MetaGeneAnnotator	CDS	863819	864055	.	-	0	ID=MGA_1437;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKNNYDICIIGAGIIGASIARELAKYNQTIVVLESNPSFGLETTTGNSGLIHGGFDPTPGKLNAKLNFLGRKRYKEN;locus_tag=LOCUS_14370;note=WP_013447578.1 type 2 glycerol-3-phosphate oxidase (Mycoplasma leachii) [pid:61.0%25%2C q_cov:98.7%25%2C s_cov:19.9%25%2C Eval:3.8e-21%2C partial hit],internal stop codon at [863819:863821](-),MGA_1437
sequence1	MetaGeneAnnotator	CDS	864327	864533	.	-	0	ID=MGA_1438;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISRNHGIAVFEEKFELDRIMELKDEIVIYARQNNSRNFSYCAEFREFVALCRDKIDIFSNYERHKYE;locus_tag=LOCUS_14380;note=MGA_1438
sequence1	MetaGeneAnnotator	CDS	864549	864842	.	-	0	ID=MGA_1439;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVLKVREFEEKYAKRFDELILDELVEIYEYLDPSKEYSYMFQGKTTESKDFLNKLKKIISKLTIVETFDSVLEYLLAAAFDLTSHQFLGKKTFLYFF;locus_tag=LOCUS_14390;note=MGA_1439
sequence1	MetaGeneAnnotator	CDS	864858	864983	.	-	0	ID=MGA_1440;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLINIDNSKEEIFELLAENDYSEEEMLEDFDIEFLNHIKA;locus_tag=LOCUS_14400;note=MGA_1440
sequence1	MetaGeneAnnotator	CDS	865156	865563	.	-	0	ID=MGA_1441;product=cytidine deaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183040.1;translation=MKLKKDEVYNELKILRENAYVPYSNFRVACIIYLKDGNKIKGVNVENAAYNPSICAERTALPQMITQGYNKNDVELVALYTDSEGFGSPCGTCRQTLFELLLENQPIWVYNKKEFINSYDVKDFLPYAFTSKNIG;locus_tag=LOCUS_14410;gene=cdd;EC_number=3.5.4.5;note=WP_011183040.1 cytidine deaminase (Mesoplasma) [pid:54.0%25%2C q_cov:93.3%25%2C s_cov:93.3%25%2C Eval:1.4e-34],MGA_1441
sequence1	MetaGeneAnnotator	CDS	865827	865988	.	-	0	ID=MGA_1442;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSRKNDIKKKSKVGTRVKNKFSNAARGIFTAFREESTLIVYLIIVIFAIGLGI;locus_tag=LOCUS_14420;note=MGA_1442
sequence1	MetaGeneAnnotator	CDS	866175	866516	.	-	0	ID=MGA_1443;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDILEFNYNTDENLKEYEVLFNNLLKSAKEVLDINQNLSFSVNYIDEIKSRKLNNEYRKKDYVGDVISFPIDDDFGIYNQLDFKEIGDIFITFSEAKNKALKYNHTIKEEMA;locus_tag=LOCUS_14430;note=WP_011183162.1 rRNA maturation RNase YbeY (Mesoplasma florum) [pid:38.0%25%2C q_cov:95.6%25%2C s_cov:63.9%25%2C Eval:8.8e-18%2C partial hit],internal stop codon at [866175:866177](-),MGA_1443
sequence1	MetaGeneAnnotator	CDS	866531	866908	.	-	0	ID=MGA_1444;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNLTVHFCLLFTLLIFIAILILLKKQQVYTGSVFIQEYIDEDGTVTADLYLISNKSLNISLIDYIILETNQGNMYVYSSNLEYSDSLIKISINNIGSIKYPSNNVLIFGEKISLLSYLLSNVF;locus_tag=LOCUS_14440;note=MGA_1444
sequence1	MetaGeneAnnotator	CDS	867250	868161	.	-	0	ID=MGA_1445;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLEHINLLSEFIVKSTISFPLGLILFLMSSLFLILISPLILTIVIIQNIISISISIFLFYLLKEYKIKKERKLINFSYSYREILDGFEEIKYKNIEDEIKSVNYKNFNATLKETKHIFNLNNKAELFFSLLNKFFFYLIFYISIIYINQSKFTVPDLLFYTSISFYINIFFNQLTNFILDLQEIIIADKSLSFIFANSENKDSSIIVKEIKTIEAKNLYSYKSDKCALNNFNFIFNKNTFIYGKSGSGKTTLLKILSGHYKKYEGTLLINENINTNKVDIKSYRERNIYLGQYDYLFNGTV;locus_tag=LOCUS_14450;note=WP_011963981.1 peptidase domain-containing ABC transporter (Flavobacterium psychrophilum) [pid:27.7%25%2C q_cov:76.9%25%2C s_cov:34.7%25%2C Eval:2.9e-13%2C partial hit],internal stop codon at [867250:867252](-)%2C[868162:868164](-),MGA_1445
sequence1	MetaGeneAnnotator	CDS	868162	868446	.	-	0	ID=MGA_1446;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFLISIILNVLILITNNFLKIYMENVAIKENQSIKFLFLIFLIVFIIQNAVSYFINKIVFNIKSKVSKTIFLFYKKKLINLEIEKFNSNSKEE;locus_tag=LOCUS_14460;note=MGA_1446
sequence1	MetaGeneAnnotator	CDS	868483	868947	.	-	0	ID=MGA_1447;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVISLEYKFTIQKSENDCGIAVSTTLINYYHNKNFGIEEIKFDNSLNDEMLSLYDMEKLLNNYHIEFTSYKCDYEEFKNLDITNPLVLNTLNKEGNEHFIIIYKKRKNLFLVADSNLKDLTWVSEKDFKSIYQGFLSITKKIEEVKFKTKSIFN;locus_tag=LOCUS_14470;note=MGA_1447
sequence1	MetaGeneAnnotator	CDS	869020	869466	.	-	0	ID=MGA_1448;product=ribosome maturation factor RimP;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166546.1;translation=MSLDIIKNNYLEKIKNILNECDFLLYELNVVNDFDSKVLQILVENRDISKKNIDFDLLIKANESISNMLDDIDDLEDSYILEVASAGAERKVKSFEILKYNIGSFFYITLKKPIEIFTEFSATLTEIKDDELIFNFFIKGRPKKVKLK;locus_tag=LOCUS_14480;gene=rimP;note=WP_011166546.1 ribosome maturation factor RimP (Mycoplasma mycoides) [pid:34.2%25%2C q_cov:99.3%25%2C s_cov:89.0%25%2C Eval:2.5e-19],MGA_1448
sequence1	MetaGeneAnnotator	CDS	869538	869969	.	-	0	ID=MGA_1449;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=METVLKGKDAVVKTIEDIKYRQNNKLPVTAKENALITIYEVILEMFARGIEISNIDFNISEGEKFVITKNNDGKKILVPSFNVIDSLGVAVANSIVNARKERQITSVNDLKMRTQVTQTQIEIFNKLKVTDKLKDDEQLSFDF;locus_tag=LOCUS_14490;note=WP_011166548.1 PolC-type DNA polymerase III (Mycoplasma mycoides) [pid:55.2%25%2C q_cov:100.0%25%2C s_cov:9.6%25%2C Eval:6.0e-36%2C partial hit],internal stop codon at [869997:869999](-)%2C[870036:870038](-)%2C[870123:870125](-)%2C[870159:870161](-),MGA_1449
sequence1	MetaGeneAnnotator	CDS	870159	870614	.	-	0	ID=MGA_1450;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDILGHVDPTALRMLYDLTGFDPIKVPTDDKAVYSLFSELSALKIDADSILGETTGAIGLPEFGTQFVRNMLKETKPQNFADLVQISGLSHGTDVYVGNAQSLIKEGVANISQVIGCRDDIMVYLMSKGLDSSSSFNIMESVRKGKGLSKE;locus_tag=LOCUS_14500;note=WP_011183185.1 PolC-type DNA polymerase III (Mesoplasma florum) [pid:75.5%25%2C q_cov:100.0%25%2C s_cov:10.1%25%2C Eval:4.1e-60%2C partial hit],internal stop codon at [869997:869999](-)%2C[870036:870038](-)%2C[870123:870125](-)%2C[870159:870161](-)%2C[870663:870665](-),MGA_1450
sequence1	MetaGeneAnnotator	CDS	870663	871244	.	-	0	ID=MGA_1451;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGSRGSVGSSFVATASLITEVNPLKPHYRCIECKYSDFETPEEIKCGYDLPEKLCPKCNTKLLGDGHDIPFETFLGFDGDKVPDIDLNFSGEYQPIAHNFTKEIFGENNVFRAGTISTVAEKTAYGFTLGYFEKQSQNIDLIRKAEIERLASLSTGVKRTTGQHPGGIIILPKEYEIEDFTPVNYPADDNESD;locus_tag=LOCUS_14510;note=WP_011183185.1 PolC-type DNA polymerase III (Mesoplasma florum) [pid:80.3%25%2C q_cov:99.5%25%2C s_cov:12.9%25%2C Eval:3.7e-88%2C partial hit],internal stop codon at [870663:870665](-)%2C[871290:871292](-),MGA_1451
sequence1	MetaGeneAnnotator	CDS	871548	871883	.	-	0	ID=MGA_1452;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLEESIDFFDYIEIQPLSVYKKLIQTEDLTMDELKTIILKIIEVAKKLNKTIVATSDAHYVDPELKKIRDIYINTKGLGGAYHPLYDFKQRVKDNPDQHLRTTKEMLEEFN;locus_tag=LOCUS_14520;note=WP_011166548.1 PolC-type DNA polymerase III (Mycoplasma mycoides) [pid:64.2%25%2C q_cov:98.2%25%2C s_cov:7.4%25%2C Eval:4.5e-38%2C partial hit],internal stop codon at [871290:871292](-)%2C[871548:871550](-)%2C[872145:872147](-),MGA_1452
sequence1	MetaGeneAnnotator	CDS	872190	872504	.	-	0	ID=MGA_1453;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLEDKNSIEVEFKNIMEIIEDGILIAHNANFDFNFLQSFAKKLGYGELKNTIIDTLALGRLLQPRLKNHRLGTVAKAYQILYDEKIAHRADYDAEVLTNMYEHM;locus_tag=LOCUS_14530;note=WP_011183185.1 PolC-type DNA polymerase III (Mesoplasma florum) [pid:62.4%25%2C q_cov:97.1%25%2C s_cov:6.8%25%2C Eval:2.0e-33%2C partial hit],internal stop codon at [872145:872147](-)%2C[872190:872192](-)%2C[872724:872726](-),MGA_1453
sequence1	MetaGeneAnnotator	CDS	873087	873662	.	-	0	ID=MGA_1454;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTPSNVDYSKEHRMVFFNVSNETEKSLLEEHKEYYKNKLLKYGFRNLDLKIRVKENLETDVLESIREKYEKASHYIANTQKSNTDINSYTSPSRQKYKSNNDILNIATYESIVDLEEDAQNVTIHGQVISKNVRKSKAGRNVYNIAITDGTSSVMCIFFQRNNEPTFFDEITEETKNSLIGFENQIINKGD;locus_tag=LOCUS_14540;note=WP_011183185.1 PolC-type DNA polymerase III (Mesoplasma florum) [pid:32.4%25%2C q_cov:96.9%25%2C s_cov:12.5%25%2C Eval:1.6e-22%2C partial hit],internal stop codon at [872874:872876](-)%2C[873087:873089](-)%2C[873723:873725](-)%2C[873759:873761](-),MGA_1454
sequence1	MetaGeneAnnotator	CDS	873759	873998	.	-	0	ID=MGA_1455;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNMHKQVKDMFESLNIFLSEEEESYFSEAHFYQEAEFSQSANKLRVFIKLKDFLPIHLLHKIESIMLTNTLVSTKLNF;locus_tag=LOCUS_14550;note=MGA_1455
sequence1	MetaGeneAnnotator	CDS	874018	874218	.	+	0	ID=MGA_1456;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSLIVIIINNNKNKIAPVAFTTTLYFVGNSFLRIISIKFSNNLYPSSGGIKIKFKINRLALIVAT;locus_tag=LOCUS_14560;note=MGA_1456
sequence1	MetaGeneAnnotator	CDS	874359	874712	.	-	0	ID=MGA_1457;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIAKEDDKEVVLFDNICNEPNNLKECDAKINEVNNQKAVSYKKTVYNFIDNLSRSKDKEEVQIQFLYKKVDPYTGIALDAYKKGELTTLTDIEPASSIGISAPNRIYKSTAQAYGAG;locus_tag=LOCUS_14570;note=MGA_1457
sequence1	MetaGeneAnnotator	CDS	874722	874934	.	-	0	ID=MGA_1458;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFILAGPAMNLFVALLLFTTIFASVGVKKNDMTYFGAIYDQNKVAATSILKKEKDNNIDVNYIGQEYII;locus_tag=LOCUS_14580;note=MGA_1458
sequence1	MetaGeneAnnotator	CDS	875067	875252	.	-	0	ID=MGA_1459;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEVSGGMVVLAFFIGIIVMLLLITIHELGHLIVAKIAKAYVYEFSIGFGPRLFVIKGKET;locus_tag=LOCUS_14590;note=WP_011183184.1 site-2 protease family protein (Mesoplasma florum) [pid:70.4%25%2C q_cov:88.5%25%2C s_cov:12.8%25%2C Eval:3.7e-16%2C partial hit],internal stop codon at [874941:874943](-)%2C[875067:875069](-),MGA_1459
sequence1	MetaGeneAnnotator	CDS	875256	875801	.	-	0	ID=MGA_1460;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGQKITVDSSTMFNKAFEILEAYHLFGIKNIITLLHPQSIIHSMVGYNDGSIKAQLSIPDMKQVINYFLHYPKKNSYYKQKEIDFNDLIRLDLKEIDQKRFKPIAFALQCLELKNSKAIALNAANEVCVDYFLKKKINFFQITDIVEKIFQECENIELIDYEQIVNYDKIIRQLTIKRIEG;locus_tag=LOCUS_14600;note=WP_014329990.1 1-deoxy-D-xylulose-5-phosphate reductoisomerase (Sinorhizobium fredii) [pid:43.7%25%2C q_cov:86.2%25%2C s_cov:40.2%25%2C Eval:5.6e-32%2C partial hit],internal stop codon at [875805:875807](-),MGA_1460
sequence1	MetaGeneAnnotator	CDS	875805	876380	.	-	0	ID=MGA_1461;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNIVLFGASGSIGQQCIELLQESKDKFNLTALSVGENDSKIESFLLSFPTIKKVYSKKELNYLKLKYPNVEFLSDDILNILSKDDQIIINALSGFYGLQVTLKAIESNLVLLNANKESFVTAGNLINEMLKKSKTKIYPLDSEHCAIFQCLEKENIPKALFITASGGSFRNLTLEETKKVTLDQALKHPN;locus_tag=LOCUS_14610;note=WP_000790373.1 1-deoxy-D-xylulose-5-phosphate reductoisomerase (Bacillus cereus) [pid:43.7%25%2C q_cov:100.0%25%2C s_cov:51.8%25%2C Eval:5.2e-34%2C partial hit],internal stop codon at [875805:875807](-),MGA_1461
sequence1	MetaGeneAnnotator	CDS	876514	876675	.	-	0	ID=MGA_1462;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFKFTPPLQDFQPLKEPMQSLGGRSMALEIIVYILLALVFPIIGLFGDLLFS;locus_tag=LOCUS_14620;note=MGA_1462
sequence1	MetaGeneAnnotator	CDS	876665	877036	.	+	0	ID=MGA_1463;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIIAKIIPEVAATPRPIKAPSQVFLGLIFGLNLVLPNLIPPIYWNESLKIIIIQIQTIVTNENLALILISLVSGLTVSINPKEEIEKAFNPIIIIIVIIKLIKALLISILLSANPIIIVTIK;locus_tag=LOCUS_14630;note=MGA_1463
sequence1	MetaGeneAnnotator	CDS	877180	877512	.	-	0	ID=MGA_1464;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLLKMKKNKDKNEFEITETAEISPEINGDIGNNRFKLPSAKRNFKVRVLSTIVLLALLLGFVVSGAIYTSLKSYTDLNADAASYTSIILTVGLLGICMFEMNKTMGFKN;locus_tag=LOCUS_14640;note=MGA_1464
sequence1	MetaGeneAnnotator	CDS	877577	877888	.	-	0	ID=MGA_1465;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTRKAIEEMEAKTKDANQITLHIALDYGSFEEVENCFKIVFNDINSKKLSLDNFSINTILNNLYTKDTPQIDLLIRTGGEKRLSNFMLLQLAYAELYFINTY;locus_tag=LOCUS_14650;note=WP_010867696.1 polyprenyl diphosphate synthase (Pyrococcus abyssi) [pid:38.0%25%2C q_cov:97.1%25%2C s_cov:37.9%25%2C Eval:1.1e-15%2C partial hit],internal stop codon at [877577:877579](-)%2C[877913:877915](-)%2C[878018:878020](-)%2C[878150:878152](-),MGA_1465
sequence1	MetaGeneAnnotator	CDS	878216	878833	.	-	0	ID=MGA_1466;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDFVKPGISEKELARFVSDSFLKNGAEKLSFDTIVASGENGSMPHAVPTDKKIAEGDFVTLDMGCYYNGYCSDQTRTFAVGNSNNAKLKEIYEIVYQSQQLGIESIKPGISGNEVHKICFDYIESKGYGKYFTHGTGHGLGIEIHEEPYNSAAGDKTLQEGMCVTVEPGIYIPGIGGVRIEDDILVTKSGYEFLTTPFRELQIVK;locus_tag=LOCUS_14660;note=WP_011183278.1 aminopeptidase P family protein (Mesoplasma florum) [pid:65.4%25%2C q_cov:100.0%25%2C s_cov:57.1%25%2C Eval:3.3e-77%2C partial hit],internal stop codon at [878891:878893](-)%2C[878987:878989](-),MGA_1466
sequence1	MetaGeneAnnotator	CDS	879354	879497	.	-	0	ID=MGA_1467;product=50S ribosomal protein L33;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183279.1;translation=MREGVILRCATCKEENYIAKNDKRKEKIEVKKHCFKCNSHQVHKQKK;locus_tag=LOCUS_14670;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:9.3e-15],MGA_1467
sequence1	MetaGeneAnnotator	CDS	879841	880164	.	-	0	ID=MGA_1468;product=metalloregulator ArsR/SmtB family transcription factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870842.1;translation=MKEKYIEFAEIFKTLGDPTRLQIINMICDCGCTKCAQNILVNLNITQPTLSYHMKMLEKVGLITSLKEKNSKSYKINNQIIDELKLFVSEIQVEKNLLICSNCNEKK;locus_tag=LOCUS_14680;note=WP_010870842.1 metalloregulator ArsR/SmtB family transcription factor (Methanocaldococcus) [pid:38.2%25%2C q_cov:83.2%25%2C s_cov:98.9%25%2C Eval:4.6e-11],MGA_1468
sequence1	MetaGeneAnnotator	CDS	880246	880395	.	-	0	ID=MGA_1469;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFELHETTTKVDVPTNAVAEITLSNFLTFITPKLLLLFYTYLSIIALFI;locus_tag=LOCUS_14690;note=MGA_1469
sequence1	MetaGeneAnnotator	CDS	880451	880684	.	+	0	ID=MGA_1470;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGADDCPHCKDFDNAKKDYSDKFNSKMNELNTSYEQKVIRQGISYPDSMTAYGEKLNNKVDFREFKTEEVQNKFNEK;locus_tag=LOCUS_14700;note=MGA_1470
sequence1	MetaGeneAnnotator	CDS	880706	880873	.	+	0	ID=MGA_1471;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEEVTQIYKTKVFGNTETKEKIAYNESKKKVKTYFNNNNGVPMFIVIRNGKLVT;locus_tag=LOCUS_14710;note=MGA_1471
sequence1	MetaGeneAnnotator	CDS	880940	881149	.	+	0	ID=MGA_1472;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITAMNNSDQETVFIDKVNKGQSTGGGETPDPDPGTDPGTEPGTDSRKQLYQFNYSLDNLELINNYSNK;locus_tag=LOCUS_14720;note=MGA_1472
sequence1	MetaGeneAnnotator	CDS	881205	881873	.	-	0	ID=MGA_1473;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDSEDTINNEKDYFKFYGKLDNKILELFECKKTGIDKNLIEKKQEFLVKFGNELSFEELNEEFKKMRKKAPSENFVLKDMLEPTRLEFLTSVVFKKKFPDSSVMPNYLCDDEGIPFNHATGNRPDIVFLSDLINFPIEVTLISGSADLTARELFPIVRHLKDDEMFNKHKLVLLIAPNFYEDNFLARAFLEDDKKIKMKFLKIENVVSALLNMKTPNEVINL;locus_tag=LOCUS_14730;note=MGA_1473
sequence1	MetaGeneAnnotator	CDS	881913	882137	.	-	0	ID=MGA_1474;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNFIIKIRKEIPKNKYTKENIYCEILKYLDTNFETMGNYIKLTKIFNESTDEYIRKMRESGLISLRGMGKFID;locus_tag=LOCUS_14740;note=MGA_1474
sequence1	MetaGeneAnnotator	CDS	882432	882782	.	-	0	ID=MGA_1475;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNIKPYKYKPLSFSTTMRNPQRIPSFLKIIKKKSGEILTNEVINEILEDIIKEKIYKPFFISKNEKFKLIYQSENKFNKEQIEEIIMNSPQNHKEAGFDKGWPSRFDTFYKLMKE;locus_tag=LOCUS_14750;note=MGA_1475
sequence1	MetaGeneAnnotator	CDS	883165	883584	.	-	0	ID=MGA_1476;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGGGSSAMNITANSFILNDFDKNVINIHKYLFKNSGKKIEFFRRIKKDIEKFGLSSSFFDINMPTKILKDEFPKTYYSVLNKKSYIKLKEKFNLNKKIDLLYLLLVYGFNHMIRFNSSSQFNLPVGNVDFNNTTARALN;locus_tag=LOCUS_14760;note=WP_209021411.1 Dam family site-specific DNA-(adenine-N6)-methyltransferase (Helcococcus ovis) [pid:28.2%25%2C q_cov:94.2%25%2C s_cov:17.8%25%2C Eval:9.0e-10%2C partial hit],internal stop codon at [882999:883001](-)%2C[883152:883154](-)%2C[883164:883166](-)%2C[883363:883365](-)%2C[883372:883374](-)%2C[883597:883599](-),frameshifted%2C insertion/deletion at around 883344%2C883404%2C883709%2C883687,MGA_1476
sequence1	MetaGeneAnnotator	CDS	883701	883973	.	-	0	ID=MGA_1477;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLFSRCTANIAFKNLIDIAVCKYIVVTYNNTFNPKSSSSKNKISYEAILDILKSKGKVKIFEIPHKFFSSGKTEFKNHIEYLFIVKVAK;locus_tag=LOCUS_14770;note=MGA_1477
sequence1	MetaGeneAnnotator	CDS	884022	884234	.	-	0	ID=MGA_1478;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNIPNLKQKFKFSLICPEGSTLNKKIKIYREDANELIKKINADILFIDPPYNSRQYSRFYHLLETITK;locus_tag=LOCUS_14780;note=WP_011015931.1 DNA adenine methylase (Fusobacterium nucleatum) [pid:67.4%25%2C q_cov:65.7%25%2C s_cov:13.8%25%2C Eval:2.1e-11%2C partial hit],internal stop codon at [884022:884024](-)%2C[884364:884366](-),MGA_1478
sequence1	MetaGeneAnnotator	CDS	884511	884744	.	-	0	ID=MGA_1479;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFDERGNMFKIENRRYTGSKQRLIIEIKKYIRNNCSGKIFCDIFAGTGSVANALKEEFDLIIVNDFLYSNNSIFEGF;locus_tag=LOCUS_14790;note=WP_209021411.1 Dam family site-specific DNA-(adenine-N6)-methyltransferase (Helcococcus ovis) [pid:50.8%25%2C q_cov:77.9%25%2C s_cov:8.1%25%2C Eval:1.3e-08%2C partial hit],internal stop codon at [884364:884366](-)%2C[884511:884513](-),MGA_1479
sequence1	MetaGeneAnnotator	CDS	885015	885200	.	-	0	ID=MGA_1480;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKQRGIKPMKKFLSLFAIMGLSASTSTIVVSCGEKDPNIVKIYDYNGKLVDKIDKSIVKG;locus_tag=LOCUS_14800;note=MGA_1480
sequence1	Aragorn:1.2.38	tRNA	885271	885359	.	-	.	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	885378	885453	.	-	.	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	885472	885546	.	-	.	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	885552	885635	.	-	.	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	885650	885725	.	-	.	ID=Aragorn_26;product=tRNA-Thr;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00250;note=Aragorn_26
sequence1	MetaGeneAnnotator	CDS	886004	886477	.	-	0	ID=MGA_1481;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVQNKVFKDLKTAKIELTKVLNDNSAAHLLRDFIGAQNGDFSVILDYEKNFSTKHVIEIKAKKEGYVAFSSADELGYLSMHLGAGRATKEESIDFAAGIYLNKTTNEFVKKGETVMTLYTNRDSIEEFQQKAQDLILINDNAHNEKLILKLLTVDDI;locus_tag=LOCUS_14810;note=WP_011183016.1 thymidine phosphorylase (Mesoplasma florum) [pid:42.2%25%2C q_cov:93.6%25%2C s_cov:33.9%25%2C Eval:1.1e-29%2C partial hit],internal stop codon at [886544:886546](-),MGA_1481
sequence1	MetaGeneAnnotator	CDS	886544	886864	.	-	0	ID=MGA_1482;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSQSSDIVPADKKLYALRDVTGTVDSIPLIASSIMSKKLVIPADSIILDVKMGSGAFMKDLKSAIALSKAMIAIGKEHKRNVSVMITNMDQPLGRAIGNAIEVKEA;locus_tag=LOCUS_14820;note=WP_011183016.1 thymidine phosphorylase (Mesoplasma florum) [pid:71.2%25%2C q_cov:98.1%25%2C s_cov:24.0%25%2C Eval:3.5e-35%2C partial hit],internal stop codon at [886544:886546](-)%2C[886925:886927](-),MGA_1482
sequence1	MetaGeneAnnotator	CDS	886925	887167	.	-	0	ID=MGA_1483;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSSEIANFTQAMINSGITYNLDGVKGLKADKHSTGGIGDKTSLIFSPLVAKFGVKVAKLSGRGLGQTGGTIDKLESCPG;locus_tag=LOCUS_14830;note=WP_011183016.1 thymidine phosphorylase (Mesoplasma florum) [pid:67.5%25%2C q_cov:100.0%25%2C s_cov:18.4%25%2C Eval:1.1e-25%2C partial hit],internal stop codon at [886925:886927](-)%2C[887177:887179](-)%2C[887246:887248](-),MGA_1483
sequence1	MetaGeneAnnotator	CDS	887405	887788	.	-	0	ID=MGA_1484;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLTDNIPLDRNNPRSALSAMKEAKELISDYKRTVVIFPEGTRSAKQEPEEFQSASMKLAQMAYVPIVPVSIIDSYKLFQKRKHGRFVIKVVFGKPMMPEKFISLKTEMLTKNVQKEVEKNINLYKD;locus_tag=LOCUS_14840;note=WP_020862806.1 lysophospholipid acyltransferase family protein (Mycoplasma mycoides) [pid:55.9%25%2C q_cov:100.0%25%2C s_cov:40.7%25%2C Eval:8.0e-35%2C partial hit],internal stop codon at [887405:887407](-)%2C[887813:887815](-)%2C[887936:887938](-)%2C[888008:888010](-)%2C[888020:888022](-),MGA_1484
sequence1	MetaGeneAnnotator	CDS	888298	888531	.	-	0	ID=MGA_1485;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPNRKNILITSRELEKSYNNLEVSNNLEEILKKYQLSQEELVIIGGSQIYKSALNYADKLVISIIKQNYPGDVFAPQ;locus_tag=LOCUS_14850;note=MGA_1485
sequence1	MetaGeneAnnotator	CDS	888693	889070	.	-	0	ID=MGA_1486;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MALPPCHSLFQFYVSKDGFIDLQLYQRSGDIFLGIPFNIASYSLLLELVAKECNLTARYFIHTIGDAHIYSNHIEQLKLQLTREPKKLPTLKINFKNKSIFDIKFEDILLEGYESHPTIKGAVAV;locus_tag=LOCUS_14860;note=WP_011183318.1 thymidylate synthase (Mesoplasma florum) [pid:72.0%25%2C q_cov:100.0%25%2C s_cov:43.1%25%2C Eval:1.4e-47%2C partial hit],internal stop codon at [889092:889094](-)%2C[889182:889184](-)%2C[889314:889316](-)%2C[889323:889325](-),MGA_1486
sequence1	MetaGeneAnnotator	CDS	889380	889562	.	-	0	ID=MGA_1487;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQYLDLVEEVLQTGERRNDRTNTGTISKFGTQSRYDLRNGFPLVTTKKLFFKAIVHEIL;locus_tag=LOCUS_14870;note=WP_011183318.1 thymidylate synthase (Mesoplasma florum) [pid:75.0%25%2C q_cov:100.0%25%2C s_cov:20.8%25%2C Eval:5.1e-21%2C partial hit],internal stop codon at [889092:889094](-)%2C[889182:889184](-)%2C[889314:889316](-)%2C[889323:889325](-)%2C[889380:889382](-),MGA_1487
sequence1	MetaGeneAnnotator	CDS	889694	889849	.	-	0	ID=MGA_1488;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKCLEVPLEVNKINIVYRNSKPVIENSKFKNIELSISHEKNYSVAVALNL;locus_tag=LOCUS_14880;note=WP_011166756.1 4'-phosphopantetheinyl transferase superfamily protein (Mycoplasma mycoides) [pid:51.0%25%2C q_cov:96.1%25%2C s_cov:44.5%25%2C Eval:3.7e-08%2C partial hit],internal stop codon at [889865:889867](-),MGA_1488
sequence1	MetaGeneAnnotator	CDS	889865	890026	.	-	0	ID=MGA_1489;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLIMAKIGIDIVENKRINLEEKFLKKFLHQDEILLLNDLQSSEAKLQFASGR;locus_tag=LOCUS_14890;note=WP_011183283.1 4'-phosphopantetheinyl transferase superfamily protein (Mesoplasma florum) [pid:52.0%25%2C q_cov:94.3%25%2C s_cov:45.0%25%2C Eval:3.7e-08%2C partial hit],internal stop codon at [889865:889867](-),MGA_1489
sequence1	MetaGeneAnnotator	CDS	890098	890421	.	-	0	ID=MGA_1490;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANKLDASSGASGTSTNQRYLSKILRNAKQNYNFFKNINYVNATTRSNLDSIPFLSTIYTATYLIEGFEITPSGELKLGEFYDSESPKKDVEPSNNDIAKINHDKEF;locus_tag=LOCUS_14900;note=MGA_1490
sequence1	MetaGeneAnnotator	CDS	890509	891516	.	-	0	ID=MGA_1491;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFGMRKGFFVTFYILVLQVIVIIILLFVPALLTNSLNPLLMQLWVKLRLVDVFSYFGDTIGKLVSGLLPNNGSESGLPVGAGGTGYEILKTLSGLILYLFMCVFVFTIVNLIGLILYRAFKKRINKMKVVRKVDTLLGTFNGLAIGMALSMSFSLFLSFPLFQTENQKIGLTNFSNMTEEQIKDTIFGGNSYKKYSLSRKIAAPLPSVPVFAFTYTNGCINKYVINPFSIMAMQLISKQSLPDLKNFFLVYEDVMAEGYATNNPLQFPISACIETMPQDTRALFRFTSEMMLMGSTMFVNGVNSQKATVTSVELINAFDQYYLESGKDDKKIHDG;locus_tag=LOCUS_14910;note=MGA_1491
sequence1	MetaGeneAnnotator	CDS	891684	892121	.	+	0	ID=MGA_1492;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQNLSFKKVTQKILNKIIEENKQFLIPSNNSNIKYLFKINDLLISIYNTNTLLIQGKKALEFSLKYNLKDHKINKVVNKFITLPNIGCDEVGVGDFFGPLITCCAYVERDFEIKYPTLLAEITDSKKITDINIYNLFEKIKDKVI;locus_tag=LOCUS_14920;note=WP_012774927.1 ribonuclease HIII (Streptococcus suis) [pid:29.1%25%2C q_cov:80.7%25%2C s_cov:38.9%25%2C Eval:9.6e-08%2C partial hit],internal stop codon at [892119:892121](+),MGA_1492
sequence1	MetaGeneAnnotator	CDS	892134	892562	.	+	0	ID=MGA_1493;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENKKYNQAFDIYKNTHILKAICHNQALKRLFRNNNNLKEIPIIMDQFASEKNYYNYLIDQEIIIKDIHFETKAESKYLSVACASIIARYHFLESIKDLEKEYNVKLPLGASNNVKEYVNKYKAEMKDKVTSFTKMHFNSKK;locus_tag=LOCUS_14930;note=WP_003245949.1 ribonuclease HIII (Bacillus) [pid:36.8%25%2C q_cov:100.0%25%2C s_cov:46.0%25%2C Eval:5.5e-18%2C partial hit],internal stop codon at [892119:892121](+),MGA_1493
sequence1	MetaGeneAnnotator	CDS	892734	892964	.	-	0	ID=MGA_1494;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNAILSSKESVRGCEIYTSLFPCNECTKSIIQSGIKKIVYSSDKYEGNIENKIAKKMLNEAKVEFVFKKEVKIILS;locus_tag=LOCUS_14940;note=WP_032889952.1 cytidine/deoxycytidylate deaminase family protein (Fusobacterium) [pid:55.4%25%2C q_cov:85.5%25%2C s_cov:40.4%25%2C Eval:1.2e-14%2C partial hit],internal stop codon at [893019:893021](-)%2C[893175:893177](-),MGA_1494
sequence1	MetaGeneAnnotator	CDS	893019	893162	.	-	0	ID=MGA_1495;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAMVQLNAMRSKDPSTQVGCVIVNDLKQVVSTGYNGLPRGLNDDNYP;locus_tag=LOCUS_14950;note=WP_011183284.1 dCMP deaminase family protein (Mesoplasma florum) [pid:63.8%25%2C q_cov:100.0%25%2C s_cov:29.9%25%2C Eval:3.9e-13%2C partial hit],internal stop codon at [893019:893021](-)%2C[893175:893177](-),MGA_1495
sequence1	MetaGeneAnnotator	CDS	893299	893835	.	-	0	ID=MGA_1496;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MALIQIFVAGSAIKLARYTEGLVGSIKFAIAIFITYPLVGFFVSATVPTQQAVFSGGLGFMASVLGVLAVTTWDKKREPIQLFSKNRMVFPILCLVIYPLFLAQAHLYIMIIASAAISSSIYLLLIYKKETLDKLIILPIIILTISLLLPLTFSLISYYAPAHDPYSVGSLQLYVMKN;locus_tag=LOCUS_14960;note=MGA_1496
sequence1	MetaGeneAnnotator	CDS	893965	894516	.	-	0	ID=MGA_1497;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINFNQLKLNLVHYFVKVEKYKALEKYSNDYVSYLINPKAKFKIIRVTLGSPVTTDKNLNEIKETLKSQKREKIEILNIALSDSDIGIELEGTTFSVSNLENTKIKLKPYFSKIDSIEEPEKETKEDYISDEEMVEILKDPTKSSNLKFKKAIQRMNRNSPISIFLIAIFIIMPSITAVLSLL;locus_tag=LOCUS_14970;note=MGA_1497
sequence1	MetaGeneAnnotator	CDS	894528	895442	.	-	0	ID=MGA_1498;product=RluA family pseudouridine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183286.1;translation=MNQLEIKLEHDAGRLDKFLTEYLKEEYDFSRSYVQKLIESKDVLVNNQEVSVKHNLLSGDVIKMNFKEPSEMEAKPEDIDFEIVYQDKDLLIVNKPNGLVVHPAAGNPTGTLVNGLLFKVKDLSSIGGVLRPGIVHRLDKMTTGLMIVAKNDKTHKSLTNMLANNEIHKEYIALVHGVIEPNAGKINAPIGRHKGDRKKMTTTDINSKHAITNFTVLERYEKHTKISCVIETGRTHQIRVHMAYIKHPVVGDPLYAFKEDMKEEFGQYLHAYRLTFNHPITNEKLDLISDLPKEFNDKINMFKE;locus_tag=LOCUS_14980;note=WP_011183286.1 RluA family pseudouridine synthase (Mesoplasma florum) [pid:55.4%25%2C q_cov:97.4%25%2C s_cov:95.8%25%2C Eval:7.3e-89],MGA_1498
sequence1	MetaGeneAnnotator	CDS	895666	895965	.	+	0	ID=MGA_1499;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKITTIIPTAIETHASAKLNIKPESHNSNSKKSTTPPLTPCFEIGAQALPNKLAILPETIKLIGISQYLFFIKINTAIKSNVTSAAIVIAKLLLSAFIP;locus_tag=LOCUS_14990;note=MGA_1499
sequence1	MetaGeneAnnotator	CDS	896255	896500	.	-	0	ID=MGA_1500;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRDDVNEALEKARNEKIIKKGFEAVINLEIPKEFSFIKEIKDLNQILIVNSINFSDLKGKINSKVANVSVELKQGLKCQRC;locus_tag=LOCUS_15000;note=WP_011166763.1 isoleucine--tRNA ligase (Mycoplasma mycoides) [pid:57.8%25%2C q_cov:100.0%25%2C s_cov:9.1%25%2C Eval:1.9e-20%2C partial hit],internal stop codon at [896255:896257](-)%2C[896516:896518](-)%2C[896666:896668](-),MGA_1500
sequence1	MetaGeneAnnotator	CDS	896666	896830	.	-	0	ID=MGA_1501;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=METYSFNSGFKLINNYVTNDLSSFYLDFIKDIIYVEAANSKRRRQVQTVIYEQL;locus_tag=LOCUS_15010;note=WP_011183288.1 isoleucine--tRNA ligase (Mesoplasma florum) [pid:66.0%25%2C q_cov:98.1%25%2C s_cov:5.8%25%2C Eval:7.7e-14%2C partial hit],internal stop codon at [896516:896518](-)%2C[896666:896668](-)%2C[897047:897049](-),MGA_1501
sequence1	MetaGeneAnnotator	CDS	897047	897211	.	-	0	ID=MGA_1502;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINSVIYDGKPAYKQLITHGMTNDEKGKKMSKSIGNTIDPLEIANDLGADILRL;locus_tag=LOCUS_15020;note=WP_011183288.1 isoleucine--tRNA ligase (Mesoplasma florum) [pid:74.1%25%2C q_cov:100.0%25%2C s_cov:5.9%25%2C Eval:3.7e-16%2C partial hit],internal stop codon at [897047:897049](-)%2C[897224:897226](-)%2C[897323:897325](-)%2C[897353:897355](-)%2C[897407:897409](-),MGA_1502
sequence1	MetaGeneAnnotator	CDS	899215	899388	.	-	0	ID=MGA_1503;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKLAKDKNELGESITRNLLGFSFFGINIDQILSNPSSKEPLPEDESGNIGPKNPKK;locus_tag=LOCUS_15030;note=MGA_1503
sequence1	MetaGeneAnnotator	CDS	899530	899712	.	-	0	ID=MGA_1504;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYNAYRDINFVTAKEDISIEYNGNTTFIKKGEKIKSTYGIGKEEDPAYFYGTLKNLIDKK;locus_tag=LOCUS_15040;note=MGA_1504
sequence1	MetaGeneAnnotator	CDS	900334	900801	.	-	0	ID=MGA_1505;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLAALASVSFLVSTTATTVVACSFSLKDIESFKYNFDLGEMAEVNQKEIIKAIAKINNITVDSKKDIERIANFQFDVNSIKEERNLSYPSNFNLTRQTENESKIKNYVATIRTSEYSRIAKGTAEIHFKASEEAIRKARNPIQQSQSTLMGY;locus_tag=LOCUS_15050;note=MGA_1505
sequence1	MetaGeneAnnotator	CDS	900864	901205	.	-	0	ID=MGA_1506;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENSDLLLKIKMLEKELDSYKNKEEYTKIGLQRTKNVYEIARKNSEIIISKAINLAYEFKKEIELTLQKINKNPLEFSQYLQDFLKKHEYFIENKDPNISQYLDEIIAKFNKK;locus_tag=LOCUS_15060;note=MGA_1506
sequence1	MetaGeneAnnotator	CDS	901205	901411	.	-	0	ID=MGA_1507;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDINKIHIIETQTISNDKIKYPSISSVPGEMIIFDLIINIIVSKNEKYREKFKKTAEISLNWNFEGKL;locus_tag=LOCUS_15070;note=MGA_1507
sequence1	MetaGeneAnnotator	CDS	901517	902062	.	-	0	ID=MGA_1508;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIIDLNDKKLNSTESSILNLVNNDPEFFCSHSIQEVSKKSNVSPSTMTRVCQKLGFKSFKSIQMFVYEKSRMQGSYYKLGDDNTIEEIIHNVRGAAIYTINETLNSIENEEIELISKEIYSSKRVMIFGIEQQQISASSFVLNLSRINIMAQAVSNIHNYVQRAIFFDENDFVIFITRTG;locus_tag=LOCUS_15080;note=WP_003130139.1 MurR/RpiR family transcriptional regulator (Lactococcus) [pid:23.9%25%2C q_cov:99.4%25%2C s_cov:64.5%25%2C Eval:2.3e-09%2C partial hit],internal stop codon at [901487:901489](-)%2C[901517:901519](-),MGA_1508
sequence1	MetaGeneAnnotator	CDS	902069	902446	.	-	0	ID=MGA_1509;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNVMQAGWVNAKNLVYEGLGEEQLYKVDFRLGENLAIPFIITYSLILILSFCLITFIIFKVKQKKVDVYGTSIVLKLSTDYIRDIKKCSNIVELKQLRENHMDELKNNSKYIKKISLIKTKKKR;locus_tag=LOCUS_15090;note=MGA_1509
sequence1	MetaGeneAnnotator	CDS	902663	903085	.	-	0	ID=MGA_1510;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQIHKKYKKVNNNFKSFKDLYILSLKTFIYSPLNMFLGVFLVIFTLFIWLLFKGNNPFLFSSAIGALIVRNGIHTFHRALSNNKNSGFDKRINSTGLNSFIKPGANILANFTINFCIIVLLMCLTLLFFKEQRALFSSVN;locus_tag=LOCUS_15100;note=MGA_1510
sequence1	MetaGeneAnnotator	CDS	903811	904002	.	+	0	ID=MGA_1511;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVFTRLNKQFLITLIPIALATIKLSTTKSLLPAPVPAFLKANHMTRVIVVIIHPEKTTNKSFL;locus_tag=LOCUS_15110;note=MGA_1511
sequence1	MetaGeneAnnotator	CDS	904062	904655	.	-	0	ID=MGA_1512;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDAISQEEIKVKPDPLFKPILKKFEDNRKIFKEHYDAFLEKNVGSEHESNIVYIRNINYHLNELENVLVSLLSTAINRKNIDEVLLHTKMAIKISKKTRKRVTKLESKVKYKKSALLFFTKTEKFFLFLEEDLYKSFKSNKYIVYATELTAQLSKKELEQLSSLKKKYIQEEIRAMKFENKSIKKQQKLEKKKIKGR;locus_tag=LOCUS_15120;note=MGA_1512
sequence1	MetaGeneAnnotator	CDS	904695	904922	.	-	0	ID=MGA_1513;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIINRPRLVVLDEVSSSIGLDFKIKILKFLKEYKEKYEASFVVISPDDSTFELLCERVIVLDNGFIISDDHVSD;locus_tag=LOCUS_15130;note=MGA_1513
sequence1	MetaGeneAnnotator	CDS	905091	905267	.	-	0	ID=MGA_1514;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKINKGEGLAIIGPNQSGKSVLARLIASQIKQSGGIIQYNFNDENVMANIGFQFRQTT;locus_tag=LOCUS_15140;note=MGA_1514
sequence1	MetaGeneAnnotator	CDS	905400	905915	.	-	0	ID=MGA_1515;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGINEEKDLVHALEFVKTNFKTKEISLLGFSMGAHTVNRVAISNNIKKYNIKFAVADSPYFETTKVLKRIINTIGGTLIGNFLDKILQGVYKVYNEKYKIDIEADTITYRIPLCKNSFPVLYLHSKKDKVTDYQDSEKFYNLRKVLKVKDALHIFLTGEHIRTQVLHTVMY;locus_tag=LOCUS_15150;note=WP_011166764.1 alpha/beta fold hydrolase (Mycoplasma mycoides) [pid:29.4%25%2C q_cov:93.0%25%2C s_cov:49.5%25%2C Eval:9.1e-18%2C partial hit],internal stop codon at [906051:906053](-),MGA_1515
sequence1	MetaGeneAnnotator	CDS	906051	906302	.	-	0	ID=MGA_1516;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNLLIEKVISLINNRNRQNYDLYKNNGYINLLSLYQQAIFEQTNDQEVLNLNVKEFKKVEFKSFDSKNIVGIYHLNKKKSKK;locus_tag=LOCUS_15160;note=MGA_1516
sequence1	MetaGeneAnnotator	CDS	906587	906748	.	-	0	ID=MGA_1517;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKAYETYSNDFQKTDLEVAESNQRFSEFAETETQLLYKDFLTLTLYTKAMPTV;locus_tag=LOCUS_15170;note=MGA_1517
sequence1	MetaGeneAnnotator	CDS	907301	907558	.	-	0	ID=MGA_1518;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDASKLLQSIDARTFLSTALDRTDFVRYFSKTIDEVGQPSQMLRNTYTGYGVASNGAKDYTQYVSDSYDEIIKSNGGSVTSSDAD;locus_tag=LOCUS_15180;note=MGA_1518
sequence1	MetaGeneAnnotator	CDS	907724	907936	.	-	0	ID=MGA_1519;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYNASYYPTQANPNGKIILQKNEHYVLKDSTKINTLEFNYVDDASATKERILFESGSTTGFELKSDDLKG;locus_tag=LOCUS_15190;note=MGA_1519
sequence1	MetaGeneAnnotator	CDS	908615	908782	.	-	0	ID=MGA_1520;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSILFKKTLGLLGLGLTTTLVSSSVVSCGTSLKYLMDRAVSTDVFKSIYTSNVTS;locus_tag=LOCUS_15200;note=MGA_1520
sequence1	MetaGeneAnnotator	CDS	908852	909553	.	-	0	ID=MGA_1521;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFQDPSSSLNDRMAIEEIIAEGMENFPELYKSVEAKELYVAEYNEQNPNEKITLEQATPAIVKKHIILKLVNSVGLLPEHLSRYPHEFSGGQRQRVGIARSLAMQPKVIVADEPISALDVSIRAQVLNLFKKFQEELGITYVFVAHDLSVVRHIADRIAVIYHGQIIEIAPAEELFKNPLHPYTRALLSAIPIPEPELAKKTKLVVYDPEKEHSDYIFDLPYFKEITKDHFV;locus_tag=LOCUS_15210;note=WP_011182994.1 ATP-binding cassette domain-containing protein (Mesoplasma florum) [pid:63.0%25%2C q_cov:100.0%25%2C s_cov:38.1%25%2C Eval:1.8e-83%2C partial hit],internal stop codon at [908852:908854](-),MGA_1521
sequence1	MetaGeneAnnotator	CDS	909980	910147	.	-	0	ID=MGA_1522;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKREKFINYYNKLIYVNRNEFFEECKKQFEIMKANGVSSTDKEYKKLEYFITDF;locus_tag=LOCUS_15220;note=MGA_1522
sequence1	MetaGeneAnnotator	CDS	910238	910966	.	-	0	ID=MGA_1523;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSTNKEVLLNIRDLVIEFRVKGKKFRAVKETSFDIYKGEIFGLVGESGSGKTTIGRAIVGVQPLKDGAIYMEDNIVAGSPTRLYKLNKEISKKLENMSYKMDITTREIQARIDGLKALYENYTNNPRVLTKEDLEVQTKSSKLAYLKAIILENLKYINSIIKNEDRMIKFVDNLHSYIPEVSKELEKSILSKLKETKETIISIKENADEIYLTVQEVSNYRDEIDNVPPEKLDSVFKKLIGL;locus_tag=LOCUS_15230;note=WP_014584437.1 ATP-binding cassette domain-containing protein (Mycoplasma leachii) [pid:32.9%25%2C q_cov:95.9%25%2C s_cov:40.8%25%2C Eval:5.4e-30%2C partial hit],internal stop codon at [910190:910192](-)%2C[910238:910240](-),MGA_1523
sequence1	MetaGeneAnnotator	CDS	911061	911240	.	-	0	ID=MGA_1524;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPQLGKKGDDLFSIEGTPPSLFNEIIGDAFAPRNKFALELDYIKQPPMFKVSETHFAKT;locus_tag=LOCUS_15240;note=WP_011166384.1 ATP-binding cassette domain-containing protein (Mycoplasma mycoides) [pid:69.5%25%2C q_cov:100.0%25%2C s_cov:10.4%25%2C Eval:4.8e-19%2C partial hit],internal stop codon at [911061:911063](-)%2C[911256:911258](-),MGA_1524
sequence1	MetaGeneAnnotator	CDS	911256	911714	.	-	0	ID=MGA_1525;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTSLNPLLPVGFQITEVLRKQVGLSRSEAKAEAIELLRKVGIPNPEKRYKDIPGRYSGGMRQRVVIAIALASRPKILICDEPTTALDVTIQAQILDLIKELQEEYKFSVVFITHDLGVVAKIADRVAVMYAGQIVEVGTTKEIFEDSKHPYT;locus_tag=LOCUS_15250;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:5.1e-66%2C partial hit],internal stop codon at [911061:911063](-)%2C[911256:911258](-),MGA_1525
sequence1	MetaGeneAnnotator	CDS	911964	912572	.	-	0	ID=MGA_1526;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQSPLISKDVIKNVTKINNEKIKDLFKEIKHLYKLNPKYKENREKQELKKLRLENKIESEHNDLVLLRTKQELQDLTEELNSDLLNDNEISVIKENNKNKQSQLLEELNKQLNQLQENIGFSGNNRTANKIIKLELKIKAAEETIKIINDNSLRDELIKSKLEDILKLEIDINKVKPLNMKNRHQVSKITSMIEKFIENNVE;locus_tag=LOCUS_15260;note=MGA_1526
sequence1	MetaGeneAnnotator	CDS	912663	912860	.	-	0	ID=MGA_1527;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKENRIISVRDMEVKFQVRGNFLTAIRTVDLDVYDQEILAIVGESGSGKSVITKTFTGMLEANG;locus_tag=LOCUS_15270;note=WP_011182993.1 ATP-binding cassette domain-containing protein (Mesoplasma florum) [pid:66.1%25%2C q_cov:95.4%25%2C s_cov:11.9%25%2C Eval:7.4e-17%2C partial hit],internal stop codon at [912663:912665](-),MGA_1527
sequence1	MetaGeneAnnotator	CDS	912988	913236	.	-	0	ID=MGA_1528;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLVRNAEYNIASRVLGTPSSKIIRKNVMPKILPIVIQTSTFAIPSAIAIDSLLAYYNFGFVTNTLDQASLGSILNELLSGSD;locus_tag=LOCUS_15280;note=WP_011166383.1 ABC transporter permease (Mycoplasma mycoides) [pid:58.8%25%2C q_cov:97.6%25%2C s_cov:23.5%25%2C Eval:2.8e-19%2C partial hit],internal stop codon at [912988:912990](-)%2C[913270:913272](-)%2C[913345:913347](-)%2C[913507:913509](-)%2C[913519:913521](-),MGA_1528
sequence1	MetaGeneAnnotator	CDS	913208	913459	.	+	0	ID=MGA_1529;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLYSAFLTSIICTLITEAKAIQLVIEIPKIKTGIVVVPPNKKITISHKINDGIRVRNLVISINTKSNFEKKPQIDPNKIPNKI;locus_tag=LOCUS_15290;note=MGA_1529
sequence1	MetaGeneAnnotator	CDS	913847	914233	.	-	0	ID=MGA_1530;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLIMPMIIVNTRRFVLDEMTADYAKFALSKGLSEKYVFYVHIFRNAGIRLIKTLPEVFVLTLFGSSILVERHWSIDGMSKFILNGVANKDTFVVLGYIFVSASAGVFSSLIGDLLLATLDPRIKLTK;locus_tag=LOCUS_15300;note=WP_011182991.1 ABC transporter permease (Mesoplasma florum) [pid:52.8%25%2C q_cov:99.2%25%2C s_cov:28.6%25%2C Eval:1.2e-35%2C partial hit],internal stop codon at [914249:914251](-),MGA_1530
sequence1	MetaGeneAnnotator	CDS	914249	914551	.	-	0	ID=MGA_1531;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKASGGQVLSLVQDAFKRSIPTSFKIGSIGVLLSYLIGVPLGILAAKNKEKSADNAINGSSLLISAIPALVVISLLYKMSIYVFGANGTYEGSSFGTKI;locus_tag=LOCUS_15310;note=WP_011182991.1 ABC transporter permease (Mesoplasma florum) [pid:49.4%25%2C q_cov:87.0%25%2C s_cov:19.6%25%2C Eval:8.7e-18%2C partial hit],internal stop codon at [914249:914251](-),MGA_1531
sequence1	MetaGeneAnnotator	CDS	914570	915079	.	-	0	ID=MGA_1532;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKKANGSENANSSILELLNEISLTEEVKLTKTSHREKIRNGFRSSNSTFSEFMQRNPLFSYSLKRILYAFITLYVAVAVVFVMLRLVTTDGVYLSDVNLDKLGPDFQYGTPGYQNLLNNRMKLFGVAGPMINQMFIYLRNITPFIPKTIIVNPIVQDNGDIAGTPTVM;locus_tag=LOCUS_15320;note=WP_011166382.1 ABC transporter permease (Mycoplasma mycoides) [pid:38.2%25%2C q_cov:79.9%25%2C s_cov:31.6%25%2C Eval:4.7e-19%2C partial hit],internal stop codon at [914570:914572](-),MGA_1532
sequence1	MetaGeneAnnotator	CDS	915127	915309	.	+	0	ID=MGA_1533;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFIKVLNMRDKNKTSNFKKLKDLHEQEKFAHKQQIQDKVNEISKDPIGTQTRYMDAKKLK;locus_tag=LOCUS_15330;note=MGA_1533
sequence1	MetaGeneAnnotator	CDS	915810	915965	.	-	0	ID=MGA_1534;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHQLLTTKKFNKPNAFFAFSTLSFKNMFFKDNANLIIKTAMYNISRQNMAE;locus_tag=LOCUS_15340;note=MGA_1534
sequence1	MetaGeneAnnotator	CDS	916286	917455	.	-	0	ID=MGA_1535;product=cell division protein FtsZ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166766.1;translation=MSTKLDLNQNAKIKVIGVGGGGCNAVNRMVDDNVQGVEFIVANTDAQVLAASSATTKIVLGQEVSKGLGAGANPEIGKKAAIESEEEIRRSLKGSDLIFVAAGMGGGTGTGAAPEIARIAMETGALVIAIVTKPFRFEGRLRNSYAVQGLNELRKFVDSIIIISNDRLLEIIGGIPVKDSFREADNILKQGVQTITDLIAVPAVINLDFADVRTVMKGKGNALFGIGIGSGEDKAIEAANKAITSSLLETSIRGAKDAIINVTGGKTVSLNDAYDAVDIVQQASGEDVNIIFGIAINEHLDDDLIVTVIATGFDDDYKAPNIDNKKPSLSNEQYASMQQELYSNYEPEPQPVETAYEQRTSFMTNHDKRPDFVKQTEEERRQAQERVGQ;locus_tag=LOCUS_15350;gene=ftsZ;note=WP_011166766.1 cell division protein FtsZ (Mycoplasma mycoides) [pid:56.8%25%2C q_cov:94.3%25%2C s_cov:96.6%25%2C Eval:1.6e-113],MGA_1535
sequence1	MetaGeneAnnotator	CDS	917473	917877	.	-	0	ID=MGA_1536;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMRHSHLTNKNLREVKTSTETYENPNMLALAQMQQAQQVLGQKAFQQQLRAQHAQAQVQQAQQAQLALKQQLRAQQFRTEQLRAQQGDFVQPLMKTQLMQQNNQIPQSFVDQQNYQNNENYLKNGIINTQRNKY;locus_tag=LOCUS_15360;note=MGA_1536
sequence1	MetaGeneAnnotator	CDS	917896	918246	.	-	0	ID=MGA_1537;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSKFDIANKYIFKLLDFSSNTLDNTVMYRKYISAEKRSYELKAIDIKYMLLEEINGVIDKTDLLISRELGSIKNFKIYHTGKSTEIAGFEKLLLRSNYKNISEIYYSLITGASEI;locus_tag=LOCUS_15370;note=MGA_1537
sequence1	MetaGeneAnnotator	CDS	918170	918424	.	+	0	ID=MGA_1538;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSSVFDEKSKSLNIYLFAMSNLELIFLAKFSMISFKPNLIESFLTRVSREKYPISILSQSQFIKANVSLKFNPSLHCFANENN;locus_tag=LOCUS_15380;note=MGA_1538
sequence1	MetaGeneAnnotator	CDS	918352	918804	.	-	0	ID=MGA_1539;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINRYESIFKEKIRRASIVYPTGTLQIKDANPSIFIDGVDKIVREEHIKSLYKDAKRVVYEDNLVVTNIKPYEFKLNGIQSFAKPPINSKANMVSMNAKVYTAEKHVVQSFEEVLKVLRIERLSATSQLFSLAKQCSDGLNFRETFALIN;locus_tag=LOCUS_15390;note=MGA_1539
sequence1	MetaGeneAnnotator	CDS	918862	918990	.	-	0	ID=MGA_1540;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQNETYAVIEITKKYIKFAVGKYKQNIGLKVVFKEREKSKSN;locus_tag=LOCUS_15400;note=MGA_1540
sequence1	MetaGeneAnnotator	CDS	919015	919389	.	-	0	ID=MGA_1541;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVDIIKDCLPQKVLKQKKHPAKKVFQALRIYVNNELEVLKRSLSNSLELLNTGGVIVVISFHSLEEKIIKDIFKSKTTSKEDKFLSKLPIFIENKKDYELVVKRPVVAGQDELEQNRRAHSAKL;locus_tag=LOCUS_15410;note=WP_011166769.1 16S rRNA (cytosine(1402)-N(4))-methyltransferase RsmH (Mycoplasma mycoides) [pid:58.1%25%2C q_cov:100.0%25%2C s_cov:40.3%25%2C Eval:2.3e-34%2C partial hit],internal stop codon at [919015:919017](-)%2C[919450:919452](-),MGA_1541
sequence1	MetaGeneAnnotator	CDS	919450	919935	.	-	0	ID=MGA_1542;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAQEHTSVLLNESIDLLNIKNNGIYVDCTLGRAGHSAEILKRIDSGHLYAIDQDQEAIAISRKKLETISSNFTILEGNFANIKVLLSLNNIKKVDGILYDLGVSSPQFDKADRGFSYRFDSELDMRMDQKNNKITAKEIINTFNEKQLADIFYHYGDEKFS;locus_tag=LOCUS_15420;note=WP_011183293.1 16S rRNA (cytosine(1402)-N(4))-methyltransferase RsmH (Mesoplasma florum) [pid:62.3%25%2C q_cov:98.8%25%2C s_cov:51.6%25%2C Eval:8.9e-54%2C partial hit],internal stop codon at [919450:919452](-),MGA_1542
sequence1	MetaGeneAnnotator	CDS	920212	920379	.	-	0	ID=MGA_1543;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGDFVLFGTFEHNLDDKFRLTIPSKLRNKLGELVYVTRSIDGLCLEIRTPENFEE;locus_tag=LOCUS_15430;note=WP_011183294.1 division/cell wall cluster transcriptional repressor MraZ (Mesoplasma florum) [pid:59.6%25%2C q_cov:92.7%25%2C s_cov:33.8%25%2C Eval:1.1e-09%2C partial hit],internal stop codon at [920020:920022](-)%2C[920032:920034](-)%2C[920212:920214](-),MGA_1543
sequence1	MetaGeneAnnotator	CDS	920488	920814	.	-	0	ID=MGA_1544;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKNINEISKKIIPLSALNSLNENGYNFFINEVDERTFYEIVEKSDPITSINLLRSFYLYYKIYLNKYLIKPLKLSNSEYLDEVITREINLKQKLDRIIKSLERKIIH;locus_tag=LOCUS_15440;note=MGA_1544
sequence1	MetaGeneAnnotator	CDS	920906	921082	.	-	0	ID=MGA_1545;product=50S ribosomal protein L32;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183295.1;translation=MAVPFRKTSKAAKNKRRSHLALVSSAIISCPNCGSMIKPHRVCRECGFYKNKEVKKVD;locus_tag=LOCUS_15450;gene=rpmF;note=WP_011183295.1 50S ribosomal protein L32 (Entomoplasmataceae) [pid:86.0%25%2C q_cov:98.3%25%2C s_cov:96.6%25%2C Eval:1.4e-23],MGA_1545
sequence1	MetaGeneAnnotator	CDS	921356	921601	.	-	0	ID=MGA_1546;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKKEIELKGHVDLDREFPINTNLQLNHDLIKSIDKVYIKGILNYQDAMKSVLVNAKITASLTAIDARDGAQITLENQIYD;locus_tag=LOCUS_15460;note=MGA_1546
sequence1	MetaGeneAnnotator	CDS	921649	922407	.	-	0	ID=MGA_1547;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNIQNPINLMSPLSKLRETFRLSLSRSIIETASFNYSKGNKNVKLYEFADIYNMNDLRQRHLSVLISGDILNQKGYDISIKASYAYIKGICDSIIQSYNIDLTDVSFELNEDIINEIHPYINAKISLKGKTLGFIYKLNPRFEQSQKLDATFVLELNISELQNTKNSVIRAQEISKFQKTTRDVSFVLNSSDKYSEIITKITKKVDHLIKVELIDIYQDNKMKENNSKSVSVSFEFNSVANQLTDQEVQKE;locus_tag=LOCUS_15470;note=WP_011183297.1 phenylalanine--tRNA ligase subunit beta (Mesoplasma florum) [pid:43.7%25%2C q_cov:100.0%25%2C s_cov:31.8%25%2C Eval:2.6e-59%2C partial hit],internal stop codon at [921649:921651](-)%2C[922411:922413](-),MGA_1547
sequence1	MetaGeneAnnotator	CDS	922411	922734	.	-	0	ID=MGA_1548;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGIKLTVKEIKALFKVLDFEIKDNKDELLFTVDQFRTDIVHSADIVEEITRIYGYNNVTSIAPKILSDNKTKKLDLRLQKQSENYLLGLGFTNIKTYSLLSSEDVKK;locus_tag=LOCUS_15480;note=WP_011183297.1 phenylalanine--tRNA ligase subunit beta (Mesoplasma florum) [pid:49.1%25%2C q_cov:99.1%25%2C s_cov:13.4%25%2C Eval:4.5e-22%2C partial hit],internal stop codon at [922411:922413](-)%2C[922843:922845](-),MGA_1548
sequence1	MetaGeneAnnotator	CDS	922843	923151	.	-	0	ID=MGA_1549;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLDPKKLNSQLEIKNSKNKEHDVNLQLICDKKVISTLGVETNLDYLPTVDSKEILVVYLSLDPIFMRKQQKEFNTSTIDLQRYMKPVSSKLYTLAQNRVMY;locus_tag=LOCUS_15490;note=MGA_1549
sequence1	MetaGeneAnnotator	CDS	923236	923487	.	-	0	ID=MGA_1550;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNRSDALGAMQLAKELANYFDKNIDDLSKEYMLKINKLKAPVSIKIQKEIDKFVRSAVVQMVNVKEVISIDEKEYKIYSNQDL;locus_tag=LOCUS_15500;note=MGA_1550
sequence1	MetaGeneAnnotator	CDS	924024	925070	.	-	0	ID=MGA_1551;product=phenylalanine--tRNA ligase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183298.1;translation=MLKKIDEILNSFNKQFNKIKTKDELELLKKEFAGKESPLIDILKKLKSASPEERKEAGMKANEIKVIISDKLNNLSEKFENQELKKILQNEKIDLSLTGVNLKVGTKHPLNLVIDEVSSIFTELGYEMIDGTEFETDEYCFQKLNMPIGHPARDMQDTFYIDKHTVLRTHATNMTARMLTQASKTGNINMAAVSYGNVYRRDDDDATHSHQFMQMDVFAIGEKISFANLKWVLEYMCKRLFSEDTIIRMRPSFFPFTEPSAEVDVRCINCNGEGCPICKYTGFIEILGSGMLAPEVLESNGLDPNKVTGLAFGVGIERLAMLKYGLKNIRDLYENDIRFLDQFKFFGD;locus_tag=LOCUS_15510;gene=pheS;EC_number=6.1.1.20;note=WP_011183298.1 phenylalanine--tRNA ligase subunit alpha (Mesoplasma florum) [pid:57.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.9e-121],MGA_1551
sequence1	MetaGeneAnnotator	CDS	925196	925705	.	-	0	ID=MGA_1552;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVEQISKRFKKKILQINLEDINFKWEFEDFFQILNINNFITMMQHQLKISYNFTQEQDIREKIIKIREFLTQMVDEIKDYKINLNQITILDNLMHMIYMEIKEIINEGLIKYLFFEKIHFTVEYNQVIYDTDDYFKLKLMEFKENVNNHFEIFIKSFKNKQINDNFVF;locus_tag=LOCUS_15520;note=MGA_1552
sequence1	Barrnap:0.8	rRNA	925794	925874	.	-	.	ID=Barrnap_1;product=5S ribosomal RNA;inference=COORDINATES:profile:Barrnap:0.8;note=aligned only 68 percent of the 5S ribosomal RNA,Barrnap_1;locus_tag=LOCUS_r00010
sequence1	Barrnap:0.8	rRNA	925998	928893	.	-	.	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	929204	930720	.	-	.	ID=Barrnap_3;product=16S ribosomal RNA;inference=COORDINATES:profile:Barrnap:0.8;locus_tag=LOCUS_r00030;note=Barrnap_3
sequence1	MetaGeneAnnotator	CDS	931095	931277	.	-	0	ID=MGA_1553;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNQERRIPQRAAKVAPLNPKANTLNGLKKSKSKSIEVDLDKILDPVNEQSSVDLRPTID;locus_tag=LOCUS_15530;note=MGA_1553
sequence1	MetaGeneAnnotator	CDS	931284	932300	.	-	0	ID=MGA_1554;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFVVFSFEEEFAIFNALQILSLLSIGSFFAVGIVNFITKPNKITPIIYTIAAVFISAINLVYLSVLMSKIATPITIINSENIITSVISNAILLPLASFCALSSIITMFMFKIQTVNQSKPKQNSSYSQISSPANQGQPMMVKENTAAIKEFNSDFTSTPNEKTYNMVDKLARLKEDISSNKFRDSFTETPIDEVKVKAKPQQEELKVEQEVPVENIYPIEKENIQVQNDEPIIAQNERFIEEIEEPNDSFNNLLKRPNQKIAPINNLPKVEDLPPIGEPKDPYKQTIVPRRSAKREGEFNNPIGNIAKPLYVERKVRRTPKLDENYQGKVFLGDSDRI;locus_tag=LOCUS_15540;note=MGA_1554
sequence1	MetaGeneAnnotator	CDS	932767	932907	.	+	0	ID=MGA_1555;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MADKKSLEILKSENDFSNSISQSLSIKDVIKKKYDLIYFTGGHGVM;locus_tag=LOCUS_15550;note=MGA_1555
sequence1	MetaGeneAnnotator	CDS	933346	933624	.	-	0	ID=MGA_1556;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPIIRIDSIEEMIEISNNSQFGLQASIFCQDISKAIQTAKKIKTGTVNINSKPSRGPDSFPFLGIKDSGEGVQGIRESLLSMTRYMGLVINY;locus_tag=LOCUS_15560;note=WP_011166693.1 NADP-dependent glyceraldehyde-3-phosphate dehydrogenase (Mycoplasma mycoides) [pid:58.2%25%2C q_cov:98.9%25%2C s_cov:19.3%25%2C Eval:1.1e-26%2C partial hit],internal stop codon at [933646:933648](-)%2C[933691:933693](-),MGA_1556
sequence1	MetaGeneAnnotator	CDS	933691	934383	.	-	0	ID=MGA_1557;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGAQNKIGIFSRVAKGVVLAISPFNYPFNLALAKIIPALVMGNTVVFKPATAGSLVGTFLSKLVIESNLPKGIFNIVTGRGREIGDIITSNPEIDMISFTGSVGIGNQIRKNGSTTDLVLELGGKDPALVLDDLNLDKYCDEIINGAFGYSGQRCTAVKRVLVSNKIADKLVPLLKAKLESLSVGMPKDNAFITPVIDEKSADFIQTLIDDAKEKGAKIVTGDKRKKNLM;locus_tag=LOCUS_15570;note=WP_011166693.1 NADP-dependent glyceraldehyde-3-phosphate dehydrogenase (Mycoplasma mycoides) [pid:67.7%25%2C q_cov:99.6%25%2C s_cov:48.6%25%2C Eval:2.2e-86%2C partial hit],internal stop codon at [933646:933648](-)%2C[933691:933693](-)%2C[934597:934599](-),MGA_1557
sequence1	MetaGeneAnnotator	CDS	934781	935515	.	-	0	ID=MGA_1558;product=RNA methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183155.1;translation=MKITSVSNSLIEEVLSYKESKIQKEQKKYIIEGLKMVDLALQKEVVELLLVESKLIDKYRNFNNVIEISDNVSKKLSDLKTNQGIYAVCRIQKNQELKGNYLILDGIQDPGNLGTLIRSAFAFDFKNIICSNDCVSFYNPKVLRATQSNHFNLNLLNEDLNNFIDNLKQKNIIILGTLLKQKSDLLENIKNKRVALILGNEGQGISKEVSQRIDKNIVIKTNEELDSLNVGVAGSILMNIIYSL;locus_tag=LOCUS_15580;note=WP_011183155.1 RNA methyltransferase (Mesoplasma florum) [pid:44.7%25%2C q_cov:97.1%25%2C s_cov:97.2%25%2C Eval:3.6e-50],MGA_1558
sequence1	MetaGeneAnnotator	CDS	935517	935714	.	-	0	ID=MGA_1559;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEENKEKRRRGEKIPALSTIQEKLLQPPRKASLVYGYPVANPNYKGKDYVKPENKLYQIGFAYSE;locus_tag=LOCUS_15590;note=MGA_1559
sequence1	MetaGeneAnnotator	CDS	936045	936632	.	-	0	ID=MGA_1560;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANKDFKNIYNYQPLDPHDPKMPSLTKTPSSYEKTQTLDLNEHKSTKEPTQELVFESDKPKKKSSEVIIEGLEDSKKSASSIISKLKKQNEITQTTELEPELVTNDFVFPDPKSELNILNSFAHKRMTSYKELNETKARIKMSRGEVRIKLTQEEIQLVLNKFKAKVVKVTQKEVVLKNNKYGFEIYRNGSDKRY;locus_tag=LOCUS_15600;note=MGA_1560
sequence1	MetaGeneAnnotator	CDS	936845	937165	.	-	0	ID=MGA_1561;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTKENLIYLKEKQILLDKYIIDTKKIVVDKKIIKKKIIAFLVEVSEFINEYREFKYWSNKPASERSVILEELIDCLHFIISLGIDVNFDFLKFNNKIIKTSNIDT;locus_tag=LOCUS_15610;note=WP_011166691.1 dUTP diphosphatase (Mycoplasma mycoides) [pid:43.4%25%2C q_cov:99.1%25%2C s_cov:63.5%25%2C Eval:7.4e-17%2C partial hit],internal stop codon at [936845:936847](-),MGA_1561
sequence1	MetaGeneAnnotator	CDS	937706	938344	.	-	0	ID=MGA_1562;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVAQELRNKIDILLVVGIGGSYLGARAADEMIRGLYTKDKVELIYIGNTISSTYTQQVVDYIKDKEFGIVNISKSGTTTEPGIAFRVFEKLLVDLKGKQNAKERIVAVTDKAKGALKQLATAEGYETFTIPDDIGGRFSVFTPVGIFPLLVAGVNVDDIFKGAKKAMQDTKNINNEAYKYAIARYILHTQKGYKAETLVGYELQMQTFTE;locus_tag=LOCUS_15620;note=WP_011166689.1 glucose-6-phosphate isomerase (Mycoplasma mycoides) [pid:66.8%25%2C q_cov:100.0%25%2C s_cov:49.9%25%2C Eval:6.7e-76%2C partial hit],internal stop codon at [937703:937705](-)%2C[937706:937708](-)%2C[938378:938380](-)%2C[938387:938389](-),MGA_1562
sequence1	MetaGeneAnnotator	CDS	938387	938515	.	-	0	ID=MGA_1563;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKVNLNESKIKNDINKFRETKIKEVHDMIENKTGEGCEFLG;locus_tag=LOCUS_15630;note=MGA_1563
sequence1	MetaGeneAnnotator	CDS	938538	938864	.	-	0	ID=MGA_1564;product=S1 domain-containing post-transcriptional regulator GSP13;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003722395.1;translation=MLNKGQKVEAKITAIVNYGAFCEIQDENEIVKGLIHISEISDFFVKNIDEFLVINESYEVEVIEYLEDKKQVKLSYKANRPQLLKSSETKIAETKSGFDNLKNSVESK;locus_tag=LOCUS_15640;gene=yugI;note=WP_003722395.1 S1 domain-containing post-transcriptional regulator GSP13 (Listeria monocytogenes) [pid:32.1%25%2C q_cov:94.4%25%2C s_cov:88.0%25%2C Eval:4.6e-11],MGA_1564
sequence1	MetaGeneAnnotator	CDS	938953	939192	.	+	0	ID=MGA_1565;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKNNLEEKVKATLEQLRMYITQDGGDMEFVAIKDRLVYIRLKGNCVGCGLTELTFKEGVEGVLIEEFPYDIDGVELVM;locus_tag=LOCUS_15650;note=MGA_1565
sequence1	MetaGeneAnnotator	CDS	939225	939434	.	+	0	ID=MGA_1566;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFLTYGMEITNTILTAISTVTVFAASLLIPFLVKKYNDKKQKLDIAEKAILDAFDKYFSDEYSKNDFE;locus_tag=LOCUS_15660;note=MGA_1566
sequence1	MetaGeneAnnotator	CDS	939722	939952	.	-	0	ID=MGA_1567;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSMLLKLNIETNETLPLIPYPQIDPTIVGYPIFIAGTLAGNFGTVFISIFFNKMSNIKYVAIQKNLSANKTNKNIN;locus_tag=LOCUS_15670;note=MGA_1567
sequence1	MetaGeneAnnotator	CDS	940506	941015	.	-	0	ID=MGA_1568;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYPSCILKGDRAQGDTISIAVAKKGVYQDAGSKMIHLGKETKSKIVSKSITFQGGTANYRGLAYIGPEAINSKARVECDTLILDNQSHSDTIPQNKVHNNQSQIEHEATVSKVSEEQLFYLMSRGLDEQEALEIIVMGFLEPFTKELPLEYAVELNQLIKMDMEGSVG;locus_tag=LOCUS_15680;note=WP_001118827.1 Fe-S cluster assembly protein SufB (Bacillus) [pid:66.3%25%2C q_cov:100.0%25%2C s_cov:36.3%25%2C Eval:5.0e-61%2C partial hit],internal stop codon at [941046:941048](-)%2C[941112:941114](-),MGA_1568
sequence1	MetaGeneAnnotator	CDS	941364	941510	.	-	0	ID=MGA_1569;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEELVKQGVLFTDCDTALRKYPEIFKKYFGQLVKNDDNKYASLNAAV;locus_tag=LOCUS_15690;note=WP_003640267.1 Fe-S cluster assembly protein SufB (Lactobacillaceae) [pid:62.5%25%2C q_cov:100.0%25%2C s_cov:10.3%25%2C Eval:1.6e-11%2C partial hit],internal stop codon at [941112:941114](-)%2C[941364:941366](-)%2C[941535:941537](-)%2C[941628:941630](-)%2C[941688:941690](-)%2C[941766:941768](-),MGA_1569
sequence1	MetaGeneAnnotator	CDS	941766	941918	.	-	0	ID=MGA_1570;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLKQEEEIKQISDYKYGFNEGEVSTYKVQKGLNESVVREISKHKNEPQ;locus_tag=LOCUS_15700;note=WP_001074405.1 Fe-S cluster assembly protein SufB (Staphylococcus) [pid:52.6%25%2C q_cov:76.0%25%2C s_cov:8.2%25%2C Eval:9.2e-07%2C partial hit],internal stop codon at [941535:941537](-)%2C[941628:941630](-)%2C[941688:941690](-)%2C[941766:941768](-),MGA_1570
sequence1	MetaGeneAnnotator	CDS	942007	942357	.	-	0	ID=MGA_1571;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFDKNDKIQLRQIIMEHYTQPDFKGLIKNDKSIIKFQDSPTCADEINVQLLIEGEKIVEARFEGNACAISTASTDILCSKLLNLTRQDAQKQLVNYFNMIAGNDYDEDILDELIAF;locus_tag=LOCUS_15710;note=WP_002356768.1 SUF system NifU family Fe-S cluster assembly protein (Enterococcus) [pid:30.6%25%2C q_cov:84.5%25%2C s_cov:62.6%25%2C Eval:2.5e-09%2C partial hit],MGA_1571
sequence1	MetaGeneAnnotator	CDS	942391	942771	.	-	0	ID=MGA_1572;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSAIYAFNICLDVLEDLKIDKMIAYEEELKKYFRSKVKKIDHSKFEFYNLENDQPIVLFNLKNVNSQDFGAFLNKKYNISVRVGKHCSRLANELFKVSSTIRASFSIYNTKEDIDKFIEALKDCDN;locus_tag=LOCUS_15720;note=WP_011166685.1 aminotransferase class V-fold PLP-dependent enzyme (Mycoplasma mycoides) [pid:42.1%25%2C q_cov:99.2%25%2C s_cov:30.6%25%2C Eval:9.5e-25%2C partial hit],internal stop codon at [942898:942900](-),MGA_1572
sequence1	MetaGeneAnnotator	CDS	942898	943587	.	-	0	ID=MGA_1573;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFKDNFSYFKNNSQEIYFDSAATSIKFDKVIQAQSDYDLKIGANTHNNLFNNAYKANEMLNDTRIKIAKFIGIEDKNEIIFTSGTTHSLNQLAFGMRNYLKANDEILVTKLEHSSNLLPWMVLAQEEKLKLDYLELNENFLIDVSKIKNKVTKKTKVISFAMNSNTIAGLNDVKKIVKEIRKLNKNIIIVLDLAQSIKQNKISIKDLDVDCVAFSAHKIYGPFGLGIL;locus_tag=LOCUS_15730;note=WP_011166685.1 aminotransferase class V-fold PLP-dependent enzyme (Mycoplasma mycoides) [pid:47.8%25%2C q_cov:98.7%25%2C s_cov:54.9%25%2C Eval:6.8e-56%2C partial hit],internal stop codon at [942898:942900](-),MGA_1573
sequence1	MetaGeneAnnotator	CDS	943587	944357	.	-	0	ID=MGA_1574;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVNLKLNESYIDFRNKLPKTFNFEDNKSKIILLENTFGTINLNIKENIEINIIVLFLPSKEKSQKDFNLNFNLSKNSSLNLKISNIANYDCNDNFTINLNEENTAVEFYNATIINKNFKKNSIINSVHKARNSYSNIRTYEVLKDTSKGFIRCISDIKKGSNQAEAHQELRLLVLDKKAKADSDPVLLIDENDIVASHANAIGMLDPDQIFYLLSRGLNETQAQELIINGYFEPVFQEIEDEQLLNYLKQQLKGMI;locus_tag=LOCUS_15740;note=WP_010989989.1 Fe-S cluster assembly protein SufD (Listeria) [pid:33.3%25%2C q_cov:64.5%25%2C s_cov:37.9%25%2C Eval:2.6e-25%2C partial hit],MGA_1574
sequence1	MetaGeneAnnotator	CDS	944378	945100	.	-	0	ID=MGA_1575;product=Fe-S cluster assembly ATPase SufC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001831944.1;translation=MHKLEIKELYVSIEDKEILKGINLTVNSGEIHALMGPNGNGKSTLLMAIMGHPKYEITSGDILVDGKSILEMDVNERSKAGIFLAMQNPQTIPGVSNLEFLKYIVNAHSDEKKKLQEIFKDIKQGAKELDFDLNMLKRFVNDGFSGGEKKKNEILQLKMLNPIFSLIDEIDSGLDVDALEVVSKNLNKVDLSRNAMVIVSHYDRFFKKVKPTHAHVIIEGKIIKSGGKEIVEKINKEGYT;locus_tag=LOCUS_15750;gene=sufC;note=WP_001831944.1 Fe-S cluster assembly ATPase SufC (Staphylococcus) [pid:53.8%25%2C q_cov:98.3%25%2C s_cov:94.1%25%2C Eval:2.8e-71],MGA_1575
sequence1	MetaGeneAnnotator	CDS	945262	945435	.	+	0	ID=MGA_1576;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLTLLGSVSLTATTATMAVACGTNYDVKDDGNSVLIQFLQSIDGKAKITSTDIL;locus_tag=LOCUS_15760;note=MGA_1576
sequence1	MetaGeneAnnotator	CDS	945709	945876	.	+	0	ID=MGA_1577;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLVEKYSVYQDDVKSMNKDFLENKYKADILLTDSNNNASKTLLDVLINTDQTGVT;locus_tag=LOCUS_15770;note=MGA_1577
sequence1	MetaGeneAnnotator	CDS	945895	946032	.	+	0	ID=MGA_1578;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYNALKKVVEENTSNDAAIASYLKSDLDQIAQINNSLTDVSKD;locus_tag=LOCUS_15780;note=MGA_1578
sequence1	MetaGeneAnnotator	CDS	946045	946401	.	+	0	ID=MGA_1579;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHSESTDAELVAAAKEAIKVDVQEIKNDTPVSINNFTISDTNNSRAGFLSNSQKFFLDRFYNTQAPLAISEVVIPFSENGSFDDGVTVADFKSLDGNDQVNTEELLTQISSDNETGDT;locus_tag=LOCUS_15790;note=MGA_1579
sequence1	MetaGeneAnnotator	CDS	946411	946998	.	+	0	ID=MGA_1580;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVEGKTDKHPKATVKNYDKLMTLSNSADFTQDMRAVVYDFILGENKNGKPYSKGDLESLINEISRNEKAEKFYVYDEDKGRVYYVDSTGLHIVQIDGYKYFKDSKGAPKEGLRQEGIKESKINEHTLNELNEFKKYNALQDNEKVAALQTNKSEAYDNLNKTIVNPYLHYLTNSSMLKGIAGSASSFDVMSEVKS;locus_tag=LOCUS_15800;note=MGA_1580
sequence1	MetaGeneAnnotator	CDS	947041	947199	.	+	0	ID=MGA_1581;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTSVFDYFKTISKVKDDKKDSFKQEEFIDNYISFNVSEEKSQEEEVIKKTQS;locus_tag=LOCUS_15810;note=MGA_1581
sequence1	MetaGeneAnnotator	CDS	947532	947966	.	+	0	ID=MGA_1582;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRLLGILSAVSLTVSTPSLVVACGTKERITSPKLNKELAKKLLVQISGNKDLANIDFGSLFTDAQIETVIVNMVNELLSLQYSFDSTNNMFRNLDFKEFYTSDKETGIEEAFKTKYSLESRTIAENKLFEDYTKSIGTTRLDY;locus_tag=LOCUS_15820;note=MGA_1582
sequence1	MetaGeneAnnotator	CDS	948270	948473	.	+	0	ID=MGA_1583;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYLRFQDYFESKLLEDINDNLLTNSYLKSTMFDTKTFGDNQKAPFINPSSAMFSKTQTLNETSINEY;locus_tag=LOCUS_15830;note=MGA_1583
sequence1	MetaGeneAnnotator	CDS	948389	948637	.	-	0	ID=MGA_1584;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIPTISLIDLPFIKAPLLIFNRSFLSLITLFMLVIASALVISNFKVQTILTFDFQYSLIEVSFNVCVFENIAEDGFIKGAF;locus_tag=LOCUS_15840;note=MGA_1584
sequence1	MetaGeneAnnotator	CDS	948894	949052	.	+	0	ID=MGA_1585;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIELLGGSGTVDGSNEDANEDPTYKIVGKGKDEESKIKFSNTIGNDSIYKER;locus_tag=LOCUS_15850;note=MGA_1585
sequence1	MetaGeneAnnotator	CDS	949360	949761	.	+	0	ID=MGA_1586;product=HIT family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183142.1;translation=MDCIFCKIINKEMESKVFYENEHTLAFLDIFPNSDGHSLVIPKKHFENYEQTDDFYLQEVAKTKKIVAKMLREKLNAKGMNYVSNQGSEAFQMVFHYHEHIIPKFVKEQGYGFKINNKPEYLSDIDKIYKKLK;locus_tag=LOCUS_15860;note=WP_011183142.1 HIT family protein (Mesoplasma florum) [pid:57.5%25%2C q_cov:93.2%25%2C s_cov:94.1%25%2C Eval:3.0e-34],MGA_1586
sequence1	MetaGeneAnnotator	CDS	950220	950447	.	-	0	ID=MGA_1587;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVRGEYPRYSKRFFKENNIEFTIAEGDMELLKNNPIDFISFSYYQTHTTSVTENVGQSQGNLIDGGINPYLKQTE;locus_tag=LOCUS_15870;note=WP_011102204.1 6-phospho-beta-glucosidase (Lactiplantibacillus) [pid:54.8%25%2C q_cov:97.3%25%2C s_cov:15.0%25%2C Eval:2.0e-17%2C partial hit],internal stop codon at [949995:949997](-)%2C[950169:950171](-)%2C[950214:950216](-)%2C[950220:950222](-)%2C[950463:950465](-)%2C[950736:950738](-),MGA_1587
sequence1	MetaGeneAnnotator	CDS	950463	950705	.	-	0	ID=MGA_1588;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHTHIGLGFFSEKTNNHMDIIRKSFQGLHHLFIVQAEIIKFAKKYPDIKVGCMVSDMTTYSYDCNPINVLNNLKQEQIRK;locus_tag=LOCUS_15880;note=WP_011182906.1 glycoside hydrolase family 1 protein (Mesoplasma florum) [pid:54.7%25%2C q_cov:93.8%25%2C s_cov:15.4%25%2C Eval:2.1e-19%2C partial hit],internal stop codon at [950169:950171](-)%2C[950214:950216](-)%2C[950220:950222](-)%2C[950463:950465](-)%2C[950736:950738](-)%2C[950979:950981](-),MGA_1588
sequence1	MetaGeneAnnotator	CDS	950736	950885	.	-	0	ID=MGA_1589;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIMVTLSHFDFPYPILEKYNGLLNRKVIEMFVKYAKTLIERFSKYVKY;locus_tag=LOCUS_15890;note=WP_011182909.1 glycoside hydrolase family 1 protein (Mesoplasma florum) [pid:57.1%25%2C q_cov:100.0%25%2C s_cov:10.1%25%2C Eval:7.3e-12%2C partial hit],internal stop codon at [950463:950465](-)%2C[950736:950738](-)%2C[950979:950981](-),MGA_1589
sequence1	MetaGeneAnnotator	CDS	950979	951287	.	-	0	ID=MGA_1590;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFEDKDFLWGAASSAAQIEGAYDIDGKSLTVADLIPYIKLKNKKDLSEIRSLGKEDFLDGLNPNSTKTYPKRLGNDFYNRYKEDIKLMKDAGMNIYRLSVS;locus_tag=LOCUS_15900;note=WP_011182909.1 glycoside hydrolase family 1 protein (Mesoplasma florum) [pid:54.2%25%2C q_cov:94.1%25%2C s_cov:19.8%25%2C Eval:8.0e-27%2C partial hit],internal stop codon at [950736:950738](-)%2C[950979:950981](-)%2C[951326:951328](-)%2C[951449:951451](-),MGA_1590
sequence1	MetaGeneAnnotator	CDS	951449	951601	.	-	0	ID=MGA_1591;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITENGIGARDVLTKDGKIHDTYRIEYYQKHISKMLEAINEGVDIIGYMP;locus_tag=LOCUS_15910;note=WP_011182908.1 glycoside hydrolase family 1 protein (Mesoplasma florum) [pid:76.0%25%2C q_cov:100.0%25%2C s_cov:10.8%25%2C Eval:2.2e-16%2C partial hit],internal stop codon at [951326:951328](-)%2C[951449:951451](-)%2C[951668:951670](-),MGA_1591
sequence1	MetaGeneAnnotator	CDS	951668	951853	.	-	0	ID=MGA_1592;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEDIKRAKPDFIAFNYYSSMTVEMTNEETNIKLAQDQQSGHTIPNFAAAVKNTNLEKTQFG;locus_tag=LOCUS_15920;note=WP_011182908.1 glycoside hydrolase family 1 protein (Mesoplasma florum) [pid:58.6%25%2C q_cov:95.1%25%2C s_cov:12.5%25%2C Eval:3.0e-13%2C partial hit],internal stop codon at [951449:951451](-)%2C[951668:951670](-)%2C[951950:951952](-)%2C[952121:952123](-),MGA_1592
sequence1	MetaGeneAnnotator	CDS	952205	952432	.	-	0	ID=MGA_1593;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNLKGDVNEQGIKFYSDLIDELIKYKIEPVVTIYHFDAPNFIFEDGKFTDKRFIQLFENYCKVLFEAYGSKVKY;locus_tag=LOCUS_15930;note=WP_011182908.1 glycoside hydrolase family 1 protein (Mesoplasma florum) [pid:56.0%25%2C q_cov:100.0%25%2C s_cov:16.2%25%2C Eval:7.2e-20%2C partial hit],internal stop codon at [951950:951952](-)%2C[952121:952123](-)%2C[952205:952207](-)%2C[952442:952444](-)%2C[952505:952507](-)%2C[952652:952654](-),MGA_1593
sequence1	MetaGeneAnnotator	CDS	952674	953615	.	-	0	ID=MGA_1594;product=ROK family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182910.1;translation=MRRYTFDIGGMGIKFILFDNQKKIDSQIIKFEQNERMRNTISFQIELITVIEEIKKILNLEKDNFELAILIPGIVDSVNKQVLSDSAICNVNLDLPKIFSQYKNCKKFIIENDARAALIGEYYYRNDSKIKTQIHLTIGTALGVAMIINNKIYKGNTLKAGEIGKGFFSLSIEENLPIVAYCGVGAVLFKYKMATKAEEFIDGKKAFSLYEQKDPIMLKLFEELVTGLTKLIINLDFILDYDLLTLGGGISNNEKFVNLIKAKLNELENFNYEGRILYQNLDAKNKVEVAKLKNEAACYGGMYILENGDKIYE;locus_tag=LOCUS_15940;note=WP_011182910.1 ROK family protein (Mesoplasma florum) [pid:41.8%25%2C q_cov:97.8%25%2C s_cov:99.3%25%2C Eval:7.7e-65],MGA_1594
sequence1	MetaGeneAnnotator	CDS	953618	954166	.	-	0	ID=MGA_1595;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLVKLQDGQSSLEFKTEVYKINKMLNSMNEKMIKEYEIKIQNLVLVRTKIQMLNSKLEKAKERILLKGKKLMNENKIEKANKLISKYKILIEKYDVSDFEKKLLLIEKEIDFKTLDLLISNNLNEVSEVLNKYKQKIGENKIEQVKNNYNNALNALRINYELDVQNDNILNFEKEFKMLRG;locus_tag=LOCUS_15950;note=WP_011183516.1 glucose PTS transporter subunit IIA (Mesoplasma florum) [pid:28.6%25%2C q_cov:99.5%25%2C s_cov:21.2%25%2C Eval:1.0e-17%2C partial hit],internal stop codon at [954221:954223](-),MGA_1595
sequence1	MetaGeneAnnotator	CDS	954221	954664	.	-	0	ID=MGA_1596;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVQFLDHIINGGQTEIGVAGGISLFAQFGALVAVIIVTKNIKLRNQSIGLITAAVIGVTEPILYQVNLPKRRPLYSGIIGAFVFGTLSGLLGITTRAKTGWGFLELIGYYSDPILGGTSDISPLANGLMYTFCCLGSFLLSGVICVF;locus_tag=LOCUS_15960;note=WP_011182905.1 glucose PTS transporter subunit IIA (Mesoplasma florum) [pid:44.3%25%2C q_cov:89.1%25%2C s_cov:15.6%25%2C Eval:5.7e-32%2C partial hit],internal stop codon at [954221:954223](-)%2C[954704:954706](-)%2C[954884:954886](-),MGA_1596
sequence1	MetaGeneAnnotator	CDS	954768	955028	.	+	0	ID=MGA_1597;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAISASITFQIGLKIKNAIGNVVINIKKGLPINSNEGGIHSPILSSIFLANKIVGKITSGLVFIPFKRTSESCFKKRVTGFFGSSG;locus_tag=LOCUS_15970;note=MGA_1597
sequence1	MetaGeneAnnotator	CDS	955538	956212	.	-	0	ID=MGA_1598;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIKLYAPVDCEVKRVEKCSDEAFANKMLGDGILIIPKNNIFFSPFFNAKVKMIFNTKHAYKFEVEGFNVLLHCGLESVNLNGKYFETDLKINQEVDLKTKLFSVEIIELEKLNILTETPIVFEDPKIKIPYFEERIYKKGELICEINLEDEKKLDNESIDPYTFFETDSKYIAVGRKINEFIGGKENYTNFYNCATRLRFKIKNKDKVDLKKIKEQEIVKSVI;locus_tag=LOCUS_15980;note=WP_011182930.1 glucose PTS transporter subunit IIA (Mesoplasma florum) [pid:51.1%25%2C q_cov:99.6%25%2C s_cov:26.3%25%2C Eval:4.8e-59%2C partial hit],internal stop codon at [955538:955540](-),frameshifted%2C insertion/deletion at around 955336,MGA_1598
sequence1	MetaGeneAnnotator	CDS	956734	957027	.	-	0	ID=MGA_1599;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSIFSKLENLTREYKNTSDKIIAINVINAMRKKQILTQKQLAKICFVSESKITKFIQNIGEPNYKLFISKLKSEHFLYDSINKANLKMNIIHLIEM;locus_tag=LOCUS_15990;note=WP_011182929.1 transcriptional regulator (Mesoplasma florum) [pid:31.2%25%2C q_cov:99.0%25%2C s_cov:39.8%25%2C Eval:2.2e-08%2C partial hit],internal stop codon at [956641:956643](-)%2C[956734:956736](-),MGA_1599
sequence1	MetaGeneAnnotator	CDS	957237	957524	.	-	0	ID=MGA_1600;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAGKNASEYTDQGKLLGHISIGNTFVSNKAIQLGLQDNEDVLKLQHAILASHGKNEYGSPVEPLLIEAVIISSLDSLDARIYKINDELSKVEEGA;locus_tag=LOCUS_16000;note=WP_011166681.1 HD domain-containing protein (Mycoplasma mycoides) [pid:59.6%25%2C q_cov:92.6%25%2C s_cov:28.8%25%2C Eval:3.3e-25%2C partial hit],internal stop codon at [957237:957239](-)%2C[957576:957578](-)%2C[957645:957647](-),MGA_1600
sequence1	MetaGeneAnnotator	CDS	957645	957833	.	-	0	ID=MGA_1601;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFSISAPINVKTNYVKLVDFINSLENKTYKTITLEILKQYEVEFKTFPAAVSIHHNVVGGLF;locus_tag=LOCUS_16010;note=WP_011166681.1 HD domain-containing protein (Mycoplasma mycoides) [pid:57.6%25%2C q_cov:95.2%25%2C s_cov:18.1%25%2C Eval:3.7e-16%2C partial hit],internal stop codon at [957576:957578](-)%2C[957645:957647](-)%2C[957990:957992](-),MGA_1601
sequence1	MetaGeneAnnotator	CDS	957990	958136	.	-	0	ID=MGA_1602;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINEINADSKIVTLIARIEKAILSTGNNGANYLILNLVDMTGRIEARL;locus_tag=LOCUS_16020;note=WP_011183141.1 HD domain-containing protein (Mesoplasma florum) [pid:58.7%25%2C q_cov:95.8%25%2C s_cov:14.1%25%2C Eval:3.8e-08%2C partial hit],internal stop codon at [957990:957992](-),MGA_1602
sequence1	MetaGeneAnnotator	CDS	958204	959832	.	-	0	ID=MGA_1603;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKIKFKNVKKYKGIVEQVLVKEGQPVKKNEILATISTQLEKFDIRSTTDGVIRNIYVIESLIVSHGDTLFDIFSYKEMKNLLKKPSNMNETLKDGLSEFGYLEKLISEPDEPEEEIKEVKSKKDKKTKTATEEELEILNDFENKKYLIDEVIDTDYQIEEEFTEDPIADAKIDIAPVKTITRETSTFDLRESPVIVSETITKKVIYENSDNFKDDDMFSDDISTVSQSEILEEISRSNSQKNVIKVEKEVKEKKQNIIKEENKVEESNSVLLKELDYERFQKVLKNNEKLSNKVKELEKTVSSFIEESKENNDKKINSLTKKIEEKSKTIESKLKEVELMSSENSKLVSKTIEKKVIVDKTDIGSFSFKLDITALISLQTLMIEPSKEENIDLELNAFYVKALKRALTKFEELDSNHSLVRLVKTDGYSVKDTVVKVSDDLSILDISKEIHKNNLVKDKEVKVAIYDISNFGLDNANFGLNKNSILSIYISSISSSFKDDGSLTNYVKINFAFNQNSLEPEDAIMFGKEFISILKNPGFLI;locus_tag=LOCUS_16030;note=MGA_1603
sequence1	MetaGeneAnnotator	CDS	960049	960261	.	-	0	ID=MGA_1604;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKFFENCLIEESSLESILEDILISYIYLAIHNSLGIITSIFMYLIINAMLLYKEFGPILATYRGEVTNI;locus_tag=LOCUS_16040;note=MGA_1604
sequence1	MetaGeneAnnotator	CDS	960656	961030	.	-	0	ID=MGA_1605;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHKNSFINSPKILNNKLQMMRKKNIFFAGQITGVEGYIESFASGLVASRGIISFINESKFIPFPEDTVLGSLINYITNSNHKKLKPMKSNMGLIKVDPTLSFSSKEEKYFYIYKNSLDKIKDFI;locus_tag=LOCUS_16050;note=WP_011166678.1 methylenetetrahydrofolate--tRNA-(uracil(54)-C(5))-methyltransferase (FADH(2)-oxidizing) TrmFO (Mycoplasma mycoides) [pid:54.0%25%2C q_cov:100.0%25%2C s_cov:27.4%25%2C Eval:8.1e-32%2C partial hit],internal stop codon at [961100:961102](-),MGA_1605
sequence1	MetaGeneAnnotator	CDS	961100	961729	.	-	0	ID=MGA_1606;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSFILDCAFKTQIPSDDALAVDRTAFSNLVDERIRNHKNIKVFEEEFLNLNTQEIILIASGPLCSKEFKIELEKLLGKQKLFYLDASAPIIEKESIDFSKVYYKSRYKNDNSYICIPLNEQQFDIFHNKLINAKTVELKDFEQEIFFRGCQPIEQLAKTSKKILLKSAMSPNGLEDIHGFKPYSAVQLRRDDAMDNLYNMVGFQTNIA;locus_tag=LOCUS_16060;note=WP_011183139.1 methylenetetrahydrofolate--tRNA-(uracil(54)-C(5))-methyltransferase (FADH(2)-oxidizing) TrmFO (Mesoplasma florum) [pid:54.3%25%2C q_cov:99.5%25%2C s_cov:47.5%25%2C Eval:2.8e-63%2C partial hit],internal stop codon at [961100:961102](-)%2C[961895:961897](-),MGA_1606
sequence1	MetaGeneAnnotator	CDS	961996	962607	.	-	0	ID=MGA_1607;product=copper homeostasis protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166677.1;translation=MLLEVIAKDFKDIRIINNSNANRIEFCEDLKVGGLTPALEDIKYACDLSKLPINIIVRNTSRDFFYTDKEKKDMIEQIKFIKTTKANGIVIGALNKDLTIDVDFLNEVIKHKGNLEITFHKAFDEVKDFIEAFKILDKLGITNVLTSGGKDIKKGKKVIKKLATLNLNTKILIGGGVNQKNFSSLKKISKNIHVGSCVRNNQS;locus_tag=LOCUS_16070;note=WP_011166677.1 copper homeostasis protein (Mycoplasma mycoides) [pid:48.5%25%2C q_cov:100.0%25%2C s_cov:89.9%25%2C Eval:1.9e-45],MGA_1607
sequence1	MetaGeneAnnotator	CDS	962651	963262	.	-	0	ID=MGA_1608;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSQVTIDYTNEKNPRIDTILMSIQHDENYNQELFEKFIKSNIMDVIAKRYGLNTDFKVLINPTGRFVIGGPKGDTGLTGRKIIVDTYGGYSRHGGGAFSGKDPSKVDRSAAYMCRYAAKNIVAAKLADKVEIQVSYAIGKPDPISILIETFGTNKVSMDILYKALNENFDFKVSSIIKTLNLQSPVYFRTSKYGHFGKKEFS;locus_tag=LOCUS_16080;note=WP_011166676.1 methionine adenosyltransferase (Mycoplasma mycoides) [pid:77.1%25%2C q_cov:99.0%25%2C s_cov:51.9%25%2C Eval:8.3e-89%2C partial hit],internal stop codon at [962651:962653](-)%2C[963275:963277](-)%2C[963533:963535](-),MGA_1608
sequence1	MetaGeneAnnotator	CDS	963275	963433	.	-	0	ID=MGA_1609;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGVEKKEMGAGDQGIMFGYANSETQTYMPYSIQIAHDLVHIASKLRKNGAFK;locus_tag=LOCUS_16090;note=WP_011183137.1 methionine adenosyltransferase (Mesoplasma florum) [pid:58.0%25%2C q_cov:96.2%25%2C s_cov:13.3%25%2C Eval:9.4e-12%2C partial hit],internal stop codon at [963275:963277](-)%2C[963533:963535](-),MGA_1609
sequence1	MetaGeneAnnotator	CDS	963533	963742	.	-	0	ID=MGA_1610;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLFTSESVSEGHPDKICDQISDAILDECLKQDSNSKVACETFVTENYLLIGGEITTKAVVDYAGIAK;locus_tag=LOCUS_16100;note=WP_011183137.1 methionine adenosyltransferase (Mesoplasma florum) [pid:82.6%25%2C q_cov:100.0%25%2C s_cov:18.3%25%2C Eval:2.3e-26%2C partial hit],internal stop codon at [963275:963277](-)%2C[963533:963535](-),MGA_1610
sequence1	MetaGeneAnnotator	CDS	964694	964846	.	-	0	ID=MGA_1611;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLGTFLFIFLLALSARIIKFNKIKFKSTPIVKSELIKKKMFKTSSGYELR;locus_tag=LOCUS_16110;note=MGA_1611
sequence1	MetaGeneAnnotator	CDS	965024	965338	.	-	0	ID=MGA_1612;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRQDRLRNLRECLFALDNEVKSVCDSIQFRLKSFQKYNETYKRVLSEVEVELKNEMYGRSTVYNFETMRINLEQDAGNVVYEAINIMDNSDFLIKKQNVIYAF;locus_tag=LOCUS_16120;note=MGA_1612
sequence1	MetaGeneAnnotator	CDS	965438	965617	.	-	0	ID=MGA_1613;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTGPIDSIIGANPEEVIFKEKTGLPTKFSPSENPGLLCGVIIKLNSKNKAKSIKRIQLK;locus_tag=LOCUS_16130;note=MGA_1613
sequence1	MetaGeneAnnotator	CDS	965723	966202	.	-	0	ID=MGA_1614;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFLMIGDVYSKSGRDVLEKQLSSIVEKNQIDFIIVNGENISHGKGINKNHYDFLKKLGVNVITSGNHIFKVKETFEFIDSVDDLLRPANMNSFNLGIGTNQYNFGKIKIRVTNMMGKSFMEHVNNPYEVMDKIIKENTADVHIVDFHAEASAEKLAFA;locus_tag=LOCUS_16140;note=WP_020862745.1 TIGR00282 family metallophosphoesterase (Mycoplasma mycoides) [pid:58.1%25%2C q_cov:100.0%25%2C s_cov:62.3%25%2C Eval:9.2e-48%2C partial hit],internal stop codon at [965723:965725](-),MGA_1614
sequence1	MetaGeneAnnotator	CDS	966202	966525	.	-	0	ID=MGA_1615;product=YlxM family DNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183135.1;translation=MINQDIQKTANLAELYDYYKNLLTEKQGHYFELYFFEDLTLQEIAEEFGVSRNAIYDSINKTSLLLNDLEKKLNLKSKNNKLKEILDKAKIDKISKADLIIELEKTL;locus_tag=LOCUS_16150;note=WP_011183135.1 YlxM family DNA-binding protein (Mesoplasma florum) [pid:39.2%25%2C q_cov:95.3%25%2C s_cov:91.7%25%2C Eval:2.2e-13],MGA_1615
sequence1	MetaGeneAnnotator	CDS	966560	966916	.	-	0	ID=MGA_1616;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEDKYDLLLIDTAGRLQNKEHLMKELEKMTKIIQKSVSDGPHERLLVIDAQTGQNGISQAKAFSETTNVSGIVLTKMDGTSKGGIALAIKDILNIPVKLIGTGETVNDIEEFDVDNYI;locus_tag=LOCUS_16160;note=WP_011183134.1 signal recognition particle-docking protein FtsY (Mesoplasma florum) [pid:71.6%25%2C q_cov:98.3%25%2C s_cov:31.6%25%2C Eval:2.5e-41%2C partial hit],internal stop codon at [966560:966562](-)%2C[967010:967012](-),MGA_1616
sequence1	MetaGeneAnnotator	CDS	967010	967525	.	-	0	ID=MGA_1617;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGFWSNLKERREIKKQQKEIKKEQKKHKKEHKKTLTFSTDIKKLSKRYKEPNNEFFEDLENILIRTDMGMKMVLEISNRVRKKAKAKHSFDQIKEILVEEIYETYNSGRKYNDKLNYKDGRLNIFIMVGVNGVGKTTSIAKIANYYSNMDKKVLIAAADTFRAGAVEQLQE;locus_tag=LOCUS_16170;note=WP_011183134.1 signal recognition particle-docking protein FtsY (Mesoplasma florum) [pid:61.4%25%2C q_cov:81.9%25%2C s_cov:38.1%25%2C Eval:1.2e-46%2C partial hit],internal stop codon at [967010:967012](-),MGA_1617
sequence1	MetaGeneAnnotator	CDS	967640	968152	.	+	0	ID=MGA_1618;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTVSTGVSVVLKDENKNINKYSKFLTSLDDFLYLKVEKEKSVDKLSNKQIEKILKEAFSINEFGINLYKKIDYEILNQEDGELNILFKDKQNSNILNEKIIIKFNLVLFNYDKINDAVYILNNYLFANPLIINKSKYIQIELEDLLKNKFKRLFDRYISSNIFLKSVNEF;locus_tag=LOCUS_16180;note=MGA_1618
sequence1	MetaGeneAnnotator	CDS	968174	968338	.	+	0	ID=MGA_1619;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNQKNDIIKANFLNNTNLDFRIMRDASNIGVKKSDKYITYYSDKKLMNKEIFN;locus_tag=LOCUS_16190;note=MGA_1619
sequence1	MetaGeneAnnotator	CDS	968510	968980	.	-	0	ID=MGA_1620;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVAGDLRLAVGGVLISREIERIADVAKHICAFTIKYNPQPIEIEYISKMFDLVNKMLNIISVLIDNYDNDQHQKVLKAEEQLSIEFSNLSNILATRISDSKNATESRKIITIVRQLKNLERAGECLINIEETLQFIRTGKFEELQESMINNLTTKK;locus_tag=LOCUS_16200;note=WP_011166672.1 phosphate signaling complex protein PhoU (Mycoplasma mycoides) [pid:42.6%25%2C q_cov:94.9%25%2C s_cov:66.1%25%2C Eval:1.0e-27%2C partial hit],internal stop codon at [968999:969001](-),MGA_1620
sequence1	MetaGeneAnnotator	CDS	968999	969199	.	-	0	ID=MGA_1621;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSYNKILDSDIKTIKRELIRLVEATKSQYANTFESLKSQNLELAQEVVNGDIKINDLQNSFTKMAL;locus_tag=LOCUS_16210;note=WP_011183133.1 phosphate signaling complex protein PhoU (Mesoplasma florum) [pid:45.5%25%2C q_cov:100.0%25%2C s_cov:28.9%25%2C Eval:8.2e-08%2C partial hit],internal stop codon at [968999:969001](-),MGA_1621
sequence1	MetaGeneAnnotator	CDS	969214	969480	.	-	0	ID=MGA_1622;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRPKILLMDEPTSALDPIATLKVEELILKLKNEYTIVIVTHSMAQATRVSDYTAFFLHGELIEYDRTKKIFTNPKDQKTEDYISGRFG;locus_tag=LOCUS_16220;note=WP_164704003.1 phosphate ABC transporter ATP-binding protein PstB (Mesoplasma entomophilum) [pid:79.5%25%2C q_cov:100.0%25%2C s_cov:33.0%25%2C Eval:4.6e-35%2C partial hit],internal stop codon at [969568:969570](-),MGA_1622
sequence1	MetaGeneAnnotator	CDS	969568	970083	.	-	0	ID=MGA_1623;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MASDKIIENENLEKEDLEILSEEKIFQKPKKVPIKQRQNVIEIEGFNFYYNSGSKQALFDINMAIKENTVTAFIGPSGCGKSTLLRSINRMNDLVDNIAVDGKIVVHSKDIYEKGMDVVKLRTEVGMVFQKANPFPMSIYDNVAFGPRNQGISDKNILNQIVEDSLKKAAL;locus_tag=LOCUS_16230;note=WP_164704003.1 phosphate ABC transporter ATP-binding protein PstB (Mesoplasma entomophilum) [pid:66.2%25%2C q_cov:84.2%25%2C s_cov:53.9%25%2C Eval:5.3e-50%2C partial hit],internal stop codon at [969568:969570](-),MGA_1623
sequence1	MetaGeneAnnotator	CDS	970295	971092	.	-	0	ID=MGA_1624;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTVMIKGIGGFDSAAFVEIEGQRSGIFALLFTTILLVLATIIFAIPLALIVAIYLAEYAHKDSKFAKVIRFSINVLASTPSIVFGVFGLSLFVVGMGIPMSIFAASLTMTIVILPSMITNFEDSITGVPLLYKEAAYGMGMTKTGVLLKVIIPNSTKGLVTATILAVARIIGESAPVYLTLGTAVRMPSEGFFSSGATLTTQIYMMASEGNDPHTLGVAYQIALVTIFLVLGLNFLSKYIGFKLNPINKKISIKMRFKLFIGMFT;locus_tag=LOCUS_16240;note=WP_011183131.1 phosphate ABC transporter permease PstA (Mesoplasma florum) [pid:52.7%25%2C q_cov:96.6%25%2C s_cov:36.4%25%2C Eval:2.4e-69%2C partial hit],internal stop codon at [971099:971101](-),MGA_1624
sequence1	MetaGeneAnnotator	CDS	971099	971956	.	-	0	ID=MGA_1625;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMLFLTLLFAIPLTIFSSLFITEYLKNRTKKFVITMIQLLAGIPSVVFGLFALDQIGPIFVAMGAPTSGNMMTASFTLAFMALPTMISLSVNAIESVPEGHRFASLGLGMTKEKTTFGVVLVAAMPKIITAIITGVARIIGETMAVILIAGNSTKGLNTGDGFFGFIFSSIRTLAGTIGLEMLENHGTTHESALYAIGMVLFVIVIFINLLIIAVGNINNKKTKSIKNLKHKKTKSIKNNYRYDNHNLNILVHTYTEKRFAKKVNSFILNFFMISSTAIIVGFTS;locus_tag=LOCUS_16250;note=WP_011183131.1 phosphate ABC transporter permease PstA (Mesoplasma florum) [pid:53.3%25%2C q_cov:99.6%25%2C s_cov:40.4%25%2C Eval:2.6e-77%2C partial hit],internal stop codon at [971099:971101](-)%2C[972020:972022](-),MGA_1625
sequence1	MetaGeneAnnotator	CDS	972020	972214	.	-	0	ID=MGA_1626;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKNNVKSLPKAKTSKMDLSTKISVFFITTIVLVILAVLVGYILYKSVPVFKEFSFFKFLFSGM;locus_tag=LOCUS_16260;note=MGA_1626
sequence1	MetaGeneAnnotator	CDS	972453	972659	.	-	0	ID=MGA_1627;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSSNVVNSNGSMIENMSKSPSLGYVSNGFLGQLSQSGIVKLAGFNGYKLPIGIDNDNPLEWSDQDKE;locus_tag=LOCUS_16270;note=MGA_1627
sequence1	MetaGeneAnnotator	CDS	972963	973277	.	-	0	ID=MGA_1628;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKLTKEYYNKSEKVDFVYNSTGSQAGVGGVEKDMYTAGFISKDINDKTLTKGNNFLQICENSNECDFNPEVIKEIEKGEKDNSYIALEFAIDAIGVIYNPPTY;locus_tag=LOCUS_16280;note=WP_011183130.1 phosphate ABC transporter substrate-binding protein (Mesoplasma florum) [pid:34.2%25%2C q_cov:96.2%25%2C s_cov:27.4%25%2C Eval:1.1e-07%2C partial hit],internal stop codon at [973338:973340](-)%2C[973344:973346](-),MGA_1628
sequence1	MetaGeneAnnotator	CDS	973428	976148	.	-	0	ID=MGA_1629;product=chromosome segregation protein SMC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166660.1;translation=MAEITLVFDNSNKAFSSLEYNEVSITRKFFKLTKESEYYINGSRVRLKDIQDVALETGLTKSSLAIISQGSISNFVESKPEDRRRLFDEAAGVARYKKRKEEAIRKLIRSQENLDRLNDIINEIERKLPTLKKQSKKAESYKEFFDELKNIEVSVLVNDIKLYKQKILEINEQKTELKLQISSLEKQISKRSEEFNTIANSNYEKEKELSSLNKGFTKIVEKIGELKVSRITLESKKNKVDIDDKEFKISDLKNKSKELEIRLEAEEQKLSKLLKDKVEKREKLDEASEKRFKLNQDLDSIRKQLAKTESSLETLLARKNSFDNLFEGVKNILENRSTLSGIMGTVQELITVNKNYEVALLTAIQNGLQNIVVKSTTDVKLSIDFLKNNKAGYATFLPLDNLKPSFINNETRFIIQKSKGFIGFGNELVKIDKKYQVVLDYLLSNYLVVDEYENAIELSKITNQKFNIVTLDGQRILPHGAIIGGSRKSKNVVLNDSVQIQEYENRKIELDEKELATSKEVEVLSSTIEVLREEIAEIQTSIGASRNSSQLIEKEATEVKDEFRIITGKELDGGQQEFQSIDEQIIKIISQISAQETLKDEIQQQINVIRSLKDKSNERQNNLNSIINEDRGLLSSLKDKYSNLNSDATLMQEKQGNATARLAQNYNLTFEAALELNTNLVETESEVRDRINYLRKEINLLGNVNLDSIDEYQEENDRYQTYVDQTQDVIESIKNLKDAIGDMDQQMIIQFKKIIKDVNGVLPDTFATLFGGGTASIIYTNPDDILNTGIDLKIAPPGKKIANLNLLSGGEKSMVALSVLFSILKVKPIPLVILDEVEAPLDIANVERFAKYIKTFTKSTQFMIVTHRMGTMENCDTLFGATMEQKGITKLVQIKLIEAKKLSNTN;locus_tag=LOCUS_16290;note=WP_011166660.1 chromosome segregation protein SMC (Mycoplasma mycoides) [pid:43.0%25%2C q_cov:99.6%25%2C s_cov:92.1%25%2C Eval:8.4e-213],MGA_1629
sequence1	MetaGeneAnnotator	CDS	976239	976379	.	-	0	ID=MGA_1630;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFLKKIEAFGFKSFAEPTTLNFDFSMTGIVGPNGSGKSNINDAIM;locus_tag=LOCUS_16300;note=WP_011183129.1 AAA family ATPase (Mesoplasma florum) [pid:75.6%25%2C q_cov:97.8%25%2C s_cov:4.5%25%2C Eval:3.8e-13%2C partial hit],internal stop codon at [976239:976241](-),MGA_1630
sequence1	MetaGeneAnnotator	CDS	976513	976719	.	-	0	ID=MGA_1631;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQELIQLEIRSELSYVVVSQEKLENNTTLFIVNAVLEGMVFGTGKGSNKKQAEQEAAKNALSKIKKTK;locus_tag=LOCUS_16310;note=MGA_1631
sequence1	MetaGeneAnnotator	CDS	976792	977205	.	-	0	ID=MGA_1632;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTIRKFLLSEFGIEIKDEAYYNEALTHNSFSNENRLAKNYQRLEFLGDAILQMKVSEYIYKLFPKSNEGLLTKYRSSIVKKDTLAEISRKINLGKLIRLGIGELDSKGYEKDSILSDVYESMTAAIYLDQGEKILDK;locus_tag=LOCUS_16320;note=WP_011183128.1 ribonuclease III (Mesoplasma florum) [pid:59.3%25%2C q_cov:98.5%25%2C s_cov:58.0%25%2C Eval:2.4e-39%2C partial hit],internal stop codon at [976792:976794](-),MGA_1632
sequence1	MetaGeneAnnotator	CDS	977205	978209	.	-	0	ID=MGA_1633;product=phosphate acyltransferase PlsX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183127.1;translation=MDYKVIAFDVMGSDNGLIPAVDAAIKLLGEQKDLKIIFVGDEVSLKKELSSRKYNQNQVEILNTTEVIEMTDGIMDIRRKKDSSMVKALELVKDGKADAITTGGATAPFVAGCHFILKKIDGIERPGFMPVIPTLVKGKITLLLDVGANLECDPEDLVNFAIMATAYSKAVNGIENPEVALLNIGEEKSKGLELHQKAYKLLEENKSLNFVGNIESRYLANGKVDIIVTDGYTGNIALKAAEGMGKSLLTEIKFALTKNLFRKLAALRLRKAFKEVSAKFDYKNHAGAIILGAKSIAFKSHGSSDKIAFYATLKMTYNAIKNDVVNKVKKALEK;locus_tag=LOCUS_16330;gene=plsX;EC_number=2.3.1.274;note=WP_011183127.1 phosphate acyltransferase PlsX (Mesoplasma florum) [pid:58.4%25%2C q_cov:97.9%25%2C s_cov:98.8%25%2C Eval:3.9e-102],MGA_1633
sequence1	MetaGeneAnnotator	CDS	978286	978504	.	-	0	ID=MGA_1634;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPLPRQKSESSSDVCCPGGAHNCYTCRVCSGSFHGCQSCLKCIGCQVCLSKECPCCLQGTKKQQENKVKYNK;locus_tag=LOCUS_16340;note=MGA_1634
sequence1	MetaGeneAnnotator	CDS	978795	979007	.	-	0	ID=MGA_1635;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDSSVITLPILKSVINQVLGKMTKAMLMYILIDVVLLIILLIVIMNIIITDSINVITIMRSLGYKNAQIN;locus_tag=LOCUS_16350;note=MGA_1635
sequence1	MetaGeneAnnotator	CDS	979077	979889	.	-	0	ID=MGA_1636;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVTPEQMGGIFLDDIGKLACLSPLGMNYKGSCDDVESVKKYFIDNMNNIIPRSQTKTDIKLSNILVNLLTTFSKMREGVNSLLSVNNVIFNGDSEALQTILPYHIKNNTEVDIEKSILRLIDTTNIIGGNTRAVVNLESVSEKAMKELQENNGNYINAVVSFRLSKILNKNVGDIFQITLGKDKKVDIRIAAINGNDTLLQDIYVDYSTFIKNINQVQSIDKDQLLFNSIISTKIASEGTIDLKDIAGSQRSFRYSRDTYTIASSQNKP;locus_tag=LOCUS_16360;note=MGA_1636
sequence1	MetaGeneAnnotator	CDS	980025	980447	.	-	0	ID=MGA_1637;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKTNRGFTFRMQHAFVSAGKGKFALIMGLFLFSSFLFTLQLRAMPVIKNMIEGAYNIYTKDVNHYYSFKNVVPIKVKSNGISQDVTKENFGIKYKNIEKETVENYIRNSAEDKYRTTNNFSLLISGLSKARDQIINTPY;locus_tag=LOCUS_16370;note=MGA_1637
sequence1	MetaGeneAnnotator	CDS	980463	980774	.	-	0	ID=MGA_1638;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIGIGIGYLLSFPFQIDSATKQFSTFVIFDYQTIYASPIFLIFLMLIVPILFAGLSYLIIFKFLNEGALALLTSGPKKSKADIIVLVLKIIFFPALIYSLFN;locus_tag=LOCUS_16380;note=MGA_1638
sequence1	MetaGeneAnnotator	CDS	980802	980933	.	-	0	ID=MGA_1639;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIGAILFLLGFMFIVFVLKKEINNTRKQLGVFKSLGYKTSELT;locus_tag=LOCUS_16390;note=WP_011183300.1 ABC transporter permease (Mesoplasma florum) [pid:65.1%25%2C q_cov:100.0%25%2C s_cov:3.1%25%2C Eval:5.1e-10%2C partial hit],internal stop codon at [980802:980804](-)%2C[980943:980945](-),MGA_1639
sequence1	MetaGeneAnnotator	CDS	980943	981584	.	-	0	ID=MGA_1640;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKGTEEHFIYNMSNVEALSGNDQYNVNNVVLQSGRLPEKNNEIIISDAYAKNQNKKIGDEIILGVDIPFQNPAPTPKPLPFKIVGIGLKYSALTPINFSSFSDSIKNYGQVFLKNSFFTEIENAEGYTFSQLFTTDNMTANADLGFQFSYREETFVTKNSKSFNLNEIFTSNILSSNKRESNISILAPGTTIFKVPSEHSVIATLTNLYIIT;locus_tag=LOCUS_16400;note=MGA_1640
sequence1	MetaGeneAnnotator	CDS	982296	982757	.	-	0	ID=MGA_1641;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLELNPKTYLVIAISISMIFVYIFSQDNITRNLEISKFIYINRMVLLIISFSTFEFISVIFIFIILKYIRCTKFKWSYIKKISHNLYLTFLNLISFISIKFHQLKNGLLIFYVNITKKLNIYDTDQKNIISVKKRSFLTEKLKGDCPPNFII;locus_tag=LOCUS_16410;note=MGA_1641
sequence1	MetaGeneAnnotator	CDS	982851	983045	.	-	0	ID=MGA_1642;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLCIKQKPKKSIFYLIISLIITLLSLFCLIISVKFLVTNNLNISNLLLQFGLFIIGFLLSIIYL;locus_tag=LOCUS_16420;note=MGA_1642
sequence1	MetaGeneAnnotator	CDS	983119	984249	.	-	0	ID=MGA_1643;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPALKEVGVVDSGGYGLVKFFEGMQYFVKKLKPISKLKKLEENTGSNIEMSIEDEFGYCTEAIVMLNEEFIDKLKIDTVRDTFEQYGNTSIVAVMDGDILKVHTHALMPGQILSYLQQFGEFKTIKVENMTLQADKHVANKKESAAKITAQQQRKLKNAVATIAVVRSKGIQDYFKNELSVDYVIDGGPKMNPSTNDFMKAIEAVDAKTVYIFPNDSNVLLAAKQAKELEKMSKVVVIETKTIPQGITAYLNLDIEDTAKKNESNINKALKNIVSVSINKAARDAEIDGVNIKAGEYMMIADKKITISAKTLKDVFHKSLSKFITAKTEILTIFTGQDASFKDINDLRKYLDENYDVEYEVVDGKQEVYSFIIGIE;locus_tag=LOCUS_16430;note=WP_011183126.1 DAK2 domain-containing protein (Mesoplasma florum) [pid:58.2%25%2C q_cov:100.0%25%2C s_cov:69.0%25%2C Eval:1.9e-119%2C partial hit],internal stop codon at [984301:984303](-)%2C[984442:984444](-),MGA_1643
sequence1	MetaGeneAnnotator	CDS	984442	984759	.	-	0	ID=MGA_1644;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDTQILKGMITSGVNNLYNNYPHIDKLNVFPVPDGDTGTNMNLTCTNGFVEIEKEEFSNVGSLMSKFSRGLIMGARGNSGVIFSQIIKGFSNGMKDKEKLDLDT;locus_tag=LOCUS_16440;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:1.1e-36%2C partial hit],internal stop codon at [984301:984303](-)%2C[984442:984444](-),MGA_1644
sequence1	MetaGeneAnnotator	CDS	984888	985199	.	-	0	ID=MGA_1645;product=Asp23/Gls24 family envelope stress response protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183125.1;translation=MINKAILDSISNAVVTVPGVASFANYAAKSESELKTEDIAKAVEMVSTDTMDRVKVHIILINGVNIRDVVSEVQIRVKYELEKLSQFVRNYIVDIAVDDLIVV;locus_tag=LOCUS_16450;note=WP_011183125.1 Asp23/Gls24 family envelope stress response protein (Mesoplasma) [pid:51.1%25%2C q_cov:87.4%25%2C s_cov:87.4%25%2C Eval:7.0e-23],MGA_1645
sequence1	Aragorn:1.2.38	tRNA	985687	985769	.	+	.	ID=Aragorn_27;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00260;note=Aragorn_27
sequence1	MetaGeneAnnotator	CDS	985812	986429	.	-	0	ID=MGA_1646;product=thiamine diphosphokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183121.1;translation=MKDKALIVISETNINLKHFQKTHLIVGIERGCLDLIKKDISIDIAMSDFDQVTQEEFQIIKSKAKKTISFNQEKDYLDGIASILYLKEKGIKDITMIVNPSKRYDMNLTIIEYVFKHNLKIFNEQSIIFRLNAGENTIDFNKYQDFTYVSLFSLKDNKITIIGMKYEVANVELKAFNSFAYSNQFLPYVNPKIVLEEEVMVIMTK;locus_tag=LOCUS_16460;EC_number=2.7.6.2;note=WP_011183121.1 thiamine diphosphokinase (Mesoplasma florum) [pid:46.5%25%2C q_cov:97.6%25%2C s_cov:97.6%25%2C Eval:4.4e-45],MGA_1646
sequence1	MetaGeneAnnotator	CDS	986419	986982	.	-	0	ID=MGA_1647;product=ribulose-phosphate 3-epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183120.1;translation=MDYNFVPNLSFGPKILTDIVASYNFKMDLHLMVKIENISVEQYLKPFLVKNVKQITIHFEALTEKQIEDFLKFCANNNIIPSISINPDTDVKSIEKYLSKIGNVLIMSVYPGFGGQSFIASSLEKIKKLRELKNKHKYIYSIQVDGGINDDTYKLVQNAGVDMIVAGSYLVGPNVENLMERVTKLEG;locus_tag=LOCUS_16470;gene=rpe;EC_number=5.1.3.1;note=WP_011183120.1 ribulose-phosphate 3-epimerase (Mesoplasma florum) [pid:47.3%25%2C q_cov:99.5%25%2C s_cov:82.5%25%2C Eval:2.8e-45],internal stop codon at [986998:987000](-),MGA_1647
sequence1	MetaGeneAnnotator	CDS	987093	987392	.	-	0	ID=MGA_1648;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNRGKHTTTKNELFIYKNSLIGDTPGFSSFEYKEITKEEIALSINFFKDIKCKFNNCLHINNTPGCKVIEAVKNNSFPQFIYDDYVKIQLEIENQRRRY;locus_tag=LOCUS_16480;note=WP_011183119.1 ribosome small subunit-dependent GTPase A (Mesoplasma florum) [pid:45.1%25%2C q_cov:100.0%25%2C s_cov:33.9%25%2C Eval:1.3e-16%2C partial hit],internal stop codon at [987522:987524](-),MGA_1648
sequence1	MetaGeneAnnotator	CDS	987522	987977	.	-	0	ID=MGA_1649;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNQGIILKILSEYAYVLFEKNLYECKATGKVRHSNQKPTTGDYVNFEITDKQNFKGSLTEILKRKNELYRPRIANIDQVVIITSLREPILNTYTLNKYLFFLETLHLKPILAFTKADLTNQDDEEILKAKLYKTIGYEVYLINNMIDTDKN;locus_tag=LOCUS_16490;note=WP_011183119.1 ribosome small subunit-dependent GTPase A (Mesoplasma florum) [pid:46.3%25%2C q_cov:94.7%25%2C s_cov:48.3%25%2C Eval:2.4e-28%2C partial hit],internal stop codon at [987522:987524](-),MGA_1649
sequence1	MetaGeneAnnotator	CDS	987979	988662	.	-	0	ID=MGA_1650;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTLKEIKYYFSRICDALSEAHKLGIIHRDIKPDNVLLTQAGDVKLGDFGISVMEGKSSEVNKAIGTPKYMPPEIIAAQGPSPRSDIYSLGIMLYEVATGVAPFTAKEAPKIAAKHLKETPTSPKLINPSIPQSLENLILKMIEKEPDNRFNNIDEVKSDLLRIKRSDNPKPYIYHKKVTLIMNDGKRKLQVGNTLDKLPAIAKTRFVASFLIVIISLIVLIVLLMVL;locus_tag=LOCUS_16500;note=WP_005112820.1 Stk1 family PASTA domain-containing Ser/Thr kinase (Mycobacteroides abscessus) [pid:41.0%25%2C q_cov:69.2%25%2C s_cov:25.6%25%2C Eval:2.3e-32%2C partial hit],internal stop codon at [988726:988728](-),MGA_1650
sequence1	MetaGeneAnnotator	CDS	988726	988989	.	-	0	ID=MGA_1651;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKYEPGSLINERYEVISQLGKGGMASVFKAYDIITRNVVAVKVVAPEIVVKPVGQERFDIEKEAFAKLGSNPYVVKLFDIIQNGDE;locus_tag=LOCUS_16510;note=MGA_1651
sequence1	MetaGeneAnnotator	CDS	989039	989206	.	-	0	ID=MGA_1652;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTTDGVHDYIDQEIVASTLANKKVKLKDKASLIIEDAKDNISTDNLSILIIEAE;locus_tag=LOCUS_16520;note=WP_011183117.1 protein phosphatase 2C domain-containing protein (Mesoplasma florum) [pid:60.4%25%2C q_cov:96.4%25%2C s_cov:20.5%25%2C Eval:1.1e-09%2C partial hit],internal stop codon at [989288:989290](-)%2C[989366:989368](-),MGA_1652
sequence1	MetaGeneAnnotator	CDS	989366	989566	.	-	0	ID=MGA_1653;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRSCVNNILTEMVEYSNDRFETKDMGTTLTAILFTKEGGFVINVGDSRTYKLVNDSLFQITEDQNL;locus_tag=LOCUS_16530;note=WP_011183117.1 protein phosphatase 2C domain-containing protein (Mesoplasma florum) [pid:53.0%25%2C q_cov:100.0%25%2C s_cov:26.0%25%2C Eval:3.8e-13%2C partial hit],internal stop codon at [989288:989290](-)%2C[989366:989368](-)%2C[989567:989569](-),MGA_1653
sequence1	MetaGeneAnnotator	CDS	989567	989797	.	-	0	ID=MGA_1654;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFKSAMLSDIGNYRKTNQDYLDFSTKKTGEALGVVCDGMGGHAYGEVASKLAVEKFIEYFNENDFSKLNQKEINR;locus_tag=LOCUS_16540;note=WP_011183117.1 protein phosphatase 2C domain-containing protein (Mesoplasma florum) [pid:48.7%25%2C q_cov:100.0%25%2C s_cov:29.9%25%2C Eval:2.2e-16%2C partial hit],internal stop codon at [989288:989290](-)%2C[989366:989368](-)%2C[989567:989569](-),MGA_1654
sequence1	MetaGeneAnnotator	CDS	989787	990746	.	-	0	ID=MGA_1655;product=23S rRNA (adenine(2503)-C(2))-methyltransferase RlmN;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002293986.1;translation=METKFDNMTNLSKELREFLNARFVTNLLKDLVTEESKDGTIKILFMLDDKKSIETVLMPQKYGQSVCVTTQVGCKMSCKFCASGLIKTERNLSADEIVRQIYTMNLFLKEKYKNDPENKRARVSHIVVMGIGEPFDNYENVLKFIKIINDKNGFEIGARHITISTCGIVPKIKEFADLKTQINLAISLHASNDDVRNQLMPINKAYPVKVLLDSVRYYVDQTNRRVTFEYILIDGLNDKPEHALELAKIIRGINAYVNLIPYNEVEENPYRKSTRVDEFFKILKKQNITAIVRKEFGADIDAACGQLRAKREGVIKNEI;locus_tag=LOCUS_16550;gene=rlmN;EC_number=2.1.1.192;note=WP_002293986.1 23S rRNA (adenine(2503)-C(2))-methyltransferase RlmN (Enterococcus) [pid:54.5%25%2C q_cov:96.9%25%2C s_cov:86.8%25%2C Eval:9.0e-93],MGA_1655
sequence1	MetaGeneAnnotator	CDS	991008	992108	.	-	0	ID=MGA_1656;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFEITNKNYQLDNYSIISESNIQGNELEFKEILTSFESITLKRNEVKELFILNGDNFRKINYKYNKNLNVQIENKNILKLKGLEIGKTFLEIDSIDAKNKKTIEIEIIPDDEYFELETNEITIKKGEFDSINLYSNSFENLIIVNKNKNIIAILEEDKILIKSNELGLFEIEVFSNITKESEIIKIEIIDNKNLVELDKNISLTEVNTLNTLNIINFDELNENELTINSFSNDLLITREKERITFISRAVGKFKIELKYRNQILIFEIYCFNKFTIKEIDNYDQNLIINKNDYELKSYDKNINLLDLNGDYNFSLKENYNIGIIEIVNKKGEYINIRMHSNISEEDNKEDKEDKENNEKSKVNNN;locus_tag=LOCUS_16560;note=MGA_1656
sequence1	MetaGeneAnnotator	CDS	992115	992654	.	-	0	ID=MGA_1657;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTDINTDYRYSREKLQKVLNSDDKFFKYLNIKKEAGHIIEIKSLNSSNLFQTNLMTGVVELKNNSQILKKNIKVFIKGLEVNTNYDNVDLNFESSLKNINENHHKIKYFISKKYNLAENEISFNIDSLNNSKAIKDFKLNKSTIFKYDYKKPSGKILSFNVSIKHTNNKSDENIEMSK;locus_tag=LOCUS_16570;note=MGA_1657
sequence1	MetaGeneAnnotator	CDS	992901	993047	.	-	0	ID=MGA_1658;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQRNSSGLQAGQNIKYENLEFESYKLNINLDKRQESKTIEKEYSYHDK;locus_tag=LOCUS_16580;note=MGA_1658
sequence1	MetaGeneAnnotator	CDS	993084	993353	.	-	0	ID=MGA_1659;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKILKLLFTIIPFGTISSPIMELNIKNLFKTSTEIEEHNLEKEPYYLLDDQKENISTIIRKNNSAIFKSKINKFISLEELKLEHMQEF;locus_tag=LOCUS_16590;note=MGA_1659
sequence1	MetaGeneAnnotator	CDS	993410	994141	.	-	0	ID=MGA_1660;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRLNTLKISLEDFEKKYFEKYKLEKSQLIEYFYLSNKNIINQEIFLEGYVTVQDQMSGYASYILAPKENSKVLDMCSAPGGKLTHLAQIMKNTGKIHAYELQENKIHLIKQNLSRLGVKNVILECKNALEIEEEKYDFILLDAPCSGYGVIRQKPEIKLKKYSEQENEELVLLQSKLLEKAYNCTNKGTEILYSTCTINKKENEEQINNFLLKHKDIEKIYEKVFFGNEYDNDGFYICKMKRI;locus_tag=LOCUS_16600;note=WP_013447563.1 16S rRNA (cytosine(967)-C(5))-methyltransferase RsmB (Mycoplasma leachii) [pid:47.1%25%2C q_cov:100.0%25%2C s_cov:57.2%25%2C Eval:8.6e-60%2C partial hit],internal stop codon at [994226:994228](-)%2C[994286:994288](-)%2C[994430:994432](-),MGA_1660
sequence1	MetaGeneAnnotator	CDS	994286	994429	.	-	0	ID=MGA_1661;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLYQLKFLKAKAYYVINEAVDIAKSINKNYSGLVNKVSKILEDENI;locus_tag=LOCUS_16610;note=MGA_1661
sequence1	MetaGeneAnnotator	CDS	994430	994663	.	-	0	ID=MGA_1662;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSARKEALRILFEVFKNNKFSNKLLSNLKQTTAMSKEDIAFVFKLVYGTIQYKIYLEYVVNKIIDSNKTDLKIQILL;locus_tag=LOCUS_16620;note=MGA_1662
sequence1	MetaGeneAnnotator	CDS	994663	994818	.	-	0	ID=MGA_1663;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVGLLTDKTYAYVLASQDLNNLDKSSFIEATVEQFMIDVNFFSVEQKEFQK;locus_tag=LOCUS_16630;note=MGA_1663
sequence1	MetaGeneAnnotator	CDS	994882	995550	.	-	0	ID=MGA_1664;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKKQGKIIILSGPSGVGKGTINKELAQDKSLNLVQSVSMTTRAPRPEEVDGVNYYFVDKDTFKDAIQHNELIEYAEFINNYYGTPRKIVYDKIAKGENVVLEIEVIGATQVLKKEKPENLVSIFLMPPSLKALEQRLRKRGTEKEEIIKQRLDKALLEIPLKHKYQYVIEIDSVENAVAKVKDVLTKENTLSVDPSESKYFKLRDKVCEIVTEQYEYFVNN;locus_tag=LOCUS_16640;note=WP_011183092.1 guanylate kinase (Mesoplasma florum) [pid:60.0%25%2C q_cov:99.1%25%2C s_cov:73.1%25%2C Eval:1.6e-67%2C partial hit],internal stop codon at [994882:994884](-),MGA_1664
sequence1	MetaGeneAnnotator	CDS	995551	996117	.	-	0	ID=MGA_1665;product=16S rRNA (guanine(966)-N(2))-methyltransferase RsmD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183091.1;translation=MKVISGRFRGRKLVTLEGMNTRPTITRVKEDMFNVLNNYFIFEGKTCLDLFGGSGALSLEALSRGIKFAYVNDHYKPALEIIKKNFIGLNNEEYELFNLDYKKMLNYLTSMKKQVDLIFFDPPFAKIEYYKDFFKYISENQLLNNYGILIMESELRLEISELTILNVLKYKDFKNKHLYILRFEKENL;locus_tag=LOCUS_16650;gene=rsmD;EC_number=2.1.1.171;note=WP_011183091.1 16S rRNA (guanine(966)-N(2))-methyltransferase RsmD (Mesoplasma florum) [pid:50.8%25%2C q_cov:99.5%25%2C s_cov:98.9%25%2C Eval:6.2e-53],MGA_1665
sequence1	MetaGeneAnnotator	CDS	996246	996476	.	+	0	ID=MGA_1666;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCKDNQPEIIRNKSIDVELPLSKENELVMKKLIDFVRYSQDPELNKKENEDYLRPAVGLAAPQIGSNTNMFFTRFE;locus_tag=LOCUS_16660;note=WP_011166420.1 peptide deformylase (Mycoplasma mycoides) [pid:59.0%25%2C q_cov:100.0%25%2C s_cov:39.0%25%2C Eval:1.1e-17%2C partial hit],internal stop codon at [996243:996245](+)%2C[996474:996476](+)%2C[996645:996647](+),MGA_1666
sequence1	MetaGeneAnnotator	CDS	996976	997641	.	+	0	ID=MGA_1667;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEDKKQESLQQVKSVVANLEKKIEIKKLADNTNPPKKKLQQAPFPTKVFALGGLEEVGKNTYCIEYDNEIIMIDAGVKFPDATQLGVSAVIPDFSYLVENNSKLKGLFITHGHEDHIGGIPYLLQQVEVPVIYAPALAAALIRDRLKEYKLQNKTVVKEYTENDVYATVNFTIQFAAVNHSIPDAFGVHIQTPNGAVFSTGDYKFDWTPLGHDANVQRLAT;locus_tag=LOCUS_16670;note=WP_011166843.1 ribonuclease J (Mycoplasma mycoides) [pid:68.7%25%2C q_cov:89.6%25%2C s_cov:32.5%25%2C Eval:1.8e-79%2C partial hit],internal stop codon at [997639:997641](+),MGA_1667
sequence1	MetaGeneAnnotator	CDS	997666	998778	.	+	0	ID=MGA_1668;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MADSTNAEVEGYTIGERKVIQNIDTLFLKSKGRIIIASFASNVHRLQHIIELANKYGRRIVVIGRSIERIIKIIRQMGHLNINDKMFIKPSEIENFPKNQIMILCTGSQGEPMAALSRISRMEHQTIKIIPGDTVIMSSSPIPGNRADVENVINKLTRIGAKVIENSGYNQIHTSGHASQEEQKLLFTLLKPRCFMPMHGEYRMLKIHGETATKVNVKPHNVFVVANGDQIELHNGVGQLGKRVPAEAVFIDGKDMTGKASNVIRERNILSKDGLMAVIISIDSQVNKLSAPPRIVSRGSFYVRDSGNVISESINIVTNAVQEVLKSPKPTFGAIKNAIKESLSPFIFRYKRRNPLIIPVILNKKIEVNK;locus_tag=LOCUS_16680;note=WP_011183468.1 ribonuclease J (Mesoplasma) [pid:72.1%25%2C q_cov:98.6%25%2C s_cov:62.1%25%2C Eval:3.2e-148%2C partial hit],internal stop codon at [997639:997641](+),MGA_1668
sequence1	MetaGeneAnnotator	CDS	999345	1000061	.	+	0	ID=MGA_1669;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTLLLMIFGITAGFMNLSVGNNPFDAYKDQKLTMNGFTNAFTTCFFAFCGIETFISTGKNIKNRAKNMPIAIIVIMIAITIFYIVFSTITMFAVGGPFTGNPNSQLFPENNFLRTFGPTLVIICTILMRFNSSLQITLFGGSTLEPLSSQGYISPIFRKENKENVPVAGVLATMGLFVICAIMFLFIPDIIEGATKSPSPLNYGTIASCASILLIAIYGIIIPVVLVQGFKKKIKVQI;locus_tag=LOCUS_16690;note=MGA_1669
sequence1	MetaGeneAnnotator	CDS	1000272	1000460	.	+	0	ID=MGA_1670;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKMDPNSEMGKVISEYENFFRLLTDKEMADIRAEEIKNDQEYLQYKLSLKEEKLKNKSVSK;locus_tag=LOCUS_16700;note=MGA_1670
sequence1	MetaGeneAnnotator	CDS	1000515	1000658	.	+	0	ID=MGA_1671;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLIILSTSALSVGAIAPVVNFSLYAPVEIITKKISYSYDFKKFN;locus_tag=LOCUS_16710;note=MGA_1671
sequence1	MetaGeneAnnotator	CDS	1000752	1001189	.	+	0	ID=MGA_1672;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFEEIPEEISNVYFINSITTNFNGDLGSKNSQAEEFSKEFEDANKNINAMNIKNHTLVIERYNDPTLGYLYFANVYASINNQKIRLFGLNSSKPFQTLDDLKNEFENIFELEIHKEIRIDGYDKNPWGLKFPQNVPFPPEYYIIG;locus_tag=LOCUS_16720;note=MGA_1672
sequence1	MetaGeneAnnotator	CDS	1001193	1001471	.	+	0	ID=MGA_1673;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSANEESKKMRKDVLKHINEVKKVKLNEIDRPETVYRAIFDKDTNTYSPGKAYEDSVRVDEDYFYIGITNKEGAFGEYKILIKNTPGKEDSN;locus_tag=LOCUS_16730;note=MGA_1673
sequence1	MetaGeneAnnotator	CDS	1001621	1002070	.	+	0	ID=MGA_1674;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFGFYIADPNFANELSDGDETIKNLVPMIVSLVGFAIITNIFFCSFIINFLRKSDDITLLNNRYIIALFSISVGGLFTPFVLAQMQNIPIKSTVSPKFTISKGYGGNSLIAGSLALALYFGYSLISTKQIFNAGLADQIVVGILSAIVC;locus_tag=LOCUS_16740;note=MGA_1674
sequence1	MetaGeneAnnotator	CDS	1002549	1002854	.	-	0	ID=MGA_1675;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTKYVIQTSKEELIVLDENFNFEKNILTKQGFKKIYYINQNNILISYKELNITNIYNIFTDKDELFDNSFINRAILLGENLLLSKKIENSTKSDLLNLIY;locus_tag=LOCUS_16750;note=MGA_1675
sequence1	MetaGeneAnnotator	CDS	1002918	1003142	.	-	0	ID=MGA_1676;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSLEDISKTDIEVLKVSKYYIQNFVSIEGIEYISFIKNNQVFTNILNSELEAKQLQIIKKIGNRLVIKKEDGI;locus_tag=LOCUS_16760;note=MGA_1676
sequence1	MetaGeneAnnotator	CDS	1003406	1003636	.	-	0	ID=MGA_1677;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGVFEFNHYNKGTLAVCEAIANLKNAFTLIGGGDSAAAAIQLGFKEKFTHISTGGGASLEYMEGKVLPGVEAIQNK;locus_tag=LOCUS_16770;note=WP_005902043.1 phosphoglycerate kinase (Fusobacterium nucleatum) [pid:75.0%25%2C q_cov:100.0%25%2C s_cov:19.1%25%2C Eval:1.2e-27%2C partial hit],internal stop codon at [1003646:1003648](-),MGA_1677
sequence1	MetaGeneAnnotator	CDS	1003646	1004047	.	-	0	ID=MGA_1678;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLAKGIDKPEHPFIAIIGGAKVSDKIGVIDNLLEKADKIIIGGGMAYTFFKAQGHKIGKSLCEEDKVALAKQYLDKANGKIILPIDSANNSDFKDTPPTISGVDLPDDVMGLDIGPKSIKLFEDTLKNAKTVA;locus_tag=LOCUS_16780;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:6.4e-45%2C partial hit],internal stop codon at [1003646:1003648](-)%2C[1004177:1004179](-),MGA_1678
sequence1	MetaGeneAnnotator	CDS	1004177	1004602	.	-	0	ID=MGA_1679;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKTLNDIQVADKTVLVRVDFNVPLKDGVITDDNRIKAALPTINYLIEKGAKIVLFSHLSRIKEESDKTKKTLAPIAKKLEEISKKSVKFIAQTRGKELESAIKSLKAGEIILFENTRFEDVQNGEVVKYESKNNSELGKY;locus_tag=LOCUS_16790;note=WP_011166849.1 phosphoglycerate kinase (Mycoplasma mycoides) [pid:75.0%25%2C q_cov:99.3%25%2C s_cov:34.7%25%2C Eval:4.0e-53%2C partial hit],internal stop codon at [1004177:1004179](-),MGA_1679
sequence1	MetaGeneAnnotator	CDS	1004958	1005137	.	-	0	ID=MGA_1680;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFYSKEEYIEYVLNVIAKVKLNNNLKKVTQIQIQKIMYIIYSYFLIFKSKIVDIKFET;locus_tag=LOCUS_16800;note=MGA_1680
sequence1	MetaGeneAnnotator	CDS	1005262	1005513	.	-	0	ID=MGA_1681;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPTITGSIVDLTVELAKNTTVDEINNSIKTAISKDAGLKAALEYCTKEIVSQDVIGSTYGSIFDATLTRVMEVDGKQLVKVFA;locus_tag=LOCUS_16810;note=WP_011166850.1 type I glyceraldehyde-3-phosphate dehydrogenase (Mycoplasma mycoides) [pid:65.9%25%2C q_cov:97.6%25%2C s_cov:24.3%25%2C Eval:1.2e-22%2C partial hit],internal stop codon at [1005262:1005264](-)%2C[1005604:1005606](-),MGA_1681
sequence1	MetaGeneAnnotator	CDS	1005604	1005948	.	-	0	ID=MGA_1682;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGIDLVVECTGFYADKAKSQAHIDAGAKKVIISAPATGDLKTVVFGVNHKTITADDTIVSAASCTTNCLSPVAKILDEKFGIVKGLMNTIHAVTNDQNLLDLPHVDLRRGRAAA;locus_tag=LOCUS_16820;note=WP_011183476.1 type I glyceraldehyde-3-phosphate dehydrogenase (Mesoplasma florum) [pid:77.2%25%2C q_cov:100.0%25%2C s_cov:33.8%25%2C Eval:1.8e-47%2C partial hit],internal stop codon at [1005604:1005606](-)%2C[1005955:1005957](-),MGA_1682
sequence1	MetaGeneAnnotator	CDS	1005955	1006209	.	-	0	ID=MGA_1683;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIAINGFGRIGRLAFRQLFLSKNVEIVAINDLTNSKTLAYLLEFDSAHGRFMSGKIEAKEDAIVVNGKEIKILAEREAKNLP;locus_tag=LOCUS_16830;note=WP_011183476.1 type I glyceraldehyde-3-phosphate dehydrogenase (Mesoplasma florum) [pid:71.1%25%2C q_cov:98.8%25%2C s_cov:24.3%25%2C Eval:8.0e-27%2C partial hit],internal stop codon at [1005955:1005957](-),MGA_1683
sequence1	MetaGeneAnnotator	CDS	1006330	1006521	.	-	0	ID=MGA_1684;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENKMVTHFTSNFSISELQGYYLNKRVTGVEEKKFEKQKTLRFTERLKGLTFEFHLTGTNKRY;locus_tag=LOCUS_16840;note=MGA_1684
sequence1	MetaGeneAnnotator	CDS	1006561	1006755	.	-	0	ID=MGA_1685;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRLANYYAKKDKKVIFVTVNKLVKIVKDTFNNQERNELSKFYDDCLNVDILILDDIGAEIVSD;locus_tag=LOCUS_16850;note=MGA_1685
sequence1	MetaGeneAnnotator	CDS	1006981	1007229	.	-	0	ID=MGA_1686;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQLTLEEIKNHKDFKELIKKYSITDQILENNILLIRRFLSDYIYCSKEEELRFCKQPIVGVQQKLVYKNNVFYIASKNCKH;locus_tag=LOCUS_16860;note=MGA_1686
sequence1	MetaGeneAnnotator	CDS	1007314	1008498	.	-	0	ID=MGA_1687;product=DnaD domain protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002288329.1;translation=MNNFNYRVILKNMIDSSNIKIITYLYQPIMGSKAVSLYYSLINESYIFHDLKKINLSDNRLSKITGISQNSLPKYFKKLEALGLLRTLENKERKTIIFNLYSPLEPSIFFENQVFNNVLISKLGKDDYELVRFSFRDEGEVSIESGYQDTSSKFVEVFGEVKKDIANEAKMIKAKPKRTNALLNGLDYKQLIKSLEKEDFIISESNKVVQKAVEEVFGSYNITQNEIEKIIKKIYDKETCSFDSQLFYKEASKVIFKKDEFSETIPDFDAKLNIQNQKNKKLTEMETIEPEEYLLALINSKSANIIELDKIHNEIVEILQNKYKLRNGVINCLLDFVFLKNKGKIIPNYIYKIGATMSENGFNVAAEAFEYLKVAHQKSKGKIKKEHKIELDSK;locus_tag=LOCUS_16870;note=WP_002288329.1 DnaD domain protein (Enterococcus) [pid:23.3%25%2C q_cov:94.4%25%2C s_cov:83.6%25%2C Eval:2.4e-16],MGA_1687
sequence1	MetaGeneAnnotator	CDS	1008651	1009169	.	-	0	ID=MGA_1688;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMVYSDTRKFGTFHLQEKATFKSQNPINKVGPEPFNSALNGQYLLDIMSRSNKHIKTVLLDQTKISGIGNIYADEILFDSKIHPEKRASALNLEDYERILKSSKKILKRSIDLGGSTIDTYQPEQGIDGKFQNELKVHTRKNKPCYECGRIIEKIKVNGRGTYFCKECQFLY;locus_tag=LOCUS_16880;note=WP_010874736.1 DNA-formamidopyrimidine glycosylase (Mycoplasmoides pneumoniae) [pid:47.0%25%2C q_cov:96.5%25%2C s_cov:59.9%25%2C Eval:3.3e-39%2C partial hit],internal stop codon at [1009242:1009244](-),MGA_1688
sequence1	MetaGeneAnnotator	CDS	1009242	1009484	.	-	0	ID=MGA_1689;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPELPEVETVVRTLNSKVKNLTIKKVKITYPNLIKTDISIEDFENKIKGRKIDNISRIAKHIIFELQDLVLISHLRMEGK;locus_tag=LOCUS_16890;note=WP_003246122.1 DNA-formamidopyrimidine glycosylase (Bacillus) [pid:53.8%25%2C q_cov:100.0%25%2C s_cov:29.0%25%2C Eval:5.6e-17%2C partial hit],internal stop codon at [1009242:1009244](-),MGA_1689
sequence1	MetaGeneAnnotator	CDS	1009514	1011028	.	-	0	ID=MGA_1690;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKMGYQINPDLFIYDMMIACYVINSNVKSTFDQHIIMIDPSIETKTFEEIFGKGVKKTQVIDEKVKMDYIVNKVLLIKKDEQEILKLLKDNNQMSLYEKIEFEFAKVLIDMEIEGIQVDRDELAKQEKNILQLLVDLELDIKDDLKEYIDKDFNLASPKQLKELLFEKLKLPDYNKGSTDRETLDYLEDKHPVISKIIAFRKYNKLHSTYLKGFEKFIHPDNKVHTIFNQTLTNTGRLSSSYPNIQNISVRDEEQKNVRKIFVTKEDNVYLSFDYSQIELRVLADIVNEKKLVEIFSMNRDIHSEAARSIFKLNQDEKISSEQRRVAKVFNFGILYGLSDFGLAKDLKISIPQAKEYIKTYYEAFPQILKFKEEVIKLGYEKGYVETLGNRRRYIYELSNTNYMVKQFGERAAVNAPIQGTAADILKVAMINVFKNLKSQKLQSKMIAQIHDEIILLVKKQELEEVKTMVLKTMQEAYNDLLKIANKNREALVELEINYSQAND;locus_tag=LOCUS_16900;note=WP_011166854.1 DNA polymerase I (Mycoplasma mycoides) [pid:51.6%25%2C q_cov:98.4%25%2C s_cov:54.3%25%2C Eval:9.2e-144%2C partial hit],internal stop codon at [1009514:1009516](-)%2C[1011275:1011277](-),MGA_1690
sequence1	MetaGeneAnnotator	CDS	1011275	1011439	.	-	0	ID=MGA_1691;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELNKIDFNKTEINFEALKNFFIKYEMNSLLKKYSSKNSVETKEEKLEYIVLNK;locus_tag=LOCUS_16910;note=MGA_1691
sequence1	MetaGeneAnnotator	CDS	1011677	1011874	.	-	0	ID=MGA_1692;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDNYEADDIIGSITKTLESNKEAETHILTSDQDMYQLISDKTFVLSPQIGTSELVVYNREKLFDK;locus_tag=LOCUS_16920;note=WP_011183480.1 DNA polymerase I (Mesoplasma florum) [pid:53.8%25%2C q_cov:98.5%25%2C s_cov:7.3%25%2C Eval:3.8e-13%2C partial hit],internal stop codon at [1011677:1011679](-)%2C[1011881:1011883](-),MGA_1692
sequence1	MetaGeneAnnotator	CDS	1011881	1012225	.	-	0	ID=MGA_1693;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCYIELMVENMKNKFLLVDGNALIFRAFYSSYGRATLTTKSGIPTNAVFSFINMLMNIIEKNDYFCVKVAFDKGKKTFRHEKLKDYKAGRAKTPSELVLQFPIVREFLTNANIE;locus_tag=LOCUS_16930;note=WP_011183480.1 DNA polymerase I (Mesoplasma florum) [pid:62.4%25%2C q_cov:87.7%25%2C s_cov:11.3%25%2C Eval:2.6e-30%2C partial hit],internal stop codon at [1011677:1011679](-)%2C[1011881:1011883](-),MGA_1693
sequence1	MetaGeneAnnotator	CDS	1012247	1013104	.	-	0	ID=MGA_1694;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAYLKANYKASFYCSLLNGSIRNETKTSQYLNEVKKAGFNVNPPTIKNPNSIYVFHNNMINIPMNIIKYIGPEFLKNIKLLFKTKKEVFENILLFIGNMKENGLTEQRYIALVYSGAFDCFGFSRKDLILRREQIFNLSETATLLNDPNISLDLQKRKDKPEEIVSFEKEYLGFFVSSHPLSLMRQKIINSNKLRTLNSLKDSGIICDVLINIENIVTKNDKNGNEMGFIDIVDETDSMIVTIFASVFENLKPKLNLGKNLIIKIKTQSFNNKINAVLLEVVKEL;locus_tag=LOCUS_16940;note=WP_011183481.1 DNA polymerase III subunit alpha (Mesoplasma florum) [pid:33.1%25%2C q_cov:99.3%25%2C s_cov:29.6%25%2C Eval:1.2e-40%2C partial hit],internal stop codon at [1013105:1013107](-)%2C[1013180:1013182](-),MGA_1694
sequence1	MetaGeneAnnotator	CDS	1013180	1014127	.	-	0	ID=MGA_1695;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEYLFNKYGKNNFATITTFQTIGIKNALRDCGRVFDIPISDINHMSKQINEKNVKDLSLALRDSEILKKYKDKYPQIFDISEKIIGLPRQTGTHAAGVVFSDVELYKVVPTKIGINGISQTQFSMNYLEDIGLIKTDILGLRNLSIIQEIIKNIKMINKVNIKLEDIPLNDKNTFNLLKSGDTSGIFQLESVGMTDVLIKMKVDSIDDIALTSALYRPGPQDNIPLFIERKNHGIKDLSVDKNIEDILQSTFGIIVYQEQIMQMLQRVANMSLSKADIVRRAIGKKDKILMQDFKEEFINEAIKNGYSKNKANEI;locus_tag=LOCUS_16950;note=WP_011166855.1 DNA polymerase III subunit alpha (Mycoplasma mycoides) [pid:51.7%25%2C q_cov:100.0%25%2C s_cov:32.0%25%2C Eval:2.3e-85%2C partial hit],internal stop codon at [1013105:1013107](-)%2C[1013180:1013182](-)%2C[1014218:1014220](-),MGA_1695
sequence1	MetaGeneAnnotator	CDS	1014218	1014607	.	-	0	ID=MGA_1696;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIENHQNNLLKIYSQIDFENIFVYKKHFLKYPNSKKMPSQNYLQVICEEFLEEYLESKKELNKNLYKERLKYELDIINKMGFEDYFLIVHDMICEAIRLEILYGPGRGSAAGSLVSFLLKITKLDPIQ;locus_tag=LOCUS_16960;note=WP_011166855.1 DNA polymerase III subunit alpha (Mycoplasma mycoides) [pid:45.0%25%2C q_cov:99.2%25%2C s_cov:13.1%25%2C Eval:9.7e-25%2C partial hit],internal stop codon at [1014218:1014220](-),MGA_1696
sequence1	MetaGeneAnnotator	CDS	1014911	1015243	.	-	0	ID=MGA_1697;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEYLNLLNIHSCYNFLNSTIKIEDYLNFLKLNNLSYGFYADKKTMYGAAEFYEKAKQLNIKPIIGLNIDLSFGTILIYAKNNNGYQQISHISSFINENDKLDLEKLENFF;locus_tag=LOCUS_16970;note=WP_011166855.1 DNA polymerase III subunit alpha (Mycoplasma mycoides) [pid:52.0%25%2C q_cov:88.2%25%2C s_cov:9.9%25%2C Eval:1.8e-23%2C partial hit],internal stop codon at [1014911:1014913](-),MGA_1697
sequence1	MetaGeneAnnotator	CDS	1015311	1015652	.	-	0	ID=MGA_1698;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFSRKKRRGGPNQNNRNNNQSRYFDDETKDQGFDQSQSYTDFYKGESQINQAYQALGLQKGVTLKEVKKKYIELAKKYHPDKNPGNLEAQAEMTKINNAYDIIVEDFNKRKA;locus_tag=LOCUS_16980;note=WP_004454751.1 molecular chaperone DnaJ (Clostridioides difficile) [pid:49.2%25%2C q_cov:52.2%25%2C s_cov:15.1%25%2C Eval:2.7e-11%2C partial hit],MGA_1698
sequence1	MetaGeneAnnotator	CDS	1015851	1016042	.	-	0	ID=MGA_1699;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVNYVKKKTNKKKLAKNKFGVFNGNIVNSETLGVDQEFAIENYKDSSLTISEIEKTSPLNKKD;locus_tag=LOCUS_16990;note=MGA_1699
sequence1	MetaGeneAnnotator	CDS	1016047	1017204	.	-	0	ID=MGA_1700;product=tRNA 4-thiouridine(8) synthase ThiI;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183482.1;translation=MKNILIRYGELTLKGNNRNAFISKLIQNIKYKLKQYKDIIVYKKDHNSLVLEIKDSDKLEEICHILQNIFGIYSLSIVEIVEKDVDLILKRCLEVASKHIGSFKVEVERKDKGFQVSSQDLKTKIAVSILKNNQNITVDVHNPQLKITVIIKHNGAFIFTSRIKASKGLPVGVSGKGLSLLSGGIDSPVASYLTLKRGMQVDFLHFMTPPHTSKEALDKVFQLTSKIEKYNQSNFSLYICDFSIILKELMHIKEESYRITIMRRIFIRIANKLCELIKANAIITGESLGQVASQTIESINVINEVSKLPILRPVLTCDKEEIIEISKKIDTYNISILPFDDVCSMYVPKNPVTKPKSFIAQKQEENLLLDELIDYTITNLIKTYI;locus_tag=LOCUS_17000;gene=thiI;EC_number=2.8.1.4;note=WP_011183482.1 tRNA 4-thiouridine(8) synthase ThiI (Mesoplasma florum) [pid:57.1%25%2C q_cov:100.0%25%2C s_cov:96.5%25%2C Eval:6.6e-120],MGA_1700
sequence1	MetaGeneAnnotator	CDS	1017221	1018261	.	-	0	ID=MGA_1701;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISTITTVIPELMISLKNKHITFGPVERKLPRNALKYAELENQVDKLRVKINNELKKLQFKKANRTLKEVFNQIAVFKSAVENEDNLKSFFEVRTPEIRNKFDRIEQSSRYIERDFAKVEGISKQISKERNEFENAKSSFRKTKTKADLLFSQIDLGTNSGNEINLSEIKSQMLELMDQSLKDMTALEKSAKTVESKSTNIDSLENQIIFVQSILNQLDVKINQYKSIKELEKFILPIQEIHAKLQKISTDKLKKISTLEDRSLVSNEVELYNQETLFIARDLNDTIFLDYISQEIIIYLERYVGKIEGIEKIIFDCEGLFKTRQLDQLIGYSLKTLLRIKENYRR;locus_tag=LOCUS_17010;note=MGA_1701
sequence1	MetaGeneAnnotator	CDS	1018328	1018669	.	-	0	ID=MGA_1702;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDFVGLLEDKKNTLPNLKNVKKFEAIYSRVTNINKNVHDIFIDIMNYLEIEFIQRDSITFQKELFRILKDEVIMTTFKEVAIDEEKLKNTIEQIDELFEDFYLKLDEGKYKES;locus_tag=LOCUS_17020;note=MGA_1702
sequence1	MetaGeneAnnotator	CDS	1018718	1018975	.	-	0	ID=MGA_1703;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSLWDIDQLFKNPIYISALCIFLACLVATVIILILLSIYKKILQVAAKTIDLIDDLKKSPLKYRLNRISIIFDETGSFEKELMI;locus_tag=LOCUS_17030;note=MGA_1703
sequence1	MetaGeneAnnotator	CDS	1019245	1019841	.	+	0	ID=MGA_1704;product=30S ribosomal protein S4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183484.1;translation=MSRYTGSTFKKARRYGFSILETGKEFSKGKKRTTAPGQHGARRTKLSGYGQQMQEKQKVKFMYGLTERQFRNTYARAKKIKGITGTIFLQQLESRLDNVVYRMGLSLTRQGARQLVSHGHILVNGKKLDIPSYAVKIGDIISVKEKMQKNDKIVEALASNVSTVEFVKFDKAKLTGSLLRLPERKELNQEINEALIVE;locus_tag=LOCUS_17040;gene=rpsD;note=WP_011183484.1 30S ribosomal protein S4 (Mesoplasma florum) [pid:76.1%25%2C q_cov:100.0%25%2C s_cov:96.6%25%2C Eval:1.7e-80],MGA_1704
sequence1	MetaGeneAnnotator	CDS	1020049	1020486	.	-	0	ID=MGA_1705;product=Sua5/YciO/YrdC/YwlC family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166355.1;translation=MLSKRNIQLAIQLLNENKIVILPTDTIYGISALYDELNEQKINEIKKSSTSKKLIVLFSKFKQLKKIAKISKEFKSNSKSKEPLTQIIDGQNGPIALRKVKRKDLKKIINKVGLIFSTSVNYSGNNFLTKKEELDLFNIKISEIF;locus_tag=LOCUS_17050;note=WP_011166355.1 Sua5/YciO/YrdC/YwlC family protein (Mycoplasma mycoides) [pid:43.4%25%2C q_cov:100.0%25%2C s_cov:87.3%25%2C Eval:5.0e-25],MGA_1705
sequence1	MetaGeneAnnotator	CDS	1021107	1021286	.	-	0	ID=MGA_1706;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNQNKQAYAIVTGASKGLGYAYCEELLKLGYNIIGVARDTSSLKELQDKYLDLKVES;locus_tag=LOCUS_17060;note=MGA_1706
sequence1	MetaGeneAnnotator	CDS	1021429	1021590	.	-	0	ID=MGA_1707;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCVILICRDFIIDVVRQVLANSAVVMAANQMGRIRATAEMLGLSILFFLGIQC;locus_tag=LOCUS_17070;note=WP_020863053.1 CDP-diacylglycerol--glycerol-3-phosphate 3-phosphatidyltransferase (Mycoplasma mycoides) [pid:40.4%25%2C q_cov:98.1%25%2C s_cov:26.3%25%2C Eval:5.3e-07%2C partial hit],internal stop codon at [1021405:1021407](-)%2C[1021429:1021431](-)%2C[1021591:1021593](-),MGA_1707
sequence1	MetaGeneAnnotator	CDS	1021591	1021926	.	-	0	ID=MGA_1708;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLANKITLIRILLIPLIVILLLLTPVEPIYSGVPALKLTVISIGNYNLTLTYLIAGILFIIASLTDMLDGYVARKYNMVTNFGKFFDSIADKLLTNAILIIFACFKIIPI;locus_tag=LOCUS_17080;note=WP_011183559.1 CDP-diacylglycerol--glycerol-3-phosphate 3-phosphatidyltransferase (Mesoplasma florum) [pid:66.7%25%2C q_cov:58.6%25%2C s_cov:32.2%25%2C Eval:6.8e-18%2C partial hit],internal stop codon at [1021404:1021406](-)%2C[1021591:1021593](-),frameshifted%2C insertion/deletion at around 1021443%2C1021415,MGA_1708
sequence1	MetaGeneAnnotator	CDS	1022040	1022768	.	+	0	ID=MGA_1709;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGNFIDEKLYIALDESGKLNKNDIANFFIVGGFLYSDKDLVKTKIRLIENEIKNKYNIPKNFELKGNKSDELAMVDFINRIFDEIGDCIYPIFSVVSRKELSEHFTVNEMLAYDFFVNNLIHFNSKLFSFEEKCKRIFLLMDERNLKKTEYNQLENLLKTNYIEKPYTINTYYLSSKLTDVIRLADILDHVVYTFYNNPNSEKNELFQTKIKKEYLERIKNGTIYYPFKKSYFKKINEMNKK;locus_tag=LOCUS_17090;note=MGA_1709
sequence1	MetaGeneAnnotator	CDS	1022919	1023527	.	-	0	ID=MGA_1710;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFNLILKKTLGEILIYFNEECFKDLKINNKNIKLGSEDLIEKITTDNLDMIDSIIQEVNILRQENQELLTRSNVDHKLYASTEILLSSAFEAFKKVKESFTDLNFLKHSQSDVKLIDLNEKFVIRKLTSNCQRVLNKYENLPSRFLDNLKVEELLNCFKKIIPCENINEIVVLAKEVLIKQDEIKRLDYFIDYNALIDEYG;locus_tag=LOCUS_17100;note=MGA_1710
sequence1	MetaGeneAnnotator	CDS	1023660	1024139	.	-	0	ID=MGA_1711;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLLTKKDGVKFGKTESGAIWLDKNKTSEYEFYQFFINQDDEDCEKLFKFLTTVSLKEIEKVKIEHAKEPFKRLMQKKLAQEITTFVHGPEGLKKAEKITQALFSGNISDLKKEELLSIINSMEKVQVKKNQEMVDFLVESKIASSKREARELLNEGAI;locus_tag=LOCUS_17110;note=WP_011183485.1 tyrosine--tRNA ligase (Mesoplasma florum) [pid:54.1%25%2C q_cov:98.7%25%2C s_cov:38.0%25%2C Eval:2.6e-42%2C partial hit],internal stop codon at [1023660:1023662](-)%2C[1024215:1024217](-)%2C[1024242:1024244](-)%2C[1024425:1024427](-),MGA_1711
sequence1	MetaGeneAnnotator	CDS	1024242	1024415	.	-	0	ID=MGA_1712;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLIDFLREIGKDFNLAYLLAKENISSRIEKGLSITEFSYTMLQGYDFYKLYQDHNC;locus_tag=LOCUS_17120;note=WP_011183485.1 tyrosine--tRNA ligase (Mesoplasma florum) [pid:71.9%25%2C q_cov:100.0%25%2C s_cov:13.8%25%2C Eval:2.1e-19%2C partial hit],internal stop codon at [1024215:1024217](-)%2C[1024242:1024244](-)%2C[1024425:1024427](-),MGA_1712
sequence1	MetaGeneAnnotator	CDS	1024425	1024784	.	-	0	ID=MGA_1713;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQSILKELEARELLKQYTNEEKIIKAQKEGAGLYCGFDPTANSLHVGHLIQIINLKRFKEFGFSPIAILGGGTGMIGDPSFKSEERNLLTLKQVEENVKDLKKQLNFLIPDIKVVNNND;locus_tag=LOCUS_17130;note=WP_011166856.1 tyrosine--tRNA ligase (Mycoplasma mycoides) [pid:59.5%25%2C q_cov:97.5%25%2C s_cov:28.0%25%2C Eval:8.0e-35%2C partial hit],internal stop codon at [1024215:1024217](-)%2C[1024242:1024244](-)%2C[1024425:1024427](-),MGA_1713
sequence1	MetaGeneAnnotator	CDS	1024786	1025091	.	-	0	ID=MGA_1714;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLSNIRQASDELDAAKTKELAFKALQKIGQATVKIGQEISKSDNVKIIAKDLALITVDIIDKADDVYSKVKDVSISMSDDVYENGDSKKVKAKPKIKKEK;locus_tag=LOCUS_17140;note=MGA_1714
sequence1	MetaGeneAnnotator	CDS	1025393	1025659	.	-	0	ID=MGA_1715;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLTLIYATAVEKTQTVMIIILLALAIILTLYTIITLRKVGIAAKKVDYFFEDLTYKSEMLNATVDTVARVTNYADIFDAFAKRNVKS;locus_tag=LOCUS_17150;note=MGA_1715
sequence1	MetaGeneAnnotator	CDS	1025843	1026442	.	-	0	ID=MGA_1716;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKKNDDFILNKKTYETNETKKRLEEIKNSNILMSSQSTANDFYVPKRKTKNSQLEKVDIIKPRKKKNLPFSPEQQKEIEETITNIQSEYREFDKSSKIFEKRLLKEEQKLSRLILKTNRKIGSLIFKEDTEQLEKTVELQEEYLKAFDKVHDNIDTIALREQNVSLRDRRKHIYSKAYNAETERARRLIELRNKNRAT;locus_tag=LOCUS_17160;note=MGA_1716
sequence1	MetaGeneAnnotator	CDS	1026454	1027308	.	-	0	ID=MGA_1717;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEPLFSDDPAASKISKNFSSSSNLDNTEVSGDVDISVRNKLEELRKIVGAQKVTPQKREGVLGSIIDRARKNSQDIQTQVLENDPVIAKLLKIENLRKTGGVDEELYTDVEKIKKNTVSYADRAKEFYSKHTSKPVESELERVRRLSQEVQSKREEQKRQSSNFKTNEIIENLNVEKDNRTVKGIFKVPRKLHSYSHIQEITREQELKNKLLEIKKVKFRNIEEEIDLTIQEIDSKKFKDQSKKDQYLDEKLKEFDKLLRDSTKENRKPELELIKPRRTQSKKK;locus_tag=LOCUS_17170;note=MGA_1717
sequence1	MetaGeneAnnotator	CDS	1027459	1028112	.	-	0	ID=MGA_1718;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDRMDYYTNQQVDGYASTVGGIKNLVTYASFEYLQEEVELNGTMPHALIASFNGDLIAATKAYKEVFPNNNLVALVDYNNDCINDSLMVCNHFKNEIFAVRLDTSPNLVDKSLLKLKEKDNELHGVNPTLVKMLREKLDLNGHQNVKIIVSSGFDEYKIRYFEENSVPVDIYGVGDAITKNKIGFTGDIVLIDGKKQSKFGRENTFSNKIKSIKYM;locus_tag=LOCUS_17180;note=WP_011183486.1 nicotinate phosphoribosyltransferase (Mesoplasma florum) [pid:52.3%25%2C q_cov:99.1%25%2C s_cov:62.7%25%2C Eval:5.5e-57%2C partial hit],internal stop codon at [1028380:1028382](-),MGA_1718
sequence1	MetaGeneAnnotator	CDS	1028380	1028502	.	-	0	ID=MGA_1719;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKFNIDLRIFEDYYSADYFKKTREILSKFKPNQLVTMQ;locus_tag=LOCUS_17190;note=MGA_1719
sequence1	MetaGeneAnnotator	CDS	1028549	1028674	.	-	0	ID=MGA_1720;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPDGSQIKAGKLKGLDSFGMLCSAKELEINDEKYNKDGIME;locus_tag=LOCUS_17200;note=WP_011183487.1 hypothetical protein (Mesoplasma florum) [pid:63.4%25%2C q_cov:100.0%25%2C s_cov:21.2%25%2C Eval:1.3e-08%2C partial hit],internal stop codon at [1028675:1028677](-),MGA_1720
sequence1	MetaGeneAnnotator	CDS	1028675	1029076	.	-	0	ID=MGA_1721;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLFIKYIRNFNTIAVILSNKKVTETKTDSNLAVLFHNQEIAGFNILNFNSKQNFYLEDKRLQQKIRPILKQYFGDIKFEKQFIIAKITECEKIPETHLSKCKVNTGKEEIQIICGAKNARKDIYTTLATIDS;locus_tag=LOCUS_17210;note=WP_008364155.1 hypothetical protein (Mycoplasma feriruminatoris) [pid:39.4%25%2C q_cov:100.0%25%2C s_cov:67.3%25%2C Eval:1.9e-20%2C partial hit],internal stop codon at [1028549:1028551](-)%2C[1028675:1028677](-),MGA_1721
sequence1	MetaGeneAnnotator	CDS	1029157	1029369	.	+	0	ID=MGA_1722;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIAILIDSSCGIKNTKDYKDLYLIPLMITKEDGQQIADDENLSTDEFYKLNDSQLLKTSQSIPGDVMTK;locus_tag=LOCUS_17220;note=WP_011166859.1 DegV family protein (Mycoplasma mycoides) [pid:57.4%25%2C q_cov:97.1%25%2C s_cov:24.0%25%2C Eval:2.6e-14%2C partial hit],internal stop codon at [1029367:1029369](+),MGA_1722
sequence1	MetaGeneAnnotator	CDS	1029451	1029987	.	+	0	ID=MGA_1723;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFSQEDKYKDKIHVIDNNGVSIVIKRQLELVQKLIQQGKNGQEIRDIIETHYNDIHGYIIPKSLVQLVRGGRISKAAAGLAKILKITPILKYNGEIDKQGKTRTFKKAVEEALKLLKAMYPENKKIDISHSRTDEETINLVKKLVTDAGYEIGLLDDLANTIICHTGRETFAFMPFQI;locus_tag=LOCUS_17230;note=WP_011166859.1 DegV family protein (Mycoplasma mycoides) [pid:47.6%25%2C q_cov:95.5%25%2C s_cov:60.9%25%2C Eval:1.2e-36%2C partial hit],internal stop codon at [1029367:1029369](+)%2C[1030209:1030211](+),MGA_1723
sequence1	MetaGeneAnnotator	CDS	1029999	1030211	.	+	0	ID=MGA_1724;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIAVITDSSCGINDISSIKDLYLVPLMITKEDGEQIADDELFKANDFYNLNDSQLLKTSQSIPGIMMEK;locus_tag=LOCUS_17240;note=WP_011183488.1 DegV family protein (Mesoplasma florum) [pid:49.3%25%2C q_cov:98.6%25%2C s_cov:24.6%25%2C Eval:3.0e-10%2C partial hit],internal stop codon at [1030209:1030211](+)%2C[1030380:1030382](+),MGA_1724
sequence1	MetaGeneAnnotator	CDS	1030843	1031301	.	+	0	ID=MGA_1725;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIGILVDSSTGFIPEEHNSKLIRVIPLHLIVNNKDDYLDTPKVIKDNDLMKILAGNNRTTTSQASPGELMEKYDEMLKEFDHIIHMTIPSNLSGMHQTAVMLANDDNYKGKVTIIKHFLAANCVQLLALKFEEMIMDGINDISKFQEETDK;locus_tag=LOCUS_17250;note=WP_020862886.1 DegV family protein (Mycoplasma mycoides) [pid:41.4%25%2C q_cov:99.3%25%2C s_cov:53.0%25%2C Eval:9.5e-28%2C partial hit],internal stop codon at [1031299:1031301](+)%2C[1031314:1031316](+)%2C[1031422:1031424](+),MGA_1725
sequence1	MetaGeneAnnotator	CDS	1031449	1031640	.	+	0	ID=MGA_1726;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGRTYKAVLDKMTTALKKEMKNEYELLLVSLEEINHKIIEQIRNYLSENKLEFKEDKVPTVFP;locus_tag=LOCUS_17260;note=MGA_1726
sequence1	Aragorn:1.2.38	tRNA	1031758	1031833	.	-	.	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	1031886	1031961	.	-	.	ID=Aragorn_29;product=tRNA-SeC;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00280;note=Aragorn_29
sequence1	MetaGeneAnnotator	CDS	1032022	1032450	.	-	0	ID=MGA_1727;product=transcriptional repressor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166861.1;translation=MENKLNEYLKLFKSKKIKLTDVRLSMLNIIISKKHFTINEVISMVEKDLGSVNVMSIYNNIDLFLELHLLFANTINGKQIIYEAISPQLMHIFCDNCGSLEDLESPSLASELFLRFSEILTNKDMSLEHFKLELHGICKNCK;locus_tag=LOCUS_17270;note=WP_011166861.1 transcriptional repressor (Mycoplasma mycoides) [pid:37.9%25%2C q_cov:98.6%25%2C s_cov:90.9%25%2C Eval:2.9e-27],MGA_1727
sequence1	MetaGeneAnnotator	CDS	1032454	1032678	.	-	0	ID=MGA_1728;product=acyl carrier protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166862.1;translation=MNYFEEIKKALSNKGAKGTITNNTEFKSMGLDSLDLMDMIVTLEDKLNITVSDEDLLNIKKVSDLLEIIEKLKK;locus_tag=LOCUS_17280;note=WP_011166862.1 acyl carrier protein (Mycoplasma mycoides) [pid:57.5%25%2C q_cov:98.6%25%2C s_cov:100.0%25%2C Eval:4.7e-19],MGA_1728
sequence1	MetaGeneAnnotator	CDS	1032722	1033126	.	-	0	ID=MGA_1729;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKKLYKYLFLLILLLSIISTFGFIIFYYIKSINTVIEENNGVEEVNKPPVVEKSDFVKKDLKINFNLEQKIFIINFSKEKYFILNEFKYYFIIEFNKLGPKNNNIEIKFGVDNLALPKEIYVNYQGVNHRYS;locus_tag=LOCUS_17290;note=MGA_1729
sequence1	MetaGeneAnnotator	CDS	1033347	1033610	.	-	0	ID=MGA_1730;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELSILGKKMKLFIEMFLQGANRTNRLESTPKLKSVTNFSNYYNIKKIKDRVTYQENYYEITNDNFTSYSFPKSLVEETENGERGIL;locus_tag=LOCUS_17300;note=MGA_1730
sequence1	MetaGeneAnnotator	CDS	1033617	1034126	.	-	0	ID=MGA_1731;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYQTKINFKSGAIQFYIKTPTGVENIKVGKEDLLIIPSYTIIGKRLRTYTLNDFDFMQLNIPANLVDGQQQLVISYSASYNVEGYDLKPHTNYGTIEIDRRNLTENIYQTNNSTVTIANLAYGYLNFDFNNKYKKNYFDLIKNDLKIKIEQNSLNTIDPKIRIQSDYSL;locus_tag=LOCUS_17310;note=MGA_1731
sequence1	Aragorn:1.2.38	tRNA	1034438	1034513	.	-	.	ID=Aragorn_30;product=tRNA-His;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00290;note=Aragorn_30
sequence1	MetaGeneAnnotator	CDS	1034580	1036205	.	-	0	ID=MGA_1732;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYSAYKAEKRYIERTQELQIKGQENNQALNEKKNQDVDQEKEQGIYKKIHLKLSENENLRTMETEEFNANDDEFDNSLVLENSSTVDFEKDDIPEKTPKVVQREIKTEISKKDDELVKVYDKKIADETLDFLKSEIRELHRTLKEQNQLHAATSKLNQQSNFNAGPDTFGQMMQYMLMQNMMQNMNQNKITNRDISASDLKSIIKEEISLFANDLKEKQIKEEAEKQKLEAERRKEQERLILEQEIIAKVEREFREKYERERLEEEQLIQEEIDFKKLERQKENIREINFEKDKPDNSVGYLQFESNDQNKVIEREKINQNRNSAVKSMILSQNFIPPLTISTEIDMSSILKLKHMLKQTQNHIKFTTISFIAKAISIALEEYPRLNSSYDPETNEVIIKKYHNIGLATETSEGLIIPVLKFVDRLSIKEVAIDIKEMTSRLRAGELLNYEAEGSTITISNYGTVGAIQATPTIFYPNAAVIGVGKVVKKPVVVDNEKLAIKAIMHMSLTVDQRIIDAAESGNFLAKVKSILEKPEILTVS;locus_tag=LOCUS_17320;note=WP_004399364.1 2-oxoglutarate dehydrogenase complex dihydrolipoyllysine-residue succinyltransferase (Bacillus) [pid:32.8%25%2C q_cov:42.3%25%2C s_cov:55.2%25%2C Eval:1.0e-34%2C partial hit],MGA_1732
sequence1	MetaGeneAnnotator	CDS	1036497	1037483	.	-	0	ID=MGA_1733;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANIVIGEEEIKKYKGESFKRIEVSKIIDKETTTKQQNLQESNINKNLISQQITKESSNQNTKSTVANNNNNNIKEEFKSTSIKTQESQEEKNNMSESNNQSMDKFAQMRANIKESIKNAPQNNYNGDFSKEELLKITPEEVVREDGKNLLSTDNVSGMSKFRQLVQARKEKLLEEENFKEFKDTSAEINAMSKTDEKGRPLIMRNIIQARIEKLNSAGGDPRVLESDIIAIKNNAVLDHQRVKNNDRPDKHSNDNNSQLQQTSQITNQNRDNSQTLNKQDNVLNQSYFKEEKSALVDSNNEIDFSGAKMSKDNSNQFNKMESNYKPN;locus_tag=LOCUS_17330;note=MGA_1733
sequence1	MetaGeneAnnotator	CDS	1037880	1038149	.	-	0	ID=MGA_1734;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITREEHAYRIQKQKLKKVTIKNQAKMNLIHKKTEYKVFLKGIKVLEKNERKAKKRDYIKNKLLERKLKIASIKNSKLAEKNNKIQIKR;locus_tag=LOCUS_17340;note=MGA_1734
sequence1	MetaGeneAnnotator	CDS	1038435	1038662	.	-	0	ID=MGA_1735;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIGYFIFSCGDQYYSPRKYSKFSLPMNCLYPTGYLIFTMIRGELRYNFYSPEFYSRIYSPPSGNISSAFSGYDYF;locus_tag=LOCUS_17350;note=MGA_1735
sequence1	MetaGeneAnnotator	CDS	1038756	1039055	.	-	0	ID=MGA_1736;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFNKDFEFSLKVMILMVLVAFLAFDFVLQIYSPKKNLEGIPTLERLNIYYSFFTTQSNYAVVFYLAMAIFMKKIYNTKPPFSVELAMTVYISLTMIVF;locus_tag=LOCUS_17360;note=MGA_1736
sequence1	MetaGeneAnnotator	CDS	1039146	1039781	.	-	0	ID=MGA_1737;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKAQEIFNKKQDKLNLIVCHLGNGGSICAIKNGKSYNTTMGLTPLAGLMMGTRSGDIDPSIIQYISKETGKDIYEITDILNKQSGLQGVSEVSSDMRDVIAAAEKGNKKASLAVELYTQIVADFIVKFANQINDKIDGIIFTAGVGENAGVIREKVTQKCGLLDLNIDSNLNDEKYSDYLVISSAKSKMPILKVRTNEELMICNQTLKFL;locus_tag=LOCUS_17370;note=WP_011166467.1 acetate kinase (Mycoplasma mycoides) [pid:62.2%25%2C q_cov:99.1%25%2C s_cov:52.9%25%2C Eval:4.6e-69%2C partial hit],internal stop codon at [1039839:1039841](-),MGA_1737
sequence1	MetaGeneAnnotator	CDS	1039839	1040336	.	-	0	ID=MGA_1738;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILVVNAGSSSIKFKLFNIKDIKNPISTLDGLAERISVDGKLTIEINGEKHVFESEMKDHLEAVKLILSKFTELKVIGKPEDIKGIGFRVVHGGDKIVKTVELTNDIKKTIEDNIRLAPLHNPGALTSINAFQASLPNAKLVGCFDTSYHQTMPEINYMYTTPYK;locus_tag=LOCUS_17380;note=WP_011166467.1 acetate kinase (Mycoplasma mycoides) [pid:53.9%25%2C q_cov:100.0%25%2C s_cov:41.2%25%2C Eval:2.5e-46%2C partial hit],internal stop codon at [1039839:1039841](-),MGA_1738
sequence1	MetaGeneAnnotator	CDS	1040336	1041094	.	-	0	ID=MGA_1739;product=phosphate acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182940.1;translation=MIKVFLEVRKDKADEPTAKKLMNQRTYFGVMMMKLDLADAMICGLEYTTADTLRPALQIIKTSKKYSIASSVFLMSKEKEIYLFTDCALNVDPNANQLADIASMSADFAQQLNEKDVQVAMLSYSTSGSGMGPSVDKVKEAVNLLKAKSTKGIIFDGEMQFDSAFDKSVRVKKYPTTKITKEHPDVYVFPDLNSGNIGYKIAQRFGNFQAAGPFILGLNKPVNDLSRGATLEDIKQTSIVTIYTSMFNGGDK;locus_tag=LOCUS_17390;gene=pta;EC_number=2.3.1.8;note=WP_011182940.1 phosphate acetyltransferase (Mesoplasma florum) [pid:58.1%25%2C q_cov:97.6%25%2C s_cov:76.1%25%2C Eval:6.7e-79],MGA_1739
sequence1	MetaGeneAnnotator	CDS	1041322	1041750	.	-	0	ID=MGA_1740;product=pantetheine-phosphate adenylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166469.1;translation=MKKAIYPGSFDPFHEGHLNILVKAAKLFDEVIVVITKNISKSEKPDLNQRIEKIKSMIKGLKNVKIEINENKLTADFAKQRKIKYIVRGIRDSQTLDYEIELYDGNKSIYDELETILFLSDNKNRKISSTLLKEIEKYKSEE;locus_tag=LOCUS_17400;gene=coaD;EC_number=2.7.7.3;note=WP_011166469.1 pantetheine-phosphate adenylyltransferase (Mycoplasma mycoides) [pid:56.1%25%2C q_cov:97.9%25%2C s_cov:99.3%25%2C Eval:6.7e-40],MGA_1740
sequence1	MetaGeneAnnotator	CDS	1042064	1042591	.	+	0	ID=MGA_1741;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRALANNVGVEISNLRDDFDIQKELFKVDNINKLGADFISNFYGAIENYKFTNGAIISMGTTSTIAIIKDKELQGTIICPGLKNSLNCLISSAVLLQNNDYQKSNKIYGTNTIDAINIGAFNAHYLMLTSMIKKLNLDFAIFTGGNSIQFEEDILKDGYIFDESLIFKGLIKLNK;locus_tag=LOCUS_17410;note=MGA_1741
sequence1	MetaGeneAnnotator	CDS	1042619	1042963	.	-	0	ID=MGA_1742;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIDKDNVRKFIEDPLCGQVFTTSAFKDLFEGLLYIQNKKSISNMRKDLPIILVSGSNDPVGQYGKKVIKTYKKFKKAKLKVGLKIYENLRHEILFDIDKELVAQDTLKFLNAI;locus_tag=LOCUS_17420;note=WP_011182996.1 alpha/beta hydrolase (Mesoplasma florum) [pid:48.2%25%2C q_cov:98.2%25%2C s_cov:36.2%25%2C Eval:6.3e-24%2C partial hit],internal stop codon at [1042964:1042966](-)%2C[1043027:1043029](-),MGA_1742
sequence1	MetaGeneAnnotator	CDS	1043027	1043212	.	-	0	ID=MGA_1743;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLGHSMGSFLARSYAIDYGETIEGLVLSGTAWESKLSLKFGVRVAKSRQKKFGAKNIDQFI;locus_tag=LOCUS_17430;note=WP_011182996.1 alpha/beta hydrolase (Mesoplasma florum) [pid:54.1%25%2C q_cov:100.0%25%2C s_cov:19.7%25%2C Eval:7.3e-12%2C partial hit],internal stop codon at [1042964:1042966](-)%2C[1043027:1043029](-)%2C[1043285:1043287](-)%2C[1043375:1043377](-)%2C[1043480:1043482](-),MGA_1743
sequence1	MetaGeneAnnotator	CDS	1043704	1043994	.	-	0	ID=MGA_1744;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKTVQEYIKEGVISEKDLSEIKDEATHLAYKIIEKKRATYYGVGVCLAAIAKAILKNEQKMLLVGAHLNGEYENENIYTSVPCIIGRNGIEKIIK;locus_tag=LOCUS_17440;note=WP_011183494.1 L-lactate dehydrogenase (Mesoplasma florum) [pid:52.1%25%2C q_cov:100.0%25%2C s_cov:30.3%25%2C Eval:1.5e-22%2C partial hit],internal stop codon at [1043704:1043706](-)%2C[1044010:1044012](-),MGA_1744
sequence1	MetaGeneAnnotator	CDS	1044010	1044567	.	-	0	ID=MGA_1745;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKNKKIVLVGCGAVGTSFIYSAVNQGIAQDYVLIDVFKDAAIGNEMDIADAQAVLPVSFNSIKAGDYADCKDADIIVITAGRPQKPGETRLEMVADNAKIMKQIATQIKKSGFSGITIIASNPVDVLTYVYKTVTGYDSSKVISSGTTLDSARLRRLLAAKLGVMPNTVEAYLLGEHGDSSVAA;locus_tag=LOCUS_17450;note=WP_011166714.1 L-lactate dehydrogenase (Mycoplasma mycoides) [pid:67.0%25%2C q_cov:96.8%25%2C s_cov:56.3%25%2C Eval:6.2e-66%2C partial hit],internal stop codon at [1044010:1044012](-),MGA_1745
sequence1	MetaGeneAnnotator	CDS	1044719	1045123	.	-	0	ID=MGA_1746;product=30S ribosomal protein S9;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183390.1;translation=MAAKKEVVMYRGTGRRKSSVAQVILTPGQGEIIVNGKPALEFFPYATLVQDMEQPLDATGTKSDFSIKITVKGGGFTGQAGAARLGIARALLEASKDYKPELRGNGLLTRDARVKERKKYGLYGARRAPQFSKR;locus_tag=LOCUS_17460;gene=rpsI;note=WP_011183390.1 30S ribosomal protein S9 (Mesoplasma) [pid:76.7%25%2C q_cov:96.3%25%2C s_cov:98.5%25%2C Eval:2.9e-50],MGA_1746
sequence1	MetaGeneAnnotator	CDS	1045123	1045476	.	-	0	ID=MGA_1747;product=50S ribosomal protein L13;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166883.1;translation=MVLRGKNKPTFTPHINNGDHVIVINAEKIVLSGKKENDKNYYHHSMHPGGLKSRNVATQRKLFPERIIERAVRLMLPKNVQGGNQYRALHVYAGNEHPHQAQNPEILVVQSKKGDSK;locus_tag=LOCUS_17470;gene=rplM;note=WP_011166883.1 50S ribosomal protein L13 (Mycoplasma mycoides) [pid:69.2%25%2C q_cov:100.0%25%2C s_cov:77.5%25%2C Eval:1.9e-44],internal stop codon at [1045531:1045533](-),MGA_1747
sequence1	MetaGeneAnnotator	CDS	1045959	1046792	.	-	0	ID=MGA_1748;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSKFKKVLVGLSSIVFIPSITANVVSCTSDKYDDIFRPDPIMPITKNGFEKVNLDNINIEKIYYTDDLLKQIINSLELGGYKEDNLKIQVFKNNSEISLKDDLYRNGTYKFIISNKENANDNITASIKISNSVHLQDVFKVTTIGNIYDNRPRTIMMALMFNNIDMVNQLSKVGDELTDVSKFDYKQNNKGAIIRIKDEVPKQRPESYYGSLDVNYQITPFIAEEIEGQSFPMTISEIVKISNNKVPTISFGKLEGKDKYTVLMQFIIENLSNPTY;locus_tag=LOCUS_17480;note=MGA_1748
sequence1	MetaGeneAnnotator	CDS	1046900	1047028	.	+	0	ID=MGA_1749;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIYQIWNVNGKTKLTESVLTTNRIIAHAIANPTNELIIATGI;locus_tag=LOCUS_17490;note=MGA_1749
sequence1	MetaGeneAnnotator	CDS	1047055	1047315	.	-	0	ID=MGA_1750;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIGLNGGSDNTTSYTSYSTSSIQNALKIDEALKVINRINSTVDMIIYFVVFVTIFLSAIIILLTINLVISENAKIIAVMKILGYKE;locus_tag=LOCUS_17500;note=MGA_1750
sequence1	MetaGeneAnnotator	CDS	1047943	1048200	.	-	0	ID=MGA_1751;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGIYLNGYVKNQSLKLYGIKEDNKTQILKDNKTVDLKPQLFNNKNSILVNQSLAKRLKLKVGDKININHIITALNYEQDLLDINS;locus_tag=LOCUS_17510;note=MGA_1751
sequence1	MetaGeneAnnotator	CDS	1048408	1048548	.	-	0	ID=MGA_1752;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISETDYYAAFGRSFTFIQVDLTSTGQMKNDEPFEKSLYDYVDREN;locus_tag=LOCUS_17520;note=MGA_1752
sequence1	MetaGeneAnnotator	CDS	1048780	1049397	.	-	0	ID=MGA_1753;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFVFLEIITLITYFYMFNKYTPLQMINFESRSSTNKFKLAIKKTLTKGRKFDGRFKGAILSGSVLKLLSVFSVMLVSSSLITIGAIMPNVLHENKNKTYLINGFDNQIEYESPIYNSPTSFYKTYNPYSTFKDDLDDSKNILDMFLQNNVSEKIYNPSIDVGSLNDMTYKSIDIDYLKNDNLTIELGDIGQDQKNNFYKTVIFNL;locus_tag=LOCUS_17530;note=MGA_1753
sequence1	MetaGeneAnnotator	CDS	1049566	1049739	.	-	0	ID=MGA_1754;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLAFTIKSYKTFSYIIMLITLAIGIVMLVIMLNNQIKKSFGQSGVLLSLGYKKSSLI;locus_tag=LOCUS_17540;note=MGA_1754
sequence1	MetaGeneAnnotator	CDS	1050430	1050891	.	-	0	ID=MGA_1755;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNQKPFFKNSFKNLLRNKIQLITIIVLVFLTAFVFTLSYSSTTRVENSYKNFISQRNSNIHDAVIDLSKASYINDFEKDLFSKNISNSEVRDNLLITYLQNKLKHSSLEFDFDRVESRIATLSTNKTLKVFALNSEQKVDRFVVNKGMSLDL;locus_tag=LOCUS_17550;note=WP_011183053.1 ABC transporter permease (Mesoplasma florum) [pid:33.6%25%2C q_cov:91.5%25%2C s_cov:10.5%25%2C Eval:4.4e-12%2C partial hit],internal stop codon at [1050196:1050198](-)%2C[1050229:1050231](-)%2C[1050388:1050390](-)%2C[1050430:1050432](-),MGA_1755
sequence1	MetaGeneAnnotator	CDS	1050896	1051249	.	-	0	ID=MGA_1756;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGGFTVGGSTSGNFYQGHNIMALNQTLVSPIEFQTVSQGSTINLNFDLENMKEEYNVTVQSSDSNVASVNLIKNESYQYTIELTGKKKTGGFFGSKEPTMSIKVNGFTTYSFKVKVS;locus_tag=LOCUS_17560;note=MGA_1756
sequence1	MetaGeneAnnotator	CDS	1051355	1052404	.	-	0	ID=MGA_1757;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDSANKRIKIETSSQVAKNLKLTVVSKDNSHSQDVLINIEASKFNLAQENLIVNIAAGNMVNGLIDSSIAVGKEGFTITDEAIISGFNAMNNSNISKDELEIDREGEGTTEGNNGIGTSVIIRAKENSQVVEGETLLILNQNIDPNEYFANKNLGEIRLFEGAYNKLAEVLNSKDVISLGAIIFEQVGAKNTQLEYIKANFIQNLGEAGKAIMQNAKTTATTFQITNMPTLGGIFKEGINVEFTYKFVPEDRITLFEALPENKKVFVDVDKLMDKSKFAQKAAKEQIYNQLSQNFKTEISLNHFIEFTNIIFDTYEVITPGIISTSIPVDFKFDVLPGSDKLYAHDGAA;locus_tag=LOCUS_17570;note=MGA_1757
sequence1	MetaGeneAnnotator	CDS	1053072	1053242	.	-	0	ID=MGA_1758;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLDIINFDQNNYFVELKDEINIFLASKNEENDILFTHQLAEFLNNTKKATTPPLI;locus_tag=LOCUS_17580;note=MGA_1758
sequence1	MetaGeneAnnotator	CDS	1053513	1053770	.	-	0	ID=MGA_1759;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKIKKLSKTLIKNIFVLSLLLYFYLSAVSEFEIFLSNKANIIFNSFNVFINTIFMFILLLVLTIEFSKFMYYIEINIGNTKNLK;locus_tag=LOCUS_17590;note=MGA_1759
sequence1	MetaGeneAnnotator	CDS	1053949	1054086	.	-	0	ID=MGA_1760;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEYGELTDLIMVLSPSEYGARYGVLNSTRYTFNFTKNPKNNINPK;locus_tag=LOCUS_17600;note=MGA_1760
sequence1	MetaGeneAnnotator	CDS	1054508	1054789	.	-	0	ID=MGA_1761;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKLFSLIGSLVIVGSSVVPVAQLSSNIVNKDIDKNFHISEANDYVTYSLKMSYFQMDINYFYMTLQNLAAEGINEARNSKDIDLNDISIKSV;locus_tag=LOCUS_17610;note=MGA_1761
sequence1	MetaGeneAnnotator	CDS	1055021	1055158	.	-	0	ID=MGA_1762;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSSDLATKSMAKVIEEIENSNLNKEKNIMEKIDVNVIIPDYFKK;locus_tag=LOCUS_17620;note=MGA_1762
sequence1	MetaGeneAnnotator	CDS	1055303	1055449	.	-	0	ID=MGA_1763;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYLETTANKLVSDNIAEITKKADIIYAHSDSMARGALAALNKSEEGKK;locus_tag=LOCUS_17630;note=MGA_1763
sequence1	MetaGeneAnnotator	CDS	1055573	1055815	.	-	0	ID=MGA_1764;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGQNNPTQREAAKYVVQNNIPLVAVNIPFANDLKEGEKPNFQVYQDAEEASSKMGKEIFSLLTKNGVVPTENDKLKVFEI;locus_tag=LOCUS_17640;note=MGA_1764
sequence1	MetaGeneAnnotator	CDS	1055817	1056005	.	+	0	ID=MGA_1765;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTPKAPASTAFFVFVNSLFESCCDDVHLTLYLFLYLSFDDTYLFAVSNKSCQNAFGSSGIIN;locus_tag=LOCUS_17650;note=MGA_1765
sequence1	MetaGeneAnnotator	CDS	1055969	1056097	.	-	0	ID=MGA_1766;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLAIFGSTFLISSSALTVVACGDSKGVIQLIIPEDPNAF;locus_tag=LOCUS_17660;note=MGA_1766
sequence1	MetaGeneAnnotator	CDS	1056281	1056532	.	-	0	ID=MGA_1767;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYAVGGNQKAAYLSGIKTNMIMTSVYVFSGALVYGGTLIYISKLNSISPTSGNQLELDAIACVALGGTSLLGGKGGISKTLLG;locus_tag=LOCUS_17670;note=WP_000978822.1 hypothetical protein (Streptococcus agalactiae) [pid:49.2%25%2C q_cov:75.9%25%2C s_cov:20.3%25%2C Eval:1.4e-10%2C partial hit],internal stop codon at [1056224:1056226](-)%2C[1056281:1056283](-)%2C[1056551:1056553](-)%2C[1056605:1056607](-)%2C[1056638:1056640](-),MGA_1767
sequence1	MetaGeneAnnotator	CDS	1056638	1056877	.	-	0	ID=MGA_1768;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAFSGAITIKLLEANFAILLAIIIGLITACIFGFIAGFLISFMKLQPFIVTLVLMLSLRGATALLLESKATALPQETLQ;locus_tag=LOCUS_17680;note=MGA_1768
sequence1	MetaGeneAnnotator	CDS	1056834	1057061	.	+	0	ID=MGA_1769;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MASNSLIVIAPEKANTEPTERSIAPVKIIKVIPKATSNKSKLFVNKLIQVLCVKKYGFDKPATIEIISIKSNNFD;locus_tag=LOCUS_17690;note=MGA_1769
sequence1	MetaGeneAnnotator	CDS	1056977	1057861	.	-	0	ID=MGA_1770;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINPFKKVLVENARINIEQNYNKDIKFLEEHKEKVINRRLDIIFNISYIVANNIAIYENKIKNFYKSHNETIEELEIQLEDEIINQKEFDSLKKQALEKFNIQYQFKIQKVNNKIKKYSEKTEKIIDLKKEKYKLKNKEFSKSIDLKIANLKLKREEKIKKLILPNITRINAIEEVLISKKQNKLTNSKEYKSFVKIDSDLKNKSIGQTKFNQQMDLLKPKLDEKIQKIDRTKSFKVKKFSEVAKLTNFNSYLRRKKTKDSLINILNQSKLLLLILIISIVAGLSNPYFFTQRT;locus_tag=LOCUS_17700;note=MGA_1770
sequence1	MetaGeneAnnotator	CDS	1057877	1059397	.	-	0	ID=MGA_1771;product=galactose/methyl galactoside ABC transporter ATP-binding protein MglA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903113.1;translation=MQFVEQKNTNKSNKKVLVLKDITKKFGDVVALKGVNLNAYLGKCMGVLGENGAGKSTLMNIISGVYKRTSGYMIYNSKKYEPKNIKEAEKNGIVIIHQELNTISEMTVMDNIFLGSEIKNKFKIIKFKEQEKIINKIFDQLKIYINPYVKIGTLSIAQQQLIEIAKAVIRNANVIIMDEPTSSLSNNETLKLFEIIKKMKEQNKAIIYISHRLQEIPVICEDMTIIRDGEFIGEFKVGEINEDEIITKMVGRNVKEKFPKKILLNKSKICSIKNVQSNLIKDVSFDIYNNEILGFAGLVGAKRTELFKTIIGQLKDSKLEIILNNKKVNFKTPSDAIKKGFYYVTEDRKVDGLFLNFDIKFNITISSLRKYKNKFIKNISTKKQNNDSNYFLNKTLLKAPDIFRNVSTLSGGNQQKVLIAKALSVNPKIIIFDEPTRGVDVGARKEIYDLILEFKMQSKGAVIIISNDLPEIIGLCDSVIVMKNGTITKQLDNNNLTQEEILKYAI;locus_tag=LOCUS_17710;gene=mglA;note=WP_005903113.1 galactose/methyl galactoside ABC transporter ATP-binding protein MglA (Fusobacterium nucleatum) [pid:43.6%25%2C q_cov:96.8%25%2C s_cov:98.0%25%2C Eval:3.0e-110],MGA_1771
sequence1	MetaGeneAnnotator	CDS	1059535	1060053	.	-	0	ID=MGA_1772;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLYTIGTGLGGGVILNHELYFGNNTKLASEPGHSGGFQSNYQCNCNLPGCIEGLSSATGIEKELNKNYEYFSKKLNIQKKWIEIKDIYSLFQSEDKKTIDILTTCLTPLAKHIAVSLHLMDFEIVVIGGGPSALGKKLITIIKDILRKYLLPSFYKKLDLRIAKLGNDAGI;locus_tag=LOCUS_17720;note=WP_011183395.1 ROK family protein (Mesoplasma florum) [pid:47.6%25%2C q_cov:95.9%25%2C s_cov:53.8%25%2C Eval:1.1e-34%2C partial hit],internal stop codon at [1059520:1059522](-)%2C[1059535:1059537](-)%2C[1060180:1060182](-)%2C[1060198:1060200](-),MGA_1772
sequence1	MetaGeneAnnotator	CDS	1060198	1060443	.	-	0	ID=MGA_1773;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKNYALAIDLGGTTAKCALIYEEKIIDKIIIKTKKSEILENIYFNILPFLEKYKLKQSDLIFIGITICGLIDYENGISI;locus_tag=LOCUS_17730;note=WP_013729890.1 ROK family protein (Mycoplasma mycoides) [pid:34.7%25%2C q_cov:91.4%25%2C s_cov:23.4%25%2C Eval:5.2e-07%2C partial hit],internal stop codon at [1060180:1060182](-)%2C[1060198:1060200](-),MGA_1773
sequence1	MetaGeneAnnotator	CDS	1060485	1060964	.	-	0	ID=MGA_1774;product=galactose-6-phosphate isomerase subunit LacB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002369240.1;translation=MKIAIGCDHIVTDIKDKIVEMLKLDGIEVIDCGTNDFNRTHYPIYGHKVAVNVVTKKVDLGIVICGTGVGITNSAQKVKGARVVLAKDVLTVVDAKEKYNANIVGFGGRIVGLGLMYEMITKFIEAKYLAKNDKLISQIDNMIKQENYDSRIFDKENKK;locus_tag=LOCUS_17740;gene=lacB;EC_number=5.3.1.26;note=WP_002369240.1 galactose-6-phosphate isomerase subunit LacB (Enterococcus) [pid:49.7%25%2C q_cov:97.5%25%2C s_cov:93.0%25%2C Eval:2.5e-37],MGA_1774
sequence1	MetaGeneAnnotator	CDS	1060966	1061400	.	-	0	ID=MGA_1775;product=ribose 5-phosphate isomerase B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011947986.1;translation=MENIIIYINKKIDKEYKKYLLENIKSKNFTITFQEEKDMFSDLNELANKLSLKELQRVIVIDDFGTLPFMIMAQKKGVVVAQVSDYHSGRMTIEHNNSNVLSLGFAIIAKENMMDVINVYLNATFEAGRHMVRINMLENILEGE;locus_tag=LOCUS_17750;gene=rpiB;EC_number=5.3.1.6;note=WP_011947986.1 ribose 5-phosphate isomerase B (Clostridium botulinum) [pid:33.1%25%2C q_cov:86.1%25%2C s_cov:89.0%25%2C Eval:5.8e-10],MGA_1775
sequence1	MetaGeneAnnotator	CDS	1061477	1062247	.	-	0	ID=MGA_1776;product=DeoR/GlpR family DNA-binding transcription regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012775545.1;translation=MKSHNKSERVNIYLSNLNDQINLNMKSFIKIGHDYNIPEITVRRDVKFLEKMGYLKIDMGLMNFVKNKDYEITRNEKLQTNKEKKQIIAIKANELISSSEIFVGPGTTCETFIRAITKNINVLYTNGMEIARIANNSPNIHHVVIIGGRLRPQSTAMCGPIANRALETLKFAQSFITVTNVDQNLYLYNNHEDEAEFINNLINVTKETICLIDSSKINNLVKGNLICNIEKINTLVVDKLPDEEILSKIPPTIKNV;locus_tag=LOCUS_17760;note=WP_012775545.1 DeoR/GlpR family DNA-binding transcription regulator (Streptococcus suis) [pid:31.5%25%2C q_cov:94.9%25%2C s_cov:94.9%25%2C Eval:3.8e-21],MGA_1776
sequence1	MetaGeneAnnotator	CDS	1062503	1063075	.	-	0	ID=MGA_1777;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNQLYDNLYPIFNYKYSEEPEIIDLTQGFSVSSKIGDFSSVGLNGSFETKQVPCSEVESTDADENECTIVDPEKFNQGYGIGTLSTMLPKEQTRQILGQVTDLINLIIIMFITIAIIVSATIILLTTSLIIFENKQFIATMKTLGYSNGYVVRQILGMYIAPIMIMYVIGFIAGWYIFVIISDFLALNTA;locus_tag=LOCUS_17770;note=WP_020862895.1 ABC transporter permease (Mycoplasma mycoides) [pid:39.8%25%2C q_cov:92.6%25%2C s_cov:11.2%25%2C Eval:6.0e-27%2C partial hit],internal stop codon at [1062413:1062415](-)%2C[1062476:1062478](-)%2C[1062503:1062505](-)%2C[1063082:1063084](-)%2C[1063262:1063264](-)%2C[1063331:1063333](-),MGA_1777
sequence1	MetaGeneAnnotator	CDS	1063331	1064074	.	-	0	ID=MGA_1778;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGTAVLQTTYTRSPYFVQEYIKSAIENNENYNITFNLIPYDNNKDELGTMLNSNFLSKNGKVESAKIFGVEKDSKLVSLKNARGLELSSTLFKNEVNDFVPLIINESFSKKINKEVGQTISLKVLRELLKLDGENKDLVLNEDVKYGHNLVKDNKLNFNNEFRTQSTYAYYSNGGIYADNSSAILGRGVDSSTIGDINIAAKYADKATNPIDVYEKYKDGTLRVNSKYENVEFVIAGVQNGYGQPQG;locus_tag=LOCUS_17780;note=MGA_1778
sequence1	MetaGeneAnnotator	CDS	1064273	1064488	.	-	0	ID=MGA_1779;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDPTASPSTLDLKTYSRLMLQVYSKYIKGLKLTYNEGMIDRSNPEELLINASKAQNKLNSVFKTKKTKNY;locus_tag=LOCUS_17790;note=MGA_1779
sequence1	MetaGeneAnnotator	CDS	1064927	1065223	.	-	0	ID=MGA_1780;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPALTLLQGGDDKVINKFSMSIKSLFKKRGFNTRLKTALLTTSMGKLAGVSATMLLSATLITTTIIAPKVMKDNMTATFNGMNYENMVEYTQPIANNP;locus_tag=LOCUS_17800;note=MGA_1780
sequence1	MetaGeneAnnotator	CDS	1065272	1065604	.	-	0	ID=MGA_1781;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTGYNSMATALIIVIVAIAGFTTVLTTKKQVELQSKQIGCLKSLGYKKREIVNNFIAIPLIVSILGALLGYIISIFIETLVVSIFSNYFNIAFLGFKFNIVSFGTSIIGL;locus_tag=LOCUS_17810;note=WP_011183053.1 ABC transporter permease (Mesoplasma florum) [pid:41.4%25%2C q_cov:90.0%25%2C s_cov:6.9%25%2C Eval:3.9e-18%2C partial hit],internal stop codon at [1065233:1065235](-)%2C[1065272:1065274](-)%2C[1065695:1065697](-),MGA_1781
sequence1	MetaGeneAnnotator	CDS	1065695	1065913	.	-	0	ID=MGA_1782;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGYESIAYNFTKINNEGSTARNEVKKTMASYIVSNAKVVVTSENDRETYISVKAANGSNSELLNNLEKEYKT;locus_tag=LOCUS_17820;note=MGA_1782
sequence1	MetaGeneAnnotator	CDS	1066028	1066423	.	-	0	ID=MGA_1783;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNQIALKYNLDVSFTEARLISGLYGKKGDIRVKAISKINSDINMGVDKLVVSKGRTFKAEAKEVVIGESYAKQNGIKVGDIVRVNTDKYGKDLLVKNTEGNSPEVEQLKKDLREMTNVQTFLDSNAYRNQV;locus_tag=LOCUS_17830;note=WP_011183053.1 ABC transporter permease (Mesoplasma florum) [pid:35.7%25%2C q_cov:85.5%25%2C s_cov:7.6%25%2C Eval:2.5e-12%2C partial hit],internal stop codon at [1066028:1066030](-)%2C[1066475:1066477](-),MGA_1783
sequence1	MetaGeneAnnotator	CDS	1066475	1066729	.	-	0	ID=MGA_1784;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKGIRLLLKNAFKSAGKNKSQIIGLSLLVMLVSLVISVLGATSTRVVGAYNQLNSQSNLRDYVVDINMEDKILEPDENGKDIKE;locus_tag=LOCUS_17840;note=MGA_1784
sequence1	MetaGeneAnnotator	CDS	1066835	1067047	.	-	0	ID=MGA_1785;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISTNIIYAKIRNKIKSEINQTIFFSISTIIQQDLISSEYLNFTKLLLKEFKLDFMTITEKNSFVEQVVN;locus_tag=LOCUS_17850;note=MGA_1785
sequence1	MetaGeneAnnotator	CDS	1067336	1067470	.	-	0	ID=MGA_1786;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSYNKKNVKKLYMLFVLVHLTIIFISTFFKDSQDSLYFAIQTT;locus_tag=LOCUS_17860;note=MGA_1786
sequence1	MetaGeneAnnotator	CDS	1067816	1068298	.	-	0	ID=MGA_1787;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGIQVKDMNPIKKEFRVRNCKEKTYEYRINLGKNNVFENRHYFLAKNFLDIKKIKEALNLFVGNHDFLNFSGIKIEEIDLIKTKRKINSIECQLNDDIFFITFKAKGFIRYQIRMIVGACLAYSLGKITLDKIVNVLKLREAKMPYIANPEGLILKKITY;locus_tag=LOCUS_17870;note=WP_011166885.1 tRNA pseudouridine(38-40) synthase TruA (Mycoplasma mycoides) [pid:40.0%25%2C q_cov:98.8%25%2C s_cov:63.7%25%2C Eval:1.1e-24%2C partial hit],internal stop codon at [1068362:1068364](-)%2C[1068500:1068502](-),MGA_1787
sequence1	MetaGeneAnnotator	CDS	1068558	1068965	.	-	0	ID=MGA_1788;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYIFSTIISIALRMIPTLIDEAGRIMKAQSSRGIDFKNGKLIDKAKSMTSLIIPLLVSAFQKAEDLAYAMDSRGYDPHAKRTRYRQVKFRFLDVIIFTIGMGVFATLICYINISSFQEMVQIPRIDTILFSQPIK;locus_tag=LOCUS_17880;note=WP_011183051.1 energy-coupling factor transporter transmembrane component T (Mesoplasma florum) [pid:65.4%25%2C q_cov:95.6%25%2C s_cov:38.9%25%2C Eval:1.7e-40%2C partial hit],internal stop codon at [1068990:1068992](-)%2C[1069134:1069136](-),MGA_1788
sequence1	MetaGeneAnnotator	CDS	1069134	1069469	.	-	0	ID=MGA_1789;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRMVFGRYMPYNSIIHKMDPRLKLFMIISLIVVVFLPIGYTGFVLTASLIFMMYLISKLSFKMLIKLFFPIIFIFLVLILINIFMLKPDNFKELADGAHDTGAYAYGYLYK;locus_tag=LOCUS_17890;note=WP_011166886.1 energy-coupling factor transporter transmembrane component T (Mycoplasma mycoides) [pid:44.4%25%2C q_cov:81.1%25%2C s_cov:26.8%25%2C Eval:2.0e-17%2C partial hit],internal stop codon at [1068990:1068992](-)%2C[1069134:1069136](-),MGA_1789
sequence1	MetaGeneAnnotator	CDS	1069487	1070236	.	-	0	ID=MGA_1790;product=energy-coupling factor transporter ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183050.1;translation=MTGSGKSTLIQLTNGLLVTETGRTKIGDFQIPASTKKIKQVKELRREVGLVFQFPEYQLFQDTIEKDISFGPINLGANKKESFEKVPDLLKMVDLPIDYAKRSPFDLSGGQKRRVAIAGIIAMDGNTLVLDEPTGGLDPQGEEDFMNLFNKLNKEKNKRIIIVTHNMDHVLQIADQVIVMHKGKVISKGTPFEIFSNNKLLEQIEIEPPKLYKLAHKLKKAGLDVTRTEFRSVEELAKAIKEAVKAKRK;locus_tag=LOCUS_17900;note=WP_011183050.1 energy-coupling factor transporter ATPase (Mesoplasma florum) [pid:69.1%25%2C q_cov:98.8%25%2C s_cov:78.1%25%2C Eval:5.0e-95],internal stop codon at [1070366:1070368](-),MGA_1790
sequence1	MetaGeneAnnotator	CDS	1070447	1070716	.	-	0	ID=MGA_1791;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKIKRMSPEQKAKAVAEKKEHKVEYKIHLKELSVKQKHDNKSRKKRHKEVKNLIKADRKNQKEYQKEIKANIKKDKEFMPERIKEVKD;locus_tag=LOCUS_17910;note=MGA_1791
sequence1	MetaGeneAnnotator	CDS	1070704	1071540	.	-	0	ID=MGA_1792;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSKLSQTALKLDKIKFRYREGHPFAVNGVSVEIKHGDYIAIIGHNGSGKSTLSKIIIGVLQPTNGSIEVYGNKVTRNNINMIRKFLGIVFQNPDNQFIGSTVRDDIAFGLENRRIAPSKMADIIVKSAKKVRMEEFLDHEPLMLSGGQKQRVAIASALALSPDILIFDEATSMLDPKGKNEVKEIMVELKNTREKTIFSITHDMDEILNADKVMVMNKGELVKFGSPKEILSEKEFLRSIHLDIPFVAQIEEALQNEGLKISGSANLEELVKNICQK;locus_tag=LOCUS_17920;note=WP_011183049.1 energy-coupling factor transporter ATPase (Mesoplasma florum) [pid:66.7%25%2C q_cov:99.3%25%2C s_cov:68.0%25%2C Eval:9.2e-104%2C partial hit],internal stop codon at [1071622:1071624](-),MGA_1792
sequence1	MetaGeneAnnotator	CDS	1071622	1071921	.	-	0	ID=MGA_1793;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRGNTMSSTNLNATEKLNEFRLKLNEHNDKLIRASQKMIIARSKFSRREVEIDFVKSAENEYKIIKKDFKEVSDNSFFFENVKKAKEELKKASKNSKEY;locus_tag=LOCUS_17930;note=MGA_1793
sequence1	MetaGeneAnnotator	CDS	1072010	1072816	.	-	0	ID=MGA_1794;product=pyrroline-5-carboxylate reductase dimerization domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182942.1;translation=MRKVLFIGLGHMGSSLFKGILKNKKIEAVFYGYDTFKELQDKVINSVDRAKTLNNLEEIISIDINYIIFAVRPIDFDELCDNLNKLDLTNKTIISMVNAIEIEDLKSKFKQHQNLKIIRIMPNMNASIQKSVTAIAHSNVAKEELDFVIKMFESCGIVELIEEKNFATFTAISGCLPAYVFTFFKAITDYGIQNGIEKEKVFRIVEQSIIGSIENASNSGIELKDMIASICVPNGSTIQGQKVLEDNDFEQIIKKCLEQADKYSKPIK;locus_tag=LOCUS_17940;note=WP_011182942.1 pyrroline-5-carboxylate reductase dimerization domain-containing protein (Mesoplasma florum) [pid:53.4%25%2C q_cov:97.8%25%2C s_cov:98.5%25%2C Eval:3.3e-79],MGA_1794
sequence1	MetaGeneAnnotator	CDS	1072921	1073073	.	-	0	ID=MGA_1795;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDASEKETALQKLFSTIAKRFKTREGGYTRILKLDNRRGDNAPMCIIELV;locus_tag=LOCUS_17950;note=WP_011183048.1 50S ribosomal protein L17 (Mesoplasma) [pid:76.0%25%2C q_cov:100.0%25%2C s_cov:42.0%25%2C Eval:1.4e-15%2C partial hit],internal stop codon at [1073083:1073085](-)%2C[1073242:1073244](-),MGA_1795
sequence1	MetaGeneAnnotator	CDS	1073083	1073229	.	-	0	ID=MGA_1796;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRNLTTELIISERLEITETRAKELRQHFDKMVTLGKRGDLHARRQAAA;locus_tag=LOCUS_17960;note=WP_011183048.1 50S ribosomal protein L17 (Mesoplasma) [pid:87.5%25%2C q_cov:100.0%25%2C s_cov:40.3%25%2C Eval:3.4e-17%2C partial hit],internal stop codon at [1073083:1073085](-)%2C[1073242:1073244](-),MGA_1796
sequence1	MetaGeneAnnotator	CDS	1073298	1074251	.	-	0	ID=MGA_1797;product=DNA-directed RNA polymerase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166890.1;translation=MKQFSRPEFKLLKEEKNRNYGEFKVEPLERGFGTTLGNAIRRTLISSTPGAAVYAIKIVGAAHEFTSINGIVENVSRIILNLKKLALKIDSKIFDDEEFVELKVSSTRVGKITAGDISLPTGVEVMNPELHLCTIADGGVLDLTLFAKNSRGYRSFKDNKKEKLVADAITIDSNYSPIVRVAYHVDATKIGKSVDLEKLILEVETDGTVTASDAVATAAKILVEHLQFFVNLNDEINDLNVIGATNEEDEKELDRLIEDLDFTQRSLNCLKRASINSLRDLVSRTEDDIQEIRNLGRKSLKEIKDKVVQLGLTFKQD;locus_tag=LOCUS_17970;EC_number=2.7.7.6;note=WP_011166890.1 DNA-directed RNA polymerase subunit alpha (Mycoplasma mycoides) [pid:64.4%25%2C q_cov:99.7%25%2C s_cov:99.7%25%2C Eval:3.5e-113],MGA_1797
sequence1	MetaGeneAnnotator	CDS	1074260	1074502	.	-	0	ID=MGA_1798;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGFRGSKKSTPYAAQLIAEAAGKGAMDNGVKTIAVEVKGPGPGRDAAVRSLQGIGLEITSIKDTTPIPHNGVRPRKRPRG;locus_tag=LOCUS_17980;note=WP_008362476.1 30S ribosomal protein S11 (Mycoplasma mycoides group) [pid:87.5%25%2C q_cov:100.0%25%2C s_cov:62.0%25%2C Eval:9.2e-36%2C partial hit],internal stop codon at [1074518:1074520](-),MGA_1798
sequence1	MetaGeneAnnotator	CDS	1074518	1074649	.	-	0	ID=MGA_1799;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANNKQNNKKKVKKNIAKGIAHVHSTFNNTIVTVSDEKGNVIA;locus_tag=LOCUS_17990;note=WP_008362476.1 30S ribosomal protein S11 (Mycoplasma mycoides group) [pid:84.8%25%2C q_cov:76.7%25%2C s_cov:25.6%25%2C Eval:2.3e-10%2C partial hit],internal stop codon at [1074518:1074520](-),MGA_1799
sequence1	MetaGeneAnnotator	CDS	1074667	1075032	.	-	0	ID=MGA_1800;product=30S ribosomal protein S13;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183045.1;translation=MARINGVEIPNEKRVVIALTYIYGIGLTTSQKILEATKVSEDTRVKDLSEENIKLISQEISKVKTEGDLRRETALNIKRLMEIGCYRGMRHRKGLTVRGQSTKTNARTRKGPRKTVANKKK;locus_tag=LOCUS_18000;gene=rpsM;note=WP_011183045.1 30S ribosomal protein S13 (Mesoplasma) [pid:78.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.4e-49],MGA_1800
sequence1	MetaGeneAnnotator	CDS	1075270	1075497	.	-	0	ID=MGA_1801;product=translation initiation factor IF-1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183043.1;translation=MAKEDYLEVDGTVLEVLPNATFKVKLENEIVIDAHVSGKIRMNYIRILPGDKVTVAISPYDPTRGRITYRFKNGK;locus_tag=LOCUS_18010;gene=infA;note=WP_011183043.1 translation initiation factor IF-1 (Mesoplasma) [pid:82.9%25%2C q_cov:93.3%25%2C s_cov:89.7%25%2C Eval:1.0e-26],MGA_1801
sequence1	MetaGeneAnnotator	CDS	1075611	1076270	.	-	0	ID=MGA_1802;product=type I methionyl aminopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166892.1;translation=MAITIKNAEQIEKMRYAGQVLGEALQELKKMIKPGVNCLDLDKFFIDFITQKGCTSNFKGYGGFPAHICISINEQLIHGIPRNRILEDGDIVSIDAGCVFEKYHADAAFTVICGNSKDKKYDKLIELSEKSLYLAIEQVRAGVRIGTISSTVQKFIEENGYHLPTDYSGHGIGLEMHEDPFVPNVGVENTGMRLVPGMAICIEPMVQIGTNKTIVADDD;locus_tag=LOCUS_18020;gene=map;EC_number=3.4.11.18;note=WP_011166892.1 type I methionyl aminopeptidase (Mycoplasma mycoides) [pid:62.7%25%2C q_cov:99.1%25%2C s_cov:86.5%25%2C Eval:1.8e-79],MGA_1802
sequence1	MetaGeneAnnotator	CDS	1076275	1076907	.	-	0	ID=MGA_1803;product=nucleoside monophosphate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183041.1;translation=MNIILLGAPGSGKGTLSEFLCEKKTFTQLSTGDLFRDNISNKTDLGLRAQEFINKGKLVPDSVTNSMVEMYLNNKKKDLIFDGFPRTDDQALALDDMLKNLKEKIDQVVYLDIDESTLMGRLTGRMICQICKRSYHKINRKPLKEGICDFDNGTLVVRPDDQEDKIKIRLEAYHNQTAPLIKFYKDKIIKVDANCSPVELYNRVEKILGS;locus_tag=LOCUS_18030;note=WP_011183041.1 nucleoside monophosphate kinase (Mesoplasma florum) [pid:51.0%25%2C q_cov:97.1%25%2C s_cov:98.1%25%2C Eval:4.2e-54],MGA_1803
sequence1	MetaGeneAnnotator	CDS	1077337	1077570	.	-	0	ID=MGA_1804;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEAERKIPIQQTGAGLVDTKDHTPYLPLKLNNAGVIPVIFASAIISTPMTVAQIIAATNPNNGFVLFTQNYLSFGT;locus_tag=LOCUS_18040;note=WP_011166894.1 preprotein translocase subunit SecY (Mycoplasma mycoides) [pid:79.2%25%2C q_cov:100.0%25%2C s_cov:16.0%25%2C Eval:1.5e-30%2C partial hit],internal stop codon at [1077334:1077336](-)%2C[1077337:1077339](-)%2C[1077670:1077672](-)%2C[1077781:1077783](-),MGA_1804
sequence1	MetaGeneAnnotator	CDS	1078003	1078356	.	-	0	ID=MGA_1805;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAAKVNKTKKAKVTKYKNEFAKGGFFVRNKDLVKRIVFTLIVLIIIRMGTLLTVPGVQISPNFKESVGNQDFFQLLSTLGGGSIGQFSILALGVSPYITASIIVQLLSTDVIPVLTR;locus_tag=LOCUS_18050;note=WP_011183039.1 preprotein translocase subunit SecY (Mesoplasma florum) [pid:63.0%25%2C q_cov:85.5%25%2C s_cov:20.6%25%2C Eval:3.3e-33%2C partial hit],internal stop codon at [1077781:1077783](-)%2C[1077838:1077840](-)%2C[1077871:1077873](-)%2C[1078003:1078005](-),MGA_1805
sequence1	MetaGeneAnnotator	CDS	1078357	1078794	.	-	0	ID=MGA_1806;product=50S ribosomal protein L15;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183038.1;translation=MKLHELKSTPGSKKDSTRVGRGMASGKGKTSTRGHKGQNSRSGGGVRPGFEGGQTPLFRRLPKIGFTSLNRKEFVLINLDKLETLGLTEVNHKTLMEKKIIKNEKTLVKVLGNGKITKSIKVKVNKVSKSAEELIKAAGGTIEVI;locus_tag=LOCUS_18060;gene=rplO;note=WP_011183038.1 50S ribosomal protein L15 (Mesoplasma) [pid:73.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.3e-54],MGA_1806
sequence1	MetaGeneAnnotator	CDS	1078812	1079456	.	-	0	ID=MGA_1807;product=30S ribosomal protein S5;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183037.1;translation=MAEETKVVKTESAPKVDSNNQDKKDTRPNNNNRPNGQRRDPKFNRNREDNPYEERVVTINRVTKVTKGGRRFRFAAVVVIGDKKGRVGLGTGKANEVPDAIKKAIKEARKSLIRIPLAGSTVPHDVMGHYGAGKVMIKPARKGTGVIAGGPVRAVVELAGISDIYTKSLGSNTPINMIRATLEGLQQMQTPEQIARLRGNQVEVKKETKEATTA;locus_tag=LOCUS_18070;gene=rpsE;note=WP_011183037.1 30S ribosomal protein S5 (Mesoplasma florum) [pid:60.4%25%2C q_cov:96.7%25%2C s_cov:96.1%25%2C Eval:1.0e-63],MGA_1807
sequence1	MetaGeneAnnotator	CDS	1079474	1079824	.	-	0	ID=MGA_1808;product=50S ribosomal protein L18;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183036.1;translation=MKYTKAEARKRRHYRVRNKVSGTSAKPRLNVFKSNSYFYAQIIDDASGVTLVSSSSIKMGFKNGRNIDAAKAVGKDIAEKAKSKKITNVVFDRGGYLFHGKVKAFAESAKENGMKF;locus_tag=LOCUS_18080;gene=rplR;note=WP_011183036.1 50S ribosomal protein L18 (Mesoplasma) [pid:73.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.6e-43],MGA_1808
sequence1	MetaGeneAnnotator	CDS	1079848	1080390	.	-	0	ID=MGA_1809;product=50S ribosomal protein L6;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183035.1;translation=MSRIGNRVLTIPAGVEVKVETNNVVTIKGSKGELIQTFSPLIEIKVDGSELQTLRKNEQKHTKQLHGTTNSLIKGMLTGVSEGFVKELEIVGVGYRAALAGNKINLSLGFSHPVEYEVPKGILVEIPKPTEIKISGIDKQLVGEVAANIRAYRRPEPYKGKGVKYKDEKIIRKEGKAAGK;locus_tag=LOCUS_18090;gene=rplF;note=WP_011183035.1 50S ribosomal protein L6 (Mesoplasma florum) [pid:73.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.2e-72],MGA_1809
sequence1	MetaGeneAnnotator	CDS	1080410	1080796	.	-	0	ID=MGA_1810;product=30S ribosomal protein S8;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183034.1;translation=MTTDVIADMLTRIRNANQRFHKDVLIPGSKVKLEIANILKKEGFIEDFKVADDFKKDITISLKYKGKIRVIKGLKRISKPGLRVYSNSHDLPQVLNGLGIAIVSTSNGIMTDKEARHHNVGGEVLAFV;locus_tag=LOCUS_18100;gene=rpsH;note=WP_011183034.1 30S ribosomal protein S8 (Mesoplasma) [pid:75.0%25%2C q_cov:100.0%25%2C s_cov:99.2%25%2C Eval:1.6e-46],MGA_1810
sequence1	MetaGeneAnnotator	CDS	1080818	1081000	.	-	0	ID=MGA_1811;product=30S ribosomal protein S14;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003156488.1;translation=MAKKSLKVKQAKVQKFKVREYTRCGNCGRPHSVLKKFNLCRVCFRDLAYKGQIPGIKKAS;locus_tag=LOCUS_18110;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_1811
sequence1	MetaGeneAnnotator	CDS	1081020	1081574	.	-	0	ID=MGA_1812;product=50S ribosomal protein L5;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183032.1;translation=MAKANVNRLEQKYKEKIVPELFKEKQYKSIMQVPKIAKIVINMGIGDAVQDTKKLDDAVIELQQITGQKPLVTKAKKSLAVFKLREGMPIGAKVTLRGKRMYEFLDKLISVALPRVRDFRGVPKTSFDKQGNYTMGIKEQIIFPEIDYDKVKKVRGMDITIVTTANQKDDAFSLLQKIGMPFVK;locus_tag=LOCUS_18120;gene=rplE;note=WP_011183032.1 50S ribosomal protein L5 (Mesoplasma) [pid:77.5%25%2C q_cov:96.7%25%2C s_cov:98.9%25%2C Eval:5.1e-76],MGA_1812
sequence1	MetaGeneAnnotator	CDS	1081592	1081909	.	-	0	ID=MGA_1813;product=50S ribosomal protein L24;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183031.1;translation=MNKSKILRGDVVKVIAGNHKGKIGPVVKVSKDKKRVYVEGIVAIKHAKPSQTDQEGGMKEIPTSVDISNVSLVDPKNKNGFTKIGYKIADGKKVRIAKKSGVEVK;locus_tag=LOCUS_18130;gene=rplX;note=WP_011183031.1 50S ribosomal protein L24 (Mesoplasma) [pid:65.7%25%2C q_cov:100.0%25%2C s_cov:96.3%25%2C Eval:9.4e-36],MGA_1813
sequence1	MetaGeneAnnotator	CDS	1081923	1082291	.	-	0	ID=MGA_1814;product=50S ribosomal protein L14;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183030.1;translation=MIQNESRLKVADNSGAKEILVIRNLGGSVRKFTNIGDIVVATVKSAAPGGTVKKGQVIKAVIVRTVRGLRRADGTYIKFSENAAVIIKDDKTPRGTRIFGPIAREVKDAGFAKIASLAPEVL;locus_tag=LOCUS_18140;gene=rplN;note=WP_011183030.1 50S ribosomal protein L14 (Mesoplasma) [pid:81.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.0e-50],MGA_1814
sequence1	MetaGeneAnnotator	CDS	1082312	1082569	.	-	0	ID=MGA_1815;product=30S ribosomal protein S17;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_061104415.1;translation=MERNLRKTYIGRVVSDKMDKTITVLVETYKNHPIYKKRVKYSKKYKAHDENSSAQMGDRVEIMETRPMSKTKNFRLVRVVEKAII;locus_tag=LOCUS_18150;gene=rpsQ;note=WP_061104415.1 30S ribosomal protein S17 (Mycoplasma mycoides group) [pid:82.4%25%2C q_cov:100.0%25%2C s_cov:98.8%25%2C Eval:4.7e-35],MGA_1815
sequence1	MetaGeneAnnotator	CDS	1082572	1083957	.	-	0	ID=MGA_1816;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKAVDFMIELRTKSVEDLIKLGEDRRAELFALKFQAAVGSLEQTHRIPSLRKDIARIEMLLGERRLAGEEVNKTIKADYSKAVVEAEKAGKQVRKKHKDMIEKLQKEQFGTGEQEQVSEDAILAAMQKATEEPKEPIEIEVKEEKPAPAPVKEVVVEEKPAPAPVKEVVVEEPKPAPAPVKEVVVEEPKPAPAPVKEVVVEKPKPAPAPVKEVVVEKPKPAPAPKKEVVVEKPKPAPAPKKEVVAKPKPAPAPKKEVVAKPKPAPAPKKEVVAKPKPAPAPKKEVVAKPKPAPAPKKEVVAKSKPAPAPKKEVVAKSKPAPAPKKEVVAKSKPAPAPKKEVVAKPKPAIKTGKTIAEVKKPVIPKASSKVVPAGEAKATGKGKEKLKEIAVKNVKVGVAKGERIEGIDLKLSKKPKGAKTYTFGSNVAEAKRQIEEANKKMAERKAARQQAAKSSIKGAK;locus_tag=LOCUS_18160;note=WP_011166905.1 50S ribosomal protein L29 (Mycoplasma mycoides) [pid:60.2%25%2C q_cov:26.7%25%2C s_cov:86.2%25%2C Eval:1.0e-32%2C partial hit],MGA_1816
sequence1	MetaGeneAnnotator	CDS	1084248	1084370	.	-	0	ID=MGA_1817;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLMPKRVKFRRPHRVSYEGKAKGGKFIAFGEYGLMSLDGN;locus_tag=LOCUS_18170;note=WP_011183027.1 50S ribosomal protein L16 (Mesoplasma) [pid:69.2%25%2C q_cov:97.5%25%2C s_cov:28.5%25%2C Eval:1.2e-09%2C partial hit],internal stop codon at [1084092:1084094](-)%2C[1084176:1084178](-)%2C[1084248:1084250](-),MGA_1817
sequence1	MetaGeneAnnotator	CDS	1084469	1084588	.	-	0	ID=MGA_1818;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MARTEGYLEGSVPLSTLRSDIDYALYEARTTYGQIGVKV;locus_tag=LOCUS_18180;note=WP_011183026.1 30S ribosomal protein S3 (Mesoplasma) [pid:92.3%25%2C q_cov:100.0%25%2C s_cov:16.2%25%2C Eval:5.9e-14%2C partial hit],internal stop codon at [1084469:1084471](-),MGA_1818
sequence1	MetaGeneAnnotator	CDS	1085097	1085432	.	-	0	ID=MGA_1819;product=50S ribosomal protein L22;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183025.1;translation=MEAKAKLTMIRISPRKVRLVADTIRSKRISEAVAILQNQDKRSSEPVLKLLNSAVANAVNNNGMEADQLFVKTIFVNEGPTLKRFRPRAHGRAYEILKRTSHITIVVSDER;locus_tag=LOCUS_18190;gene=rplV;note=WP_011183025.1 50S ribosomal protein L22 (Mesoplasma) [pid:78.4%25%2C q_cov:100.0%25%2C s_cov:99.1%25%2C Eval:2.7e-43],MGA_1819
sequence1	MetaGeneAnnotator	CDS	1085963	1086583	.	-	0	ID=MGA_1820;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPIKKYKPTTNGRRNMTSLDYSILTTSKPEGSLVSKLNEKAGRNNHGQITTRHKGGGHKRKYRIIDFKRNKLDIAGKIATIEYDPNRNSFICLVHYIDGEKRYILFAKGMQVGQEVISSEHADIKIGNAAPLKNIPEGTLIHNVELRPGKGGQIARSAGSSVQILGKDEDGKYITLRLGSGEVRKVLAECYATIGEVGNEEYNLVN;locus_tag=LOCUS_18200;note=WP_011183023.1 50S ribosomal protein L2 (Mesoplasma) [pid:82.6%25%2C q_cov:100.0%25%2C s_cov:73.7%25%2C Eval:1.7e-97%2C partial hit],internal stop codon at [1085828:1085830](-)%2C[1085939:1085941](-)%2C[1085963:1085965](-),MGA_1820
sequence1	MetaGeneAnnotator	CDS	1086643	1086927	.	-	0	ID=MGA_1821;product=50S ribosomal protein L23;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183022.1;translation=MHLTQVIKKPLLTEKTYLGQQNGAYTFIVDKKANKTLIKKTFEEIFKVKVKDVRTMNYDGKEKRMGKYVGTKSSFKKAVIVLKDGETLDILSDL;locus_tag=LOCUS_18210;gene=rplW;note=WP_011183022.1 50S ribosomal protein L23 (Mesoplasma) [pid:74.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.9e-36],MGA_1821
sequence1	MetaGeneAnnotator	CDS	1086927	1087139	.	-	0	ID=MGA_1822;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSVMKNIKIEDQKTLIVTKEHEEIVVKSAGNIPGVKTLDFQKMNIFDLLNATKLVVTEDTVNKIEEVYA;locus_tag=LOCUS_18220;note=WP_011166912.1 50S ribosomal protein L4 (Mycoplasma mycoides) [pid:65.7%25%2C q_cov:100.0%25%2C s_cov:33.7%25%2C Eval:2.4e-20%2C partial hit],internal stop codon at [1087308:1087310](-)%2C[1087362:1087364](-),MGA_1822
sequence1	MetaGeneAnnotator	CDS	1087574	1088299	.	-	0	ID=MGA_1823;product=50S ribosomal protein L3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183020.1;translation=MKGILGRKLEMTQIFSENGKLIPVTVIAVEQNTVLQVKSVEKDGYQALKLGTIDKRANLFNKPDMGQFKKVNSEPKRFVKEIRDMEGYETGAVINAADVFNAGEFVDVTGISKGKGFAGAIKRHNYSRGPMGHGSGYHRGIGSMGAIINRIFKSKKMAGHMGHEQVTIQNLEIVKIDVEKNLVLVKGSVPGPRKGFVVIKQNVKGRKAQEAVSLLSRKTATKAVVEPTPAPVVEETAPAAE;locus_tag=LOCUS_18230;gene=rplC;note=WP_011183020.1 50S ribosomal protein L3 (Mesoplasma) [pid:71.9%25%2C q_cov:90.0%25%2C s_cov:90.3%25%2C Eval:1.1e-88],MGA_1823
sequence1	MetaGeneAnnotator	CDS	1088348	1088656	.	-	0	ID=MGA_1824;product=30S ribosomal protein S10;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183019.1;translation=MAQQKIKIKLKGYDHAIVDQSIAKIIEAAESTGAKVRGPIPLPTEKQIITILRATHKYKDSREQFEMRTHKRILEIVEPTPKTMDSLTRVQLPTGVNIEIKL;locus_tag=LOCUS_18240;gene=rpsJ;note=WP_011183019.1 30S ribosomal protein S10 (Mesoplasma) [pid:83.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.5e-44],MGA_1824
sequence1	MetaGeneAnnotator	CDS	1088835	1089029	.	+	0	ID=MGA_1825;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKIDLSRFFHYSFPINEANLTLLIDNIITVYPNRKIDNPTKNTTGIIVHPIIIGTAISRESNI;locus_tag=LOCUS_18250;note=MGA_1825
sequence1	MetaGeneAnnotator	CDS	1089107	1089433	.	-	0	ID=MGA_1826;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSNIQNADQMQRILLAPFNANNSTEGFAKYMDQSIGYTDYIQMKKMAMSNLITSVISISVIFVSLSLITAIIIIYLITEMFIGRYKRFMSYMRIQGYSMKEINSIIM;locus_tag=LOCUS_18260;note=MGA_1826
sequence1	MetaGeneAnnotator	CDS	1089650	1089946	.	-	0	ID=MGA_1827;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLDKFTYSNKEDFYFKKDNKYEQYYNMADIELSLQKKSLNKDLFKEVNEEYQEYSNKELIYRDAGDSYIVKPFDIYKYESGEPIEIGIETLLGGTNN;locus_tag=LOCUS_18270;note=MGA_1827
sequence1	MetaGeneAnnotator	CDS	1089998	1090279	.	-	0	ID=MGA_1828;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYTRVDSIINNKKQDKYTVYGIDLEQKASKNLLIKNQEKIKYNNSLDYIPVLINKKGELEGLKIGSEFNLQTSESLLATVDDDNLAYELKSDQ;locus_tag=LOCUS_18280;note=MGA_1828
sequence1	MetaGeneAnnotator	CDS	1090355	1090549	.	-	0	ID=MGA_1829;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDELVKVESQIIKENKIVRNRFNNVSCQIIPTLFGQGAISEVNDYNECIKSVSNNILPSTIKEL;locus_tag=LOCUS_18290;note=MGA_1829
sequence1	MetaGeneAnnotator	CDS	1090646	1090861	.	-	0	ID=MGA_1830;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNMSKEFYKNIKYNNDFSYSNVIVNNPLTRYSFYQMDEDNKAKSNLEASLFNTSIKKGENDYKTLFEVDY;locus_tag=LOCUS_18300;note=MGA_1830
sequence1	MetaGeneAnnotator	CDS	1090851	1091036	.	+	0	ID=MGA_1831;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFIVFGATDANVITELENNNIEKKTTKSFIALDNITSLNFEVKLIPFIFEKLLDKNILGL;locus_tag=LOCUS_18310;note=MGA_1831
sequence1	MetaGeneAnnotator	CDS	1091237	1091884	.	-	0	ID=MGA_1832;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLGKSYDINLKNNKGSYVMDGIGVDSLNVYPTIYEEDLLTNQENEAIFYISNSAFEQEFNKEAGEDSYQDVSRSYLTYKKTDKKNIEADMRMFQTYFADNVLNLGQVVENIEKQDYSENLARANIESYKDTKLINMRSSLFPGVVKGFYLLAIIFCIIFASALAFVVYNIFKKVLVSQRSQIGNLKSLGVSNSKIIFNYILYMTFPILILVPIG;locus_tag=LOCUS_18320;note=MGA_1832
sequence1	MetaGeneAnnotator	CDS	1092146	1092547	.	-	0	ID=MGA_1833;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKKHNYFEDKQLTPEAKKTALNIFQYMFYLNNSVITDIIKKDIIDIYENTEKKKEEIEKVINKGIGFIDDNGNYKFSSSEPKLNGENDIQENKLFKERASFYIKKFDSRTLFKTNFNINGYQILSNNITHRD;locus_tag=LOCUS_18330;note=MGA_1833
sequence1	MetaGeneAnnotator	CDS	1092929	1093162	.	-	0	ID=MGA_1834;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLFKNGLRKLLKDYVQFGIYLVLITIAVIFTSTFGIVSSNLISTNNNINRNFEKFDYSFRYTSSAYKSNDTQTFTP;locus_tag=LOCUS_18340;note=MGA_1834
sequence1	MetaGeneAnnotator	CDS	1093264	1093563	.	-	0	ID=MGA_1835;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEFTLDYNGIGDVTSNASKQTKKVEVGQKFNPYQTLEKHQQKEIEELKKLDKLDEEKLKNSGKILGLEQKIITKDDLAKYDGLGNYQDYKPVKNSYKIV;locus_tag=LOCUS_18350;note=MGA_1835
sequence1	MetaGeneAnnotator	CDS	1093801	1093986	.	-	0	ID=MGA_1836;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQGKNDNGGINLLNFARGAYNIFSNSEIMQEFELIINEFKDEKNFRDLTNVQKNKFLELIG;locus_tag=LOCUS_18360;note=MGA_1836
sequence1	MetaGeneAnnotator	CDS	1093996	1094196	.	-	0	ID=MGA_1837;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKTANNDKMEQGKNAKFIVEIIDELIKIYENTENKEEFNQKFFIEKSSPFYKAYSSIMEYIGEEN;locus_tag=LOCUS_18370;note=MGA_1837
sequence1	MetaGeneAnnotator	CDS	1094386	1094691	.	-	0	ID=MGA_1838;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSGKATQSVDFKNDKSLISNNKLKEENYIVANDENQSTINGNKFNSTGALITKVAGEQNVNGFISLFGSMLENLSDTKNGAFIMAEFMNILFPMITQDFSV;locus_tag=LOCUS_18380;note=MGA_1838
sequence1	MetaGeneAnnotator	CDS	1094857	1095429	.	-	0	ID=MGA_1839;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLNILTSVTLIGSAATSVAACGNGGGGKEPDLSSLQKEMLKGSEFISRLIVAGRHENLNYNINEILSIFLTPTPTAMNMPVSYKYKGESINMATNINKFKNYLAPSLNYYNGDYYAGMFASYIMGMYDNEFYDEIINGVDGAYYFRDTFSKKGNQGYNKNGNNAMGYAAGLGNDINLSKNEDRRNLA;locus_tag=LOCUS_18390;note=MGA_1839
sequence1	MetaGeneAnnotator	CDS	1096048	1096410	.	-	0	ID=MGA_1840;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIKNNLNLIVIFILLFLTFPIQNILNQKTNIIILSLFVNITLIIISLYFITVFISNLLRYIEKYNDEVSKKNLISMSLLNNNYKFYITMLVTFLFFIFSITQTYISIERTTIISMEVY;locus_tag=LOCUS_18400;note=MGA_1840
sequence1	MetaGeneAnnotator	CDS	1096773	1098422	.	-	0	ID=MGA_1841;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCSKEFKYSIDNYYNENKEQTKINTGFKVIADHVRAVVFAISDGVFPGNKDRGYIIRRLIRRSSVYGRKLGIKEAFLYKLVDKVIEAMKNFYPYLIEKKDIVKEVIKQEELRFLKTLSKGYEHLESIIKTEKKVSGKNALLLFESFGFPIELTTEIATQANVKIDLKGYEKLLEETKELARSSRKDDKAWNKQSAILTGLKEESEFVGYDLEECDSKINFIFEDESKLQSATNQVVFITLTKTPFYAEKGGQAADNGYLIDKQENRHLVMDVKNGPNGQHIHKVQVNGTLKIGDIVKASIDSEKRFYTMKNHSGTHILQAAIQEILGKEALQNGSYNDENGLRIDISYNRLPTVDELAKIHSVIAREINNKIPREIIYCSLKEAIDKHKALALFTEKYGENVRVIKFGSFSCELCGGTHVANTKDIEDLLITNVESKGSGVFRYHAVTSHKEVVNYLNEQFTKQKLEIQTLIDKFNNFKLKVKNKTIETQINEIMSLKVNKENVIVIKQKVNDLKNLFKIYQREIEELLIEEKLSQYSDISPIKKDNIN;locus_tag=LOCUS_18410;note=WP_011166380.1 alanine--tRNA ligase (Mycoplasma mycoides) [pid:55.4%25%2C q_cov:100.0%25%2C s_cov:61.4%25%2C Eval:1.4e-177%2C partial hit],internal stop codon at [1096677:1096679](-)%2C[1096773:1096775](-)%2C[1098594:1098596](-)%2C[1098663:1098665](-),MGA_1841
sequence1	MetaGeneAnnotator	CDS	1098882	1099067	.	-	0	ID=MGA_1842;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKPYFDGRMNPPSPRLTNSQKSIRTNDIENVGVTARHQTMFEMLGNFSIGDYFKKEAIEFA;locus_tag=LOCUS_18420;note=WP_011183510.1 alanine--tRNA ligase (Mesoplasma florum) [pid:90.2%25%2C q_cov:100.0%25%2C s_cov:6.8%25%2C Eval:1.0e-26%2C partial hit],internal stop codon at [1098594:1098596](-)%2C[1098663:1098665](-)%2C[1098726:1098728](-)%2C[1098858:1098860](-)%2C[1098882:1098884](-)%2C[1099089:1099091](-)%2C[1099170:1099172](-),MGA_1842
sequence1	MetaGeneAnnotator	CDS	1099581	1099961	.	-	0	ID=MGA_1843;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMGSIFAGTEESPGEEIIANGKKYKTYVGMGSLVAMKRGSSDRYFQKGAKKLVPEGIEARVPFKGKMREVVFQLMGGLKSGMGYTGSKGIEELRLETKFVKITNASLKESHPHDVELTKEAPNYNK;locus_tag=LOCUS_18430;note=WP_011183240.1 IMP dehydrogenase (Mesoplasma florum) [pid:78.2%25%2C q_cov:98.4%25%2C s_cov:32.6%25%2C Eval:4.1e-52%2C partial hit],internal stop codon at [1100055:1100057](-),MGA_1843
sequence1	MetaGeneAnnotator	CDS	1100055	1101050	.	-	0	ID=MGA_1844;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKNDLNGKIISEGITFDDVLLVPRYSEVLPNDVCLKTKLTKNIELNIPIISSAMDTVTESKLAIEMARCGGIGIIHKNLSIEEQSLEVQKVKRNESGFITDPITITKETIVQEANEIMATYKISGLPVVDNDGKLIGILTNRDLKYFEDFQAKVDVIMTKENLITGNPSTTLEQAKAVLLKNRIEKLPIVDANNTLVGLITTKDIDKAIDHPNACKDEKGRLRVGAAVGVGEDYMHRVDELVKAQADVIVIDSAHGHSKGIIDVIKAIRTKYKDLEIIAGNVCTAQGAEALYKAGANGIKVGVGPGSICTTRVVAGVGVPQITAINDVFN;locus_tag=LOCUS_18440;note=WP_011017001.1 IMP dehydrogenase (Fusobacterium nucleatum) [pid:63.7%25%2C q_cov:98.2%25%2C s_cov:66.7%25%2C Eval:9.4e-117%2C partial hit],internal stop codon at [1100055:1100057](-),MGA_1844
sequence1	MetaGeneAnnotator	CDS	1101069	1102010	.	-	0	ID=MGA_1845;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEFIENKIKSIKEIVGKEQVILGLSGGVDSSVAAALISKAIGKQLKCILVDTGLLRKDEAKKVMDLYNKEFEMDIKLVDASNEFYKALKGQVDPEDKRKTIGKKFIEVFSEQARQMQGAKFLAQGTIYPDVIESSSNGHVSKTIKSHHNVGGLPDDLKFELLEPLRELFKDEVRAVGKELGIPDLMINRHPFPGPGLGVRVIGEVTKEKCEILKEADDIFINNLIEANLYNEVSQAFVTLLPVKTVGVMGDNRTYDYVVALRSVNTIDFMTASSTHLPWEFLDKVVNEIINKVDGVNRVVYDITSKPPGTIE;locus_tag=LOCUS_18450;note=WP_011183239.1 glutamine-hydrolyzing GMP synthase (Mesoplasma florum) [pid:76.0%25%2C q_cov:100.0%25%2C s_cov:61.0%25%2C Eval:6.2e-131%2C partial hit],internal stop codon at [1102014:1102016](-)%2C[1102215:1102217](-),MGA_1845
sequence1	MetaGeneAnnotator	CDS	1102014	1102214	.	-	0	ID=MGA_1846;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSHADHLTKMPEGFKQIAHSDSSVAGISNEKLKVYGIQFHAEVTHSEQGIQMLKNFIFDISKCKAD;locus_tag=LOCUS_18460;note=WP_011183239.1 glutamine-hydrolyzing GMP synthase (Mesoplasma florum) [pid:62.1%25%2C q_cov:100.0%25%2C s_cov:12.9%25%2C Eval:1.6e-19%2C partial hit],internal stop codon at [1102014:1102016](-)%2C[1102215:1102217](-),MGA_1846
sequence1	MetaGeneAnnotator	CDS	1102215	1102604	.	-	0	ID=MGA_1847;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNTQILILDFGSQYTQLLARRVRNLNVYAEVIPFDKTKADLEKYHNLKAIILSGGPNSVYLNEAYKIDKEIFNLGVPILGVCYGMQLITEMFGGKVELADSQEFGKAKLYIDDVKSLLFKKVSQNSQV;locus_tag=LOCUS_18470;note=WP_011183239.1 glutamine-hydrolyzing GMP synthase (Mesoplasma florum) [pid:68.2%25%2C q_cov:100.0%25%2C s_cov:25.1%25%2C Eval:2.7e-43%2C partial hit],internal stop codon at [1102014:1102016](-)%2C[1102215:1102217](-),MGA_1847
sequence1	MetaGeneAnnotator	CDS	1102731	1103552	.	-	0	ID=MGA_1848;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGTKVTVLQFLPTILEMLDSDVSKEMTKELLSRGNLEIIYGVNTKSFGKKEVVYEKDGKEYKIKADYCLQSVGRKVVTEGFEKIGLEMNERGHINVNEYCETNIDGVYSIGDVTGKMMLAHVASHQGIIAANRIAKRLGNEHAEDLTMNFDRVPSCIYTYPEVACVGKTEDELKKSGTDYKVYKFPFAAIGKALADGNTGGFVKLICEPKYKQVLGCHIISNTATDMISEITTVMESEATISEIARAIHPHPSLSEAIGEAAEALESGKPINF;locus_tag=LOCUS_18480;note=WP_011182939.1 dihydrolipoyl dehydrogenase (Mesoplasma florum) [pid:61.4%25%2C q_cov:99.6%25%2C s_cov:45.2%25%2C Eval:2.6e-95%2C partial hit],internal stop codon at [1103658:1103660](-),MGA_1848
sequence1	MetaGeneAnnotator	CDS	1103658	1103828	.	-	0	ID=MGA_1849;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNKVTAIEGSAKAIDKNTVSVNGKKYTCDNLIVATGSVPNHFNLPGAKEAIESG;locus_tag=LOCUS_18490;note=WP_011182939.1 dihydrolipoyl dehydrogenase (Mesoplasma florum) [pid:64.3%25%2C q_cov:100.0%25%2C s_cov:9.3%25%2C Eval:1.0e-13%2C partial hit],internal stop codon at [1103658:1103660](-)%2C[1103892:1103894](-),MGA_1849
sequence1	MetaGeneAnnotator	CDS	1103892	1104617	.	-	0	ID=MGA_1850;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKVKFADIGEGLTEGTVTEVLVKVGDQVKMGDALFNVETDKVTSDIYAPVDGKVATILIAANQEIKVGQVVVEIDDGKGDAPKEATKAKSEPVEENASVVGATPVSNDLLSRGRARTVPPKRSAVETIVNAVNNVNMSGLTQGKGGPLKPAPKFNSTKPENHYEVIVIGAGVGGYVAAIKCAQLGLKTLIIEKGNYGGVCLNIGCIPTKTLLKSAYLYEQITKRADKYGIKVDLTGVKAD;locus_tag=LOCUS_18500;note=WP_011182939.1 dihydrolipoyl dehydrogenase (Mesoplasma florum) [pid:56.2%25%2C q_cov:95.9%25%2C s_cov:33.9%25%2C Eval:1.1e-56%2C partial hit],internal stop codon at [1103658:1103660](-)%2C[1103892:1103894](-),MGA_1850
sequence1	MetaGeneAnnotator	CDS	1104630	1105271	.	-	0	ID=MGA_1851;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTTAHEKVAGFTGLRNLDVTELVNIRKQLKGHADSLRVKLTYLAFIIKASANALRDMPNLNVRIDEENKAIKFAQQINIGMACDTPDGLMVPVIRGADKLSVLQIAVKINDLAIKARNKKLSASEMSGATFTVTNFGAVGLDYATPIVNFPEAAILGVGTITRAPGVIKEEIEIRDYMPFSITADHKVIDGADAGRFLTRVAYYLQNPATLLV;locus_tag=LOCUS_18510;note=WP_011166464.1 dihydrolipoamide acetyltransferase family protein (Mycoplasma mycoides) [pid:58.2%25%2C q_cov:100.0%25%2C s_cov:49.8%25%2C Eval:8.2e-66%2C partial hit],internal stop codon at [1105302:1105304](-),MGA_1851
sequence1	MetaGeneAnnotator	CDS	1105302	1105964	.	-	0	ID=MGA_1852;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKVKFADIGEGLTEGTVTEVLVKVGDQVKMGDALFNVETDKVTSDIYAPVDGKVATILIAANQEIKVGQVVVEIDDGKGDAPKEATKAKAEPAEENASVVGATPVSNEVISRKAREVAPKANIVSQASIIDNSNVDVKASPLARKVAAVMGVDLSKVSPSGPNNRILVSDVEGFAANPQMASPAIQSAGPGPKGAAIDYSNPLISVPEINEPLTFESKP;locus_tag=LOCUS_18520;note=WP_011166464.1 dihydrolipoamide acetyltransferase family protein (Mycoplasma mycoides) [pid:52.2%25%2C q_cov:100.0%25%2C s_cov:47.7%25%2C Eval:2.8e-48%2C partial hit],internal stop codon at [1105302:1105304](-),MGA_1852
sequence1	MetaGeneAnnotator	CDS	1105988	1106236	.	-	0	ID=MGA_1853;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFESVKKTGRLLVVHEAIRSFSVSAEIIASVNEECFEYLKAPSMRCTGYDIVIPFDSGEAYHQPHPKKILVKMEEILNYKF;locus_tag=LOCUS_18530;note=WP_011166463.1 alpha-ketoacid dehydrogenase subunit beta (Mycoplasma mycoides) [pid:73.2%25%2C q_cov:100.0%25%2C s_cov:24.9%25%2C Eval:2.4e-31%2C partial hit],internal stop codon at [1106246:1106248](-),MGA_1853
sequence1	MetaGeneAnnotator	CDS	1106246	1106686	.	-	0	ID=MGA_1854;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGRMRNRTRGKYPTPVVIRMPMGGGIRALELHSEAMEAMYAHTPGIKVVCPSTPYDTKGLILAAIESPDPVIVFEPTKLYRAFKQEVPEGFYTVEIGKAFKIQEGNDLTVVTYGAQTVDCQKAIDELEEKNPDVTIELIDLRSIQP;locus_tag=LOCUS_18540;note=WP_011166463.1 alpha-ketoacid dehydrogenase subunit beta (Mycoplasma mycoides) [pid:78.1%25%2C q_cov:100.0%25%2C s_cov:44.4%25%2C Eval:4.0e-62%2C partial hit],internal stop codon at [1106246:1106248](-)%2C[1106714:1106716](-)%2C[1106915:1106917](-),MGA_1854
sequence1	MetaGeneAnnotator	CDS	1107187	1107429	.	-	0	ID=MGA_1855;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPSIKVDGNDLLAVYAVAKEAVEHARSGKGPVFIECDTYRLGAHSSSDNPDIYRPKAEFEEALKSDPLIRMKKYLIDKKI;locus_tag=LOCUS_18550;note=WP_011166462.1 pyruvate dehydrogenase (acetyl-transferring) E1 component subunit alpha (Mycoplasma mycoides group) [pid:73.8%25%2C q_cov:100.0%25%2C s_cov:21.6%25%2C Eval:2.9e-29%2C partial hit],internal stop codon at [1107121:1107123](-)%2C[1107187:1107189](-)%2C[1107499:1107501](-),MGA_1855
sequence1	MetaGeneAnnotator	CDS	1107499	1107744	.	-	0	ID=MGA_1856;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGNEYGGQSPKGVNSLPPNIIIGSQFSHATGIAFAEKYRGTGGVAVTTTGDGGMSEGETYEAMNFAKIHELPVIFICENNK;locus_tag=LOCUS_18560;note=WP_011182936.1 pyruvate dehydrogenase (acetyl-transferring) E1 component subunit alpha (Mesoplasma florum) [pid:81.2%25%2C q_cov:98.8%25%2C s_cov:21.6%25%2C Eval:1.9e-33%2C partial hit],internal stop codon at [1107499:1107501](-)%2C[1107745:1107747](-)%2C[1107787:1107789](-)%2C[1107820:1107822](-),MGA_1856
sequence1	MetaGeneAnnotator	CDS	1107820	1108089	.	-	0	ID=MGA_1857;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFIGKFDPLKDEVVRIMDKNGKIIDEKLVPKMTDKELIDAYSLMNLSRRQDDFQNKAQRQGRLLSFLSSTGQEASEIGYTLPLIKGKD;locus_tag=LOCUS_18570;note=WP_011182936.1 pyruvate dehydrogenase (acetyl-transferring) E1 component subunit alpha (Mesoplasma florum) [pid:75.6%25%2C q_cov:92.1%25%2C s_cov:22.2%25%2C Eval:4.0e-31%2C partial hit],internal stop codon at [1107745:1107747](-)%2C[1107787:1107789](-)%2C[1107820:1107822](-),MGA_1857
sequence1	MetaGeneAnnotator	CDS	1108380	1108661	.	-	0	ID=MGA_1858;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQHGTILFNANLDKLTNYLTVDRAKILSKNIQSIAARVTNINSEVKNKIDIEAFMNKLIETYKKSDEIKTINLSEDEIKEITNLSKEKFKNSD;locus_tag=LOCUS_18580;note=WP_011986275.1 lipoate--protein ligase (Clostridium botulinum) [pid:47.8%25%2C q_cov:95.7%25%2C s_cov:27.5%25%2C Eval:1.0e-13%2C partial hit],internal stop codon at [1108380:1108382](-)%2C[1108680:1108682](-)%2C[1108941:1108943](-),MGA_1858
sequence1	MetaGeneAnnotator	CDS	1108680	1108850	.	-	0	ID=MGA_1859;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFSIIYTDLENKGVSLFSTMLEPVIKTLNELGVPAKFSGRNDIELNGKKISGNAM;locus_tag=LOCUS_18590;note=WP_003721881.1 lipoate protein ligase LplA2 (Listeria monocytogenes) [pid:54.5%25%2C q_cov:98.2%25%2C s_cov:16.4%25%2C Eval:1.3e-08%2C partial hit],internal stop codon at [1108680:1108682](-)%2C[1108941:1108943](-)%2C[1108989:1108991](-),MGA_1859
sequence1	MetaGeneAnnotator	CDS	1109263	1109724	.	+	0	ID=MGA_1860;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQLQHLSKKRLILIDLDGTTLMSNGEEIHPITKKALINATKNDHKVCIITGRPHRASIRFFNELGLTTLLTNFDGAHIHDPVSMKFKRIVFPISEDVVKEIMLHPIIKSSTSNILIESYNKAMVKEKNEFIENFFHLDDVDDDEYKIIDPYKH;locus_tag=LOCUS_18600;note=WP_011166439.1 Cof-type HAD-IIB family hydrolase (Mycoplasma mycoides) [pid:54.7%25%2C q_cov:89.5%25%2C s_cov:46.8%25%2C Eval:5.5e-39%2C partial hit],internal stop codon at [1109722:1109724](+),MGA_1860
sequence1	MetaGeneAnnotator	CDS	1109869	1110135	.	+	0	ID=MGA_1861;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVTLTNKIVNKGFVADILAQYYNKDIRDVIAFGDQMNDYEMVQKVGYGVAMKNGNTALKNIAAGITNLTNDEGGLGEYLEKLLRGMEV;locus_tag=LOCUS_18610;note=WP_011166439.1 Cof-type HAD-IIB family hydrolase (Mycoplasma mycoides) [pid:64.8%25%2C q_cov:100.0%25%2C s_cov:30.0%25%2C Eval:2.5e-25%2C partial hit],internal stop codon at [1109722:1109724](+),MGA_1861
sequence1	MetaGeneAnnotator	CDS	1110418	1110807	.	-	0	ID=MGA_1862;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGSISTLVHEVGHSVHTLFADQFQKYPLNNYPIILAEVASTFNEHLLFDYLFSSAKDIEEKKYLLQQRIFDLISTFYRQIQFADFEYSAHKLIEDGKPITTESLKDLFLQKQNEFGYDQFDDKDEPNYS;locus_tag=LOCUS_18620;note=WP_011166436.1 oligoendopeptidase F (Mycoplasma mycoides) [pid:61.6%25%2C q_cov:96.9%25%2C s_cov:21.0%25%2C Eval:2.6e-41%2C partial hit],internal stop codon at [1110418:1110420](-)%2C[1110817:1110819](-),MGA_1862
sequence1	MetaGeneAnnotator	CDS	1110817	1111347	.	-	0	ID=MGA_1863;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENSDPIKDQEKRREANDLYFKNYSSRKHSFAKIYEAIIQVQNEDKNVRSYNSILEMNLFDDQVSEEIYLNLIKVGKSTINCFKKYNKLIKSIYNFDKFYSTDRLLKISKDYKREFSVDEAKEIVINCLKVLGNDYQSKLNIALKDSLIDYYEDENKSDGAYSSGGNGVEPIILMN;locus_tag=LOCUS_18630;note=WP_011166436.1 oligoendopeptidase F (Mycoplasma mycoides) [pid:48.9%25%2C q_cov:100.0%25%2C s_cov:29.5%25%2C Eval:2.7e-44%2C partial hit],internal stop codon at [1110817:1110819](-)%2C[1111393:1111395](-)%2C[1111576:1111578](-),MGA_1863
sequence1	MetaGeneAnnotator	CDS	1112042	1112239	.	-	0	ID=MGA_1864;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQCSKIADLANSEPGREAGSSTAAAFLDSFAEGKEYIHLDIAATADANKRGRAPMLKTMFELLKK;locus_tag=LOCUS_18640;note=WP_011166365.1 M17 family metallopeptidase (Mycoplasma mycoides) [pid:57.6%25%2C q_cov:90.8%25%2C s_cov:13.1%25%2C Eval:5.0e-13%2C partial hit],internal stop codon at [1112273:1112275](-)%2C[1112354:1112356](-),MGA_1864
sequence1	MetaGeneAnnotator	CDS	1112354	1113379	.	-	0	ID=MGA_1865;product=M17 family metallopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182968.1;translation=MITSNKKEFTLTLKAVNSKDKLNELVVKENGVTSLISEDKTLYYFLNDKPCLRELGDSLEAIIKSNKYDLNVNVESFASKFKSEEAAFQKVVETIMFAAHKEFEMKEKQAEPKSINFLFDKKFNAIYETSAIKMEYLNFARDLQDLPPNVGTSVEIANRIAAKAKEIKEIKVTVYDKKQIESMGMGLLLSVNAGSSIDPRVVVLEYNSDSSQKKTALVGKGITFDTGGYNLKPSNFLDNMKFDMSGAAIVSSTVMALAKAKAKCNVVSIGLLTDNRIGGKATLTESVIKSMNGKTVEITNTDAEGRLVLADGITYAVRQAKADRAITVATLTGAIAIALGR;locus_tag=LOCUS_18650;note=WP_011182968.1 M17 family metallopeptidase (Mesoplasma florum) [pid:49.6%25%2C q_cov:99.7%25%2C s_cov:76.7%25%2C Eval:7.6e-85],internal stop codon at [1112273:1112275](-)%2C[1112354:1112356](-),MGA_1865
sequence1	MetaGeneAnnotator	CDS	1113427	1114014	.	-	0	ID=MGA_1866;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLKEQFKMITNIKNSRDLKYKPLSENYLLHFINNLLMTRSNFNTLELNQTKYKVSGTYLMYSIVNNKLNFCYVGESRNIISRFKQHVNGFKTSKERFYSKLRTKVNDIEDISFLILDQIDDQNERLIKETYYIYSTKSKFYSLNTKLVNRKMKCPKGHGMVKSFLNYEKNIEKLKLVIYGKCTNKKCKETFVIK;locus_tag=LOCUS_18660;note=MGA_1866
sequence1	MetaGeneAnnotator	CDS	1114085	1114696	.	-	0	ID=MGA_1867;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDAVDAYIPTPTRDKEKTFLMPVEDVFTITGRGTVATGRVERGVVKVNDEIEIVGLVEDSKKVVVTGLEMFRKLLDFAEAGDNVGALLRGVDRDNIERGQVLAKPGTIKPHTKLNASVYALTQEEGGRHKPFFNKYRPQFYFRTTDVTGEVHLPSGTDMVMPGDNVELVIELIKPIAVEQGTKFSIREGGRTIGAGTVVSIVQ;locus_tag=LOCUS_18670;note=WP_011183518.1 elongation factor Tu (Mesoplasma florum) [pid:88.1%25%2C q_cov:99.0%25%2C s_cov:51.0%25%2C Eval:1.4e-99%2C partial hit],internal stop codon at [1114718:1114720](-),MGA_1867
sequence1	MetaGeneAnnotator	CDS	1114718	1115272	.	-	0	ID=MGA_1868;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKEAFDRSLPHVNIGTIGHVDHGKTTLTAAITKVLAAKGGAEFKDYANIDNAPEERERGITINTSHVEYKTEKRHYAHVDCPGHADYVKNMITGAAQMDGGILVVAATDGPMPQTREHILLSRQVGVPAIAVFLNKCDMVDDEELIDLVEMEVRDLLSAYDFDGDGAPVIRGSALGALNGDAK;locus_tag=LOCUS_18680;note=WP_011183518.1 elongation factor Tu (Mesoplasma florum) [pid:96.7%25%2C q_cov:100.0%25%2C s_cov:46.7%25%2C Eval:6.6e-100%2C partial hit],internal stop codon at [1114718:1114720](-),MGA_1868
sequence1	MetaGeneAnnotator	CDS	1115388	1115840	.	-	0	ID=MGA_1869;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLENALQNGVIAGFPMIDVKATIVDGSYHDVDSNEMAYKIAASLALKEAAKKVNPVLLEPIMSVEVTVPDEYYGDVMGNISSKRGLIEGSEQRGNAQTIKSKVPLSEMFGYATELRSFTQGRGNYTMIFSHYNEAPKNIAEEIIKKQGK;locus_tag=LOCUS_18690;note=WP_011183519.1 elongation factor G (Mesoplasma) [pid:88.7%25%2C q_cov:100.0%25%2C s_cov:21.8%25%2C Eval:2.7e-72%2C partial hit],internal stop codon at [1115895:1115897](-),MGA_1869
sequence1	MetaGeneAnnotator	CDS	1115895	1116809	.	-	0	ID=MGA_1870;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAVEYDEDLMVKFLDGGEITIPELKSAIRKGVISAEFFPVLAGSAFKNKGVKLLLDAVVDYLPSPLDVPSIKGILPNGTEAERKAADDQPFAALAFKIMTDPFVGKLTFFRVYSGVLTKGSYVLNATKDKKERVGRLLKMHANNREEIDEVYAGDIAAAVGLKDTTTGDTLTDEKNEIILESMIFPEPVIHLALEPKTKADQEKLGLSLNKLSEEDPTFRTFTDEETGQTIIAGMGELHLDIIVDRLKREFKVETNVGAPQVSYRETIKGSAKVEGKYVKQSGGRGQYGHVVIEFEPNHDKGFE;locus_tag=LOCUS_18700;note=WP_011183519.1 elongation factor G (Mesoplasma) [pid:85.8%25%2C q_cov:99.7%25%2C s_cov:44.0%25%2C Eval:1.6e-147%2C partial hit],internal stop codon at [1115895:1115897](-)%2C[1116906:1116908](-)%2C[1117098:1117100](-),MGA_1870
sequence1	MetaGeneAnnotator	CDS	1116906	1117049	.	-	0	ID=MGA_1871;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKTGADFLYSVKTIGDRLGAKAAPIQLPIGAEDQFSGIIDLVEMKA;locus_tag=LOCUS_18710;note=WP_011166361.1 elongation factor G (Mycoplasma mycoides) [pid:91.5%25%2C q_cov:100.0%25%2C s_cov:6.8%25%2C Eval:4.0e-18%2C partial hit],internal stop codon at [1116906:1116908](-)%2C[1117098:1117100](-)%2C[1117242:1117244](-)%2C[1117302:1117304](-),MGA_1871
sequence1	MetaGeneAnnotator	CDS	1117302	1117457	.	-	0	ID=MGA_1872;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPREYSLNMIRNFGIMAHIDAGKTTTTERILFHTGRIHKIGETHEGESQMD;locus_tag=LOCUS_18720;note=WP_011183519.1 elongation factor G (Mesoplasma) [pid:86.3%25%2C q_cov:100.0%25%2C s_cov:7.4%25%2C Eval:1.2e-19%2C partial hit],internal stop codon at [1117098:1117100](-)%2C[1117242:1117244](-)%2C[1117302:1117304](-),MGA_1872
sequence1	MetaGeneAnnotator	CDS	1117483	1117605	.	-	0	ID=MGA_1873;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDRLANEIIDASNGVGGSVKKREDTHKMAEANKAFAHYR;locus_tag=LOCUS_18730;note=WP_003403456.1 30S ribosomal protein S7 (Mycobacterium) [pid:85.0%25%2C q_cov:100.0%25%2C s_cov:25.6%25%2C Eval:7.7e-14%2C partial hit],internal stop codon at [1117642:1117644](-),MGA_1873
sequence1	MetaGeneAnnotator	CDS	1117642	1117947	.	-	0	ID=MGA_1874;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKHQAEKRDVLPDPIYNSKLVSRAVNKIMLDGKRGTAQHILYKAFEKIKEKTGTTPIEVFDKAIENIKPHLELKVRRIGGANYQVPVEVSTERKVTLALR;locus_tag=LOCUS_18740;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:1.7e-42%2C partial hit],internal stop codon at [1117642:1117644](-),MGA_1874
sequence1	MetaGeneAnnotator	CDS	1117996	1118259	.	-	0	ID=MGA_1875;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTPKKPNSALRKYARVRLTNGMEVTAYIPGEGHNLQEHSVVLIRGGRVKDLPGVRYHIIRGTLDTTGVNGRMQSRSLYGTKRPKEKK;locus_tag=LOCUS_18750;note=WP_011183521.1 30S ribosomal protein S12 (Mesoplasma) [pid:91.8%25%2C q_cov:97.7%25%2C s_cov:62.0%25%2C Eval:1.4e-39%2C partial hit],internal stop codon at [1118365:1118367](-),MGA_1875
sequence1	MetaGeneAnnotator	CDS	1118530	1119033	.	-	0	ID=MGA_1876;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIFQNSIIVLISIDVNLEKEKLEKEIVTDSRGIDIIVATAVQAFGVKTNELLEKYSKLNLQEDSNNTFKPMNDFLKIVSELDAQSAFSKLMENILEFNQNYTNTYKRLSMIQEDQLSTKRIEIFMDYMNAYYLMIYLLELVLIYPLQEGMMNQKVFDNIMPNINLF;locus_tag=LOCUS_18760;note=MGA_1876
sequence1	MetaGeneAnnotator	CDS	1119082	1119285	.	-	0	ID=MGA_1877;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKAIKPINYEKIIIKRVNSVYQNLKQNISKEFKIPNNIEDFLNKNSQINTREEVELFGKEFDKTFGD;locus_tag=LOCUS_18770;note=MGA_1877
sequence1	MetaGeneAnnotator	CDS	1119515	1119784	.	+	0	ID=MGA_1878;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINLIANNKSISVQQLYNILPTELLVNPTIKNVLLQLYLEDNLKIQGQQKNNDERESNFILVFVKKPAPKVAVKVERRQSNIEELIDNN;locus_tag=LOCUS_18780;note=MGA_1878
sequence1	MetaGeneAnnotator	CDS	1120070	1120474	.	+	0	ID=MGA_1879;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLEYRPMPKKKEVIIEDNVFNGLSAFDLYYLESFLSDAAIKEKDKQHEIKITRDILKVRGNIKYSQEKQTSTIKVIFSFIGCLTIIGIPIVIASNSNKIRKKARKIYKENLKNRSYENLKSDLKTQNPRIIEF;locus_tag=LOCUS_18790;note=MGA_1879
sequence1	MetaGeneAnnotator	CDS	1120500	1120694	.	-	0	ID=MGA_1880;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKEALKEKLAAFKVEKEDKETEIEKCKETMKQAKLEIKIKKRELKNIKSEAKILKSSYKKQEM;locus_tag=LOCUS_18800;note=MGA_1880
sequence1	MetaGeneAnnotator	CDS	1120980	1121387	.	-	0	ID=MGA_1881;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFSFEDKLVNYQFNQTVRTVEEKKRKTKNGTKTIYVHNFVATTILRVENKKFDTSYNGIVILPGKSKKDNYNTESMQFNEKYNINVSNTDLRGPKFLRPKYIDNLTMKNTKNLSGIAIVTDFIVGHQYVSKNNI;locus_tag=LOCUS_18810;note=MGA_1881
sequence1	MetaGeneAnnotator	CDS	1121574	1121888	.	-	0	ID=MGA_1882;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQELNYLEETIEGFIEKHLDKSKLDSLLNKRKKYFTIGIILCLIAIVGFGLIILLFSNIEFEMGLIVFLILSAIDLIAVILGVKFFSKSKRIRKSVFDYINQIE;locus_tag=LOCUS_18820;note=MGA_1882
sequence1	MetaGeneAnnotator	CDS	1121991	1122353	.	-	0	ID=MGA_1883;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDTKVLEAESGIDVQLKRRRDTLIKLMDTVKGSINFEKSTLEQVTNMRMGGGAKTMMENNKILDQVSRSIMIQVENYPNLKSTELFQSMSRSINEIEEDIAASRRIYNSNVSTFNQSIQV;locus_tag=LOCUS_18830;note=WP_002985956.1 LemA family protein (Streptococcus pyogenes) [pid:38.7%25%2C q_cov:99.2%25%2C s_cov:65.4%25%2C Eval:3.7e-16%2C partial hit],internal stop codon at [1121991:1121993](-),MGA_1883
sequence1	MetaGeneAnnotator	CDS	1122628	1123167	.	-	0	ID=MGA_1884;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFSFEDKLVNYQFNQTIRTVEQRVRQTKNGTRVTYVYHFVATSILKVENKKFDQSYNGILIFPGKSSENNYKTESMQFNEKYGINVSNTDLRGPKVLRPKYIDNLTKKDTQNLSGIFFSSDIIIGHEYVTSMEPKQEICIFYKTRKLSREKILKVFAIKVLKDINFALEALTFLDGIY;locus_tag=LOCUS_18840;note=MGA_1884
sequence1	MetaGeneAnnotator	CDS	1123768	1124181	.	-	0	ID=MGA_1885;product=LemA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011254033.1;translation=MIIPLFIHIGNVNKLKKMDTKVLESESGIDVQLKRRRDTLIKLMDTVKGSINFEKSTLEQVTNMRMGGGAKTMMENNKVLDQVSRNIMLQVEKYPDIKSTELFQSMSRSINEIEEDIAASRRIYNSNVSTFNQSIQV;locus_tag=LOCUS_18850;note=WP_011254033.1 LemA family protein (Lactobacillus acidophilus) [pid:33.8%25%2C q_cov:98.5%25%2C s_cov:75.8%25%2C Eval:9.7e-17],MGA_1885
sequence1	MetaGeneAnnotator	CDS	1124343	1125029	.	-	0	ID=MGA_1886;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIYDLTDIVLRDENYNYVIKNDIEVPINLKNFIVEDNKINLPFVSVILEHNYPYLHNKFVKKEIVENSIKQGICVHNMISQSIKERNDFKLNLNILDCKNTNHINIAKRIITELNSFIYKYNIDQIYSERTYLYLGYDCNYLGTIDIILKSKDTYYIMDIKTSRSNFVDKYNAQLFLYKKIFENASKKIVENCFILNPREDRVFMEYVPISKKEQTRIISSIKNIKIM;locus_tag=LOCUS_18860;note=MGA_1886
sequence1	MetaGeneAnnotator	CDS	1125069	1126499	.	-	0	ID=MGA_1887;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRLNKLGRKLKIPNDFQVLHLDLNKLVEDNYPQTAMIFKENIVEKNQNNLNESVLDKNFVEEQKAKAVNMSFEELKEIESPISTTSDSIYNDFNFEESKISEQAILNEVKNIDNKELIDNNNSDFDTFNNSKEIKKQEDLDMIDLPKLEFSEFNQNFDGDQREKAVNMSIEELIEINLPSKTSTELDFNKINSEEMKAINDENKEEITLKSNILGDASFTEKLARAVNVDINQLSDSENMNTNIDLIYSDFNFKPSDINMEVIENNENHSNNLDSSSKTYVTLPPKMTLEFINEEKEQEQKEMDNLEDLKVEKSEIKNDILLNEDEFKKETVIETYEEIAPKVENNYNDKLVLIKDKSKQNDDLELLKNYSHKDQIEEIKRQLIIEQQNLAESCNSKMIEFEKQKISSIEKRIIRLENLLESLDNRIVKDTMIHDFTNMTYQLESISKVVNELKNHSPRNVLNSLTTRYESNKNNG;locus_tag=LOCUS_18870;note=MGA_1887
sequence1	MetaGeneAnnotator	CDS	1126611	1127048	.	-	0	ID=MGA_1888;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTLSITEFVRLRKHQRLSKPFVKIVLLTICIIVLLTGQLIFFIVSMIILATLILLEIVLFDSVALNNYAEERNLISIYREEKKFEKEVTKEGKLIGNVELRNQKKDSQKENDQNKRNDNSALPILNETQLDNFFRNEKNKKYYFK;locus_tag=LOCUS_18880;note=MGA_1888
sequence1	MetaGeneAnnotator	CDS	1127082	1127324	.	-	0	ID=MGA_1889;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFAIFIIFAWSLTLVASVALIAFAAFAIIMLITSPNPPEIIKNVLKIFTEPLFESIFGSGGKANFSNVGKPEFNEIPVII;locus_tag=LOCUS_18890;note=MGA_1889
sequence1	MetaGeneAnnotator	CDS	1127354	1128193	.	-	0	ID=MGA_1890;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFINEFINLLDSYNFNEKMNIVITNADEVDLNKILLINEFISKSLVKIPGLSCRMNVDSKVIDISRIDEIAENFDYIILDDLTLYEELYVNKNNIAENLEKNKLYDNQQNFTKIKKEENQNTGNIDHFFKEELSNKIYKKLSSEIEDINSEEDYDPGIDSSLRINIDKFIEKQRSEILERKKLEEQEIIKRKIPNGFNPSILSKKEIVIDRSITPSEGRSGFQNPFLKREEGIEIQQRPNKEIDENLNLLNRRPINIEDTVNNKINQQRDTKNISVPGS;locus_tag=LOCUS_18900;note=MGA_1890
sequence1	MetaGeneAnnotator	CDS	1128296	1129066	.	-	0	ID=MGA_1891;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYLNPFERMKKQREEDERKRLEDKKEQERLARLETQMGFINQYQNSESHIKNPSKINTYQTYNNDNEYYEFDQEDETSLYNRNKIKNGFENNFEEFEDFEEKHFVNYSSPKIEFKRQDILFEPQVYNKSKENIIQQESVDNSQKIHKLNEIFESENDSIINSNIENQEIKVEKIKIANNKIISKDQYVTLKNKKELFSKNTLMVNHPELLNDMNNDNLIYINLKQVVIYSSPCLFFLKKFINNLPEKISLEDKKTL;locus_tag=LOCUS_18910;note=MGA_1891
sequence1	MetaGeneAnnotator	CDS	1130151	1130438	.	-	0	ID=MGA_1892;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSFLLVGFLSIGFLNLFLKSKFSNYYKVLYIMVIAIFAVLSIVFEAISEYSYSKFYNLFDFLSQKDNTIFESESVKKMQEVFYNMSIKNSGNKYK;locus_tag=LOCUS_18920;note=MGA_1892
sequence1	MetaGeneAnnotator	CDS	1130445	1130675	.	-	0	ID=MGA_1893;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSNTDKFKIDNFKVSNKLMFKFLLLFLILSIQAVTFLVIININYSLKYYLNNLDVVKENFGKNLFVNKFEIEVLM;locus_tag=LOCUS_18930;note=MGA_1893
sequence1	MetaGeneAnnotator	CDS	1130707	1131504	.	-	0	ID=MGA_1894;product=peptide chain release factor N(5)-glutamine methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166353.1;translation=MNLTKLKQKYVPLVFTSNEFNEIIIYITHNSDFNFLNDIYLSEKELDLFFQIVDIFLKTNMPLAYILNNKYFYKYDFYVNEDVLIPRQETECIVEEIMKYDLNNKNLFDICCGSGCIGITLKNLQPKLNLYMSDISPKAIEVANLNLKKYKIKAKTFVSDFLNIFDQINIVPDYITINPPYINSLDLNIENNVKKFEPHLALFAKEEGLYFYKILAKRLDFLFQLNKNLLIICEFGFEQKEQLRNIFSGMIVKYNIDFKKDYSNN;locus_tag=LOCUS_18940;gene=prmC;EC_number=2.1.1.297;note=WP_011166353.1 peptide chain release factor N(5)-glutamine methyltransferase (Mycoplasma mycoides) [pid:42.3%25%2C q_cov:88.7%25%2C s_cov:85.1%25%2C Eval:4.6e-49],MGA_1894
sequence1	MetaGeneAnnotator	CDS	1131507	1132592	.	-	0	ID=MGA_1895;product=peptide chain release factor 1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183530.1;translation=MNKKTLEALDVMENRVNSIDETIQKEETLKDIKLLTELNKERATLDEIVQKYQEYKKVNKDIEEAKLILETEKEEEMRTLAKLQLEEEQAAIEIIEKDLELLLLPKDPNDDKNVIFEIRGAAGGDEANIFAGDLFRLYTKYAEKNNWKIDVIDANESAVGGFSQISFMLKGDKVYSKMKFESGSHRVQRVPKTESKGRIQTSTATVAVLPEVSDVEVEIKAVDLRIDTYRASGAGGQHINTTDSAVRITHIPTGIVAASQDGRSQHDNKDKAMTLLRARIYEAELEKQQSEAASMRKNAVGTGARSEKIRTYNYAQNRVTDHRVNLTLNKLDQVMEGNLDEIIVELINDEQKNMITQHIQG;locus_tag=LOCUS_18950;gene=prfA;note=WP_011183530.1 peptide chain release factor 1 (Mesoplasma florum) [pid:70.3%25%2C q_cov:99.7%25%2C s_cov:99.2%25%2C Eval:2.5e-142],MGA_1895
sequence1	MetaGeneAnnotator	CDS	1132602	1133144	.	-	0	ID=MGA_1896;product=thymidine kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183531.1;translation=MFSGKTEEFIRRLKRYKHAQQNVLVFKPLIDTRYSKDDIFSHSGMRIESIPVKDSEELYKIFIEQNAKQKIDIIGIDEVQFLDTKIVDVISKIADQGIITIVNGLDKDFKNNPFKNVDRLLVEAEYVDKLSAICHSCGGNANRTQRIIDGKPAKANEPIIVISANEKYEARCRHCYIRPE;locus_tag=LOCUS_18960;EC_number=2.7.1.21;note=WP_011183531.1 thymidine kinase (Mesoplasma florum) [pid:58.0%25%2C q_cov:97.8%25%2C s_cov:86.7%25%2C Eval:3.8e-57],MGA_1896
sequence1	MetaGeneAnnotator	CDS	1133270	1133404	.	-	0	ID=MGA_1897;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAYQTPDNKKVKVSIRSRDFDINSVAKNYNGGGHKLASGAKLDS;locus_tag=LOCUS_18970;note=WP_011183532.1 bifunctional oligoribonuclease/PAP phosphatase NrnA (Mesoplasma florum) [pid:64.9%25%2C q_cov:84.1%25%2C s_cov:11.8%25%2C Eval:6.2e-08%2C partial hit],internal stop codon at [1133270:1133272](-)%2C[1133408:1133410](-)%2C[1133564:1133566](-),MGA_1897
sequence1	MetaGeneAnnotator	CDS	1134163	1134453	.	-	0	ID=MGA_1898;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYTMNESLKIQSNNFKESGQIIINPMKVATNKKENGNLILELNAIINSNREFLDANMYEVITKENDLKLYFYSIKKYNINEKVKLYISDESILKVV;locus_tag=LOCUS_18980;note=MGA_1898
sequence1	MetaGeneAnnotator	CDS	1134520	1134681	.	-	0	ID=MGA_1899;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVINNLVIIDSKFSIIFVEESIYEIPDLSKNIYLITENDIVETSFEKVLEKN;locus_tag=LOCUS_18990;note=MGA_1899
sequence1	MetaGeneAnnotator	CDS	1134775	1135038	.	-	0	ID=MGA_1900;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFEGLSDEANTLRGKIVEVMHRYHKKVLNDECEKGNLEEFKEKKAVLKKQKVSIYKQSLLFIDETAKELGFEFSILSLKFNRMEEI;locus_tag=LOCUS_19000;note=MGA_1900
sequence1	MetaGeneAnnotator	CDS	1135090	1135365	.	-	0	ID=MGA_1901;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELSSLCTCEYNTKKVKDRKKRKLAKELNFRQTNFVTRKQLKILDLKVNDIKRKISKTNFIIKNLKKQILFELDKSEFQTKKVKNLEELFN;locus_tag=LOCUS_19010;note=MGA_1901
sequence1	MetaGeneAnnotator	CDS	1135549	1135737	.	-	0	ID=MGA_1902;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYTSLLLNRKFLSKAKINYIDKKYSYLSFSTSKNNKTDLEMRDKVESMISKFINNSVDVEEQ;locus_tag=LOCUS_19020;note=MGA_1902
sequence1	MetaGeneAnnotator	CDS	1135753	1136013	.	-	0	ID=MGA_1903;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSFTLSNVKFFNKKLLPKTVNFKCKDSELVTVISQERYLRKNFKNVLEGKYLVKSGIFKINQYDMVNKQWTKKKVATIGVNKFFRK;locus_tag=LOCUS_19030;note=MGA_1903
sequence1	MetaGeneAnnotator	CDS	1136104	1136394	.	-	0	ID=MGA_1904;product=50S ribosomal protein L31;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183534.1;translation=MPKANIHPQYFEAKIVCTTCSNEFMSGSTKGEEVRIDTCSNCHPYYTGKQNFANAEGRVEKFKEKFVKKDAKLAEAEKASLAQKAENEKKAKEAKK;locus_tag=LOCUS_19040;gene=rpmE;note=WP_011183534.1 50S ribosomal protein L31 (Mesoplasma) [pid:56.8%25%2C q_cov:83.3%25%2C s_cov:88.0%25%2C Eval:1.3e-21],MGA_1904
sequence1	MetaGeneAnnotator	CDS	1136538	1136783	.	-	0	ID=MGA_1905;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYSNGRLIIDIAILVIAFVFFPFVRGEGATKLDFLLTNFGLGTICFTFLVGPLVNQVLNILNKLFDYKKMTSLKEEKVVT;locus_tag=LOCUS_19050;note=MGA_1905
sequence1	MetaGeneAnnotator	CDS	1137468	1137641	.	-	0	ID=MGA_1906;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDVKEKLNNINNEIMEDYIMHLTVEEKIKIIRDFKNSGVTATQFAPTRNVSVVSLRN;locus_tag=LOCUS_19060;note=MGA_1906
sequence1	MetaGeneAnnotator	CDS	1137616	1137879	.	-	0	ID=MGA_1907;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVLHGGSGIPQDQVEKAIKLGISKINVNTELQLAFRDATREYVEAKKDLDDEAKGFDPRKLLAPGFKAIKQTFLDLTKVFGCQGKAK;locus_tag=LOCUS_19070;note=WP_011183540.1 class II fructose-1%2C6-bisphosphate aldolase (Mesoplasma florum) [pid:80.2%25%2C q_cov:98.9%25%2C s_cov:29.1%25%2C Eval:3.5e-35%2C partial hit],internal stop codon at [1137934:1137936](-)%2C[1137937:1137939](-),MGA_1907
sequence1	MetaGeneAnnotator	CDS	1137937	1138323	.	-	0	ID=MGA_1908;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGGANVVVGMVNGLLDSLNITVPVALHLDHGQSIEMAKKCIEAGYSSVMFDGSHLPYEENIAKVRELMDFANKHEISVEAEIGSIGGEEDGVVGEGELGDPKQAAEMATTGISMLAAGIGNIHGKYPE;locus_tag=LOCUS_19080;note=WP_011183540.1 class II fructose-1%2C6-bisphosphate aldolase (Mesoplasma florum) [pid:75.4%25%2C q_cov:95.3%25%2C s_cov:41.2%25%2C Eval:1.8e-47%2C partial hit],internal stop codon at [1137934:1137936](-)%2C[1137937:1137939](-)%2C[1138402:1138404](-),MGA_1908
sequence1	MetaGeneAnnotator	CDS	1138402	1138779	.	-	0	ID=MGA_1909;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYVIYSYLLFDFSLAIVELLTDAMQYFTNTILALILYLYFRKINLDQIVTKSFYYRYQVKKQDSIYLKKSRQSKIRSIIIKYNKNSGGKNMSRIYHSKLVNSTEMIKEAHAKKYAIGHFNINNLE;locus_tag=LOCUS_19090;note=WP_011183540.1 class II fructose-1%2C6-bisphosphate aldolase (Mesoplasma florum) [pid:74.3%25%2C q_cov:28.0%25%2C s_cov:11.8%25%2C Eval:1.5e-09%2C partial hit],internal stop codon at [1138402:1138404](-),MGA_1909
sequence1	MetaGeneAnnotator	CDS	1138786	1139118	.	-	0	ID=MGA_1910;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKINSKEIAICGLLTSVMFIIGILTNLISIGTGKSIFQVSDFLYIALLAFINPFTSILSAIMAGILTDLFGGGIIFIPITIIVKLLIGVTFILLTKVTPNYLNIFISYL;locus_tag=LOCUS_19100;note=MGA_1910
sequence1	MetaGeneAnnotator	CDS	1139164	1139667	.	-	0	ID=MGA_1911;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAAKFARENNIPYLGICLGMQVACIDFARNVLKLKEANTTEINPNTKYPIIDILKGKNRENIGGTLRLGRYLTSLKENTLAQKLYKSNEAVERHRHRYEFNNVFRSDFEKNGMVFSGLYLEKDLVEIIEYPKNDFFIAAQYHPEFTSRPNKPNPLFMGFVNAVNKKY;locus_tag=LOCUS_19110;note=WP_011166338.1 CTP synthase (Mycoplasma mycoides) [pid:58.9%25%2C q_cov:97.6%25%2C s_cov:30.6%25%2C Eval:1.0e-55%2C partial hit],internal stop codon at [1139776:1139778](-)%2C[1139929:1139931](-),MGA_1911
sequence1	MetaGeneAnnotator	CDS	1139929	1140759	.	-	0	ID=MGA_1912;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKHIFITGGVVSGLGKGITGSSLGVLLKNSGLKIFMQKFDPYLNIDPGTINPIEHGEVYVTDDGGETDLDLGHYERFIDVNLSKISSTSAGRIYYEALEKERNGKYEGKTVQVIPHITNEIKQRIYAAEIESKADVVITEIGGTVGDIESQPFLEALRQIRMENGKENVMFIHVALLPYLKVSGEFKTKPIQHSVKELLNLGIQPDVIVARSELEFDKKLKDKISLLCSIPVENVIACPDSDSIYKVPLVVEEGNLHKITAKQLGLKLKTTNLKD;locus_tag=LOCUS_19120;note=WP_011183544.1 CTP synthase (Mesoplasma florum) [pid:65.5%25%2C q_cov:99.6%25%2C s_cov:51.7%25%2C Eval:8.5e-102%2C partial hit],internal stop codon at [1139776:1139778](-)%2C[1139929:1139931](-),MGA_1912
sequence1	MetaGeneAnnotator	CDS	1141303	1141764	.	-	0	ID=MGA_1913;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYISKYKFKALKVIEIFKEVFENKIMPLEKYTNLDDYTMFEIFKIIRDEDDPIVKDLSNRLINRKFLKVSSDISLETIEKMKLDFKGNHTYYFDVATIRNNSIYNQNSEKKEENIYILNNDELSNLKDLSEIINVDWNNNIKKIYIFPMYNVE;locus_tag=LOCUS_19130;note=MGA_1913
sequence1	MetaGeneAnnotator	CDS	1141939	1142493	.	-	0	ID=MGA_1914;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKFIRDNVHGEIYLDDKVFSELIDTDEFQRLRRIIQLGGGQFVFPSANHTRFSHCIGVYHVICKFLENEIINKGISSKDKKVVKIAGLLHDIGHGPFSHTFELISTVHHEQYTVEIIRGNTQINKVLINNGIDPQEVVSVIEGKHKNKIVNSLVSSQLDADRLDYLLRDSKGAGVSYSKPDID;locus_tag=LOCUS_19140;note=WP_011183546.1 HD domain-containing protein (Mesoplasma florum) [pid:54.1%25%2C q_cov:100.0%25%2C s_cov:45.8%25%2C Eval:2.0e-56%2C partial hit],internal stop codon at [1141783:1141785](-)%2C[1141939:1141941](-),MGA_1914
sequence1	MetaGeneAnnotator	CDS	1142504	1142854	.	-	0	ID=MGA_1915;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFKKELEYGIQINDHLDIFFNKIIDEKTKTVLKEFKIEKNLVNFLVEELKNMENFSEENIKTLINTIGKKFEKKGRELFMPVRIFTTLSEHGPELAKTISLIGKEKVILNITSIK;locus_tag=LOCUS_19150;note=WP_011166335.1 glutamate--tRNA ligase (Mycoplasma mycoides) [pid:47.0%25%2C q_cov:100.0%25%2C s_cov:24.2%25%2C Eval:8.1e-24%2C partial hit],internal stop codon at [1142870:1142872](-)%2C[1142963:1142965](-)%2C[1142978:1142980](-)%2C[1143089:1143091](-),MGA_1915
sequence1	MetaGeneAnnotator	CDS	1143245	1143682	.	-	0	ID=MGA_1916;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQSEKFEVYKDYANKLLKENKAYKCFCTSEELEKDREQQLAKGIIAPQYNRKCLSNKINDDNKPFNIRFKVPENKLYKINDVVRGNVEFNSKEIGDFVILKSNGIATYNFAVVIDDYDMKITHVVRGEEHISNTPRQCMIYEAFG;locus_tag=LOCUS_19160;note=WP_011166335.1 glutamate--tRNA ligase (Mycoplasma mycoides) [pid:66.0%25%2C q_cov:99.3%25%2C s_cov:31.1%25%2C Eval:2.0e-53%2C partial hit],internal stop codon at [1142963:1142965](-)%2C[1142978:1142980](-)%2C[1143089:1143091](-)%2C[1143245:1143247](-)%2C[1143740:1143742](-),MGA_1916
sequence1	MetaGeneAnnotator	CDS	1143740	1143931	.	-	0	ID=MGA_1917;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIRLRYAPSPTGYLHIGNTRTALMNYLFAKHYNGDFILRIEDTDIERNVEGAIESQFDNMD;locus_tag=LOCUS_19170;note=WP_011183547.1 glutamate--tRNA ligase (Mesoplasma florum) [pid:87.3%25%2C q_cov:100.0%25%2C s_cov:13.1%25%2C Eval:1.6e-27%2C partial hit],internal stop codon at [1143740:1143742](-),MGA_1917
sequence1	MetaGeneAnnotator	CDS	1143918	1144406	.	-	0	ID=MGA_1918;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=MIFKVGFSKDRHNLITGNFILLGGIKIPSNSKVEAYSNGDVLFHSLAEAIFGSLGEEDLGQNYNSKNMSKNFESIIMVQDAMKILEEREYQISNVDILIELDSPNLTTFKSSIKKNLSQILKINLDQISIKATTTEGNFKNIITSYCNILIYKSEEKNNEKN;locus_tag=LOCUS_19180;gene=ispF;EC_number=4.6.1.12;note=WP_011459082.1 2-C-methyl-D-erythritol 2%2C4-cyclodiphosphate synthase (Desulfitobacterium hafniense) [pid:36.0%25%2C q_cov:83.3%25%2C s_cov:86.1%25%2C Eval:4.6e-21],MGA_1918
sequence1	MetaGeneAnnotator	CDS	1144694	1145578	.	-	0	ID=MGA_1919;product=redox-regulated ATPase YchF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011167065.1;translation=MGLQVGIVGLPNVGKSTLFNAITNSKVEAANYPFATIEPNVGVVEVPDDRLDKLANIFKSKKTIYTTIEFVDIAGLIAGASKGEGLGNAFLANIRETDAICEVIRCFDSKEITHVEGSVDPIRDIEIIELELILSDEATVKKRLAKVEPKFKSTKDKEIIFEYNLLKKLEAQLSDGKLLNKLEFNEEEKFALKSFQLLTTKKFIYVANVGEDEIRQDNNYVKLVRDYAKSCNSQVVKISAKIEEDLSELDKQDKEVFLQDAGIETSGLEQLIKAAYSTLGLKTYFTCGPQEARG;locus_tag=LOCUS_19190;gene=ychF;note=WP_011167065.1 redox-regulated ATPase YchF (Mycoplasma mycoides) [pid:67.9%25%2C q_cov:99.7%25%2C s_cov:80.2%25%2C Eval:1.8e-105],internal stop codon at [1144694:1144696](-),MGA_1919
sequence1	MetaGeneAnnotator	CDS	1145755	1146627	.	-	0	ID=MGA_1920;product=ParB/RepB/Spo0J family partition protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001185518.1;translation=MAKSKGKYNFKGLDDIFGESVSDIIGVIESDKKKVEDNKTLVDIKSLTANPYQPRKNFEKEELEELASSIKTHGIIQPIIINSKKQIIAGERRTRAAKLAGLKKIPAIVLELSESQMEEFAIIENIQRVDLLDIEEAVAYKKLSDNLKLKQEDIATRVGKSRSHIANIMRLLNLPEKVQDAMLQKKVSMGQAKPLLAIVNNEKLLDSIFKQILEKDLTAREVEQLIKNNNSPKNEIKQNVKSASLVHMENKMMRRLGTKVIIENGKLIIRYSDESDLNRVLDILGLTDED;locus_tag=LOCUS_19200;note=WP_001185518.1 ParB/RepB/Spo0J family partition protein (Leptospira) [pid:46.3%25%2C q_cov:84.5%25%2C s_cov:88.0%25%2C Eval:2.5e-54],MGA_1920
sequence1	MetaGeneAnnotator	CDS	1146614	1147387	.	-	0	ID=MGA_1921;product=sporulation initiation inhibitor protein Soj;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000516114.1;translation=MAKVISVSNQKGGVGKTTTSVNLACGLALANKRVLLIDMDPQFNATTGVGFEIDSNTLSMYHVFIGEKSLAEVVVKNIKKNIDLAPSSIDVAAVDLILLEQKNNNQNVLREEINKIGDNYDFVIIDCPPSLGLINRNGLAISDTVLIPIQAEHYAMHGVAQLLRTIKKVKETLNPNLTIEGVLVTMFDSRTKLAHDVLEEIMKTFGPKVYKSVIPRNVRISESSMEGKSIYEYDKNGAGSIAYIEFVKEVLKENGQI;locus_tag=LOCUS_19210;gene=soj;note=WP_000516114.1 sporulation initiation inhibitor protein Soj (Bacteria) [pid:46.2%25%2C q_cov:97.7%25%2C s_cov:98.8%25%2C Eval:1.2e-62],MGA_1921
sequence1	MetaGeneAnnotator	CDS	1147428	1147769	.	-	0	ID=MGA_1922;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNARAEEYSIENKEKFDVIISRAMAPLNILLEVGVQSLKLNGTFICLKSKNVNTELQDLNSQEKKLGLKLFLKQELYDEVLGERNNLFYSKENQTPLEFPRHYSQIRKRPLGK;locus_tag=LOCUS_19220;note=MGA_1922
sequence1	MetaGeneAnnotator	CDS	1147773	1148063	.	-	0	ID=MGA_1923;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKYKNLLQEENKIHNLTAIIKDQEILDKHFFDSLLFTKVFNPENLEILDIGTGAGFPGIVIKILYPNTKIYLLESNGKKIDFLKKVILELDLKNI;locus_tag=LOCUS_19230;note=WP_011183558.1 16S rRNA (guanine(527)-N(7))-methyltransferase RsmG (Mesoplasma florum) [pid:54.3%25%2C q_cov:97.9%25%2C s_cov:39.7%25%2C Eval:9.1e-23%2C partial hit],internal stop codon at [1147773:1147775](-),MGA_1923
sequence1	MetaGeneAnnotator	CDS	1148303	1148584	.	-	0	ID=MGA_1924;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVADYSSNSTVMFGFIVYLILMIYVLHNRRTKKVETLKVKGGFVIGIITCTILSIIMGYAYYNFMIGKFLSNDFKTMIDPILLIFFALVLAIV;locus_tag=LOCUS_19240;note=MGA_1924
sequence1	MetaGeneAnnotator	CDS	1148609	1149046	.	-	0	ID=MGA_1925;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIPILFAFDGFIYAATLQKDCEHKEVVAPAMLSAIIAVTFFYIIITISIFFGASDGDVFKLFDNLFKKSPWVALLFKLIIAGTILTTVNGYTTLIPKTVQSGVQEKFIYSKEGKDNISYVKSGFIGMAITISIYVLFLTISIAID;locus_tag=LOCUS_19250;note=WP_011182913.1 APC family permease (Mesoplasma florum) [pid:33.1%25%2C q_cov:96.6%25%2C s_cov:26.1%25%2C Eval:1.1e-16%2C partial hit],internal stop codon at [1149071:1149073](-),MGA_1925
sequence1	MetaGeneAnnotator	CDS	1149071	1149283	.	-	0	ID=MGA_1926;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLELFFSTIVLIGFSLMNIFTHKPSKFIQSIFTIVKFLPLITIVIGGFSLFIINPKGNNSFNPSTGYEP;locus_tag=LOCUS_19260;note=MGA_1926
sequence1	MetaGeneAnnotator	CDS	1149584	1149742	.	-	0	ID=MGA_1927;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKVNKANKAKNKSFEFLTIFSMVFGIVVGSGIYLKNKVEAGGVLHEAGRNP;locus_tag=LOCUS_19270;note=MGA_1927
sequence1	MetaGeneAnnotator	CDS	1149912	1150103	.	-	0	ID=MGA_1928;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHVPLIIQMLINRKTKKIEVRKVKGAYCAAIFSSSMLILTLAYIYYLNIIKSLIDGQLISPIM;locus_tag=LOCUS_19280;note=MGA_1928
sequence1	MetaGeneAnnotator	CDS	1150245	1150757	.	-	0	ID=MGA_1929;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQTVLSFLKFLPLLTVLIAGITFFSLGKESSFDPEKVGEFKINNIFLTMVPIMFAFDGFLDSAAIQKDCEHKEVVAPAMMTGIVAVSIFYIIISVAIFMGATDGNILNIFKRDNIDPRIHFTFNLIITLTLLTMVNAYSVIYPIVIRASIEEKFVYSKNNEGQLSKIKSS;locus_tag=LOCUS_19290;note=WP_011182913.1 APC family permease (Mesoplasma florum) [pid:29.2%25%2C q_cov:92.9%25%2C s_cov:31.5%25%2C Eval:1.3e-11%2C partial hit],MGA_1929
sequence1	MetaGeneAnnotator	CDS	1150966	1151193	.	+	0	ID=MGA_1930;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAYNIVTNDPYLLPRNLPAQAVKVLCSPFLVELDNSMKDNIIAQQKNAMSVQTAIAKYGLFPAFTSTPLSPAFFK;locus_tag=LOCUS_19300;note=MGA_1930
sequence1	MetaGeneAnnotator	CDS	1151118	1151291	.	-	0	ID=MGA_1931;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKVNKKNKTKNKIFEFLSVFSMTFGIVVGSGIYLKNAGDNGVLVKAGNNPYLAIAV;locus_tag=LOCUS_19310;note=MGA_1931
sequence1	MetaGeneAnnotator	CDS	1151784	1151936	.	-	0	ID=MGA_1932;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDDLINKGVIEPYRLLTSRAENRLTLRNDNSEMRLKKYGYEIGLVSKEE;locus_tag=LOCUS_19320;note=WP_011167160.1 tRNA uridine-5-carboxymethylaminomethyl(34) synthesis enzyme MnmG (Mycoplasma mycoides) [pid:80.0%25%2C q_cov:100.0%25%2C s_cov:7.9%25%2C Eval:6.4e-16%2C partial hit],internal stop codon at [1151784:1151786](-)%2C[1152156:1152158](-),MGA_1932
sequence1	MetaGeneAnnotator	CDS	1152156	1152857	.	-	0	ID=MGA_1933;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQRVVENQKNLELVIGVVKDITLDSNNNVKSVILEDKTEIHCKAVVLTTGTYLSSLIYRGEEKYEGGPNDEITTKSLSQTLVKLGLRTFRFKTGTPPRVKINSIDLSKALIEPGTNEDLAFSFSTSNFLPYEKQEVCYLIHSTSKTKKIIEENLHRSAMYSGEIESVGPRYCPSFEDKIVRFSTKETHQIFLEPESKSLDTFYVQGFSTSMPIEIQDKMLRSLPGFENVIVDK;locus_tag=LOCUS_19330;note=WP_011167160.1 tRNA uridine-5-carboxymethylaminomethyl(34) synthesis enzyme MnmG (Mycoplasma mycoides) [pid:61.0%25%2C q_cov:99.1%25%2C s_cov:36.7%25%2C Eval:1.4e-80%2C partial hit],internal stop codon at [1152156:1152158](-)%2C[1152900:1152902](-),MGA_1933
sequence1	MetaGeneAnnotator	CDS	1152900	1153166	.	-	0	ID=MGA_1934;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQAEIVVVGAGHAGVEAALASARLGKKTILVNLYRDKIATMPCNPSIGGPAKGIVVREIDSLGGEMGKAADATALQMKLLNSSRGPGI;locus_tag=LOCUS_19340;note=WP_011167160.1 tRNA uridine-5-carboxymethylaminomethyl(34) synthesis enzyme MnmG (Mycoplasma mycoides) [pid:82.4%25%2C q_cov:96.6%25%2C s_cov:13.5%25%2C Eval:7.9e-35%2C partial hit],internal stop codon at [1152900:1152902](-),MGA_1934
sequence1	MetaGeneAnnotator	CDS	1153552	1153803	.	-	0	ID=MGA_1935;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKSIGNVLDPIEIINTYSSDALRFYIINNLPTDKDGSFTNELFIESFNNNLANNIGNLISRVSNMIIKYFDGLLPIKKVSNH;locus_tag=LOCUS_19350;note=WP_011166223.1 methionine--tRNA ligase (Mycoplasma mycoides) [pid:63.8%25%2C q_cov:96.4%25%2C s_cov:15.7%25%2C Eval:2.0e-25%2C partial hit],internal stop codon at [1153417:1153419](-)%2C[1153552:1153554](-)%2C[1153825:1153827](-)%2C[1153885:1153887](-)%2C[1153951:1153953](-)%2C[1154026:1154028](-)%2C[1154071:1154073](-),MGA_1935
sequence1	MetaGeneAnnotator	CDS	1154071	1154286	.	-	0	ID=MGA_1936;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDETFHHFVCGKEAKNFEEETYMLKVSSFKKYLQELFSTDFLEPESRKKEMLNNFINNDLEDLSVTRVSFN;locus_tag=LOCUS_19360;note=WP_011166223.1 methionine--tRNA ligase (Mycoplasma mycoides) [pid:51.9%25%2C q_cov:73.2%25%2C s_cov:10.2%25%2C Eval:6.9e-10%2C partial hit],internal stop codon at [1153825:1153827](-)%2C[1153885:1153887](-)%2C[1153951:1153953](-)%2C[1154026:1154028](-)%2C[1154071:1154073](-)%2C[1154455:1154457](-),MGA_1936
sequence1	MetaGeneAnnotator	CDS	1154455	1154700	.	-	0	ID=MGA_1937;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYFFVTTPIYYPSGNLHIGHAYTTTLADVISRYKKEDGFEVFFLTGSDEHGQKIEEKAKEQNLKPKEYVDEIVKGFLNL;locus_tag=LOCUS_19370;note=WP_011166223.1 methionine--tRNA ligase (Mycoplasma mycoides) [pid:71.6%25%2C q_cov:100.0%25%2C s_cov:15.9%25%2C Eval:3.4e-30%2C partial hit],internal stop codon at [1154455:1154457](-),MGA_1937
sequence1	MetaGeneAnnotator	CDS	1154703	1155215	.	-	0	ID=MGA_1938;product=hypoxanthine phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005693468.1;translation=MDNQKLVTLITEEEIKAAIAKIGTDLGKTYENQQLVIVADLSSSFIFIADLIRELPIDVTIQFVTTPKENEDLLIDLGLKNTLTDKNVLIVNDVLNKGNRLQKLHSLVKKEKPANIQILNLIEKNIKERKMELESASLFKLEDVFVVGYGLTYKESYRGLKGIYSLSIEE;locus_tag=LOCUS_19380;gene=hpt;EC_number=2.4.2.8;note=WP_005693468.1 hypoxanthine phosphoribosyltransferase (Haemophilus influenzae) [pid:33.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.3e-21],MGA_1938
sequence1	MetaGeneAnnotator	CDS	1155208	1155534	.	-	0	ID=MGA_1939;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTNTINDLVINYDLIASHINDQKGIFFSQRVLTYILMKYQFSREEIYDFIQKCTLECQTSKKSFKEILIKNGIMKYISSKNELNELFDINFFTRNVEKMFRRVMNNHG;locus_tag=LOCUS_19390;note=WP_011182972.1 adenylosuccinate lyase (Mesoplasma florum) [pid:51.4%25%2C q_cov:97.2%25%2C s_cov:24.3%25%2C Eval:8.7e-26%2C partial hit],internal stop codon at [1155619:1155621](-),MGA_1939
sequence1	MetaGeneAnnotator	CDS	1155619	1156011	.	-	0	ID=MGA_1940;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRLARHQIEVAKISGSMGNYANLELEVEEYVAKAMSLNLDKISTQVTQRDRHAFLISVIANIASTFEKIATEIRHFQRSEVQEICEGFGLEQKGSSSMPHKKNPISSENICGLSRYARSFVNTAFENNVL;locus_tag=LOCUS_19400;note=WP_011182972.1 adenylosuccinate lyase (Mesoplasma florum) [pid:82.8%25%2C q_cov:98.5%25%2C s_cov:29.6%25%2C Eval:7.1e-52%2C partial hit],internal stop codon at [1155619:1155621](-)%2C[1156042:1156044](-)%2C[1156252:1156254](-),MGA_1940
sequence1	MetaGeneAnnotator	CDS	1156042	1156200	.	-	0	ID=MGA_1941;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIQQSNILLEESLNNLSKILKQKAEETKKIIIMGRTHGMYGEPTSLGLKFLL;locus_tag=LOCUS_19410;note=WP_011182972.1 adenylosuccinate lyase (Mesoplasma florum) [pid:63.5%25%2C q_cov:100.0%25%2C s_cov:12.0%25%2C Eval:1.4e-10%2C partial hit],internal stop codon at [1156042:1156044](-)%2C[1156252:1156254](-)%2C[1156444:1156446](-)%2C[1156471:1156473](-),MGA_1941
sequence1	MetaGeneAnnotator	CDS	1156252	1156404	.	-	0	ID=MGA_1942;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGFVPLDDAKKIKEIAKVDINRMLEIEQKTKHDVVAFTRMISEQLGSEKK;locus_tag=LOCUS_19420;note=WP_002440416.1 adenylosuccinate lyase (Staphylococcus) [pid:60.0%25%2C q_cov:100.0%25%2C s_cov:11.6%25%2C Eval:7.3e-12%2C partial hit],internal stop codon at [1156042:1156044](-)%2C[1156252:1156254](-)%2C[1156444:1156446](-)%2C[1156471:1156473](-),MGA_1942
sequence1	MetaGeneAnnotator	CDS	1156686	1156880	.	-	0	ID=MGA_1943;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MALKHAIRTSGIDSIFITLLDVLSGVDEINICVKYELDGKEINNLPSVNQKYERCQPIYLSNPG;locus_tag=LOCUS_19430;note=WP_011182971.1 adenylosuccinate synthase (Mesoplasma florum) [pid:64.1%25%2C q_cov:100.0%25%2C s_cov:14.9%25%2C Eval:1.2e-17%2C partial hit],internal stop codon at [1156686:1156688](-)%2C[1156890:1156892](-),MGA_1943
sequence1	MetaGeneAnnotator	CDS	1156890	1157819	.	-	0	ID=MGA_1944;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKYNSLVVVGAQWGDEGKGKMTDYFAQKANMVVRFAGGDNAGHVINFNGQKHKVTIIPSGIFNKRVTNIIGNGCVVNLINLVKEFEIIKQSGVDYGNLLISDRVQLILPYHILIDEAQENERGDNKIGTTKRGIGPAYQDKVSRLGIRLGELGEENFKQRFKLVFDYQMKFLKNMFNIKSLNFEDTYKDLIEAYTKIKERVIDTDSFIESAIKEGKKVLFEGAQGALLDIDHGTYPYVTSSNTSANNASTGSGISHKLINSTMGVVKAYSTRVGAGAFPTELNNKIGDGIRERGNEYGSNTKRPRRIG;locus_tag=LOCUS_19440;note=WP_011182971.1 adenylosuccinate synthase (Mesoplasma florum) [pid:78.0%25%2C q_cov:100.0%25%2C s_cov:72.0%25%2C Eval:1.2e-139%2C partial hit],internal stop codon at [1156686:1156688](-)%2C[1156890:1156892](-),MGA_1944
sequence1	MetaGeneAnnotator	CDS	1157828	1157950	.	-	0	ID=MGA_1945;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKMTEEEIVLIKKQILNISSFVEEFISQEDFKNIMNKFN;locus_tag=LOCUS_19450;note=MGA_1945
sequence1	MetaGeneAnnotator	CDS	1157954	1158388	.	-	0	ID=MGA_1946;product=aminoacyl-tRNA hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182974.1;translation=MSKLIVGLGNPGQNYVNTRHNAGFIAIDVLLEKYGFQKSIENFNAQIFFSNIKGEKILFVKPQTFMNLSGEAIISILQYYKIDIKDFIVLHDDKDLELSKTRFRNSGSAGGHNGIKNIISHLKTENFNRLKIGIGNPGQYKIVD;locus_tag=LOCUS_19460;gene=pth;EC_number=3.1.1.29;note=WP_011182974.1 aminoacyl-tRNA hydrolase (Mesoplasma florum) [pid:59.4%25%2C q_cov:98.6%25%2C s_cov:76.9%25%2C Eval:7.3e-45],internal stop codon at [1157954:1157956](-),MGA_1946
sequence1	MetaGeneAnnotator	CDS	1158390	1159427	.	-	0	ID=MGA_1947;product=ribose-phosphate pyrophosphokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182973.1;translation=MNKQDIKIFGLSSNKNLTKRICEILDVEESQANTSKFLDGEMIVQSLDSVRGQEIYIVQSTNQPVNDNLMELLIAVDAFKRANAAKINVVIPYFGYARQDRKAKGRQPITSRLVANLIETAGAHRVITVDLHSAQIMGFFNIPTDNFSTAQIVASEIIDTISKNKLDPSQCILVSPDHGGLSRVHGVAKYTGNITNGIAVIAKRRPEPNKAEVEFILGDVKDKTCFIIDDMIDTGGTIIKGAQALREQGAKEIHIIACHGLFNGEAVSKMQAVIDDKTVNSVVVTDTIQIPQERKFKGLKIISVAKLLARMIKSSYEKSSLTGVYNEEQDKIVKRVNAYIKGYKK;locus_tag=LOCUS_19470;note=WP_011182973.1 ribose-phosphate pyrophosphokinase (Mesoplasma florum) [pid:63.3%25%2C q_cov:99.4%25%2C s_cov:98.8%25%2C Eval:2.9e-124],MGA_1947
sequence1	MetaGeneAnnotator	CDS	1159736	1160326	.	+	0	ID=MGA_1948;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLVFLDNLTHANGGKKLYDNTSFRLNRGEHIALIGPNGTGKTTLLNIIAGKMLCDKGELKIHPKTKIGYLDQHQDVDLEETVDSYLKGAFAELFELEARMNKIYEDMAIEYKEEDLVKALGYQDTLNLNDFDSIDKKIGNLVTGLGIGLEKLQTSMGELSGGQRGKVILAKLLLSGDDFLLLDEPTNFLDLEQVK;locus_tag=LOCUS_19480;note=WP_011182950.1 ABC-F family ATP-binding cassette domain-containing protein (Mesoplasma florum) [pid:61.7%25%2C q_cov:100.0%25%2C s_cov:38.3%25%2C Eval:2.6e-68%2C partial hit],internal stop codon at [1160324:1160326](+),MGA_1948
sequence1	MetaGeneAnnotator	CDS	1160366	1161232	.	+	0	ID=MGA_1949;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVSHDNDFINKTCGIIYALDNLKLTRYVGNYDKYLEEAEIQKEQYDKAFVAQQREIKKLETYVAKNKARASTAKSAQSRQKQLEKIDVIQERRDLTKPKFSFSYKRPSTNVIVKAHSLVIGYDSPLLHELNFELREGEKCIISGRNGIGKTTFLKTMSTEIPAFKGEVELGHAVEYAYFKQIEDVRGISPIKYLMDRFDNITESEARSKIAQFGVKSGLMMQPMEKLSGGEQTRIRLAALSMIPCSLLVLDEPTNHIDVLAKEALLEAIENFKGTVILTTHDINFSTN;locus_tag=LOCUS_19490;note=WP_011182950.1 ABC-F family ATP-binding cassette domain-containing protein (Mesoplasma florum) [pid:61.5%25%2C q_cov:99.7%25%2C s_cov:56.2%25%2C Eval:1.5e-96%2C partial hit],internal stop codon at [1160324:1160326](+)%2C[1161230:1161232](+),MGA_1949
sequence1	MetaGeneAnnotator	CDS	1161298	1161456	.	+	0	ID=MGA_1950;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNEFDPSCFKCVEEMKKTNKGGAAASVLAMKMQQNVANQDLDNIKVCERHA;locus_tag=LOCUS_19500;note=MGA_1950
sequence1	MetaGeneAnnotator	CDS	1161602	1162147	.	-	0	ID=MGA_1951;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIKSYAKVNLNLKVSKKKKNLHKINSIFTIVPDLYDEIEIVESNETQDLITCNFKELEKKNFIYTVLNYLRDKKIITSYYNIKIFKNIPIGSGLGGGSSNAIAVAKYFTNNIKILKKISKTIGTDCYFFIWNFSTARVKSYGNKVKKIPDKIQIKFEDLIFTKVKCDTKKVYEKFDEIKG;locus_tag=LOCUS_19510;note=WP_002859130.1 4-(cytidine 5'-diphospho)-2-C-methyl-D-erythritol kinase (Campylobacter) [pid:29.8%25%2C q_cov:87.3%25%2C s_cov:65.9%25%2C Eval:7.7e-13%2C partial hit],MGA_1951
sequence1	MetaGeneAnnotator	CDS	1162141	1162941	.	-	0	ID=MGA_1952;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=MQYAKKKFGQNFISDKNLIKKIIDILDQESNQLVIEIGPGKGALTKELVNRYKKVIAIEIDRDMEDILKSEVNSTKLELIIKDCLEVDFNELIENNSFKKVSIISNTPYYITSEIIFRTLNISKKLDKAIFMVQKEVAQRICAKANENNYNNLSIAVQLYSEIKYEFTVNKNMFKPIPKVDSSIISLKFNDTNLKKLNDDDLKFVSFVRKLFNNKRKTILNNLASFTNNKEDALKILNEVNIKESLRPENINLDEYIKIYNEVKKC;locus_tag=LOCUS_19520;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:60.4%25%2C q_cov:97.7%25%2C s_cov:97.4%25%2C Eval:6.9e-85],MGA_1952
sequence1	MetaGeneAnnotator	CDS	1163103	1163474	.	-	0	ID=MGA_1953;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKQVIIVEGVTDTAKLKKIFGNDNVDTIETNGLALSKNTLNFISDVNRTRGVIILTDPDGPGLKIRDTINIYLNFKCFNAFINKKSINNSKKIGIAEAKDEDIKEALSSLISFDPQNLSIT;locus_tag=LOCUS_19530;note=WP_011166214.1 ribonuclease M5 (Mycoplasma mycoides) [pid:56.1%25%2C q_cov:99.2%25%2C s_cov:68.9%25%2C Eval:5.5e-28%2C partial hit],internal stop codon at [1162998:1163000](-)%2C[1163034:1163036](-)%2C[1163103:1163105](-),MGA_1953
sequence1	MetaGeneAnnotator	CDS	1163685	1164572	.	+	0	ID=MGA_1954;product=rod shape-determining protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003564976.1;translation=MAYDVHTNTVIASGEAAYEMIGKTNDDIRMVVPLVDGVIADLDAAKDLIKIIFSRIKLSDILKNALVVLACPSGVTELERSALKQVVADMGARHVLVEEEVKLSAIGAGINISIASGHLVVDIGGGTTDIAIISAGDIIISRSIKVAGNHLDEEIRKYIRAEYNVLIGIKTAEKIKVEIGALTKIDNGRTFRAFGRDVISGLPREVVISPDEVKNALLAPFSKITDLIVEVMENTPAELAGDIIRNGITICGGGALIRGIDTYFESIFQLKVTKAQDPLLTVIEGTKEYEKQAEK;locus_tag=LOCUS_19540;note=WP_003564976.1 rod shape-determining protein (Lacticaseibacillus) [pid:38.1%25%2C q_cov:96.9%25%2C s_cov:86.9%25%2C Eval:6.7e-55],MGA_1954
sequence1	MetaGeneAnnotator	CDS	1164735	1165268	.	+	0	ID=MGA_1955;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MARASLRTKRHIAIDIGTSKTRIFIEKLGMVFNEASLIAIDYKTKKVISVGDATKKFVGKLSGTMQIKSLLKRGILTDMNLLKKFLSTILSKYEEEVKSSVVTLACPISMSDIERRALIESIKSLGVSHVVIEDDIKLALLGAGYNIYGSDSYMCLELGAGKATIGLVNNGETINYK;locus_tag=LOCUS_19550;note=WP_010932234.1 rod shape-determining protein (Chlorobaculum tepidum) [pid:27.9%25%2C q_cov:91.5%25%2C s_cov:48.0%25%2C Eval:1.7e-14%2C partial hit],internal stop codon at [1165266:1165268](+),MGA_1955
sequence1	MetaGeneAnnotator	CDS	1165311	1165745	.	+	0	ID=MGA_1956;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKTKEGILIGDVTAEAIKIAVGSVLKNKEPLKTKAYGYDLNSSRPREIEVEDKDISKLILSVFGNITNTITALLEETQSEIAGDIIKNGLIITGGLARIPGVKLFFENFFEIPVIVAKNSSTATIEGAIMHKEKTFDIIEAMG;locus_tag=LOCUS_19560;note=WP_003227776.1 cell shape-determining protein Mbl (Bacillus) [pid:34.5%25%2C q_cov:82.6%25%2C s_cov:35.7%25%2C Eval:1.6e-12%2C partial hit],internal stop codon at [1165266:1165268](+),MGA_1956
sequence1	MetaGeneAnnotator	CDS	1165821	1166690	.	+	0	ID=MGA_1957;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNILIDKIRIVMEKAIKKLNLKGDILIERPKLIQNADFATNFALINSKLNTKNPIELAELIVNEIKNNEIFENVEFIKPGFINFRINNSLLNQVVEKIINEKDNFGKSKKKNKKYNLEIVSANPTGYLHVGHARNGAIGDSVARTLRFAGYDVETEYYVNDAGNQINVSAATLFYHYKKMQGLNVDKPEEMYGGEMYKEVATLFIEEYKDKFKDISIVNNKINNEEVNNLFKQKSIIFFMNEIKNQMSNLGVTIQHYSSEAKMYENDSINKIIKKYKELGATYEKDDAL;locus_tag=LOCUS_19570;note=WP_011183452.1 arginine--tRNA ligase (Mesoplasma florum) [pid:40.8%25%2C q_cov:100.0%25%2C s_cov:52.3%25%2C Eval:2.4e-65%2C partial hit],internal stop codon at [1166688:1166690](+)%2C[1166829:1166831](+),MGA_1957
sequence1	MetaGeneAnnotator	CDS	1167003	1167476	.	+	0	ID=MGA_1958;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEMVGKDCIRYMLVSKTPSSHMDFDLDLALEKNSTNPVYYAQYATARSNKIISSFKKLKLEINNSILFESQKEKEIIILLDSFNSIVEYSASSRLPNIICDFIQTLAKSFHSYYAETKILDEQNINLTNQRVLLIKSIYQVLSNAFNLIGIDVKDDM;locus_tag=LOCUS_19580;note=WP_011183452.1 arginine--tRNA ligase (Mesoplasma florum) [pid:53.5%25%2C q_cov:100.0%25%2C s_cov:28.8%25%2C Eval:2.4e-45%2C partial hit],internal stop codon at [1166829:1166831](+)%2C[1166988:1166990](+),MGA_1958
sequence1	MetaGeneAnnotator	CDS	1167525	1167920	.	-	0	ID=MGA_1959;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFVLAGLAFPAYYFTFSILIKKLDIKTPGREEEGEAVPTLQKNKKNNANQKYEMMAKGIIDIVKVENIVKVENCSTRLRLTVKDNKVGIDDKELKALGIYGIKRLGNQGLQLIIGTDVEHVADIVQEMIKT;locus_tag=LOCUS_19590;note=WP_011166334.1 PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:51.9%25%2C q_cov:98.5%25%2C s_cov:23.5%25%2C Eval:1.2e-27%2C partial hit],internal stop codon at [1167921:1167923](-)%2C[1167987:1167989](-)%2C[1168107:1168109](-),MGA_1959
sequence1	MetaGeneAnnotator	CDS	1168107	1168241	.	-	0	ID=MGA_1960;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIMCSKKEKRKEVTTFLAGVAFVAALTGIDEPLVFSFIFVGPIL;locus_tag=LOCUS_19600;note=WP_011166334.1 PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:59.1%25%2C q_cov:100.0%25%2C s_cov:7.9%25%2C Eval:1.9e-09%2C partial hit],internal stop codon at [1167921:1167923](-)%2C[1167987:1167989](-)%2C[1168107:1168109](-)%2C[1168269:1168271](-),MGA_1960
sequence1	MetaGeneAnnotator	CDS	1168269	1168604	.	-	0	ID=MGA_1961;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPIEGQIVDFSGSIVLFNNMNESPLIGENGMLDPKAIETILQPISNYYLGGVIISNENFKEFFNIKMSGLPDGVLMNNVDGITSFTIFGDINAFQKSMVSGNFQTGFFPMF;locus_tag=LOCUS_19610;note=MGA_1961
sequence1	MetaGeneAnnotator	CDS	1168884	1169090	.	-	0	ID=MGA_1962;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPKLFYDKVVTFDFYKETDGNKELAGALSGLFYVPKYGMINQKLEIIGGTYILNIGVLGGIVAGCLSA;locus_tag=LOCUS_19620;note=MGA_1962
sequence1	MetaGeneAnnotator	CDS	1169256	1169495	.	-	0	ID=MGA_1963;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKEKKKMNTVSKETKIKKEKNFDKTKKNNFFSNLLIKLQGLGKSLMYPIALLPFAALLNRFGSLAMELNSDTQYNAGW;locus_tag=LOCUS_19630;note=MGA_1963
sequence1	MetaGeneAnnotator	CDS	1169662	1169817	.	-	0	ID=MGA_1964;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLTNIALLVGTIISLILIIVVIIYLILFYKKRSIQLKVKPKREMFELFKW;locus_tag=LOCUS_19640;note=MGA_1964
sequence1	MetaGeneAnnotator	CDS	1169821	1170843	.	-	0	ID=MGA_1965;product=SIS domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011263815.1;translation=MSHLESFKDYKIIFSGAGTSEFIGQALAPYFYKKGLNVFSIATTDIVANPLNFLKKEEKTVIISFARSGNSPESIATFNIANKLIDQVYHLIITCNKDGQLVKLASTNKNTQIFLLPNEANDKGFAMTSSYSGMTFSAFLILDLLLKNNNKSSIEKLCNDFDKSLKLIEENIEKIELQENDRVVYLGSSEFKGFSNEASLKLLELTQGKIPCFYNGVLAFRHGPKSILNKNTTVIIFMSKDNYSRKYEIDLLKEIALEKVVKNLVVLDNTECSEVKKYASIYLNFENQNLNEIFIGLNYILFAQILSLITSIKLNINPDNPCPSGEVNRVVKGVIIHELH;locus_tag=LOCUS_19650;note=WP_011263815.1 SIS domain-containing protein (Aliivibrio fischeri) [pid:41.8%25%2C q_cov:96.2%25%2C s_cov:83.5%25%2C Eval:3.6e-71],internal stop codon at [1170886:1170888](-),MGA_1965
sequence1	MetaGeneAnnotator	CDS	1170947	1171303	.	-	0	ID=MGA_1966;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLGGIFKEKSQVFYNRNTKKYLEGIKFSKLFFSCLSLDYEGNIYDDFVPEVDTLRDALKISKEKILLVDSSKIKDEGIEKVTNIKEIDIVITDEKSKEKIGTRFPNVNIIYSNGEKNE;locus_tag=LOCUS_19660;note=WP_001829761.1 DeoR/GlpR family DNA-binding transcription regulator (Staphylococcus) [pid:33.3%25%2C q_cov:83.9%25%2C s_cov:39.0%25%2C Eval:1.3e-08%2C partial hit],internal stop codon at [1171331:1171333](-),MGA_1966
sequence1	MetaGeneAnnotator	CDS	1171331	1171729	.	-	0	ID=MGA_1967;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHKLERKDVILNKIIEKNFISSKDLFDYAFSIGINKTTARRDLKELQDEEKISLTFGGITSRVENIYETDRSEKVQHKNFEKNIMAREAIKFIKDDEIIFCSPGTTIERFVREIKTKVKLLVTNSFPVFLEA;locus_tag=LOCUS_19670;note=WP_011476686.1 DeoR/GlpR family DNA-binding transcription regulator (Ligilactobacillus salivarius) [pid:31.9%25%2C q_cov:87.9%25%2C s_cov:45.0%25%2C Eval:3.5e-11%2C partial hit],internal stop codon at [1171331:1171333](-),MGA_1967
sequence1	MetaGeneAnnotator	CDS	1172059	1173042	.	+	0	ID=MGA_1968;product=cell shape-determining protein Mbl;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003227776.1;translation=MANKKPTFVSMDLGTANTLVYIAGQGIVYNEPSIVAYRIKENKIIAVGEEAYKMIGKGNKTIRVVRPMVDGVITDIRATEAQLRYIFSKLRITKQLKHSIMLLACPSVITELEKTALKKIAVNLGASQVFVEEEVKMAALGGGVNIYAPTGNLIVDMGGGTTDIAVLASGDIVLSKSVKVAGNYLNDECQKFIRSQYGLEVGSKTAESIKVNVGSLAKFPDERRMKVYGRDVVSGLPREIEITPEEVREVLKVPVSRIIDLTVQVLEDTPPELAGDIFRNGITICGGGALIKGIDKYFADTLQLPTKIGEQPLLAVINGTKKFESEI;locus_tag=LOCUS_19680;gene=mbl;note=WP_003227776.1 cell shape-determining protein Mbl (Bacillus) [pid:45.5%25%2C q_cov:95.4%25%2C s_cov:93.7%25%2C Eval:1.6e-76],MGA_1968
sequence1	MetaGeneAnnotator	CDS	1173249	1173392	.	+	0	ID=MGA_1969;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKEIINIKEDHETYELISEVIFKFFTKKGKSILTGSDNRINETTRV;locus_tag=LOCUS_19690;note=MGA_1969
sequence1	MetaGeneAnnotator	CDS	1173432	1173704	.	+	0	ID=MGA_1970;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQLEKYAIFPSDDLKKITLYNNTGSEELIAKRYEKIKNEKNEIIVFAKFKDSLKYKGYKFLGLFEFDDSLTNEKNTLIFTKTKSSIKLDV;locus_tag=LOCUS_19700;note=MGA_1970
sequence1	MetaGeneAnnotator	CDS	1173780	1174067	.	+	0	ID=MGA_1971;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIEERTFIALDLGTSNILAYVGRQGIVYDEPSIMAYDNITNTLVALGQDAYELIGKTNENIRMEIPIKDGVITDLDAARDMLKHVFSKLKMLNE;locus_tag=LOCUS_19710;note=WP_003644658.1 rod shape-determining protein (Lactiplantibacillus) [pid:48.8%25%2C q_cov:88.4%25%2C s_cov:25.2%25%2C Eval:1.4e-18%2C partial hit],internal stop codon at [1174065:1174067](+),MGA_1971
sequence1	MetaGeneAnnotator	CDS	1174149	1174748	.	+	0	ID=MGA_1972;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGAEIVIVEEEVKMAALGAGINIEIPKGNIVIDIGGGTTDIAIISAGDIIISRSIKVAGNAFNEEVKKYIRSEYNVTIGDKTAEEVKKELGSLAKYKGERTMSVFGRDIISGLPKEAIISSEEIRNVLVNAFSRITDLLIELMENTPPELAGDIITNGFMICGGGSKIRGIKEYFNGIFSVPCHLTANPLTGVIEGSKV;locus_tag=LOCUS_19720;note=WP_005902246.1 rod shape-determining protein (Fusobacterium nucleatum) [pid:38.8%25%2C q_cov:98.5%25%2C s_cov:57.3%25%2C Eval:1.1e-37%2C partial hit],internal stop codon at [1174065:1174067](+),MGA_1972
sequence1	MetaGeneAnnotator	CDS	1174868	1175662	.	-	0	ID=MGA_1973;product=TatD family hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182944.1;translation=MAGIFDTHTHFNDVVYKEQEIEVSEMIKDAKVNGVSHFCCVGFDIKSSKEACKYALKYPNVYAAIGIHPNDVYKFNKQDLLEIEEMAHSDKVVAIGEVGLDYFYTDQHKEIQKEFFKEQIKIAKNNDLVVMMHIRDKDESDQAYLDALEILDKLQVKKAIVHCYTRGIELARKFTKRGYLISIPGVVTFKNATKLHETVEKLSLNEMIVETDAPYLTPEPKRGKLNMSKNIAYTIEKIANIKKINKADVIEATTSNAMKIFKIS;locus_tag=LOCUS_19730;note=WP_011182944.1 TatD family hydrolase (Mesoplasma florum) [pid:48.7%25%2C q_cov:98.5%25%2C s_cov:97.7%25%2C Eval:1.5e-60],MGA_1973
sequence1	MetaGeneAnnotator	CDS	1175672	1177024	.	-	0	ID=MGA_1974;product=tRNA uridine-5-carboxymethylaminomethyl(34) synthesis GTPase MnmE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166295.1;translation=MKLNINDTIVACATKIAKQAISIIRISGDNAFNITNKLLKEKLSNNTRIQIRKLFDKKDIIDEALILTFANGNSFTGENVVEIQCHGGILLTNHILSLLISNGARPALPGEFSQRAYLNGKINLIQAESINNLIDSKNELSLKISALNLEGKNNKALINMKEKLIDLISKIQTSIDYPDYDDVEGSSPEEISFELSSLKEDTIKILDVSKRFNFLKSGINTLILGETNVGKSSLLNTLISEEKAIVTEIEGTTRDIVEGELNFANFTLNLIDSAGIRETKNKVEKIGIDKSISLINTSNLILFVINKGKINYEIYEKIKNKKHLVVLNKSELLKKSDIDKIKKEFQDLVVVSAINGDIKELLNKIELEFNNGDILESDLPILSNVFHIEMFKNILVLLENSLNNIKEGFTTDLINVDLYEILKILNNLLGIYDADEEVIDNIFRKYCLGK;locus_tag=LOCUS_19740;gene=mnmE;note=WP_011166295.1 tRNA uridine-5-carboxymethylaminomethyl(34) synthesis GTPase MnmE (Mycoplasma mycoides) [pid:52.8%25%2C q_cov:99.1%25%2C s_cov:99.6%25%2C Eval:5.8e-126],MGA_1974
sequence1	MetaGeneAnnotator	CDS	1177071	1177322	.	-	0	ID=MGA_1975;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFDFEIINFNISNKNKKKFSKTELSRIINRVLSSKEEEILPAYPKPLRREINRLISKYNNLKAKTSGQIGERKIRIIYKSEN;locus_tag=LOCUS_19750;note=MGA_1975
sequence1	MetaGeneAnnotator	CDS	1177359	1177631	.	-	0	ID=MGA_1976;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILKIKNNKINHFLITKKPETNLVFYENINEVILFISNKKRIEIMKFLNEQLSKISKIKIISIFRIESKSKNIIAYDAPIELTRDTKLSL;locus_tag=LOCUS_19760;note=MGA_1976
sequence1	MetaGeneAnnotator	CDS	1177765	1177926	.	-	0	ID=MGA_1977;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLPMILQMFKKKPKLESEQQKKARKKQLIMQIVFMVVFLFVVFNIASGVAIY;locus_tag=LOCUS_19770;note=WP_084322434.1 membrane protein insertase YidC (Mesoplasma) [pid:50.9%25%2C q_cov:100.0%25%2C s_cov:12.7%25%2C Eval:2.4e-07%2C partial hit],internal stop codon at [1177765:1177767](-)%2C[1177975:1177977](-),MGA_1977
sequence1	MetaGeneAnnotator	CDS	1177975	1178250	.	-	0	ID=MGA_1978;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQGLQSKQAEIQEKYKNSSDPSAKQKQQLELMGLYKKEGISPMSSLATSFLSMPFLFAMFSVVRATHALKVATVGKITLVEVPFEQIKQGN;locus_tag=LOCUS_19780;note=WP_011167185.1 membrane protein insertase YidC (Mycoplasma mycoides) [pid:56.0%25%2C q_cov:100.0%25%2C s_cov:23.0%25%2C Eval:5.2e-23%2C partial hit],internal stop codon at [1177765:1177767](-)%2C[1177975:1177977](-)%2C[1178275:1178277](-)%2C[1178419:1178421](-)%2C[1178482:1178484](-),MGA_1978
sequence1	MetaGeneAnnotator	CDS	1178834	1179163	.	-	0	ID=MGA_1979;product=ribonuclease P protein component;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183578.1;translation=MKNKNIIKKNHEFQSIIGSKRFIKSKGFVIYFKKNTLKRFRYGISVGKKMGNAVFRNKIKRQLRSMIYELLDDQKDKSFDIILIARNLFLNKDYSFNLEDLRKSLLQIK;locus_tag=LOCUS_19790;gene=rnpA;EC_number=3.1.26.5;note=WP_011183578.1 ribonuclease P protein component (Mesoplasma florum) [pid:51.4%25%2C q_cov:98.2%25%2C s_cov:97.3%25%2C Eval:1.2e-24],MGA_1979
sequence1	MetaGeneAnnotator	CDS	1179141	1179272	.	-	0	ID=MGA_1980;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLELMVLEQEWQLKMVEKLLKQEELKVELNLLHNNKYEKQKYN;locus_tag=LOCUS_19800;note=MGA_1980
##FASTA
>sequence1
ATGACTAACATTGCATTATGAAAAGAAATAAAAAAATGATTAATATCTTCTGATTTAATAGAACCAAACGTTTATGAAGAGTATGTAAAAAGTGCTTCAATTGAAGACCTTTCTGAAAATCAAAAGGTTATTGTTGTTAATAAGGACTTATCTAAATACTATTTGGAAAATATAGTAAAAGAACTTAAAGAAAAAATAAGTAAAATACTAGAAAAAGATATTTCAATAAGTTTTTTATCAAAAGAAGAGTTCAAAAAAGAAAAAAAAATAAGTGAAATAATAATAAGTAAGAAAAAAAATAATGGAAGAGATTTTAATTTTGAAAGTTTTATTTCAGGAAAAAGTAATAGTGAAGCATATAATGCTTCAAAAGCTTTAATCAATAATTTAGGTAATAAGTGAAACCCACTTTTTATATATGGAGATTCTGGATTAGGAAAAACTCACTTACTTAAAGCTATAAACAATGAACTAAATGTACAAAAAAATGATTTAAACATTAAATACTATGCATCTAATGATTTTAGAAAAGAAATTTTAGATTCATTGTTAGGTGGTTTTAAAGAAATAGAACAAACAAAATCAGAAATGAATGAAATTGATGTTTTATTAATTGATGACATTCAATTCCTTGCAAATAGTGGAAAAACAAATGAAATATTTTTCAATATATTTAATTCTTTTATTGAAGAAGGGAAACAAATAGTAATAACATCAGACAAATTCCCTGAATTACTAAATGGATTTGATAAAAGATTAGTATCTAGATTTAATCAAGGTTTAAGTGTAAAAATAGAGCCACCAGATGTTGAAACAGCTTTAAAAATTATTGATTATAAAACTCAAATTGCAAATTTAAATTTAGCAACTGAATCAAAAAAATACATAGCATCTCATTTTGGAACTGACGTTAGGAAAATTGAAGGAATAATTAATAAAATAGAGTTTAAATTAATACAAGATCAAGAATCAGTAGGAGAAATAATTGAACTTGATACTATTCAAAAGTTATTAGAAGATTATTCTTATGCTCCAGGTGGAGAAATAACTGTTCAAAAAATTAAAAGTGTTGTTGCTCAAAATTATGGTGTAAATGTAAAATCTATTGATGCAAAAAATAAAGTTTCTAGTGTTGTTATTGCAAGACATGTTTCAATGTATTTAACCACTGAATTAATGAAAAAAAATTATTCAGAAGTAGGTATTTTATTTGGTGGAAAAGACCATACAACTGTTATTAATGCCTGCAATAAAATTAAAAAAGCTATTGCTGAAGATAAGATTTTTAAAAACACATTAAAAAAAATTAAAAAGGACATAACTTCTTAATTATAAAAATATAGTATAAAGTGATAAAATCTTTTCATAAAGCTCATATTTTGTTGGTTTTTTAAAAGTTATCCACATTTTAAGAGCATAATAATAATATAAATAATAAATAATAAATAAGGAGGTATTTTCAATGTTCTTTAGTGTAAATAGATTAGCTTTTATTGAAGAAATAAACAAATGTAATAGAATTATTGATTCAAAAGTCCCTACACCAAGTATTAGTGGAATTTTATTAGAAATAGATGCTGATAAAATATCTTTGATTTCTTCGAATACCTCAATGTCTATAAAGACAATTATTAATATGGGTACCAATGATTTATTAATTAAAGAGACAGGCACAATCTTAATAAGGGGAAAATATTTTTTAGAAATACTTAGACGTATGGATGATGATATTGTTAACATTTCTAATATAGAAGAAAACATAGTTTCTTTATCAGGAGAAAAGTCTGAATTTTCATTAAACATTTTAAATTATAATGATTATCCAACTATTGGTTTTAGAGAAAAGGGAGATATTGTAACAGTAAAAAATAATGATCTGAAGAAAAGTCTTAACCAAACAATAATTTCCGTAAATGAATGAAATCAAAAAATAGTATTAGCTGGATTAAATTTCTCTATAGATAATTCAATGTTTTATATTACAGGAACTGATGGTTTTAGAGTATCAAGAAAAAGAATTCAACTATTTGAAGATATACCAAATAAATTTGAAACTAATATTCCACATAAAAGTGTTTTAGAGTTAATAAAATTATTACCAGAAAAAGGTGAATGTAAAATTGTTTCTGTTGATAGTCACGTAACTTTTATAATTAATAATACATTGTTTCAAACAACAATCTTAGAAGGGCAATTCCCTGATGTTAATGCAGTTTTCCCAACTGATTTTAATACAACATTATATATGGATAATAAGAAATTCTTTAAATTAATATCTAGAGCAGATATTCCAAGTGAAGAAAATACTTCTACGGTAGTAAATCTTATTTTAAATAATGATAGTATTTTTATAAAATCTAATATTCATCAAATAGGAAGTTTTGAAGAAATTTTTAAGGAATTTGAATTAAAAGGATTAGATGAGCAAAATATATGTTTTAATTCAAAATATTTAATTGAGTCATTAAAAACTTTTGAAACTAAAAATGTTGAAATTAATTTAATTGATTCTAAAAAACCAATTGTGATATCTTCATCAGAAGATATGGATTTAAGTCAAATTATTTTACCGATGTTTTCAAATTAATAACTTATATCTACATACCTTTCACTTACTTAAATGATATAATTAAGTTTGTGAGAGGTATTTTATTATGGAAAATAATAAGTATGGAGCTAATCAAATTCAAGTACTTGAAGGATTAGAAGCTGTTAGAAAAAGACCTGGAATGTATATAGGAAATACAAACAAAACTGGTCTTCATCATATGATTTGAGAAATATTGGATAACTCAGTGGATGAGGCATTAGCAGGCTTTTGTAATGAAATATCTATTTTTATAACTGATGAAAATGAAATAATAATTAAAGACAATGGAAGAGGAATACCAGTTGATATTCACCCAAAAACAAAGAAGACAACTTTAGAAACAATTTTTACTGTTTTACATGCTGGTGGAAAATTTGATGAAGCTACTTATAAAGTTTCAGGTGGTTTACATGGTGTAGGTGCTTCTGTTGTAAATGCTTTATCTTTATATGTTGAAGCTATGATTTCTAGAGATGGAAAAATTTATCATCAGAAATTTTCTGAAGGTGGTAGAAATGCTACTGCTATTAAAGAAATAGGTAATTCTGATTCAAATGGTTCAATTATAAAATTTAAACCTGATCCAGAAATTTTTAAAGAAGTTATAGATTTTGATTTTAAAGTAATACAAAACAAAATAAGACAGTTAGCTTTTTTAAATAAAAAATTAAAATTAAATTTATATGACCAAAGAAATGATAAGTATTTAAGTTATATTTTTGAAGATGGAATAAAAGATTATATAAAAGAAATAAATAGTGGAAAAGAAAAAGTTCACGATGAAATTTTTTATATGTCCAATAGTTTTAATGATATTGAAGTTGAAATTTCAATACAATACAATGAGACGTATGATGAAAACTTATTTTCATTTTGTAATAACATTTTTACATCTGAAGGTGGTTCACATGAAGAAGGATTTAGAAGTGCTTTATTAAAAGCAGTTAATTCTTATACAAATGATTTAAAAAATTTTAAAGGTAATAAATTTACTTGAGATGATTTAAAAGAAGGAATTGTTGCTGTTGTTTCAATTCGACATAGAGATCCTTTATATGAAGGACAAACAAAAGCAAAATTATCTAATACAGATGCTAAAGAAGCTGTATTAGAAATAACAAATGAAACATTTAAAGAGTTTTTATTAAAAAATCCAAATGATGCTAAAAAAATTATTGAAAAAATTTTAGTTTCTCAAAAAGCAAGAAAAGCTGCTCAAAGAGCAAGAGAAGATACAAGAAGAAAATCAGCTATTGATAATTTTTCATTACCAGGTAAGTTAGCAGATTGTGAATCAAAAGATATTCAAGAATGTGAATTATATCTTGTTGAGGGGGATTCTGCTGGTGGTAGTGCAAAAACTGGTAGAAATAGAAAAACTCAAGCAATCCTTTCTCTAAGAGGAAAAGTTCTAAATGTTGAAAAAGTAAAACAATCAAAAGTTTTTGATAATAATGAAATTCAATCAATTATTGCTGCTGTAGGTATTGGTGTTAAAAAAGATATTGATCTTACAAAATTAAGATATGGAAAAATAATTATTATGACAGATGCCGATGTTGATGGAGCGCATATTAGAGTTCTTTTATTAACTTTCTTTTATAGATATATGAAAGAACTAATTTTAAATGGAAATGTCTATATTGCACAACCACCATTATATAAAATTGATAATGGAAAAAATGTTTCAGATTATGCATACAATGATTTAGAGCTTGAACAATTAAAAGAAAATAAATACAAAGAACTTAAATATACTATTCAAAGATATAAAGGACTTGGTGAAATGGATCCAATTCAATTATGAGAAACAACAATGGATCCAGAAAGAAGAACTATGATTCAAATAAAAGTTGAAGATGCTTTTCTTGCAAATGAAGTTTTTTCTAGTTTAATGGGAGAAAATGCTGATTTAAGAAAACAATTTATTATTGAAAATGCACAATTTGTAGAAAATATAGATATTTAAAGTAAGGTAGGTGAAACTAAATGAGTGAAATAAAACACGGTCGCATTTTAGAGATGGATATTAAAAGCGAAGTTGAAAAAGATTTTTTAGAATACTCAATGAGTGTTATTGTTAGTAGAGCTCTTCCTGATTTAAAAGATGGATTAAAACCAGTTCATAGAAGAATTATTTATGCTATGAATGATTTAAAAATTACATCAGATACTCCACACAAAAAATCTGCACGTATTGTTGGTGAAGTAATTGGTAAATATCACCCTCATGGTGATTCTTCAGTTTATGAAGCAATGGTTAGAATGTCGCAAGATTTTTCCTATAGATATCCCTTAGTTGAAGGACATGGGAATTTTGGTTCAATTGATGGAGATGGTGCAGCTGCAATGCGTTATACAGAAGCAAGGCTTGCAAAAATTACATCATTATTATTAAAAGATATTGATATGGATACAGTGCCATTTGTTGATAACTATGATGCGTCTGAAAGAGAACCAAAGTATTTAACTGGTTATTTTCCAAACCTTTTAGTTAATGGAGCAACAGGTATAGCTGTAGGTATGGCAACTAATATCCCACCTCATAATTTAAGAGAAGTTGTAGGTGCAACTATTGCATATATAAAAGATGATCAAATGACAATTGATGATATTTTAAAATATATTAAAGGCCCAGACTTTCCAACAGGTGCTTTAATGACAAATGGAAAAAGCATGATTGAAGGTTATAGAACCGGTAAAGGTAATTTAATAATTAGATCAAAAATTGATATTGAAGAAACTAGCAAAAATCAAAGAATAGTTGTAAGTGAAATTCCATATCAAACTAATAAATTAAAAGTTGTTGAAAAAATAGTAGAACTTTATAAAAATAAGATTATAATGGGTATTTCAGATATCAGAGATGAGTCTAACTATGAGGGAATTAGAATTGTAATAGAATTATCTAAAAATTCAAATCCACAACTTATAATCAAAAAACTTTACAAATATACAAACTTGCAGTCAAGTTTTGCAATCAACATGCTTTCTTTAAATAATGGAATTCCTGTTGTTTTAAATATTAAAGATATATTAAAATTTTATGTAAAACATCAAATTGAAATAATTGTTAAAAGAAGCATTTTTGAAAAAAATAAATTAAATGCAAAATTACATATTTTAAATGCAATTAGAGTTACATTAGATCATATTGACGAAATTATAAAAATTATAAAAGAGTCAAAAACTACTGAAATTGCACATGAGAAATTATTTAAAGCTTTTGGTTTTGATGAAAAACAATCCAAAGCAATTTTAGATATGAGATTGCAAAGATTAGTAGGATTGGAAAGAGAAAAAGTAGAATTAGATATTAAAAATATAGAAATAAGAATATCTGAACTTGAAGAAATCTTATCTTCAAAAGAAAAACAAAATGACTTATTAATTACTCAACTTGAAGATATTGTAAATAAATTTGGTGATGAAAGAAGAACAAAAATTATTGAAGAAGATGAAACCCAAATTGATGATGAGGAATTGATTCAAGATACACAAATGTTAATAACTTTATCTGAAGATGGATATATTAGAAGACTTTCAAATGAGGAATTTAAAACTCAAAAACGTGGTGGTAAAGGTGTCATTATAAATAATAATCATGAAGATAATATTGCAATTGCAAAATTTGGTAAAACAAAAGATGATGTTTTATTTTTTACAGATGAAGGAAAAGTTTATAGGATTAAAGCCTATAATATAACACAATTTTCTAGAAATGCTAGAGGTGTACCAGTAATTAACTTTATAGGAATAAATTCTTCTGAAAAGGTAACTTCAATTTTACCTTTAAAAAATAAAAAGAATGCGTATAAATATTTACTTTTTGTAACTCAAAAGGGAGTTGTTAAAAAAGTTGAAATAGAGGAATTTAATAGAATTAATAATTTTGGGAAAATTGCAATTAATTTAGATGAAGGAGATAAGTTAGTTTCTGTAATACCAACTGTTGGTGGAACAGAAATTTTAATAGCTTCACTAAATGGAAAAATAATTAAAGTTAACGAAGATAACTTTAGACCTATGTCAAGATCTTCAAGAGGAGTAAAAGGTATGGGATTAGACAAAAATGATTTTGTTGTATCCTCGTGTTCAAGTTATAAAAATGAAAGTGTTGCAACAATATCAGAAAAAGGAATTGTTAAAAAAACACTTATAAGTGAATATAACATTTTTGGTAGAGGTGCTAAAGGTGTTTTGGGAATGAAACTAAATGAAAAGACTGGTAAGTTTAAATCTCTTCTAGCAATTAGAGAAACAGATGAAATTTTAATGATATCTTCAAAAGGTAAGATAATAAAAATTGGAGCTCAAGATATTAATTTACAATCTAGAAACTCAGCAGGAGTAATTGGATTTAATTTAGAAACAGATGAAACTATTACATCAACTACATTAGAATGAAATAAAGGTGAATAGAATGCTAGATATAAATAAAATTGAAAGTGACTTTGAGAAAGTTAATTCAAATTTAAAAAAAAGAAATAAGGATTTCAAATTGGAATTAAATCAAATTGTTGAATTAAATTCAAAAAGAAAAAAGATTACTTTTAAAGTAGAAGAATTAAAAGCTAAAAAAAATAAAATTTCAAAAGATATTGGAATTTTAGCTAAAAATAATAATAAGAATGAAATTGAAAAATTAAAAAAAGAAGTTTCAAAAATAAATCAAGAAGTTGAAAAATTAGATAATGATCTAAGATTAATTAATGATGAAATTAATTCTAAATTAAGTTACATACCAAATATACCAAATGATAATATTCCATTGGGAAAAGATGAAAATGATAATATTGAAATTAAAACATGAAAAAATGGAAAAATAAAAAATGATGGTGAATCTCATTGGGATATAGCTTCAAAATTGGGATTAGTTGATTTTGAGTTAGGTTCAAAATTATCTGGTTCAAGATTTGTTGTCTACACTAATCTCGGAGCAAAAATTATTAGAGCCTTAGCAGACATATTAATTAATAGACATACAAATAATGGTTATAAAGAAATGTATCTACCTTTAATAGTAAATAAGGAAAATATGTATGGAACAGGGCAACTTCCAAAGTTTGAAGAAGATGCTTATAAAATTGGTGATCAGTATTTGATACCAACTTCAGAAGTTCCTTTAACAAATACAGTTAGAGATAAAATATTAGAAAAAGAACAATTACCTATCTATTTAACTTCTTTTACTCAATGTTTCAGAAAAGAGGCGGGAAGTGCTGGTAGAGATACAAAGGGTCTAATAAGATTGCATCAATTTAATAAGGTTGAAATGGTTAAAATTACAGATAATAAAACATCTTATGAAGAACTAGAAAAAATGCTTATAGATGCAGAAGAATGCTTACAATTATTTAATTTACCTTATAGAGTTGTTGAACTGTGTGGGGGAGATATAGGGTTTTCTTCAGCAAAAACTTATGATCTAGAAGTTTGATTTCCTAATCAAAATAAATATAGAGAAATATCATCATGCTCAAATTGTTTAGATTTTCAATCAAAAAGAATAATGGCAAGATATAAAAATGATGATAATAAAAATGAATATGTTCATACATTAAATGGTTCAGGTTTAGCAATTGATAGATTATTTGCTGCTATTTTAGAAAACTATTATGATGGAGATAAATTATTAATCCCAGATATTTTAAAGCCATATTTAGGTAATATTGACTTTATAAAATAATGTTTCACGTGAAACATTATTTTTTTTATTTTTTTTATTTTTTATAAATTGTTTCACGTGAAACAATTTATAAAAAATAAAAAGCATATAAATCTATGAAAAAAATGTTATTATATAGATGTCATTGTAAGGGTGACGTTCGAAGTTGGTCAGGACCGGAAGGTAGCAGCCATAAGAATCCAGTGCCTTGTACAGTGACTTTTTTTATTTTTAGGAGAACTTTTTATGGAATTGATTTTTAATACACTACTTATGGAATTAAAAAAATGTAAGAAGAATAAGGATGTTCCAGTATCTGCCTTATTAATTGACACTAATAATAAAATAGTTGCAAAATCTTTTAATAGTAGGCAAAAGAAATATAATTTTTCTAATCATGCCGAGATAAGAGTATTAAATAAAATATATAAAAAACTAAAAACTAAAAACTTAGGAGACTATAGATTAGTTACATCATTAAAACCTTGTTTAATGTGTATTACTGTTATTGAACAAGCTAGTATAAAAAAAGTATTGTATTACCTTGATAATATAAAATGTAATTATAATAGGATCCTAACAGATATTACTTTTGAAAAAATAGGAAGTAGTAAAGAAAGTACAATATTTGAAACGGAATTAAAAGAATTCTTTTTAAAATTAAGGAAATAACTATGTAAAATATTTATGCAAGGGGAGTAAATAATTATGGAAAATAAAAAGTCACTTTATAGGGAGTATAGACCAAAGAATTTTGATCAAGTTGCAGGTCATAATGGAATTAAGGAAATATTAATTTCTCAAATCAATTCAAATTCATTTGGACATGCTTTGTTATTTTCTGGTCAAAGAGGAACAGGTAAAACATCTATTGCAAAAATATTTGCAAAAATAGTCAATTGCCAAAATTTAAATGGTTATAATCCCTGTGATAATTGTATAAGTTGTAAAGAGTTTAATAATAATGCTCATTCAGATATATTTGAAATAGATGCAGCTTCAAATAATGGAGTTGAAGAGATTAGAAACATAAAAGCTAATGTTTCGTTGCTACCAAGTTTTTCAAAGTATAAGGTATATATAATTGATGAAGTACATATGCTTTCAAATTCGGCTTTTAATGCTTTACTTAAAACTTTAGAAGAACCACCAAAACATGTTATTTTTATTTTAGCAACTACAGAGTTTTCAAAAATCCCAGCTACAATAATTTCAAGATGTCAATTATTTAATTTTAAAAAAATTGGTCAAAAAGATTTAGAGCAAAAAGTTGAAGAAATATGTAAAGCTGAAGGCAAAATAATAACTAAGGAAGCTTTAAATGAAATTTATTATATGTCAGATGGTTCATTAAGAGATGCACTTAATTATTTAGAGCAATCATTAACAATTTCTGAAAAAGAAGTTAATGTTGAAATTTTAAAAAAGATATTTTACATTGCAACAAAAGTTGAAAAATTAAATATTATTAAGAATGTAATTCAAGGTAATACAAAGGAAATAATTTCATATTTTGAAGTTTCAAATAACCAAGGAATAGACTTTCAAACAATGACATTAAGTTTATTAGATATTATAAAAGAGATAATAGAAGTTAAACTTACACAAGATTATAATTTTTTAAGTAATTTAACAATTGAGGATTTTAATAATTTTAATCAAACAGATATAAAAATTATGTTTGATCTAGCAGATAATATATCTGATTCTTATACTAAATCTAAAAACTCAAATATAAGCTTTCAATATATATTAATAAATATTTTAAAAACTGTTTCAACTAAAAAACTTATAAGTGTTATTGAAAAAGATAAACTTACTTGCAGTTTACCAACTTCAACAATTAATTGAGATGAGCCAAATACAGATAAAACAAATAACTTAGGTGAAAATTTAAAAGAAAAATCTTTTGAGTTAAATAAAAATATAGTTTCACAAGAAAAGAAATCACAAGATGAAAAAAATATGAATAATAATTTCTCTGTGAAAAATAATATACAAGATTTTTTTAAAGAAAAAGATGATTCTAAGTTTTTAAAGCTACAAATGAAGTTATTAATTTCAGAAGCAATTATTTATAAAAATATTATAGATTTTACAAATGATCAAATTATTAATGTTTTAGTAGGTGCAAATAAACAAGCAAGAAAATATTATGAAGAAAAATTTGAACGCATGTTTAATGAAGAGGTAATAAATGGTAACTCAAAATTTATTGAAAATTTTATTATGTTTTATGGTTCAAAAATAACAGCTTCAAGTGAAGATTCAGTTATATTAGTTTCGGATGAAAGAACAATATCAAAATGAATTAATAATAGACTTCAGAAACCAAATATAAGAAAACAAATTTATGAATATTTTGGAAAAGAAGTTAAAATAATTTCTCTTGATAAAACAAGATGATCAGAAATTAAAATTGAATTTATGGATAGAAAAAATAATAATAAGTTAGAAGAATTTAAACATATAGATACAGAATATTTTTATGAAGCTTTAAATAAAAAAGATGATAATGATGAAAATCAATATTTGAAAAGAGCAAAAGAAATTTTAGGAGATCAAAATATTAAGGTTGTGAACTAATGGATAAAATAATTGAAGAATTAAAGAGTATCGATGGTATTGGGAAAAAAGTGGCTGAAAAAATTCTTTTTGATTTAATAATTAATAAAAATAAAATTAGTTCGTTAGAAACTGTGATTAATGAAATAAAAAAATCTTACAGTGAATGTAATACTTGTTTTTACTTTAAAGAAAATAATGTTTGCACTTTTTGTAATAACAAAAATAGAAATCAAAATATTATTTGTGTTGTATCTACAAAACTTGATGCAATTAAAATAGCAAAAAGTAATTATAATGGTCTAATACATGTATTAAATGGGGAGATAAATTTGAATAAAAATATAGGTCCTGAAAAAATTAAAATAAGTGAATTATTTGTTAGAATTAGTAAAGGTATAGAATTATTACTTGCTTTAAATTTAACATTTGAAGGAGAAGTAACTTCAAACTACATAGCTAATAAAGCAAAAGGAATATGCGAGAAAATTTCTAGAATTGCAAGAGGGATTCCATTAGGTGGAGTTTTAGATTATATTGATCAAGAAACATTAAATGATGCAATTTTGAATAGAAAGAAACTAGATGATTAGTTTAGAGGACTTATAGTATGTTATTTATTTCATTAGAAGGTATAGATGGTTCAGGTAAAACAACAATTTCTAAAATGATTAAAGATAATTTAATTCAAAAGGGATACAAAGTTTTACTTACAAGAGAACCAGGGGGAGAACCTTTGGCAGAAGAATTAAGAAGAATTATTCTTGATGAAAAAAATTCAATTAATCCATGAGCAGAAACTTTGTTGTATGTTGCAGCAAGAAAACAACATTTAGATTCAATAATATTGCCTGCTTTAAAAGAAGGAACAATTGTTGTATGTGATAGATTTATGGACTCAACATCAGCTTATCAAGGATATGCAAGAAATATAGGTATGGCAGATGTTAATGAATTACAAAGCATCGTTTTAGGTTCAACAAAACCAGACTTAACAATTTTTTTTGATATAACTCCAAAGGAATCACAAATTAGATTAATGAATAGAAAAAGAAGCGCTGACAGAATGGAACAGGAAAATCAAAGATTTCATGAGGCAGTATATGAGGGTTATCAAATCTTAATTTCTGAAAACTCAGATAGAATTAAAGTTGTAGATTCGAGAAAGCAAATTAATGAAGTTTTACAACAAGTTGATTTTTTAATTGATAATGCTCTTAATGAAAGAACAAAAAAATAATGAAAAAAGTAGAGGTATTTAGTATTGTTAATGAATTGATAAAAAATAAAAAACTTTACCATTCAATAATAATTTCAAACGAAAATCAAACTAATCTTGATGAAATCTCAACAGAAATTTTAAGACAAATATATTGTTTAAATAATTCCTTTGAAAATGATGGTTGTGATTGATGTTTAAAAGTTGTTAATAAAAACAATCTAAATATTTTTTATATTGGAGACTCAATATCAAAAATATCAAAGGATGATATTAAAGAATTAATTATAAAATTCTCTTCTTCAGGAATTGAAGACAATAAAAATAAAGTTTATATATTGGCTAATGGAGAAAACTTAAGTGAAAGTGCGTCTAATGCGCTACTTAAATTTTTAGAAGAACCTCCTAAAAATACTTATGCTTTAATTTTAACAAAGGATAGAAATAAAATTTTGAGCACAATTAAATCAAGATGCAAACTTTTTTCTATTGAAAATGAAATTATTAAAGAAAAATTTGATTCACAAATTATAAAATTCTTTTTAAATAAAGAGAAGAAAAAATTATTAAAATATTTGATAAGTTTTAAGAAAATGGAAAGATCAGAAATTATAGCAGATTTAAATATTGCTTTTGAAAATTCTATAGATTTAAATATAAAATTTTTACAAGAACTTTTATTGGATACAATAAATGAAATAAAAGAAACAAATTATATTAATTTAATTTTGGAGAATTTGTTTATAAAAATGTATGAGGTAATCTAATGCAAGTAAAAAACGACATTTTAAATTATAAAGAACTAAAAATAATTCAAGATAATGAAATGTTCAATTTTTGTATTGACTCAGTTTTATTGGCTAGATTTTGAAAACCATCAAATAAATATAAAAACATTTTAGATTTTGGAACTAATAATGCAATCATACCTTTAATAATTTCAAGATATACAAAGTCCAAAATAACTGGTATTGAAATTCAAGTGGAGGCTTGCAAAATTGCTAAAAAAAACATAAAAATAAATAAACTTGAAGATCAAATTGAAATAATAAATTCAGATATTAAAGATTTTATTTTGGATAAAAATAATAACTTTGATTTAATATTCTGTAATCCACCTTTTTTTAAAGTGGATAAGGAATCAAAGCTTAATAAAAAAAGTAAATTTTTAACTCCTGCAAGACATGAGATATTAATAACTTTGGAGGAAATAATAAAAAGTGCAAAAATAGCATTAAAAAATGGTGGTAAGTTTTTTATGATTCATTTAAGTGAAAGGTTAGATGAAATAATTTTTTTATTAAAGCAAAATAATTTTTCAGTAAAAAAATTACAAATAGTTTATTCAAAAGAAAAACAAAATTCAAAGAGAATTCTTATAGAAGCAATTAACGATGGAAATAATGGAATGAAAATTTTAGAGCCTCTTTATATTCATAATGAAGATGGAAGTTATAAGAAGGAAATATTAGAAATGTTTGGTGATTAAATTGCTAAAGAAAAGTTCAAAGTATATTTTAGGATTATCTGGAGGGCCAGATAGTGTTTTTCTTTTTAATTATCTATTAGATAATGGATTCAAAAATTTTGTAGTATGCCATGTAAATTATAATTTTAGAAAAGACTCTAATCAAGATTTAGAACTTGTGAAAAAAATGTGTAAAAAATATGAGATTGAATATTTTATAAAAAATATTAAACAAGATTATAATAACTTGAAAGAAAATTTTGAATCATGAGCAAGAACTATTAGATATGATTTTTTTTGTGAGCAATTTGAAAAACAAAAAGCCGATGCAATATTAATTGCTCATAACTTAAATGACCATATTGAAACTTACTTGATGCAAAAAAATAATAAAAAAAAAGTTAGATATTTTGGTATAAATTCTGAATCCTATTATAAAAATAAAAAAATATTGAGACCTATATTATCTATTAAAAAGTCTGACATAATAAAAGACTTAGATGAAAAAAATATAGGATATATTATTGATAGTACAAATTCAGATTTAAAATATGAAAGAAATAAACTAAGATTCACTCTTAGGGAGAATACTTTTAATAAGTTAATTAAAGAGATTGATATTAAAAATGAAAAAATTTTAAATTATAAACTTAAAATTGAAGATTTAATATATTCTAATGTTTTGAATATAGATAAATTTAATGATGATAATGAGTGAAATGAATATCTATTATTTAGTTTTTTAGAAAGAAACCAATTTTCTTATTTTTTATACAAAACAAAAAAAGCGATAATTAGAGAATTTTTAAAGCAAATATTATCTAAAAAAAAATTAGTTGAAATTAAAAAGGGAAATTTAATTTTAATGAAGGACTATGAATTAATTAGAGTAGTAAACTCTGAGGAGTTAGATACTTTTGAAATTGAAAATAGTAATGACAAATTTTTTAAAAAATTGTTAATTGAAAATAATATTGTCAATCATGAAAATATAGTTGTTACAAATAATTGAAAAAAATATCAATCAAAATTATTAGTTAATGATAAGTTCTTATCCAAAATTTATAGAGATAAAAAAATAAATTATCTTAAGAGATATAAAAATATTTTAATTTTTGATAAAACAAAGAAAATACTTTTAAATAAAATAAACATATAATGATAAAATTATAAAGAAATTAGAAAACGGTGAAAAAATGAAAAAGAAAAAATCTATATGATTATGGGTTTTATTTATAGTTATGTTAATAGTAATAGGAATAGTAATCTGACAGTTTATTGCAGGAACATCAGATAAATTAACTGAAGCAGAATTCCTTGATTTGTTAATGAATAATAAAATAAGTAAAAATTCAACAGAACAGGTTTATAGTGGTTTACACATTATATCTGGATCATATACTAATAGCTCTGGAGTTGTAAGAAAGTTTGTACTGACTTTAACGAATTCATCTTATACCTCACTTAGAGAAGATAATAATGCTTTTAAGGATTTTACTCAAAGCATAATAACATTATCACAAGGAAATTCACCGTTTATGACTTTAATAATTAATTTATTGCCAATGGTAATTTTAATAGGTTTTTATATTTGAATATTTTCATCAATGTCAAAAGGTGGAATGGGTGGAGGAATGTTTGGCCCAGGTAAAAATACAAGACCAAGAGAAATTAAATCAGATGTAAAATTTTCAGACGTTGCAGGTATTAATGAAGAAAAAATTGAACTTGTTGAACTTGTTGACTATTTGAAAAATCCAAATAAATATGCACTAATGGGAGCTAGAGTTCCAAAAGGTGTTCTTATGGAAGGCCCTCCTGGAACAGGTAAAACATTATTAGCAAAAGCAGTTGCTGGAGAAGCCGGTGTTGCATTTTTCTCAATGGCAGGTTCTGAGTTTGAAGAAATGTTTGTTGGTTTAGGAGCAAGTAGAGTAAGAGATCTTTTTAGTGACGCAAAAAAAGCAGCACCTTGTATTATTTTTATTGATGAAATTGATGCTGTTGGTAGAAAACGTAGTGGTGGAATGGGTGCTTCAACAAATGAACAAACATTAAACCAATTACTTGTTGAAATGGATGGTTTTGCTTCAAATACTGGAGTTATTGTTATGGCTGCGACTAACAGAGTTGATGTTTTAGATAGTGCTTTGTTAAGACCAGGAAGATTTGACAGAACAATTCAAATTTCACTACCTGACATCCGTGAGAGAGAAGCAATTTTAAAACTTCATTCAAGAAATAAATCAGTTTCTCCTGAAATTGATTGAAAGCGTATTGCTGAAAGAACACCAGGTTTTTCAGGAGCACAATTAGAAAACGTTCTTAATGAGGCTGCAATTCTTGTTGTTAGAGATAAAAGAAAAATGATTAATATTTTAGATATTGATGAAGCAATTGATAGAGTTGTTGGGGGACCAGCCAAAAAATCAAGAGCAATGACAATGCAAGACAAACAAATTGTTTCATATCATGAAGCAGGTCATGCTTTAATGGGATTAAGATTAGAATCGGCTTCAAAAGTTCAAAAAGTTACTATAATTCCTAGAGGTAATGCTGGGGGTTATACAATTATGACTCCAAAAGATGAATCAAATTTTTCATCAAAAGAAGACTTATTTGCCTCAATTGCAGGTTATTTGGGTGGTAGAGCAGCTGAAGAAATTATGTTTGGTAAAAACAAAATTACAACAGGAGCACATGATGACTTAGATAAAGCTACAAACATTGCAAGAAGAATGGTAACTCAATTTGGTATGTCAACATTAGGACTTACAAAATATTTAACTATGCAAGAAGAATCATATGGACAAACTAAGGGTGTTTATTCAGATGAAGTTGCATTTAAAATTGATACAGAGATAAATACTATTTTAGAAAAATGTTATAAAACTGCATTAGAAGTTATTAATAAACATAAAGATGTTTTAGAATTAATTGCAGAGTCTTTAAGAGTATTAGAAACTATTACAGCAGAGCAAATTGATTATATTGATAAACATAATAAGTTACCAAAAGAAGTTATAGAAGAAAAAAATAGAAAAGATGTTGAAGACAAGAAAAAAGAATCTGGAGAAATATTAGAATTTGAACCAGATGAAGATGATAAATAGAACACTTTATATTGAAGTGTTTTTTTATTTTTTAAACAAGTATAATAATAAAAGTGAATTCTTAAGGAGAACAAAATTATGGATATGGAAATTAGAGCAATAAGTGAAAAAAATAATGTAAAAATATCAATAGTTGATATTTCAGAAAGTTTTAATGAAATTGCAAAATTGCAAAATACTAACCCTTTAGCTTCAGTAGCTTTAGGTAGAACAATTATTGATAATGCTCTTGTGAGTTTATCTTTAAAAGATGGAAGTAAAATGACAACTAATTTAAATGGAATGGGTCTTGGTGGTTCAATAATTGTTGAGTTCCAAGATAAAAAAGTAAGGGGATATATTCAAAATCCAAATTTTGAAATTGATAAAATTAATCTTGAAGAGGGAAGTGCTTTATCACAAGTTGTTGGTAAACAAGGATTTTTACAAATATCTAGAGATAATGGGGAAAGTACTCCATATACTTCAAGAGTTGAAATAATTTCAGGAGAGGTCAATTTTGATTTTATGTATTATTTACAACAAAGTGATCAGGTTAATTCTTTAATTACTTCAGCTGTAGAATTAAATGAAGATAATACTATTAAAAAAGCATGTGGAATAATTATTCAATTACTTCCTGGTTTTAAAGATGAAGATATTGACTTTATTGAAGAAAAGATAGGTACATTAGATCATTTGGTTAAAACTTTAATTGAAACAACTAATTATGAATCTCTAATAAAAGATATTTGTAAAGATGCAAAAGTATTAGGTATTGGTGAATTAAAATTTGAATGTACTTGTAATATTGAAAAAGTAGTATCTTCAGTTAAATTACTTGGAGAAAAAGAAATTAAAAAAATAATTGAAGAAGGAGAATTAGTTGAAGTTGTCTGTGACTTTTGTAAAAAACAATATAATGTAAAGCCAAATGAAATTATATAGTTTTTATGTTATACTATTTTAGGTGTATTTAAGTTCTATATTAAGGAGTTTAATATGGAAGAAAAAGATTTAAAACAACAAAAAAAAGTCGAAGCGGAATTAGCACAATCAGAAAAGATTGAAGATAAAAAATTAGCTAAAAAAACTTCTGTGGGAACAGATCAAACTCTTATAAGAGAATTTGAGCATGTTGAGTTACCTTTAGTAACTGAAGAGGGAGTTAAAGGATTAAAATTAAAAAATAAAATCCAAAAACAAAATACTTCAAAATATTCAAAAAAAATATTAGAAGGTAAAATTGTGTCTACAACAGGTAACAAACCTGATTTAGAAAAAAACGTTATTGAGCTATACAACGTAAAAAGATGATATGTGACTGGAGATATGTTAACTCCTGTGTTACGCGGTGTGGACTTGAAACTTGAAAAGGGTAAATTTATTGTAATACTTGGACCATCTGGTTCAGGAAAAACAACTTTATTAAATACAATCTCAGGATTGGATAAAACATCAGAGGGTGATGTTTTCGTTCTAGGTAATAACTTGTCTTTATTAAAAGACTCTCATTTAACAAAATTCCGTAGAGAAAATGTTGGTTTTATTTTCCAACAATATAATCTGCTTTCAAATTTGACTGCAAAAGAAAATGCAGAAGTTGGAGAAAACTTAAGTAAATCAAAAGAAAATAAAATGTCAATTGAAGAAATCTTTAAAACTATTGGTATGGAAGAACAAATGAACAAATATCCACATCAAATGTCTGGTGGACAACAACAAAGGGTTTCTATTGCTAGGGCCTTAGCAAAGAACCCAGAAATCCTATTTGGTGATGAACCAACTGGAGCACTTGATGAAGAAATGGGTAGAAAAGTATTAGATATTCTTGTTGATGTAAAAGAAAAATATAATACAACTGTAATAATTGTTACACACAACCCAAATATTAGTGAAATTGGAGATACTGTAATACACGTAAGAAATGGTTTAATTGATGAAATTAAACATAATAAGTCTCCTAAAAGACCGTCTCAAATTGACTGATCATAGTTCAAAAACTAAAAACTACAAATGGATAATTTGTAGTTTTTTTAATATTAAAATGACTTTAAAAAAGTATATAATTATAAATGTTAAAGGTGGAGAAGTTATGCCAATTTTTAGTTTCAAAGGTGTAGAAGAAAATCACCTTAAAGAGTATTTTAAGCAAATTGAAGAATTAGCTTTAATTATGAACACAGATGTTAAAAAAATAGTTTTTTGAAATGATTCAAGTATTTTAATTGGGAATGGTTATGAAAAAGATGCAATTCAAGTAAAAATTGAATGACTAGCAAGACCATTGAAACAAGAAGAAGTTGTTAAACATATTCAAAATTTCTTTACAAAAATATCAAAGAATATATATGTCATATTTGAAGAAATAAATAATTTCTTATATATAAATGGAGAAAATAAAGGTTAATGAAAATTAGAAATATAGATATAAAAGGCAAAGTATTTTTAGGTCCTATGGCAGGAACTACAAATGCAGCTTTTAGAATTATTTGTAAAGAAAAAGGAGCTTCTTTAGTATATGCTGAAATGGTTAGTACAGAAGGTTTAGTTCATAACAATCAAAAAACTAAAACGATGATTGAAGTATCAGAGTTGGAACATCCAATAACTTTACAGATTTTTGGATTTGATGTTGAATCATTTGTTGAAGGGGCAAAAATTGTTGAAGAGTTTTCTGAGTGCGATGTTATAGATATAAATATGGGATGTCCTGCACCAAAAGTTGCATTGCGAAGTCAAGCAGGAGCTAATTTATTAAAATATCCAGAAAGAGTTGGAGAAGTTATTAAAGCAGTTGTTGAAAATACTTCAAAACCAGTTACAGTAAAAATGAGAATTGGTTGAGATGATGAAAATAGAAATGTAGTTGAACTTGCAAAAATAGCTGAACAAAATGGTGCGAGTGCTATTGCTGTTCATGGTAGAACAAGAAATCAATTTTATAATGGTAAAGCTGATTGAAGTTGAATAAAAAAAGTTAAAGAGGCAGTTAATATTCCAGTAATTGGAAATGGTGATGTTTTTGATGGACCATCAGCTAAAGCAATGATTGAAGAGACTGGTTGCGATGGAATAATGATTGCAAGAGCAGCACAGGGTAATCCATGAGTTTTTAGAGAAATACAACATTATCTTGATACTGGTGAGTTTTTAGAAAAACCAAGTTACGAAGAATGAAAAGCAACAGTAACAAGACACGCAAATATTCTTATCGAAATGCGTGGAGAAGAATTTGCAATTAGAGAAATGAGAAAACAGTTACTTTGATATTTAGGAACATTAGGTTCAGATAATAAAATAAAAGAAATGAAAAAAATGGCAACAACTATTGAATCATTGGAAGATATCAAAACAATATTTAAGTTTTATGAAAATGGAAATGTAGGAGAATAAGAAAATGAGCAATAATTTTGAAAGAAATTTTTCAGAGCAAGAAAATATTAGAAGAGAAAAATTGAAAAAACTTATTCAAGATAAGAGAGATCCATTTATTGAAAATGAATTTAATAAATCTCATTCTTTAAATGAATTAAAAGAAACATTTTCTTCATTTTCAAAAGAAGAACTACAAGAAAAAACAAAAATTAAAATTTCTACAGCAGGAAGAATAAGACTTTTTAGAGAAGCAGGTAAAAAAGCGATTTTTGGAAATATTCAAGATCAAGATACATCATTGCAAATTTATGTAAGACAAGATGAAATAGGTGAAAAAGAATTTGAATATTTTAGAGATTTAGATCTTGGAGATATTATTGGTATTGAGGGTATCATGATGAAAACAGATCATGGTGAATTAACTATTCGAGTTAAAAATGCTAAATTACTTACAAAGGCTTTAAAACCATTACCAGATAAACATCTTGGTATTGCAGATATTGAAGAAAAATATCGAAGAAGGTATGTAGATTTAATTGTCAATCCTGAATCAAAACAAGTTTTTATTGATAGAACAAAAATTATAAGAACTATTCAATCAATTTTAGATTCAAAGGGATATATGGAAGTTGAAACTCCAATTTTACAATCTGTAAGAGGTGGAGCAAGTGCAAAGCCTTTTATAACTCATTATAATGCACTCGACAATGATTTCTTTTTAAGAATTGCAACTGAATTACATTTAAAAAGATGTATAGTAGGTGGCTTTGATGGAGTTTATGAAATTGGAAGAATATTTAGAAATGAAGGTATAAGTACAAGACATAATCCCGAATTTACTTCTGTGGAACTTTATGTTGCTTATAAAAATATGGATTTTTTAATGAATCTATGTGAAGAATTATTTAAACAATGTTCATTAGCTGTTAGAGGAACTACAAAAATAAATTATGCTGGTCATGATTTAGATTTAGCAAAACCTTTTAAAAGATGACATATGGTTGATGCAATTAAAGAAGTTTGTGGTGTAGATTTTTGAAAAAAAATGACTTTTAAAGAAGCTTGCGAAATTGCTAAAAAACATAAAATTAAAGTTGATAAACATCATTTCTCAGTTGGCCATATTATTAATTTATTTTTTGAAGAATTTGTAGAGGCCAAAATTATTGAACCAACTTTTGTTTGAGGACATCCAAAAGAAATTTCGCCGCTTTCAAAATTAAATGCAAAGGATTCAAGATTTACTGATAGATTTGAATTATTCATTATTAACAGAGAATACGCAAATGCTTTTGCTGAATTAAATAACCCAATTGATCAGTATGAAAGATTTATGGATCAAATAAAAGAAGCAGATGCAGGAAATGATGAAGCAAATGATATGGATATTGATTTTATAGAAGCTTTAGAATATGGAATGCCTCCAACAGCTGGAATTGGAATTGGAATTGATAGAATGGTTATGCTATTGACAAATTCTGATTCAATAAAAGATGTATTGCTCTTCCCTCAAATGAAACCAAGAGGTATCTAATGAAATATGGTATAGCTTTAGGATATGTATCAAAATTAAATTTCAAAGATACAATTAAGGGAATAGAATTCATTAAGGAAAATATTTTTTTCTCTTTAAAAAATAAATTTAATTTATTGAATACATCAAGTGCTTTAATAACAAATAAGGCAGTATGATTAAATGATGATTTTCAACAAACAAAAAGACCAATTGATTTTGATATAGTAAGTCAAAATGAATATGGTGAAATTATGCAAGCTAACAATAAATGAAGAAGATACTTTTTAAGGAATTTAGAAAATAGTGAGCAAAACATAAAAGGTATAATAACTAATTTTATTACAGTTAATAGAGATGCTATTTTAGATAATACAAATTCATTAATATATGAAGAAATAGGATTGGAAATTCTAGTTGAAGAAGTTGAAATGGAATTTTTAAATAATACTTTAATAGATATTTATAAGCTTTTATGCTCTATTGATTTAAAAATTAGTGAAAAATTTGAAGAGTTAAATAATTTTCATTATTCAAAGACTTTAACTTTTGTAACTTATAATAAGCTTAAAGAATTATATCCGTTATTGACTTTTACTGAAAGATTAAATAAATTTGGAAAAGATAATGGTAGTTTTGTAATTCAAAATTATGTTGAAAGAATCCTTAATCAAAAAAATATTGGTCAGTTTTCAGAAGATGTTTTTAATTTAAAAACTTACTCTAAACTTTATATTTATAATGGTGAATGTGAAAAATCTATTTCAGTTGCTTATGCAGGTTTTCAAGTTGATAGAAAAACTTTAAAAGAACAAAATTTAATATTAAAAGAAAATAGCAAAATCAATAATGAGTATAATCATTTAATAAAATCAAATGAGCTACCTTTAACTTTATCAATTGGGGTTTTAATAAATAGAGTTGTTATGACAATTCTTGAAAAGCAACATATTGGGGAAGTTCACTCTTCAATATGAGGTAAAGATTTTGTAGAGTATTGTAAGTCAAATAACATTAATATTTTTTAATCACAACTCTGTTGTGGTTTTTATTTATAATTAGAAAGGTGATAAAAAATGGTGTCCTTAATTATTGTTGCAAATGGTTCAAGTGAAAGATTTGGACAAAATAAAATGTTAGTTAAAATTGAAAATCAATTTTTAGTAAATCAAACAATAAGTAATTTTTATAATATTAAAGATATTAAAGAGATTATTTTGGTTTCAAATAAAGAAGTTTTTAATGTAATTAAAGATAATAAAATTATTTTAATTGAGGGAGGAGCTACAAGATCAGAATCTGTAAAAAAAGGTTTAGCAGTTTGTAAACAAAAATATGTTTTAATTCATGATGGAGCAAGACCTTTTATATCCAAAAATTTAATTATTTCTATTATAGAAAATTTAAAGCTCCATGATTGTGTAGTACCAGTTTTAAAAATCACAAATTGTTTAAAGCTTATTAAAAATAATAAAATTAAAACTGTCAATAGAGAAGAATACATTCAAACTCAAACACCTCAAGGGTTTAAAACTGAATTAATAAAAGAGGCTTATGAGAAAAAAAACATTGAAGCTTTTGATGATTGCCAATTAATTGAAAAACAAAATAATAAAATTAAATTTATTGATGGTGATGATAAAAATATTAAGATAACTTTTAAAAATGATTTAAAAAGTTACTCTTAATTTCAATCTATCTTGAATAAACATTAATTTTTACTATATAATAAATAAGCGAGTTAATTTTTATTAACTCCTTGCCTTTAACTAGGCCAAAAGACCATAAGGAGATAGAATATGATTAGAAAATACGAAATAATGTATATTATTGATCAAGATGTTACAGATATTAAAGCTGTACAAAAGAAATTACATGACATACTTACTAATAATGGTGGAAAAATTTTAGAATCAGAAGATTGAGGTTTAAAAGATTTTGCATATGTAATTAAGAAAAAGAAAAAAGGTTACTATACTGTAGTAATTGCAGAAACAGACTCTACAAATATTAATGAATTTGAGCGTGTTTCAAGAATTGATAAAAACGTTGTGAGATATCAAGTAATTAATACTGAAAATGAAAAAAGATATATTCAATCAACAAAATTATCAAAAACTGATATGTCAAAATTTAAAGAAGAGAAAAAACCTTCAAGAGGATTCGATAGAAGAATGCCAAGAAGAGATGATAATAGTCAACCACAAGAATTTAGCGAAGCAAAAATTCAAAAAGAAGTAAAAGAAGTAAAAGAAGTAAAAGAAGTAAAAGAAGTAAAAGAAGTAAAAGAAGTAAAACCAAAAGATACTTCTAAAACTGAAACTAAAGAAGTAAAAGCACCAAAATCTAAAGATGAAGTTGCTTAAAATATTTGAAGGAGAATTTAAATGAACTCAGTAAATTTAATTGGAAGAATAACAAAGGACCCCGAACTTAGAAGTTCATCAAATGGAAAATCTTTTGTTGCATTCACACTAGCTGTTAATGAGTTTTCTGGTGGAAATCAATTTACACAATTTGTACCTTGTTTTGCATGAGAAAAAACAGCTGAAAATTTGGCTAAATTTGTAAAAAAGGGAGCTCAAATTTCTGTTGAGGGTTCAATTAATGTTAGGCAAGAAAATAATAACGGACAATTTTCACAAATTGTTACAGTTAGAGCTAACAGAATAGAATTTTTAAATGGGACAGGAAGTAATAATCAATCTGGGTCAAACAATTCATTTGAATCAAATCAATCAAAACCAACCGCTCAACCATCATCAAATAATTTTGATTTTGATTTAATAGATGATTCAAAATCTTCAAATGATGATTCAATTTTATGAGAAGACTAAAAGAGGAGAATAAAAAATGAAAAAATTTGTAAGAAGAAAAAAAGTTAATTTCTTTGCAAAAAACAATATCGATTATATTGACTATAAAGATGTAGATCTTTTAAAAAAATTTATATCAGCTAATGGGCAAATATTACCAAAAAGAGTAACAGGTACATCACCTAAACATCAAAGAATGTTAGCTATTGCAATTAAAAGAGCAAGAGGTATGGGACTTTTACCATTCGTAGTTCAATAATAATTTTTAAACACCACCAAGGTGTTTTTTTATTTGTTATAATTATTAAGGTGAAATAAATGAAAGTAATTCTATTAACTGATGTAAAAAATTATGGTAAAAAAGATGATGTTGTAAATGTATCAGATGGATATGCAACAAATTTTTTAATTCCAAAGGGATTGGCAATTGTCGCATCAAAAGGTGACTTAAGTCATTTAAATGTTAGAAAAAGAAAAGAAGAAGAAGTAAAAAAAGATAAGGAAATCGAATTAAATAATTTAAAAAATAAACTTGAAACTCTTGAATTGAATTTTAAAATAAAAACAAAGGATGGTAAACCCTTCGGTTCAGTTTCACTTTCACAAATTACAGATAGAATCAAAAAGGAATTTTCAATAGATTTAGATAAAAGAAAATTTGAAAAACATGAAAATATTAATAAGCTTGGATTGTATTATTTAAAAATAAAACTTGATTTAAAAATTATTGCTACTTTGAAAATCTTTGTAGAGGGTACAGAATAATGAAAGAAAATATAGATATTAATATTGAAAGTGTTTTAATTGATTCAGAAAAAGCAGTATTAGCAATTGCAATGCATTCACCAAAAGCAAGTTTTGATATTTTAACACAACTAAATTCAGAAGATTTTAGTTTAGAAAAACATCAAATTATTTTTGAAGCTATAAATACAGTTTCAATTAATAGTCAAAATATAACAATTACAAAACTTGCAGAATATTTGGAGGATAAAAAAGTACTTGAAAAAGTTGGAGGAGTTTCATATTTATCTGATGTTTCAGGATACTTTTATACAGATGAGGGTTTTGAAGATTATGTTGAAATAGTTTTTAAAAATTCAATTGGAAGACAATTAGATAGAGCACTAATACACATTAAACAATTGAGGGAAAGTAAATCACCAATTGATGAGGTTTTTGTTATTGCTCAACAAAAAATCTTGAATATAAAAACAGATGTTAAAAAAGATGACGCAACTGAAGTTAAAGAAACTGTAGTAGATGTTATTAAAAAAATTGAAGCTTTAGAAAAAAATGGTGGTTTAGTAAATGGAGTTCCATCAGGGTTTTCAGATTTAGATCAAATTACTAATGGATGACAAAAGGGAGACTTTATAATTTTAGCTGCTCGTCCATCAATGGGTAAAACTGCCTTTGCACTTAACCTTGCTGTAAATGCAGCTGAAAGACAAAAGGGAGTTGCTTTCTTTTCTTTAGAAATGCCTAAGGAACAATTAGTTCAGCGTATTCTAAGTTCAATTTCTGGTATAGAGTCTAGTTCTTTAAGAAATGCCCAAGGACTTACAACAGAAAAATGAGCTAGGATTACTGCTGGGGGAGAACAAATAAAAAATATGAATATTGTTATTGATGATACTCCAGGAATTACTGTTTTACAATTACAATCAAAACTAAGAAAAATGAAAAGAGATTTTGGAGTAGAAATTTGTTTTATTGATTACTTGCAATTAATATCTTCTATGTCAAATAAATTTGACAGTAGACAAAATGAAGTGGCAACTATTTCTAGACATTTAAAAAAAATAGCTCGTGAATTAAATATGCCAATAATTTGTTTATCACAATTATCACGTAGTGTTGAAAAAAGAGAAGAAAAGACACCTCTTATGTCTGACTTAAGAGATAGTGGTGCTATTGAGCAAGATGCAGATATAATTATGTTTTTATATAGAGATGCCTATTATAAAACAAAGGAATATAATTTAACTTCTGAAGATCCAACTGATGAAACAGATGTTATAATATCAAAACATCGTAATGGAGCTACAGGACTTATTAAAGTAAACTTTCTTAGAAGTTATGGTAAATTTATTGATCAGTCTAAAAATTCCTAATGCTTTTTTGCTTAAAATAAGGTAAAATATAATAAAGATTTTTTAAAAGAGGTTAAATTATGAAAAAGTTATTGTCAGTTTTAGGTTCATTACTAGTTGTTGCCCCAAGTGTATCAGCTGTTGTATCTTGTGGTATTGAAACAAATCCAGTAAAATTTAAAGTCGATGGAAAAGATGAATTTAAAATTGCCAATGAAAAAGTAGGCTTTCAAAAGCTTTTTGGTAGTGTGGCTACTCTACCTATTTTAGCTAATTTAGTTTTGGAATCTTTATCTTTCACTGAAAGTAAATACATTGGTGAGAAAAAAAATGAAGCAAAGACTTTTTTAGGTGAAAAAGGAATAGCAATGTCTTTAGAGAAAATCTTTAATGATGGTCCAAAAGATTTTATTGAGTTCATTGATAATAGTCAAGATGATAATGACAATGACAATTTTCAAAAGTATTATGAGGCTCCAATAAATTCAAATTTTGTCGAAATTAATTATGACTTAGGTATTGAAAAATCTGAGTTAGCAAGCGAAAATGATAAGTGATCAGCTTCAAAAGCTTCGGTTTATAAATCAGAAAAAGTCTTAACAATGAATACAAAAATTGAATACAAAGATGGTAAAGTTCAAAAAATTGAAGAGAATCAAAATGAAAATCCCAAAAATCTTAAAGATTATATTGAACTTACATGAGAGAAAACAAAATACAAAGATTATTTTAATAGTGGAGATTTTACTAAATATAAAGATAAAAAAATCTATAATATGTCTGAGACAGAAGCAAAGGAACTTTATACAAAAATCAAAGACTCTGGAAGTGATAAAATGAAAGAGGATTTGGGAGTAAATAAATTATCTCAAGATCAATTTAAAGTTTTACATACTCAATTAAATAAAGTTGATGAAAAATTTAAAAATGGTATTTTAATGCCTGGAAAATTTGAAAAGAATTTTTCTCAAACTAAAGCAAGTTTTATTAAATCTAGTGAAGGTAACCCAGTTGAAGAAAGAAAAGATATATCAGAGGGTGTTAATTTTTATACTACAAATGATGGAAAATCAATGCAAGCACAGGTTGTAGGTTTTAAAGAAAATAATAAAAGAACTTTCATTTATGGAAAATCAGATGAAGGACAGCAGTTAAGTATAGACTTTTTATTTAATGTGCCCAAGGATAATAAATATTCTCCTAAGGAAAAAAACTATATAATTAGACTTACTTTAGAAAATTTATTTGTAGGTTATCAATTAAATGGAATTACCTTAGAAAAAGGTTTTGATGATAAAGATAAAAAAAGAGAAGATGAAGTTATATATTGATATGAACCAAGTATTTATCAATTTACGAATGAAGAAATTTTTAAACCTGGTAATAGCAATGTATTTAAAGATTTGAAAAAGGTAAAATTGGAAATAGAAAAAGAAAAATAAAAAATTAATAAAAAATAGGAATGAGAGGTTCACTATGAATTACTACGTAAAATTTGAAAATGATTTTTTTAATATAGTTGATGGAAGAACCAATCAAATAGTGGCCTCTTTCATTGGAGAATTGGAAGCCAATAAATTTATACAATCTCTTATTAAAACTGGCAATAAGAGTCTTTCTAATTGAGAACAACCTCAAAAAAATAATTTCTCTAAAAATGCTGCAATACATGAAGATCCATTTAAATTAAAATTAGGGAAAACAGCACCTTATGGAGTATCTGACCAATATTTAAATGAAAATAGAGTAACAAAACCGGAATTAATAAATAATGTCCAAAATGGAATACCACAACAAGATTCTGGAAAAAGCGAAGTACCAAGTATTGTACAAAATTTTATCCATTCAACTTATCCTAGTGTACAACAACCAGTTTATGGTTATCCACCTATGCAACAACCAGTTTATGGTTATCCACCTATGCAACAACCAGTTTATCCGACATATAATGGTCCAACACAAAATTTCGGAATAATGAATGGTCAAAATAGTGCACCAGGAGCACCATTTCAAAGTGTTGGATATCCTCAACCTCCAACTAATTTTAATAATGATATGTATAATCAACCAAACAATTATTTTAATCAAGAACAGTCTAACTCAAATAAATTATCAGGTCAAATAAATAATCTTTCTGATCAACTACTTAATTTAAGTGGAAAGGTAAATAGTATTTCTGACAAATTAAAAAATGAACAGAATCAAGCTATTATAGATAATCAAAATATTCAAATTGAACAAAGAATTCAAGAATTAAAAGAGCTTGAAGAAAAGCAAAAAAATGAAAAATTAAAAGAACTTCAAGAAAAGCAAAGCTATGAAGAATTTAGAAGATTTCAAGAAAGACAAAACTATGAAGAACTTGAAAAAGAAAATAATTTAAATAGTGATGAAGATATAGAAATTAATCAAACAGTTCAAAATTTTAAAGATTTACAACAATATCCTGAGAATGAAAATGAAAATGAAAATGAGAATGAAAATGAAGAATTTAAGTTTGGATTTAATGATAATACTATTTCAATTGATTCAAGTTTATTTGAAGAAGATAAATTGGGAGCTATTATTCAAGAGGGAAAAAAATTTATAAATAATACAGATGATGATAGTTTAGGAGAAGTTTCTGCATATAAAGAAATGAGTAATTTTTCTAATTATGAAGAAAATATTGAAACAAAAAGTAATCAAGAAAATTTTATTTTAGAAGATGATCTAAAAATGATTAATCAAGATTTTAATGAAACTCAAATATCAAATAAAGATAGTTCTGGAATTCAAAATGAAAAAGGTAAAATATTAGGTCTTGAAGATTTGCCAACAGTGAGTGCTGATTTTAATGAAACTCCAACTTTATATCTAAGTGAGGTTGCAAGTGAATTAATTAAGGAACATCAAGAAAATAAAGAAGTAAATGAAATAGAACAATTAAAATCTAAAAATGAAAATATAACTATTGATGATACTGAATTTGATGATTTTAATCCGGAAGATCTTAATGAACAATATCAAGAAAAATTAGATTCTGAGGTTATACCATTAAAAAAAAGTGATCCTAATGTAATTGATTTGGGACCAGTTTTAGAAGATGATCAAATATTTTCTACTCCTAGGAAAGATGCACAATTAGAAGATTTTGAAGAAACACAACTATCTAAAAAAGAAAAAAAACAATTAAGAAAAATAAAAAAAAGAGAAGAAAATTCTAGAAAGAAATACGAAAAGTTACTTAAATAATGAATATATTAAAAGAATTAAGCGAAGAGTGAATAGAGTTATTTTCTACTGATGATATTATTAAAGATATCAATAGCATTATTAATAAAATAGAAGATTTTGAAAATATATATCCTAAAAAAGAAGATATTTTTAAAGTGTTTAATCTGATTAAACCTCAAGATATTAAAGTAATAATTATTGGACAAGACCCTTATCATGGTAAAAATCAAGCAAATGGAATAGCTTTTAGTGTATCCAATAATGTTAGAACTCCGCCAAGTTTAAGAAATATTTTTAAAGAATTAAGAAGTGATCTTGGTATTGACCATTCGCAAAATAATGATTTATCAAATTGAGTTAAACAAGGAGTTTTTTTAATTAACTCTTGTTTGACAGTTGAAAAGGGAATACCAAATTCTCATAAAAATTTAGGCTGAGATAAAATAATTTTAAAAATTTTAAATCAAATTAATAAAGTTAACAAGGATATAATTTTTTGTTTGTGGGGAAATTTTGCAAAAAAACTATATAATAGTCTTGTATTTAAAAATGAGAACGAAATTATTTTTTCTGCTCATCCGTCACCATTTAGTTTTAAAAATGGTTTTGAAAATAGTAAACCTTTTTCAAAAATAAACTTAATGCTGAAAAATAATAATAAAAAAGAAATTTTTTGAGAATACTAAGGAGCAAAAATATGAACAACATTAGTAAATGGTTATTAGAGGGTAATAATATGGCCTATGCAATGTCTGCATTTATAGGTTTCTTTATTGCTATTTATTTTTTTTATAATGCAGTTTCATATTGAGTTCTTAAAGAAAGATACCATGGTATAAGATTTACTACAAAAAATATTGCTTATATAACAATGTTTACAGCAATAAATGTAAGTGTTACTGTTGTTATTTCATTAACTTTACCAATTACTGTCTTTCCGCCAATTAGAATTGCATTTGAAGGTGTTATGGTAAAAATAACGGGCTTTATTTTTGGTCCAATAATTGGAGTTTTAGTTGCTCTTATTACAGAAGTTTTAGTTATGATTTTTGTACCTTCATTTATTCACCCAGCTTTTATAATTGTAATAATTTGTTATGGGTTTATTGCAGGTATCGGGTCAAGTTTTTTAAGACTAGGTAAGGGTTATAATTGAGTACCAGTACTTTTAATTAATTTATTTTTAATTTTATTTGCTATTTTTATAGTGTTTGTAATTAGTGCTTACCCAGATGATGAAAAAATTAAGATTTTAAGTTTTGAGGTTTCTAAAGAGGTTTATAAATGAATTTTTTTAGGCTCAATAATTATTTGTCTTGGATTATTTTGAATAATTTATTTTGCACTTTTATTCAAAGGGCAAAGAAAGACCTTACATGTGCTATTGCCAATAATACTTTTTGCAACAGCATCAGAGTATTTGGTAACAGCCGTCATTTCTGCATGAGGTGATGCAGGATTTTTAGGAATACCATCAGAAGGTGGTTATACAGCAATGTTTATTGGAAGACTTGTTCAAGCTCCATTAAAAATAATATTTAATTCTGCGGTTTTATATTTAACTTATAAAGCTGTAGCTCCATTGATTAAACGAGATAGATAGTGATACTAGAGGTAAAAATAAATGAAATTATATGATTCTTTAAAAAGAGAATTTGTTGAGATTGATGTTCCTAAATTTTGTATTTATAGTTGTGGTCCTACGGTTTATGATTTTATTCATATTGGTAATGCAAGACCTTTAATTTTAACTGACATTATTGTTAGATATCTAGAATACATGGAAATCAAATATAAATATCTTTTAAATATTACAGATATTGATGACAAAATAATTCAAAGAGCTGCTGAAAATAATATTACAGAAGAAGATCATGCTAAAATCTATTCTGATGCTTTTTTAAATGATCTTAAGAATTTGAATATTAAATCTCCAACTTTGATAACACCAATTTCTTCAAAAATAAGTGAAATTTTAATTTTTATTGATGATCTATTGAAAAAAGGATTTGCTTATGAAAAAAAAGGTAATGTCTATTTTGATATAAGTCAATGAAATAACCAGTATGGATCTTTGTCAAATCAAAATATTAATAATCTAAATAACGGTGAAAGAATTGAAGTAGACGAAAATAAAAAAAATCCTCAGGATTTTATTCTTTGAAAAAAAACAAAAACTGGTAAAAAATGACTTTCTAAATGAGGGTTTGGGAGACCAGGATGACATACAGAATGTGCTCTTTTAATAGATGACTTTTTTAAAGATACAATTGATATTCATGTTGGAGGAATTGACTTGAAATTTCCTCATCATGAGAATGAAAGAATTCAATATATTGCAAAGAATTCAAAAGAATTATCAAACATTTGATTGCATAATGGTCATATTTCAATTGAAGATGTTAAAATGTCTAAATCTCTTAAAAATACAATTCTTGTTAAAGATTTTTTAGAAGAAAATGGAGCAAATTCATTAAGATACATATTCTTAAATTCAAATTATAGACAACCTTTAAATATCTCTCAAGATTTAATTAATCAATCACTTGATTGAGTTTCAAAAATTGAGTCATTGTTAAAGACTATTAATTGATCTACTGCAATTGGGCAATTAATATTGATAAATGAAACTCCAATTGATGAAGATTTTAATTCTTATAAATACATTACAAATTTTAAATCTCTATTAAATGACGATTTAAATACTCCAATGATAATTTCACTTATTGATGAAATGTGTAAAAGCATTAACATTCAAATGAAAAATAAAAAAGTAGATTTAACTTATAAAAAATTACTATCTATTTTAAAAGTTTTAGGCTTCAATTTTAATATAAAAAAATTAGATAAGCTAGATATTGAAAAAATAAAAGAGTGAAAGATTTTAGTTTCTCAAAAAAAGTTTGACAAAGCAGATAAATTGAGAGAAACTCTTAAACAGGAGAATATCATTTAATGAAAAACTATATTTATGGAAAAAATGCAGTTGAAAATACAATTAAAAACTTTATAGATGAAATTAAGCAAGTTTTTATTTTGAAAGGTCACGCATTTGATCCAGAAATTTTTAGTATCATAAAACAAAAAAATTTGGAATGACACTCTTTGGAAAGGCAAGAGTTTAACTCACTAATAAAAGATGGAGTTAATCATCAAGGTTTAATTGCACAAGTAAAGGACTTCAATTATCTTGAATTAAAAGACTTCTATAATAATTCAAAATTAAAACAAAAAGTTTTGATTTTAGATAAAATACAAGATCCACAAAATTTTGGATCAATTATTAGAACTGCTAGTCTTTTTGGAGTTGATGGGATTATTATACAAGAAACCAATCAAGTTCAAGTTACACCAGCAGTTATGAAAGCTTCTGCGGGAACGATTTATAATGTGCCAATCATCAAAGTTAGTAATCTTAAATCTGCAATTAGCAGCTTAAAAGATAGGGGATTTTGGATATATAGTTCTTATTTAAATGAGGAAAGTAAATCCATTGGGGAAATCGATTTTGATAATAAATCAGTAATAATTATAGGGAATGAGGGAAATGGAATTGGAAGTAAAATCATAGAAATGTCAGATTTCACTTTTAAAATTGAAACTAATAACGTGATTGACTCGTTAAATGTTTCTGTTGCAACAGGAATAATCCTTTTTGAATTATCTAAAAAGTAATTTTTGAAAGGAACAATAAATGCCAAATAAATATGGCGCGTTAGACGCAATTAAAGAAACAATAAGAATAGAATTTGGAAATGAAATTTCTGAAAAGGAATTATTACATTTTCAAAAATCTGTAATAAAAATTATTAACACAGAACATATCAAGTTAGGTTATCTCCAATTGGATAAAGATGATTTTACATCACACGTTTTTTTTGCACTTAAAGAGATTAAAAGCAAATTTGATATAAATAGAAAAGTGCCTTTATTAGCTTATGCAAATTTTATAATTAAGAGACGTATCTTAGATTATGCAAAATATCTTAAAAGGGATAAAAGAAAAATAACTCTATTAATAATAAACTCATTTAGAAGTGGAATCACAGAAGAGGGTCAGACTTTTATTGATAGAGATATTGATAAATTTTCTTTGCAAATATATAATGAAGAACAGAAAAATCTCTATATTAGAAAAACCTTAAAAAATTTCATAGAGTATGAGTGCTTAGAAAAAGAAGCTCTTATTGCAAAAATGATGTATAAAGGATATAGTCAAAAAGAGATTATTAGTAAATTAAAAATTAAAAGAAAGGATTTTTTGGAATTTAAAGAAAAACTAAAAATTCTTTTTAAGGGTTTTATTAAAGATAGTTCTAATATATAATATGTAAGAAAAGAAGAGAGTGTTTTCATGCCACAATCAAAAAAGAAAGTTATATTAGTTTGTAGTGAGTGCCTTTCAAGAAATTATACTATTCAAAAAAGTACTATTTCTCAAAGAGAGAGATTGCAAATTAAAAAACATTGTATTACTTGTAATGCACATGTTTTACATAAGGAGACAAGATAAATATGTCTGATAAAAATAATTCAAAAGAGCAAAAAGCTCAAGAAAAATTAAAGAAAATTCAAGACAAAAAAGCTCAAAAAGATAGTAAAAAGACTCTAAAGAAAGAGAAAAAAGAAGAATTTACTAAACTATTTAATGAGTTTGAGGGGCATGATGGTACACAAGAAGGAAAAATCAAAGCAGCTAAAAAAAGAAAAGTAAAAAAAGAAAAAGAAAAAATAAATTACAAATTAGCTATAAAAGAGGCACCTATTAAGTTTCTTAAAGAAGTAAATAAAATACAATGATCTTCAAGAAAAAATTTAGGAACAAAATTTTTATGAGTTATAATATTTATTGCAATCTTTGGAGTATTCTTTTTCTTTGTTGACTGAGGATTTCAAAGCTTATTTGAACTTATTAAAATTATTTAAAAGGAGATTATCATGGAACAACGCTTATTTGACTTAGAAGATGAATTAGCATCTTATAAAGGACAATGATTTGTAATTAATTGTAATAGTGGACACGAAGACCGTGTTAGAGCTGACTTACTTCAAAAAATTGAAACATCAGGATTAGAGGATAGAATATTCGATATTAGAATTTCAAAAGGACCTGTTGTAGGAAAAAATAATAAAATTAATGAAAAAAATAAATTTCCAGGATATCTATTCATTAATATGAATATGACTGATGAAACTTGATTTATTGTAAGAAATACTCCAGGAGTAACTGGTTTCATTGGTTCATCAGGAAAAGGTGCGAAACCTTTACCATTAACAGTTGAAGAAGTTTCAAGAATGTTAGAACAAAATAGTCAACAAGATAAAAATGAAAAAACATCAAAAGGTAATGCAAATCAACCTAAAAAAGAAAAAGTGTTGTTTACTGCAAAATTCACTACAAAAGAAGTTGTAAGAGTGAAGGATGGTCCATTTGCAGGCACTGAAGGTCAAGTTATTGAGATGGATTTCGAAAAGGGAATTGCTATTGTTAATATTGAATTATTTGGAAGAATTACACAAACAGAATTTGAATTTTCGAATTTAGAAAAAGCTTATATCAATTAATTTGAACTTTGTTTATACAAAGTTCTTTTATTTTCTTGTATTATTATTTTATGAGGTAATTAAATATGAAAATAATTAAATTTGAAATAATTTTAAAAGATGGCAAAAAAATGCAAGCTGAGCTTTTCCCAGAGTTAGCACCAATATCAGTTGAAAATTTTGTAAACTTAATAAAAAATAAATATTTTGACGGATTAATATTTCACAGAGTTATAAAGGACTTTATGATTCAAGGTGGAGGAATGGATGTTAAAATGAATGAAAAAGGTGGTCTAGAACCAATTAAAGGAGAATTTTCAATTAATGGTTGAAATAAAAATGCAACAAATTTAAAACATCTACCTGGAGTATTATCAATGGCAAGAACAAATGATATGAATAGTGCCACTAGCCAATTTTTTATTGTTACAGGAGATGCTAGTTTTTTAGATGGTCAGTATGCTTCGTTTGGAAAACTATCAAATGAAGAAAGTTTAAAAATAGCTTTGGAAATTAGCAATTGTGAAACAACAACACATGATTATCATGATGATGTACCAACAGAACCAATCATTATAGAAACAATGAATCTTATTTAATAAAAGGGATTCATTTTATTTTTAAATTGTGTTATTATTATTTATGGCAGATTTTAATTGTGGAAGTAAGATAAGCAAATGCATATCATTACGTTAGGACCACAGCGAAAACAGGAGGTGTTGTTCGTGGCAAAAAGAATCACACGTATAGCAAAATTAGAATTTATGGCAATGCAAGCAAAACCTGGTGCAGAATTAGCTTCACTAGGAATTAACATGCCTCAATTCACACAACAATTTAATGATGCCACTAAAGATAGAGCTGGAGAGGTAGTGCCTGTAGTTATTACAGCTTATGATGATAAATCTTTTGATTTCATTTTAAAAACTACTCCAGCAGCATTTATGCTAAAAAAAGCTGCAGGAATTACTAAAGGATCATCAAAATCAGGAACTGAAACTGTTGCAACTATTACAGCAGAAGATGTTAAAAAAATTGCTGAATATAAAATGGAAGATTTAAATGCAAACACAATTGAAGCAGCGATGAGAATTATTGAAGGTTCAGCAAGAAATATGGGTATTAAAGTTACTGGAATGCCAGAAAAAGAAGGTAAATAATAATGGCAAAATTAAGTAAAAAATTAAAAGCTGTTAACCAAAAAGTTGATAAAACTAAATTATACCCAATTGCAGAAGCTATTAAATTAGCAAAAGAAACTTCAGTTACTAAATTTGATTCAACTGTTGAAATTGCATTTAACTTAAATGTAGATCCAAGACATGCAGACCAACAAATAAGAGGGGCAATTGTAATGCCTGGTGGAACAGGTAAAACTCAAAAAGTTTTAGTTCTAACAAAAACAAAAGTTAAGGAAGCTGAAGATGCAAAAGCAGATTTTGTAGGAGCAGAAGATTTAATTAACAAAATAGCAAAAGAAAATTGATTTGATTTTGATATCATTGTTGCAACTCCAGAAATGATGGCTGAATTAGGTAAAATTGGTAAAGTCTTAGGACCAAAAGGATTAATGCCAAACCCTAAAACAGGAACAGTTACAATGGATGTAGCAAAAGCTTTAGATGAAATTAAAAAAGGTAAAGTTGAATATAGAACTGATAAAGAGGGAAATGTTCACTCAATATTAGGTAAAGTTTCATTTAATGAAGAAAATTTAATGAAAAACTATACAGCAATTTTTGATGTAATCAAAAAAGCAAAACCAGCAGCAGTTAAAGGTACATATATTAAAAATATATCTCTTTCAACAACTATGGGTCCTGGAATCAAAGTTCTTATTGAAAACTAGTAAAATCTCACAATTGTGAGATTTTTATTTTTTTATTTTATAATAATTAAGAAAGGAAATGAAACTATGAAATGATGATTTTCAGATTATGATGGAACAATTAATTTGACACATAATGATTATATTGATCCAAGAGATTTAGAATTTATTAAAGAGTGAATTAAGGAGGGTAATAAATTTGCAATAGCAACTGGAAGAATGGAGCACGAAATTCAGCCAGTTCTAGAAAAAGCTAATATACCATATGACTATATGATTTGTAATAATGGAGCAGTAATTTATGAAAATGGTAAGGGAGTAATTGCAAATGCTTCAATTCCCAAAGAATCAAGAGAAGAAATAATTAAAATTTTTGACACTTTAAAAGAGAAGTATGTTTTAGGTTATTGTTTAAAAGATAAAAGAATGAGTTATTCAAAAGTTGATCAACCTGAAGTTTATGATAATTTCTTTTTAAAGAAATATGCTTCTACTCATAATAATTTTGAACAAGGTAATCATGATATTTTAAATTCAAAAGATTTAAATTTATTGTATTTCTTTCTAGCAGAATCACAAATTGAAGAAGTTAAAAAATTATTAGAAGGAAAAATAAAAGGTTGTAAAGCAGTAAGAACACATAAAAATGTTATTGAAATAATGAGAGAGGATGTCTCAAAAGCTTACGGAATTAAAGTTATCCAAGAGCTTAATAAATTTTCATCTGAAGATATCTATACAAGTGGAGATGGTGAGAATGATATTGAAATGCTTCAATATACAAAAAATTCTTTTGCTATGAAAAATCATCAACCAGGAGTTGATAAAGCAGCTAAACATATCATAAGTAATGTTTTTGAAATAAAAAACTTTTAAATAAATCAAATTTACTATTGCCTTAAAGTAACTTTAATGAATTATAATTTTAAATGAGGGATCACCTTTGAAAGTTAATCTATTTAGAAAATGGAGAAGTGCATGGATAAAATATATTTAAACGAGTTAGCAAAAATTCTTAAAATAAACGAATCTGCTTTAAGATATTATGACTCACGGGGTTTAATACCAAAATTACAAAGAGATAAAAATAATTATCGTTTTATTCTTGAAGACGATTTAGCTTTTCCCAAAACAGTTATTTGCCTAAAGAAAACAGGTATGTCATTAAAAGAAATTAAAAAATATTTAGATTTTGTTGAGCAAGGTGATTCTTCTATAAAACAAAGATATGAAATGATATTAAAACAGGAAAATATTGTTTTGAATAAACTTAAAGATATTCAAGAACAAATTGAATTTATTGAATACAAAAAAGGTTTATATTTTAAAAAATTAGATAAATAAGAAAGGTGATAAAAATTTTGAAAACAAGAAAATTAGGAAAAGATTTAATAGTATCTGAAATTGGTTTAGGGTGTATGGGATTAAGTTTCTCATTTCCTCCATTTCCAACAAAACAAGAAGCTGTTGATTTTATTAGAAAAGCATATGAAAAAGGTGTAACATTTTTTGATACTGCTGAAATATATGGCCCTTTTAATAATGAAGAGATTTTAGGAGAAGCACTAGAACCTTTTAGAGATAAGGTTGTTATTGCAACAAAATTTGGATTTAGTTACAATGACGATGGAACAAGAGGCGGAATTGATAGCAGTGAAAAAAATATAAGAAGAGCAATAGATGGTTGTTTGAAAAGATTAAGAACTAGTTATATTGATTTATTTTATCAACACAGAGTAGATCCAAATACTCCAATAGAAGAAGTTGCAGAAGTTATGAAACAACTTCATAAAGAAGGTAAAATTAAACATTGAGGATTAAGTGAAGCTTCTGCAAATACTATAAGAAAAGCTCATAAAGTTTTCCCAGTAACTGCTTTACAGAGTGAATACTCATTATTTTGAAGAGATCCAGAAAAAGAGATTATACCTACACTTGAAGAATTAGGAATTGGTTTTGTTCCATTCTCTCCTTTAGGAAGAGGTTTCTTAACTGGAACAATTGATTTAAATACAAAATTAGAACCTGGTGATTTTAGATTAACAATACCAAGATTTCAAAATAAGGAATATTTAAAAGCAAATCTTAAATTAGTAGAATTTGTTAAAGAATTAGCAGAAAAGAAAAAAACTACAAGTGCAGCTGTTGCAATTGGTTGAGTTTTAGCGCAAAAAGATTGAATTGTTCCAATTCCTGGTACAAAAAGGATTGAAAGATTAGAAGAAAATTTAACAGGAGCTGATGTTAAATTTACACAAGAAGAATTAAATGAAATTAAAAAAAGACTTGATCAAATTGAACTTATTGGAGAAAGATATAATGAAGCTACTAATAAAGCAATTGATAGAACTTAAAAATATTTAAAATTACTTAAAAGTTGTTTATTAATAAACAACTTTTTTTAAATCATTTATAATTTTTTTAGGAGAAAACTATGATAAATATTAAACACAAACTTAATTTATTAATTTCAAAACAAGAAATTGAAAAAGAGATCACAATTTTAGCAAATGAATTAAATGACAAATTTCAGGGAGAACAGATAAGTCTTATAATGATACTTAATGGTTCCGTTTTCTTTTTTGCAGATTTAGCAAGAAAATTAAATATGCCAATTAAAATGGATACAATTTCTATATCAAGTTATTTAGGAACTGAGTCGACAAGAAAGGTGAAATTTCATAAAAAGATTGTCAAACCTATTATAGAAAATAAGCATGTTTTAATAATTGAAGATATTATTGATACAGGTAGAACGCTAACAAATGTTTATGAGTATTTGCAAACACTTAATCCTAAAACATTAGAGATAATCACTCTGGCTGATAAAGAAGGATGCCATGAAGATTTTAAGTATAATTATAGATCTCTTTTCAAGGTACCAAATAAATTTGTAGTAGGTTATGGTTTTGAAATTGATGATTTATATAGACAATTAGACCAAATTTATACTATTGAAGATGAAAATTAATGCTATACTAAAAAATTAAAAATATGGCTATTAGAGGTTCTAAATATGTTATTATATAAGTGCTATTCGTACCGAAGAAAGTAACTGGGATTTATCCCTTAATTTGTTACCGAGGAATGAAATTACATATATTATTTGTAAGTAATCTAATCTTACAAAGTTTATTGTATTTTTAATTGACCTCGGAAATTATCTGAGGTTTTTATTTTGATTTTAAAAACGAAAGTAAAAAAGGAGGTTGTTAATAGTGTCAAACGCAAGACCAGCTCATGCTAAAAAGAATGAGATAGTTAAAGAAATTTCAGACAGAATCCAAAACTGTAAAGGAATGGTAATAGCTGAATATAAAAATTTAACTGTAGCACAAATGACAGATTTAAGAAACAAAGCTCGTGAAAAAGGAATTTTTATTAAAGTTTATAAAGATTCATTAGTTAGAAGAGCAACTGAAGAATTAAAAATTAAAGGACTAGATGCATATTTAGTACAACAAAATATCTATATTTTTTCAGATGAAGAAGCTTTATTTCCATCAAAATTAGTTTCAGAATTTGCAAAAGTAAATCCAGATCTAGTTCTTAAAGCAGGTATATATGAAGGAAATGTTATGGATACAGCAGCAATTAATGAAATTGCTTCTCTTCCATCAAAAGAAGAATTATACTCAATGTTTGCTTCATCACTTATTTACCCATTACGTCAATTTATGTTGACTGTAAAAGAAATAGCAAAAACAAAATCACAATAAATAAGCAATTAAGTGTACAAATAGCAATTAATTAAAAATTAAAAAAAAAGAAAAGAAAAAGGAGAATATAAAAATGGCAATTACAAAAGATGATATTATTAAAGCTTTAGAAGAAATGAAATTAACAGAATTAAACGATTTAGTTAAATCAATAGAAGATCACTTCGGAGTTGTAGCTGCTGCAGCAGTTGCAGCACCAGCTGCAGCAGCAGGAGCAGCAGCACCAAGTGAAGTTAGTGTTATGTTAACAAGTGCTGGAGGAAACAAAGTTTCAGTTATTAAATTAGTTAAAGAAATGACAGGTTTAGGATTAATGGATGCTAAAAAATTAGTAGATGGAACTTTACCTGTAGCAATTAAAGAAAATGTAAAAATTGAAGAAGCAGAAGAATTTAAAAAACAATTAATGGAAGCTGGAGCTTCAGTAGATTTAAAATAAAAATTAATTTATAATGACCTAGTAGGTCATTTTTTATTAGAGGGAATTTTATATGTCAAAATCATCAAAAATATATTTATTAAAAGATTACATTACTAATACTGCTATTGAAGTTGGAGAATATAGTTACTTTTATAGTTTTCAAAATGAAAAGGGTGCTAGAGAATTTCAAAATAGAAATATCTTGTATCATTTCCCAAATGTTCATAAAGATAAATTAATTATTGGTAATTTTTGTGCTATTGCAGAAGATGTTAAATTTCTAATGAATGGTGCAAATCATAGAATTGATTCAATATCAACTTATCCATTTGAAATGTTTAAAGAGTTTGAATTTAATGAAAAAACTGCTAAACCTTTTAAAAGTAAGGGAGATACAGTAATTGGTCATGATGTTTGAATTGGGTATGGAGCAACTATTATGCCTGGGGTAAAAATTGGCAATGGTTCTATTATTGCAGCAAAGGCAGTTGTTACAAAAGATGTTGAACCTTATTCAATTGTTGCTGGAAATCCAGCAAAAGTAAAAAGAATGCGATTTGAAAAAAATAAAATAAAAGAGCTAGAAGACTTGCAATGATGAAATGAAAGTATAGAATCAATTAAGACTATGTTAGAGAAATTAACTAAATAACTAAAAAAATGCAAAGAAATAATTATTCTTTGCTATTTGCTATTGATTTAGTCTTTAAAATAAGATAGAATTTTTTTGCGTATGTTTTATTTGAACGGGGGACACTATTAAATGAATTACAAAATCAAGAAAATTAATGCATTAGTGGAAAGGCGTGACTATGCTAAGGTTTCAGGTGATTTAGAATTACCAAATCTTATTGAGTTACAAACAGACACATTTGATTGATTTAAAAATAAGGGAATAAATGAAGTATTTGAAGAAGTTTTTCCAGTAGTTTCAGCTGATGGAGATATAGTATTATCAATGACTGATTGAGAGTTTAGAGAACCAAGACTTTCAATTACAAAAGCAAAAGAAGAGTCAAAAATATTTGAAGCACCAATTTATTCAAATTTATCTTTAACTATTCATATGGAAGATGTTGAGGTTTTTAAAGAAGAAATTTCAGGTTCTATGGAAACATTCTTAAAAGGATGATTACAAGAGAAATTGGAATCAACTGGAGTTGAATTTAAAGACAGTAAAGGATCACTTTACTTTTTTGAGTTCAAAAGCAAGGTTGGCGAAAAAGATGCAATTCAAATTGAAATTAAAGAAGACAAAGAAGAATTTTATTTAGCAAATATTGATATTTATAAAACAGGAGAAGTTTTCTTTGGTGAATTCCCTATAATGACAGATAGAGGGACATTTATTATTAATGGTAGTGAAAAAGTAGTTGTTTCACAATTAGTTCGTTCACCTGGAAGTTATTTCAAAGAAGAAATGAACCGTAAAAATGGGGAAATGATTTATTTTGCAGATATAATTCCATCAAGAGGAACATGATTAGAATTTGAATTAGATTCTAAAAAAGCTTTAGATAATAAAGTATTAAATGTTTTTTATGTAAAAATAGATAAATCTAGAAAAACAACAGCAACAAGTTTATTGACTGCATTCAAAATGCAAAAAGAACAAATTTTAGATTTGTTTGATAATAATGAAGTAATTTCATCAAGTTATGAATTGGATACTTTAACTGGTGATATTGAAATAGATTATGAAAACCAAGTTCAAGAAATTTATAAAAAAATTCGTCAAGGTGAAACAGCAACAGCTGATGGAGCAAGTAAATACTTATATGGTTTACTATTTGACAAAAGAAAATATGATTTAACAAAAGCAGGAAGATTTAAATTACAACAAAAATTATCTGTAAAAAACAGATTAATTGGACGTGTTTTAGCTGAAGATATTATCGATGTTAAAGGTAAAGTTGCTTTTGAAAAAGGAACAGAAATTACAAAAGATATTTTAGATGACTTAGATAAAGTATTAGAAGCTGGTGCAATGGTTCAAAAAATTAACTTTAATGAACAAATAACATCAGGTAATGAAATCCAAAAAGTAAAAGTTTATAAAGATAATGATTTAAGAGATGAAACAGCAACAATTATTGGGATTACAAAAAAATCAAAAGATGAATTTATTAATTTACCAGATATTGTTGCAACAATTTCTTATGCAATAAATTTAATGGATGGTATTGGTGAAATAGATGATATTGATCATTTAGGAAACAGACGAGTTAGAACAGTTGGAGAATTATTACAAAACCAATTTAGAATTGGTATGATGCGTATTGAAAAAAATGTAAGAGAAAAACTTGCAACTTCAAATCCGTTCAAAATGAAACCATCAAGTATTATTAACAATAAACCATTAACTGCAATAATTGGTGAGTTTTTTAACCTTTCACAATTATCACAATTTATGGATCAAACTAACCCATTAGCTGAATTAACAAATAAACGTAGATTAACAGCATTAGGGCCAGGTGGTTTAAGTAGAGATAGAGCTGCTTTAGAAGTTCGTGACGTTCACCCTTCTCATTATGGGAGAATATGTCCAATTGAAACTCCTGAAGGACCAAACATTGGGTTGATTAACAATTTATCAACTTATGCAAAAATTAACGAATATGGGTTCATTGAGACTCCATATAGAAAAGTTAAAAATACTAAAGTTATGTCAGGAGAATATGAATATTTAACTGCAGATAAAGAAAAAGATTATGTTGTTGCTCAGGCAAATATTAATTTAGGTGAAGATGGAACAATTTTAGATGACCAAGTAATTGCTCGTTATAGAGGAGATGACATAATGGTTAGTCCTAAGGATGTTGACTATGTTGACGTTTCTCCAAAACAAATTGTTTCAATCGCTACATCATGTATTCCATTTTTAGAGAATGACGATGCTAACCGTGCACTTATGGGAGCAAACATGCAACGTCAAGCTGTACCATTAATTAATCCAGAATCTCCAATTGTAGGAACTGGTGTTGAACACGAAGCAGCACGTGACTCAGGAGATGCTGTTGTTGCAACAGCTCCAGGTATTGTTAAATATGTGGACTCTAAAAAAGTTGTTATTGAACAAAAAGATGGAATTAAAACATATGATTTAAATGACTTTAGTCGTTCAAATAATGGAACAGCTTTAACTCATTTACCAATTGTAAAAATTGGAGATAAAGTTAAGGCAAGAGATATTTTAGCTGATGGACCTTCAATGGAAAAAGGTGAATTAGCTTTAGGACAAAATGTTGTTGTAGCATTTACTACTTGAAATGGTTATAACTATGAGGATGCTGTTATTGTTTCAGAAAGAATTGTTATTGAAGATAGATTTACTTCAATTCATATTGATGAATATACAATTGAAAGAAGACAAACAAAACAAGGTCCAGAAGAAATAACAAGAGATATTCCAAATATTTCTGAAGCAAGCAAAAAATACTTAGATGAAGATGGTATTGTTGCAATTGGAGCAGAAGTTAAAGTTGGTGATATTTTAGTGGGTAAAGTTACTCCAAAATCACAAACTCAATTATCACCAGAAGATAAATTACTACATGCTATCTTTGGAGAAAAATCAAGAAATGTTAAAGATAATTCTTTAAGAGTACCTAATGGTGGAGAAGGAATAATTAAGTCAATTAAACGTTTCTCAAGAGTTGATGGTCATGACTTACCAGCAGATATTTTAGAAATCATTAAAGTTTATGTTGTTCAAAAACGTAAAATTCAAGAGGGAGATAAAATGGCAGGACGCCATGGTAACAAAGGTGTTATTTCAAAAATCTTACCTGTTGAAGATATGCCACATATGGAAGATGGAACACCAGTTGACATTATGTTAAATCCACAAGGGGTTCCTTCACGTATGAATATTGGACAAGTACTGGAAATCCATCTAGGAATGGCTGCAAAAAAACTTGGAATTAAAGTTAATACTCCTGTTTTTGAAGGGGTTAAAGAACAAGAATTACAAGATATTATGGAAGAAGCTGGAATGGATAATTATGGGAAAGTTACATTAATTGATGGGCAAACAGGTGAAGCATTTGATAAACCTATTTCTGTTGGTGTAATGTATATGTTAAAACTATCTCACATGGTTGACGATAAATTACATACAAGAAATATTGGACCGTACTCATTAATTACTCAACAACCATTAGGAGGAAAAGCTCAAAATGGTGGTCAAAGATTTGGAGAAATGGAAGTTTGAGCGCTTGAAGCATATGGTGCTGCTTATACATTACGTGAAATCTTAACTATTAAATCTGATGATATTAAAGGTCGTATTAAAACATATGAATCAATTGTTAGATCTAAACCAATTCCTAAACCAGGAATTCCTGAATCATTTAATGTTCTTACAAAAGAAATTATGGGATTAGGATTTGATATGCACATGATTGACCAAGATGGTAAAAAAGTGCAAATCAATGCTTATGATGACGATGATGATTTTGAAATCGATGATGAATTATTATTAGCAGACTCATCATTTAATGAAGGTGACATTGCAGGATTTAGTGAAACTAGTGAAGATGATGTTATTACTTTTGATGATGAAAGTATAGAAGAATAAAAGAGGAGAAGTTTTAAAATGGCAATTTCAAATAAAAGAATGATTAAAATTGAATTAGCTTCTCCAGACGTGATTAGATCTTGATCACGTGGTGAAGTTACAAAACCAGAAACAATAAACTATAAAACATTAAAGACAGAAAAAGAAGGTCTATTTGATGAAAGAATCTTTGGACCTACAAGAAATTATGAATGTGCTTGTGGAAAATACAAAAAAGTAAAAAACAAAGGTAAAGTCTGTGAGCGTTGTGGAGTAGAAATTACTGAATCAATTGTTAGACGTGAAAGAATGGGGCATATTGAGCTGGAAGAACCAGTAACTCATATCTGAATGTTAAAAGTAGCACCTTCAAGAATAGCTTCAATTTTAGATTTAAAAACCAAAGAAGTTGAAGAAGTTGTTTATTTTGTAAGTTATATTGTTTTAGATCCAGGAAGTTCAAAACACCTTAAAAAAGGAATGGTTTTAGATTTAGGAAATGCTAAAGCAAGTTTAAAAACAAGAGAAAAATTATTAAAAACACTTGAAGATATTAAAGCTGGAATAGAACCAGATACATTTTCTTGAAAAAGAGCAGAGAACTTAATTAATCAGTTGAGAACTCCAAGTTTACCATTTTCAATGGATGAAGCAGCAACTTTCATTTCAAGATATATTAATGCAAAGTTTGGAATTGGTGCTAATGCAATTGAGGATTTATTAAAAAACATTAATTTAGAAAAAGAAATTGAAAAAATCAGATATGACTTAAAAGAAAAAAGAGGTTCATCTGAACAAAACAAATTAATGAAACGTTTAGAAGTTTTAGATTCTTTAAAAAAATCAAAATCAAGACCAGAATGAATGATTTTACATGTTATTCCAGTAATCCCACCAGATATAAGACCAATTATTCAATTGGATGGTGGTAGATTTACTACTTCTGAAATTAACGATTTATATAGAAGAATAATTATTAGAAATGAACGTCTAAAAAAAGTTAAATCAATGGGAGCTCCAAGCATTATTGTTAATAATGAAAAACGTATGCTTCAAGAAGCAGTTGACGCTTTATTAGATAACGAACGTAAACCAAGACCAGTTACTGGTAAAGATAAACGTCCTTTAAAATCATTAACATCAATTTTAAAAGGTAAGCAAGGAAGATTCCGTCAAAACCTTTTAGGAAAACGTGTTGACTATTCAGGTCGTTCAGTTATTGCTATTGGTCCAGATTTAAAAATGTACCAAGCTGGTATCCCAAGAGATATGGCAATTACATTATTCAAACCATTTATCATTAGAAGATTACAAGAAAAAGATTTTGCAGAAAATGTAAAAGTTGCAGAAAAAATGATTTTAACAAATGATGCTAAAGTTTGAGATGTGTTAGAAGAAGTAATTAAAGATAGACCGGTTTTATTAAACCGTGCTCCTACTCTTCACCGTTTAGGTATTCAAGCTTTTGAACCAAAATTAGTTAAAGGTAAAGCAATTAGACTTCACCCATTAGTAACTACAGCTTTCAATGCTGACTTCGATGGTGACCAAATGGCTGTCCATTTACCAATTAGTGATGAAGCAGTTGCTGAAGCGAGAGCACTTATGTTAGGTTCAAAAGCAATTCTTGGACCAAAAGATGGTAAACCAATTGTTACACCAACTCAGGATATGATTTTAGGAAACTATTACATAACAACTGAAGAAAAAGGTGTTCTTGGAGAAGGAACTTTATTTGCAAGTTATGACGAAGTAAAAATTGCATATGAAACTGATTCTGTTTCATTAAACGCCATTGTTGCAATTCCAATTAGTGAACTTAAAAATAAAAAAATATCAGATAAACACAAAGATAAATTCTTAATTACAACTGTTGGTAAAATTTTCTTTAATCAAATGTTTGTTGAAGAATTCCCTTGAATTGTTAATGCAAATATTAACAATGCAGAAGAAGAAATTGAGAAGTTTGTTATTGATGGAAATACTGATATAAGAACTTATATTGCAAAAGATTATCAAATTCAACAACCAATTAAGAAAAAAGAATTGTCTTCAATTATTGAAAGATACTTTAAATTATTTGGAGCACAAAGAACTGCTCAAATGTTAGATAATATGAAGGATTTAGGATTTAAATTCTCATCAAAATCTGGAACAACAATTAGTGCTGCTGACGTTGTTGCTTATACACAAAAATTTGAAGACTTTAAAATTGCAGATGAGAAGGTAACTCAAATTACTAATTTCTATAATATGGGTATGTTAACAAAAACTGAGAAAAAACGTAGAGTAATTACTGTATGATCTCAAGTAAAAGATAAAATTCAAAATAAACTTGAAGAAGTTCTAAAAAAAGATCCAAAAAATCCAGTATTTGTTATGGCAGATTCAGGAGCTCGTGGTAACGTTTCAAACTTTACTCAGTTAGTAGGTATGAGGGGACTTATGAATGACCCTAAAGGTGATATTAAAGAAATTCCAATTAAGTCATCATTCCGTGAAGGTCTAACTGTTTCAGAATATTTTATTTCTACTCACGGAGCAAGAAAAGGTATGGCTGACGTTGCCTTGAAAACAGCTGACTCAGGATATTTAACAAGAAGACTTGTTGATATTTCACAAGAAATTATTGTAACTGAAGATGATTGTAAAACATCAAAAGGATTTGATGTGCATTCAATTATTGAAACTAAGCATGATAATATAATTGTTCCTTTAAAAGATAGACTTGTTGGAAGATTTACTTTCAATGATGTTGTAACTAAAAAGGGAAAAACAATTGTTGGAGCTAATGAATTAATAACATTACAAATTGCTGATGATATTATTAATGCTGGTATTGAAGAAGTTCAAATTAGAACAGTTTTAACATGTGATACAAACCGTGGAGTATGTAGAAAATGTTATGGTATAAACTTAGCAACAGGAGAAATCGTTACAATTGGTGAACCTGTTGGAGTTATTGCAGCCCAATCAATTGGTGAACCTGGTACTCAGCTAACTATGCGTACTTTCCATACTGGAGGGGTTGCTGGGGGAGCAGATATTACTCAAGGTCTACCTCGTATTAAAGAATTACTTGACGTTACAAATCCTAAAGGTTCAATTGCTATAATTTCACAAATTGATGGTGTGATAAAAGAAGCAAAAGAAGAAGAAGGAATAATTACAATTGTTGTATCATCTGAACAAGATGAAAGAAAATACAAATCACAATATGGAGCTATTTTAAGAGTTTCTGAAGGTGAAGTTGTAACTCGTGGTCAAAAATTAACTGAGGGTGCAATAAACATCAAAGAATTATTAGAAGTTGCAAGAATTGAAGATGTACAAAATTACATTCTAAAAGAAGTACAAAAAGTATATCGTTTACAAGGGATTGAAATTTCAGATAAATATATTGAAATTATTGTTAAACAAATGTTGAACAAAGTTAAAATTATTGATTCAGGAGAAACTGAATTACTTCCTGGAGAAGTTATTTCTTCAAGAACATTTAGAAATGAAGTTAAAATTGCAATTATGGCAGGTAAAAAACCACCACTTGCAAAACATGTTATCTTTGGTATTAAAAAAGCACCACTTGAATCAGATTCATGATTATCAAGTGCTTCATTCCAAGATACTGCAAGAGTTCTTGTAAAGGCTGTAATCAAAGGAAAAATTGATAAATTAGAAGGATTAAAAGAAAACATTATGTTAGGAAACTTAATCCCAGCTGGAACAGGCCTAACTGGTAGTGCAGATATTATTAAAAAAGGTAAGGAAACTTACGACTCAGAATATTAAAAAGGTGAAAACCTTTTTTTATTTTAAGTTTTTTTGATTTTAAAATAGTGTATATTCATTTAGAGGGAGCTTTTAAATTATGAAAATATATATTGGAAATGATCATGCTGGTGTTGATATGAAAAATCACATAGTAAAATACTTAAAATCAAATGGTTATGAAGTAATAAACATTGGAACAGATAATGAAGATTCAGTTGATTATCCAGATTTTGGTAAAGAGGTTGCAAAAAAAGTTGTTGAAAATAAATCTTTTGGAATAGTTATTTGTGGAACTGGTATTGGAATATCAATAGCTGCAAATAAAGTAAAAGGTGCTCGTGCAGCTTTATGCTATGAAGATCAAACAACAATTTTAGCAAGACAACATAATAATGCAAATATTTTAGCTCTTGGAGCAAGAATGATTGCAAATGAAAAGGCAGTTAGACTTGTAGATATTTTTTTAAATACAAAATTTGAAGAAAGACATAAAAATAGAGTAGAAAAATTGAATAATCAATAAGGGGGGTTATAAGATGGCTTTTACAATTATTAAACATCCTCTTATTCTAGATAAATTAACTAGAATGAGAAAAGAAGATACATCTTCTAAAGACTTTAGAGAAAATCTAAATGAAATAGGACAATTAATGGTCTATGAAATTTTTAGAGATGTTCCTATACAAGAAATTGATATTAAAACACCCGTAACTGAAACAAAAGGTTATAAGTTAGATATTCCAGTAGTTTTAGTACCAATTATTAGAGCTGGATTAGGAATGACAGAGGGTATTCAAAGATTAGTACCAACTTCAAGGATTGCACATATTGGTCTTTATAGAGATGAAGAGACTTTAGAACCAGTTCAATATTTTGCAAAAACAACAAAAGATATTGAAAATAGTTATGTTATTGTTGTTGACCCAATGTTAGCAACTGGGGGAAGTGCTTCAAAAGCAATTGAAATAGCAAAATCTTGAGGAGCAGTTCAAATTAAATTTGTTTGTTTAGTTGCTGTTCAAAAGGGTGTTGACAGAATTATTAAAGATCACCCAGATGTAGATATATATACAGCTAGTTTAGATCCAATTTTAAATGCAAGTGGTTTTATAGAACCAGGTCTTGGAGATGCTGGAGATAGAATTTTTGGAACAAAATAGATATTTTAATAATATCTATTTTTTTATTATGAATCGTTCTGTAAGATATATATCTTTGAAATATTTAACAAAAAAGCCTATTTGAATCTTTATTAATTTATTTAAAATTAAACAAATAAATTTTAGTGATTACTATATAGGAATTATTACACTATAAAATAGAAAATCAGATCTGTCAAGAAAAACGTCATTAACTAAAATTATTTCTAATATATCCCAAATTTTTTATTTAATCTGAATATAATTTTCCTAGATTTTCCAAATTAATAAGAGTATTATTAATTAGATGGAACTTAATAAGGAGATTATAAGTTGTTAAAAAATAAAGGAAAAATTATATTAATATCCCTTGTTTCAATGATTACATGTTTATTAACAATTCTAGTTCTTCTAAAATTAGTAAATTATTCATTAGTTACTGGTTATCTCTTAGGTTCTTGTTTTTTATATATTTCATTATTTTTTATGAAATTAGCAATAAAAAATTTGATCGATACTTTAAATCCTTATAATTATATGTTTATTATCACATTAAGAATAGGATTTTATATTGTTCCATTCCTTATAAGTTTTTACTTACCTAATTTATTTAGTATATATGGATTAGTAATTGCTTTTGTAATAAATTGATTTCCATCAGTTTATTATAGTAAAGCAAAGTAAGTAATTTTTTATATGGTAGCCACTCAAAAAAAGAAAGGAGTATATATGTTCCTTGCAGATGACAAAGGTTTTGGTGATGTTATATTTGCAATTACCCCTCAACTTTTATCTATATTAATAACTTGCATTATTATTTGTACATTTTGTATAGTCTATAATGTAAAAATAAGAAATTATAAAGAAGATAAAAAATTAACAGGATTTTTAGTTTTGACAGAAATGTTTATAACTAAAGTTGAAAATATGGTTATTACAATAATGGGTAAAGAATACAGAAAATTGACGCCGTACGTAATGTATCTATTTATGTATATAATAGTATCTTCTGTTGTAGCAATTTTAGGAATAGAACCATTAACCACTTCTTATACTGTTACATTCTCTATGGGATTTGTAACGTTTATAGGAATTTATTATTATGGATTAAGATATCAAAAACTAGCTTTTTTCAAAAGGTATTATAATCCAATTGAAATTTTAGGACAATTTGTTCCTTTAATATCTCTTTCATTTAGATTATTTGGAAATATGCTTGGAGGAAGTATTTTATTAGGATTGCTTTATGCAAGTTTAATACAACTTCAAGGAAATATATTCTGACCAAGTGGTCCAGGAATGGATTGAGATAATAAATTAAGTTACTGATGAGCTGGTTTTAATGTTTTTTCAGTAATTTCATTACCATGGTTACATTTATACTTTGATTTATTTGATGGAACCATTCAAGCCGTTGTATTTTCAATGTTGACTCTTTCATATTGATCTGGTGCCAAATTAGGTGAGGGTCTTAATGATGGAAAAGAAAAAATTGAAAGATAATTTATAAAAGGAGAAAAAATATGTTTGCACAAATACTTACAAATTTAGGGGGTAACTTTATTTCAGTTATGCCTGTATATACAACATTATTAATGTTTCTAGCTGAAACAAAAGAAGTTGGTCAAGGTTTAAAACTTCTTGGAGCAGGACTTACAGGAATGGGAATGGTTGGAGCATCAATTGGTCAAGGAATAGTAGGGTATGGAGCTTGTATTGCAATTGGTAGAAATCCTGAAACAGCACCCAAAATAACTTCTACATTAATTATTACTGCTGGTTTTGCAGAATCAGGAGCCATCTACGCACTTGTAATTGCAATTTTATTAATTTTTGTAGCATAAGAAAGATGAGATGAATTTTATGTTTTTAGAGGCTGGAATACCAAATATTATTGAAAATTTATTTCCAAACTTAGCAAATTTTATTGCCCATATTTTATCAACAATAATTATACTAATCTTATTAACTAAATTAGTTTATAAACCCTTTAGAGAAACTATAAAAGAACGCAGAAAAAAAATTAGTGAATTATTAGATGATGCAGTTTCAAAACAAGCAAAGGCAAACAAGAATAACAAAGAATCTTTTAAAATTCTTGATTCTGCAAAAGAAGAATCTAAAATGATAATGAATTCAGCAAAGTTGTCAGCTGATAATTTAAAATTGGAGATTATGGATAATGCAAGAGCGGAAGCTGCAAATATTCAAAAGCATGCACAAAAAACAATTCAACTTGAAAAAAATGAAATGTATGAACAAATGAGACAAGAAGTTATTGACTTAGCTTTTGTAGCTGCAGAAAAACTTTTAAATGAAAATATTTCTAAAGATAAAAATGAAAAAATGATTAAAGATTTTATAAATAGTTTGGATTAGTTAAATGGTCAAGCAATCTTTAATTAATAATTGAGCAACAGCAATTTGTGAACTAGCTGTTGAACAAAAAAAAGCCAAATCATTTACAAAAACTTTAGAAGAATTAAAAAACATATTTGAGTTAAATCAAGAAGCTATATATTTTTTATCAAATAAATTTATTGATATTAAAACTAGAATAAAATTTATTGAAAAAATTTTTCAAAAAGACTTAGAACCATTACTTTTAAATTGTTTAAAGTTAATTGCTGAAAGAGAAATATTTTCGCAAATAGAATATATTTTAAATGCTTCAATAAAAAAATTATGAGAAAGTTTAGAGATTAAAAAGGGAATAATTTACTCAACATTAAAAATTGATCAAAAATATATTTCTACAATTGAAGAAAAAATAAAAAATAAAATAAATCAAAATATAAAATTAGAAAATAAAATTGATAGTTCTTTAATTGCAGGTATTAGAATTGAAGTTGCCAATAATATATTTGATTTTTCTTTAAAAGGTAAAGTTGAAGATATGAAAAATATTATTTTAGAAAATAGAGAGCAGAGGTCATAATATGTCACTTAAGATAAATGAAATATCAGAAGTTATAAAAAAGCAAATTAAAGAATATGGAAAAAATATTATTCAATCACAAGAAGGTACTGTGGCAAGTATTGGTGATGGTGTTGCTCTTTTATTTGGACTTGAAGATGTTATGATGGGTGAACTTTTAATTTTCTCAAATGATATTTATGGAATGGCTCTTAATTTAGAAGAAGGTGCTGTTGGTGCTGTTATTATGGGCGATGATTCAAAAATTCGTCAAGGTGATAAAGTAATTAGAACTTGTAAAGTTGTTGAAACGCCAGTTGGCGATGCTCTTTTAGGAAGAGTTTTAAATGGAATGGGTTTACCTATTGATGGTAATGGTCCCTTAAAAAATAAAAAATTTGCCCCAGTTGAAAAAATTGCTTCTGGTGTTATGTCAAGAAAATCAGTAAATCAACCAATGGAAACTGGTATTATGTCAATTGATTCAATAATACCAATTGGAAAAGGTCAAAGAGAATTAATAATTGGAGATAGACAAACAGGTAAAACTGCTATTGCTATTGACGCAATTATTAATCAAAAGGGCAAAAATGTAAAATGTATCTATGTAGCTATTGGACAAAAAGAGTCAACAGTTGCCCAAGTTGTTGAAAAATTAAAGCAAGCAGGATCAATGGAATATACAACAGTGATTTCAGCGTCGGCAAGTGAATCAGCACCAATTCAATATATTGCTCCCTATACAGGAGTTTCAATAGCTGAAGAGTGAATGTCTAAAGGTGATGATGTTTTAATTATTTATGATGACCTATCAAAACATGCAATTGCATATAGAACTTTGTCATTACTTCTAAGAAGGCCACCAGGACGTGAAGCATACCCAGGAGATGTATTTTATTTACATTCAAGACTACTTGAAAGAGCAGCAAGAGTAAATGAAAACTTTGGAGGTGGCAGCATTACAGCCTTACCAATTGTTGAAACTCAAGCTGGTGATATATCAGCATATATTCCAACTAATGTAATTTCAATTACAGATGGTCAAATTTTTTTATCAGAACAATTATTTAACTCAGGAATTAGACCAGCTGTTGATACTGGGTTATCAGTTTCAAGAGTAGGTTCTGCTGCACAAATTAAAGCAGTTAAACAAGTTGCTGGAACTTTAAAATTAGAATTGGCTCAATATTATGAATTGCAATCATTTGCTAAATTTGGAAGTGATTTAGATGAAACAACAAAAGAAACATTAAACCATGGACAAAAAATTGTTGAACTATTAAAACAAAGACAATATAAACCAGTTGCTCAAATTGATCAAGCAATTTTATTATTATCAATTAAAGAGAGATTAATTAAATGATTGCCTTTAAGTGAAATGATTAACTTTAAAGAAGCTGTCTTTTATCATTTTGAAAATGATAAAAACGCTAAGGCCCTTAGAAAAATGCTAGATGCACAAAAAGAGTTTAGCGATAATTTATATGCATGTGTAAAATCTCAATTAATATTGGTTTTAAAAAACATTACTTCAAAATTAAAAGGTTATAAAATTGAAGACTATGGTAAAAACGAAGAATATGAAAGTTTAAATTAGTATGGCAAATTTAAGTGAACTAAAAGCAGGAATAACCTCGATAAAAGATATTGGTAAAATTACTGGAGCGATGGAATTAGTTGCAACAGCAAAATTAAAAAAAATATCTAAAAGAATGGGCAATATTCAAACCTATCTAGATGAAGTATATGATGTTTTTAACTATATTATTTCTCATTCCGAAGATTCAATCTATTTAAAGAAACCAAATCAAATATTAAATAATACTTTGTGAATTGTTATTGGCTCTAACTTAGGTTTATGCGGAGGATATAACTCAAGTATTTTTAAAGTTTGGAAACCATTAGTAAATAAAAAAACAGATAGCGTAATAGCTATTGGAACAAAAGTTGTAAATTTTTGCAAATCAAATAATATAAATATTAAAGAAGAATTTTTAGATATAGATGTTGACTTTTCAAATGAACAATCAAGAAAAATGTCAGTTAACTTATTAAACTATTTTGTGCAAAAAGAATTTGACCAAATAAAAATTGTCTATACAAAATTTATTAATAATGTTACTTTTGAACCAACAGTTTTAGATATGTTTCCAATAGAAAAAAAACTTGATGAAAATGATTTACATCAAGATTTAATTTTAGAACCAGATCCAGAAACTGTATTAACAACAAGTGTTTCGATGTATTTAAATACAATTTTATTTGGCACAATTATTGAATCGCAAGTATCAGAACATGCAAGTAGAAGAATGGCAATGGAAGCTGCAAATAAGAATGGTAAAGAGCTTTCAGAAAATTTAAGTGTTGTATTTAATAGAAAAAGACAAGAAAATATTACACAAGAAATTAGTGAAATTATTGGTGGAGCTAATGCTCAAAACGAAGATTAGAGGTAATCAGTATGACAGAAAAAATTACACAAGGTAAAGTTGTACAAGTAATGGGTCCAGTTGTTGATGTTAAATTCAAACAAGAGGATATGCCAAAACTTTATAATACAATTGAATTGAATAATAATGGAACAAAATTAGTTTTAGAAGTTGTTCAACACATTGGTGATGACTTAGTTAGAACTATTGCAATGGGTCCAACAGAAGGTTTAGTTAGAGGAATTATTGGAACTAACACTGGAGGCCCAATTAGTGTTCCAGTAGGGGACAAAGTTTTGGGAAGAATGTTTAATGTTTTAGGTGATCCAATAGATGATAAACCTCCAGTTAAAGGAGAAAGAATGCCAATTCATAGATTAGCACCAAATTATGATGAACTTGCAACTTCTGCTGAAATTTTAGAAACAGGAATTAAAGTTATTGACTTAATGATGCCCTTTGCAAAGGGAGGTAAAATTGGTCTTTTTGGTGGAGCAGGAGTTGGTAAAACAGTTCTTGTTCAGGAACTAATCAATAACGTAGCTAAAGCTCATGGAGGTATTTCTGTATTTGCAGGAGTTGGTGAAAGAACAAGAGAGGGAAATGATTTATATTTTGAAATGATAGATGCAGGAGTCATTGATAAAACTTCTTTAGTATTTGGTCAAATGAATGAACCACCAGGAGCAAGAATGAGAGTTGCTCTTACAGGTCTGACTATTGCAGAATATTTTAGAGATATTAAGAACCAAGATGTACTTTTATTTATTGACAATATTTTTAGATTTACTCAAGCTGGTTCAGAGGTTTCAGCACTTTTAGGAAGAATGCCTTCTGCTGTTGGATATCAACCAACATTGGCAACTGAAATGGGAGCACTTCAAGAAAGAATTACTTCAACTCAAAAAGGTTCAATTACATCAGTTCAAGCGGTTTATGTTCCAGCTGATGATTTAACTGATCCAGCACCAGCTACAACATTTACTCATTTAGATGCTTCAGTAGTTCTTGATAGAACTATTGCATCTTTAGGAATTTATCCAGCAATTGATCCATTGAATTCAAATTCAAGAATGTTAGATCCACAAATTGTAGGAGAAAATCATTATCAAATAGCTTTAAAAGTACAAGAAACATTACAAAAATATAAAGAATTGCAATCAATAATTGCAATTCTTGGAATGGAAGAATTATCAGAAGAAGATAAAATAGTAGTTAATAGAGCAAGAAAAATAAGAAATTTTATGTCTCAACCATTTACAGTTGGAGAAAAATTCACTGGCAGAGGTGGTAAATATGTTGCTGTAAAAGATACTGTAAGTTCATTTGAATCTATTTTAAATGGTAGTTTAGATCATATTCCTGAAATCTTATTTATGTATGCAGGTTCAGTTGAAGAAGTAATTGAAAGATTTCAAGATAAAAAGTAATGCAATTAACTAAATTGAAAATTATTACACCTGATGGTGTATACATAGATGATTTAGAAGTAGAATATGCAAATGTAAAAACTTCAGATGGACAAATAACAGTTTATGCTAATCATACATCAATAGTTTCAACACTTTTAATTGGTGATATGAAATATGAAATAGATGGAGCTAAAAAATATATTCATCTTCATAGGGGAATAATTAGAGTATCAAAAGATCAAATTAAAATATTAACTCAAAGACTTTATGAAGTTGATGAGAAGGGTCAAAGAATTAAAAAATAAAAACAGAGATTTTAAGAAAGTTCTTGAATCTCTGTTTTTATTTTTTCTCTATAGCTAACTTGTTGTTTTACTTTATCTTCTATCATTTTAGTAAAGGCCCACATTTTTTCTCTTTTTAGAAAACCCATAAATCTTATATAGTTTATTCTTAGTGGTTTAAAATTAATTCTACCTATATCAACATTTTTTAATATTTTTGCAATCTGTTTATTCATTAAAACCTTTTCCTTGCAAAGCTCAAGTTTTTTTCTTTGCTCTTCAGGAAAGTCATTTAAATTTTTATAAATATTTTCTACACAGCCATATTTAGCAACTAGCTTAGTTGCAGTATTATAGTGCATTCCTCTAACACCTTTTATATTGTCAGATTGATCTCCTAGTAAAGATTTTATATCTGGTATTTGACAAGGTTTACATCCAAATTTTTCAAATACCTCTTTTTTTGTTATTATTTCTTGTTTACATTTTTTTGATTGTTGCGAAACAACTTTTACATCGTCGCAAACTAATTGATATGTATCTTTATCGTTTGAAACTATTTCAACTTTGTATCCCAATTTAACAGCGATTCTAGATATAGTACCCATTATATCATCACCTTCATATTTAACTTTTTCATATCATGGAATATTTGCAGCTGTTAAAAAATCTCTAACCAGTTGCATTTGAGGAATTAAATCTGAAGGTGTTTCTTTTCTTGTTGCTTTATATTCGGGATATATTTCTTTTCTTCAGCATTCTTTTCCTACATCAAATGTAACCAATACAGTATGATATTCATTTGACTGTACTAATTGGAAAACATTTGCCACAAATACATAGACAGCATTAATTAAAACACCATCTCTATTTATAGCAACTTTTTTTCTTTTTAAACTTCCATAATAACCCTTGTGAAGAAGATGATAACCATCTATAATCACAACTTTTTTCTTGTCCATTGTCATTCTCCTTTAATAATACCCTTGCTTAATTTTTAAAATATTTATTTTATCTTTAATAAAATCTAATTTTTTAATTTCATCTAGTTTGAATTGTGCAGTGACTAAATCGTTAGCATATGTATAATTAACTTCTTCTGCTTTTTTTATTAAAAATAAATTAATAATTTTAATATCTGCAATTTTAAAATTGATTTCTATTTGATTTAGAAGTCTTAACTTTTTAAATTCGCTTTCCTTAATTATTTCAATTGCTGAATTAGTATAGGCTTTTTGTAATCCACCTGTTCCTAATTTTATTCCACCATAATATCTTTTAACAAATATTATAATATCAGTGACATTATTTACCTCAATTAGTTTTAGTAATGGTTCACCAGCAGTTCCGTTAGGTTCACCATCATTGTTATATCCATAATTTAATCCATCATGGCCATACTTAAAAGCATAACAATTATGAGTTGCACTCTTATCACTATGTTTTTTTATAAAATTTTCTAATTCAGTTTTATTTGTTACTTTTGAAATATAGGTAATGAATCTTGATTTCTTAGTTAAGAAGCTTCTGGTTATAATATTTTTACTGATTAATGTTTTTAAAATTATCATAACTTTACCACCAATTATTTTACTCTTATATTAAAGAAAAACAAAGTTTTTATTTAAATAATTTTAGATTATTTAAATGGAAAAAATTATATTATTTTTAAAAAAACTGGAAAAAATATTGGTTTTTTTTTTTTTTTTATATCATAAAGGTGGTTATAGAAAGTTCTATAACCATAGAAAGAAAAAAGATGAGAAAAGAAGATATTAAAGTTAATGAAGAAGAAGCTCAGTTACTTTTATCATCGCAAGAACATAAGAAAAAATTTGCAAGATGAATGCTATTTTTTTCAATTGCAATGGTAGCAACTGTAATATCAATTTTAATAAATTATCTAGTTTTTTTCCCTTGACAAAATCCTGGGAAAGTTATTTGACAAGGTGAGCAATTAATTGCTTTTATAATTTGTATATTTTTATTATTATCAGCGGTTGTATTCAGCATAATTTACTTTTGATTTACATTAAAAGTTAAGCATGATGATATAAATCAAAAAGAAAAAGCAATTTTAGCAATTGGTTTTACTGGCGGATTTACAGATACAATCGGAGTTGGCTCTTTTGGAGTTATTACTGGTTTATTAAAAGGAACAAAAGCAATTAAAGATGACACAAAACTACCTGGTACATTAAATGTAGCTTTAGGTGTTAGTGCCTTAATAGAATCAGCTTTATTTGTTGGTTCTATCCAAGTTAATATTGCAACCTTATTAATTTTAGTTATAGCAATTATTTGCGGAACTTTTGTTGGTTCGCTATTTGTATCAAAAATAAAAGATCAAACATCTATAAAAATTATTATGGGAGTAGCTTTATTTTTTGTAGCTATATTAATGATTTTAACTCACCCACAAGTGAATGTAATTAGCACATCAAATATTGGTGATAAAACATCTCTAATGGATAAACCGTGAAGAATTATTGTTGGAACAATTGTATTTTTCTTTTTAGGAATGATCCAATCATTTGGAATTGGTTTATATGCACCAGCAATGGCTACACTTTCATTTTTAGGATTACAACAAGAAGTAGTATTTCCAATAATGGCTTGTGGTTCAGCATTATGTATGTTACCAGCAGCACATACTTTTATAAAAAGAAAAAAATATTTACAGCAAACATCCAATCTTATTATGATATCTGCAATTTTTGGAGTCGTCTGTTCATTTCTACTAATCTTTGTAGGACTGCAAATGGGAGCAGGAATGGATAAAAGAACTTTTGATATAGTTCTTAAATGATTAGCAATAGCTGTTATATTTTATGTCTCAATATCTATGTTAGTTGAATTTTATTTAATTAAAAAAAGACAAAAAATAAATAAAGGAGAATAGAATGGATTTATATAATCGTTTAGAAAAAGAATTAAAAATTAGAAAAGAAGATAAACTTTATAACATTATCAAAATATTAGAGGGTGCTCAAAGCGATATTGTCAAAATTAATAATAAGGATTTTTTGAATATGTGTTCAAATAATTATTTAGGTTTTGCAAATGACCCGATTACTGTGAAAGCTATTAAAGAGGCAGTTGATAAATATGGGGTAGGTCCTGGAGCAGTAAGATCAATTTCTGGTAGTTATTCTGTTCATAGTGAATTTGAAAGAGTTTTAGCTGATTTTAAGAAATCAGAAGATGCTTTAGTTGTTCAAAGTGGTTTTCAAGCCAATACAGGTTTAATACCCACAATTACAACAGAAGAGGACTTGATTATTTCTGATGAATTAAATCATGCTTCAATCATTGATGGTATTCGTTTATCAAAAGCAAAAAGAGCAGTTTATAAACACTGTGATATGGAAGATTTAGAAAAAATATTAAAAGAAAATTCTAATAAAGTAAATGGAAACATTTTTATTATTACAGATGGTGTATTTTCAATGGACGGTGATATTGCACCATTAGATAAAATTAGTGTTTTGGCAAAAAAATATAATGCTTATAGTATTGTTGATGATGCACATGGTGAAGGAGTATTAGGACCAAATGGTCAAGGCTCAATTGCTCACTTTGGTCTTGAAGGAAAAATTGATATTGAAGTTGGAACATTATCAAAAGCATATGGATTAGTTGGTGGTTTCATTTGTGGTAAATCAGTACTAATTGAATATCTAAAACAAAAATCAAGAGTCTTTTTATTTTCATCATCATTACAAACAGGGATTTGCTATGCTGGGATAAAAATTGTAAAGGAAATGCAAAAGTCAAATGAAAGAATTAAAAAACTTTGAGAAAACACTAAGCATATTCAAAATAAATTTATTGAAAATGGTTATTCAATTGGTACTACAAAAACTCCAATAACACCATTTATGGTTGGAGAAGAGGCAATAGCAACAGAATTAACTAAAATATTATTTGAAAAACAAATTTTAGTTTCTCCAATTATTTATCCAACAGTTGCAAAAGGAAAAGCAAGAATAAGATTAATGATTTCTTCTTTACATTCAAAAGAAGAATTAGATAAAGTATACAAAATTATTACAGAAGAGTTTGAAAAAATTAAAACAAAAGGAGATAAATAGATATGAAAAAAGTTTTAATTACAGGAGCTTTAGGACAGATAGGTTCAGAATTAGTTTCACGTTTAAGAAAAGATTTAGGAATAGATAATGTTATAGCAACAGATATAAGAAAACTTGATGATAATTTTATTTGTGATGAAGGTATTTTTGAAAAATTAGATGTAACTGATTATAATTCATTTTTAAAGTTAGCCAAAGATAATAAAGTAGATACAATTGTTCATTTGGCTGCCTTACTTTCTGCAACTGCAGAAAAAAATCCCAAATTCGCTTGAGATTTAAATATGACTGGTTTAATGAATGCTTTAGAAATAGCAAAAGAATTAAAAACTAAATTCTTTGCTCCTTCTTCAATAGCTGCATATGGACCAGATGCACAACCAGATAATACTCCACAAGATACTGTTATGAACCCTACAACAATGTATGGTGTGACAAAAGTTGCAGGAGAATTATTAGAAAATTATTATAATAGAAAATATAATGTTGATTCAAGATCAGTAAGATTTCCAGGTTTAATTTCATATAAAGTAGAACCAGGTGGAGGAACTACTGATTATGCTGTAGATATTTATTATCAAGCTTTATTAACTGGTAAATACGAGTGTTATATTGATAAAGGTACAAAAATGGATATGATGTATATGGATGATGCAATTGATGCGATTGTTAAATTGATGAATGCAGATGAAAAAAGATTAGTTCATAGAAACTCATTTAATATAACTGCAATGTCTTTTGCACCAGAAGAAATTTTTGAATCAATTAAAAAATATATTCCAAATTTCAAAATGGAGTATAAAGTAGATCCTGTTCGTCAAAAAATAGCAGAATCTTGACCGAATAGTATTGATGATAGTTGTGCAAGAAAAGAATGAGATTTTAATCCTAAATTTGATTTAGACTCAATGACAAAAGAGATGTTAGAAAAATTAGAGCAAAAATTAAAAGCAGAAGGAAAAATTTAATATTAAAAACTCGAAACCTTGATAGTATATCAAGGTTTTTATTAGTATAATTATCTTGTTAAATAATTATCATATAAAAGAATATAGACAATAATGTCTCAACGATTTAAAAATTAAATTCTTTTATTTTTTGTTTATAACTTTCTATTTGACGATAATAATTGTATAATCATAGAGATTTTTGACTTAGCAAAAAAAGGAGTAGTTTTTAATGGCAAGAGATAAATCAATAGTTAAGAAGCATGGTAAAATAGCAGATGAAATTATTTCACTAGAAGCTGATTATGAGAAATTAAGTGAAGCTGATTTATTAAATAAAACACAAGAATTTAAAGAAAGATTAGCTAATGGTGAAACTTTAGACGATCTTTTAGTTGAAGCTTTTGCAGTAGTTAGAGAAGTTGCATTTAGAGTTTTAAAACTAAAAGCTTATAAAGTTCAATTAATTGGGGCAATAATTTTACACCAAGGAGATATTGCTGAGATGAGAACCGGGGAAGGTAAAACTTTAACTGGTCTTTTTCCTGCTTATTTAAATGCATTATCTGGACAAGGAGTTCACGTTGTTACTGTTAATGAATATTTATCACGAAGAGATAGTGAAATTAACGGTCAAGTTTATGACATGCTAGGGATTAGTGTTGGACTAAATGGTAGGGATCTTTCAAAAGAACAAAAGAGAAATGCTTATGCAAAAGATATAACTTATACAACTAACTCAGAATTAGGTTTTGATTATTTAAGAGATAATATGGTTTATCGTCTAGACCAAAAAGTTCAAAGAAAACTTAATTTTGCAATTATTGATGAGGCTGACTCAATACTTATTGATGAGGCAAGAACTCCATTAATTATTTCTGGTGGAAGTCAAAATAGAATTAATTTATATAAAGCAGCAGATGCTTTTTCTAAATCATTAGATGAAAAAACAGATATTGAAATTGATTTAGAATCAAAACAAGTTTATTTAATTGAACCAGGAATTCAAAAAGCACATAAATTCTTTAGTATTGATAACTTGTTTGATTTTAGAAACACTGAAGTATTTCACTTAATTATGAATGCTTTAAAAGCAATGTTTACTTTTAAAAAAGAAGTTGAATATACTGTTCAGGGTAATGAGATTATTTTAATTGATCAATTTACAGGAAGAACAATGCCAGGTAGAGCATATAGTGATGGTTTACAACAAGCTTTACAAGCAAAAGAAGATGTTGAAATTGAAGAAGAAACAACAACACTAGCAACAATAACTTATCAAAATTTTTATAGACTTTATAATAAACTTTCAGGAATGACAGGAACTGCAAAAACTGAAGAGGAAGAATTTTTAAAAATATATAATACAAGAGTTATTGTTTGTCCAACAAATAAACCAATTATCAGAGTTGACGAACCAGACTTAACTTTTGGAACAATCAATGCCAAATTAAAACATTTAGTAAAAGATTTGGAAGAAGTAAAAAATGCTGGAAGACCAATCCTTATTGGAACAACTTCAGTTGACTCTTCTGAACAAGTTTCTCATTATTTAGAAAAAGCTGGTTTAAAATTTGAAATGATTAATGCCAAAAATCACCATAGAGAAGCTGAAATAGTTGAAAAAGCTGGACAAGTAGGTTCAATAACATTAGCTACTAATATGGCTGGTCGTGGAACAGACATCAAGCTTTCAGAAGAAGCTAAGAAAAATGGTGGTCTATTTGTTATGGGTATTGAACGTAACGAAGCTAGACGTATCGATAATCAATTAAGGGGTAGAGCTGGTAGACAAGGTGACCCAGGAAGTTCAAGATTTTATATTTCAATGGAAGATGAATTAATGATTCGTTTTTCAGCTCCAAAATTAAGACAAATGTTTTTAAAATTAGGAGACGACCATATTAAATCAAGATTGTTTACAAGAGCAATTACAAATGCTCAAAAAAAACTTGAAGGATTGAATTTTGATCAACGTAAAAATGTTTTAGATTATGACAATATTCTTTCACAACAACGTGAAGCAATATACTCTCAAAGAGATTCAATTTTAGAACAAGAAACTTTAAAAGGAGTTATTGCAAGATTTCAATACACAATTGCATATGAAATTGTTGAAAGAAATTCAGAGCTTGTTAGAGGTGAAAGAACAATTAATATCCCTTCTTTAATAAAAGAAATTGATTCAAGGTTTGTTATTGAAGGTTCATTAACTGAAAATGATTTTAGTGGATTAGAAAAAGGTCAAATAGCTAAAAAGATATCTGAAAATATGATGGAATTATATTTGAGTAAAACAAGTTCAGTACCTCAGGAAGTTATAAGCGAAATGGAAAGAAGAACTATTCTTCAATCATTAGATTATCACTGACAAAAACACATTAATATAAATCAAAAATTAAGAAGTGGAATTTACTTACAACAATATGCACAAAATAACCCATTACATGAGTATGTTGAAGAATCAGCTAGATTATTTAATAAAATGAAAATAATGATTGCAGAAGAAACAATAATTAAACTTTATGGGTCATTTGTTAGAGAAGTTAGTCAAGAAGGAAAAAATCTTGAATTTAGAAATGACGAACCAAAAACTATTAATATAAGTGATAAAGATATCGATCAAATTTTAGAAGAATGAAAAATTCCTAAAGAAAAATTTGCAAGAAAAACTGTTGAAGATAGATTTAAAGAACTTAAAAAAGAGTTAAAAGGTAAAAAAGATGAGTTAGAAAAAGTTAAATTTCAGTATGCTATTCTTGAAGGTTTAATGAAAAAACTTGATGAAGTTTTTGCACAACAACAAAAAACTACTGAGGTTCCTTTCGAAGAAGTTGAAAGAATGATGACTAAGTTTAAATTGAAGAAAACTTTCACTGCAAAAGACGTCAAAACTAGTTATGAGAAATTAATTAAAAAAGAAACTGATGAAAAAGAAAAAACTAAACTTTTAATTGAAACTCAGATATTAACTGCTTTAGCTGCAGAGTTAGAAAAAAGACAAAAAGAATTTAAAATTGTTGACGAAAAAGGTAAAGTTAAAAAAACATTTAAGACTAATCCCGATGGTTCAATATCAGAAGATGATATTGAAGATACAGAACAAGTTCAAACAAAAACAAAAATTGGTTAAAATATTTTTTTCTATTTTTTACAACAAGACAAAAGTCTTGTTTTTTTTATTAAACTATGTAAAATATTGCTAGGCAAGATTATTTCTAGGGGCCAAACTCTAGATTTTTTATGTCCTATTAAAGAGGTAATAAAATGGAAAGTACAAATCAAAAATTCAGTCTAGTTACTGAATATAAACCTGATGGAGATCAGCCAAAAGCAATTGAAAAATTAATTCATGGGTTAAAAAATAATGTTAAACATCAAGTTTTAATGGGAGCAACTGGAACGGGTAAAACATTTACAATGGCAAATGTTATTCAAGAGATGAATAAGCCAACTCTTGTTTTAGCACACAATAAGACATTAGCAATGCAATTGTATATTGAGTTAAAAGAGTTATTTCCAAATAATAGAGTAGAATACTATGTTTCAAATTTTGACTTTTATCAACCAGAAGCATATATTCCATCGAGAGACTTATATATAGATAAAGATGCAAAGAGAAATAATGATTTAGAAATGATGAGATTGAGCTCAATGAATGCATTAATGATTAGAAGAGATACAATAGTAGTTGCATCTGTTGCATGTATTTATGCAACTCAAGATCCAAAAGAGTATGGAGATGTTTTCTTTGAATTAGAAGTAGGTCAACTTTTATCTAAAAAAGAGTTATTAACTTTTTTAGTGCAAACAGGTTATACACGTGATGAAACTGATTTATCTATGGGTTATTTTAGTGCAAAAGGTGATGTTATAAGAATTGCTCCAAGTTGAACTGATAAATATCATATTAGAATTTCAATGTTTGGTGATGAAATTGAAGCAATTGAAATGATTGATGTTTTAAATAATACAGTTTTAGAAAAAATTAGAATGTTTACTGTTTATCCAGCTGCAGCTTATGTAACTAATTTTGATAAAATGAAATTAGTTGTAGAAAATATTGGTAAAGAATTAAACCAAAGAGTTCAATGATTTCAAGACCAAAAAAAATTTATTGAAGCTGATAGATTAATGAAAAGAACTAAATACGATATGGAAACTATGAGTGAGTTTGGAATATGTAGTGGGATAGAAAATTATTCACCACATTTAGATTTTAGATCACCAGGTACACCTCCATTTACTTTAATTGATTATTTTGGAGATGATTTTTTAACTATCATTGACGAATCTCATATGATGATTCCTCAATTAAATGCTATGTATAATACTGACAGAAGTAGAAAAGAAACTCTAGTTGAGCACGGTTTTAGATTGCCAAGTGCTATTGATAATCGACCATTAAAATTTGAAGAGTTTGCAGGAAAATTAAAAAATGTAATTTATACATCTGCAACGCCAGGACCTTATGAACTTGATTTAGTAGATAATGATGTAATAGAACAAATCATTAGACCAACAGGTTTAGTAGATCCACAAATTGAAATTCGCTCAACAGTTAATCAAATGAATGACATTGTTGATGAAATAAATAAAGTTGTTGCAAAAAAACAAAAAGTTTTTATTACAGCAATTACTATTAGAATTTCAGAAGATATTACAACTTACTTACAATCAAGAAATTTAAAAGTTGCCTATTTACACTCAGAATTAAAGACTTTGGAAAGAAATCAGGTTTTAACTGATTTAAGAAAAGGAGTTTATGATGTTATTGTTGGAGTTAACTTATTGAGAGAGGGATTAGATATTCCCGAAGTTAGTTTAGTTTGTATCCTTGATGCAGATAAGCAAGGTTTTTTAAGAAATACAAGAAGTTTAATTCAAACAATAGGAAGAGCTGCAAGAAACTCAGAAGGACGTGTAATTTTCTATGCTGATTCAACTTCTCCAGCAATGAAAGAAGCTATTGAAGAAACAGATAGAAGAAGAAATATTCAACAAGAGTATAATAAACTTCATGGAATTACTCCAACAACTATTATCAAAAAAATTACAGATATTATTTCTGATTCAAATATTAGAAATAAAGTTGATGAATTAAAGAAACTAAAGAAAAAAGAAAAAGAAAAGAAAAAAGAAGATTTAATTTCTGACTTAAGAAAACAAATGTTAACTGCTGCAAAAGAACAAAATTATGAAAAGGCAGCTGAACTTAGAGATCTTATTTTAGAGTTACAAGCAGAAGGATAGAGGTTATCATTATGAATAAAAAAATAATTATCAAAGGAGCAAGAGAACATAACTTGAAAAATATTGACATTGAAATTCCAAAAGAGAAGCTTGTAGTATTTACAGGACTTTCTGGAAGTGGGAAATCTTCATTAGCTTTTAATACTATTTATGCTGAAGGTGAAAGGAGATATATTGAATCGCTTTCTTCTTTTTCAAGACAGTTTTTAAAGTCAGTTGAAAAACCAGATGTTGATGAAATAGAAGGTTTAAGTCCAGCAATTTCAATAGATCAAAAAACAACAAGTCATAATCCAAGATCAACTGTTGGAACAACAACTGAAATCCATGACCATCTTAGATTACTATTTGCAAATATTGGAACTCCTTTTTGTGTAAATGGACATGGTCCAATTAAAACTTCTTCTCTTAAAGAAATAATAGAAACTTTAAAAAAGGAAACAAAAGAAGATGATCAAATTTTTATTTTAGCACCTGTTGTTAGAGATAAAAAAGGAACTCATAAAGATCTTTTTATAAAATTAAAAAGAGAAAATTTTTTAAGAGTACAAATAAATGGAGAAGTTAGAAATCTTGAAGAAGATATTCAATTAGAACAAAATAAAAGACATAACATTGATATCGTTGTAGATAGATTAATTTTTAAAGCAGGAGATGAAGAGTTACAGTCAAGAATTTATTCAGCTATTGAAGTAGGTTTGGGTTATTCAAATGGTTTAATAAAAATTTATTATCCAAAAAGAAATAATGAAACTAAATTATTTTCAACTAAGTATTCTTGTAGTGAGTGTGGATTTTCAATTCCCAATTTAGAAGCAAACTTATTTTCTTTTAATAAAAAAAATGGAGCTTGTGAAACTTGTTCTGGTCTAGGAGTTAATTTAGAAGCTGATCCAGGTTTAATAATTCCTGACTCATCACTTTCAATTCGCGAAGGTGGTATTTTATATTACAAAAATATTGTTGATTCAACAAATATTGAATGACAAAAATTTAAATTACTATGTGATTATTATTTAATTGATATAAATTCTCAAATAAATAAGTTAAGTGAAAAACAAATTAATGTTATTTTATATGGAAGTGATGAACCAATTGAAACTAAAATAACAACAGTTAGTGGAAATACATTAAGAGCATTTGATTATATTGAGGGAATAGCAAATATAATTGAAAGAAAATATATTGAAACCAAATCAGAGGACAATAGAAAATATTATGGCAAATATATGATGTCAAAGGTTTGTAAAACTTGCAAAGGTAAAAGATTAAATGATATTGCTTTAAGTGTAAAAATTAATGATCTTTCAATTGCAGATTTTGTAGAACTAACTATTGAAGAGGAATTAACTTTTTTATTAAATTTAAATTTGACTGAGCAACAAGCCAAAATTGCAAGTTTAGTTTTAAATCAACTAGTTTCAAGAATAAGTTTTTTAAATGAGGTAGGGTTAAATTATTTAACTCTTTCAAGAAGTGCAACAACTTTATCTGGAGGAGAAGCACAAAGAATTAGATTGGCAAAGCAACTTGGTTCAAAATTATCAGGAGTTCTTTATGTTCTTGATGAACCGTCAATTGGTTTACATCAAAGAGATAATGATAAATTAATAACTACTCTAAAAAAATTAAGAGATTTAGGAAATACATTAATTGTCGTAGAACATGATGAAGATACAATGAAGGCATCAGATTGAATTGTTGATATAGGGCCTGGAGCTGGAATTGAGGGTGGAAATATTACAGCTCAAGGTACATATGAAGATATTTGTAAAAATCCAAATTCATTAACAGGAAAATATTTATCAAAACAATTATCAATACCTACACCAAAAAAACGTAGGGGTGGGAATGGTTTAAAAATTGAAATTAAGGGTGCAACTGAAAATAATTTAAAAAACATCGATGTAACTCTACCATTAGGTAAATTTATTTCTGTTACTGGGGTTAGTGGTAGTGGTAAATCAACTTTAGTTGAAGAAGTTATTTATAAAGGATTAAAAAAAGAATTAAATAAAGAGTTAATTCGTCCTGGTAAGTATAAATCAATTAAGGGATGAGAAAATATTGACAAAATTATTTATGTATCTCAAGATCCAATTGGAAAAACACCAAGATCTAATCCTGCAACTTACACATCTGTTTTTGATGATATTAGAGATCTTTATACAGAAATTCCAGAATCAAAAATTAGAGGTTATAAAAAAGGAAGATTTAGTTTTAATGTTCCTGGTGGAAGATGTGACTCTTGTTGAGGAGATGGAGTTGTTCGTGTTGACATGCAATTTCTTGGATATGTTGAAGTGGTTTGTGAAATATGTGATGGTAAAAGATATAATGAAGAAACTCTTCAAATAAAATATAGGGGAAAAAATATTTGAAACGTTTTAAATATGACTGTTCAAGAAGCTCATGATTTTTTTGAAAATATTCCTAAGATTAGAGAAAAATTAGAAACAATATTAGCTGTTGGTCTTGGTTATATAAAATTAGGTCAAAATGCTACAACTCTTTCTGGGGGAGAAGCACAAAGAGTTAAACTTTCAACTTTCTTATTAAAAAGACAAACAGGTAAAACATTATTTTTATTAGATGAACCTACAACAGGATTACATATTGATGATGTAAAAAGATTAATAAGTGTCTTAAATATTTTAGTTGATCAAGGAAACACAGTTTTAACAATTGAACATAATCTTGATTTTATAAAAGTTTCAGATTATGTAATTGATTTAGGTCCTGAAGGTGGAAGTGGAGGAGGAACAATTCTTGCTACTGGTACACCAGAACAAATAATTGAAAACAAAGAAAGCTTTACAGCAAAATATTTAAAGGAGTATTTAAATGATTAGTGTTGAGGAAAATTTAATACCTTCTGAAATAATTTTTAAAAAAAGTTATAATTTAAAAAAATTATTAGAAGATCTTGGAAATCCACAAAATAGTTTTAAAGTTATTAATGTAGTAGGAACAAATGGTAAAGGTTCTACTTCACAATTTATTTTTAGTGGTTTAAAAACTAAATTTAAAAAGGTTGGTTTATTCATCTCTCCAGCATTTTTAAATCAAAATGAAAGAATTCAATATAACTCAAAAATGATTTCAGATGAAGATTTAAAAAGAATACTTTCAAAAAATGAAAAATTAATTAAAAAATATGAGTTAACTTTTTTTGAAATTTGAACTTTTATTGCAATTTTATATTTTCACGAATTACAAATTGATATTGCTGTTATCGAAGCAGGAATTGGGGGTTTAAAGGATTCAACAAATGTCTTTGAAAAACAATTGGCAGTTTGTGTAACTTCTCTTGGTTTAGATCATCAAGAAATTTTAGGTGAAACAATTGAGGAGATTATTTATCAGAAATTAAACATTGCAAAAGAGAATGTCAAAATATTTTTAAGTGCAGATAATATAAAATATAAAAAAATAATAAAAACAATTAATGATAATCCAAAGGTCTTTACAAAAAAATTTATTGACCCAGTTTATTTTCAAAGTTTTAATAAAGGTTTAGCAAAAGCCGTATTAAATTATTTAGGAATTGCAGTTGATTCTTTTAATGAGGCCCCTTTGGGAAGATATAGCTTGTTAAGAAGTGACCCAATTTTTATTATTGATGGTTGTCATAATCATAATGGAGCTTTAAAACTTTCTAAGCAAATAAAGGATATTGAAGATTTAATAATTTTATTTGGAGCAAGCGAGGGTAAAAATTATAAGAGAATATTAAATGTTTTTAGAAAAAGGAAAAAAAATATTTTCTTAACAGAATTTGATCATAAGAAATCTTGAAAAATAAATCAACAGGAATTTGCTAATTATACAATTATTAATAATTGAAAAAATTTTCTTACAGAAAATAAAAATAAAAATATATTAGTATGTGGAAGTTTGTATTTTATTCCATTAGTATATAAATGAATGGAGAAGAAATAACATGAATTTATATCTATATACAAATATTGCAGCTATATTTCTTATTCTAGGAATTCTTTTATGTGCTCTAGCTTTAGAGAATTTTACTTTTAAAAAAATTAGTTTAAAGCATCTAACAGTAATTTCATTATTTGCAGCTTGTAGTGCAGTATTAACTGGATTTACTTATAAACTTCCTCCAATTATTGGAAATACTCATATTGCTTTAGGTGACTGAATTATCTTTTTATTAGGTCTTTTATTTGGTCCTTTATGTGGAATCATTTCTGCTATTTGTACAGATACTTTAATGGCAATTGTTATGCCAAGTAGTTATGGTTATCATGCAGGTTATATGTTTGGTAAATGTGTTTTAGCTTTTTTTGGATCACTTGTTTTTTTAACAAGAGCACAAAATAGAATTCTTTTAAAAATTATTATTTTATATTCAATTGCATATATTTTTCAAAGTTTAATATTAAATCAAATTTGAATGATGTCTTGAAAAGGAGACGCAGCGTGAGTTGATTTTGTGGCGAAGTTAATTAAATTGCCAATAATTTTACCAATTTATATATCCTTTACATATTCAACATTTTTACCTATAAGAAAGCTGCTAAAAAATTGAAATACTGAGTTTGTATGATGTTTTAAAACAGAGTATTTATTAAAAAATCTAGATTATTAAATCTAGATTTTTTAATTAATTTATTAGATATAATTACTATTGAGGTAAAAAAAATGAGTAAACTTTATGCAAAAAAAATAATTGATGAATTTAAACTAGAAGTTGTTTCAGGTCAAGATAAAATAGAAAATAAAATTGATGTTTATGGAATAAATAGAGCTGGCTTGGAATTAACTGGTTACTTTGAAAGTGGAGAAAAATCTCATAGAATAATTGTAATGTCTACAAAAGAATATTTGTACATTATGAATTTTGAAGAAAAAGAAAGACGATTAAGATATCAAAAACTCTTTTCAAGAAATATTCCAATGATAATTCTTACAGATAAGTTTGAAGATAAATTAGCAATAACTGTTGCAAAAGAAAGTAACTCATTGCTTGTGAGAACTAGAACAGAATCAACTAGTGATTTTACTCAAAATGTTCTTGAATTTATGGATGATTATTTTGCACCTCTAATTGAAGTGCACGCTTCATGTGTAAATATTTTTGGTAAAGGTGTTTTATTAATTGGTGAATCTGGAATTGGTAAGTCTGAGATTACTTTAGACTTAGTTAAAACAAATCATTTATTTGTTGGTGATGATAGAATTGTTATTACTAAAAAATCAAATGAATTATATGGCAAAAGTCATGAAATACTGAAAAATTTAGTTGAAGTTAGAGGAATTGGAATAGTTGACGTTTCTCAAACTAATGGTTATCAAGTTATATTAGAAAAAACTAAAATTGATCTTGTTATTGAATTAACACAATTTAAGAAAAATGGTATCGATGATTCAGAAAGATTAGGAACTTCTTTTGCAACATATGAAATATTAGGAGCTTCAGTTCCTTATATTAAAATACCTGTGTCTTCAGGAAGAAATATCCCAAACATAATTGAAGCTGCAGTTGCTAAATTAAAAATTAAGCAAAGTGGGCTTTATAAAGATGAAACTCAAATTTTAAGTGAAAGAGCAATTAAATTTAATAATGATTAATTTTTTATCTGATGTTATTTGAGAAAATGGAGAAAAGATTCCATATGAATCTGATCCACTATCATTTTTATATTCTCTTTTAGTTGTAACTGGAGTTCTCACTGTAATATTTGTATCAGCTTTTAAATTATATAAAAGAGGTATTCCACTTAAAGATTTTATGAATGGTATATATATATCATTGCCTGTTGGAATAATTGGGGCAAGTATTTTTGGAAAGTTAGGGTCATCAGGGGATCAATGAAAACTTTATATGTTAGTTTTCTTTTGAGAACCGGGAATGAGTTTTTTTGGTTCAATGCTTTGTGGAGGCACTGCTGCATTTTTGTGATTATGACATAAAAGTAGACAAAGCAGAATTTCGATTTATGTTTATGCAGATTGTATTGTTCCCAATATTTTATTAGGTCAATCAATTGGAAGATGAGGAAACTTATTTAATCACGAAATATTAGGTAGAGAAGTCCATGATTTAAATAAAATAAATTGATTGCCAAATTTTATTTGACATAGATTGTTTTATTTTAAAGACTTAAGTGCATCTTCAGAATTAGATACACTTCAATTTCGTGAACCCTTATTTTTATATGAATCATTTGCAACTTTATTTCTTTGACTTTTAATTACTTTTGTTTTTGCAAACTTATGAAAAATCATAAGTAAAAAACCTTGAAAAATAGACCCAGAGAATTTCCCATGTAAAGCAAATAAAACTTTTAAATCTATTTCCGAAGAAAATTTAAAAATCTATAATACTCAAACAACAATTGAATATTTGAAGGATAAAGAAGGTAAGCTATATTTGTCAAATTCTTGAGTTTGAAAAAAGGCGTATACATTATATGAACCTTCAAAAGATTTAACTCAAAAGGCTCAATTTAAAATAGATCAAAGAAAGACATTAGCAATAAAAGCACAAGAAAAATATGTAGCTTTAATTAGAAAAAATAATGAAGAAATACAAAAACAAAAAAGTAAGTTAGAAAAAAGTAAAATAACAAAGCAAGAATTTAATAATTATAGAATTCAATTAAAAAAAGATAGTAGATCAGAATTAAAAAAATTGAAATTTGAAAAAAATAGATTTATTAGTTTTTTAAAAAGTGATTCCAAAGAACTTTATGAAATAAATAATCCTAATAGTTATAAAATTATTCACAGTGGAGTATTGGCAGGAATATACATAGTAGGTTATACTATGATAAGAGTTATTCTTGATCAATTAAGAAACCCATATGAATTAACTGTTAAAAACAATGTTGTTCTAAATTCCTTATTTTTAACAGGATTTTTGATACTTGGGTTATCTATAATTATATTTGCACAGTTTATTGCTCCAAAAAAATGAAGGGAAGAAGGTTGATTATATGAAAAATCATATTAATGTTGATTATGACTTAATAATTGCAGGTGCTGGTCCTGCTGGTTTAAGTGCTGCAATATATGCAGGGAGAGCTGGATTAAATGTTTTAGTTTTAGAAAAAGAAGCTCCTGGTGGTAAAGTTATTAAAACTGGAGAAATTGAAAATTATCCAGGTTTTACAAATATTCAAGGACCAGATTTAGCAATGCATTTCTTTGAACAAGCAACTGCAATGGGTGCTAACTTTGAATTTTCAGGTTTAAAAGATTTTGAAAAAAAAGAAGTTTTTAGTGTAATTCTTGAAAATGGAAAAATCTTAAAATCTAAGGCATTAATTATTGCAACTGGTACAAAAGAAAATTTATTAGGAGTTCCAGGAGAGATTGAACTTTATGGAAAAGGAGTTTCATATTGTGCTGTTTGTGATGGAAGTTTTTATAAAGAAATGCCTGTTGCAGTTGTTGGTGGAGGTTATAGCGCAATTGAAGAATCTATATTTTTAACAAGATTTGTTTCAAAAGTTTATCTTATACATAGAAGTAAAAAATTTAGAGTTGATAATAAGACATTAGAGAAAGCTAAATCTAATGAAAAGATAGTATTTATTTTGGACTCTATTGTTGAAAGTATACAAGGTAGTGAAAAAGTATCTTCAATTAAAATAAAAAATACTATTGAAAATAAGGTATTAGAAATTGAAGTCAATGCTATTTTTCCATTTATTGGACATTATCCAGTAACAAACTTTGTGAAGCAAATTCAGATATTAAATGAAGAAAAGCACGTTGTTGGAGATGAAAGAATGAAAACTAAAATTGAAGGCTTATTCGTGGCTGGAGATGTAAGAAATACACCCTTTAGACAAATTGCAACAGCCACATCTGATGGGGCAATTGCTGGTCAAAACGCTGTAAATTATATTGAAAATCTTGATTAATTATCAAGGTTTTTTATTAATTGCTATGTTAAAATAATCAAAGTTATAAAAGGTGTTGATAAAATGTTATATGGATGAATACAAAAAGACAACTGAAAAGAAGCAACACAATGATGAACTGTAAGAGATGATTATGGTTTTATTCATGTTTATGCTTTAACTATGACTTTAGGAGTAATTTTTGCTGTGGGAATTTCAGCTATAAAACTCTATAGAAGAGGCGTATCATTGACTGAACTTTGAATTGGAGCAGCAATTATAGTACCTGTTTCTTTATTAGGAGCTAGTTTTTTTGGTAAATTAAATGCTGGAGGTTATGGGAAAAATAATAGTGGTTTCTTTGGATTATTTGCATTTTGAAATGGTGGAATGGCAATTCACGGGGGAGTTTATATTGGTACTTTAGCTGGATTGATAATATTTTATTTTTTAGGTAGAAGAACTAAAGTTTCATTATGAGTCTACGCCGATTGTATAATTCCAAATATTCTTGTTGGTCAAGGAATTGGTAGATGAGGAAATTTCTTTAATCACGAAATATTTGGTAAACCTGTTGCACTATGGAATAATGGAGATTCAACAGCTTTAAATTGATTACCCTATTTTATAAGAAGAAATATGGTTTGAACTTATGATGGAGATAATGGAGAGACCTTAAATGGATTAGTTCTTGAAAAAGGTGAGAACTATCTTATGTCACCAATATTTTTATATGAATCAATGAGTTTAATTGCAGCTTGATTAATAATAACTTTTGTAATTCCCAATATTGGTAAGTGATGTAGTAAAAAGCCTTGAAAAGTAAACCCAGAAGGTTCATTTGAAGGACTTTCTAAATTTAATATTTGAAAAAAAGAAGTTTATGCAAATCATCATAAAAAAGAAATCGAATTATATAAAAAAGAAATAGTAAAAATAGATGATAAAAATTACATTAAAAGAAAATGAAAACAAGGAAGACTTTTATCCAAATGTAATAACCCTGAAAAATATGTGCTTATTAGATCGGGGGTGCAAGCAGGATCATATTTCTTTGTATGAAACTTAGTAAGACTTATCTTAGAAATAGGAAGACCAGATGATCATTTATTCCTAATGTATCAAAGAACTTTATCTTTAACCATAATCGCTTTGTCAATGTTCTTTGGTTTATTAGTCGCATTAATGGCTCAATTTGTTTTTCCATATCTATTTAGAGCAACTGGTTTTATATACGAACAAGAATATTTCTACTTAGACCATGAAAATAATAAGGAGTTTAAAAAGGAAATACAAACAAAAAAAATAGAGAAAAACAAGATCAAAGAAGAAAAAGCAAGACAAAAATTAAAAGAAAAATTAGAAAAAAAATAGGAGGGTAACTATGTCTTTTGCAATGGAAGTTAAAGAAGAAATTTTGAATCACACTTTTACAAATGAGCAAAAGATTATGCTACTCTCTGGTTTTATAAAATACAATGGTGAGATTATATATACAAATAGCGGAGTTGCTTTAAAACTTACAAGTAATAGTAACAATGTTATTAGAAATATATTTTCAATTTTGAAAACTGTATATAACGGTAAAATTGAAATATCAATTATACAAATTAAAAAACTTAGAAACAATAAGACTTATCAACTAATGTTAACTGAAAATGTTATTGATTTTTTAACAACGAATAATATATTTCAGCCAGCTTTAGCAAATAAAATTATTGAAATTAATTTGGAAAAATATATTAAAAAAACTTGAGAGGGATTAACACGAGCCTATATTTCTGGAATATTCATAGCTATTGGAAGTGTTAATTCTCCTGAAACTACAAATTATCATTTAGAGTTACAATTTAAAGAAAATGAATCAGCTCAATATATCACAAAAGTTTTAAAAAAATATCACTTTAATTTTAAAACTACAATGAAAAGAAATAAAATAGTTTGCTATATTAAAAAATCTATTGCTGTTTCTGACTTTCTAAAATTTATGGATGCATCAATTTCTGTTATGAAATTTGAAAATACCAGAATTAATAGAGATGTTAGCAATAATATAAATAGAATGATAAATATAGATATCTATAATCAGCAAAAATCGTCAGAAACTGGTCTTAAACAAATACGAGAAATTAATAAAATTATGAAAAATAATCTTATTTCAGAATTATCGCCTAAAGCCCAGTTGCTTTCACAAATAAGATTAGAGAATCCAGACGCATCATTTTCAGAATTAGAAATTCTAATGAACGATAGAAATGTATCAATAACGAAATCTGGAATAAGCAATTTATTTAGAATAATAAGTAAATTGGCAAATACAATTGGAGAATAAATATGGAAAAAAACATTATAAGAACATTTAGTAAGAACATGAAACGACTAAGGGTAGATGCAAAATTAACACAAGAAGAATTAAGCTTCTCATCAGAGCTACACAGAAACTATATTTCAGATACTGAAAGAGGTAAAAGAAATATATCGCTAAAGTCTGTTGAAAAAATAGCTAAAGCACTAAATGTAGAGCCAATTGAATTTTTTAGGGACATTGATTAGTATTAAAAAAAACAGAACTTAAGTTCTGTTTTTTTTAATAAATAACTACTTTTGTCAATTTATCAAATTTTGGATTATCTTTTATATTTTTATAACCATCATAAAAAATATAAGATTTAAAACCCTTAATTCTTAGACTTTTATAAATAGATAGATGACTTCTTGAGTCCTCATCAATTATAAGAATTTTATTTTTTTTATCCAATACTTTAAAATATTTTAAATTAAAAATTAGTATTGGAATATTAATTGAACCTTTAAGGTGATTTTCATTAAATGAAACGTTATTTCTAATATCAATAATTTGTCACTTTTTGCTTTTTATTATACTATTAAGACTTTTAATATTTTTTGTTTTATATTTTGCCTTAAAAGCATTTGTCTTAAATATCTTTTCAAAAAATTTAAATACGTATTCTAGTCATTGCATTTTTTATCACCTAAATGATTATAACTTGAAAATACTCTATTTTTTTAATGCTTTATTGAAATATTTTTTTGAAGTAGGTCATTTTATGTGAATATAGATGCATAAAAGTTTTTCTTTTTGTAGCAATTGTAGTATTATATACTTAATGAATGGAGGGCCTTGTATGAATTTACTTGCCGGAACAGCGTCACAACAAACACTAGCAAATCAAATAATTTTAGGTTTTGAAATTCTTGGATTAATCGTATCTATATTAATGATAATTGTTGGTTTAGTACAGAATAAAAGTTCACAAACTGGATTGAGTGCTTTAAATGGTGGTAATGATGAATTATTCTCTAACTCAAAAGAAAGAGGAATGGATAAGACTACATCAATATGGATGTTCAGCTTAGGAATTACACTATTTATAATTACAATTGTAATGGGAATTATTTCAAACACTGTTCTAAGTTAATAGTGTTTTTTTAATAGAAAGAGAAATTATGAAAAATATAATATTAGAGCGGTTAAAGAAAAAAGAAAAAATGCACTTAAATGATTTAATTAATAATATGAATGAAAAGTATGAAAGCGTTACTGATGCTTTAAGAATACTTCAAGAAGATCATTTAATAGGATGAAGTAAAGAAAATGTTATTTATTTTGTGGGTGAAAAATATAAAATTGGGTCAATAAAAATAAATGACAAAGGTTTTGGTTTTATAAAAGAACTGAACAGTGAGGATGATGATTTTTTTGTTCCTCCAAATGGACTTAATGGTTCTATATCTTCTGATGAGGTAATTTTTACTGTTCAAAAGGAAAATGATGATAGATTTAAAGCAAATGTTGAAGATGTTATTTTAAGAACAAAAACATCTTTAATTGGTGAAATAAGAAAAAGTAATTGTGGTAGATTTATGGACTTTATACCAAATGAACCAGGATTTAAAAATTATAGAATTGTATTGGTTAATTCAAAAGATTATAAATTAAAAGAAGATTTAATTATAAAAGTCAAAATATTAGATGTAAGAGATAGAAAACTTTTTACAAGAATTCAAAAAATAATTGGTGATGCAAATAAAGCAATAGATAGAATTATTTCAATTGCTTATGAATTTGAAATAAAACCAGAATTTAATAAGCTGACATTAGATAATGCAATTGAAGTTGCTAAACCAATTGATTATAAAGATGAAAAAATTAAAAGAAGACTTTCAAATTCTTTAATAAATAAAAATTTAGTGACAATTGATGGAGCGGATTCAAAAGATCTAGATGATGCAATTTATGTTGAAAAAACAAATAATGGATATAAACTTATTGTTGCAATTGCTGATGTAAGTTATTATGTAACTCCATTCTCACCTTTGGATAATACAGCTTTATTTAGAGGAAACTCTGTTTATTTAGCAAATAAAGTAATACCAATGTTACCTGAAAAATTATCTAATGGAGTTTGTAGTTTAAATCCAAATGAAGAAAAATTATGTATGGTTGCAGAAATGGATTTTGATTTAAAAGGAAATGTAATAAGCAAAAAAGTATATGAATCAATTATGATTTCAAAAGCACGTCTAACTTATAAAGAAGTTAATGAGCTATACAATAATAATAAAGTGGAAATTAAAAAAGAAATTATTGATATGTTAATGACTGCAAAAGAGCTTCATGAAATTATTGATTTAGAAAGATCAAATAGAGGAGCAATTGAATTTGATATTGCAGAACCAAAAATAATATTAGATAAAGATTCAAATGTCATTGAAATTGCAAAACGTGGAAGAGGTATTAGTGAAAAACTTATTGAAAATTTTATGGTAAGTGCAAATGAGTGTGTGGCAAGTATCATCTTTGAAAAAAAATTACCTTTTATTTATAGAAATCATGATGTTCCAAAAGAAGAAAATCTTATTGAATGACATTCAATTTTGAGAGCTTTAGGAGTAAATGTTAAATTAACTGATTTAGATAAAATTAATCCAAAAATGATTAAGCAAGCTTTAAGTCAAATTGAAAGTCAGATAACGGATTCAACTGAAAGAGATGTTATTAATGTAACTCTATTAAAATTTATGGAAAAAGCTGCTTATGAATTGGAAAATATAGGACACTTTGGATTAGCAAGTGCTTGTTATACACATTTCACAAGTCCAATTAGAAGATATAGTGATTTGATTGTTCATAGATTTTTAAAACAATATTTAATTTCAAAAGATTTAAGAGAACAGAAATTAGAACAAAATAAAAATTTTGTTCTAAAAGCTTGTGCTATTATTAATGATACAGAAAAACAAGCTGTTTCTGCCGAAAGAGAAGTTAATAAAGTTTGTATGGCTGAGTATATGCAATCTAAAATTGGTCAAGAGTATGAAGGAATTGTTGCTGCAGTATTAAAGTTTGGGATTTTTGTACAACTAGAAAATTGTGTTGAAGGTTTAATTCATATTTCAGAGTTACCTGATTTTACTTTTGAAGAAAAGACAAATATTATGGTAAATAAACAAAATAAAATATTTAGATTAGGTCAGAAAATAAAAATTAAAGTAAAAAATGCAGATGTTAAAAAAAGAATTATAGACTTTGTGCTTGTTTAACGGTGGTGATTAAAATGGGTGAGCATGTATTATTAAAAAATAAAAAAGCATATTTTAATTATGAAATACTTGATAGTTGAGAAGTTGGAATAGTTTTAACTGGGCCAGAAATAAAATCAATTAGAAATAAAGATGTTTCAATTGAGGAATCATTTGTTCTTATTAGAAAAGGTCAAGTGGAAATTTTAAATATGAATATAAAAAATTATGAATTTGCAAATAACATTAAATTAGATGCAACTAGAAATAGAATTTTACTCTTACACAAAAGTGAAATAAAAAAAATAATAAAAAGAGTGCAACTTGAAAATCTTACATTAGTTCCTTTAAAATTATATTTAAAAGATAATTTGGCTAAGTTGGAACTTGGATTAGCAAAAGGGAAAAGAGAAATTGACAAAAGAGAAACAATTAAAAAAAGAGATATTGAAAGAAGATTAAATAAGATTAAGTAATAAATTATTTTTTTATTAAAAATTTTATAATAAATCTATTATACAAAGGAGAAAAAAATGAGAGAAGAAGCATATATATTTTCAATTGTTAGTACAGTATTGTCATCTTTTTTATTAATACCATTAGCTTGAATGATACCAATGACAATAGCCACAAAAAAATCTATTGGAGATAATAAACCTCATATTGCTTTAGGGATTTGTAGTATATTTTTTATGGGTATTTTAGGGTTCATATGTGGAATATTAATTTTAATACCTGAAGAAAATTAATTTTTGAAATTGTTTAAAATAAAAAACACCATTTTAAAATGGTGTTTTTTATTTTAAACTTCTTTATTTTGATCGTTTTCAGTTACATTAACAGTTGGGTTTAAATTTGTATTATTTTCTTTTTTGAATTTATTATATTCAACACAAATCATAATTCCACTTGCTAACATTAAAGCCGAAGGAATCAAACTCAATAATGCATATGTACTTGTCAATATTGTTAATAAAGATAATCCAGATACCACTATTTCAATAATTCCGGCAGCTAAGATTCTCTTCTCATTTTTTGATTTCAAAAAAACTAATATTAATATATATAATATTAATGAAATACCTAATGACACAATTAGAAAACCAATTACAAATGTAGTAACGATGTCACTTTCAATTAAACCTGGTTCCTGTTGCAAGGCTATTGCTCCCAATATTGCAATCACTGTTACTAGTGAACTGAAAACTATGGAAATTATAACGCCTGCTAGTCCTAAACCTTTTGATGTTTTAGTCATTTACTTATTCTCCTCATATTAATAATAATGTTTTTTTGAAATAAAGCAATTTATTTTAGTTAATAAAATTAATTTTTATCTAAATATTAAGAAATGTTGAAATTATTACAGGCAAGATAAAATTTAATAGCACTAAACTTTATACAAATAATGTTTTATAATATATGTATGGGGGTGTCCCGGTTTCGACAGGATACAGCTGACTCATAACTGCAGTGGTCTGGTAGACCTTAATACTTCTAGGTTTGATAAAATGCAAACGAAGAAAAAAATGAATTTGAAATGCCAGCATTTATGATCAATAATGCATCAGCTGGAGTTGCTTTAGCAGCTTAATAAACTTTTTTAAAGTTTATAGTGTTTCAACGTTATGAAGTGTGTTTGTGCTTCATTGATTAACGTATTACCTAGCACAATAGAACAAATGACTCTAATAATAAGTTTGTTTGAAAAATCATTATTAGCGCTAAAAATTTAAATCTTGTTGGCTCTGTTGGTTTTTTAGCGTAAGTTAGAGACAACTAAACTGTAGACGTTATGGGTTGGAGTATTTTGGACGCGGGTTCGATTCCCGCCATCTCCACCATTTTTTTATGCTTAATTGCTTTATAAGAAAGGAATGTAATTTATATGGATATTATAAATGTTTTGATTACATGTCTTTCTTATACAGCAATTATTGCTTTTTGTTATACATTACTTTGAGGTTTAACAAGACATCTTTTTAAAAAAATAGAAGTGTATTATGAAATTCTTTTAGGTTTTATTTTAGGTTTTGTATCAACTTTTTCTCTTATTATAATTTCAATATTGGGAATTAATACTGGAAATTTAGGTATAACAATTTTATTGCCAACATTCTTATATTGAGTTGCAATTGTCTTTATTTCTCCATTTAGTGGAATTGGAATTCTAGTTTGTAATATTTTAAATTTAGCTGTTTTTTCTTCACTCTTTAGCGATTACTTTGGTAAGCCAACTGGTATTTGAAATATAACAATGCTTACATTAGCTTATATAATTCCTCTTGTGAATTATATAATTTCAACTTTTTGAATTAAAATCTCAAAGTGATCAAGTTGATCTATAACTACAATTAGTATACTTATAGTTGGCCTAATTTGAGCATTATCTACAATCAAAACTGCACCATCACTTGATAATTTAGCCAACTTACTTTTTTGATTAGGAAGTGGTTATTTGGCTTATGCATATATTGCAGTTATAAATCAAATTTATTTACATGCATTAAAACTTCAAAATATTGTAGTTTATGATAATACTTATTATTTGAATTTTACTTCAGCACATGATCAAATTTTAAATAAAATTCAAGATGAAAAATATAAATATGGCTTATATATAACTTACTTTATTTCAAATTTTGAAAAATTTGAATCAAAGGTTAATGGTTATATAAGAGAGCAAGTTGTAAATTCAATTTCAGAAGAAAGTTACAATTTACTACAAGAAGAATTTCCTAAAGCAATATTTTTTAAACCAAATTATAAAACTTTTGGTGTGTTTGTGCCTTTTGAATTAAAAGAAGATTTTAGTGAAAAAAATAATTTAAAACTGGAGAAAATAAAAAGTATTTTTTCTACAGTTAATACTTCATTTAATATTAGTAATTATAAAATTAGTGTAAAGTTAAAATCAGTTTGCTCTTTTTATGGTTTGCATTCAAATAATTTAGATACTCTATTAGAATATAATTTACATGTTGAAAATGATTTACTACTTAAATATCAAGATGAAAATATTGTTGTTAATCCAATGGAAATAATAAAAGAGAAAAATCAAAATAAGAAAATGTTATCTTTAAATGAAATTGCTAATTTAAATCAGTTTGTAACTTTGTTTGAACCGATATACTATACAAGAACAAATGATTTTGAATATTATTTTTTAAATGGTCTTATAGATGGTTTAGAAATAAATGCAGATGAGTTTTCTCAAAAAAATAAATTAATATTTGATATGGGATTATCAACATTATTTTTAAGATATACTTCATTTCACTCATTAAAAAAAATGGCTAAGCAAAGTGAAAAAATAAAAAATAAAAAATTCTTTATAAGCTATGACAGTAATTATTTATCAGATAAAGAATTTGATGCTGAAGAATTTATTTTAAAATTAAAAAATCTTAAAATAGATTTATCAAAAATAGTACTTAATTTTGATATAAATAAAGAAGTAGATGATAAAAAAGAATTAGAAAAAAATATTGAAAAATTGAAAAGTCACTCAATACAAATATCAATAAGTAATTTTGGTTCACTTAAAACTGATTTTGCTTTATTAAACTCTTACAAACCAGAATTTATTTTTTTAGAAAATGAAATATCAAAAAAAATAAATTTTGTTAAGGAAAATGAAAAAATAGTAATTGAAAGTCTTAAAATAGCAAATAAATTGGAAGCAAAATTAGTAGCTTCTTCAGTAAATAGTTATTTAATTTATAAACATCTTAAACTTTTAGGAGTAGAATTATTCACTGGTGAACTAATTGGAAGTTCAGTAGAACCTAGAGAAAATATTTCAGATGAGTTAAAATATTTATTAAATAAATAGAAAATTAGGGAGGATATATTATGTTAGAAAGAGAAGAAAAATTAAAGACGTTAAGTGAAGAAATTGAAAAGGTAATTAATGCAAATAATATTAAAGAATTAAGAAAGTTAGAAGAGGAGCATTACCCTCAAGATATTGCAGAAGCTCTTGAAAAATTGGAAGATAAAATTACAATTGTGGCATTAAGATTATTTACAAATGATACAAGTAGTGAAATATTTCCTCACCTTGATGCAGATATACAAGAGGAAATAATAAATAAAATGTCTTCTAAGCAAGTAAGTCTATTATTTTCTGAATTATATACAGATGATATTGTTGATATATTAGAAGAGATGCCTTCAAACATAGTTAAAAAAATTTTAAGATCTTCAACTCCAGAAACTAGAGCTCAAATAAATAGTATTTTAAAATATAATGATGATACTGCTGGAAGTATCATGAGTGTTGATTATACTAGATTCAAAATAAATTGAACTGTAACAGAAGCCATTGAAAAAATAAGAGAAAGAGATGAAGAATCGGAAGATCATAATACGTTTTATGTTGTAGATGATTTAAATAATTTAAAGGGAATTGTTGAATTAAAAGACTTAGTCTTTTCAAAAGGTGAAACTCTTTTATCTGAAATAATGGATGAAAGAGTTATCTTTGCTCGTACAAAAGATGATCAAGAAAGCGTTATAGAGTTATTTAAAAAATATGATATTACAACTCTTCCAGTTATTAATGTTCAACAAAAACTTGTAGGTATTGTTACAGTTGATGATGTCTTAGATGTAATTGAAGAAGAAGTAACTGAGGACATTCATAAAATGGCTGGTATAAGTCCAACAGATGATGAATATTTTAAAACAAGTATTTGAAAAATGGTTAGGTCTAGAAGTGTTTGACTATTACTATTAATGTTATCTGCAACATTTTCACAAATTATAATTTCAGTATTTATAAAAATTTATCATTCAAAAAGTGGCAGTCAAGGAATCTCAGATCAAAACTCAATAAGTTATATTATTATGATTTTATTAGCTCCCTTGTTAACTGTAATTTCTGGAACAACAGGGAATGCTGGAAGTCAATCTTCTACAATGATTGTTCGAGCTTTATCTTTAAAAGAAGTTGAAACAAAAGATTATGCTAGAGTAATGTGGAAGGAATTTAGAGTAGCTATTATTACAGGTTTAATATTAGTGACAGTTAACTTTGTAAGAATGATAATTATTTATTCTATTGAATTTAAAGGGAATTTAAGTAATCCTAACTTATGATATACAATTGCTACAATTTCAATTGCAATGTATTTATCATTAATAATGGCTAAATTAGTTGGGGGAACTCTTCCAATAATTGCTAAAAAACTTAAATTAGATCCAGCAATTATGGCATCACCATTATTAACAACTCTTGTTGACGCATTATCAACAGCTTTATTCTTTTCTGTAGGTTTAATTTTCTTTATATAATTTTTTATATAGGAATTTAATATGAGATTAAGAAATAAAAATTGAACAAAAAATTTCATTGAAGAAAATTTAAAATACTTAATAACTACAGAAGAAAAAATTAATGCAAGTAAATTATTTTCTAAAAAGCAAGATACTTTTTTAGAAATTGGTTGTGGTAAAGGTCAATTTATAATTGAACAAGCAAAAAATAAATCTAATAAAAATTTTATTGCTATGGAAAAAGAAACAACTGTAATGGGAGTTGCTTTAAAAAAAGCTATCAATCAGGAAAATTTTGATCTTAAAAATTTATTATTTTTAAATCGCTTTGCTGAAAATTTGTTAGATATATTTGAGCGGAATTCTTTAAAAGGAATATTCTTAAATTTTTCAGACCCATGACCAAAAGCAAAACACTTTAAAAAAAGATTAACTTATCTAAAGTTTTTAGAAATTTATTGAGACCTATTAGCAGATAATGGTATTATTGAAATTAAAACAGATAATGATCAATTATATGATTTTAGTTTGGAACAAATTAAAGACTCTAAGTTTAAAATTATTTATGAAACAAATGATTTATATTCTAATAAGGAGTTTCTAAAAGATAATATTCAAACCGAGTATGAACAGAAGTTCTATGCACTTGGGAAAAAAATTAAAAAAATTGTAATAAAAAAAGAGGTTTAGTTTTTTTCTATAACCTCTTTTTTTGGTGGATTTTTAATAAATTCCAAATATTGATTTCTAAATTCCTCATTTTGTGAAATTAAGTATTTGTTAATTTCAAAAAATAAATATAAATAAATAACATTTATAATAAAAATAATTAAATAGATTCATCAAGTTTCAGAAGCATTTTGTACTCAAGATACTTGATTAATCACTGAACCACTTGTCATTTCAATAAAGAAAGCTCCGATTGAAAATATAGTTATAAAGATAGATACAAACCTACTTTTCAAAATTCTAATTTCTTTGTCATCTGTTTCTGTATTTGTTATAACTTCTATATTGTAAAATAGAGAAATAGATATTTTGCTTAAGTTTGTTAATAGACAGACCATATAGACTAATAAAAAATTTAAATTGAATTGACAAAACAGAGATATTTTTTTTCTTAATTCTAAACCACTCATACTCAGAATTATAATTGAAGAAATAACCATAAAAGATAATGTCAATGAAGCAAATCATAGTATTGGTTTTCTCAAATCCTTTTTAATTATTTTAAAGTCCATTTTTTTCACCTTTTTATATTATATTTTATTATTGTTAAAATTGTAAAATAATATAAATATAATTCTTTTTTTCAAAGTATTCATTCTATAATAAAGGTGTAAATTAAATAAAAGCTTTTATAAGTCGACATAAAGGGTTGATGTTTCTACAATGTACCAATACATTACCTAAAAGCAAAAATTAAAGGAATTTTTAATTTACATATATAAAGTCCTTTTTATCAAACATAATAGCAATAATTAGTTTACACAAATAAATAAATATAGGAGAAAAAACGAAGTGAAAAAATTACTTTCAGGATTAATGGCTGGGGTTGTTGTTTGCTCATCAACTTCTAGTCTAGTTTCGTGTAGTAAATTATCTGCAATATCAGAAATATATTTAGTAACAGATGCAGGTAAAATCTCTGATAAGTCTTTTAATGAATCAACTTTTAAAGCAGGAAATGAATTCCTTCAAGAAGTTCTTCAAAGAAAAGATTGAAAAATATCTAAAATTGAACCAGAAAATAGTAGTTCAAAAGTAATGAAAAATCAATATAGAAATGCAAGAAATAATGGAGCAAAAATTATTTTGTTACCTGGATTTCACCATGCAATGCCTGGAGAAGGTGAAAACTATGCTCCACAAGTTATGAGTGAAAAAGGTTCCACAATTTTTCTAGATGGAGAAAGTTCAGCTACTAATGAAATTGGATTTAGTTTTAGAGGAGACATTTCTGGCTTTTATGCTGGAATGAGTTCGATAATTTGGGGTCTCCAACAAGGAAATAAATATAAGGAAATTTCTCTTGGTTCATTTGGTGGAATATCAAATCCAAGGGCAGTTGATGCATTTATTGTTGGATATTTAGCAGCTATTGAAGTTTTCAATGAACTTAAAAAAACTGATGAAGGAAAAGCAAAGCTTAAAGATTTTGGTTTAAATGATGAGGCATATGCCAAAAAAGTCAAAATGACCCAAAGTCAATTTCCTAATTCTCCATCAGATGCAAGTTGATATTCTAATTCATTCCAACAAGGAGATGGATTAGTTGTATCAAGTACTTTGATGCAGAATGGTGCTAACTTTATAATGCCAGTTGCAGGACCACAAACTATAGACGTAGTTGGTCTTTCAAAACAAAAAGATGGAGGAGATACTGTCAAAGTGATTGGTGTAGATACTAATCAAGCAGAAGCATTTCCTCAAAATAAAAATATGTTTTTAACAAGTGCTGAAAAAGATCTTCAGAATGCTACAATAGCTGGTTTAGCACATACACCATATTGAATTGAAAAAGATATAGAAGTTGTTGGAAAGACAGCCACTTACTTAAAAGGTAAAATAAATTTAACTGAAAAAAATGAAGAAACAGGAAAGTTTGAATCAGTAGAAATTGATGATGAATTCCCTTGAAGTGAGTTGGAATGAAAAGAAGGTAAAGTTGGAAGAACACTTTGAGTTGGTGGAAATATGTCAGCTGGAGGCAACAATTTAGCTACTCCAGAATTAAAAGAAAAAATTCTTTTAATTTTTGAACCAGACGTATTAACACAAGCTTCAATAGAATTGTTTGAAACAATTGATAACAATGCATTTGAAAAATCGTTAATTAATGAAAAAACAATTAAGGCTTATGCTGATAGAATTTTAAATGGTTCTGCAGGAGGTGCTTTCTAAATGGCTAAATATGCAATTGAAATGGAAGATATCTCAATGATTTTTAATAAAAAAGTTATTGCAAATGAAAACATTAATTTTAAAGTTGAAAAGGGAGAAATACATTGTTTAGTTGGTGAAAATGGTGCTGGTAAGTCAACACTAATGTCAATTCTATTTGGTATCTACCAACCAACAAAGGGTATTATTAAAATAAATGGTAAAGAAGAAATAATTACTTCTCCAATAAAAGCAACAAAATTAGGAATAGGAATGGTACATCAACATTTCAAAATGATTGATATTCTTCCTGTTTGAAAAAATATTGCTTTAGGTGTTGAAGATGTTATTGGCTGAGAATTTATTAATAAAAAAGCAGTTATTGAAAAAACTACTGAATTAATGCACAAATATAATTTAGAAGTGGATTTAAATAAAAAAGTTCAAAATATATCTGTAGGTATGAAACAAAGAGTTGAAATTTTAAAAATATTATACAGAGATGCAGATATTCTTGTTTTTGATGAACCAACAGCTGTATTAACACCAGCAGAAATTGATGGATTATTAGATGTTATGTTGGAATTTAAAAAAATGGGTAAGACAATTATCTTTATTACTCATAAATTTGCTGAGATAGAAAAAGTGGCTGATAAAGCAACTGTAATACGAAAGGGAAAATATATTGGTACTTATGATGTTAAAAAAATAGGTATTAAAGATATTTCAAAAGCTATGGTTGGAAGATCCCTTGTTGAAGTTAAAAATAATTCAACAGCAACTGTGGGCGAAACTGTAATTAAGTTTGAAAATATTAATGTAAAAAAACATAGTAATAATAAAGTCATTGGTCTAAAGAATTTTAATTTAGAATTAAAGGAAGGCGAAATAGTTGCTATTGCTGGTGTTGAAGGTAATGGCCAAAATGAAATTGCTTCGGTTCTTAGTGGATTAACAAAACCATTAAGTGGAAAAATATTTTATAGAGGTGACGATATTACAAAATCTTCAGTTTCAAAAAGATATTTAAAAAATAAAATGAGTTTTATTCCAGAAGATAGGCATGAACATGGATTAGTTTTGGATGCAAATATTATAAATAATACAACACTACAAGATATTTCAACTAACAAATATAGTAAGTGGTGATTTGTAAATTTTGCAAAAGTTCAAAATCATACTCAAAAAATAATTAAAGACTATGATGTAAGAAATGCCGATTCAGGATTTAGAATTGCAAGAGATTTGTCTGGAGGTAATCAACAAAAGGTTATTATAGGACGAGAGCTTTCAAGAGAAAATGATTTTATAATTATTTTTCAACCTACAAGAGGGTTAGATGTTGGTTCAATAGAATTTATACATCAACAGATTTTAAAAGCAAAAGAAGAAAGAAAAGCAATATTGTTAATTTCATATGAACTTTCAGAAGTAATGCAATTAGCAGATCAAATTGTTGTTCTTAACTCTGGAAATATTATTGGTAAATTAGATAAAAAAGAAGCGACTAAAGAAAAAATTGGTCAATTAATGACTTCGAATATGGAAGGAGTTAGTACAAATGTTTAAAGTTAAGTTATGAACTCTAAAAGTTAAAACAGAAGCATTTGTAAAGTCCCCTGGTTTTTTAGAAAAATTAGGTTTTGTAAAATCTTCTGTAATATCAATTGTACTTGGTCTTTTAGTTGGGGTTCTATTCATATTCAGTAACGGAGAAAATGGATTTGCTTTCTTAGGAACTGCATTTGTTAGAGCTTTATCAACAAATGTTGATAGAACATTAGTTTATTTTGGAGTATACATTTTAATTGGATTAGGATTAGCTCTCGGATTTAAATTAAAAATATTTAATATGGGTGGTTCGGGACAAATTCTTTCAGGTTTATTAATGTCTTATTTAATAATGAGTTCGATAGGTAATGATACAAAAAACGCTTTTCTGATTTTTATAATGTTTATAATTTCAGGAATGTTAATATCTGTACTTTGTGGAGCAATGAAAGTTTATTTAAATGTTCATGAAGTGGCTTCATCAATATTACTGAATTGAATATTTTGATATTTATTAAAATGATATATGACTGTATCAGGAACACCAGCAGCGTCACCTTCATTAAATGAATCAATGGCTATGTTAGGTAATTCACTTTGAGCGTTATGCGTTATGTTAGCATTAATATCTGTTGTAGTAGTATATATTATATTTACATTTACTACAACTGGATATAAAGTTAAAGTAATTGGTAATTCACCAACAGCTGCAAAATATGCAGGTATTAAGAGTCAATATTACATTCTAATGGTTATGGCAATACAAGGAGCTTTAATTAGTATGGCTGGTTTCTTTTATTACTTTTTAATTCAAGGAAGTGTAACTTTTAATAAGGACTTAGTTCCTCAACTTGGTTTTGATGGAATTCCTATTGCACTAGTTGCCTTTAATAATATTTTGGGTATTGTGCCAATTGCGTTCTTTTGAGCAATTGTTAAAGAGGGTGCTGCTGTTGCAATTACAACACCTAACTTTAATAATTTACAACCAGAAGTTGCTGACTTAATCTTTGGAATTATAATTTATTGTTCAACACTTTATGTAATATTTATTAAATTAAATTTATGAACTAAAATAAAAGAAAAATTATATCTTGAAAAAGATATAATTACAAAAAATCAAATTGGAGTTTATAAATTAGAAATTAAAAGTATCAAAAAATTAATTAAAGAAATTCCCCATTTAGAGGATTTAGTAGCAATTAAAGAAGAAATTAAAAAAACTTCAAGAAATGACAAACAAAAAATAAAAGATTTATCTTATCAATATAATGAATTAAAAACTTTTCATCATAGAAAACATTTAAAAAATATTGAAGCAATAAAACAATTAATTCATGATGCAATTGAAAATGGGTATAGAAATTATCGATTAAATTCTATTAATGGATTATGAATTAACTTCAATAATCAGAAAATTGGAAAACAATTTGTAGCTTTAGACATAATAATTGAGAAAATAAGTGATTATGATAAAAATGAAAAATCAATCATTTCTCAAGAATGTAAAGAGTTGATTGAAAATACAAAAAAAGAAATAAGTGTTTTAAAAGAAAGTTATCTTGCTTCAAAATTAGAAGCAAAAAATTTCTTAAAAGATTTAAAAAATGAATACAAAAAAAACTTAAAAGAAAATCAGGATACTGAAAAAATTAAAAAAGAATATTTTGAAAGATTAGTGGAGGTGAAAGATAAATATGACAGACTTCATTAGTGCATTGTTTAGTGATACATCTACTTTCTTTGCAATATTTATGTTAGCAGCAATTGCTGGTATGTTTTCAGAAAGGTCTGGAGTTGTAAATCTTGGTATTGAAGGGTTTATGACAATGGGAGCTTTAGGTTATAGTTTATTTGGGTTTGCAGTGCATTCATCTGGTGCTGAAATAAGTCAATGATGACAATTAATTGGATTATTTGTTGGAGCTGTAATGGGAGGATTACTATCATTATTGCATGCGTTTACGGCAATAAAATTAAAGGGAGATCAAATTATTTCTGGTACTGCCATAAATATCTTAGCTCAAGGAATTGCTTTAGTTCTAGCAACTTCAACATTAACAGGTCCAGAAAATTATATTTCAACTGGATTTATGGTAATTGGAATTGGATCAGGAATTAATATAATAATTACACTATACTTAGTTATAGCAATAATTATTTCTTTAATAGTAGGATTTTACTTTACATTTACAAAAACAGGTACAAGACATATAGCAGCTGGTGAAAATCCTCATGCTTTAGATTCAGCTGGAATTTCAGTTACAAAATACAGAGTAGTTTGTATATTGATTTCTGGAATGCTTGCAGGTTTAGCAGGAGCAATATTTGTTGTATCAAGACTATTAGGTAGTTTTGCAGGTTCAGTGCAAGGTTATGGTTATATTTCTCTTGCGATTATGATTTTAGGACAATGAAGAATTAGTATGATTGCTTTATTCTCATTTGTATTTTCATTAATGTTTGCCTTTGGTACAAGATTACCAGTAATTGAAAATGCTGGAAATTGAATGAAAACAAATGGATCACTGTTTAGAATCTTACCATTTGTGATGTCTTTGGTTATTATGATGATTTTTGCAAGAAAATCAAAACCACCAAAAGCCAATGGAATCCCATTTGATAAAACACAGAGATAAAATAATAAAAAAAATTTCTATGGAAATTTTTTTTTATTTAGTTAAAATTACCTTGGTAAGAGGAGGATTATTATTTTGAATATACCAACACCACATATTAATGCTAAAAAAGAAGATATAGCAAAAATCGTATTAATGCCAGGAGATCCATTAAGAGCAAAAAAAATCGCAGAAACATATTTAGAAGATGTAAAACTTGTAAATGAAGTTAGAAATATGTTTATGTATACAGGAACTTACAAAGGTGTAAAAATTACTGTTGCTGGAAGTGGAATGGGTTGTCCAAGTATTGGAATTTACTCATATGAGCTTTTTAAATTTTATGATGTAGATTACATTATAAGAGTTGGAAGTGCTGGAAGTTATAAAGAAGAAATAAAAGTTTATGACATTTTTAATGTTAAAGAATCATTTGGAGAAAACAATTATGCAAAAATTGCTGCAAACATTGATTCAAACATAATTGAAGCAGGTAAAGTTTTATTTGATAAAATAGAAGAAGTTGCAAAGAAAAAGAATATTAAAATTCATAGTGGAAGATGTCACTCATCTGATGTTTTCTATAGATATGAAAATGTACTTGATTTTGCAAAGGCTAATAATTTATCTCTTGTTGAAATGGAAACTTTTGCATTATTTGCAAATGCAAAACTTACAAAAAAACAAGCAGCGTGCTTATTGACAGTTTCAGATAGTTTAGTTACTAATGAAGTAACAAGTGCTGAAGAAAGACAAAATAATTTTATGGGAATGATAGAGCTTGCTCTAGAAGCTTCAATAGAGTTAAAATAGTAAATTAAAAAGCAAAAAAACACCAAAATGGTGTTTTTTTGCTTTTTGGAAAAATATTCTATTAGACCTTTTACTAAACATTAAAATATAGTAAAATTAATTTAACTTTATAAAGGGAGGATTTAAATGAGAATTTTGGCTATTGAGTCAAGTTGTGATGAATTTAGTATTTCAATCATGGATAAAGGAAAAGTTTTATCTAATGTAATTTCAAGTCAAATAAAAGAACACTCCGAATTTGGAGGAGTTATTCCGGAATTAGCTTCAAGATTACATGTTGAAAACTTTCATTGGGTATTATTAGATTCACTTCAACAAAGTAATTCTCAGTTAGAAGATATAGATTATATTTCTTATACATCTAATCCAGGACTTATTGGAAGTCTAATTATAGGAAAATTAGTTGCACAAACTATATCGACGTATTTAAAAAAACCATTGCTAGATATGAATCATATTGAAGGCCATATTTATGGAGCCAATATTGAACAAAAATTTCAATATCCAGTATTAGCTTTAGTGGTTAGTGGTGGTCATACACAAATTCAACTTTTAAAGGAATCATTGAGTTTTGAATTAATAGGTACTACTCAAGATGATGCTGTTGGTGAATGTTATGATAAAGTTGCAAGAGTCTTAGGATTTAATTATCCTGGTGGACCTGTAATAGATAAATTAGCGCAAAATGGAAATGATAAAAAATATAAATTACCAATTAGCAAAAATGATGATAGTTATGATTTTTCATTCTCGGGTTTAAAAACTGCGAGTCTCAATTTGATCAATAAACTTAATCAAAATAATGAAGAGATTATAATTGAAGACTTTTGTGCAAGTTTTCAAAAAACAGCGATTGATACTTTAATGATAAAGTTTGAAAAAGCAATTAAGGAATTTAAACCTAATACAATAACTGTTGTGGGAGGAGTTAGTGCAAATCAAAGCATTAGAAGCATTTTTTATAAAGTAGGAGAAAAATATAATATAAAAAAAGTTATTATTCCAGATTTAAAGTATTGTACAGATAATGCAGCTATGATAGCTGAGCTGACAAATGAGTATTTAGTTAAAGATAAAAAGTAGGAGAAAATTTATGAGATCATTTTTAAGCAAATTAACAACTATTGATGATAAAGATTTAACAATAAAAGAAAAGAAAATTGTTGACTATATTAAAGATCACTTAAAAGAAATTGTTGATACTAATATGAAAATTGAAAGAATGGCACAAGAAGCAGGAACAGGATATAGTGCTATTTATGGGTTACTAAAAAAATTAAACATTAAGGGGTTTAGAGATTTTGCTATTTCACTTGCAAATGATGCAGAAAATCAGGAAATAAATATAGCAAAAAATGACGAAAATGTGGTTTCTGGATATATTAATATAATTAAACAAAACTATGCTTTAATAGAAAAGAAATCAATATTTGATACATTAAATATTATTAAATCTTCAAAAAAAATATTTTTTTGTTATTGAGAAAATTTACTTTCAGGTCCAGCTCAAGAACTTTCTAACTTTTTTTACAAAAGTGGATTTAATGTTTACTTATTAGACAGTGATCAAGAAACAATAAAAGATAGAATTAAAACTTCAAATGAAGATGATATTTTTATTTTCTTTACAAGATATGGTAATTCATCAAGATTAGATAAAGCTATAACTGAATTGGGAGAAATGAAAAGAAAAGTAATATATATTTCAGGAAAAGTAGCGTCAAGTGATATTACAAAATACTTAAGTTCTATTCATACATTAATTGTTGATAATCCTGATAAAAGTATATATAAGGGACATATTTCTAATTCTGTACCCTTTAATTATTTTAATGATTTATTAATTTATCACTTTTTAAATTCAGATAATTAATTATGTAGAAAAGAATATTAAACTATGAAAAAATCAAAAAGACAAAGAAAAAATACATTATTAAATAGTGTTAAAAGAAGTTTTAGAGTTTTCTATTCAGGATTAGAAAAACCTTTTTCTCAATCCTCTTTAAGAGTTTCTAAAAAAGTCAAGGTATATAATAAAACCAAAGAAGATAAAATTTGACTTAAAGAAATTCTTACAACAAATAAAATTGTTAGAAGGTTTTATAAAAGACCAGAAATTGAAGTAAAAGATATTGAAAATTTATCTTCAATTAATTTTAAAGCTAGAGATGGGTTAAATATTTCAGGTTTAGTTTATGAACCTAATAAAAACTCAAATAAATGAGTAATTGCTTGTCATTGATTTGCTGGACATAAAACTTGATCACTTCATCATGCAATGGCATTTGCAAAGATGGGTTACAATATTTTAGTTTTTGACTTTAGAGGCCATGGTCAATCAGAAAATGGTTCTACAACTATGGGTGCTAATGAGCAACATGATTTGATGGGTGCAGTTGATTGAATTAAAGAAAATAAAAAAGTTGATAAACTAGCATTAATGGGAACTAGTATGGGTGCTTTTGTAATCAATTATTGTTCAATAGTATACAAAGAAGAATTTGAAAAATTAAATTTACAATTTTTAGTTTCCGATGCAGGATTTGGAAGTGTCTTTAGATTATTTTTGCATGTTAGAAATATTTATTTATTTTTACTACCAAAAAGAAGAACTAAAAAAGTTATTAATAGATTAATTGAAAAACATAATAGACATGAAAGCAATTTAAATTTGCATAATGCAAGTATATTTAAAGTTTTAGATACAGCTGATCATAAGAGTTTATTTCCAACTTTATTTTTTCATTCAACAGATGATAAAGTTACAAGTTGCTCAGATACTTATGAATTATTATTAAAAAGAAATTGTAAAAAAGATGATTATTTAGTTTTTAACTTTTCAATGCACACTCAATCAGTAAGGTATCACTTTAAGACATACAATTACAAGTTGGCAGAGTTCATTAATTTGTATGAAAAAGATAATGAATTATTTAATCAATTAGTTGAAGATTGAAACTTATTAAAATTTGAAAGAAAAGATAAAATTTCTCTTTTATTAAATTAGTTAATAAAAATAAAAGAGAGTTTTAACTTTCTTTTTTGTATAATAATATTGTAAGAGGAAGTGTTAATATGAAAGATATTAAAGAATTATATTTAAAATATAAAGAAATAAAAAGTATAAATTTAATTGCAAGAGTAAGAAATAATAGACAAGGTAAAGCTGTCAGTTTTTTAGTTTTAAATGATGGAACAACAATTAAAGATGTTCAAGTAGTTTATAAATCTGATGTTAAAGGTTATGAACAAGCCACACAATCTAGAGTGGGTTCAATCATTGAAATTAAAGGTAAAGTAATTTTAACTCCTGGTAAGCAACAAGAGTTTGAAATTCAAGCTGAAGAAATTATTTTATTAGATCAAGCAATTGAAGAATATCCACTTCAAAAAAAAGAACACTCTCCTGAATTCTTAAGAGAGATATCTCATTTAAGAGCTAGAACAAAAACTTTTCAATCTATTTTTAAAATTAGATCAGTAGCAGCATTTGCTATTCATAAATTTTTTCAAGAAAAAAATTATATTTATGTAAATACACCAATAATTACAGGAAATGATGCTGAGGGTGCAGGAGAATCATTTACAGTTACCACAAAAAAAGATGGTAACTATGAAGACGATTTTTTTGGTAAAAAAGCAAGTTTAACAGTTTCTGGTCAATTGCATGGTGAATCATATGCTCAGGCTTTTAAAAATATTTATACTTTTGGTCCAACTTTTAGAGCAGAAAATTCTCATACTTCAAAACATGCAGCTGAATTCTGAATGATAGAACCGGAAATGGCTTTTTGTGATTTAAAAGAAAATTTAGAAGTAATTGAAAGTTTAATTAAATATACAATTAACTATATTTTTGAAACTGCAAAAGAAGAATTAGAATTTTGCAATGAAAATTTAGAAACAGGATTAATTGATAAATTAAATAATGTAAGAAAATCTAATTTTGTTGTAAGTAAATATGAAGAGGTTATTGAAGTTCTTAAACAAGCAGTTAAAAATGGTCATAAATTTGAAGAATCAAATATTGAATTTGGTCTTGATTTGGCTACAGAACATGAAAGATATATTTGTGAGGTTGTTAATAAGTGCCCAACATTTGTAACCAATTACCCAAAAGAGATTAAAGCATTTTACATGAAACAAGATGAAAATAATAAAACTGTTGCAGCAGCAGATTTATTAGTTCCAGGAATTGGTGAATTAGTTGGTGGTAGTCAAAGAGAAGATAGTTTTGATAAAATTATTAAAAGATGTAAAGAAATGGGAATTGAACCTGAGGATTTAAGTTGATATAACGAACTTAGAAATTTTGGATATTATAAATCATCAGGATTTGGATTAGGATTTGAAAGACTTATAATGTATGTTACTGGAGCTTCAAATATAAGAGATGTAATTTCTTTTCCAAGAACACCTAAAAATTTATTATTTTAAAAGCAAAATATTTTTGCTTTTTTATTTATTATGTATTTCTAGAAAAGGTTTTTTGTACTTATAAATTAGTGTAAAATTATTGTAATAAGTAGGGGGTATTCTATGTTAGTTTCATTTGTTCTTACGTGACAAGATATTGAAGAAAATATTGATGCTACATTACAAAGCATTTTAGATCAAAGTGATAATGATTGTGAAATAATTTTAATTGCAGATAAAATGTTAGAAAGTAATGAGCAACTTTCAATATCAAGAAAATATTTTTGAGATATTGAAAATATAAAAATAGTTATAAATAGTTCAATTCAAGGAGCTTCAGTTTGTTGAAATACAGCTATTGATTTAGCTGATGGTGAATATATACATTTTATATCTCAAGGAGATATAATTAATCCTAATTTTATTAGTTTATTAAAAAAAGAATTGGCAAAATATGATAATAAAGAAATTGATGTTTTAGAATATACTACTCAATTAACTGGTTTATCTGATAAATGCATTGATACTCTATTAGAAAAAGGAAAGATTTATAATTTAAATAATGAATATCAACCTTTTGCTTACTTAAGTACTTCTTTATCAAACAAGTTGTTTAAAACTAATTTACTAAAGGAATTTGGTTTCAAATTTAGAAGATTTGTAAGATATGATATGTTATTTGCATATAAAGTTTTAGGTCAAGCAAATTCTTATTTGTTTTTAAATATAAATGAACCTTTAGAAGAAATGAATTTACAAAAAGTTCAATACTCAGTTTTTGATTTAGTTAATCAATGAACTCATATTTTAAATTATTTTAGAAGAATTGGTAAATTTAAGCCTTTAAAAGATTATTTAAATTATGCATATTACAAAACTATGATTCATATATGATTATGAAATATTAAAAAATTTGATAATAAATTACTAATTAAAAAGTCAGCAAATTTTGCAATAAGAAAATTTGAAGATAAAAGAGAAGACTTTATGAAAAATAATAAAGCATTTTTAGAAACAGAAGATGAAAGGTTCAAAGAAATAATAAAAGGGTTTTCATCATATATGAAAAATTTATTAAAATTAGCTAAATAAAAAAGGGAGATTTTTAATGATAAATCAAGAAAATCAAAAAGATGAAAGAGATTCTTTTAGAAATTTGGTTAAACCACATTTAGGAAGAATATTTTTTGCAAGATTTTTTGATATTATTTTATGTTCAATTCCAACTTTACTATTATCTTTTTTAAATCCAATTCACGATTTAAAAAGTTTACTTATTAACATTCCAATAAGTCAAATAGTATTATTTTTTTATTTTGTTTTTTTGCCATACTTTTGCAAGGGAAATACTTTAGGAAAATTAATTTTTAATTTAAGGTTGAAAAAAAGTAATTATGAAAAAATTAAAATGTCAGAAATTTTCTTTAGAGAATTATATTTTTTATATATCCCTTTATTTTTTTTATTAATTATTCAGATTATTATGGGAATTATTTTATTTACTTCTCCAAGAGATTCCAATAATATGATAATCTTAAAAATAATAAATAATATTGGATATGCTTTTTTAGCAATGTGATTTATGTATATACCTTTAACAATTTATTTGCAAAAAGATAATATTTCAGCAATTGATCTTAAATTAAAAACAAGAGTTTATTATCTTGAAAAAATAATTATAATAGAAAAAAATGAGCAAGAGTTTGATCATGTTCATTTACAAAAAAATAAACCAGGTAAAATTAATCTAGAAGAAATAAAAAAAATAATAGGAGAAGAAGATGAATAATTTTGAAAATACAAAAAATAAATTAATAGAGTTTGTCGAAAAAAAATATTTTACCGGAGCAGTTTTAAAAATTAATAGAAATAAAGAAAATATTTTTTCCTTTTCATTTGGTATTAATGATGTAGATAAAAAAACTAAAATGAATGAAGATTTAATTTTTAGAGGCTATTCTCTTACAAAAACTGTAACTGTGGCTGCGTTTCTAACTTTAATTGATAAAAAGATAATTAGTTTAAATGAACCTTTACATAAATTTTTTCCAGAATTTAAAAATATGAAAGTTTTAAATAATAATGAGATAATCGATGCCAAAAAAGAGATTTTAATTAAACACCTATTAACAATGACATCAGGGTTAGCATATTTCGGAAATAAAAATATAACACAAAAAGAAACAACAGTGTTATTATCAGAATTTGTAAAACCTGTTAATGGTGAATTTATGAATTACAAAGAATTTATAAAAAAACTTTCAAAAATTCCTTTGGAATTTGAACCAGGAACAAATTGGAGATATGGACTATCTCTTGATGTTATTGCAGGTGTTATTGAAAAAGTTACTGGGATGACTTATAGAGATTTTGTAAAAGAGGCAATATTTGATAAATTAGAAATGTCTGACAGCGATTTTTATTTAAAAGACAAAAATAGAGAGGCAAAAGTTTATAATTGAAGTTTAGTAAATGATGAACCAATATTAAAAAAAGTTGAGAATTTTAATTTTTTCATTCAAGAGATTGATAAGGTTCCCAAAATGCCAATGGGTGGAGCTGGTTTATTTACAACTGTAAAAGATTATTTAAAATTTTTAGATTTTTTAATTGATGGAAAAGATTCAAAGGGAAATCAAATTATTAGTAAAAAAATATTAAAAGAAATGACATCAGATAAATTAAAGAAATTGAAATCAAATTTTAGATGAACTTTAAATGAAGATTATAGTTATGGTTATGGGGTTAGAGTAAGAATAAAAAATGACAATTTCCCTTTAACTGAAATTGGAGAGTTCGGTTGAGATGGATTATTAGGGTCAATTGGTTTAGTTGATCCATTAAATAAATTTAGTGTTTGTTTAATGTTAAGTTCAAAACCAGGACATAATAAATTAATTGAAAGTGAGTTTTTTGCAGAACTTTATAAAGATTTAAAAAGTATTTAAATTATTACTTTAATTTTTTAAGTTTTATCTTAAAAAATTGATATTATAGAAAAGTTATAGGAGTTATTTATATGATAAAAGAACTATTAAAAGAATTAAATGATGAGCAACTAGATTCAGTAATCACTACAGATGTTCCTGTAAGAATAATTGCAGGAGCAGGTAGTGGAAAAACAAGAGTTATAACAACTAAAATAGCGTATTTAATAGAAAAAGAAGGAATTTATCCACCAAAAATATTAGCAGTTACTTTTACAAATAAAGCAGCTCAGGAAATGAAAGATCGAGTTAATAAAATAATTCCAAATTTGGATAGAAATCCGTTAATTACAACTTTTCACTCTTTTTGTGTCAGAGTACTTAGAGAAGATTGCGAAGATATAGGAATATCAAAGGATTTTACTATTATTGATGCATCAGATCAGGCGAAGATAATTAGAGATATAATTAAAAAACTTGATATTAGCACTGATAAAAATAGACCAGAAAGAAAAATTTTATCAAAAATAAGTAATTGAAAAGCAAAACAAATTGATTGAAATGAAGCTTATGAAGAAACTTTCAATTTTGAAGAAAAAAAATGAGCAAAAGCATATAGAGATTATCAACAATATTTATATGATAAAAATTATTTAGATTTTGACGATTTAATTTTAAAGGTTCATAAACTTTTTAATGAAAATATACAAATAAGAGAAAAATGAAGAAATAGATTTGATTATATAATGGTTGATGAATTTCAAGATACAAATTACACTCAATTTGATTTGGTTAAATGATTAACAGGTTCAAAAAATAATTTAACAGTTGTTGGAGACCCAGATCAAACTATTTACTCATGAAGAGGGGCAAAAGTTAATATTATTCTTAATTTTAAAAATGAATTTGCAAATTCACGTACAATAATGTTAACTGAAAATTATAGATCAACAAAACCAATTTTGGATATAGCAAATAATTTTATTGATAATAATAAAAATAGAGAAAAAAAAGATATTTTTACTCAAAAAAAAGCGGGAGAAATTGTTCAAGTAAAAGAAGTGGCTTCAAGAAATTTTGAAGCAAAATTTGTAACTAAAAAAATTAAGGAATTAGTTGAAGAAAATAATTATAAATACTCAGATATTTTTGTACTTTATAGAACAAATGCTTGATCTCAAGAATTTGAAAAGGAGTTTCAAAATCAGAAAGTTCCATTTCAACTTATTGGTGGATTTAAGTTTAGAGATAGAAAAGTAATTAAAGATGTAACTGCACTTTTGCGTTCAGTTGTTTTTAAAGATGACTTAGCTATGGAAAGAGTTTTTACATTTACTCCTAAAGTAGGAGCTGTAACAGCTTCAAAATTAAAAATTGCTTCAGAGCAATTGAACTTAAACTTATTTGATTTTTTGACATCTCAAAATCAAGAAGTCAATCAAATATCAAAAAATTTAAATGAACTGGTTGCTTGTTTAATAAAAGCAAGAGAGATTTTTGAAGAAAATAAGAGTATATTAAAGTTAACAGAAACTTTAATTAAAGAATCTGGTTATAGAGACCGATTAGATTTAAAAGATAAAGAAGATATTGAAGCACTACAAAATTTAGAAGCTTATTATGACCAAATGGAAAAATATGATAATTATTATAATGAATCTGAAAATGAATTAAATAGAGCAGTCATGTTTCTACAAGAAGAAGCTTTATCAAGCGATGAAGATAATCAAAGCGAGATAAATAAGGTTACTTTATTAACAATTCATTCCGCAAAGGGATTAGAAAACAAAGTAGTATTTATTGTAGGTTTAAATAAAGATGTATTTCCTTCAAAAATGAGTTTTTTATCAATTGAAAATCTTGAAGAGGAAAGAAGAGCCTTTTATGTTGCTATTACAAGAGCACAGGAAAGAGTATTTATATCGTATGTATCTGGAGAATATTCTTATATTTCTAATGGAGAATTAGGACCTTCAAGATTTATTCAAGAACTTAATCCTGAATTATATGAAATTGAAAAAAGTATTTATTTTCACTCAAATACTGATGTTTCAAGTACTTATAAGGGAAAAGCAAATTTAGAGTTTAGACCTGATAAATTAGAAGCTGGAGTTATTAAGGGAGATAAAATAAAGCATATGATATTTGGAGATGGACTAGTTGTTAAAGTTATTGATAGGTATATCTCAGTGGCATTTTCAGACCCCAAACAAGGGGTTAAAATGATACCAATTAGCTCTAGTGCATGAGAAAAAATATAATAATTTTAATTAAAATTTAAAGCAATTTTTTTATTGTATATGTAACATTTTTATATACAATAATATTGTTAAGGAGGATAATATATGACTTCATTCACAGCTAAAGTAATTGATCCAGTAGGATTACATGCCAGACCTGCATCAGTTTTAACAAAAGAAGCATCAAAATATGCATCAGAAATTAAAATAAAATGCGGAGATAAAGAAGGTAATTTGAAATCAATTATGAACGTTATGGCACTTGCAGTAAAAACTGGTGCTGAAATTACAATTGAAGCAAATGGCGAAGACGAAAGTGCAGCTATTGAGGCAATTGAAAAAGCAATGAAAGATAACTCAATTATCTAGTATTAATAAGCCTTTTTATAAGGCTTTTTTTTATTATTAACATTTTTTAGAAAAAAAATCTTATTTAGTTAAATTAAATGAATTATTTTCTTAAACTTTTTTGAAAAAACTATACCTTTTTTTTCCTTTTTTGGTTATAACATTATAGAAATAAAAAAACATTTCACATAAAAATATCTTCAAATTTAACAAAAGATTTAAATTTATAAATTAACTGAAAAAGTATAAATCAGGAGGTTTATAATAATTAAAGTTAAAAGGATATTTATATTAGTCTTTTCATTGGCTATAAAAAAAGACTAAAATAGCATTACATTAGCCATAATATAAATATTGTATTTTTTGTTTCACTTAATATTTATTTACTAAAAAGTTTTAAGTGAAATCACTTACTTTTCTAGGTAAAATTTTTAACAACAAAACTAGGCACAGTTTCATAATTATAGGCGCTTGTTATAGCGCATTATTCTATAAAAAATAGAATTAAACGAAAGGCGATATATAAAATGGCAAAGAAAAAAAACCAATATTACTATGATTCACTTTCTCCGATTGAATTTGCTTTAAATAAGTTTAAAGGAAGAATGAGATCAGTGAATTGAAATGTAATGAATGACGATAAAGATTTAGAGGTTTGAAATAGAGCTACACAAAATTTTTGATTACCTGAAAAAGTACCAGTTTCAAATGACTTAGTTTCTTGAAAAACACTAACTCCTGAATGACAAGAATTAGTAACAAGAACTTTTACTGGACTTACTTTATTAGATACTATTCAAGCAACTGTTGGAGATGTTGCTCAAGTTCAAAATTCATTAACAGATCATGAGCAAGTTATTTATACTAATTTTGCATTTATGGTAGCTGTTCATGCAAGATCTTATGGAACAATTTTTTCTACATTATGTTCAAGTGACCAAATAGAAGAAGCACATGAATGAGTAATTAATTGTGATAGTTTGCAAGAAAGAGCTAAAGCATTAATACCATATTACACAGGAAATGATCCATTAAAATCAAAAGTTGCAGCAGCACTTATGCCAGGGTTCTTACTTTATGGAGGATTTTACTTACCGTTTTATTTATCAGCAAGAGGTAAATTACCAAATACATCAGATATTATAAGATTAATTTTAAGAGATAAAGTTATTCATAATTATTACAGTGGATATAAATATCAAAGAAAAGTTGAAAAATTATCTCCTGAAAAACAAGCAGAGATGAAAAAATTTGTATTTGACTTATTATATGAATTAATAGATTTAGAAAATAAATTTTTATATGAATTATATGACGGGTTTGGTATTGCAGAAGATGCAGTCAGATTTAGTTTATACAATGCAGGAAAATTTTTACAAAACTTAGGATATGAATCTCCATTTACAGAAGAAGAAACTAGAATCGAACCAGAAATATTTACACAATTATCAGCAAGAGCTGATGAAAATCATGACTTTTTCTCAGGGAATGGGTCATCATATGTTATGGGTGTAACTGAAGAAACATCTGATGAGGATTGAGAATTTTAATTAATGCATGATGATGTTATTAGAATATCAAATAAAGATATTAAAAAACCAAAGGGAAAAGTATTTGTTGTATACTTTTCTTCAGTCTCTAATAATACCCATAGATTTATGGAAAAACTAGATGTAAATGATGCAAGAATTCCCTATGAATTAGATGATCAATTAATTGTTCAAAAGGAATATGTTTTAATAACTCCAACTTATGCTGGAGGCGGCGGAGACACAAAGGGTGCTGTACCAGTTCAAGTAATTAGATTTCTAAATAATGAAAATAACAGAAATTTATGTAGAGGAGTAATAGCTTCTGGAAACACTAATTTTGGTGATACGTTTGCAATTGCAGGACCAATAATTTCTAAAAAATTAAAAGTTCCTTTACTATATCAATTTGAGCTTTTAGGAACAGTAAATGATGTTGAAACAATAAGAAAAATCTTGGAAGATTTTTGAGAGGAATAAAATAATGAAAAAAGATAATATAAAAAATCTTTCTGGTACAAATGAATCAGATGAATATATAAAATTGAATGCCAGAGCTAAATTGTTTGTGCCTGGTCAAGATAACTTTAAATTAGATATTCAAGCTGCAGAATTATATATGAAAGAGCATATTGAACCAAATATGATGAAGTTCTCAACTACTAAAGAAAGAATAGATTATTTAGTAAAAAATCAATATTATGATGATGAAGTTATTAAAAAATATACAATAAAGCAAATTGATGAATTAAGTAAATATGCATATTCATTTGACTTTAAGTTTCCTAGTTTTATGGGAGCTTTAAAATTCTTTAACGCTTATGGTTTAAAAAGTTTTGATGGAAAACAATATTTGGAAAGTTATGAAGATAGAGTAGTTTTAAATGCGTTATTTTTAGGGGGTGGGAACTTCGAAAAAGCTAAAAATATTTTAAAGCAAATTATTTTAGGAAGATTCCAACCAGCAACTCCAACATTTTTAAATGCAGGTAAAAAACAAAGAGGAGAATATGTTTCTTGTTATTTACTTAGAGTTGAAGATAACATGGAATCAATTGCAAGAGCAGTAACAACATCTTTACAATTATCAAAACGTGGAGGGGGAGTTGCAATTTGTTTAACTAACCTAAGAGAATTTGGAGCTCCTATTAAAAATATTGAAAATCAAGCAACAGGTGTAATTCCTGTAATGAAAATTTTAGAAGATTCATTTTCTTATGCAAACCAATTGGGGCAAAGACAAGGAGCTGGAGCTGTATACTTAAATGTTCACCATCCAGATATAATGTCATTCCTTGATACAAAACGTGAAAATGCTGATGAAAAAATAAGAATTAAATCTTTATCATTAGGAGTTGTTGTTCCTAACATTACTTTTGATTTAGCAAAAGAAAATAAAGATATGGCACTTTTCAGTCCATATGATGTTGAGAAAGTTTATAAAAAACCATTTTCAGATATTTCTGTAACTGATGAGTATGAAAATATGTTAAAAAATAAAGATATTAAAAAAACATATATTAATGCTAGAAAGTTATTTCAAGCAATAGCAGAATTACATTTTGAAAGTGGTTATCCATATTTATTATTTGATGATACTGTAAATAACAATAATGCTCATCCAGTAGCTGGAAGAATTGTTATGAGTAACTTGTGTAGTGAAATTGTTCAAGTTTCAACTCCAAGTGAATATAATTCAGATTTATCTTTCAAAAAAACAGGAGAAGATATTTGTTGTAATCTTGGAAGTATGAATATTGCAAAAACAATGGAAAGTGGAGAAGAGTTTTCAGAAGTTATTTATAATTCGATCCTTGCTTTAGATCATGTTTCAAGAAATAGTGATTTATCAAGTGCACCATCAATTGAAAATGGAAATAAAAATAATCATGCTGTAGGTTTAGGTGCTATGAATTTACATGGATTCTTATCAGTAAATCATATTTATTATAATTCACCCGAAGCAATTGACTTTACTAATATGTTTTTCTATACAATGGCTTTCCATGCTTTTAAAGCTTCGAATAGATTAGCAAAAGAATATGGTTCTTTTGCAGGATTTAAAATTTCAAAATTTGCAGATGGTTCATATTTTGATAAATATACTAAATGTGAAAATAACAAATTTATTCCTCAATCAGAAAAAATTAAAAATTTATTTGAAAAATACAAAGTTTCAATACCAACTCAAAAAGAATGAATAGAGCTATCAAATGAAATTAAAAAAACAGGATTAGCTAATTCACATTTAATGGCAGTTGCTCCAACAGGTTCAATAAGTTACTTATCATCTTGTACACCAAGTTTACAACCAGTAGTTGCACCAGTTGAAGTTAGAAAAGAAGGAAAACTTGGAAGAGTTTATGTTCCTGCTTATAAAATTGATTTTGATAATATGGGTTATTATTCATTAGGAGCATATGAAGTTGGTCCAGATCCTATTATTGATATCGCAGCAGCAGCACAACAACACGTTGATCAAGCAATATCATTAACATTATTTATGACTGACCAAGTAACTACAAGAGATTTAAATAAAGCTTATGTAAGAGCCTTTAAAAAAGGATGTGCTTCAATTTACTATGTAAGAGTACGTCAAGAAGTTCTTGAAGATAGTGAAAATTATGAATGTGATGCTTGTGTTATTTAAAAAACCTTAAAGGTTTTTTTTATTTTCATTTTTATTGTAAAAAGTTAAGTTAAATAATTTACAATATTACAAAGGAGAAAGTTATGATAGAGATAAAAAACATAACCAGAAAATTAGGGAATTTTGGTTTAAAGGATGTAAGTTTTACAATAAAGAAAGGTTCGGTTGTTGCCTTTGTTGGTGATAATGGTGCAGGAAAAACTACAACAATTAAAGCTCTTTTTGGTGAACTTAAATTAGATAGTGGAGAAGTTTTAATAGATGGTGAGAATTTATTTAAAAATAATAATTTATCAAAAGTAGCATTTTTTCCAGATTCAAATAATGTACCTTTAGATATAAAAGTACATGAGTATCTGCACTATATATGTGCTGCAAATAATATGAATAAGGAAAGAACTGAATTGAGTATTGATAATGTTTATAGATTATTAGAACTTAGACCATATAAGGATAAAAAAATAAAGCAACTTTCTTCTGGGTGAAAAAAGAAAGCAATTATGGCAAGTGTTTTAGTTCGTTCACCAGAATATATTATTTTTGATGAGCCAACAGCCAATGTTGATGTTGAATCAAAATTATATTTTATGAATATTTTTAAACTTTTATCAAAAGTAGGGATAACAATTTTAATTACAAGTCATATAATTGAAGAACTACAAGAGTTAGCTAATTATTTAGTTTTAATTAAAAAAGGTCAAATAGTTTATGCAAATGATTTTGATAGAAAAAAAGAGCACATAATGGATGTTTATAAAAGACATATGAATGAGCCAATTAAGGACTTACATATTCTAAGAGACTTGTATAAAAATAAAAAGGAAAGAGAGTAATATGGAAAATTTAGTAGTAAATAGGAATAAGAAGAATTTTAGAAATTTTACTTTGCTTTATTCAATTAATTTAAAACTAAGTTTAAAAAACATTGGTTCTATTATTAGTGGATTAGTTTTTTCATTAGTAACTATAATATTCTTTATAACTGAATATTCAAACATTATTGATAAATCAAATATTTCAAGTTATACTTCATTAAAATATTTAACTTTCTTATTTGGGGGAGCAACATTAATTTTTCATATAGTATTAAATTCATTATATTTATTCAAAAGACAAGTAAAAGATGGTATATCTTCAATTGAATTAAGAGCAGGGTATAAAACTTGAAAATCTTATTTAATTAGAGTTCTTATTACTTTTACTGTGGCTTGTATTTATATAACAATACCCTTACTATTTGCAATTATTTTAAATTTAGCTAATTTAAGTGATAGTACATTTTTCTTCAATTTACATTATTCACAAATATTTTTCTTTTACTTTTTAGCTTTTTTTTCAACAATTGTTTTATCTTTAATGATGGTTGTTTTTAAAACTTCATTAGCAACTCTATTTTCAATGATATTTATGTTCACTGTAGTTTTAGCACCAATGTTTGCATCATTTAAATTTATTATGAGTAGCTCAGATTTTTCTAACTGAAAAACAAATATTAAAATGTTAGGGGCCCAAGATTTCTATAATACTTTTAAAAGTGATAATGAACTATTTGATGATGATGAAAATGAAGGACAGTCTAAGTCTTTAAATGGAATACATAAATATTTAAATCAGAGTTTACAACCATTAAATAAATATGAAAATATTGAAGAAAATAGTGAAAGTAAATTTAATTATAAAATAATTCCTGATCAAAAATTTTTCCCTGCTTGAAATTCAAAAAAATATTTAAACCAAAATGAATTTACTTCACAAGAAAATTTTAATTATGAAAAAGCAACTCATATTCTTCTTAAGAATATTGGTTTTGGACAAGTATATTATAATTTTAATGTTTTTGATGATAATACACATGAACAGAAATATTTATTAGAAAAGACTCCCATTTGAAAGATAATTGAAAAAATAAATAGAACAGCATTAGAAAATAGTGAAAAGCTTATTGCTCAAAATGAAAATGAAATACCATCAATATTTGTTAAGAAAACTTATTCTTATGTAAATAATGAAGTTAATTCAAAAGATATTAATATAGAAAATTTCTCAACTCAAATGTCAAATATTTTACCAGAGTATTCAAGTATGTTTTCATTTATTCAAACTTTTTATAATAAAAATAAGACTGCAATTTTAGCTGATAATAAGAATCCATATTCATCAAGTAATTCTTTTTACAATGATATTTTTGACTTTGCTCTTGTAAATACTAGAAATAAAGATTATAGAAAAACTTTAAATTTCTTTTCTTGAAAAAAAGTCTTTGAATCAAACAATAAAAAGTCTTATCAAAATGTTACAGATGACTTTTGTAAATTAACTGTATCAAATAATAGTGACGGAGAACCTTTAAAATTATGTATTAATCAAGAAGTACAAAAACAAAATGATGAAATGGCAAAAGTATATAAAAAATTTCCTGAGTTAACAATTATTAATGCATTAATAATTAACTTATGAAAAGAAGCAATGGAATTTGATGTTGTAAGACCTTCAGGTTGATATTCTTCAAATTCAAGTATTGATGATGGACTTTATTTATATTTTAATGTAGCTAAAAAATCTAATACATTGACTACAGATATATCTAGACATTTTGCAGCTATGTCAACAGGATTATTCTCTTCAAGATTATTAAATGATTCATATAATTCTTCAGGAACTATTTTTTATCAAGGACAATTTTTAAATATAAAAAACATTTTTGATTTTGAAAACTTTAGTTCTGAAAATAAAGAACAAGGTAAAGCAATGAAGCCAATTTATGAAAAACTTAAAATAAAAACCTCGACATCATTTATTATACCTCTTGCGTATTTTATATATATATTAATAATTACACCACTTGGTTATGTTGGTTATTTAGCTTTTAATAAAAAAGCTAAATTATAGAAAGGAGCTTTAATATGATAGAGATAAAAAATATTACTAGAGACTTGGGTGGGTTTGTTATTAACCAAGTTAGTTTTACAATAAAGAAGGGTTCAGTTGTTGCTTTTGTTGGTGATAATGGTGCAGGAAAAACTACAACAATTAAAGCTCTTTTTGGAGAGTTAAAATTAGAGCAAGGGGAAATACTAATGGATGGTAAAAGTATTTTTGATGAGCAAAATCTTCAACGAATTGCTTTTTTTCCAGATTCAAATAGTGTTCCATTAAATATGAAATTAAAAGATTATGTTGCATATATTTGTGCAGTTAATAATATTTCAAAAAAGGAAGCAAAAGAAACTGCTGATAAAATATTTAAAATGCTTTCATTAGAACCTTATATAAACAAAAAAATTAAAAGTTTAAGCGCGGGTTGAAAAAAAAGAGCAATTATGGCAAGCGTTCTAGTGAGAACACCTGAATATATTGTTTTCGATGAACCAACAGCCAATGTCGATGTTGAAGCCAAATTATCTTTTATGAACATTCTTCATGAACTTTCAACAATAGGAGTAACAATTTTAATTACTAGTCATATTCTAGAAGAATTACAAGAGGTTGCAAATTATGTTGTTTTTATCAGAGATGGAGAAGTTGTTTTAGAAAAAGATTTTGATAATAAAAAAGAATCAATTTCACAATTATATAAAGAAGTTATGGCTGAAAAAAATAATGGTGAAAAATTATTAAAAGAAATTTATAAGAGTAAGGAAATGGTGGATTAGTATGGAAACAATTAAAACAAAAGTTTTAAAAACTAAAAAGCCAAAAGAATTTAATGGATTTAAAACTTTATATCTTATAAATCTTAAAAGATTACTTAGAAATAAAGCAGTGTTGGCTACTGCAATAATTTCAATTATTGTAACTTTAATACTTTCTTCATCTGTAGCTGGTTTATTGAATACACCAATTAATGCTTTTGAAATTGGTGTAATTATTGTTTCAATTTCATTTATTTTTGAAGTGTTTTTCTTTATTGTGTTTATGATTATAATGTCTACCGAACTTATTAAAAAACAAATGCAAGATGGAATTCAAAATATTGAAACACGATCTGGTATTAAATTTAATAGTTCTTTCTTATTAAGATGATTTGTATTTATTACTTTTGTTGGTGGAATTGCGCTTATCAATTCAATTTTAAAAATAATTATTGCATCATCAATTGTTTTAAAATTTGATTTAATATCGGGTATTGTTTTAAGCACATGTGTCTTTTATTTCTTTTTAACTATTGTTTGAAGTCCGATAGTATTTTTAGTAACAATTCTATGCTCAATTGCTTGAAGCGTAATGATAAATATATTAATTGCGATGATTCTTTGTTTATCTGGTCTTTTCTCTTCATTAAGTTCTATGACAGATTTTACAAGAATTAATAATTATGATTCTGTTATGAAAACAAATATAAAAATAAATATTTCTAAATCATTTTATGATAATTTCAAAGATGACAAAGCTGTAAATTCAATTTTTATTGATTCAAAAGCAAATGAAAAAAGTTCATTGTTTTTAAATCAAATTCAGACTAATTTAGAACTAGAATCTTTAAATGCGCAAGATATTAATTATTATAATTTATCGAATTTAGGACAGAGACAAGGATTAGCATTTGACAGTCTAATTGCTGCTTTATATGGTGGTGGTGCAAATATTCATTATGCAGAGGTAGAAATAACTGAGCCAGAAGATACAATTAAAAGTGAAATTGCAAAACCAGTTTTACAAGATACAGAGATTTTTAAAATTTTAAATGAAATTTACCAAACTATATTGACTGGTATGAAATCAAATAATAATAAACCAACTATATCTAGTCCTGGATTTAAAGGTGGATATTTAGATGAATTATATGGAGCTGAATCAGGGTTTCACAATTTATCTCCTTTGATTAAATGATTAAAAAAGCAAGAAGATACAAAAAAATATTCTGCTTTATTGGATTGAGTTAATTCTATTTATTCTAAATATGCATTTATTTTAACTGGAACAAAAATGATGGAACAAAATAGAACTTATATTTTCGCAAGTGATTTTGATGAGTTATGAAAACTACTTGAGAAAAAAGAAACTGTAGTGGAAAATTCTCAGGTTCATAAAGTCTATAAAAGATATCCAGAATTATTGATTATTAATAATATAATTACAGAGGCATGATTAAATAATATGCTTTGAAAAGCAGAACTTTATAACTCAGTTTGAGGATTGTCAAGTGAAGAGTCTAATTTTAATGATGCAGCTCAAGCATATCAAGCATATCAAGGTTGAGCCAATGAATCTATTTTAAAAAATAATATTAATATCTTTCAGCACTTTTCAATAATGTACAGTCAATTATTCGGAAGTGCATTTAATAAGGACTTAGTTTTTTCAAAATCAGTGCTAGCATATTCAGGAATAACAAATGGTTATACAAATTATTCGGAGTTAGCAAAATATGATTTAAGTGAAAATAAAAGTAATGAAGCATTAACTCCAATTTTTGAAAAAGCTAATTTAAAGAAAAAGTTTGGGTATAATGTAGCAGTTAGTTATTTAATATATTTACTTGTATCATTTGGTTTAAATTATTTGGTTTATTTAGTATGATCAAGAAAATCTAAAATTTAAAAACATCATAATAGATGTTTTTTTTTTTTTTTTTAATTTGTATATAATAATGAAAAAGGAAACTAATTTATGGAAAATAATTTCTTTGTTAGATATATTGATGACGAATCTTTAATTGAATATAAAGAGAAAAAAGAATTTAAAAAAAGTAAAGGTTTTTTTGGACTATGATTTTTCTATTGAAAAAAATATAAAGTTAAATCTATTTTTGCAATAATTTTTATACTTTTAGTTTCTGGTTTTTCAGTATTTAATATTCTTATTGCAAGACAAATCACTTCAATTTTAATTGGAGAGTCTTTAATTGAAACTTTAAATAATAAGGAACTACTATCTGAAATCATAACTGGTTTAATTCCTCTAGTTGGTGAAGAAAATGAAAAATTATTAGAGATGATAAATGAATTTCTAGCAAGCAATGATTTAGAAATGCCTAAGGAATTAGTTAATAATATATTGCAAAAATTTTATTTTGATTATTTAAGCTATGATGGTAAAAATGTTGTAGCAATATTTTTTGGATTATCTATTACAAAAATGCAATGAGTTTATATTTTATTAGCAACAATAGGATTAGTAATAGTTTGTATGTATATTGCATATTGTTTTTGTGGAATTATAAGCGAAGAATCTCAAACAGATTTAAAAAATAAATTAATAAAATCTTTATTAACAAAAAATGTAGATTTCTATAATAAGAATTCACAGGGAAAAATTACAGAGACAATAGTTAAAGATTGTAAAAATATAGCAGAGCAATTAAAGGTAGCTCCAATAATTTTATTATTTATTGTTTTTTCAACAGTTGGTTCAACTGCAATGCTAATATATATTGATAAATTAATTTCTATATTAATGTTTAGTCTAATATTATGCGTAATGCTAATTGCATTATCTGTTGTTTTATTTATTGCTAAACCAGTAAAAAAAAGTATGGATGCTAAATCAAAAAGTGATTCTGAAATTACTGAAAAAATATCAGCAATACGATTAATTAAATCTACTGGAACTTGGGAAAAAGAAATTGAACATTTTAATCAAGATAATCAAAAACAAAATAAGTATAATCGAAAATTGAATTATGCAATATCTATAATTCCTGGAATTATTATTGGTGCAATTGGGTGTCTTACATTATCTTCTATTGTTTTTGGAGTTTTCATTTATGCAAATGATACAAGTAAATTGATAACAGTATTTTCTACATTCACTGCAGGTATTTTTGTAATGGTGACACCAATTTTTCAATTAAATACTATTTTGCAAAGTATTAGTTCAACAAATAAATCTTCACAAAATATTGCAAGTATAGTAAATGATGAAGATAATATAATTGAAATTGAAAATCCAAAGTTCATTAATAAAAAAGGAATTGAGAGTATAGTTTTTGATAATGTTTCATTTGCTTATCCATTGTCTCCGGAAAGTAATATTTTAAATAATTTATCTATAAGTTTTGAAAAGGGAAAATCATATGCTTTTGTAGGTCCATCTGGTTGTGGTAAGTCAACAATAACAAGATTACTTTTAAGATTTTACGAAAATTATGAAGGTTCAATTAAAATTAATGGAGATATGGAATTAAAAGATATTGAATTAAAGGACTGGCTTGAAAATATTGGTTATGTAGATCAAGAACCACAAATTCTTTCTGGAACTATTAAAGAAAATTTACTATATGTTAAAAATGATGCTACAGATAAAGAAATTATTGATGCATGTAAAAAAGCAAAGTTACATGATTTAATTATGAGTTGAGAAAAGCAATATGATACTTTTTTATTTGAAAGAGGAAAACAACTTTCAGGGGGACAAAAGCAGAGGCTTGTAATCGCAAGAACATTTTTAAAAAACCCAAGTTTAATTATTTTAGATGAAGCTACAAGTGCATTAGATAATTTAGTTGAAAAGGAAATTTCAATTGAGCTAGATAAGCTTATAGTTGGAAAAACAACAATAACAATAGCACATAGATTAACTACAATTAAAAACTATGACAAGATCTTTGTATTAGATTCCTTCAAAAAAATTGCTCAGGTTGGAACCTTTAATGAACTAATAAAAAAAGATGGTTTATTTAAAGAGTTATATGAAGTAGATAAAGGAGAAAGTTAAAATGATAAAAATTAAAAATGCTTTTAATGCAAAAAATAATTGAAAGACAACTATTATTTTATTTATTTTTTTATCATTAAGTTCAATTCTTATTTTATTTTTACTTCCAATGGTTTTTGAAACACAAGATGGAGAATTAATAAAATTAAATTTAGTTGGGAAAAAAGAAAATACAATTTCTTTTGCACAAAAGGAAATACAAAATGATCAAACAAAAATTCTATGAGATTTTGATTATAGTTATACTTTATTTACATATCAAAATTTATGAGCTTATTTTGGTTGATTCTTTTTAATTTTATTGCTTACTTTAAATCATTTTACTCTATTAAAAAAAACAAGAGGCACTAGAAGACTTGTAAGTTCATCAATTATTTTAGTTGCATCATTTTTATTATTAATGATTACAATAAATTATATGGTTGCATATTCTCAATGAGTTGATGCTTATGGAAGAGTTTTAAAAAAGGTTTTAAAAAAATCAAGATTAGGTAAATTAAAACAAGCCTTAATGTTTATTTTCTCAGTCTTTTTTATTATTATGAGTTCTTATAATATTTATGTAGAAAAAAAAGTAACTTATAAAGTTGTAAAAAGAATAATAGAAAAACAAAAACTGATTGAAGTTAATAATTAATTTTTAAAGCGTTTTTAATAATTTCAAATTGAAACAATAATTTAAAACATACATAGTAATTAAAAACTCATTTAATTAGTTACTTTTTTTATATGCTCTTTACACTCTATATATACAATATTTGTTATAATATATTTGTTTTAAAGGAGAGATTTTAATGTCTAAAAAAATGTCAGGAATTGGAGCAAGTAATGGTATATCAATCGCTAAGGTTTATATATTAGATGAGCAACCAATAAAAATTTCAAAAGAAATACCAAAAAATATTGAATCGGAATTAACACTTATTACATCATCTATTGTAAAAGCTAAAACTGATTTAGAGAATTTGCAAGTAATTGCAAAAGAAAAATTAGGGGAAGAGAAAGCTGCTATTTTTGAAGCTCATGCTTCAATTTTAGAAGACCCTGCAATGGCAGAGGAATTTACAGCTTTAGTTAAAGAAAAAAATTATAATGCAGCAAGAGCAATCAAAGAAGTTGCAGATAAATATATGTCTATGTTTGAAGCTATGGATGATGATTATTTTAAAGAAAGAGCTGCAGATATTAAAGATGTTACTGAAAGATTAATTAGATATGTTTTAAATATTCCACTTGCAGATTTAGCAACAATTAATGAAGAAGTTATTATTGTAGCTGAAGATTTAACACCTTCACAAACTGCACAATTAAATCCTAAATTTGTAAAAGGATTTGCTTGCAATATTGGTGGAAGAACTAGTCATGCTGCTATTATGGCAAGAAGTTTGGAAATTCCAGCAGTTTTAGGTTTAAAAACTATTTTACATGATGTAAAAGATAAAGATGTTTTAGCAATGAATGGTGAAACTGGTGATGTTGAAATCAATCCTTCAGATAAAAATAAATGAAAAAAATTAGCAGAAAACTTTGAAAAGGAAAAAGAGGAATTAAAAAAACTAAAGGATAAGCCAACTCTAACTAAAGATGGATTTGATGGATTTGTTTTGGAAGGGAATATTGGAAGTCCTAAGGATGTTGAATCAGTTCTTGAAAATGGTGGAGAAGGAATTGGTCTATTTAGAAGTGAGTTCTTGTATATGGATAATGACCATTTTCCAACAGAAGAAGAGCAGTTTATTTCTTACAAAAAAGTTGTTGAAGAAATGAAAGGTAAAATTACTATTATTAGAACTCTAGATATTGGGGGAGATAAAAAATTATCATATTTTTCATTCCCACATGAAATGAATCCATTTTTAGGATATCGTGCTATTAGATTTACCTTAGATAGAAAAGATATTTTTAGAGATCAAATAAGAGCTTTATTAAGAGCAAGTGCTTTTGGACCAGTAGGTATTATGTTTCCAATGATAGCAACTATTGATGAATTTTTAGCAGCAAAAAAATTTACATTGGAATGTAAAGCAGAGTTGACAAAGGAAGGTCATAAAGTTGGTAAAGATTTACAAATTGGAATGATGGTTGAAATTCCTGCCGCTGCAGTTAATGCTGATAATTTTGCAAAACACGCAGATTTCTTTTCAGTAGGTACAAATGATTTAATTCAATATACAATGGCAGCTGATAGAATGAGTGAAAATGTTACTTACTTATATCAACCATATAATCCTTCAATTTTAAGATTACTAAAAATGACAATTGATGGTGCACACAAACATGGAAAATGAGCAGGAATGTGTGGGGAGATGGCAGGAGAACCTGATGCGTTACCATTACTAATGGGATTAGGTCTTGATGCTTATTCAATGTCTGCAACAAGTATTTTAAAAGCAAGAAGTATTATGTCAAAATTAACTTTAAAAGAAACACAACAATTGGCAACTAAGGCATTAGAATGTGAAAATTCAGATCAAGTTTTAAAATTAGTTAAAGCAGTAATGAAAGATAAATAATTTAAATAAATGATTCATAAGAATCATTTATTTTATTTAAAATAAATAATAATAACATTTTTTTGTTATAAAATAATGAGTGAGGAGAAGGTAAATTATGGGATTATTCACAAAAAATAAAAAACTAGAAGTATTTGCACCAGTTGATGGTGAAATTATTGACTTATCAAAAGTTGAAGATGAAGTATTTTCAGAAAAAATGTTAGGAGATGGAATTGCATTTATTCCCGAAAATGGAGAATTTGTAGCACCAATAGATGGAAAACTTGTAACAGTTTTTCCAAGTGGTCATGCATATGGAATTTCAAATTCAAATGGTGTCGAAATTTTATTACATATTGGATTAGACACAGTTTCTCTAAATGGTGATGGTTTTGATATTAAAGTAAAACAAGGAGCAAATATTAAAGCTGGAGAGTTGTTGGTAAATGTAGATATGGCAAAGGTTTCTAAAAAAGTACCTTCAATGAATACACCATTAATATTTACAACTGATTCAATGAATGGAAGAAGTTTTGAAGTTTTAAAAACTGGTAAAGTTAAAAAAGGTGATTTAATAATTGAAGTTAAATAATATTTTTTATGAAAAGCCCTATTAGTTAGGGTTTTTCATTTTTTTTGGAGTAAAATAAAAAAAGGTGATTTAATGAAAGAAAAGATAACCAAATTAAGAGATAAGCATTTTAATTTAAGTGAAGAGACAAAATTCAGATTTGACCTATTAAATTACAAAACAGATGGAATGATTTTTTTAACTTCTGTACTAATAGTGCCTTTTGTTTTGTCTTTATTTGTGTCTTATTTTGGTTATAATAACAATGAAGTCTTTGCTCTTTTATATTTAGTATCTGTTATTGTGGGAATGGTTTTTAATATGCTTAGAAATGGACCTGGTTTTTTTAAAGGAGGCTACTTTTGAATTTATCTTTTAATTATTGGTCCTCAAATTGTTTTCATTTTTACAGGACTTTTAATGTCATTATTTAATTCTTCATTAAATAATGACCCAAAGTTAATATCAGCATTTTCATCTATAATTACTATGATATTGACAGAAGTTATAATTATAATTTTGGCTATAATTTATGATAGAAAAATCTTTAAGAGATTTAAAGAAACTTTAAAAACTAAATGAAAAGAAGTTATTGTAATTGCAGTAGCAGGGACAATAATATTATATTTTGTTTCAACATTTATATTTTTAAATTTAATTGAGACTAAATTAATGGGAGCTTCAGAAAGTGAAAATCAAAAGAATTTAATAGGGATATTAAGAGATAGCGATAAATCAATTACTATAGCATATGTTATACTATTATTTATCCTTACTGTTGTTGTAGCTCCTTTTTGTGAAGAGTTATGTCTTAGAAATTCTTTCAATTTAAATGCTTCTAATAGATGATTAGGATTTGTCGGTAGTGCAATGTTCTTTGGTTTTGTTCATTATGGACCAACTTTTGATTTTGGACATATATTGAGTTACTCTGCAGCGGGTTTTATATTATCGGGAATATTTTTATTTACAAAAGGTAATATGACTTTCTCTTGAATAGTGCATTTGCTAAATAATTTATTGGCATTTATTTTAATATTAATTATTATTTAAAAAAAGAAAAACGAGGTTGTTATGACAATAATAAAAGTGAACCAAAATGATGTTGATCAAACTATTTTTAATTTTATTAAAAAAAATTTTAAATCTACAAATTTATCAATTATTTATAAATGATTTAGAAAAGGAAAAATTAAAGTTAACGATATTAAAGTTAAAGATACAAAGCAAAAAATTAAATTAAATGATGAAGTTAAAATTTATGATAGTAGTGAAACAGAAAAAAGAGATCAATTTATAGAAATTGATTTTTCTGATTTAGAAATTATTTATGAAGATGAAAATATTGTTATTGTTGATAAACAACCAAATCTTGAAGTTCACTCACCAATAAATATAAATTTAGATCAAAAAGTGAAAAGCTACTTAAAAGATAAAAAAGAGTATAATCCAGATTTAGAAAATAGTTTTGTAATAAGTCATGTTCACAGAATTGATAAACTTACAAAAGGTTTAGTTATTTATGCAAAAAATAAAATTACTCTAGATATTCTTTTAAATGAATTAAATAATAAAACTAAAATTAAAAAACTATATTTAGCAAGAACAGAAAATAATAATTTAGAAACAGGAAAAATATCAGGATACATTAAATATGATAATGATAATCAAAAAGCTAAATTTAGAATTGAAAAATTCAATAATGCTAAAAAAGTTGAACAAATAAATAAGATAATTGATGAGCAAAATAACATATATGAAATTCAAATATTAACTGGAAGAAAACATCAAATTAGAGCTGTTTGCAATTTTTATAAATCACCAATATGTAAAGACTTTAGATATGGTGGCAAAAGAAGTCACCTAAGAGAAATAGACTTAATTGCTTACAAAATAATTTTCAATAATTTTGACGGTCATTTAGAATACTTAAATGGTAAGGAATACAAATCAAAATATAATTTTTAATGTTAAAATTAAAATAATATATTAGGAGGTTAGCAATGTTATCAACAAGACAAGGTATTTTTAGTGTTATTGTTGGTACAACAATCTCTACTTTAAATGCAATAATTCAATTTCTAACAATGTATTGAGTGTTAGAAAAGTTTGGAACTGAATTTAACGGGTTTGTGCGTTTAGTAACATCATTTTCTGCAATTATAGCAACAGCTGAAGGCGCATTAGGAATTGCAGCATCAATTTTACTTGTAAAGCCCTTAGTTAATAATGATTGAATTAGTGCAAATGAGATTTACTCAACAGCAAAAAAAAGTTTTAGAAGATCAGCAATTGTTGGCTTAGTTTTAGTAACTGTAACTGCACTTGCATATCCATTATATGCTGGAGTAAATGCTCAAGATAGTAGTATTTTTGATCCAAATAGTTGAAAAAGTATTGGTTTAACTTTAAACGATGGACAATTTGCTGCTTATTGACAGCTAATGATTATTGCTTTAATTTTTGGCTCAAAAAATTTCGTTTCTGCTTATTGATTTAGTGTTTATGAAACTATAATTATAGCTGATAATAAAAATGTTATAAGAAGAATAACAATTCTATTTACAGATATTTTAGTAAATGGATTAACATTTTATTTATTAGCAATAGCTCAAAATCCAATAATTGCATTTATTCCTATTTTACTTTATTCACCAGTTAAAGGATTATTGATATATTTATATGTTAAAAGAAAATATTTATGATTAAAATACTATCGTGATTTTAATAGCTTTAAATTAAATACAACAACTTCAAAAATAACTTGATCTAATTTAGGATCTACTTTATTGTTAAATTCTGACATTGCAATAGCTTCAGTTATTTTTGGTTTAAATGTTTCATCAACACTTTCACTATATTTAGTTGTTGCTTTAAATGTTAGATTAATAATGACTAATTTTATTGTTTCTTTTAGAGAATTTTTTGTTACATTAGTTGCTAGAAGAGGAAGAATTAATTGAAGTAGTTATGCTAAATATGAACTTTATACTTATTTAATAGCAGCTTTTACATTTATTAATATGTCGATATTATCACCATACTTTGTTAGTGCACTTTATGGTAAAAATATTACTTTAACTGACCCAACAAATCCAAGTACAAGAGCTTTTGAATTCATGTTTTATACACCAAATTTCTCAATGCTTTATGCAGCTGTAACCGCTTTTACTATTCTTTGTGATAGTCAAATGACTTTAATTCAAGCAAAAGGTCGATATGGTGAAGTTTCAAAATTTCAAAATATAATTGGAGTTGCTTATATAGTTACAGCAATTCTAATTCCATTTGTACTAGTAACATCTGGTGTTGGTGGAATTAACAGTTTAGTAATTGGAGTTATAAGTATGTATTTAATTAAACTATTTTGCTTAATTATTAGATATGGTTATTTATGAGTTTATGTTTGAAAATATGTTACTTATAATTCTAATAAAAAATATGTGGCAAATAATTTCTTGATATTAATAGTTCCAACTTTTATTGCAGCTTTATTAAATATATTTGTGATTAGTCAATATTTAGACATTAGAAAAGCAACGGGAGAGGGTGCTCATATTGCGCCTTTAATTGGGCTATTCTTTGGAAGTATTTTCTCAACAATTTTTGCATTAATATTATTTTCATATATTCTCAATGCAAAGTCTTTTAATGGAATTATAAGAAATCTTCCAATTATTCAAAAAACTCTTTTAAGAAAAACTTCTCAATCAAGAAAGAAAAATTTGGAAGAATATGGTATTGATGTTAATGAAATTGTTGATAAAGGAAGTCAAATTTCTCATGCTATGTATGGCATTGAAGAAACAACAATTAGTTCATCAGTAATAAATGAGTCAACTGTTATTAATGTTAATCCCAAAAATGAAAATATTTATGTTTTAAAGGGAAAATAAAATTGATTTATATCAATTTTTTTTATTTACTTTTTAAGAATATTTAAATAGTCACTAGGTGCTATAATTTATAAAGGTGAAAATATGACAAGTTCTTTAATATTTATTGTTATAGGAATATCAATGCTATATTTATTTATGTTTTATACATCAGGCTTAATATTCATTGAATTTTTTAAATTTAAGATCAAAAATCACTTTGTGGCAATTGCTACGGGTTTTTTTAGTTATTTTACCTTTATATCTGTTTGTACCTTTCCTTTGCAATTAATATCAGTTTTACCTTACGTTTTTTTTGTCTATTATATATTTGCAATTACTATAATTTACCTACTATTTTGCTTTATATTTATAAAATTTTGACTAAATACTAATTTTTTCAAGTTGGATTCCTTAATATTTTTATTAGTGGTAGCTGTTTTTATTGGTATAGATTACTTTTCAGTTAACAGCATTTCAAGAGAAAATTTTAGTAGACACAAAAATACCTTAGCTATTTTATATTGATTAAAAGATAACCAAGTTTCATTTTTTAATGATTCTACTCTATTTAATTTTCTTGGATTTAAACCATTTCAAGGTTGATATACTTTCCAACTTTCTGTAATAATGATGGTTAATGTTGAGCCTTATCAGTATAAAGATCTTATAGTTCCTTTATTAATAATTTTAGATGCTTTTATAATAACTTCAATCTTATTTTTATTTTATGAATCATTTACACCTAAAATGAGATTAAATAATAGGGTAGCTGTTTTTTTTATAAGTTTGGTAACATTTATTATTACAAGAATGATTTTTTGATGATTAGATTATTCCATATTTACAGGAGATATGATTTTACTTTATTTAATTTTTTATGCGACAACTATGTTGTTAAGATATACAACTCTAAATGTTAGAGAAAGATATAACCCTATTTTTATAGGTTTTGTATTGGGGGGCTATATTTCCTTTTCTTGAGAAAGCTCATATCAAATATTATTTTTATTGTATGCTTTTATATTTTTAATCCAAAGGAGATTTAATCAAAACTTTACAAAAGACATTCTAAAAATTGCTATTTTCCCAATGGTTGGCTTTATTTTCTATAATATTATTTTGAGATTATATTTACAAGTTGTTATTTTTGGATCAATTCTTGTACTAATGCTTCTAGCTTCTTACTTAATGAATAGACGTTATAGTTTTGTTGCAAAATTTGAACTATTTTTAGAAAATCATAATTTATTTACTGTCCTATTTGTGCCAATATTTTTTATGACAATTTCAACAGCATTTATATTAGCCTTTAATGAAAACATTTTAGCTGAAAAATATAATTCATTAAATATAATTTATATTTGAACTTCTTTAGTAGAAAATAATATAGCAAAGCAATTTTTAACTTTTATAATATCAATGACACTATTAACATGTTCTTTTGTATGAGTTTTCTTTAGGAAAAAAGTTAAATACGATTTAATAACTAATTGTATTGATTTATTTTTAGTTAGTTATCTAACATTTTATAATCCAATTTCAGTTAGATTTATAAGTACATTCTATCCAAAAATGTTTGAAACTAATGGAATGGTTCTAGTTGTTTTGTTATTTACATTCATAAATGCATTACCTTATGCCATTAAAACAAAAAAAACAATTCAAGAGTCAAACGATGTAATAGTTATAAAAAAATATTCAAGAGTCAATTTTTAATAAGGAGAAATTTTAATGAAACAAATTATAGAAAAAATAAACAAATTAAAAGAAAACCTTAATAAATGAGGTCATGCTTATTATGTTTTAGATAAACCATTAGTGGATGATTCAGAATATGATAAGAGTTTAAATGAGTTAATAAAATTAGAATCTCAATACCCACAATTAATTACATTAGATTCTCCCACACAAAAAGTTGGTGGAGTAGTTATGGATAAATTTGAAAAGTATAAACATAAGCAACCAATGTTAAGTTTAGCTAATGCATTTAATGAAGAAGACTTAGAGAATTTTAATGACCAAATTTTAAAGGAAATTGAAAATAAGAAGTACAATTTTTTTGTTGAGCCAAAAATTGATGGGTTATCAATATCACTAATATATAAAAATGGGAATTTATTTAAAGGAGTAACTAGAGGAGATGGAATTTATGGTGAAGATGTTACTTCAAATGTTAAAACAATAAAAAGTATTCCTCTTTCAATATCTGATAAAAGTGAGTATGTAGAAATTAGGGGAGAAGTTTTTTTATCTAAAAATGAATTTGAAAAATTAAATAAACAGAGATTATTAAATGATGAAGAAATTTTTGCAAATCCAAGAAATGCAGCAGCAGGAACTTTAAGACAACTTGATTCAAGTATTGCTAGTTCAAGAAAACTTGATGCATTTTTATATTATTTTATGGACAGAGAAAAATTTCATACTCACAGTGATTCATTGAAATATTTAGAAACAATGAATTTTAAAGTAAATAGTTTAGGAAAGATTTGCAATAATATTAAAGAAGTTTATGAACATATACAAACCATTCTTTTACAAAGAGAAAAACTGGAATATGAAATAGATGGTGTAGTAGTTAAAATTAACGATTTTGATTTATATGAAAAAGTTGGTTATACTGCAAAATCACCTAAGTGAGCTATTGCATTTAAATTCCCAGCAGAAACTAAACAAACAAAACTGAAAAATATTTTTTCAACTGTTGGAAGAACAGGAAGAATTACTTATAACGCTTCATTAGAACCTGTTCAAATTGCAGGTACAACAGTTCAAGCAGCAACACTACATAATGCAGATTTCATTATTCAAAGAGATATTAGAATCGGGGGAGAAGTCAAAGTAAAAAAGGCTGGAGATATTATTCCCGAAGTAATTTCACCAATACAAGATGAAAATTATTTTTCATTAAAAAAATGAAAAGAAGAAAAAAAATGTCCTCAATGTCATTCAATTTTAGAAAGAGTTGAGGGAGAAGTAGATCAGTATTGTATAAATTCCCAATGTCCCAGAAAAATTGTTAGAGGTTTAGAACATTTTGTTTCAAGAGATGCTATGAATATTGAGGGTTTAAGCATAAAAATAATTGAAAAACTTTACGATAATAAATTTGTAAGTACTGTCTCTGATATCTATAAATTAAATAAGTTTCGACAACAATTAATAGAGTTGGATAAAATGGGTGAAAAATCTGTTAAAAATCTTTTAGAATCAATAGAAATTTCTAAGGCAAATTCTTTAGAAAAATTATTTTTTGGTCTTGGAATTAGACATGTTGGTAAAAAAACAGCAAAGACCTTAGCTTTAAGTTTTAAAAATATTGATAAAATTTCAACAATAACTTTTGAAGAGTTAGAACAAATAAATGATGTAGGACCAATAGTTGCAAAATCAGTATGTGATTGATTTACTATTAAACAAAACAGAGAGCTGATTAAAGAATTAAATGAACTTAAAATAAATATGCAGTATTTGGGTAATGAAGGAACTAAAAATAATGATAAAATAACATTGAAGAGTTTTGTTATTACAGGTACATTAAGCAAACCAAGAAACTATTTTAAAGATTTGCTTGAAGAATATGGAGCAAAAGTTATTGATACAGTGAGTAAAAAGACTGACTTTTTATTAGCAGGAAATGAAGCTGGAAGCAAATTAGAGAAAGCTCAAAAATTAGGAATTAATATTTTATCAGAAGAGCAGTTTTTAGAAATGATAGGAGAATAAAAATGACGATTAATTTAGAATTATTAAAAGAGCTTCAAGAAGATGCTATGTTGGATTTATCAGAAAAAGAATTACAAAATATTCTAAAATATGAAAATATTATTTTGAAAAAGTTTGAAAAGGTTTTATTAGTTAATACAGATAATGTTGAAGAAATGCATTATCCTTTTGATATAACTACAAATAAATTAAGAGAAGATCAAGAAGTAAAGACTTTGCCCAAAGATGAGATTTTAAAAAATGCTCCAAGTGTGCATGACGACTTTATTACAATTGTAAAGGTGGTTAAATAGTATGAATTTTAAAAAAACTACATTAAAAAAATTGCATGAACAATTAGTAAATAAAGAATTAAAAACTACTGATTTAATTAAGAGTGTTTTAGATTCCTCAAAAGCTGATTGAGATAGCAATTTTCTAATTACCTTGTGTGAAAAAGAAGCTATGCAAAGGGCCATTGAAATGGAAAACAAAATTGAAGAAGAAAATGTATTAAGTGGAATTCCATTTATTCATAAAGATAATATATCAACTAAGGGAATTCTAACTACGGCTGGTTCAAAAATCTTGTCAAATTATATTCCTTCTTTTGATGCAACAATTGCAAAAAAATTTAATAATGCAAATTCTATCTTAATAGGTAAAGCTGCATTAGATGAATTATCTATGGGAGGAACAGGTTTATTTTCATTTAATGGAGAAGTTAGAAATCCATATGACAAAAATAGAATTGCTGGGGGAAGTTCAAGTGGTAGTGCTTATGCAGTTGCAAAGGGAATTGTACCATTTGCAACTGGGGGAGATACCGGAGATTCAATTAGAAAACCTGCAAGTTTAACAGGTATTGTTGGTTTCAAACCAACTTATGGTTCTATTTCAAGGTATGGTGCTATTCCGTATGCTCCTAGTTTAGATCACTTAGGCTTTTTCACAAATAATGTTGAAGATTTAGCTTATTTATGTGAAGCAACATATGGAAAAGATGAAAAAGATTTTACATCAATCGATAATAAACAAGAATTTGTAAAAAATATTAATAAGTTTAATAAGAAAATAAAATTTGGATATATTAAAAGTGTAAATAAATTTTTAAAGGGTCAATTATTAAAAGATTATCTTAAATTATATGAAACTTTAAAAGCTGATGGTCATGAAGTTATAGAGTTGGATTTTAATAAAAAGTTACTTGAAGCTATACCAGCAGCATATATGATGATTTCTTTTGCTGAAGGAGTTTCTTCAAATTATAATTTGGATGGAATTAAATTTGGATTAAGAGCCAAGGGAAATAATTACAAAGAAATAATAAAAAATTCTAGAACTCAAGGATTTGGTGAAACTGTTAAAAGAAGATTTTTAATTGGAAGCTATCAATTAAAATCTGAAAATCAGGAATTACTTTTAGCTAAATCAAAAAAAGTAAGAAGACTTATTGTTGAAGAATTAGAAAAATTATACAAACAAGTTGATATTTTAATTTTACCTCCAACTTTTGAACCAGCTCCAACTGTTGATCATGTATATGGTGTTGATGTAGAACAAAAAGGAGATGGAGATTTTATTTTTGCAGAAGATATTTTAATTTTGGCAAATTTTAATGGAATGCCATCAATTACAATTCCCTTTGTTTCACAAGAAAATATGCCAATTGGAATTAATTTAAATGCAAAACCTAAAGAAGACTTGAAAGTCTTACAAGCTGCAAAATATTTGGAAACTATTATTGCAAAAAATTTTAGACAAGTAGGTGATTTAAATGAATAACTTTGAAGTAGTTATAGGAATTGAAAATCATATTGAATTAAAAACTAAATCAAAAATGTTTGGTTTAGGTCCAGTTACATATGGAGAAACTCCAAATTCACAAGTTTCAGAAATTGATATGGGTTATCCTGGAATTTTACCATCAGTAAATAAAGAGGGTGTAAGATTAGCTTTACTTACTTGTAATGCTTTAAAAATGAAGATTGATTCACTTTTAAGATTTGATAGAAAAAATTATTTCTATCCTGATTTAGTAAAAGGTTATCAAATTACGCAACAATTTTTTCCAATTGGAAAAGAAGGAAAAATTGAAATAAATTTAGAAAATGGTAAAAAGAAATTTATTGAAATTGAAAGACTTCATATTGAAGAAGACACTGCTAAACAAACACATAAAGATGATTTAACATACATTGATTTTAATAGAAGTGGTGTGGGCTTAATTGAAATTGTTTCAAAGCCTGTGATAAGAAGTGCATTTGAAGCAGTTGAGTATGTAAATCAATTAAGAGAATTATTATTATTTTTAGGAGTAAGTGATGTAAAAATGAATGAGGGTTCTTTAAGATGCGATATAAATATATCTTTAAGACCATATGGTTATGAAAAACTTGGTTCAAAAGTTGAAATCAAAAATTTAAACTCACTAAATAATGTTAAAAAGGCAATTGAATTTGAAATAAAAAGACAATCTAAAATATTGTTATCTGGTGGAACCATTGATCAAGAGACAAGAAGATTTGATGAGTCAAGTCAAGAAACAATTTTAATGAGAAAAAAATCAAACGCAATTGATTATAAATATTTTAGAGAACCAAATATTTTTCCCATTCAATTGGATAAAAATTGAATTAAAGAAGTTCTAAATGGTTCTCCTGAATTAGCATCACATAAAAGAAAGAAATATATTGATAATTATAATCTTTCTATTGAAGATACAAATTATATTTTGTCTGATTTAGCATTAGTTAAATTTTTTGAAGATACAATTTCATTAGGTTCGGACCCTAAGAAGATTGCAAATTATTTATTAACTGATATTAAAGCCTTATTAAATAAAGATGGTATTGAATTAGATAAATCAAATTTAAAACCAAAAGATATTAATCAGATAATAGAAATGCTGGATAAAGGAATAATCTCTTCAAAACATGTTAAAACAATATTGCCAATAGCTTTTGAAACAGATAAAGAAATTATAGATATAGTAGAAGAAAATAATTTAAAATTAATTTCAAATATAAATGAAATTGAAAAAATTTTATTGCCAATTATTAAACAAAACTTAAACTTAATAAAAGAACAATATGAACAAAGACCAGAAAGAGTTGAAAAAACAATTATGGGTCAACTTATGAAAGATACTGGTGGTAATGTAAGTCCTACAATAGCCACAGAAATAATAATTAAAAAAATAAAAGAAAATTTATAAAAAATGCTAACCATATTTTAAGGTTAGCATTTTTTATTCATCAATTTCTTGTTCTCCTCTAATTTTCAAAACAAGATCATTTACAACATTATTTTTTGCATATACTCCAAGAATATCTCCTTCTTTAAGAATAGTATACTCATCAGGTAAAATAGTCTTTCCGTTTCTTTTTATCTGAATAATATTAAAGTCTTTATTAGAAACTAATCCAGCATCAAATATTGATTTATCAATAATCTCTTCTTCATAAACAGTTATACTTGTAAAAACATATTCATTATCAATTGATTGAACTTCACTTTCAATATCAAATAGAGATTTGGTAGCAACCATTTTTCCTGTAATAACATCGGGAATAATAACTTTATCTTCTTCTAAACCAAGAGCTAATAAGATTCTTTTGTGTCTTTCATCTCTTGCTTTAACAATAATGTTTTCAACACCTAAATCTAATAGATTCAAAACTGTTAAAATACTTGATTCCATATTTCCCCCAAAACAAACTATAACTCCATCGTATTGTGAAATTCCATTTTTTTCTAAAGCATTTTTATTAGTTGCATCTAAAACAACTCCCTCAACAGATTCAAATTGATTAATGTATAAGTTTAATCGTTCTTCATCATAGTCAAAAATCTTTATTAATTGCTTTCTTTCATCTAGTGTTTGCGCCACTGATAGACCAAAATAGTTTGCCCCAAATATAGCAAAACTTTTTTTTCTAGCCATATTTACTCCAACTTTCTAACCTATTAATTATACAACTCTTTTAATCTTTAATGTATAATTTAGTATAGATTTAAAAGAGGCTATTTTTATGAAAAATTCTTCAAGTGATGAAAAAGATATTGTTAAAAGTAAATCTAATAAAAAGAAACCAGAAGTAAAAAAGAGTTTAGAAAATAAGAATGAAAAATTCTTTCATAAATTAAAAAACTGATTGCCTTTTTCTAGAATAAGTGGAAAAATTATTTTAGCATACTTAATTTCTATTATTTTAGGGGGATTCTTGCTTTCAATACCTGGTGTTGTTGTTGACCCTAAAAATCACTGAAATTTTATTACAGGAATGTTTACTGCTTCAAGTGCAATTTCTGACACAGGGATAACTATGGTACAAACAAATACAGGTTACTCATTTATAGGTCAATTATTAATTATAATAATGTGTCAAATTGGTGGAATAGGGATTCTTACAATTAAAATTACTCTTTTAGTAATGATTGGAAGAAAAATTTCTTTAGATGATCAAAATATTGCACAAAAAGAAAGAGGAAATAATAGCTTATCAAATACTGTTGAAATGATAAAAGATGCTTTTGTATTCTTATTAATATTAGAATTAGTAGGTTCAATAGTATTATTTTTTGGTTTTTACTTTACTCCTCTTTCATTGGATGGTATTCATAAATTAGATCCTTCATCGGTTACAAATCCTTACAATGATTTTGGAAAATCACTTTGAGCTGCAATTTTTCATTCAATAAGTGCTACAAACAATGCTGGCTTTGACATTGTAAGTGGTAATTCATTACTGCCTTACAATCAAGGTAGTTCACATGCTTATTTAATTCAAGTAACTTTTTTGTGTCAATGAGTAATTGGGGGATTAGGCTATCCTACATATCATGATATTAAGAAGAAAATTAAAGCGAGAAAACAAGGAAAAAAAGTAAAATTTTCTCTATTTACAAAATTAAATTTTATTACATATATATCTTTATTTTTATTAGGACCAGTATTAGTTTTTTTAACAGAATATTTAACTGTAGAAGAAAGTCAAATATTGTTAAATGGTCACTATGAAGAAAGTTATATGTTATTAGAAAAAGAAAAAGTATATATATTTAATAAATGAGTGGCTGATGGTGATGGTTCATGAAAGCCAACTCATGTTTGATTGATGGACTTAATTTTTAACGTTTCTTCAACTAGAAATGCTGGATTTGCCACAGTAGATGTTAATAGTTTTACTGCAGGAAGTAAATATTTATTATCAATTTGGATGTTTATAGGAGCAGCGCCCTCGTCAACTGCTGGGGGAATAAGAACAACTACTTTTGCAATATGCATATTGGCAATATTTTCAATTATGAGAAATAAAAAATCAGTTGAAGTTTTTAAACGAAAAATACCAGATGAAACAGTTAAAAGAGCTTTTGCTGTAGTATTTATTTCATTCTTTATTGTTACAACAAGTATTTTTGTTGTATATTTGGATAGTAACAAAATGTTATTTAGAACAGATGAAACTCAAAATACAGAAGCAACAATAATAAAATTAATAATGTATGTATGTAGTGCTTTTGGTACAGTTGGATTCCAACCATTTCCAAATGAACAAATTATTCAATTGGGTGTCATAAGTAAAATAATGTTAGTAATGACAATGTTTGTAGGACAGTTGGGAATATCAAATACATTATTAGCTTTTGTAAAACCAAAAAATAAACAAAACTTTAGTTACTTAGAAGAAGAAGTTACAATAGGGTAGATTTTATTTTGACTCAAATTAAATTAATTATGTTTTAAACAACTGTGATATAATTTTTAAGATTATTTAATTAAAAATTAAAAATTTATTTATAAATATTAACAAGAAATTTTGTTATTTTAACTAATTTATAGTATTTGTATATTATTTTTTATAAAAGGTATAAATGAGAGAAAAAATATTATTTTTAAAAAACTCAATAAGAAAAACTAAAAAAAGCATTATTCAAATTATTTCATTGTCATTTTTATTTTTTTTGACACTATTTATTGTCTTTTCAATTTTTTCAGTTAATCTTAAAATATTTTGAGGTTATAAGGATTTTCAAAATACAAGTAATTTAAGAGATGCTGTAATGGAGGTTAAAAAGAGCTCTCGACTTATTGATCCAACAAAGGATGAAGAAACTAAACTTCCTGAAAATCAAGAATTATATCAACAATATATTTTAAATCGGTTAGCTTTGGAAAATCATTTTGAATGAACAAAAACTGAAGAGTGAAATATTAACAATATTAAAAATAAAACTAAAAGTCAAAAACTTAAAATAATTTCAAAATTTAACTCAGTTAAAAATAATTGTATTGATTGTTTAATAATTGAAGAAGGAAATAATTTTTCAGATTCATATCAAATTTCAAAGAGACAAGTAATTTTTAATAAGCAATTTGCAAAAAATAATGAAATTAAATTAGGAGATATAGTTAGATTACAACCAGATGAATTTGGTGATTCACTATTAGTAAAAGAAAACGAGAATGTCGCTTCTGACATTTTGAAAACTTCAAACATAGATGAATTATTACAACTAAATCAATATTATGGACTAAATTGATATGAAGTTATTGGGTTTGGAAGTTCAGCTGATTTTGCATATCCTGTATTTGGAGATTTATCATTTTTTCCTAACATAAATAATGAGGCTATTGTTTATGTTGATTATAGAAATTTGGGAATTAGTGACTATAAGTTTAATATTAAATTTGGAGATAACCAAAAAGTAGAAAGAAATATGAAAATTTATAATTCTTCAAACTCCTTAATTTCATTAACTTCTGAATTTGATGCTAGTTCATATTTTTCAATTAAGTTTAATTCGAAGCAATCAAATCAAAGTTTAAAATATTTAAATGAAAAATATAAAGAGTATGGTAAATTAACAAATAATCTTAATTATTTTTTTAATAATAATGATAAAAACTATAGTCATTTTTCAAGAATTAATGGCCCCAAACAAATCATTTTAATATTTAATATTTTATTAACAATGTTGTCTATTTTAATTTTTTTAATTTCACTTTTTATATTTTATTTAGTTTCAAAAAAAGAGTTTGAAAATTCTTTAAGTGAGATAGGTTATCTAAAGTCAATGGGATACAAAAATGGACAAGTAATTTTTAATTATTTAGCTTTAATATTAATTTCTATTTTAACAGCCTTTGTTATCTCCATAATTATGTTTGTTGCTTTTGAGAATTCATTATTAAATATTTTTTCAGGCTTTTTTAATTTCAAGTTTAAAGTCTTTAATTATTTATTCCCTATACATTTAGGAGTTTTAATTATTTTTATAATAGTATTTTTACTTATTACAAGATTAATTTCAATAACAGTGTTTAATAAGCCAATTGTATATTTAAATAATGGAATAAAAAAAACCAAAATTTCATACATAGCAAGACAATATAAAAAAATATATAAAAATTCTAGTTTTAATAAAAAATTAAGATCTGCATTAGTAATTTCATCCTTAAGTAAAATTACTGGTATATCATTTGCTATGTTATTATGTGCTACATTAACAACATCAACTGTAATTATTCCAAAACAAATTAAAAATAATTATGATTCAATTTTCTCTAATATTTATTATAAAAATAGGATTGAGTATACTAACCCACTTCCAAATAACCCATTAAGTTTTTATAAGACCTATAATCCGAATTTTCAAGATAAAGAGTGAGGATTTGATTTTAATAATAAAATAACAAAAGAATATATAGGGTCAAAAAGTAAAGATGATGTAAGTACGGCATATCCAATTTTACAAGACAAAAAAACTATAAATTGAGAAAAAGTAACTAGAGATATTTTAAATTCAGACATTCATAAAGATTATTACTCTTATGATATAGCGAAAAAAAATAATACAGCATGAGCAGAATTTAGTTGATTAAATTGAAAAAATCTTTCAACAAAATTTTTATTAGATTTAGATAATGCAAATATTGATACTTCCTGACCAATTGGAATAATTGGTTCAAAACAGACAATTAAAAATATTTACTCACAATGAAAAGATTATGATTTTCTTAAACAGGAATTAATTAGTTTAAATAAAAAAGATCCAAATAAAGAAGAAATTTTAGAATATACTAATTTATTTTTAAATTTCTATAAAAAGTACATTGGAGGATTACCATTAAAATATAATTCTAAAATAGTCAATGAAAATGAGATTGTTAATAAAGAATTAAATAAGATACTAAAAGAACCCACTATTTATAAAAAAGATTCGCTCTCTAATTTTGAAAGCTATTGAAAACTAAATAATGAGCATAATAAATTTTATAAAATTAACAATTCAACCTATGCGGATTTTGATTTTATTTATAATAAACAGTTAATAGATGTAAAGAATTTGAAATTAAAAACATTAAAAGATTGAGATCAAGAAGATATTAAACGTTTAAATAATAATTTAACTATTTGATTTGCATCAGTGTTTGAGTGAAGATTAGGTGTGGCAATACTTTTATTAACTTATACAAATTCACCATATTTTATACAACAAAAAATTATTAAAGCAATTGAATTAAATGATAACTTTAATATAAGCAATGGTATAATTCCTTTTAATGAAAAAAATGAAGAATTAGGAACATATTTAAAAGCAAATTATCGTAATCAAGATTTCAATATTTATGGGACTATTGAAAACTCAAAACTAAATTTAATGAAGAATATAAATAATAGCTTATTAAATAATAAGTTATTTGAAAAAACTGAAAATAATTATTATCCAATAATTATTAATAAAGCTTTTTCAAAAAAAATGAAAGTAAAAGAAAATCAAATTCTTGATATTCAAGTATATATTGAGAAATTAGAAAAATACAATAATGAAATTTACTCAGATATTGGTATTAGTGATTTAGAAATGGGATGAGAAAAAAGCCCATTTGAAAATTTTAGAACGCAATCAAGTAGAAGTTATTATTCAGCGCCCAAAAGTAGATCAGATTATAGAAATTTTTCAGATACTTTAGCAGGAATACCAGCCAATTTTAACTCAGCAAAAATAGGAGGTAATGATTTTGCAATAACAAATGGGGGAGCAATAAGTGCGTCTCAGCAACCTCCGATTCATAAAAGAGTTACTAATAATGAACTGCAAATTACAAATAAAAAATATGATTTGAAAAATAAATTTAAAGTTGTAGGAATAGAAAAAAGTTATGGACCTCTAAAGGCATGAGTTGCAAATGATAAAGCAAATGAAATTATTGGATATAATAAAGTAGAAAAATTTAACTTCGAAAAATTTTTTATTCCGGAATGAGCATATGTAGATGACTTATATACTTTTAATGAGTTTAATGATGAATCATTGAAGAGTAAATTAAGAACCATGACATATGATGAATTCAAAAATAACATAGGAGAAAATCAAATATGAAAAAATATGGATAAGTTTTTTAAAAACCTATATCCAATATTTAACTACAAAATTTCTTCTAACATAGATATTTCAGATTTAACATTTGGAATGTCAACTTCTCAAAGATATGGAGATCATAGTGAATTTGGAACTAGGGGAAGTTATGGACAAATATATCCTGAAGAATGTCAAAATGAAGAGGAATGTGAACCCATTATTGATAAAGATAACTATTATGAAGGATTTTCTGTTTCAACAGTAAAAAGCTTATTGCCAATAAATACTGTAGAAGAGTTAACAAAAGATTTAATTGTAAGTTTTAATCTTTCAATATATATTTTTATAATTATTTTATTGATGATAACTTTCATAATATTATTGCTAGCAACAACTTTAATTATTACAGATAATAAGGAATTTATAAATGGGATGAAAATTATGGGATACTCTAATTTCTATATAATAAATCAAATATTTAGTGTTTATAATTGGTTAATATTATTTATGTTTTCATTTGGTTTTATTATAGGGTTTTTATCATTAATAAGTATTGTTGAATATCTATCACTTTTAGGGAACTCTATTTTCTTTATGTCCTTTATTTGGTGACATCCATTTTTAGTATTTATTTTATTAAGTTCTATTTATAGTTTCACTTTTACAATTAGCTGATTTAATGTAAAACAGATAAAAATAGTTTAAAAGAAAATAAAAAAACTATCAGAAGGATTAGATTTGCATATTCACTTTTTAAAATTTAAGTAGTGATAGAAATAAAAATAAATATTTTATAATTATCTATTATTGGTGAAATAGCAAATTTAATAAAATAAAAGTTTTATTACAGAATGAGAATTAAGCAAATATTAGAAATATAAACAAAATTGGTTTAAATACAACTTTAAGTAAAACTAATAATTTATTGATATAACTTGCTTTTTTCTTTTTTTTTACTAAAATATTTTTATAATTTAAAAATATTTTAAAATATAAAAAGGGGTAAAAAATGAAAAAATTATTAGGATTGTTGGGCTCATTAACATTAATTACAAGTGCAAGTGCAACTGTAATTGCTTGTGGAGAAAAGGAACCAGAAATTACTGAAACATTTGATTATGATGGTTTAATTAAAGAACTAAAAGTAGATGTTCAAAAAATTTATCAAAAGCATTTAGTTGAAAAAGTAGCACCACAATTATTTGGTATTACATCAACTGAATCAAGTAATGCGTTTTTAAGAAAGGCAAATATTGATAAATATAAAGGTAATCCATCAGGAATTCAAGGAGATGACAAAACTGCTCTTAAAAATGACCTTGAAAAAATTTTAGATGTAAAATCTTTGGAGACTAGTTTAAATAATGAATTAAAAAAACAAAATAAATATAAAATAATTTTAAATGATGTAAAATCATTGCTTAAAAGTGTAGCATTTGATTTTGAAACTATGATTATACAAAGTAATGAAACAAATGGAATATATCTTGGAAATGTTGTTATTGATTACAATATTGTACTTCAATATAAAGGTGAAAAAGAAGTTGAAACTTTTAAATTAAATGACACACTTAAATATACTTCAACAAATCAAAATTGAATTCAAACAGGAAGTAAAAATTTTTATCAAAATATAACAAAAGACTATTTTGCTTCTAATGATGCAAAAAATAGTGTACATACTAATTTAGAATGAAATAAAATTGCTAATAGTAAAGATGATTTTGAAGCTTATGGTGATGTTGAATCAGGAATAAAAAAATATTATCAAGATGATTCACGAGATAATAATTTTAGAACTTCAATAATTTCTTTTATTCAAAAAAACTATTTTGATAGTTCACAAACATCATTACCAATTGATTTTGAAGGGGATTTAATCTATAAGGAATCAAATTTATTTGATAATTCTTTACTTAAAGTTGTAAATCAAAATAAAAGTTATAATAGCAGTAATTCAATTAAATATGATTATAAAGAAGAAAATGATAAAATGATGTTGGAAACTTTCTTTAGAAAAGATCCGTCACAAATTGCTACTCAAAATAACTTAGGAGATTATTATTTCACTCAAAAAAATTATAAAATGTGACAACAGGAATATTCTGTTGAAAAAGAAAAATTTTTAAAGCAACTAGGTCTGTCAACAGATCAAATGGAAGAAATAAAAGCCGAAGAAGCCTTTAAAAAGTCTTTAAGTTTAGGATATGTAAGCCTAAAAGGTTTATCAATTAGGATAGATAATGGAGCATATGTTCATCAACTGCCTGATTTTAGAATAGCAATTAATTACTTATTTAGTAAAGATATAAAAGAAGATGCTGAAAGAAAAAATTTAGCACTATTTTCTACAAAAACACTTTCTGCATTTCATGAAACATTCAATATAGATCATGACTATAATGAATATCCAGAACAAAATACTAACGAAGATTTTTTAATGGCAATAAAAAAATCTACTTTAACTGAAGATTTCAACTTTAAGAATACCTGAGGAAGAGAAACTTCATGAGTAGCTAATGGAAATTTTAACTTAACAACAGATAGTAACTTTGGAATTGCTTTAGAAGATTACAGATTGGAAATGTTTAGAAAAGCAAATTTAACAAGTAATACAAAGTATGAATTTGCTTTTAGCCAAGCTAGAAATGGAAATCAATGATCTTATCATGAATGATCATGATATCTTGAAGAAGATGGATGAATGATTTCTGACCCACGTAGACCAAATACTAATCCTAATTTAAATGAAGGAATATTACATTTTAATTTAGGTTATATTCAATTTAACTTTAATTTAGATAAAATAATAAAGGGAACAAAAGAAATTGAAGGTAAAAAAAGTTATATTAAGTTTGTATAGAAAAAAAGTTTAATAAATAACAATGAAAAAAATAATACCAAGTATATGGATAATAAAATTCAGTTTTAAATCAATTATAAAAGAAAAATCATTTCTAATATTTAATGGAATATACTTATTATTCTCATTATTTATAGCTATTTATTCAGTTATTCAAAAGAATAGTAGTGATTTTTTATTAATATTTGATTATTATGTTTTGTTATCTATATTTGTCATTTTATTCATACTTTGTCTAAGATTGGCTCAGTACTTTTATCTCGTCAAAAAAGAGGATAAAACATTAAATATAATCATTACTCAGCAAATTTCTAGATCAAAGTTATTTAATCTTCAATTTATTTCCTTTATTTTATTGATGTTAATAAATATAACTTTAAGTTATTTATTAATAAATATTTTACATATTTTATTTACTTTAAAAATTAACAACTTTTTAATTAGAGTGACTAGTGTTTACTTCTTATATGCATTACTAAGTTGCGTATTTTTATTAAGTTTCTTTTTACTAATTTCTTTATTAACAAACATTCAAGTATCTACAATAATTGCAACTTTAATTTTATCTACTACTTTTATTAGTAATATGCCCTATATTTTTTTAATAAAAGGTGAAGAAGCAAAAAAAATATCTGTAGATTATAATAGTTCCAAAACTACATTATATGTGAACGAAGTATATGATAGTTTTGATTTAAAAAAACAAGTATTAAATAAAGAATTAAAATATTCTAATTTAAGTTTAGAAATCTATAATAATTTTTTAGAAAATCAGTATGAAACAGATCCAAATTTACTTAATAACTTTGAAAGTGCAAGTAATATAAATAAAAGAATTAACTTCTGACAGGAAATGGGAATAGTTGAAAAACAATCAAAAGAAGTTAATCTGACTACACCTACAAGAATATTGGCTGTAAATAATAATTCAACAATTTCAAAATGAAAAAATGATGAAATTACTTTTAAAATTAACTTGGAGTATAAGTTTTTAACAATAGAAGAACTGCAACAAAAAATGCATTTAGGTTCATTGTCTGATAAACAAAAAAAATTATTACAAGAATTTATTGAATTTACACAATATATAACAAATTATTTTACTAGCTTTCAATCTAAATTTGCTAGTCTATTTGAATCATTTATTTTTCTAAATGATGAAACAAATATTGAAAAAAATTATATCAAGAATGAAACAAAACCAGAAGAAGAAAACATGTTATTTGATAAGAAATATCTAGTGGAAATGTATCAAAATTACTTTTCATTTTCTGATAATAAATTAAGATTGGAAAATAAGAAAATAGAAAAATTAATTGAACAAGATTTCTATTGGCCAACAATGCTAAGTATGAGAATTTTGGAAGACTACTTTATAAGATATACAAATAATATGGTTATTTTGGAAAATAGTAATGTTGTAAAAGATGAAGATTGAAAATTGTATAATAAATCAAGAACTATTTTTAATTCATTCTTCTATTTTAATTTTATTTCAAATACACTTCAAAGTTATACATATTTTGGAGGAAGAAGTTATGAAGATTTTTGATTTGAACCAGAAAGCTCAAGTAGAATATTTTTCAATAAACAGGACAATTTATTTATAGCTAAGCCTAGTTATACATTTAAGCTTGATGATCAAAATAAAATAATTCCAGAAACTTATTATAATTATTTAAATCCACTATTTTATATTTTAATTCAAGCTTCAATAGCAACAATTAATTATTTTATTGCAAAAAATAAATTTAAAAAATTAGACTTAAAGGGATAAAAATTATGGAAAAACTTATAAATTTTAAAGACTATAGCAAAAAATTTAAAAAAAAGGTAATTGGCCCATTTAATTTTTCAATTGAAAAGAATAAAATAACAGCATTATTAGGAAGCAGTGGTAGTGGAAAAACTGTAATATTAAATTCACTATTAGGAATTATTAAAAAATTTAATGGTAGTATTGACATTGAAAATTTCAATAGAAAAACTAGAAAATATTTCATAATAAATAGTAAAATAGGTTATTATACTCAAATGGATTTCTCATTATATACTGTTAGTGCATATGATTTTTTGTTAGACATTTGTATTATGATGGGAATTAATAAAAAGGAATCATTTAAAAGAATAGAGCATTGAATGAAATATTTTGATATTTGAGAAGATAAAGATAAAAAAATTAATAATTACTCATGGGGAATGAAAAATAGAATAAATTTAATTCTTTGTTTTATAAAAGAACCAGAAATAATTATTATGGATGAACCTGGAGCTAATCTTGATTCTTATTGACGAAAAAAAATTAAGGACTTATTAATTAAATATAAAAAAGAAGGAAGAACTATTATAATAACTGTTCATAACATTGATGAGATCAATGAGGTTATTGATAATTATTTAATTATTGATTCTGGAAAGTTAATATTTTCAGGATCAAAAGAGGAATTAGATTTATATAATAAATATAAAGTATATTTAAACGAAAAGTTTGATATTATTGAATTCAAAAAATTCTTAGATTCTAAAAATATTAAAAGTTTTAAATATGATGAAGAGGAAATTTCAATTGTATTTGCAACAAAAGATTTAAAAGAAATTAACTGAATATTTATTTATTTTATTAGTAAATCAATACCAATTTTAAATTTAATTAAATTGCCTATAAATATGGAAGCAGTTCATAAGGCACTTGATAGTAAGATAATAACTTAGAAATTTCTAAATATACTAAACTATAAGTTATGTAAAAGGTTTATAGGAGTATATAAAGATTTTTTTTAGTAAAATTTTTTATAATATAAAAGGGGTAAAAAAATGAAGAAATTATTAGGATTGTTGGGCTCATTAACATTAATTACAAGTGCAAGTGCAACTGTAATTGCTTGTGGAGGGTCAATAGAGTCAGTTATTAAAGAATTTGATTATGGTGCTTTAATTAAACAACTAGAAACAGATGTTCAAAAAATTTATGAAAAGCATTTAATTGAAAATGTAGGGCTAAAATTATTTGGTATTACATCAACTGAAAAAAATAATCAATTTTTAAAGAGGGCAAACATTGATAAATACAAAGATAATCCATCAGGGATTCAAGGTAATGAACAAACCGCTCTTAAAAATGACCTTGAAAAAATTTTAGATTTAAAATCTTTCGAAACTAGTTTAAATAATGAATTAAAAAAACAAAATAAGTATAAAATAATTTTAAACGATGTAGAATCTTTGTTTAAAAGTGTAACATTTAATTTTGAAACTATGATTATCCAAAGTAATGAAATAAATGATATATATCTTGGAAATGTTGTTATTGATTACAATATTGTACTTCAATATAAAGGTAAAACAGATATTGAAAATTTTAAATTAAAGGACACACTTAAATATACTTTAACAGATCAAAAATTATTTCAAGAAGCAAGTCAAAGATTTTATCAAAATATAACAAAAGACTATTTTGCTTCTACTGATCCAAAACATACAGTTCATACTAATTTGGAATGAAATAAAATTTCTAAGGGCAAAAAAGCTTTTGAAGCTTATGGTAATGTTGAACCTGAGATAAAAAAATATTATCAAGATAATTCAAAAACAAATAGTTTTAGAACTTCAATAATTAATTTTATTCAAGATAAATATTTTAATATTTTGCAAAAATTTCCAATTGATTTTGATGGTGATTTTATCTATAAGGGATCAAATTTTGACAATAATGATAATTCTTTACTAGCAACTATAAATTGATATATAAGTTATAATCACAGTAATTCAATTAAATATGATTATAAAAAAGAAAAAGATAAAATACTGTTAGAAACTTTCTTTAGAAAAGATCCATCAAGAGCTGCTACTAAAAATAACTTAAATGACTATTACTTTACTGGGGAAAATTATAAAATATGACAAGATCAATTTTCTATTAGAAAAATGAATTTTTTAAAGGAATTAGGTATGTCAGTAGCAGAAATGGATAAAATAAAAGAAGCAGAGGCATTTAAAAAAGCTCTAAGCTTAGGATATGTAAGTATAAAAGGTTTATCAATTAAAATAGATGGTGGAGCTTATGTTCATCAATTGCCGGATTTTAGAATAGCAATTAATTACTTATTTAGTAAAAGTGGAGCTGAAGATACTGAAAGAAGAAATTTATCCGAATTTTCTGCAAAAACACTTTCTGCATTCCATGAAACATTTAATGTAAAACATGACTATAATAAATATCCAGAACAAAATACTAAACTAGATTTTTTAATGGCAATAAAAAAATCTACTTTAACTGAAGACTTCAATTTTATTAATTTTTGAGAAAGACAAGATTCAAGAGAAGCAAATGGAAATTTTAACTTAACAAGAGATAGTAGGTATAAAATTAATTTAGAAGATTATAGATTAGAAATGTTTAGAAAAGCAAATTTACCAAGTAATACAATTTATCAATTTGCTTTTAATCACCCTTGACATGGAAATGACTGAGCTTCTCATAAATGAGCATGATATCTTGAAGAAGATGGATGAATGATTGCTGATCCAGGTAGACCAAGTAATGGTTATATTTTGAATGAAGGAATATTACATTTTAATTTAGGTTATATTCAATTTTACTTTGATTTAGATAAAATAATGAAGGGAATAAAAGAAATTGAGGGTAAAAAAAGCTTTATTAAGTTTGTATAGAAATAAAATTTAATAAATAGTAATGAAAAAAATAATACCAAGTATATGGATAATAAAATTTAGTTTTAAATCAATTATAAAAGAAAAATCATTTCTAATATTTAATGAAATATATTTATTATTCTCATTATTTATAGATATTTATTAAGTTACTTAAAAGAATAGTAGTGATTTTTTATTAATATTTGATTATTACGTTTTATCATCCATATTTGTTATTTTATTCACATATTGTTTAGGATTGGCTCACTATTTTTATCTCTTCAAAAAAAAGAGGATAAAACATTAAATATTATCATTAATCATTAAATTTCTAGATTAAAGTTATTTAATCTTCAATTTATTTTCTATATTTTGCCGATATTAATAGATATTTTAATATCTATTTACTTTAAAAATTAATTATTTTATTTTAAAAAATTAGACTTAAAGGTATAAAGATTATGGAAAAACTTATAAATTTTAAAGAGTATAGCAAAAAAAGTTAAAAAAATAATTGGTCATTTAATTTTTCAATCGAAAATAATAAAATGACACCATTATTCAGAAACAATGGTAGGAAAAACGTAGTACTAAATTCATTATTGGGAATTATTAAAGAATTTCAATAGAAAAACTAGAAAATATTTCATAATAAATAGTAAAATAGGTTATTATACTCAAATGGATTTCTCTTTATATACTATTAGTGCATATAATTTCTTATTATATATTTGTATCATGATGGGAATTAATAAAAAAGAAGGAAGAACTATTATAATAACTGTTCATAATATTGATGAGATCAATGAGGTTATTGATAATTATTTAATTATCAATTCTGGAAAGTTAATATTTTCAGGATCAAAAAATAAATTAGATTTGTATAATAAGATAAAGTATATTCAAATGAAAAACTTGATATTATTGAGTTTAAAAAATTCTTAGACTCTAAAAATATTAAAAATTTTAAATATGGTTAAGAGAAAATTTAAATATAAATTTTCTTTTTTATATAATAATATTAATTAAGTATAAGGAGCTTTGATAATTTTAAAAAACATATTAAAAAGTTTGCTTTTTTTCATTTTTTTAGTAAAATATTTTTATATTTTAAAAATATTTTTAGAATATAAAAGGGGTAAAAAATGAAAAAATTATTAGGATTGTTGGGCTCATTAACATTAATTACAAGTGCAAGTGCAACTGTAATTGCTTGTGGAGAAAAGGAGCCAGAAATTACTGAAACATTTGATTATGATGGTTTAATTAAAGAACTAAAAGTAGATGTTCAAAAAATTTATCAAAAGCATTTAGTTGAAAAAGTAGCACCACAATTATTTGGTATTACATCAACTGAATCAAGTAATCAGTTTTTAAGAAAGGCAAATATTGATAAATATAAAGGTAATCCATCAGGAATTCAAGGAGCTGACAAAACTGCTCTTAAAAATGACCTTGAAAAAATTTTAGATGTAAAATCTTTGGAGACTAGTTTAAATAATGAATTAAAAAAACAAAATAAATATAAAATAATTTTAAATGATGTAAAATCATTGCTTAAAAGTGTAGCATTTGATTTTGAAACTATGATTATACAAAGTAATGAAACAAATGGAATATATCTTGGAAATGTTGTTATTGATTACGATATTGTACTTCAATATAAAGGTGAAAAAGAAGTTGAAACTTTTAAATTAAATGACACACTTAAATATACTTCAACAAATCAAAATTGAATTCAAACAGGAAGTAAAAATTTTTATCAAAATATAACAAAAGACTATTTTGCTTCTAATGATGCAAAAAATAGTGTACATACTAATTTAGAATGAAATAAAATTGCTAATGGTAAAGATGCTTTTGAAGCTTATGGTGATGTTGAATCTGGACTAAAAAAATATTATCAAGATGATTCACGAGATAATAATTTTAGAACTTCAATAATTTCTTTTATTCAAAAAAACTATTTTGATAGTTCACAAACATCATTGCCAATTGATTTTGAAGGGGATTTAATCTATAAGGAATCAAATTTATTTGATAATTCTTTACTTAAAGTTGTAAATCAAAATAAAAGTTATAATAGCAGTAATTCAATTAAATATGATTATAAAGAAGAAAATGATAAAATGATGTTGGAAACTTTCTTTAGAAAAGATCCGTCACAAATTGCTACTCAAAATAACTTAGGAGATTATTATTTCACTCAAAAAAATTATAAAATGTGACAACAGGAATATTCTGTTGAAAAAGAAAAATTTTTAAAGCAACTAGGTCTGTCAACAGATCAAATGGAAGAAATAAAAGCCGAAGAAGCCTTTAAAAAGTCTTTAAGTTTAGGATATGTAAGCCTAAAAGGTTTATCAATTAGGATAGATAATGGAGCATATGTTCATCAACTGCCTGATTTTAGAATAGCAATTAATTACTTATTTAGTAAAGATATAAAAGAAGATGCTGAAAGAAAAAATTTAGCACTATTTTCTACAAAAACACTTTCTGCATTTCATGAAACGTTCAAGATAGATCATGACTATAATGAATATCCAGAACAAAATACTAACGAAGATTTTTTAATGGCAATAAAAAAATCTACTTTAACTGAAGATTTCAACTTTAAGCCAAATTGAGGAAGAGAAACTTCATGAGTAGCTAATGGAAATTTCAACTTAACAACAGATAGTAACTTTGAAATTGCTTTAGAAGATTACAGATTGGAAATGTTTAGAAAAGCAAATTTAACAAGTAATACAAAGTATGAATTTGCTTTTAGCCAAGCTAGAAATGGAAATCAATGATCTTATCATGAATGATCATGATATCTTGAAGAAGATGGATGAATGATTGCTGATCCAGGTAGACCAAATACTAATCCTAATTTAAATGAAGGAATATTACATTTCAATTTAGGTTATATTCAATTTAACTTTAATCTAGATAAAATAATAAAGGGAACAAAAGAAATTGAAGGTAAAAAAAGCTTTATTAAGTTTGTATAGAAAAAAAGTTTAATAAATAACAATGAAAAAATAATACCAATTATATGGATAATAAAATTTAGTTTTAAGTCATTTATAAAGAAAAATCATTTTTAATATTTTATGTAATATACTTATTTATTGAGTTATTCAAAAGAATAGTAGTGATTTTTTATTAATATTTGATTATTAAGTTTTAATATCCATTTTTTTATTTTATTGATACTAATAAAATTGCTATGAGTTATTTATTAATAAATATTTAACATATCTTATTTGCTTTAAAAATTAATTATCTGTTAATTAGATTATCTGTTGCTTTTATTAGTAATATGCCTTATATTTTCCTAATAAAAGATGAAGAAGCAAAAACAATATCTATAAATTATAATAGCTCTGTAATTACTTTTATATGCAAATGAGGTAATTGATATTTATGTTTTAAGTAAAACAGATATTAAATAACTATAAAAAAATCAAAATTAAAAAAAGTACTTAAATTAAAAATTAAGCAAAAAAATTTAAATTAATAATAAAATATAAATATTAAAAGTTCACTTTTATTTGACTTATATATTTAAAGTAGTATGATTTAAATATTGAGATTATAAAATCTTTGAGGTGCATCATGAATATAAATGAAAATAATAAAGAGATAGCAGACTCCCAAAATGTCGCTGTAGGCGACGATTGGTATAAACTATCAAATAAAAAAATATGTAGTATATTAGAAACAAATCCTCAAACTGGATTATCAAATCAAGAAGCAAAATTAAGATTAGAAAAATATGGTAAAAACAATCTTCCAAAAAGTAAGAAGCCAAACTGGTTTATAATTTTTTTAAAAAGTTTTTTAGATCCATTAAGTTTAATAATGATTTTATCTGGTTTAGCTTCTGGTTTAGTATCAGCAATTTCGAAAAAAATTGAAACTGTGGATATAACAGGACTAGTTATTATTGCAATAATTGTTTTAACCAACTCTATCATTGCAACAATACAAGAGATTAAATCTTTAAATCAAGTTGCTAATTTAAATGAAAATAAGCAATTTGCAATTGTTTTAAGAAATTCAAAAAAAATTGAAGTTAATATTGAAGAGCTTGTACCTGGAGATATTATTTTTGTTAATTCTGGGGGCTTTGTACCAGCAGATACAAGAATTATTGATAATCAATTGCTTAGGATTGATGAATCAGCATTAACTGGAGAAAATGAACCTGTTAAAAAAATATCGGATTCAATTAAAGATAAAAACTTAATGCTAGGAGATCAAAAAAATATTGCTTTTATGTCTACTTTGGTCATCGAAGGTAAAATGATGGGTGTTATTTTTGGTACAGGTAAGGAATCTGAAATTGGAAAAATTGCAAATAAGATTACTTCACATAAACCTGAAAAAACACCTTTAGAAAAAAAAGTAACTTTACTAACAGCAATTATTGGTCTAACTTCAATTATATTAGGTTTAATTTTGTTTTTAACAGCATGATTTTTAAAAGACTCAATTCATCCTTCTTCTGGAGGAAGAGCTGATATAAAAAATCTTTTACTAGTTGCAGTTTCTGCTGCAATATCATTAATTCCAGAATCTCTAACTATTATTGTAAAAATTTGTTTAATGGTTGCGACTAAAAAAATGGCTAGAAAAAATGTTATTATAAAGAATCCGAAATCAATTGAGACCTTAGGGAATGTTAATGTTATTTGTTCAGATAAAACAGGAACTTTAACTCAAAATAAGATGACAGTAGATAAGATTTTTATTGATTTTGTTGAAAAAGATTTTAAAGATTTTGATAAAGTAAAGTATAAAGAATTAATAAATTGCATATCATTGTGTAGTGATGCAATTGTAGAAAAAGAAAAAATTGGAAGTGCAACTGAAATAGCTACTATTGAATTTATTAAAAAATTTGATATTAACTATATTAAAATGAGAAAAAATTATGAAAGAATTGATGAAATTCCATTTGATTCAAAAAGAAAATTAATGAGTACTTTAAATAATGTTGATGGAAAAGAAATGATTTATGTAAAAGGAGCAGTTGATTATTTATCAAATATTTGTACAAATAAATTTATTAATGGAAAAGTAACACCATTAACAGAAGATGATAGAAATATATTAAATGAACAATTATACAAATTTGCTAAAAGTGGATTGAGAGTCTTAGGTTTTGCACAAAAAGAATATAAAAACCCCAAAGATCCTTATGAAAGTAATTTGATATTTTTAGGTTGTGTGGCGATTATTGACCCGCCAAGAGAAGAAGTTAAAAAATCAGTTGAAGAAGCTAAAAAAGGTGGTATTCGTGTAATTATGATTACAGGTGACCATAAAATAACAGCTTTTGAAATTGCTTCACGTTTGGGAATTGCAGATGAAGTATTTGATGGAGTTTTAACAGGTCAAGATATTAATGAGTTATCAAGAGAAGAATTAAAACAAAGATTAAAAAGAACAAATGTTTTTGCAAGAGTTAACCCTGAGCATAAAGCTCTAATTGTGGATTTACTTCAAGAAGATAAAAATATAGTTGCTATGACAGGTGATGGGGTTAATGATGCCCCAAGTTTAGTTAAAGCTGATGTAGGTATTTCAATGGGAATTACTGGTACAGAAGTTGCAAAAAGTGTTAGTGATGTTATTTTAGCAGATGATAACTTTAAAAGTATTATTTCTGGTGTTAACTCAGGAAGAAATGTTTATGAAAAAATTAAATACTCAATATCATTTTTACTTGCAGCCAATATTAGTCAAATAATTACTCTATTGTTAATACTTTTAATAAATAAAGATATTGCTTTAAATTCAGTAAATATTTTATTTCATATTTTTATTATAGAAACAATCGTAGCAGTTCCTATTGGAATGCAAAAAGAGCGAAAAGGAGTTATGAAAAACCCGCCACCAACAACTAAGAGTGAAAGTCTACTTAAAGGCATTTGAGTTCAAATGATCATAACAACATTATTTAATACTTTATTTGCAGTTTTAAATTATCAAATTGCTGTTTGATGATTTGGTTATGGAACTGAAAGTTCTTTAGCTTTTGGTAAAACAGGAGTTTATATGGCAATCATGTATTCACCAATATTTTATTCAATATTATATAATAATTTTTTCTTGCCAATTAGAGCTACAAAGACTATTTGCGATGTTGATAAGTATAGACCAAATAAATGATTGTTAATTTTAATGGCGGTGGCTTTTGTAGTTACTAGTTTAACTTTAATACCAGTAGGGGTAATCAATGATTTCTTTGATTTTACAACTATAGGGTTGAACCCAATCTTGGCAATGATATTTTTTATCAATTCTTTATTGCCAACAGTGTTCATTTACTTTACTTATAAATTAGTTTTTAAATGAATTTAAGCCTTGAAGAAAACTTTATAGTCTTCTTTTTGCTATATAATAAGAGTTGTATTTAATATAAAGAAGGAAAATTACAATTATGGAAGATTTTGAATTACAAGTTGGTGGAGGTAAGTTTTTAAAAACTTTAGTCTACTACTTTATAAAAGAGTGAAAATTATCATTAGTAATGTTAGCTCATTGTATAATCATTGTTATATTAGCTTTGCTTTTACCAATACTAACATTTCAAATGACAGGAGCTATTAGCCTAAAAAATGATCCTAATAATGTAGTTCAAGGAACTAACATTATTACAAAAATATGAACAGACGATTGGCAGTTACTAGTTTATATTTCAATTGCAGTTGTTCTTATATACTGTGTTTTTTCTTATGTATATGATTATTTAGCATTTATATTGGGAAGAAGAATTGAAATTAGTTTAAGAAATAGATGTTTAGAAAATTTAGTTAGACAAGATATTTCATATTATTCAGATAAAAAAATTGGGGAAATATTGACAAAAATAGTATCTGATACTCAAATAGTTGGAGATCAAGCTGTTCAAGTTCCTTTACAATTTGGATTATCATTTTTCGAAATTATAGGTGCAGCGATTTTAATGTATATATTAAGTTGACAGTTGGCAACAGTAACTGTTATAACTTTTACTATAATAATGGCTTTAATGATGATTTGTTTCTTTGCAACAAGAAAAAAAGTTATTAAAGTAAGAGAAAGCATTACAGAAATTAATGGTAATGTAACTGATAGAATCGCCACTGTAAGATTAATTAAATCGTCAGGAACAGAAAATTATGAAACTGAAAGATTTAAAGAAGTTCATAAGGATTTTTATAAAAAATCAAAAAAAGTTGGAACAAGATTAGCACTTATGTTAACAATTATGTGAGGTGGAATCTTTGTACTTCAGTTTTCAACAGTTGTAAGCGCAATGCTAATTTATGGTAATACTGATCCAACTGTTTCAAAAGAATTTTTTGGAACTACATTTGCATCATATAATCTAGCTCAGGGATTAATGATTGGACCATTGTTTAATATTATGGCTGCGTTATTTGGATTAGCACAAGCTTCTGTTGCTTCACAAAGAGTAGATGATACTATTCATGCTAAGTCAATTATGGATTCACATTACTTTGATGGTGAGATTGTCAAATCAGTTAAAGGAGATATTCAATTCAAAAATTTAGAATTTGAATACCCAGAAAAACCAGGGAAAATTGTTTTACCAAAATTTAGTTTTACTTTTGAAGAAGGAAAATCTTATGCTTTCGTTGGTGAAACTGGTAGTGGAAAATCAACAATTGCAAAATTACTATTGAGATTCTATGACCCTTCAAAAGGTGAAATTATTATTAATGGAAAAACAAATTTAAAAGATGTTAATTTAGCAAGTTATTTAAACCATGTTGGATATGTAGAACAAGATCCTCAAATTCTTTATGGTGACGTTTTTGAAAATGTAAAATATGGTTCTTTTGATGCAACTGATGAAGAAGTAATCGAAGCATGTAAAAAAGCAGAGTTACATGAACTTGTTATGACTTGACCGGGAGGCTATGAAACTATTTTAGGAGAACGTGGATTCTTATTAAGTGGTGGGCAAAAGCAAAGATTAATCATTGCAAGAATGTTCTTAAAAAATCCTCAAGTTTTAATTTTAGATGAAGCAACTTCAGCTCTTGATAATATTGTGGAAAAAGAAATTCAAGCAAAATTAGATTTATTGATGAAGGGAAGAACAACTGTAACTATTGCTCATAGATTAAGTACAATAAAAAATGCTAATGAAATTATTGTTTTAGGTGGTAATGGTGCTGGAATAGTCCAAAGAGGTAAATTTAGTGAATTAAGAGATCAACCAGGTCACTTCCAAAAACTTTATAAAGCAGGGTTAATTGAATAATATAAAAAACAAATATCTAATATTTGTTTTTTATATGCAAAAAGACGCACTTTTTACAAAAAATTAATAAAAAAGATTGATTTTAATAATATTAATATGCTATTATGAATAGGTAGAAATCTATCTATGGCTTTTTAGCTCAGTTGGTAGAGCAACCGGCTGTTAACCGGTTGGTCGCAGGTTCGAGTCCTGCAAAAGCCGCCATTTTGATGGCCTGTTGGTGAAGCGGTTAACACACACGGTTTTCATCCGTGCACACACGGGTTCGAACCCCGTACAGGCTACCATTTTTATATTTTTCTTTGGAGTGTTAGCTCAGTTGGGAGAGCTCCTGCCTTACAAGCAGGCGGTCGGCGGTTCGAGCCCGTCACACTCCACCATTTTTTTATGCTGATGTGGCTCAATTGGCAGAGCAACTGACTTGTAATCAGTAGGTTGTAGGTTCAAGTCCTATCATCAGCACCATAAGGAAAATATCATCAACCATACTTGGTTGTTTTTTTATTCTGAAATATATGTATTATATTATTAAAGGAGCAAATTAATGAAAAAAAGCTTATCTTTAATTACATATATATCCTTATCAGTATTTCTTTTAAATCAAATTTTGGTTATTGCTTTTATTAAAAGCATTTATTATGAATTGAATAATAAATCTCTTGAAGATATAGTCTATATAATTGTGATTTCATCAATAGTATTTTTATTAATAGTAGCTTTTGTCGCTTTTATATCTATTATTAAAAACACAACTAAATCTACTTTTGTCGGCTCAATTATATTGATTATTTTGGGTATTATATTATTCTTTACTATAATTTCATTCACTTGAATATTTGGAATTATAAATATTATTTGTGGTTTAATCTTTATTTCAATTGGGTCAATTCATTTAAAAACTACGAGGGAATACTTATAATTTTTCTCTTTAATTATTTGATTAAAACAAAAAAAATGTTATTATAAATTTGTTATTTTAATCGTCTCGTTAGCTCAGTCGGTAGAGCAACTGGCTTTTAACCAGTGGGTCATAAGTTCAAGTCTTATACGGGACACCATTCATCCGGAATTGGCGGAATTGGCAGACGCACCAGACTTAGGATCTGGCGTGGTAACACGTGGGGGTTCAAGTCCCTTATTCCGGACCATAAAGATTTTTAAATCACTTGCCAGTGATTTTTTTTATTTTTTAATTAAAATATTGCAATTTAATTTTATATTGTGTATATTCTTCTTTAAGAAAAGTTTGAGGAATTCTATGAAAAATTTTAACTGACTAATCAAAAACAATAAGTTAGAATACAGAGATTTTTATATTTCTCATTCTTTTCAATTTTCTAAATTATTTATATCTAATTAATCAACCATTTTATTGGTTGATTTTTTTTGTAAATATTTTAGTTTGAAAGGAGAAAATATGGAAGAAATTAAAAAAATTAATTTAGTTTTAGAACCAAATCAAAAACCAAAAAATATTGGTCAATGAATTGTTTTATCACTTCAACACGTCTTTGCAATGTTTGGAGCAACTGTGTTGGTTCCAATTATTATAAATAGTCTTTCTCAAAAAGGGGAAGTTATAAATATATCAATGGCACTTTTTTGTTCTGGAGTAGGAACATTAATTTATATTGCCCTTACAATGGCAAAAGTACCAATATATTTGGGAAGCAGTTTTGCTTATATGACGGTTTTAGGAATTGGATGAAATCAATGGGGAAACTCAATTTTTATTGCTGTATTTGCTGTTGGAGTTGTCTATATTTTTATGGGATTTTTAATTCATTGAACTGGAGTGCAATGAATTAAAAAAGCCTTTTCACCAATAGTCGTAGGTCCAATAATAATTACTATTGGTCTTAGTGCAGTTCCAAGTGCATTAGAAAATATTGGTTTTGTAGCAAAGAATAATGCATGAGGTAATTACCCTCAGTGATTGGCAATTCTAATTGGAGTTATAACTTTTCTTGTAGCAGCTATTTGTATGTTAAAAGCAAAGAGCTTTGTTAAAGTTATTCCAATTTTAATTGCTTTAAGTGTGGGATATATTATTTGTATAATTTTACACTTCTCTTTAATAAAAAATAATTGAACAATATTAAATACCCAAGGTATTGCAAACCCAAATAATTGAGAATGATATCCAAGTTTTAAGAAGATATGAGATGTAAATCCTAATACAATTGGACCAGCATTGGTTGCAATTGTTCCAATATCATTAGTTACTATGGTTGAGCATTTAGGTGATCATATAAATATTGGAACAATGACTGGAAGAGACTTTATCAAAAATCCAGGAATTAGTAGAACCTTAATGGCAGATGGGGTGGCTATGAGTTTTGCTGGATTAATTGGTGGTCCTGCAAATGCAACTTATGCAGAAAATACAAGTGTTGTTGGTTTAACAAAAGTTGCAAGTGTTTGAGTTACAGGATTAGCAGCCATATTTGCAATAATAATGAGTTTTATTGCTCCTATAAATGAAATAATAAAAATGATACCAGTACCTGTAATGGGTGGGATTAGTTTAATGCTATTTGGAATGATTGCTTCAAATGGAATTAAAATTATGATTGATTCAAAAGTAGACCTTAAAGATGCTAAAAACTTAGTTGTAATATCAGTTATTTTAGCAATAGGAATTGGAATGTCAATTATGAAAGAAGATATTGTAATTGGCTCATTCCATATTACAGGATTATTCTTAGCAACATTTTCTGGAGTAATGTTGAATTTGTTGCTTCCAAAGCATGATAATGCTGGAATTTTAACAATATTTAATAGTTTCAAAAGAAAACCCAAGCAAGATAGTGTTGATAGTAATAAAAAACAAATCAAGAATAAAAAAGATAAATAATTAAATAAATGTCTATGAAATTATGGAAATGATTCAAATTAATTGAATCATTTTTTAATTGACTTCCTAAACTAATATATTTGATTTATAATCATAATTGACAAATCGAGGTGAAATTATGAAATTAAAAGAAAATGTTCTTATTTTTTCAGACTTAGATGGTAGTGCTCTTGCAAGTACACATGAATTTAGTGAATTTACAAAAAATGTTGTAAAGAAGGTTTATGATAAAAACTATTACTTTATTCCAGTAACTGCAAGATGTACAAAAGATACCTTTGAACAACAATCAATTTACTTAGAACTAGACAAGTTAGGTGGAATTGCTGCGGCAAATAATGGAACTCATATATATGATTTTAAAAAAAATAATTGAATAAGAAAAGAATATATCTCTAAAGACACATTGAAACAAATTTTTAATATAACTTATGGAAAAATCGGAAAATATAAAGTACATTTTATTGCAGATGATGCTTATTTTGTTTATGGTCCTGGTGAAAATTCCTTCTATTGATCAGAAATTATGAAAATAGATTATAAAGTAATTGATTCTTTTGAAGAAATTGATAAGGAAATTAATCATATTACCGTTGTTTTAGAAAAGGAACCAAGCCAGGAAAGTATTGAATTATTTTATAAAAATTTTGCTATTATAAGTAATGAACTTGATATAATAAAATATACAGATAGAGTTTATGAATTGGCAATTAAAGGAATTCATAAAGGATCTGTAGTTAAAGAAGTACTAAACTATTTGGGTTTGGATCAATCAAATACAACAACATTTGGATTTGGTGATAGTTTTAACGATTTTGAGTTAGCTCAGGAAGTTGACAATTTTATAGCAATGGAAAATGGTTTGAAAGAACTAAAAGAAAAAGCATCATTTATAACTAAAACAAATGATGAAAATGGTGTAGCTAATTATATAATAGAAAATATTTTATAAAGGAGAGAAAAATATGGCAGTTAAAGTAATAGAAACAGTAGAAGAATTTAATCAAGAAATTTCAAAAGAAGCCACAGTTGTGGATTTTTATGCAGAATGATGTGGACCTTGTAAAATGTTTGCACCGATATTTGATTTAACTTCAAATGAAGAAAGTTCAGTAAATTTTATTAAAGTAGATACGGATAAACTAAAAGAAGTAGCATTAAAATATAATGTTATGTCAATTCCAACTATTATTATGTTTAAAAATGGTGAAGTTGTTAAACAAAATAGTGGGTTTATGCCAAAAGATATATTAAAGCAATTTATTAAATAAGGGGGCATAGGAAATTGATAAAGTTAATAGCACTTGATATTGATGGAACTTTAGTAAAAAGAAGAAATGTAGTATCTAAGAAAAATATTAAAGCCATTAAAGAGGCAAGAAAAAAAGGTATTAAAATTTGTATTGCTACAGGTAGAAATATATCAAGAGCTAAAAATATTGCAAAGGCAATTGGCCTTGATTCAGCTCAAGAGTTTTTAATAAGTTTAAATGGAGGAGCTACTTTTAAATACAATGAAAATGCAGAACCTATTATGGTGGAAGAGCATTTATTTGAATTAGAAGATTTTAAATTTATTTATGATGTAGCTAAGGAAAATAAACTAAGCTGTTTTAGTTATGCAAAAGATCCAAATATTGCATATATTTTAAAAAGAGATTTATTTACCTATGTATTGAAAAAATTTTCTCATAGAAAATTAATCAAATATAATCGCGAAACAGTAAAAGATACTTCATATAAAATTGTTGTTTATGGAAAGCCAAAAGGTATTTCTACACTTAAAAATAAATTAAAGGATAAAGAATTTGAAATGTTTTCATGAAGCTATGTTCCGCATTCTTCTAATGTTGAAATTAATCCAAAAGGTGTTGATAAACTATATTCACTTCAAAATGTTGCAAAGTCTTATGGTATAAAAGCTGAAGAAATAATGTATTTTGGAGATAGTGATAATGATCAAAAAGCTCTTCAATGAGCTGGTCAAGGAATTGCAATGGGAAATTCTAAAAAACATTTAAAAGAAATTGCAACAGATTCAACAAAAACTAATAAGAAACATGGAGTAGGCTACTGAATTCAAAAGACAATACTAGTCTAAAAGCAATCTTAAACAAATTGAAACATAATAAAATATTTTATTATGTTTCAATTTTAATGTAATTTTATATTTTATTAAATTTATAATTTTTTGATTGTTTAAAATAGGGAAATTCTTTTATAAAGGAGATATTATGAAAACAAAATCAAAAATTATATTAATTGCTTTTATGAGTTTATTACTGATGACTTCAATTATTCTTCCCGTGATTTTTATTTTTTCAAAAAATGGTAGAGATATTATTTTGGATAATAAAAGATCAGCTGTTTGACAAACAGGACCTTTAAAGAATGAAGATAAGAAAGAGTTGGAAAGTTCTCATACACTATCTTATTTTTTTGGTGAAACAGAATTTAATTATGCAACTTATAAAAGGGATAGTAAAAATTATACTTTTTATGGCGATGAGCAAAACGTTAAGAGAACAAAAATTTATAATAAAAAAATAAATTTATGAAAAAATGATACATTTGAAGAGCAAATAATTTTATTTAAAAATGTTAATGAAGATGTTGTTAAAAATATTAATATTGAAGTTTTTAATCAAAATGAAGATATAGATGTTTCAGCACATATTATTAATCCAATAAAGAATAATAATACTACAAAAGCAAACAATGATCTAATTCCTTTAGGAGAATTTTATACTTTTGATGAAATAACTAACAATGTAGAAATTAGTGAAATGCCTTTAAGTTTTCAACCAATACTAATTCGATATGCTAGTAAAGATAAATCAAATGTAGGTAGATTGAAATTCAAAATTAATTATAGTATTAATAATGTTATAAAAGAAATTATTATAGATAAAGAATATCAAATTAATAATAAATTAGAATATAAGGTTTCTGATTTTGGATCTAGTGCAATGTTCTTTCCAAATACTTCTTCAAAATTTATTTTAAAAAATTTAAATGAAGTAGTTACAAAAAGAAAAATTGATTATAGTGATGAAGATAATATAGATTTTGAGGATTCTAAAAAATTAAAAAAAATAATTAAACTTGAAAATCCCTTATTGCCAAATGATTCAGAAGTATTTGAAGTAGAAGAAAAAGACGATTTTATAAGAGTTTGATTAAAATCAAAGACATACAAATATGTAACAACTGCTGGTAAACAAATTGATTATATTAATGTTGATTTTTATAAAAAAATTAATCAAGAGTATTTTTTAGATTTAAATAATGAATCACAAGCAACAAAAATTATTGGAAATTATGACTATGCAATAGTAGATGATATTACAAGAACTCTTCCAAAGTACCTAGATACAAACTCTTTGGTTACAAGAGATAATATTTTAGGACGAAAAATTAAAGATATGAGTGAAAGATCAAATTATGAAAGTATATCAGTTCCAAATTTTGGTTTGGGTAATTTTATAAAATATGTTTTCACTCCTCATCAAGATGAAAAAAATGTTATAAAAAGCTTTATGGGTGAAACTTTGGAAGAAGTTTTTAGTAAAACAGCAGATAAAGGTATTTGAGAATTAGATTTTAAAGTATTTGATAGATATGTTAAGTTCCTAAAGGATAGTGGAGTAAAAAATATTTTAATTCCAATAGGTTCAAGAGGAAATTCTAATATGTTTAATTTTTTTGTTAAAGATTCAGACCAAAGAGCTTATCAAGTTGCTGCCAATAGTTTATATGTAGATAGTTATGGTGAAATTACACCAGATGGAATTGCAGTAATAAATCAAATGATACCGTTATTACGTGATCAATTGGCAATTCACGCATCTCAAAATCAAACTATATACGAAGATATCAATATTTATTATTCTTATGATGAATTTTCAGCTGAAGTAAATAATTTATCAATTGATATTTTTAAAGATATTGATGATACATACAAAGACTTTTGAAAAAGTCACTTGTATGGTGGTTGACAATTTCAGTTAGAATCTAAAGATTTTGAAGGTCTTGAAAATGCTTTAGATGTTTATGATTATGTGACTCTCCAACAAAGAGAATTTATTTATGAATTTAGTAAAAGCAAGGATATGCTAGAGGATCTAATTGAATACTTTAATAAAAGAAATTCTGATAATAAAAAAACTCATATATATTCTTCATGAAATAATTACCCAGCAACTTATTTAAATAGTAATGGTTATGAAATGTTATGAGCCATGTTATTTTCATTTAAAGTGGGAGCACATGGTTATGATAGGTATCAAGTAGATGGTTATAAAAATGATATCTCGTTAGATGGTGAAGTTTTAGACCCAACAAAAGAACCAGGAGATTCATTTTATATTTATCCTGGTGATTCAAATGAAATGTTTGATAGTTTAAGATACGTTAATATGATTAAAGGTATTAATCTTGTAAATAAAGCAAAAATTATTTTAAAAGAAAGTTCAAATTATAGTAACTATAAAGATATATTACAATTTGATACAAAAGAAGAAAATAGATATATTAATGAAAAATGAAATTTAAATTATTATGATTTTAATAATAATTTTTCAACTAGAAGTTTATCAGGTCAAGCAACTTATATTAACTGATTAATTAGAAATTATAATTTTTAAAATAGAAATATTAGATTTTATTGATAAAATAAAATCTTTTTAATATTTATTTTAACTTTATTATATTTATTTATATATAATAATGTTATTAAAAACACAAAGGAGAATTACTATGAAATTACAATCAGTAACAAACATCAATCAATATCTAATTACTGAGTGATTTAATGTAGTAATTACTCGTGTTGAATGATTTGAAAAAGTCTTAGAGACTGAAATGCTCCTCCTGATTGCGTAATCCATTTTAATAAATTACGCGTTAAAAATTTAATATTTTTTAAAGGAGACATATTATGAACAACAATAATATTTTAGAGATTAGAAATCTTACTAAAAGTTATGATGGAAAAGTTGTTTTAAAAGGTGTTAGTTTTAATATTAAAGAAGGAGAGTTTATAACTCTTTTAGGACCATCTGGTTGTGGTAAGACAACTACTTTAAATATCATTGGAGGAAGAGAAAAACAAGACTCTGGTGATTTATTATTTGAAGGAAAAGACCTTACTCCAATTCCAAGTAATAAAAGACAAATAAATACAATTTTTCAAAATTATGCACTTTTCCCTCATTATGATGTTTACGATAATATTGCTTATGGATTAAGAGTTAAAAGAGTTAAAGAAGATCTAATAACTAAAGAAGTAATGCAATATATCAAAAAATTTTCATTAGAAGGTATGGAAAATAAAAGGGTTCATGAATTAAGTGGTGGTCAAAAGCAACGTGTTGCAATTGCTAGAGCACTTATTTTGAAACCAAAAATTCTACTTTTAGATGAACCTATGTCAGCTCTTGACGTTCAATTAAGAAAAAGAATGCAAGATGAGTTAAAAGAACTTCAAGAAGAAATTGGAATTACTTTTATTTTAGTAACCCATGATCAAGAAGAGGCTTTGACTTTAAGTGACAGAATAGTTGTTATGAATGATGGAGCAATTCAACAAATTGGCTCTCCAGAAGAAATTTATAATGAACCTGAAAATAACTGAGTAGCTAATTTTATTGGCGTATCAAATGTTATTGGTGATGGTGAATTTATCAAAGACTTAAAAGTTAAATTTGATGGTAAGGAATTTGAATGTACAGATAAAGGTTTTGGAGAAAATGAAAAAAATATTGATATTGTTTTAAGACCTGAAGATTTAAAAATTCAAAAACCAGATAAAGGATTCTTTAATGGTGTAGTTGAAAATATTATTTTTAAAGGTGTCCATTATGAGATAACTATTAAAACAAAAAATAGAAATTATATTGTACACACAACTGAATTTCATGATTTTGATAAAGAAGTTTCTATTAAATGAAATCCCGATGATTTACATATTATGTGAAAAGAGATAGATGAATAATTTAGATAACGAAAAAGACATTATTAAACAAAAAAATAATGTTGAAGTCGAAAAAGAATTAGACGATATTGAAAATATAGAATCTGAAGGAACAGAAATAGAAACAGAAATACCAAAAGTAAAATTAAAAGAAAAAATTCAGGAATTTAAAATTGTTAAGGGAATCAAATCAAAAGTCTGACCAATTATGTTGCCATTTATGGTTGTTATGGGCTTTTTAGTTATACTTCCATTATTGGGAATAATTATATTTTCAATTGTTGAAGCTACAGGCAATAGTATAAAATTTAAACTTGATTTTTCAAACTTTGTTAAACTTTTAACATCAGGATCAATTATGTATGTTTTATTTTTATCACTAATGTATGCCTTCATAGCAAGTATTATTTGTGTTGCTTGTGCTTATCCAATAGCATTAATTATGGCACAACTAAAAAATAAATTATTAGCCAAAAATGTTTGAGTACTTGTTACATTACCAATCTGAATAAGTATGATATTAAAAATTCTTGGACTGAGAAGTTTATTTTTAGTGATATCTCCAAGTGTTTTAGGAACACCAATAGCAGTTATTATTGGAATGGTATATATGTTTTTACCATTTGCAATATCTCCAATTTATAATGCAATTGAAAATCAAGATAGAAATTATTATTTGGCTGCTTTAGATTTAAAAGCTAGCAAGTCAAAAGCATTTTGACATACGACTTTTAGACAATCATTACCAGGAGTTTTTGCTGGCTTTACATTAGTATTAATTCAAGCAGCAACATCACTTCTAATTGTTAGATATATGGGTGATGGAAAAATAAACTTGATTACTTCAATTATAGAAAATTATTTCTTTAGAGGAACTGATTTTACTTTCGGAGCAACAATAGCAATTGCATTGGCATTACTTTTATTTGCAATTATGGGAATTATGAAATTAATTTCAAATAAATTCGAAGTAAGGGGGTCAAAAAAATGAAAAAATTCATCAAATCAAGTTACTTCTTAATAATGATGTTATTTATTTATGTACCAATAGCAGTTATGATTATTTTCTCATTCAATTCTGGAAGTAGTGTTACAAGTTGAAGTGGTTTTAGTCTTGAATGATATAGTGCATTAGTTAATAATTCACCATTTATGAAATCAATAACAGTATCTTTATTTGTAGCAATGGTTTCTACAATAATGTCATTATTAATTGGAATGATGGCTGTTGTGGGACTAACTAAAATTAGAAAAAGATCTTCAGATAACTGAGTAAGAATAGCAAATATACCTTTAGTAAATGCTGATGTTATTACAGCTGTTGGATTAATGCTTTTATTTGTTCTTGCAGGACTAAAATTTGGAATTGTTACTTTGATTGCAGCACATATTTCGTTTAATGTGCCATATGTAATCATTACAGTTCTACCATTTATGAACAGAATTGATAAAAACATTCTAGAAGCTTCAAAAGATCTTGGAGGAAATCAAAGACAAACTTTTTATAAAGTTGTTCTTCCAATTTTAACACCATGTATTATTACTGCAGCTGCAATTTGTTTTGCAATGAGTTTTGATGATTTTATTATTTCTTACTTTACTGGTGGAGGTCAAACTAACGTATCAACTTTTATTTATACTGCAAAAAGAATGCAACCATACATAAATGCTTTTGGAACTTTATTAGTAGCTTCAATTGTAGTTATAGTTTTAATTTGAAATATAATTCAAATTGCTTTACAAAAATCAAAAGATGTAAAAATTCAAATTAAAAAAGGTGAGTATAAAATAAAACTAATTAGTAGAATTGAAAGTGAAATAAAATATCTACAAAGTTGTCTTTCAACTGGGACAAGAACCCAAAAATCGAAAAATTTAAGGCTTTTAGCAAAATATAAATTATTAAAAATACAATTCAAATTATTAAATAGTAAAAATAATAATAAAAAGATTAGTAAATTAGAATGAAAAAAGGAAATAATTTCTTCAGAGATTAAAACTGAAAAAAGATATTTTACAATATTTAAAAAATTGAATATTAAAAAGTCTCAAATTGAATCAAAAATACAAAAAATGACAAATGAGAAAAAGATAAGAAAATTTGAACAAGTACTAAGTAAACTTGAAAGAAAAATTAATAAGTATGAAAAAGAAATTGAATGAATTAATGAAAGAAATGAAATTGATAAAGAGAAAGCTTTGGAAATTGGACAGCAAGTAATTGATTTAAAAGAGGAATTAGCAAATTTAGAATATCCAAATTCAAAAGAAATTTCTTGATATAACAAAAAAATAAAGGAACTTTCTATTAAAAGAGATAGTTTACTTGAAGGAAGAAATCAATACAAATTAAGAATGACTATTGAAAAACTTGCTTTATTACAAAAAGAAAATGAAGAAAAATCAAGAAAAAAATATGAACAATTAAAATTAATTAAATCAAAAGTGTTTAGAAAAATTTCACTTGTTGATTCAATTGATAAACAAATAAATTTATTAGATAAAGATGATGAAAATTATTCAGTTAAATTAGTTGAATTACAAGAAATTAGAGAAGAAAAACTTAAAGAGGCGACTGAAGCAATTAATTCTAAATTATCTTCAAAAGAAGAAAAATTAGAAAAAGTTAATAATTATGTAAAAGCTAAAAGAGATAAATATTTTCCTGATGTTTTAGAAGAAACTTATGTTCCAAAATCAAATAGATGAATTAAAAGAAATTGAAAACAACTTACAATGGGATCAGCTTTGTTAATTTCATTTTCATTATTAACAACAGCTTATATAATGAATAATATTTATGATTTAGTAATTGGAAATTGAGGAAGTTATATTGATGTTAATTTAATTACTAAGTTCGAAAAAGAAACAGGGTATAAAGTTAATTATCAACAATATGATTCAAATGAGTCACTTTATAATAAAACATATACTTTTAATTATGACATAATGGTACCAAGTGATTACATGGTTGAAAAATTAGCTACAGAAGGTGCCTTGCAAAAAATTGATTGAGATAAAGTTGAAACAATTGAAAGCCCAATTGAAAATCCTAGTTCTACAAGTTGTCAAAATTCTTTATTTCAAGATAATGAAGTAGTTCAAGAAAAACTACATTATAATTGCAATATTTTAGAAGCACATGAAAATCATAAATTTAAGGATGCCGAAGATAGTTCTTCTAATCTATTAGATTATTCAATTCCATGATTTTGAGGAGATGTTAGAATTGTATTTAACCTAGGTGATATGGTGAATGGGCAATTCAAAGAAAATACAAAACTAGTAAATTTCTTAAAAGAGCAAGATGTATTTAAAAATCAAGCTAACCAAAAACGTGTATTCTATGAAATTGATCCTGATAAGTTATCATGAGATATTTTATGAAAAGGAGCTGAAGCTGGATTTAATCTTGCATTAAATGAAGATCCAAAAAATGTTTTTATGTATGGTTTTGAAAAACTATATGGAAATGTAGAGGCAAAAGATGGACTTAAAGTTAATGAAACATTGTTAACTAAACAACAACAAATTGATAATGTTTCAAGTGAAATTAAAAATCTTGTAAGTTATAGAAATGTTGGATTATATGGTGATCAGCTTCAAGATAAAGTTCATGATAGAGATTTTGATATTGCAGTAATGTATAATGGTGATTTAATTTATGCAACCCAAGATGATTATGAAAGTGAAGTTGAAGAAGATAATTTGAAGGTGGTTCGTGAAGAAGCACAAACAAATAGTTTTGATTTTACAATAATATCTGAAGTACCTAGAAAAGATTTGACCAATAAAAATATTAAGATTTTAGATAAACAAGTTAAAAAAGAATCAACCAATTTATGAAGTGATAATCTTGTTATTTCAAGTGGCAATAGACACTTAGAAGCGACTTATGCATTTATAAACTTTATTTATAGTAGAGATTCACAAGAAGCTCTTGTTGATGAAACAGGAATGCCTACTGGATTTCAAGAAATATTAGAATATGGTATGACAAAAGGTGATGAATGAGAGAAATGATTTACACCTCAAGAAGGAGATTCATTTAGTTTTGATGAAAAATTTGATAATTACTTAGTTGATAAATTTAATCAGATAATTTCAACTAAACATTAATAAAAAAATGCAATATTTTGCATTTTTTTATTTTTTAAAGAAAAATATGATTATTAATTTTATATTTACTAAAATATTTTTAAAATAATAAAATATTTTAGTAAATAATTCAAAAAGTAAATAATATAATTCTTAATTTTATTTAGATGGCTTCTTTAGTTATAATTTACTAGCAAATTACTTTCTAATTTTTTCATCTTAGTTAAATAAATAATTATATTTTTAAGGGCGAATTTTAAATTTAATTAATATTATTTTTTACTAAAAATATTCAAAAGACTACTGTATTAATAACATTATATTTGTAAATATATTATTTTTTTTAGTATAATCATTTAGGTAATGGTACCATAGCCAAGAGGCTAAGGCATGGGACTGCAACTCCCTGATCGTCGGTTCGACTCCGACTGGTACCTCCATTATTGAAATAAAGGAGTTTAAACACTTCTTTTTATTTTATTTATTTTTTGCAAAAAGACACAAATTATCTTTTTATTTGCTATAATAAATATTGTCAATTTTATGCAAAGTTGATAAAAAACTTACAAAATGTAATATAATATTTTTGGTTGTTTTCACACAAAAATGCGCCCTTAGATCAATTGGATAGATCGTTTGACTACGGATCAAAAGGTTAGGGGTTCGAGTCCCTTAGGGCGCGCCATTATTGAAAATTACCATGAATATTATTAAATATTCATAACTTCGGGAAGTGGCTCAGCTTGGTAGAGCATTCGGTTTGGGACCGAAGGGTCGCAGGTTCGAATCCTGTCTTCCCGACCATTATAATTTAATATTTTTTATATATGGGCCCGTAGCTCAGCTGGGAGAGCACCTGCCTTGCACGCAGGGGGTCGACGGTTCGATCCCGTTCGGGTCCACCATATATGGCGGGGTAGCTCAGCTGGTTAGAGCGCTCGGCTCATACCCGGGAGGTCAAGAGTTCAAGTCTCTTCCCCGCTACCATATATTTATTGTTTTTATTATTTTGGACCTTTAGCTCAGTTGGTTAGAGCATCCGGCTCATAACCGGATGGTCATTGGTTCGAGTCCAATAAGGTCCACCATTCATGATGACTCTATATTGATCATGATGGGGCAAACAAAATACGGAAGATTACCCAAGCCTGGCTGAAGGGGTCGGTCTTGAAAACCGAGAGTCGGGGAAACCCGAGCGGGGGTTCGAATCCCTCATCTTCCGCCATTTTTATCGCGGGGTGGAGCAGTTGGTAGCTCGTCGGGCTCATAACCCGAAGGTCGTAGGTTCAAGTCCTACCCCCGCAACCATTTTGGCCCCATAGCGAAGTTGGTTATCGCGCCTCCCTGTCACGGAGGAGATCACGGGTTCGAGTCCCGTTGGGGTCGCCATTATTGGTTTTGTAGCTCAGTTGGTAGAGCAATTGATTGAAGCTCAATGTGTCGGCGGTTCAATTCCGTCCAAAACCACCATTAAATGAATAACAGACGTCATTCAATGACGTTTTTTTAATGAAATATTTTTAATTAAAAATGCTTTTTTATTGAATTTTAAAAAGTAATATTTTATAATTAATATTGTTTTACGGAGTATAGCTCAGCTGGTTAGAGCGCACCCCTGATAAGGGTGAGGTCGGTGGTTCAAGTCCACTTATTCCGACCATTTAGAATTTAAAGATACCATTATGGTGTCTTTTTTTATTTTATGTATGTATAATAATTAAAGACTTAAAGAGAGGTGGTAAATATGAGTATTCCTTCCGAACAGGTACGAAATTTAATTATTCAAAGCAAGATAAGAAGTAATGCTAATTTATCGCTTTTTTTTGTATTGTCAAAATAAAATTATAAGTTAGCTTTCATAAATAAGGAGAACGATGTTATGAAAACTAAAAATAAAAAAGTAAATAACAATTATAATAATCAACTATCAAAGTTTGTTAAATTAGATCAAGAACAAACTTTAAAAAAATTAGAGATTTCTAACTTTGGGTTATCAGAAACTGAAGTAGAAACTCAAAAAAACAAATTTGGAGATAATTTACTAAAGGAGAAAAAATTTAATTATATTTTGTCTTTTATTAAGGCATTTTTCAGTCCTTTTAATTTAATACTAATTGTAATTGATACATTTAGTTTCTATCAATATGCAACTGATCCTGAACTATCAGATCTTGTTGGAGCACTATTAGTTTTAACAATGATTATAATTAGTGGAACTATTTATTTTGTACAAGAAATTAGGTCCTTTCATGTTATTAAAAAAATGACGTTTGAAAATAAACATATGACTAAAGTTATTAGAGATGTTGATTTTAAAATCACAAATATTGATAATGCAAATTCAATAAAATTAATTAAAGAAAGTGAACAAATTGAAACATCAGAACTTGTTCCTGGAGATTTAATATATGTTTCAAATGGGGACTTAATTCCAGCTGATGTAAAAGTTATTTGATCAAATAACTTATATTTAAATCAATCATCATTAACAGGAGAATCTTTTCCTGTTCAAAAGAAAACAATAAATAATAAGGAAAATTATTTAGAATATGAAAATGTATGTTATATGGGAACTGAAGTAGTTTCAGGTTCAGCATTATGTTTGGTTATTCAAACTGGACAAAAAACTTTCTTTTCTGCAATTAATGATAAAGTTACAGAAAAAAGAAGTAAAAACTCTTTTGAAAAAGGAGTTTGAAAAATTACAATGTTGTTAATTTCATTTATGTTAGCAGTTACACCAATTGTTTTCTTAGTTTTTGGATTAAGACCAGCAACAATTGACCAAAGATGACTTTCTGCTGCATTGTTTGCAATTTCAATTGCAGTAGGATTAACGCCAGAAATGCTGCCAGTAATAGTTACTGCAAATCTTTCAAGAGGTTATGCAAAAATTAAGAAAGAAAATGTTATAGTAAAAAACTTAAATGCTGTTCAAAATATGGGTGCTATTGATATTTTGTGTACAGATAAAACAGGAACAATTACAAGTGGAGAAATTAATCTTGATCATGTTTTTGATATAAAAAATCAAAAAAATGAAAAGATTGAACATATATTATATTTAAATAGTTATTTCCAAACAGGATTTCAAAATCCAATTGACCAAGCCGTTTTATTAAGTAAAAAAATAAGTATGCCAAATCTTGAACAATATTCAAAAGAATGAGAAGTTCCCTTTGACTTTCAAAGAAAAATTTTATCAGTCATTTTATCTAAAAATGGTGAAAAAGAAATTTTTACAAAAGGAGCTATTGAAGAAGTTCTGAAAGTATGTGATCGTATTTTTATTAATGGTGAAATAGTAAAACTTAAAAAAGAACATATTGATAAAATTATGGCAAAATCAAATGAATATAATAATGATGGTTTTAGAGTTATTGGTATTGCACATAATGAATTAGAAGATGAAGATATTGAAGAAGACTTAGTATTTTATGGTTTTGGAACATTCTTTGATGAACCAAAAAAAACTTCAAAAAAAATTATAAAGGAATTAGCTCAAAAAGGAATTTCAACAAAAATTTTAACTGGGGATAATGAAATTATCACAAGAGCTATTTGTTCTAAAGTAGATTTTAAAATTGATAAATTATATACAGGAAAAGAAATTGATTCAATGAATGAAGAACAACTTCATAAGGCAGTTCGTAAAGGAAATGTTTTTGTTAAGTTAAGTCCTATACATAAATCAACAATAATAAGAGCACTTAAAGAGCAAGGCCATGTCGTTGGATTTATGGGAGATGGAATTAATGATGCTCCAGTTTTAAGAGAATCAGATGTTGCAATTTCTTTTGATGAAGCTTCAAACATTGCAAAGGAAGCAGCAGACATTATTTTAATGGAAGAATCATTACTTCCAATTAGTCATGCAGTTCATGAGGGAAGAGTTTCTTTGGCAAATATTTTAAAATATATTAAAGTTACAATTGCTTCAAATTTTGGTAATGTACTTAGTGTTCTAGTTGCATTATTTTTAACAATGTCAGAGCCAATGCAACCTTTACATTTACTAACTCAAAACTTATTATATGATATAGTAATGTTTGCATTTATTTTTGATAAAGTGGATAGTAAATTTACTGATAAGCCACGACCATTAAAAACAAAAAATATAATTTGATTTACAGTAATAAATGGACCTGTAAGTTCAATATTTGATATTTCAACATTTTTAGTTCTATTATATGGATATCACATTGTTAACCCAGGAATTGGTGCAGGTGTACAACCACCAAGTGAGGGGTCATTAGAAATCTTTAATGGTAGCTGATTTGTTGTTGGTTTAATGACACAAACTGCAGTAATGCAAATGTATAGAACTGAAAAAATTCCTTTCATTCAATCTAATGGGTCATGACAAGTTACTGTTTCAACAATCTTTGTTTGTTCTATGGCAGTAATTGTTCCTTATGGGTTTATGAGTATTGATGCAATTAGTGATGGTATGAAAATGGGTGTACCAAAATGGTCATTCCTACCAATTGCATTAAGTTTTGTTGCAGCATATATGGTTTTAGCCCAAGCTGTAAAAATGCTATACATAAAAATATTTAAAGAATGACTATAAAAAACTTAAACTTATGTTTAAGTTTTTTTGTTTATTATTAAACATTAACACTAATTAATATTTAAGGTAAAATATTAAAAGTTAATAAAAGAGGTAATATAATGGAATTTTCACATAAAGCAATAGAAAAAAAATGACAAAAATTTTGAGAAAAAAATAATACGTATAAAACAACAAGTAATAAAGATAAGAAGGCTTATATACTAGATATGTTCCCATATCCAAGTGGAGCAGGTCTTCACGTTGGTCATCCGAAGGGCTACACTGCAACAGATGTTTTTGCAAGAATGAGAAGAATGCAACAATATGATGTACTACATCCAATAGGGTGAGATGCTTTTGGGTTACCAGCAGAGCAATATGCTTTAAAAACGGGAAATGACCCAAGAGAATTCACAGCTAAAAATATTATTACTTTTAGAGAACAGTTAAAAAAATTAGGTTTCAGTTATGATTATAATAAAGAAGTTAATACAAGTGATCCAAATTACTATAAAATTACTCAATGAATTTTTCAACAGCTTTATAAAAAAGGTTTGGCTGAAATTAGAGAAGCAAGTGTAAATTGATGTGAGGGGTTAGGAACTGTTCTTGCAAATGAAGAAGTTGTTTCAATAAATGGGAAAATGGTTTCAGACATTGGTGGTTTTGAAGTAGTTAAAAAACCAATGAAACAATGAGTTTTAAAAATAACAAAATATGCTGATAGACTATTAGAAGGTCTTGACTTATTAGATTGACCAAATTCAGTGAAAGAATTACAAAAAAACTGAATTGGAAAATCTGAAGGAGCAATTATTAAGTTTGATGTTAAAGATAATAAAGAGAAAATAAATGTATTTACAACAAGAGCAGATACAATTTTTGGAGTTTCTTATATTGTTCTTGCTCCTGAAAATAAGTTAACTTTAAAATTAACTAAACCAGAAAATAAAGAGCAAGTTGAGAAATATATTACTTTAACAAAAAGTAAAACTGATGTTGAGCGACAAGATGATTCAAAAGAAAAAACAGGAATCTTTACAGGTAGTTATGCTATAAATCCTTTTACAAAAGAACAATTACCTATTTGAATTGCTGATTATGTTTTAAATGATTATGCAACTGGAGCTGTAATGGCTGTCCCTGCACATGATGAAAGAGATTGAAAATTTTCATTAAAGTATAATTTAGCAATAAAATTTGTTTTAGAAACTAAAGATGAATCTAAAGCATTTGTTGGTGAATCAAACTTAATTAATTCAGATTTTTTAAATGGTTTGTCTAAAACAAAAGCTATTGATTTAGTAATTAGTAAATTGGCAAAGGAAAAAAAAGCTGAAAGAAAAATTAACTATAAATTAAGAGATTGATTATTTTCAAGACAAAGATTTTATGGAGAACCTTTCCCAGTAGTTTTTTTAGAAGATGGTCAAATTGCTTTAATTGATGAAAAAGATTTACCATTAGAATTGCCAAAAACAGACTATATTAAACCATCAGGTACTGGTGAATCACCACTGGCAAATTTAACAAATTGAGTAAATATAGATTTCAAAGGCAAAAAAGCGAAGAGAGAAACAAATACAATGCCGCAATGAGCAGGAAGCTGTTGATATTATTTAGCATATATTTTAACAACAAGTCCTAATAATTTGGTAGATATAAACTCAAAAGAAGCAATGCAATTATTTAAAAAATGATTACCAGTTGATCTTTATATCGGTGGACAAGAGCACGCTGTTCTTCATTTACTCTATGCAAGATTTTGACACCAAGTATTATTTGATTTGGGAATTGTACCTTCAAAAGAACCATTTCAAAAATTAATAAATCAGGGGATGATATTAGCAGATAATGGTGAAAAAATGAGTAAATCAAAAGGGAACGTAATTAATCCTGATGAAATAATTGAATCACATGGAGCTGATACTTTAAGGTTGTATGAGGTATTTATGGGTCCCTTAGAAGCTTCTTTACCTTGAAGTTATAAAGGTCTTGATGGAGCTAGAAAGTGACTTGATAGAGTCTATAGAATGATTGAAAATATAAAGTTAACAGATAAAAATAATGGCAATTTAGATTTCATTTATAATGATGTTGTTAAAAAAACAACTCAAATGGTTGAAGATTGCAAATTTAATACTGCTATTTCTCAATTAATGATGTTTGTAAATTCTGTTTATAAAGAAACACAACCAATTTATAAAGAGTATATTTTTAATTTCATTAAAATGTTGTCAGTTTATGCACCTCATTTAGCTGAGGAATTATGAGAAAAACTTGGTAATAAATCTAGTGTCTGTTTAGAAAAATGACCAACGCATGATGAAAGTAAATTATCATTATCAATTGTTACTATTGCTGTTCAAGTAAATGGTAAGTTAAGAGCAACATTTGAAGTTGATAAAGGTACTCAAAAAGAGTTATTAATTGATAAGGCTAAAACTTTAAATGTAATAAAAGAACAAATTAAAGGTAAGCAAATATTAAAAGAAATAGCTGTTTTAGATAAAATTGTAAATATTGTTATTAAATAATTTAGATTAAAACATTTTTATGTAATTTACATATTTTTCAACTACAAGAGAATATAATAAAAATATTAAAGGAGGATTTTTTATGGATAAATTAATTTTAAGTAATCTTCAAGATTACATTAATGAACATATTAAGATGCAAATAAATTGTTTTAATATGAGTAGAAAATGTGATGAACTTGGCTACCCAGGTTTTACTCATTTTTTTCAAGTGCAAGCTCAAGATGAGTTTTTACATCAAAGAAGAATAATGAATTATCTTTTAGATAAAGGTCAAGGATATAAAATTTCTTCAATAGAAATCAAAAATAAGGATTTTAAAAATATTGTAGAAATTTTAGAAGAGTATATTACTTGTAGAACACATTTTGCTAAAATTACAGACGAATTTACAAAAAATGCAAAAGATAAATCTGATTTTACAACAGTAAAATTCTATGAATGATTTGCCATTGATTTTTTTGAAGAAATATCAGAAACCAATGATTTACTTGATTGAATTAAAATGTCTAATGGAAATCACTATGAAATAGATAAGAAAGTATTAAAAAGAGAAAATCCAAATACTTTAGCAGTTATTGACCCATTTGCACCGCATCAAGATTAAGTATTAATATCAGCCTTTTGGTTGATATTTTTTAATTAACTAAAAATGTTATAATAAAAAGGACAAAAGTGAGGGCTAATTTATGTCAAATATTATTGAAAATAATGCAGTTAAAGAAATAATATTAGATTTCTCATTTTTACAAAATGTTCAATTTAAGGAAAATCCAGCAGCTTTAGATCAGATAATTGAGCAGCTAGACATAAGAGGTATAAATACTTGTGTGGAGTTTCAAAATTTCTTAAGAAGCTCATTGGCTAAAAAATCCTTTATATGTCTTTTAGACAATAAAACTAGACAATTTTCTAAAAAAGATAAGAGCAAATCATCTTATAACGGAATTATAAGAATTGAGCTAGATTCTAAAAATCAAAGTTTACTACCTGAGGGAACTTATCTAGGATTTTATGTAAATATTGATACTATGAATGCTTCTTTAATCATAAGTTCTATATTTATGACAAGATTAAAGCCATTGGCTCAAGAATTTGAAACAATAATACAAGAATCACAAATCTTAATAATTAGAAATCAAGGTCAAATTAAAGATGATGAGTTAATTAGAAGAAATGTTTTAAACTCATCTAATATTTCACAAATTGGTAAATTATTATCAACATTTGAAGAAGAAAAAGATAAATGGTTAAACTATTTAGAATTTAGTGATGACCTATTAAAATTGGATAGAAAAAAATCATTGCCCTATTTAGGGTTGAATTATCAAAAAGTAATAAGAATAGATAAAATTTATTTTGATTCAAATTTATTTGAATATGAAATAAAAGAATTTAAGACGAAAGCTTATAAATATTTATTAGTTAATTCTGAATCGTATTTGAAAAGTAAAAGAATTCAATATCAAATATCTTATGTAGTTACACTTGATCTTTTATTAGATGAACTAGAAAAAGTTAATAAAATTAAAAAAACAAAAGATTTATCTTTAGTTCCAATAAAAATGAATAAGAATATTTTAACAACTCATGAGCTTGTTAAAAATATTTATGAAATTTTTGATTTTGACCTTGATAAAATAAATGAAATAAAAAACATTTTGCAAGTTTCAAATATGTTGGGTGTTTTAGAAGAGGAAATAACTTTTGCAGATTATTGAATTAAGAATAGTAAAAATATTTTCCTTGGAGAGAAAAAAGAATTTGATACATTAATGAAAAATAATCCTAAAGAAATGCAACAATGAAAAATAAAAAAAATAAATTTTGAAATAGAAGAGGATTTTGATGAATCACTTTTTTTAAATAATAATTTGGAGTCTTTAAGTTCAGGCTATCTTGCATATACTGGTATTGGTGAAGACGTTTTAATTGAAAGATCTAAGCAAGTTATTAAAAAAATATCAGAGGGAAATACAAAAAACCCTTACTTAATTAATTATTTATTTAATACAAAATTAGTAGAATTATCTGAGGTTTCAAATGATATTAAAATAGATGATGATCAGTTCACTTTTACTTTAAATTCAGAACAAAAGGAAGCTGTAATAAAAGCTGTTAATACAAAAGATATTTTTATTTTACAAGGTCCTCCTGGAACAGGTAAAACACAAGTTATTAGTGAAATTATTACTCAATTAACTAAACTGAACAGAAAAGTTCTTATATCAAGTCAAAATCATGAAGCCATTAAAAATGTTGTTGATAGATTACCAATTGACCCTAATCTTAATAAAATAAGATTAACAAATCAATTAAATATAAAGTCACAATCTTCAAATGGTTATTCTCCAGATAGAGTGCTTTACAATTATTATAAGGCAATTGGAAAAAGAGCTTTTGATGATATGACAAATGATGAAAATCTAATAAGAGAATTTAATAATTATAAAAGTGAATTGGAACGATTAATAAATGCAAATAAAAGTTTTTATCAAAATAATACTCAAGTTAGATTAATTCAAGAAAAAATTGATGAATTAAATAATCAATTAATATCTTTTAAAGAAAAAAACTTAGATAAAATAAGATCTAAAAATTTATTAAAGGAAGAATTAATTAATGTAACAAATTTAATTGAAACAATATCTACAAAGGAATTTGATGCTTCTATTAATGTAGGAGAAAGAATAATTACTTGTTTTGAAAATTCAATTAAATTTGAATTAAATAATTTTGTATATATGAACTTAAGTTTTGAACCAAATGATTTTTTGAATCCATATTTATTAATAAAGGAAATTGTTAATGATATTTTTTATAAAAATGAGGCTTTCTTAGAAATTAAAAAAGCAAAATCAATTTTAAATAAATATAAAAGAAATGCAGATTTTGATTTAGCTGAAAAAGAAGAAAGTAGAATTCAGGGATTAGAACAAATTTTAAGAACGGATACTAAAATTAATGAGTTAAATAAAATATTTGAAACTTTCTTAGTTAGTTTGAGAAATTTGAAAGTAGAGATTGAATTAAGATTACAAAATAGAGAAAATGAAACTTTTATTGATCTCGATTTAGATAAATTAGAAATTGAAAAAAATCAATTGATAGTAACAAAAAATAATTTAGGAGAAAATGCTGGTTCGAGTGCAAGAGAACTTAGAGAGCTCATAAAAATTGTCAATGATAAATTTTCTTTAAATTTAGGTCTAACAGATATTGATTTAGAAGATCAAGTGAAATCTGAACTAAAAAAATTAGAAAAAAAATTACAAGATGGTAAAGAAAGAAAAGAAAATTTCTCAGAAATGTATAACTCAATAATTAATTATTTAAATAACAATTATAAAATAACTAATAATTTTGAAGAAGAATTAGCTTCAAAAAATTTTACGGGACAAACTTTTAAAGATAGTCAAAAATATATAAATACTATTTTAGATAATTTAGTTAATGTATATTCAATGACATTAACTTCTACTAATTTATTTAAATTTACAAAAGACAATTTTGCAAATAAATTGGGATTAGAAGAATTGAATTTAAGAAATATGGATGTCGATGTTGTTATAATTGATGAAGCTTCAAAAGCAACAATTATAGAAATTTTAATGCCGCTAATTTATGGGAAAGCATTAATATTAGTAGGTGATTATAGACAATTACCTCCAATTTTAAAGTTGCAGCCAAATGATGTTGAAGATGTTAATAAGCATTTTAAAAAAGATTATAGTTATAATTTAATGTACGAATTATTAGATGACTCTGCATTCAAGAAACTTATTGCAGCAAAGAATAAAAATATAACTACAATTTTAAAAACACAGTATAGAAGTCATGAACAAATTATGGATATTGTAAATAAGTTTTATGATGGACAACTAAAAGTTGAATCACAAGTAAGTGAGCAAAAGAGACATGATTTAAAAATAGTTAATCAGTTTAATAAAGAAATTATTAATTCAAGAAATTCTGTGTATTGAGTTGATTCTACATATAATTTAAAAAATGAAATTAGTTATGAGCAAAGTGAAGAATTCTCAACAAGTTTGTTTAATGATCTAGAAATAAAAATAACAAAGGAATTATTAACTAAACTTGATAAAGCTGTGTTATCTAAAAATCTAAAATTAAAACCAAGTGTTGCTGTAATTAGTTTTTATGGACTACATGTAAATAAATTAAAAAAAGAAATTAATGCTTCAACTTTTAAAAATATAAATTTAATTATTAACACGGTTGATGATTTTCAAGGAAAAGAAGCAGATTATGTTTTAGTGAATCTAGTTAGAAATCCAGAAAAGTTATCAACTAAATCTGGAAGAGATTTTTTAAAGAAATATGAAAGAATAAATGTTGCATTTTCAAGAGCAAGAGAATTGTTAATAATAGTTGGAGCTCAAAGAGCAGTAAATGACATAACAGTTAAAATACCAACGATTGATGACCCAAACATTTCAAATAGTCATCAGGTTTATGCTGACATAATTTCAAAACTAGATTTTGAAGGAAGTTTATTAAAACCAAATGAAATAATGGAGGATTAAAAAAATGATATTTAATAAAATTGAAATTCAATATGAAAAATTTTATTTACCATTAAAAATAAAGTATTCTGAAATCAGAAAGCCTACATTTATGGAATTTTTAATTTTATTAATTATAATAGAACATCCAAATAAAAATAAAAATATGGAAGAGATTTTGGAAATTGATTTTAACATTAAAAATAAAATTCTTTTCGAAAGAGCTTTAAGAGAACTTATAAATTTTAAAGTAATAGAGATTGGAAAAAATAAAGTTGGAGTAGGCCTTTTAAATATGCATACACCAATAAAAAATTTCTCAATTGATTTAAATTTAAAAGAAGAATTCAAAAAGGGAACCTATACAATATCTCAAGATAATAAATTTCAAGATGTAAAATTTTTTGCAGATCCTATTTTTAAAAATAAGGAAATTATTACAGATATTAATTGAAAAAAGAGAGTAGCAGATGTTAAATTTACACACAAACTTTCTATATCAATTGATAAGAAAGAATTTTCAAATAAGGAATGACTTTATAGTGGATGTTCGGAATTTATAAAACAAAATTCTGATATCTTTGGAGATAATTCATATTTGAGAGATGTCTTATACGATGCCCAACAATCAATACAAGACGCACACAATTTTGAAAAATACATTCAAGTTGATACAGCAGCAATTGAAGCTTGAATTGAAATATTTGATAATGGTGCTTATAAAATTAAAACAGAAAATAAATTATTTGATGATTATTTAAGATTAAATCCAAAGATGAGTTTAGATATTTTAAAAAGTATTTTAAATAAATACGATGAAAAAATTAAAAAATTATTTATGCCAGAATTAAATTTTAAAAACAAACCAAATTTTATGCCTAACTGTGATTTATTCTCCAATTTAAATATTAAAACAAGCTATAACTTAATGTTAGTAAATGATCAATTTATAAAATCTGACGACGAAATTATAAAAAGTAAAGAACTATCTAAAAATATAGAAATAATTATTTTTTATAACTCAAAAAGAAATACAAAAGTAGTAACTACAGTAGATAATAAATTAATTTTCTATGTTGATTATATTGATGATGAAATATTACAAAATAATTCTTTTGTTTATTTAGATTCAAAAAATGCATCGAATAGTTTTTTATTAGCTAATAAATCTTTTGATTCCATTAACATTAATATTCCTGTTATTTATAAATACAAAAATCCAATTGAACCAATAGAACTTACAAAATTATTTTCTTCAAAAGTTTATGATGTTTTAGAAAAATTTGAAGACTCACTTATAAATAAAAAATATGATATTTCAATGAATATATATTTAATTTTGGAAAGACTTGGATTAGAAGAAAAAGTGTCTTCAATTTTGGAAAACTTTTTATTGAAAAGCATAGACTTTGGACAAAATTATAATGATATGAAAGAACATTTAGCAGAAAAAACTGACAGAAAATTAGCTTTAATATTAGAAAAAGTAGCAAAAAGTTTAATTATAAAAATTTCAAATGAAAGAACGGATGAAGAGTTATTTGATATATTAGAGAATTATCAATTCATTGATACAAAAAATATATTAGATATATTTGATAAAATAAATATGCAAAATACAATTCAAAATATTTATAAAATCAATAGCTTTTTAGAAAAACACTCAATTGATGGATGAAAGTATAATGTTAGAGATTCATTAGTAGTATTAACAAAATTTTTTAAAATTAATAATAGAGCAGAGATGTTTGATGAAAATAAATATACATCAGATGTTTGAAAGCAACATGCTGAAACTTTAAATATAATTGGAAAAATAACAAAGGAGCTATATACTACAAATTATAAATTTGTAGAAGAAAATTATAAATATTTATTGGACTCAATTATAGAATTAGTTGGTAATTCATTAGATATTGAGAATTTTGATCAATATGTATTAAATCTTTCTGAATCACTAATAGATTTTTATAAATACTATTATAAATATAAAAGTGAGCAATTTCCTTTAATGACAGAAGATTTAGTAGATTATAAAGTTAAAATTTTAGCAGGAAATTATATAAATAGAATTGAAAATGAAATAAATGAATTTATAGATAAAAAGATATATAATATGCCAATTGAGTTAAAATTAGTATGAGTTAAGAATGTTTTAAATAAACCTGAAGTTGTTGATAAAATTTTAAAGAATAATGATAATTATTACAAAAAGGCTTTAACTATTATTTTTGGTAAAGAAAGAAAATATACACAAGCTGATTTAACAAAATATAATCATATGTTTGGAGGAAAATAATTATGAGTATGTCTGCTGAAGAAATTCTTATTAACTGTGAAAAGCAATTTTCTTTCATTAAAAAAGACATTGATGTTTTAATTGAATATATTATTGAACTAATTTCACAATGTGAACAAATTGATAATTCAGGATTTTATAAAAAAGAAATTGAAAAATTACTAGAGCAATTAAAAAGAGAAAAAACTGATTTAGCCAAAAACACTTATGAAAGAGAACTTTCTTCAGATACACATATTGCAATTGAAACTTATCATGAAATCCAAAGATTTGCAGAAAGAAAACGAGAAACAATTGCTGAATTTAAAACTCAAGTTTATAGTTTTAAAAAAGATGTTTTAATAAAAGAGCAAGAAAATATTTTAAAAGCTTTTAACAAAGATATTTTTAAAGATTTAAATAGTTTAAAAAATGAATTAATTGCTAAATACAAAAATGACCAAGATAAGATTTATATTAAAAAAATGTTTGAAACTAATCAACATAAATTAATTAACAAAACTTCGGATCAAATATATAGTTTGATAATGGAAGATTTAAAAGAATTAAAGGCGTCTAATCAAGTTATAGCAAAAGAAATCATAGGGGATTCAATTCAATTATATAAAGAAGATCTAGATGTTATAAAGGCAATTAAAGATTCAGCTAATAAATTAAGCTTACTAAAAGAATCAAAAAATTTTCAAAAAGATATAAAACAATATTTTTTAAGTTCTTCTAAATTAGCAGAACAAGAAGCAATTAGAAAAGATAATGTTATAAAAATTGTCAAAGCCATAAGAGAAGTTGGGTATATAGTTAAAGAAGAAAATATCAGAAAATTAGAAGAAAAAAATATGATTCTTATACATGGTGAAAAACTAACTGGTGAAACAGCTGACTTTGTTGTAAAATTAGATGGAAGTTTTGTTTACAATTGAGAAGGTTTTGAAGGGCGTGAGCATGATAGTGATGCCCAAGCTTTTATAAAAAAACTCAAAGAGTTTAACTTACATTCAAGTGATGAATTTAATAAACAGTATAGAGAGCCAAAATATATTGCCAAAAATAGGCAAAATATAAATAGTAAAAAAAATAAGAACTCAAGTAAGTAGGTGAATTTATGAGTGTAAAAAGAGAATTAAATCAGTTAAAAAATTTAATTGGAATTAAAAAGGCAATTATAATTGAGGGAAATATAGATGATATTTATGAGTTTGATGGTAAATATATAAATATTCACGACATTATTTTCAATATTTTTGATTACAAAAAATATTCAGATAAATTTATTTTTGATCAAAATTCGGGTCTTAAAGGAAAAAAAATTACTAATTTAATAACTACTTCATCAAATAGACACAGTAGTAATGATTCTATTGGCAATGAATTTGAAGAATTATTTTCTGGTGATATTGACAAAAGTGATTATAAAGATCATCTAACTTTAAAAAAGCCAATTGATTTTTTTGTTCTTTTAAATAAAAATATTAATAGAGAAGATGAAAGAAAAATTGGATTTATAGCAGATTATACTAATTTTGTTTTTAGTGACCAAGGATTAGATATTGATGATAGAACTGTTCTAACAGAATTTTCAAAAACTTTAAAAGAATCTAATTTTTCAATTTCAAAAATTGATGAGTTAACAAATTGTATTGTTTTTTTAACTAAAAAAATAAATCAATTACCTCCAAGTTTATACTTAGATAATCCTGAAATTATCATTTCAACTTTACCAAAACCAAGTAGAGATGAAAGAAAACAATTTTTATCAACAATAAAATCAAGAATTCAAGTTACTGATATATCAACTGAATTTGAAAATATAATTGATGCAACTGAGGGTTGAACATTAAAGGAATTATCTCATTTTGCAAAATTTACTTGTAATTTTGACACACCACTTGTTTTTAGTAAGATGTTCAATATATATAATTATGGAGAGAAAACCTCTCCATGAGAAGAATTAAGTTATGAAAAAATGTTAACTATAAAAGAAGAGCTTTCTTCAAAAGTTATTGGTCAAGATGAAGCAGTTGCTAAAGTGGCAAAAATTATTTATAAAGCTTATACTGGCTTGACTGGAATTACTTATTCTTCAAAGAGAAGCAAACCTAAAGGAACTTTATTTTTTGTAGGTCCAACAGGGACTGGTAAAACAGAACTTGCAAAAGCAATTACAACTTTTTTATTTAATGATGAGGCAAATCTTATAAGATTTGATATGTCTGAATATGGACAAGATAATGCTGATCAGAAATTAATAGGAGCTCCTCCAGGTTATGTTGGTTTTGAAGGTGGTGGACAATTAACAAATTCTGTTAAGGAAAAACCATTTAGTGTAATTCTTTTTGATGAAATTGAAAAAGCTAGCCCTAAAATATTTGATAAATTTTTACAAATTCTTGAAGATGGAAGATTAACAGATAATACAGGACAAACAGTTAGTTTTAGTGAAACATTTATAATATTTACTTCAAATATTGGAGCTGCCGAAGTAGATCCAAATCAAGATTCAAAAGCAGTTCACAATCAATTTATAAGAAAAGTTCAAGATCACTTTACAAATGAATTAAATAGACCTGAACTATTAGGAAGATTTGGAAATAATATAGTTCCTTTTAACTTCATAAAAGATTTGAATTTGAAAGCAAAAATTATACGTCAAAAAGTTAAGCCAATTCAAATTGCAATTTATGAAAAGTACAAAGCAGAGTTACATATTGATTTAACGAATAGAACTGTAATTGAAATTTTATTAAAGAATGCAGATGAGAGAAGAGGAGGAAGAGATGTTTTAAACTCTCTTGAGACTAACTTAGTAGATCCACTCTCAGAATTTATTTTTAATAATTTAAGAAATATAAAAATGGGAACTAAAATTTTGACTTCAACAAATGAAGGAAAGATTGTATTTAATATTAATGGCTAATTTAAATATTGGAAAGTTTCTTATGAATAGTGAAATTGAAGGACCAGGAACAAGATTTGTTATTTGATTTCAGGGATGTACAATAGGTTGCAATGGTTGCTCAAATCAGGAGTTATTAACCTTAGAAAAAAAGATGTTTATGCCAAATGAGTTTATTTATGAGAAAATCTTAGAGGCAAAGAAATTATTTAATATTGAAGGCATTACTCTAATTGGAGGAGAACCTTTTTTGCAACCTGATGGTTTAAAAGAACTTGTCATTTGAAGTCAAAAAAATAATCTTTCAGTAATTTGTTTTACAGGTTATATTTATGAGCAAATGCTTGAAGAACATAATGAAATTTTAAAACATATAGATATTTTAATCGATGGACCGTTTATTATGAGGCTTTTAGATAAAAATCGAAGACTTATTGGTAGCAAAAATCAAAGAGTAATAAAAATAACAAATAGATATAAAAACTGTGATTATTTTGAACAACCTCATTCAGAAGTTGAAATACAAATCTATAATGATAGACTTTCAATGAATGGAGATGGAGCTATATTTGATAATGAAAATGGTGAATTTAATTTTAAAATAAGATAGAAGGAAATAATTATGAGTTTTTTAGTTAAAAGTATGGTGAATTTCTTCTCGTTTTCTCTTTTATAAATTTATAAAAGAGAGGATTTAGAAAATGAATAGAAATATTAGTAATAAAATTTTAGATTTAACTTCAAGTGCAATGATGATCTCATTAGCTATGTGTCTAAAATTAATTTTTTCACCTTTACCAGGTGTGGATTTAACACTTTTGATTATTTTATTGACAGGGCTATTTTTGAAATCTAATATTTCAATTTTATCAACGATTGGAATATCATTATTAAGTTTACTTATGCCTGTAGATATCATTTTAAGCATTTGTACAATTACAATTTATTTACTTTTTAATATTTCTTTAGTTATTTTTAAGTATTTTTTATTAAGAAATAAAATTGTTATTTATGTAATGGCACCCATTTCTGCTTTAATGATTACTTCTTTATATTTGTTAGTTTCAATTTTTACATATGGTAGAACAGAGGGTTATTCATTATATTTAACACATTTACATGAAGCCTATATAATATTTTTTATGTATTGCTTAATAACACCCTTTTTACTAAAGCAGTTTGAAAACCTTTTAATAAAAATTGAGGGAAGATATTCATCTATATATAATAAATCATTTAAAAAATATATTGAAGAAAGTGAGAGTAACATTTTGAAAATTTCAGATAAAAAAATTAATTATAATATTCAATTAGCTTCAATGATTATTTCAATGATGATATTAATTTCTTATTTTAGTTTTGTTCCCTATAAAATGGTAACTAAGTTTGAAGATATTAATTACTTAGCAGCAATCATAATAGTTCCAATTTTGATGTTATTTGTAACTCCAACGTGAATTAAATTAGCAAAAAAAATTGGAAACCTAAAAGTATTAAAAATTAATTCAATTGGATTATTATTTGCCTTAATATGTACATTTAGTTCATTTGAAACTAATAATTTAAGCTTGGCTAATGGGTTGTTATTTACAGGTTTAATCTTATTTGGAATTTTCGTTGCAGGCTTATTACCAATCAATATAGAAATTATAAAAAGTTATGAAAGAAGAAATAGTTTAAAAAATAAAACAGCAAAGTATAATTCCATTTATGGTTTTTTGCTTTTACCAATACCATTTCTAATGGACTATTATTCTAAGAGTCTCTATATTTTATTTTTATTTCTTATAGTAATGATAATTCTTATTTGCTTATTTATATTTAATCAAAATATTATGTCAGATGGAAATGTTTTAAATATTAATAAAGATTCCTTTAAAACATTAAAAACAAATAAAAAATTCTTTATTGAAATATTTATTCAAAATTATTTTATAGGCTTTTTTAAATTTCTAGATTGGTCTTTAGTTTTATTCTTTTTTTTAAAATTTGAAAATAATAAAATTATTATAACTACTCAAATCAATGAAACTTCACTTATATTATTCCTAATTTTTGGTTTTATTTCAAAATATTTTGCACAAGCAATTTTTGGAAATATTAAATTTAAAAATAATAATGTCAATAGAATAGCAATGTTTTTAACTTTAATATCTGTTACAGCTTTTATAAGTTTTTTAATTTCAAGTTACTATATAAATTACTCAAATATGAATAATATTTATTATTCAATATTGCTTATTCTTATGTTTATATTTGGAACAGCTTATGCTCTAATTGAAAAAACAAAAGCAAAAAGGTTTAAGTCTATTGTAAGTGATGACGAGTTTTCATTAGCAATGATTATTGATCATGTTATGGGTAATGCTTTCTTTTCATTAATTATTGCAAGTATATTTTTCATAATTATATTATTAACACAAGCATCTTTATTAGCAATGATTATTTTAATGTCATCTTTTGTAATAATAGGGTCAATATTATTAGTCACAAATTCATTATTAAAAAATAAACAAAAAGAGAACATTTAGTTCTCTTTTTGTTTATAAAGATTAAAAGTATTTTCTAATAGACATGCTATTGTCATTGGACCAACACCCCCTGGAACAGGAGTAATATATTTAACAATTTTTAATACTTCTTCAAATTTTACATCTCCACAATATTTACCATCTTTAAAGTTTGCTCCAACATCAATTACTGTCATATTATTATTTACAAAATCCTTTGTTACTAAATTAGGAGAACCAGCAGCACTAATTAAAATATCTGCCTTTTTACAAATATCTTTTAAGTTTTTTGTTTTTGTATTACATATTGTAACTGTTGCAGATCTATTAATTAACATATTTGCAAGAGGTTTTCCAACAATATTGCTTCTTCCAATTATTACAACATTCTCTCCAATTAAATTAATTTTTTTTCAATCTAGTAATTTAACTATTCCAAAAGGGGTTGCTGGATAAATATTTGATTTATTTAGCATTACATTACCCAAAGTTATTGGACTGAATCCATCAGCATCTTTTGAAGGCGAAACTATATCTGTAATTTCTTTCTCATTAATATGTGAAGGCAAAGGCAATTGTACAATGATACCATCAATTGTTAGATCACTATTTAAGATTTCTATTTGTTTAACTAGTTCACTTTGCTTAATATCTTCACTATATTTTTTTAGTTCTCCAATTATACCGACATTTTCACAAGCTTTTAACTTATTTTTTATATATTTATTACTTGCAAAATTATTTCCAATTTGAATTATTACTAATTTTGGTCTTCTTTTTTTATTTAATTGTTCTATACTATTTTTGAGACTAGTATTTAATTCTTGAGCATAATATTTACCATCAATTATTTTGTTCATGATTTAAGTGTCCTCTCTAAGAAACATTCTAAAGGTGATTATAATGGAAAAAATCTTAAAAGTATTGAATAACCTAAAAATTGATGAAAAAGATTTTTATTTTTATGGAAAAGAAATAGTAAAAATTAATTATGAGAAATATATGAATAAGAAAAAAGGTAAGTTAATATTAATGACTTCAATTAATCCAACTCCCGCAGGAGAAGGTAAAACAACAACAGCAATTGGTTTAGCAGATGGGTTAAAACATATTGGTAAAAATGTTATATTAGCTCTTAGAGAACCTAGTTTAGGTCCGGTGTTTGGTAGAAAAGGAACTGCCACTGGTGGGAGAGAAAGTGAAGTTATTCCAATGGATGAAATTAACTTACATTTCACAGGAGATATTCATGCAATTACAACAGCAAATAACTTAATTTCAGCTCAAATAGATTCAGAGATTTATTGAAATAGTAAGCTTAAAATTGATCCTAATAAAGTTATATGAAAAAGGTGTTTAGATTTAAATGATAGAGCTCTAAGAAATATTGATATTAAAATTAGTTCTAAGGTCTGTAGAAAAGAAGAATTTACAATTACAGCAGCAAGTAATATGATGACAATTTTAAGTCTTTCAAAAAATATTGAAGATTTAAGAATGAGATTAGATAGTTCTTTAGTAGCTTATAGTTTAGAGGGTAAAGAAATATTTTTAAAAGAGTTAGATATAACAGGGTCATTAATGGCAATTTTAAAGAATGCAATTAATCCTAATTTAGTTTTAACAAAATATGATACTCCAACTTTAATTCATTGTGGTCCATTTGCAAATATTGCTACGGGAACAAATTCAATTATTTCAACAAACTTAGCTTTAAGTTTAGGAGATTATTGTATTGTCGAATCAGGGTTTGGCAGTGATTTAGGATTTGAAAAGTATATAAATGTAGTTAACCAAGACAATGATTTAATTCCTGATTGTACAGTTATGGTTGTAACTTTAAGAGCATTAAATTTGCACAATGATTTTGAAAATAATTTTGATCACTTACAAAAGCACTTAAAACATATAACTCAATATCATTTAAATTTAATTGTAGCAATTAATTTTATTGAAAATGATAGCATAGAACAATTATCACAATTGAAAAAGTGATTAGATGAAAATAATTATTTATGAGAAATGAATGAAGCGTATATTAAAGGTGCAACTGGAGCATCTGCATTAGCAAATAAAGTAGTTGAAATTTGCAATACTAAACAAAATTTTAAAGCTTTGATTAAAGAAAATGAAACTATTGAAGAAAAAATTAAAAAAATTGTTAATAATTTTTATTATTTAGAAGACTTCAAAATTAGTAAAGCTGCATCAGCCAAGATAAATTCAATTAATAAAACAAAATATAAAAATCTTCCAATTTGTATGGTTAAATCATCAAATTCAATTGATGGAAATGATAATAAAAAGAGCAATTATAAAATAACTATTGAAGATGTCAATGTAAATAGTGGAGCAAAATTTATACTTGTTTATACAAATAATGTTATGAGTATGCCTGGTTTAAATAAATATCCAAATTCAAAAGATATTGATTTACAAAATGGTGAAGTAGTTGGATTAAAATAGAAAATAAAAAAATGGATTTAAATCCATTTTTTTATTTTCTATACTATTTTTCGAAATAATTTAATCCTAAAACTTGTAGACTTGCTAATGTTATAAAGTTATATGGCTTATTAAAGTGAGGTAAGAAGAAGATATCAACTAATGGTAATTCATCAATTGTTAATCCTTTTTGAATTGCTAAGGCGAACATATACATAACTTCTGTATGGTTATTTACAGAAGCAACTTGTGCTCCAATAATTCTTCTTGATTTTTTCTCTCAAATAATTTTAATTCATACGTCTTTGTAAGTTGACATAAATTCAGGTCTATCTGAATCTTTAAACATAACTTCTTCTACATCAAGACCAAAACGTTTACATGCTTCCATTGAAATACCCACTGAAGCCATTTTTCATCCAAATACTTCAATTCCATTTGCTCCAGTAAATCCTGGACTTTTTAATTTATTTCCTTGAACAATGTTAGCAGCAGCTAAAATACCAGTTCTTACAGCAGTTGTTGCTAATGCAATTTGAGTATCTTTTTTCATTGAACAGTTATAAACTTGTGCACAGTCACCAACTGCATAGATATCTTTATTAGAAGATTGCATAAATTCGTTTGTTTTAATTGCTCCTCTTTCATCAAGATCAATTACACCTTTTAATAAAGCTGTTTGAGGAATAACTCCAACAGAGAATACAACATAATCAACTGCAATTTCACCTTTATCTGTGATAACTTTATTTACTTTTCCGTTTTTTCCTTCAAATTTGACAACTTTTTGTCCAAGAGCTAAGTTAACTCCTTTTTCTTTCATTGTTTCTTCTACTAATCCAGTAAATTCACTATCATAATAAACTGGCATAATTCTATCAGCAATATCAATTAATGATACTTTTTTATTGTTTGCAACAAAAGCATCTACTAATTCAACTCCGATGTATCCAGCTCCAACAACAGCAACTTTTTTGATTGCAGGGTTATCGTTAGCTGCCTTAATAACTTTTGCATGGTGGAAATTTTTACAAATTTGAACACCTTCTAAATCAATTCCTTCAATTGGAGGGAATATTGGTCATGTACCTGAAGCTATTACTAATTTGTCGTAATTGTCATCAAATTCTTCTCCAGTTTTTAAGTTTTTTACTCTGATTGTTTTTTTCTTTGCATCTAATCCAATTCATTGGTGCTGCATTTTAACATTTATGTTTTCACTTTCTAAAATTTCAGGCGAAGCATAAAATAAACCATTAGGGTCTTTTACTTCTCCTCTAACTCATAAAGCGATTCCACAACCTAAAAATGATATGTTATCATTTTGATCGTAAGTTGTAATTTCCATATTTTTGTCTAATCTTCTTAAAGTTCTAACAGCTGTTGTACCAGCATGATTAGTTCCAATAACTATTGTTTTCATTTGTTTTGCTCCTTAATCTTTTTACATTATAATAATATATGAATAAAGTTGCATTTTGGTAAGAATTGGAATAATTTCTCTAAAATAAGCTTTAAATATTTTTTAAATAAAAGGTGGTAAAGATGTTCTTAAGAGTAAATGGTGATATAAGTTATTATCTAAAAAGATCTAGTTTCATTAAATACTTTGATGAACATAATCTTTCTAGAAAAACTAAATGATATATTAAAAGAGTTGAAAAAAAAATAAATGATAAAAATACCTTTACTTATTTTAAACATTGAATTCTTTGAAGATGAATAAATGCCAATTTTAAACTTTCAGAGGGTTTTATTAGTAAGTTAAAAAGAAATATTAAAAAATTGGAATTAACTTTAAATTCCAAAGAAGAGCGATTTATAAGAGAATTAGAAGAACTAGTCTTTAATTCTTGAAGACCTTTAAAACAATTTCCAGTTAGATTCAATTTAGAAAAAAAAGAAAGAATTAACTTAATTCAAACTAGAGTAAATATTCATAACTACAAACCAGAACAATTAGAGAAAAAAATTAATCTAATGGGAATTTATGATTGTTATTTTTCAAATCAAAATATCTTTTTAACTGACAATAATCAAAATGTATTGAAAACAATTGAATATAACTCAATTGTTGATGTAGCAATTGAAACCTTTGGAGTAATTATCTCTACCAAAAAAAATAAGTACTTATTTAGAGGAAAAAATCGACTATTAACTTATGTCTTGTTGCAGAGAATGATTCCAAGGTTAGGTCTTAAATTAGAAGCCACTCAAGGCTTATATAATTATTTTGATTTTTGAAATAAATTAATTTCTAAAATTAGTTAATATATAAATATAAGAGGAGAATAGAACATATGAAAATTATAAAAATAAGCAATAATAGTGAAGCTGGAAAAGTTGTAAGTGATTTAATATTAGAGGAAGTAAAATCTAATTCAAATATTGTTTTAGGATTAGCTACAGGAAGTTCACCAATTACAACATATGAAAATATTATTGTTAAATCAAAAGAGCAAAATATTGATTGAAGTAAAGTTACTACTTTCAATTTAGATGAATATAAAGGATTAGCTCCAGATCACAGTCAATCATATAGATACTTTATGAATAATAAACTTTTTAATCATATTAATATTGACTCAAAAAACACTTTCGTTCCAAGCGGTATGATTGAAACGAATCAAGAAGCTCAAAAATATGATGAACTAATTGCTCAAAAAGGTGGCATTGATTTACAATTATTGGGTTTAGGTATTAATGGGCATGTAGGATTTAACGAACCAGGAAGTGAATTTGAGGGATTAACTTCAGTTGTTAAATTGACAAAATCAACAATTGAAGCAAATGCAAGATTTTTTGATAATGAAAAAGATGTACCAACTCAAGCTATCTCAATGGGTTTAAAATCAATTATGAATGCTAAAAAAATTATTCTAATTGCAACAGGTGAAGCAAAAGCAGAAGCTGTTAAAAATCTAGTCGAAGGACCAGTATCAAAAAACTGACCATGTTCAATTTTATTAAATCATAAAGATGTAACAGTTGTAATTGATCATGAAGCTGCTAAATTATTAAAATAATTTAAATCCCATTTGGGATTTTTTATTTTAATTAATTTGCAACATTATAATATGGTGTAAAATTATAGGGTAATCATTAGAGGAGCGTATAAAAATGAGAAAAAAAATTATTGTAGGAAATTGAAAGATGTTTAAAACAAATTCACAAGCTATTGAGTTTATTAAAACTGTAGATTCAAAAGTTAAAGTTAATAAAGATATTATTGCAGGTATTGCTGTACCTTCAATTATGTTAAGTGACGTTCAAAAAGTTGCTAAAAATATAGTAATTTCAGCACAAAATTGCTACTTTGAAAAAGAAGGAGCATTTACTGGAGAAATCTCAGTGCCAATGTTGCAAGATTTAAAAATTAAATATGTAGTTATTGGTCATTCAGAAAGAAGAGACATTTTTGGTGAAACTGATGAAATGATTAATAACAAAGCAAAAAGTTTGTTAGCAGCAAATATAACTCCAATTTTATGTTGTGGAGAAAGTTTGGAAACTTATGAAAGTGGAAAAACAATTGCTTGAGTTAAAAATCAAATTACTAAAGGATTTGCGGGAATAGCTGAACAGGATGCTAAAAAAATAGTTATTGCATATGAACCAATTTGAGCAATTGGAACTGGAAAAGTTGCAACTCCTCAAATAGCTCAAAATGTTTGTAAAGAAATAAGAGATATTATTAAAGGAATTTACAATCAAGAAGTTGCAAATGAAATTTTAATTCAATATGGTGGAAGTGTTAAACCAGAAAATATTAAAGATATTTTAGATCAAGCTGATATAGATGGAGCACTAGTTGGTGGTGCTTCATTAATTGAAGATTCTTATCTAGGATTAGTAAATTACAAAGGTTAATTTTTAATATGAGTTATAAAATTTTAGCTTTAGATATGGATGGAACTACTTTCAAATCTTTGGACAATATTGTAATGGAAAATGTTGAACCAATTAATCAAGCAATTGAGAAGAATATAAAAGTAGTTTTTGTAACTGGAAGACCAATTCACACTAAATTGAACAGATTAGAATTATTTAATTTTAAAAATGAAGGAGCAATTTTTGCAGCTTTTAATGGAGCATTAATTTATGATTTAAAAAATAATAAAGCCATTGATGCAAATCCAATTGATAAAGAATTGGCTCTTAAAGCTTTTGAACTTATTAAAACAGACAAAGATTTTAGTGAAATAGAACTTTGAGCATATACTGTAAATGACAAATTAAGTTATATTAATATGCCAATTGAACAAGGTAAAATTTTAAAACACGAAACTTATTTTTTTGATTATGAACCAGTAGTTTTTGATTCAAGTATGGAAATGCTAGATTGTCATAAAATTTTAACAATGAATACTAATATGAAATATGTTGAAAAATTAAGAGAAATTGGTTTAGAAGTTTCTTGAACACAGGGAACATGAGCTGGTGAAATAACTAAAAAGGGAATAAACAAAAAATATGCTTTAGAATTTTTAGCTAAAAAATTTTCTATTAAAAAAGAAGAAATTTTAGCAATGGGTGATGGAGCAAATGATGTTCCAATGTTTGAATTTGCAGGATTGTCAATTGCTCCTGCAAATGCACATGATGAAATTAAAGCAAAGGCAAGTGAAGTATCTCAATATACAAATTTAGAAGGTGCTGTTGCCAAGGCAATTAAAAAATATATACTAGGAGAGTAAAAATGAAAACAAAAAAACCAGTAGTATTGGCAATATTAGATGGGTGAGGAATTGCAGAGCAATCAGTAGGTAATGCAGTTTTTCAAGCAAATATGGAGTTTGTAGAGAGCCTTAAAAAAGAATATCCATGAGTAAGTTCTCATGCAAGTGGAGAATGAGTTGGACTTCCTGAAGGACAAATGGGTAATTCTGAAGTAGGTCACATTCATTTAGGAGCAGGAAGAATTAAATATGAATCACTAACATTAATTAATAAAGCAATTAGTGATAATAAATTTGATTCAAATGAAGAAATTCAAAAAGCAATTAAAAATTCATTAGATAAAAATAGTGCTTTTCATATAATGGGATTATTTTCTGATGGAGGAGTACACTCACATATGAATCATATGTTTGCTACTTTTAGAGCTGCTGCAAAAGCTGGGGTAAAAGAAATTTATATTCATTTATTTACAGATGGTAGAGATACAAAACCAACTGTGGCTTTAAATTATTTAGAACAATTAAATAACTTATTTAAAGAATATAAAGTTGGACAAGTAGGTTCAATTTCTGGAAGATTCTTTTCAATGGATAGAGACAAAAGAATGGAAAGAGTGGCAGAGGGTTATAAATCATTGGTAAATAGAAGTTGTCAAAACTCATTTACAGATCCAGCAGCTTATATTCAATCTCAATATGACTTAGGAAAAGATGATGAAGGGATTTTACCAGCTTATAATAAAAGTTGTGAAAATGGTTATATTAAGGAAAATGATACTGTAGTTTTTGTTAACTTTAGACCAGATAGAGCAATTCAAATGGCAAGTACATTTACAAATAAAAAATATGATGCTTGAAGTGATCCTGCTTTTAAAGATTTAACTTTTTTAGGAGATAAAATCTATTTCTTATGTATGATGGAATATTCTGCTTCAGTTAAATCAAATCATATTGCATTTAAATCAATTGAAGTAATTAATGGTTTAGGAGAATGACTAAGTAAAAAAGGTTATAAGCAATTAAGAATTGCAGAAACTGAAAAAATAGCTCATGTTACTTTCTTTTTTGATGGTGGAAAAGATTACTTTAAAAATGGTTTAGCAACACAAGATGAAATAAAATTAAAAGGAGCATCAATTGATTTAATTGCATCACCTAAAGTTGCAACTTATGATCTGAAACCGGAAATGTCTGCTGTTGAAATTACAGATAAATTAATTGAACGGATAGCTTCAGAAGAATTTGATTTAATTGTTTTAAACTATGCTAACTGTGATATGGTAGGGCATACTGGGGTTTTAGATGCAGCTATTAAAGGTGTTAAGACTTTAGATGAACAATTAAAAAGAGTTTATGAGGCATGTGAAAGTCATGGAGCTACAATGATAATTACTGCTGACCATGGTAATGCAGAAATTATGATTGATGGTGAAGGTGGACCAAATAAAAAACACACAAGTCAACCAGTTCCAATTATAATAACAGATAAAAATATTAAAATTAGAAAAAAAGATGCTGCAATTGCTGATGTAGCAACAACAATATGTGAAATTTTAGGAGTTGAAATTCCAAAAGAAATGACGCAACCTTCTCTAATAATAAAATAAAAAAACCGCTTTTTAATTGAGCGGTTTTTTTATTTTGAAGTAGAAGCATTTGGGTTTTCTTGGATTCCTCAATCGTACATTTTTTTTATGTGCTCTTTTGTTTTATCATTAGAGAATTCATTTTTAAGAGCTAATGATAAACTATGATTGAATATTTTTTTATCTTGGGCCCTTAATGTTTCTTTTACTCCGTTGTTTGTTACTAGTTCTTTCTTATAATTTTTATCAAATTGATATATTTTATATTCGTATACTGACATTCAAAATATATATATTGTGCTCTTTTGAGATTCCATTGAATTGTGATTAAATTTAATTCTTTCAATATCTTGCTCATCTTTTTTTAGATTGTCTCAATCAATTTTTATTTTGTGCTCAGCTCATTCTTTGTATGCTTGAACTAAAAAATCTTCATTTTTGTCAACAGCTAGTTTGAAATTAGTTTCAATTTCTTCGATGTTTTTTGGTTGCTCTGTTGGTATAAAATAGTCTTCATCTTCAATTTCAGGTGTACAGCTAATTATGTTTAAACTTGGTATAGCTGTTAATGAAATAGAACAAAATGCTAATAATAATTTTTTCATAATTCACCTCTATCAAAATTTTACAATAAAATTAAAATTTTTGTGAAATAAATTAAAATATGGTAACTTAAAAGTTTAAAAATTAATGGAGTGTAATATTATTAATATTTTATAAAGAAAATTATTTAATTAAACTTTTGCATTTGGGTTTTCTTGGATTCCTCAATCGTACATTTTTTTTATGTGCTCTTTTGTTTTATCATTAGAGAATTCACTCTCAAGAGCTAATGATAAACTATAATTGAATATTTTTTTATCTTGGGCCCTTAATGTTTGTTTTATTCCGTTGTTTGTCACTAGTTCTTTCTTATAATTTTTATCAAATTGATATATTTTATATTCGCATACCGACATTCAAAATATATATATTGTGCTCTTTTGAGATTCCATTGAATTGTGATTAAATTTAATTCTTTCAATATCTTGCTCATCTTTTTTTAGATTGTCTCAATCAATTTTTATTTTGTGCTCAGCTCATTCTTTGTATGCTTGAACTAAAAAATCTTCATTTTTGTCAACAGCTAGTTTGAAATTAGTTTCAATTTCCTCGATGTTTTTTGGTTGTTCTGTTGGTATAAAATAGTCTTCATCTTCAATTTCAGGTGTACAGCTAATTATGTTTAAACTTGGTATAGCTGTTAATGAAATAGAAGAAAATGCTAATAATAATTTTTTCATAATTCACCTCTATCAAAATTTTACAATAATATTAAAATTTTTGTGAAATAAATTAAAATATGGTAACTTAAAAGTTTAAAAATTAATGGAGTGTAATATTATTAATATTTAATTTATATAAAAAAGTATCTAGATCAAATCTAGATACTTTATAAAGAAAATTATTTAATTAAACTTTTGCATTTGGGTTTTCTTGGATTCCTCAATCGTACATTTTTTTTATGTGCTCTTTTGTTTTATCATTAGAGAATTCACTCTCAAGAGCTAATGATAAACTATGATTGAATATTTTTTTATCTTGGGCCCTTAATGTTCGTTTTATTCCTTTGTTTGTCACTAGTTCTTTCTTATAATTTTTATCAAATTGATATATTTTATATTTGTATACTGACATTCAAAATATATATATTGTGCTCTTTTGAGATTCCATTGAATTGTGATTAAATTTAATTCTTTCAATATCTTGCTCATCTTTTTTTAGATTGTCTCAATCAATTTTTATTTTGTGTTCATCTCATTTTTTGTATGCTTGAACTAAAAAATCTTCATTTTTGTCAACAGCTAGTTTGAAATTAGTTTCAATTTCTTCGATGTTTTTTGGTTGCTCTGTTGGTATAAAATAGTCTTCATCTTCAATTTCAGGTGTACAGCTAATTATGTTTAAACTTGGTATAGCTGTTAATGAAATAGAAGAAAATGCTAATAATAATTTTTTCATAATTCACCTCTATCAAAATTTTACAATAATATTAAAATTTTTGTGAAATAAATTAAAATATGGTAACTTAAAAGTTTAAAAATTAATGGAGTGTAATATTATTAATATTTAATTTATAAAAAAGTATCTAGATCAAATCTAGATACTTTATAAAGAAAATTATTTAATTAAACTTTTGCATTTGGGTTTTCTTGGATTCCTCAATCGTACATTTTTTTTATGTGCTCTTTTGTTTTATCATTATGGAATTCATTTTTAAGAGCTAATTCCAAAAAGAACTTGAATGTTTCTTCATTTTCGGCCTTTAATGTTCGTTTTATTCCGTTGTTTGTCACTAGTTCTTTCTTATAATTTTTATCAAATTGATATATTTTATATTGGTATACTCACATTCAAAATATATATATTTTACTTTTTTGAGTTTCTATTGAATTGTGATTAAATTTAATTCTTTCAATATCTTGCTCATCTTTTTTTAGATTGTCTCAATCAATTTTTATTTTGTGTTCAGCTCATTCTTTGTATGCTTGAACTAAAAAATCTTCATTTTTGTCAACAGCTAGTTTGAAATTAGTTTCAATTTCTTCGATGTTTTTTGGTTGCTCAGTTGGTATAAAATAGTCTTCATCTTCAATTTCAGGTGTACAGCTAATTATGTTTAAACTTGGTATAGCTGTTAATGAAATAGAAGAAAATGCTAATAATAATTTTTTCATAATTCACCTCTATCAAAATTTTACAATAATATTAAAATTTTTGTGAAATAAATTAAAATATGGTAACTTAAAAGTTTAAAAATTAATGGAGTGTAATATTATTAATATTTAATTTATATAAAAAAATATCTAGATCAAATCTAGATATTTTATAAAGAAAATTTTTTAATTAAACTTTTGCATTTGGGTTTTCTTGGATTCCTCAATCGTACATTTTTTTTATGTGCTCTTTTGTTTTATCATTATAGAATTCATTTTTAAGAGCTAATTCCAAAAAGAACTTGAATGTTTCTTCATTTTCGGCCTTTAATGTGTCTTTTATTCCGTTGTTTGTCACTAGTTCTTTCTTATAATTTTTATCAAATTGATATATTTTATATTCGTATACTGACATTCAAAATATATATATTTTACTTTTTTGAGTTTCTATTGAATTGTGATTAAATTTAATTCTTTCAATATCTTGCTCATCTTTTTTTAGATTGTCTCAATCAATTTTTATTTTGTGTTCAGCTCATTCTTTGTATGCTTGAACTAAAAAATCTTCATTTTTGTCAACAGCTAGTTTGAAATTAGTTTCAATTTCTTCGATGTTTTTTGGTTGCTCTGTTGGTATAAAATAGTCTTCATCTTCAATTTCAGGTGTACAGCTAATTATGTTTAAACTTGGTATAGCTGTTAATGAAATAGAAGAAAATGCTAATAATAATTTTTTCATAATTCACCTCTATCAAAATTTTACAATAAAATTTAAAAAGTATATTGTATTTTTTAAATTTTTTAATATTATTTTCTTGAAAGGAAAAATAAAGTAAAATGAGAAAAAAAGAAAGTAACATCAAAAAATTTGTTGATAGAATATTTAATAAAAATAATAAAGCAAATTTTAAAAGAGTTTTTTTATTAGGTTCAATATTTGGGTTTGTTTCGTCTATAACGTTAGCTATATCTTTACCAATAGTATTAAAATCCAAATTAGAGCAGCAAATTTATTTTAAATTTGATAATAACTATTTTTCTTCAAAAGAGGAGATTTATGAATATTCAAAATTAAATGCAATTAATAATAATTATTCTTTTCAAAGTAATATATACATGTTTGATGATGAAATATTCAACACAAAAGATGAGTTAGATTTATATATTGAAAATAAATTTCAATTAAACGAAATTAAAACTAAAAGAAATCCTAATGATTATCTTATTAATAACTCAGGAGAATTGTCTGGATTAGTTAAAACAAGTAGCAATGAAAGTATTCAAACAGTTTATAAAGGAAATAATGATTTGACATATCTTTCAAAAAATGATGCTTTAGAAACTTATACAAATAATTTTCAATTGAATTATGAAATAGATGGTCAACATTATGACAACATTTTTAGTGCCAGAGAACATTATTTAAATGTCAAATTAAAAAATCTAGAGTCAAGTGAATCAAAAACAATGTGTTATGAGCAAGGGGGAATGTGTCAAACACAAGAGCAAATTACTTCTTGATTAAGAAATAACATTTCAAAAGGTTTTGAATACCAAGGAAAAGACTTTTCAAATTTAAATTATCTTGAGTTCTTAGATGCTATGAAAGATTTAGATGAAGAAATAATTAATAGGAATATTCAGCCAGTTTTAAATGCAGATAAATCATCATATTGAGTAACACAACATAGTAAAAAAAGTTTAAGTTATTTTGTTGGTCCAAAATATTTTGAAAGTAATGAGAATGTATCTTCAATTGCAGAATTTAAACCTATTAAATCTTATGATATCAATGCATTAATGTTACCTATATGAGGGTGAGCCTTTGCAATAATTACTACTGTAGTATTAGATTCAAAAATAAAGGATCCAATTGGAAGTGATTATGAAATGATGAATTATTTAAATAACACTTTTGAAACTTTAAATTTAAATAAGGAATTTTTAAATGTATTTAATAGAGATTTTTACTCTATAATATCTAAAAATTTAAAAGATGATTTATCATATGGTTTAGCTGAAATTGAAGATAATGATTTAAGTGATTTTTATAGATTATTAATATCTTTTAAAAGATTTTTGGACTTGACAAAAATATATGATTTATCAATAAAACCAGAAGAATTAGAAAAAAATTTAAAACAAATTGTTGTTGAAATTTTAAACTCCCAAAAAGACTTCATGAATAACTTTATTGATGTTAAAGATAATAAAGAAGGCGCAAATATATTATTAGATGATAGTATATCTTTTGATGATATTTACAGTCTATTTTTAAATACATCCAATTTTTTTAATGATGGAGGAACAAAAAAAATTTTATGAGATATAGCAGAAAAAATATTTAGGGGAGTTGATGCTGTAATGGAAAAAATAGATAAAATTTCAGGAGCAGTTAAACAAGTCAGTGAAAATATTAAGGACTCAGAAAAAACTAAAAATAAAAATGAAAGTGAATTAGAAAAAAATATGCAAAAAAATAAGGAGATGATAACTAATTCATTAGTTAATAATGAAAAAGAATTTATCAATGCAATGGGTTTAGACATTGAAGAATCCAATCTTAGATTTTCTCCTTTGCTTATAGTGTATATTGCTCAAGCAGTATCTGGGGTTTGAAATTTAGGACAAATGTTTAGCTTTATAAGTTTAAAAACATATGAAGCTAAATTAGATAGTAATCAATCTTTATATTATTTCAAACCAACATTTAAATTACCATTATTAAATATTTCTTTTGGTAAAGTAAAAGATCAATCTATTTATACTTTAAATGATGCTCCCTTAAAATATTTTTCTCCATCAATAGATGGAAAGGAAATAAAAGAATTATATGAGTTTGATGGTAAGTATTATAAGGAAAAAAATAAAGCAATTGATGACTTAAAATATTCAATTTACAAAAAGCCAGAAAATTACTTAAAAACAAAGCAATTACTAACTTCAGTTATTAGTAAAGATAATAACTATATGCTTAATCTTCCAAGTATTTGTAATTCAAACTCATCAACACAAGGCTGCTTGCAAAGTTATGAATATGAAAAAAAACTTGCAGAAGAAAAAGAAAAGTATATTTCAAACTTATTTAATAAATTTTATAAAGATAATGGAAAAGAGTATTATCTTGATGGTTTTGGTGGCGGATATGAATCAAAACAAATTGCAATTCAGGAATTGCAAAGAAAGGCTGATGACTCTTCAAATTACAAAGAAATTTATACTTATGAAATGAATAATAATAAAGTATTTAAAGAAACTAAAAAAGAAATTCAAGAATTTATTAGAAATAATCAGATAATAGAATATAAATCAATTATTAATACTGATTTAATTGAAACTAGTTATTATTATAATTTAAAAGAAAATAATGGTTATGATTTTAAAATTTATGAAATGAATTTTTATGGACAAAAGAAATATTTTAGATCTTATTTAGAAGCAATTAATTATTTAGATAATAAAATTAACTATCAAGTTTATGAACTTGATAGAAAACAAACAACTTATACATATAAAGGAATTGAATTTCTAGATGAAAAAAATTTTAAACAATGAATAGATAAACAGATAGAAATTGTATTTGAAAAAAATAATATAGACGGAAGGGGTAGTGAACAAAATGCTAAAACATATTTTAACAGTTTGTGCTATAACTAATTTTTCAACAGCCTCAGTTACTAGCATCACAAATTTTCAAAATACAACTATGTTAGATAAAGAGCAGTTGACAGATTTTTTAAGAAGAGATATTGAAGAAAATAAAGTATATATAGGAAATCAAATTTATAGTGAATATGATAATAAAATATTTACAAGTCAAGAATCTTTAAATGAGTATATCCTATCTAATTCAATAGTTGAGAGTGAATTTACCTCTTCAAATCCAAGCAAAATAATTAAAGATTATGAACACATGACTTTAGATGAGAATAAGATTTATGATATTGACATGGATAAATTTTCACCAATTTATAGAGATGCTTTTGGAAATATTGCTTATACAAGTGATGAGGCTTTGGAAACTTATACTCATGGAGGTCTTGTAAGGCAAAAATATAGTTATGATGAAGAAAATTGATTTGATTCTCCTGAAGAAGCTAAAATTAATCAAAAAAATAATATGAAAATTAACAAATCTCTTTATTATCAATATAATAATAAATACTATAACGCTTTTAATATAAAAGATATTAATAATCTTTTAAGTAATTTTGAAGAAGGTTATTTTGTAAATAAATCAAAAAGCTTAGAGGGAAACCATTTATTACAACCAATTAATGAATATGGAGATAAAGAAATTTTATATAAAAAAATGAAAAGAGAGTTAAAAGAAAATTTCTTAGATAGTTACTATTATAAAGTATCAAAGATGGACTACGTCAATTCTCTTCAATTTGGAATAAAAAATAAAAGTGAATTAAGAATTGCTTTTAAAGGAGAGAGTCAAAGTATTTACTATAGAGGACAATATCCATCAATAATTTTTGCAAATAAATATGAATCAAAAACTGAAATGGTTAATGATTTTAAAGACAAATCAAAATGATCAACAGGTCATGAAGGTTCATGAACTCTTGGAAGAAATTACTGGTATAGAGATTTTGAATTAAAAAAACCTAATGATAATAAAGTATATAAAGCAACTGTTAAATTAGTTCCTAAATTTAGCCATGGTTTAGGTAAAAACAATCCAAGCTTTGATGATTATAATTATGAAGATAAAACAGTTTCTAAAATAAGTACTTATTATGATTCAAGTCAAAGACAATTAGTAGAATCAATAGGTAATTTAAATCAAAGATATTCAATTCAAGAATCAACTAGAGAAGACAAAGCTTTTATGTATGATGCTTGATTTGAAGAATATTTTCAAAAGAATATTACAAACTTCAAGGGTAATGAGAATAAAGGTGTAGATTATTCTGATATTTTAAATGAATATTATATAAAAAATGTAGATGGTAGTGTTTATAAAGATCTGATGTATGATATAAACTATGCAAAAGGAACTAGTTTCTCTTTAATTCAAAGCTATTATGATTGATTAATTGTAAAAAATGAGTTATTAAAAAAACCTATAATAATTGATGGAGAAAAAAAATATCAATTAAAGCCAGATTTTTATGCAACAAGAGAACAATTAGATAATTTTTTACAGTTGCAAGGAAAATTTAATACAGTTTTGAAATACTCTTATGGGGCAACACCAGATTTATCTAGTCCAGATGGAAAACTACTTGCTGATTCATATGAAGAAGCAAGAGAAAAGCAATTTGTGCAAAGTAGTTTAAGTCTTAAAAAAAGATATATAGCTTATGATGTTTTTGGTAAATCAATTGAAAGTGGAAATTCAGAACAAGAAGCTATTAGAGCTTTAAAACGTAATATTGCACTACAATCAAAAATGACACATAAGAAAGAAATCGATTCATGAAATAATAATATTAAAAAATCTTATGATTCAATTATTTCAGATGGAAGATATTTAGTTTATAAATTAAAAGACTTAAAAACTAATTCCTATATTTACTATTCCTCTCAGGAAATGGCGTTAAAGGCAGCTCTTTCAAATGCTAGAATCAATGGAGATGTAAATAAAATGGCAATTGAAAAATATATGTATACATATAGCAACTCTTTAATTGGTGAAGAAATTAGTGTTATTTTTTACAATAATGATATTCAATCAGCAATTGACAAAATTTTATTAAAAACTAATTCTAAAAAAAGAATATTAAATTAATTTTAATTTAACATAATTCTCTAACTATAACATTTTATTTTTAAATATTATGTATAGTTAGAGAATTTTTTATATTCAAATATTTCAATAAAAATCAAAGGTTATTATCCATAAAAAATTATTTTATAAAAACATTATTTATAATTAATAAAATATATTTGGGTTATTTTTTTAATAAAACTTCCTTATTCTCCGAAAATCTTTCAGCTATTATTGGTATTAAAATAACTATAGGCAAAATATATATATGAATTAAAAAAAATCCAGAAAAAAAGGAAGAAACAAATTCAATATTCTTATTTTCATATATTTTACATAATCTAAATATTGCAAATAAAATCATTGTAATATTTAATATTAGTGCAAATAAATAAACAATTATATACATTATATGATAGAGAGTATTTTCTTTATTATTAAAATTATAATTTGAAAATATTGTTAATTTATAAATTGCAACAGATATAAAAATTAGGCCTAACATAATTTTTATATAAGCAATTAATTTTTCTTCTGTATTTAGTTCTATAATTTGATTATTTTTAGAGGTATTTTTTTCCTTTAAACAAAGGTTATTAATTCATATTAATAAGTATTGGCAAAGTGTTATTAAAAGTAAACATACCATAGTTCCAGCCACAATTAGTTCTTTACCATTGACTACAAAAGGATTAAAGAAAAAATAGGGAGTAGAAAGAACATAAATTGGCAAGTCTAATACTCATTCATGATTTTCTTCTATTCAACTAATTTCACTATTTGATGCCTGTTTTATAAAATGTTCAACATCCAAATAATTCATTATTAGCATTCTAATTAAAACAAAAAATAAATAAAATATTGGATAGATTCAACCAATTAAAAGATTTTTCTTATATCAATTGGAAATATCAATTTTCTCTTTTTTCACTATAAAAAAATAATAGATCATAGCTATTAAATAAGTTACTAAATGAGTAGTAACTGTAATAAATCATTTTATAAAAGAATTATATTCATTAGCTCATAAAACTAATGGCAGTTCTTTTGAACCAGATAATGCAGATCAAAAAAGTACCATTGTTAAAGTAAAGTAGCTTAAAAAATTAATTCAAGCTACTTTACCAGGTTTTCACAAGCCTCATTTTCCATTCAAAGCAACAAATAAAAAGAATATAAAAAACATTCAATTTGTTTGTGTAGTTCAAAAAGAAATATCAGCAAATATTTTATTTAATCATCCAAAAAGGTGATATCTAGGAGCTGGATCAATTTGAGCCATGGTTGCAGAAAGCATTAAGAAAGCAAAAAAATAAATAAAAAATATATATCAAGCTATTATTTTAAGTCTATTTTTCATTCTATTTCTCTACCTTTAATTAAATAAATAACTTTGAAAAACCTTTAATTCCAATAATCTTATCAGCCATTATTTACAGCTTTTCTATTTTTAAGAGTTTTTTCAATATGTACAATTGCTTGCATTGATTCATAAACTCCAGAAACTAGGTTTCTTACTTTTGTTGGATAAACACAACAATCACCAGCTGCGTATATTCCTACTACATTAGTTTGCATAGTATAATCTACTTCAAATCTATTTAGATTATTTATATTTAATTTTAAATTTTCAAATTTTTGTTTTTCAATTGTTTGTCCAAATTGAACAATAATTGAATCTAATTCTAATTCTAATTCATCTTTTGAATTAATATTGCTTACTTTTATTTTTTTAACATTATTTTTTTCTTCTTTTATAATATTAACAAAATTGTATGGTGTTAAAAATGCAACTTTATTTTTTTTAGCCTCTTCAATACTTACTGGTTTGGCTCTAAATTCTTCTCTTCTATGAATTATAGTAACTGATTTTGCAATATTATTGCTAAGTTCATTTGCTCAATCAAGTGATGAGTCTCCACCTCCAAATATTAAGACATTATGATCCTTAAAAGCACTCATATTTGTAACTGAATAAAAAATATTGTCATAATCTTTTTCAACAAGGGGAATTGGTTTAGATAAACCCATTCCATCTGTAAAAAGAATTCTTTTATATTTTCTTTTTTGCTTGTTTGAAAATTTAACTTCAAATCAATTATCATGGCCAATTTCTTCTGGTTTAATTATATTAATTTCTAAAACGTATGTATTATAAATTGCAATAATTTCGTTGTCTTCTTTTTTAATAGCTTCATACATTTGATCCATAGCTACTTGTGCTTGTATTTTTGGAATTGCTGGAAAATTATAAATGTATTTTTCAGGGTAATAAGTAGTTACTTGACCGCCATAAGTGTCTTTAGATTCAACTATATCTCCAGTTAATTTTAAATCAGCTGCCATTTTTCAAGCATATAATCCTGCTGAACCACAACCTATTATTAAAATATCTTTAACCATAATTACCTCCAAAATAGTGCAAATTCATTATATCATATATACATATAGGCAAAGGAGTATTGCTAAATGAGATTAGAAATTAATAATCTTGAAGAACTTAATAAGGTTATTGCAGTTATTTTGCCAAGAATTAAGCAAAATTGTTGCTTAATTCTTGATGGAGAAATGGGTGCTGGAAAAACTACATTTAGTAAATATCTACTTCAAGAAATGGGTTTAAAAGAATTAGTAACATCTCCAACTTTTACAATAATGAATCAATATCAAATCAAAGAATTAAAAATAAATCATATTGATGCATATAGATTATCTTTACAAGAAGATGGTGAAATGTATCTAGAAGAAATGATTAATTCTTTTAATATAATTGAGTGAAGTCAAAATTTAGCAATTGATTATTTTAATTATTTTAATGTAATAAAAATTTCAATTGAAATAATTAATGAAAATAAGAGAATATTTATAATAGAGGAGACAAAATAAATGAATCTTTTTTTAGACACAAGTAATAATAAATTAATTATTATTTTAGAAAAAAATAATGAAATTATAGATTCATTTTTTTTAGATAATCAGATAAGAATTAGCGATATTACTATAAATGAACTTAATAATTTATTAAAAAATAATAGATTAACTATAAAAGATATTGATAATTTATATGTAATAAAAGGCCCTGGTAGTTATACAGGAGTAAGAGTAGGGATTACTATTGTAAAAACTTTAAAAACATTAAATAATAAATTTAAAATATATGTTTTATCTTCTCTTGCTTTTCAAGCATCAACTAAAAAAGTAATAAGCATATTGGATGCAAAAGGAAAAAATATATATCTAGGAATATATGATAAAGGAAAAAATATTATTGAAGATCAGTTAGTGCCTTTAGAATATCTTAAGGATTTTGAACAACAGTTTTTAAATTTTCGCTTAGTTGAAGATTATAAAGAAATTGATTTTAAGGAATGCTATTTACAAACAAAAATATTCTTTCAAGAAATAAAAGAAATAAAAGATATTAAACCATTGTATATAAAGAGTTTTATATAGGAGAGAGAGTTTTTAGATATGAAAGAAATTAATAAAAGTTCAAATATGCCAGCATGGGCTTTAATTTTAATAATAATTTTATTTATTATTGGCTTAATAGTATCAATCTGAGGAGCAGCTTCTGTTTTTAAATTAAAAAATAATTTAGAAAATAATGATATTAAAAAAATTTTCAAAAATAAAGAAATAATAAAATATGAGAATGGTTTTAAAAATGAATCAGGTATTTATGCCTTAATTTTTAATAACTTTAATTCAAAAGAGTATTTTTGACCTATATTAATATTTGAGAGCACTAAATTTAGTCAAAGTGCACTAGAAATTATTGATAAGATTGAACAAAAAAAATATAAAAATATTGAAGACTATATGCAAGAAAATGGGCTAAATAAGACAGATATTAGATTTATACAATTAGAAGAAAATATTGATTATGAGAAACTTAAATACTGAATTAAAAAAACTAAGACAGATATTAGAGGGTTTAATAAGTAAAATATTTTAGAAACTCTTATATATTTAAAACTTAAAAATGGTATTGTAATAAAAAATTTTCCATTATATAATAGAAATGTGGAGAATTTTAAAATGGAACAAAATCAAATTATAGGGTTGTTATTAATAGTTATAGGATTATTAATAATTATAGGTTTTGGATATTGGGCCTATTATGCCAAAAATAAAGCTAAAAATAATTCAAATTTTAAAACTGGAAATCAAGAAAGTCAAACAATTTGAGAGTTTACTAAAAAAAACTTTCCTATTTTTGTTGCGATTTTTGGTTTTATAATGGCTTTTACTGGTTTAATGATGATGTTCTAGTTAGCAACCACAACAAAAAAAAGAAAAAGAAAGGGAATTAAACTATATGAAAAATGTTTCTCAAAAAACAGGTGAGAAATCTTCAAATAAGTTTGTTGCTAAAATGAAGAGTATGGGTAAAAATATTATGCCTACACTTTCAAAATTAAGTAAAGCATTCTTATTACCAATTGCACTTTTACCAATTGCAGGTGTTTTTCTTGGTGTTGGTGCAGCAATTTCATCTAATGCCTCTGATGGTACATTCCTATTTTATTTTGGATCACTTCTAAATAAAATGGGTGATGTGTGTTTTGGAAATTTACCAGTGTTGTTTTGTATTTCTGTAGCATTAGCATATACTAAGGATTCAGGTATTGCAGCGTTAACAGCTGTTGTTGGTTTTCTGGTTATGAATGGAATGCAAGCTGCATTATTACATACTAATTCAGTTGAACAAAGTACAGTTTATGTGCAATTGCAAGATAATAGTTGACATCAACTTTATTCACAAGTTGCAGGTCAAGATAATAAATGATGGATTGACTGAGAAAATTTAAATTTTGGATTACAAGATATTGCAAAATATGTTAGCGCTTCAAGCAAAAATATTGCTGAAGCTGGAGAAGGTGTAGCAATTAATTCAAATCTTGAATATATTGATGCAGCTGGAAGTGTTTATTATTCATTACTATGAATTAATTGAATTCCAAATGGTTTAATAACTTCAAATATTGGAGTTAATTCATTAAACACAGGAGTATTTGCAGGAATCTTTGTTGGAGCAATTGCTGCCAAATGCTACAATAAATTTCATGATACACAATTACCTTCAGCAATAAGTTTCTTTAGTGGAACAAAATTAGTTCCAATTATAACTTTTGTTGCAGTTATTCCATTATCATTTATATTTATGTTTTTATGACCATATTTAGGTATGGGACTAGCAGCATTTGGACAAGCTTCTGGAAAACTTCCATACGGAGTTGATTCATTAATTTATGAAGTTGCTGAACGTTCATTAGTGCCATTTGGATTACATCACGTATTCTATGCACCACTATGATGAACAAATGCAGGAGGTTCAATTGCTGAAGCATTTGAAAAAACTGTTGATCCAATTGTTCAACAACAATTTGCTGATTTATGAGCAAAAAATCATGATGCAATGGGATTGTTAGGAACAGCAGATCCAAAATTTGACCAAATTAGAAATTTAATAAGTACAAATTACACTGACTTATGAAAATCTATGGGTGACCAAACAATGGCTTATAAAGTTATTGCAAATTCAGATGTATTAAACTTTAAAGACTTGGATATTTTAGGTTTAAATATTGGAAGATTCCAAGCAGGTAAATTTGGATTTATGTTATTAGGTTTACCAATGGCTGGATTAGCTATGTGATTAAATGTTCCAAAAGAAAATCGAAAATCAGTAATGGGAATTTATTTCTCAGCTTCATTTACTTGTTTCTTAACAGGTATTACAGAGCCAATTGAATATACATTCTTATTCCTAGCACCATGATTATTCTATGGAGTACATATGCCACTAGCTTCAATTTCATTCCTACTATCTGGACTATTTAGAACTCACGTTTCTATGACAGTTTCAGGAGGATTTATTGATTATGTAGTATTTGGTTTAATTCCATTCTTTGGTAATAAAGCTATGAGTGCAACATCAGTATTTGCCATTCTAGGAGTAGCAGGTATTATGGCACCAGCATACTTCTTCTCATTCTACTTTGCAGTAAAATATGGAAATGTAATGGTTCCAGGAAGAGATGGAAATAGTGATGTTAAATTAGCAACTAAAGCTGACTATAAAGAAGCAAAAGGATTAAATACTGATGACACTAAAATTGAAAATAATAAAAGTTCATCAGAAAATGCAAGAATTGAAAAGGCCACAAAGATTATTGAATTTTTAGGTGGAGAAGCAAATATTGTTGATATTGATGCTTGTGCAAGTCGTTTACGTGTAACTGTAAAAGATGGAAGTGTTGTTGACAAGGAGGGTATTATTTCCTTAGGAGGAGCTAATGGAGCTCTAATTAGAGGAACAAATGTCCAAATTGTTTATGGTGGAGAACAAGAGGCCATTAAACCACGTATGATAAAAGTATTGGGCCAACAACGTAAAGCAAAAAAAGATAAACAAGTTTAATTTGTAAAATTTCATTTAAATATAATATAAACCTTATTAGTATATTTTCCCCAATACTAGTAGGGTTTTTTATATTAAAAATTATTATTGAAAGTATTAAGAATTTAGTAAAATAAAAAAATTGCATTTCTGCAACTTTTTTATTAGTTAAAATTTTTAAATTAAATTTTTGATTTTTTCTTATAGATTAATGAGTTTAAATATATTAATACTGCAGAAAAAGTAATTCAACAAATTACAGCAACTGTTATATTAAATCCACCATTTAATTTCATTTCTAAATCTTTATAAAGAGATAAATCTTGATTGCTTATTTTCTCCTCTGATTTTTTTGTTCTTCTAATAATTTCTTCAATATCATTTTTTGAATAATATTTTAATGCTTTTGTAGGTTGCATCATAGCTGAAATTGATGAAACATAATCATTTACAAAAGGTTTTGTGTTATTACCTCTATAGATATATCATCAGTTATTAAAGAAATTTCCATTAGCAGAAGAATTATTTGATTTGAATTCAGAGTTATAATTAATACCATTATTTTTTATACTTAGTATATCATTGTCTGAATTATTGAAATCATTATACATTGAAGCTCTATAACCAGAAAGAATAATTCAATTAATTATCATAATTTCAGGATTTTTTTTATAGACTTTAAAAACTTCATTATTTTCTTCACTATTCAATTTTTCATCTTCAAACTTAAATGTATTTTTAATAATCAAAGGATTCTTTTTAAATATTGAATATGCTAAACCGTTTATTCCGCCAGGTTCACCATCTTTTATAATTGTCAAATAATTGTCATAGATATATTCAACTCAATTAAATAAGTCAAATAATTCTGGTAGTTGTGTTTTTAAATGATTTAAAGTAGGTTTAATTTTAATATAAACTTGTTTATCTGATCAAGCTTCTTCAGAAAGTAATCAATATTGGTTTTCAATACTATTATTATAAGTATCAATTTCTTTTGAACTTTCATAGATTATGTCAATAAGTTTTGCAATTTTATATTGACTTAGAATTTTTTGATCGCCATTAAAAAGATTTGCTTGACCATTTAAAAAAGCTCTTTTTTCAATATCACCAATATCTTCTTTCTCAAAACTATCATATCTGAAGTTAATTTCAGTTTCTTCAAAAATATCTTTGTAATCGTCATTATTTTTTAATGAATTATAAAATAAATGACCTAAATGCATATTAATATTGGTATTCATGTAACTAGTTTCTGAGATTTTATTTATACTTCCATTTAACTGAGTGCTTAAAGCTGCTCCAAAGGGATATATAAAAATTATTAAAGCTAATAGTAAATTATTTAAAATACCAATTGCAACACTAAAAGTCATTGAAATAGCTATTATAAAAGGTAGTAATACTATTGGCAAAAAGAAATAAAATGCTAATTGAGTTAGTAGAATGTCTTTGATAATTACTTGCTCATAACTTGAAATTAAAGTAAATAATAGTCCTAAATTAAAATTAATTAAAACATAAAATATTGATATAAATAAGGCAAGAGAATATCTATATAGGAAAGATTGTCATATCGGTATTCCAGCTCTCAGTTCAATATTTTGAATTCCATCATCTTTTTGTTTTTTAAAAAAGAAAAAAGCAATAAGAGTAAGAAAAATGCTAAAACAAAAACCACTACAAATATATGAGACTGCCTTAAATAAAGACAAGTTCATTAGTTGCATTTTAGGATAACTACTTGAAAGAGATTGCATAATAATAAATAATGAACTAATACAAATAAAAATTAATCCTGTAATAATAATTGATTTATTTCTTAAAGCTAACTTTAAATTTAAAAAATAAATAATAAATAAACTTTTGGTATTTTTACTTTTCATTTTTGATATCCTCCTTATACAAGTTTGAAATTAATTCAATATTTACTTTTTTTGGATCAATAAATTTTTTATAAATATCAATTATTAATTCCTTTTTATTGTTAAAACTTTTATCATAAACTATTTCTCCATTTTTAATTAAAACCAAATGGTTTGCTATTTCTTGAAGTTCTTCGATAATATGACTTGTAATAAGAATAGTAACTCCTAGTTTATTTAATTCTTTAAGAATTGAAATAAACTCTATTTTTGATTCAACATCCAAATTAGCTGTTGGTTCATCCAAAATAATGTATTTTGGTGAACGAACCAAGACACTTGCCATGATTGCCTTTTTCTTTCAACCTGCAGATAGTTCTTTAATTTTTTTATTTTTAAATTTATCTAAGCCAAGCATTTCATATATATTCTTGATTTTGTTTTCTAATTCTTTTCTTTTAATTCCATTTGCAGCACATAAAAATAAAATGTATTCATGTAATTTCATATCTAATGGAATATTGTTAGTATCTGGGAAAAAAGCTAATTTTTTTAGATTGTTATTTGAAAATAAATTTTCATTATCAATTAAAATATTTCCCTTTTTTAAATGCAATTCTCCAAAAATTGCTTTAATTGTTGTTGTTTTGCCAGCTCCATTGTCACCAACAAAAGCTATAATATCTTGGTCATTAATATTAAAACTGACATCTTTTATGCCAGTATTATTTTTAAAGACTCTTGTTAAATTTTTAATTTCTATCATTTGTTTTCCTCCACTGCCTTATTATATAGGTATATACTTTTTTTTTTTTTTTTTCAAATTTTACAATTTTTAACTAAAAAGTGGAAATTATTCCTATTAATTTAATAAAAATCATTTTCAAACTTTAAAAATCATTTTTAACAAATTTTACAAAAATGTATTTATATTAAAGCAATATTTTTTGTTATAATTAGAAATGTAAATGGATTGGTACTCAAGTTGGTGAAGAGGGCACCCTGCTAAGGTGTTAGGCCGGGCAACTGGCGCGAGAGTTCGAGTCTCTCTCAATCCGCCATTTTTTAAAAAACAAAACCAAGATTTTAAAATCTTGGTTTTTTATTTGAATATAAAAAGTATTACATATAAAATAAGTAATATGAAATATGTTAAGAGGTTTATAACATGAAAAAAAATGATAAAAATAAAGATTTAAGTGAAAATAAACCTAAAAAAGGTTTTCTTAAAAAAATATTTAAAGGAAAAGAAGAACAAAAAAAAGTTCTAAATATTGTTAAAAATAAAAAAATAAATAATTTGTATTTCTATACTGATGTAAATAATATTTTACTGATTTTAGAAAGAGGTATTAGACTTTTAAAAGATCAAAAACTTAAAAAAGACGAAGAGTATATTGTATGAACTTATTTGGAAAATGAAAATTCAATCGGATTAGAGTTTGACTCATCAACAAGAGCTCATTTTTGAAAATGAGCAAGTGAATCAAAAGTAGATATTGAAAAAATTAGTGTTATTGGGGTTGACCCACATAAGTTAGCTAAATTAACTAAAAATGATTGAGCACTTGATGAGGTTAAAAATATAGTTTATATTTATGAAACAATTCCATTAGAAGTAATTGATTTTATATTAATTAAAGATAAAGCAAATTTAAAAAGAATTCAAACATATGTAGAAGCAAATGATATTGATATTGATGTTTTCTTTGGTGAAACTGGAAATATTGATAAAAAGAAAGAGAGAAAATAATTAATGGCAAATAAAATGGAAAAAATAACATTAAGAGATGTAGATTTTAGTCAGTGATATACAGATGTTGTTAAAAATGCTGGACTTATGGAATATGGACCAGTAAAGGGAACTATGATTTTTAAACCACATGGTTATGCAATTTGAGAATTAATTCAAAAAATTGCAGATATTGAATTTAAAAAATTAGGAGTTCAAAATGTTTATTTTCCACTTTTAATACCTGAAAAATTATTTCTTGCTGAAAAAGAACATGTGGAAGGATTTGCACCAGAATTAGCAACTGTTACTAAAGTTGGAGATAAAAATCTGGGAGAAAATTTATTTATTAGACCTACAAGTGAAGTATTAGTGGCAGATTTTTTATCTAGAGAAATAAACTCATATAGGGATTTACCAGTAAAATACAATCAATGAGCAAATGTTATGAGATGAGAAAAAACAACTAGACCATTTTTGAGAAGTAGTGAGTTTTTATGACAAGAAGGTCATACATTTCATTCTTTAAAAGAAGAAGCAAAACAAATGACTTTAGATATTTTAGAAGTTTATAAAAAATTAGCCAATGATGTTCTTTTATTACCTGTAATTTCTGGAAGAAAAACTGAAAAAGAAAAATTTGCTGGGGCAAAAGAAACTTATACAATTGAATCACTTATGTATGATGGACAATCATTGCAGTCAGGTACTAGTCACTATTTTGAAGATAATTTTGCAAAGGCATTTAATATTAAGTTTCAAAATAAAAATCAAAAAGAAGAATATGCTTATTCTTCAAGTTGGGGTATATCAACAAGATTAATTGGTGCAATTATTATGACTCATTCAGATGATTTTGGGTTAGTTTTACCAAGTAAAGTAGCTCCAATTCAAATATCAATTATTGCAATAAATGATTCACAAGAGGTAATGACAGTTTCAAATGATTTGAAAACAAAATTAAACTCAAGTTTTCGTGTTGAATTGGATAAAAGTGATAAGTCTTTTGGTTTTAAAATTTCTGAAGCAGAAATAAAAGGAGTTCCAATTAGAATTGAAGTTGGACCTAGGGATTTAAAAGATGGAGTTGTTACTATTTCTAGAAGAGATTTAAGAAATAAAGTACAAATCAAATTAGCAGAAGTTGAAAATTATATAAATAAAGAAATTTTGGAACATGATAAAAACCTTTACAAAAAGGCTTTAAAAAATAGAACAGATAAAACTTTTAAAGCTAAGACTTTAAAAGAATATGTATCAATAATTGAAAAAACACCTGGATTTGTTTTAGTACCTTTTTGTGGGGAAATTGAGTGTGAAAATGATGTTAAACAGAAGACATCAACAAATTCAAGATGTATTCCAGAAGGTGTTGAACAAACTAAATCAAAATGCTTTAACTGCAATAAAGTATCAAGTTTGATGGTATATTTTGCAAGAGCTTATTAAAAATATTTTTAAAAAAAACAAATATGAAAGTATTTGTTTTTTTTAAATTAATTCTAAATAAAAGTTATAATAATTTTGTATTACGATAAAAAAGATAATGTTATTAAACTAATATTTTAAAAAAATAGAAGAATGGGTAACTGAAAGGAGGTTTTTGAATGAAATCAAAAACTGGAGATTTAGTTTTTGTTCATGCATACAAACACAATGGTAAATTATATAGATCATGAGAAAAAGTTAGTATTTTTGAAGAAACAGAAAATTACATCATATTAATTAATGAAGAAGTATTAATTACTGAAGTTACTGGGAGAAAATGAAAAACAAATGAACCAGCTATATGATTCTTTTTTAAAGAGGACTGATATAACATTATTTGTATGTTTAAAGAGCGGGGAATTAATTATTACTGTAACTTAGCGTCACCTTATATTTTTGAAGAAGGTACAGTAAAATATATCGATTATGATCTAGATTTTAAAGTTTTTAATGATTTTAGTTACAAAATATTGGACTTAAAGGAATTTAATCGAAATAGAATAACTTGAAATTATTCAAGAGATATTATTGAAAAAGTATGAAAAAGTGTTGATGAAATTAAAGAAAAAATTAAAACTAAACAAAAACCTTTTGTTCATGAATATGTAAATGATATTTGAAATAAATACTTAGAATTAAAAAATAAGGACTAGTTATACTAGTTTTTTTTAGTTACTAATAACAAATTAATTTTTATTAAAAGAATATTGGTTATAATATTTAAAGAAACTATGAGGCGATTAAAATGGATAAATCAAAAATTAGAAATTTCAGTATAATCGCTCATATTGATCATGGAAAATCTACTTTAGCTGATAGATTACTTGAACTAACTGGAAGTGTTGAAAAAAGAGATATGCAAGCACAACTTTTGGATTCAATGGATATTGAAAGAGAACGTGGAATTACAATTAAACTGAACTCAGTTCAATTAAAATATAAAGCAAAAGATGGAGAAGAATACATTTTTCATTTAATTGATACACCAGGTCATGTTGACTTTACATATGAGGTTTCAAGAAGTTTAGCTGCTTGTGAGGGTGCTTTGTTAGTAGTAGATGCAAGTCAGGGTATTGAAGCTCAGACATTGGCAAACGTTTACTTAGCATTAGACAATGATTTAGAAATAGTACCTATAATTAATAAAGTTGATTTACCTGCAGCAGAACCTGAAAGAGTTAAAGAAGAAATTGAAAAAGTAATTGGCATTGACTGTTCAAATGCTCCTATGATTAGTGCAAAAACTGGATTGAATGTTGAAGATGTTTTAGAAGCTATTGTAAAGTATGTTCCTGCACCATTAGATGCAGATGACAATAAGCCATTAAAAGCTTTAATTTTTGACTCTTATTATGATAAATATAGAGGTGTAATGGTTTCTGTAAGAATTATGGAAGGAACTGTTAAAGTTGGTGAAACTATTAAAATGATGCAATCACAAGCAACATATGAAGTAACAGAACTTGGTGTTAAAACTCCTTATGAACTAAAAAAGGATAAACTTGAAGCTGGAGAAGTTGGTTGAATTGCAGCAGCAATTAAAACTGTAAGAGATGTACATGTTGGAGATACTATCACTACTAAAGAAAATGGAACAAAAGAAGCTCTTGATGGATATAAAAAATTAAATCCAATGGTTTATTGTGGAATTTATCCAGTCGATACTGCAAGGTATAAAGATTTAAAAGAAGCATTAGAAAAAATCTCATTAAGTGATGCTAGTTTAGTTTATGAACCAGAAAGCTCTCAATCATTGGGGTTTGGATTTAGATGTGGGTTTTTAGGTTTATTGCATATGGATGTTATTCAAGAAAGACTTGAAAGAGAATATGACTTAATATTAATTGCTACAGCACCATCTGTAATATATAAAGTTACTCAAACAAATGAAGAGACAATTGAAATTGATAATCCAGCTTTTCTACCAGATCCTCAAAAAATTAAGTTTATTGAAGAACCTTTTGTAAAAGTTACAATTATGACTCCTGATCAATATTTGGGAGACTTGATGAGTTTATGTCAAGATAAAAGAGGTATTTATATTGATATTGAATATCTGGATGATATGAGAAGAACATTAATTTATGAAATGCCATTAAATGAAATAGTATTTGATTTTTTTAATAAATTAAAATCAATGTCGAAGGGCTATGCTTCATTTGATTATGAATTAGTTGGCTATAAACAATCTAAGTTAGTAAAAATGGATATTTTATTAAATGGAGATATCGTTGATGCTTTATCAACAATTGTACATAGAGATTTTGCTCAAGTACGAGGAAGAATCTTGACTGAAAAATTAAAAGAAATAATTCCAAGGCAAAATTTTGAAGTGCCAATTCAAGCTGCAATTGGTGGAAAAATAATAGCACGTGAAACAATTAAGGCAATGAGAAAAAATGTTTTGGCAAAATGTTATGGTGGAGATATTTCACGTAAGAAAAAATTATTAGAAAAACAAAAAGAAGGTAAAAAAAGAATGAAAGCTATTGGTTCTGTAGAAGTTCCACAAGAAGCTTTTATTGCTGTACTTAAATTAGATGATTAGGAGATAAATTTAATGAATTTTTTAATTGAATACTCAACGGAAAATGATATATTTGATCAAGCTTGACAAATTAGAAAAAAAGTTTTCTGTGAAGAACAAAAGTATCCAGAAGAAGATGAGTATGATAAATATGATTCTACAAGTTTTCATGTTATTGGTTTTGAAAATGACTTAGTAGTTTGTTGTGCAAGAATTTTAGAAAAAGAAGATGGTTGATATATTGGAAGGATTGCAGTATTAAAACAATTTAGAGGAAAAGGGATAGGTCATAAACTTATTAACTTTTTAGAAGAATTTATTAAAAAAAATTTTAACGCTACTGAAATTTTCTTAAATGCTCAAGAAACAGTTTTAAATCTATATAGAAAAAATGGCTTTGAAGTTATTTCTGATAAATTTTTAGATGGTGAAATATGACATTTTAAAATGAAAAAAAATTTAAAGATAAATAAGTAATTAGATATTAAAAAAGCAGTTATAAAAAAAGACATGTAAAAATTAAAAGCGCTTTTTTATATAAAAATTATATAATTGTTATCAATAAAATTATATAATTAAACATATAGGCGGTATTTAGATGAAAAAGATAAAAATTTGAAAAATTATAATAATGCTGTTAGTTTCTATTTCAATTATTCTAATTTTGCCCTGAATAACTGTAGATATAAATAATAAAATAGTATTTTCTAGTAGTGGATTTAATATAATAAGAGTAGGTTTATTAGCAACAGGATTAGTTTATGTTGCTATTAGTTTATTTTCAATCTTAGGAAAAAAAAGAGTAGAAAAAATATTTGGAGTATTTGATATTATTTTTAGTTTTTGGGTCATTATTATTTTATCTATGCATACATTTCTATATTTTAATATAGAAATTCAATTAAAAATGACTTATTTTATGCCATTATTATCTCTTTTGATTGTAGATTTAATTATTACAATTGTTGATATATCAATTAACTATGAAAATATTTCATTTAAAAATAGTATTCAAAGAACAAATTCAATTGCAAATAAAATTAATGATGAAAATTATGCAAATCAAGATTCTCTTAAAGATGTATCAGATTTAAAAAATAAAATTCTTAATATGAAAAGTGGATTAAATAAATCATATGAAGAAGCAATTCATGAAATAGAAAGAACAGGAGCTTTAAATGGATTAGATATGTCTTCATTAATAAAAGAGGATGAACAAGAATCTAAAAAAGACAAAATAATTCCATTTTCAGTTGAAGAAAATCAACAGATATTAAATGATATTGAAAATTCATTTAAACAACAAGAAAATCAACAATCAGAGTCAAATAATAATTTAATAAATGAATGAAAAAAAATAGATGAAGAATTAGAATTACCACTAAGTTTTGATGATCCAATAGCAAATTCTCAAAGTGATAAAAATTATCAAGATATTGATTCATCAACTCTTGAAACTAGTGAAATAAGATTTACTTCAAGAAGAACAAATACAGATGAAAATAAACATTAAAAGAATTTAAACATTTATTTTGTTTAAAATTTTTTTTATATAGAATTATAGTATTAGGTGAATTTATGAAAAAAGAAAAAGTTTTAAAAAAAGAAAAAACTAAAATTAAGAAAATTAATTTTAAGAACTTTAAAACAGGTTCAATTTTTTTTATGACTATCTTATTAATATTTAGAATATTAATGGTAATTTTTTGACTATTAGCACCAATAATTGTTGGTTTTACAATTGGATTCGATGATGGAATACGAAATTTAGTAAAATTTATTGGTATATTTATTTATCCAGATAGAGTATCATCCAATACTACAATTATAATAAATGTAATAGCACCTCTTTCATGACTATTAACTTTGTTAATACTACTTTTTGCAGATGTTAAACCTTTTTTTAACAAGAAGAAATGAACACAAAGAGCTACTTTAGCATTTAATTTAATGTTTTGACCTTTACTATTTATTGGACTTATTTATGGAATATATTTTTTAATTCCAATTCTTCAAATTGGAAATCCAGTAACAGACCCAACAGACCCAAATTATGATCCAATATATCAGGCATGAAAATCCTTAAAAGATAGTTATTCTCCATTTAGTAGTTGAATGATTGCTTTACAATGTATGTATGGAGTTATTGTAGTATTTGGAATGTTTTCAATTTTTGAGGCACATATGGTTAGAAAAATGAAATTGGATTACACTGACTTTTACATTAAAGACCAAAACTCAAGAAGTTTAGTTAATCAAGTAATTGAAGGAAAAATTGAGTTTGGAGAGTTTGAACCAGATGAAATTAATAATGAACTTAAAAGAATAAGAAAAGAAACAATAGAAGAAGAAAAAAGAATGAAATTTGAAAAATTTCAGAAAATGGAAGAAGAATACATAAACAAAAAGAAAGAAAAAAAAGAAAGAAAAAATGCAAAAAGAAAGAAAAAGGGTAAAACTGAATAAAAGCTTAAGTTATAAAGGTCAACAAATTGAGTATTGTTTAACTTTAAAAGACCAGAAATTTATTAGACTTAAGTTAGAAGATACAAGCATTAATGTTTCAGCTCCATTTCATGCATATGATTGAGAAATTGAGCAATTAATATATAAAAATATTCAAAAAATTCAAAAAATAATTGATTATAGAGAAAAAAACCAATTTTTTTTAATTTCAGAAAATGGTTTTGTTAAAATGAATGATCAGAAATATGCAGCAAGATTTTTAGAAAAAATTGATAGAAAAGAAAAACTTGATTTTAAACTTTATGAAACAAAGGAAGAAACTGTAAAAAGAATGTATAAAAAATTATCTATAAATTACTTTTTCTATTTTGAAAGTGTTATCAATAAATATAAGCAAATAATGAATTTAGACTTTAAAAATCTTTCTGTTAAAGTTATGAAAGGCAAATGAGGTGTTTGCTTTCCTGAAAAATCAAAAATAGTTTTAAATACAAGGTTAATTCACTTTCCAACTGTTGCGTTAGAGTATGTTGTTATTCATGAACTTAGTCATTTAGTGCATAAAAATCACTCAAAGGACTTTTGAAGGCATGTTGAGCGATATATGCCAAATTATAAAAAGGTAAGTGAAATACTAAAAGTGAATGTATTATAAAGTATAATAACTTTATGGAGAAAAACTTATGGGATGAAAACGCGAATTTAAAAAAATGCAAAAAGAGACTAAAAAAGCTTCTAATCTTTTTGATAATTCTGAAGATATTTCAAGTTTAATTCTTTGAGAAAGAGCTATGAGTTCTGCAAGTCATTGAAAAGTTGATAATTTAGTTATTGATATTTCAAAGTTTAATGGTTTGATTCAAGAAATAATTATAAATCAAATTATGCCAGATAATATTAGTGCATACTCATGAAATTTAGGTTCAATATCAATAGTTGAAAAATTTTACGCTTATCCTATGGCAAGTTATTTCAAAGAAACATATAATAGTATTTCAAATAGACTAGGTGTTTATGAAGCTACATTAATTGTTTTAAGTTGCTCAAAATTTAGTTATTATATAACTAAGAAATTTTGGAAATTATTTAATTACACCTTTGCAAATAAAAATATAAATGAAATTCCATTATTAAGAGTTTTTGAAGTTATGCAAAGAACCTCTTTGGAAGCTTTAGAAGGAATTATTGAGAAGTCTTTTTTACTAATTGATAAAAGAAAATTAGATCCATATAAACATCATTTATTAATTGAAGAAATTATTGATTTAGGAGATGATTTTACTTATCACTGATCAAGAATGTATGATCAAGTGATTGACTTAACTGTTGAAACTTTTATCTTTCAAAGTAAATATGGTAAGCCAAATAACCCATCTAAATCAACAGTAGAATCTGATTTTTTCTCGGTAGAAGATGAAGATGACTTTGATGATTTCTTTGAAAAAACAAAAACACTTGTGTTTAATGATGAGGTAAATGACGCATTCAATTATTTTGGTATATCAAAAATAGCAAAGCCAGATGAGTTTAAAAAAATTTATAGAAAAATGGCAAAGCAATTTCATCCAGACTTAAATTCAGATCAATCATCTGCAACAGAAATGAAAAAAATTAATTTATTTAAAGAAATTGTTGAAAAATATTATGAGAAGTATGAGATCTTTTAAAAGTAATTAATTTAAAATTGCAAAATAGATGTTCTATAATTAATTAAATATTTGAAACAATTTTATTGATTTTCTATTTTAATTTTGTATTAGTTCTAATGTAATCTAATTAAATTAGAAGATAGACATTTTGAATATTTTAAAAAATTGTTTTATTATAAAAATATTTAGAAGATGGGGCTATTATTAATTTATGAGCAAGTATTATAAATTGATATATTATTTATAATATTTAGATTGAATAGTGGGAGACAGTTGATGGTAATCAAAGAATATGAAGAGTACAGTTTTATACAAAGTGATTTATTAAGTAAAGAGATTTTTATTTTATATTCAATTTTTGGAGGAGAAAGCAAGTTCTTAAAAGTAATTCAGCAAGAATGATTTGAGACTAAAGATATTGAAAAGTTTAGGGACTTTATTGAACTAAAATTTGATGAAATAGAAGTGAAACAAAAGAGTCAAGTTGATAGAGATAGTTTAAGTTGTTTACTAAGAATGATATCAATTTGTGATAATTTTTTTGAATATGAATATTTATATGATTCAAGTAGAGTTCTATTTTTAGAGTCTAAAAAAGAAGTTATGAATAATTTAAAAACTTATGATTATGCCTTTAAAGAACTTATGGACTTAAACTATAAAAGTTTTATTGAAGAGATTAATACAATGAAGATTTCAAAGAAATATATTTTAGTTACAAATGATATTAAACATATTATAAATAGATGTGAAGAAATAAATGACTTTTATTTGATAATTAAAGAAGCATATAAAATAAATGATTTACTAAGTGACTTATTAGATTTATTAGAAGAAGATGAGGATAATAGTTTTCAATTTGGTACAGATGATGAAGTTATTCTTTACAATTTTGCAATTTATCATTCAACAAAAATTTATTTTTCATTATTGCTAAGAGAACATATTATTTCTGAAGAAGAAAGAATAACAAATACTATAATTGATGAAAATAAACCGTTAATTCAAGAAGAAGAATTAAGAATATCAGAAACTAAAATGCTCTCTGATCAAAGTAAAGAAATTTTTTATAAGACTTTAAAAAATTAGACCAGCTTAAATTAAGTTGGTTTTTTTATATAAAATATTTTCTCTTATTAAAAATATTTTAGTGTTTAATTTTGCAAAGTATTAATATATCTATTAATTTTAATTTTTATATAATATATATAATATTAAAAAATCTAAAATTTAGTCAATAAAAAGGGGTTTTTATGAAAAAAATACCATTTTCCGTAATGTTCAAAATGAATTTAGGATTATTATTAATAGATAAAGCTTTGTTAATATTATCAATATTGTCAATTATAATGGGTTTTTCTGTAAACACAGTATTTATAATAATGAAAACCAACGCTGATTTTATAACATTTTATAATTTTTTCTTTTTATTTTTTACAGGCGCATTTTGAATAATTATAACAATGAGACTTGTCTTTCTTTTTTTATATTCCAAAATTGAAGATAAAACAATTTATATTATTTCTGTTCACCAAATTTCTAGAAAAAAAATATTTATTTCTCAATGATCAGTTATGATAATGTTTTCAATTACTTTGAGCTTAATCAATTTTCTTATGATTAATATCATTTCATTAATAGTGAATTTAGATATAAACTTAGTGGTTTTTCGAACTACCCTTGTTCACTTTATATATACTATTTTTATTTCAATTTGTTTAATCAACTTTTTTACTTTATTAAGTTTGTTGCTGAAAAGCTCAATTACAACTATTTTAATTACCTTAATGCTAGCAGCTACATTTATATCTAGTTTGCCATATCAATTTTTAAAAAATAGCGAAAAGCTTAATAATATATCATTTAATTCTAATGTAGGAACACCTTATGTTTCTAAAATAGATAATGTATATAATGTGTTTGATTTACAACATAATATTAAAAATGGTTATATTAAATATCCAAATTTATCAAAGCATATAAATGATTATTTTGTTGAAAATCAATTTAGAAAAGATCAATTTTCATCAAGTTCAAATTTAAAATTAAGATATGATTTTTGAAATTCACTTGGAGTGATTAATAATAAATCAGTAGATATTAATTCAAGTGATTTAACAATTAAATCATTACCAAAGCAATGGACAAATCCCGAAATAATACAAGGTTCTAAAGTTGAACTAAATTTAACTTTTAATTATCTTTTTTATTCTGTAGAAGAAATCGAAAGTATTATTGTTAATATGGAAGATGGTTCCAAAGAAAAAATTATATTAATTGAATTGATAGAATTTACAAAAAGTATTAATAGTTTTTATATTGATGATTTTTCATTTCAAAATGAAACAAGAGATGTTTTTGGAGATATGGTAAGTTTAAAACAAGGTTATATTAAATCAAAAAATGGTAGTCAAGAAACAGTATATAATGAAAGTAATTTAAAAAATAGTTATCAATTACATTTTATTGATGGATTAGATGGAGTTCAATTTCAAAATTCAAAAGAATCAAAGGAATTATTTGAAGATAATTTATATAATCCTTTATATTTGTCAGTTAGGCTTTTAGAAAACTATTTTATAAATTATACTTCTGATTTTGTAATTTTTAATAATTATAAAGTTAATACAACAAGTGAAGAATGAAAAAAATATAGTAAATTAAGAACTGGATACAATATATTTTATATGTTTAATTTTATTGGAAGCACAATGTCAATATATACAAATTACTCTGGATTATCATATGATGATATTTGATTTGATCCTTCACAAAAATCAAATATTGATTTAATTGGCCAACAAAATATTTTTTTAAATTATCATACTTATACTTTTAAATTAGATGAAAATAATAAAATGAGGCCTGATTCATACAATAATTATATTAAATCTTATTGATTTTTATTTTTTCAATTATTTATAGCATCTATTAATTTTACTTTTGGAATTTATTTTTTCAATAGAAAGGATCTGACATAATGAATCAAGATTTAATAGAATTTAGTAAGTTTTCAAAAAAATTTCATAAAAATCAAATAGGGGAATTATCATTTACAGTAAAACCAAATAGAGTAACTGCTGTAATTGGAAGAAGTGGTAGTGGAAAATCTGTAATTTTAAATTCTTTAATTGGAGCAATTAAAAATTATAAAGGGACTATAAAATTAAATAATAGAGATAGAAAAAAAAGAGATAGTTATAAAGACAACAGTTCAATTGGTTTTTATACTCAAATGGACTTTTCTTTATACGACATTTCAGCTTATAAATTTTTACAAATTATTTGTCCAAGTTTTGGAATAAATAAAAAAGATTTAAATAGTAAAATAGAGCAATGAATGAAATTTTTTGATATCTGAGATAGTAAAGATAAAAGTCTCAAAAATTATTCTTGGGGAATGAAAAATAGAATGAATTTAATTTTGTGTTTTATTAAAGATCCTAAAATTATAATTCTCGATGAACCAGGAGCAAATTTAGACTCAATATGAAGAAATAAAGTAAAAAATCTTCTTATTAAAGAAAAAAAAGAAGGTAAAACTATTATTATAACTGTTCATAATATTGATGAAATTGCAGATATTATTGATGATTATTTAATTATTGATGCGGGAAAAATTATTTTTTATGGTTCAAGTGAAGAGTTAAATATTTATACTAAATATAAGATTTTTTTCTTTGAAAATATAAATCATCAAAAACTACGTAATTTTTTAAATGAAAATAAAATTAAGTCATTTAAATATGATGAAGAGGAAAAGTCACTTGTATTTGCAACAAATAATGCAAAAGAAATAAATTGAATATTCTTGTACTTGTTAAAAGAAGGAATTCCGATATTTAATTTAATTAAGTTAAATATAAATATGGATTCTATATTTAAAGCAATTGAAAATAAGCAGATTAAAAGAACAAAAATTTAATAAATACTTTAAAAAGATTATTAGGTCAATTAAAAAATTTGACCTATTTTTAATATAACAATAATTTTTAAAAAAATAAATATAGATTTTTATTGGTATAATATTTAAATATTTGTTATTATCAATAGGTTATTAAATAGGAGAAACTTATGAATAAAAAAATTATTAATATTGCAGTTATTGCTCACGTTGATGCTGGAAAATCTACATTAGTAGATGCTTTTTTAAATCAGTCTAATGTTTTTAGAGCAAATGAAGAAATAAAAGAACAAGTTATGGATAGTAATGATCAAGAAAGAGAACGTGGAATTACAATTTATTCAAAAAATTGTGCTATTGAATATAACGACTACAAAATTAATATTGTAGATACTCCAGGCCATGCCGATTTTTCAAGTGAAGTAGAACGTATTATGAAAACAGTAGATACAGTTATTTTATTAGTGGATTCAGCTGAAGGTCCAATGCCTCAAACAAGATTTGTATTATCAAAAGCGTTAGAGTTAGGTTTAAGACCAATTCTTTTAATTAATAAAATTGATAAAAAAGACCAAAGAGCATTGGAAGTTGTTGATGAGGTTTTAGAATTATTTATGGAATTAAATGCAAATGATGAACAAATTGAATTTCCTTCATTATTTGGAACTGCTCGTGATGGGATTGTTCAATATTCTATGGAAGAAAAAAGTGAAAATTTAGGTCCCTTATTTGAAACAATTATTAAACAAGTTGGAAATTACCCATTGGAATTAGCAAAAGAGCCAGTTCAACTTCAAATTTCATCTTTAGCTTACGACTCATTTATTGGAAGATTAGGAGTTGGAAGATTATTTAAAGGTGTTCTTAAAGAAGGACAACAAGTTGCAATTTCAAAAAATGATGGATCAGTAACAAAGGGAAAAATTTCAGGTCTATTTATATATGAGGGTTTAAAAAGAGTTGCTGTAAAAGAAGCACAAGCAGGAGAAATTGTTGTTATATCAGGAATTGGTGATTTAACAATAGGTGATACAGTTTGTGAGCCAGATAAAATTGATGCATTGCCTTCAATTGTAATTGAAGAGCCAACAATGAGTATGAATTTTTTGGTTAATACTTCACCATTTGCAGGAAAAGTTGGAAAATATGTAACAACAAGAAATATTAAAGAAAGATTAGATAAAGAATTAGAAGTAAATGTTGGTTTAAGAGTTGAAGCTTTAACGGATTCATCAGCGGATGGATTTAAAGTTCTTGGTAGAGGAGAACTTCATTTATCTGTTTTAATTGAAACAATGAGAAGAGAAGGTTTTGAATTAGGTATATCAAGACCTGAAGTTGTTGTAAAAATTGATGAAAAAGGTCAAAAATTGGAGCCAATGGAAAGAGTTATTATTGATGTGCCAACAGAATTTTCTGGTACAGTAATTAATAAATTGAACCTGAGAAAAGGTATGATGGTTGACATGGATTCAGATGGTATAAGAGATAAAGTTACTTACCATATACCAACAAGAGGATTAATTGGATTTAAATCAGAATTCACTAATGATACTCGTGGTGAGGGTGTTATGGTAAAATCAAGCATTGGTTATGAAGAATATAAAGGTAAAATTGAAGGAAGACAAAACGGAACTCTTGTTTCAATGGCAAATGGAATAACACTTCCATATGCTTTGAATAATCTTGAAGAAAGAGGAATATTATTTGTAGGCCCTCAAGTTGAAGTTTATGATGGAATGATTGTAGGATTACATTCAAGAGATAATGATTTAAATGTAAATCCAACTACAGGAAAAAAATTAACAAACACTAGAGCATCAGGAAGTGATGATTCAGTAAAGTTAACACCAGCAAAAAAATTCACTTTAGAAGAAGCTTTAGAGTTTATTGAATGAGATGAACTTGTTGAAGTTACACCAGAAGATATTAGATTAAGAAAAAAATGACTTTCAGAAAATGAAAGAAAACAACATAGAAATGATCCACACTAAAAATTCCATATTGGAATTTTTTTTTAAAAAAAGTTCCAATATTATATTAGAAAAAAATATCTAAATATACAAAAATAGGTTTATTATAGAAATGTAAGGAGAATTTAATATGTCAAAAATAACAAGTATCATAGCACGTGAAGTTTTAGACTCACGTGGTTTTCCAACTGTTCAAGTTGATGTTACAACTGAATTTGGTGGATTTGGAACTGCAAAAGTTCCATCAGGAGCTTCAACTGGTTCTAGAGAAGCACTAGAATTAAGAGATGGAGACAAAAAACGTTTTAATGGTAAAGGTGTTTTAAAAGCTGTTGCAAATGTAAATACTAAAATTGCAAAAGAAATTATTGGAATGGAAGTAACAGAGCAAGTAAAAATAGATACAAAAATGTGTCAATTAGATGGTGATGACTTTAAGAAAAATTTAGGAGCAAATGCTATTTTAGGTGTTTCTTTAGCTGTTGCTAAAGCTGCTGCAAGTGAATTAGAAATTCCATTATACAGATATATTGGAGGAACAAACGCAAGAAGATTGCCAGTACCAATGTTAAATGTTATTAACGGAGGAGAACATGCAGATTCTGCAATTGACTTTCAAGAATTTATGATTATGCCAGTTGGTGCGCCAACATTTAGTGAATCTTTAAGATGAGCTTCAGAAACTTTCCAAGCACTAAAATCTTTATTACATGATAAAAAAGATATTACAGCTGTTGGTGATGAAGGTGGATTTGCACCAAATTTTGCTTGAGCATATCCGAAAGAAACTATTGAAGCTTTCAAAGCAAAAACTCCAGTTGAAGTTGCTTTAGATTTATTAGTTGAAGCAATTAAAAAAGCTGGTTATAAAACTGGTAAAGATGGTATTATGATCGCAATGGATTGTGCCAATTCAGAATTATATATTAATGGAAAATATCACTTTAAGAAAATTGAAAAATTAACAGGAAAAGAATGAGCTTTAACAACTGATGAAATGGTTTCATTCTTAGATAAATTAGTTGATAAATATCCAATTATTTCAATTGAAGATGGATTAGCTGAATCAGATTGAGATGGATTCCAAAAACAAGTGAAAACAATGGGACATAAAATCCAAATTGTTGGAGATGACTTATTTGTAACAAACCCAAAAATTACTGCTGAGGGAATTGAAAAAAAAGCTGCCAACTCAGTTTTAATTAAATTAAATCAAATTGGAACATTAACAGAAACAATTGAAACAATTCAAATGGCTCAAAAGGCTGGATGAACTGCAGTTACTTCACACCGTTCAGGTGAAACTGAAGATTCAACAATTGCTGATTTGGCTGTTGCTTTAAATACAGGACAAATCAAAACAGGTTCAATGTCAAGATCTGATAGAATTGCAAAATACAACAGATTAATTGAAATTGAAGCTGAATTAGGCGAAGCTGCAATTTATGATGGTTTAAAATCATTTTATAACTTAACAAAATAATTAATAAAGGAATCTTAATGATTCTTTTTTTGTTTACTAGTTTTTTATTTATAATTAAATTATGCTTAAAAAAACAAATTTCAAAAATAAATATATTGTATGATTTTCGCTTCTAATAATAACTTTAGTTTTTTTTATTTTAACTTCATTTTATGATTTAAAATTATCAAGTCATATAGAAAGTAATTTAAATAAAACTTGATTCACTGCAATTTTTGATGCTTACGGTAGGGTTTGTTTATTTCTTCCCATTTATTTGTTCTTTTTTATTTTTCTATTAAGTTTTTTTAATAATTTAAAATTTAGTAAAAAGCAAAAAATAATATGAATAGCTATCTTTAATTGTATATATTTGATAATTGAAGTTACTTTTCTTTATTTTACAAAACATTTTATTTTACAAAAAAATGAATTTCATATTTCAAAATTTATTTTCTCAATATTTTTTACATTTAGCTTAGTAGGTTTTATTATTTTTATAAATATATATTTAAGGAATTTATTTAATAATGAAAATAATGATATAAATATTTATTTTAAAAAAGCATTAAAAGCAAGTATCTTTATAATATTATTATTTATAAGTATTCAACTATTGAAAATTATTTTTGGAAGAAATAGACCTGAAGATGTAATAGTTCAAAAAGAAAACTTCCAATGACTATTTCAAATAAATTTCTCTAAAGTAAGAGGATCTAGTTTTCCATCAGGTCATACAGCAGCAGCAGGTGCAATGCTAAGTTTTATTTATTTTTTGGAAGGAAAAAAAATTTGAAAAAAAATTATTATAATTTTTATTTGAGTTTTTATTATTCTTACAGCTATTTCAAGAATATTAATGAGCAAGCATTTTTTGACTGATGTATCATTTTCAATTTTAATTGTAATTCTTTATTATTCTGTGTCACAAAAAATAGTTAAAAAAATTTATGAAGGGAAAAAATAATTATGGCAAAGTATATTGGTTTAGATCTTGGTAGTAAAACTGTTGGTATTGCAACAAGCGAAGGATATTTTTCAAATCCAAAAGAAACAATTAGATTTCAAGAATATAATTTTTTAGAAGCAGTTAATAAATTAGATATTTTTCTTAAAAAAGAAGGTTTTGAAAAAATTGCAATTGGCTATCCAAAGAATATGAACGGTTCAACAGGTGAAAGAGTTGAAATGGTTGAAGAATTTATTAAAATTATGCTTGAACAAAATCTAGTTATAGAAGAGCAAATAGAAAGAGTAGACGAAAGATTAACAACAAGAATGGCAAAGCAAATAATGATATCAGCTGATTTAAGTAGGAAAAAACAAAAAGAAAATAAGGATCAATTGGCAGCCAAATTAATTTTAGAAACCTATTTGAACTCAATTAAGTAGTATATAATTACAATATAAATATCAGTGGAGGTATCAATGGAAACACATCCTTTAGTCAAAAAAATTTTATTTAATCAAGATCAAATTGACAAGAGAACAAATGAGTTGGCAAAAGAAATAGAAAGTTATTATAGAGATCAAAAAATAAAGGACAACACAGTTATCATTGTAGGATTATTAAAAGGGTGTGTTCCTTTTATGGCAAATTTTATTAAATATTTTAATCATGAATGTCAAACTGAGTATATGGTTGTTTCATCATATATGGGTGGTACAAAAACTAGTGGAGAACCTAAAATTAATTTAGATTTAAATTTATCAATAAAAGATAAGCATGTTTTAATAATTGAAGACATAATTGACTCAGGAATAACGTTAGATTATATAAAAAAATATATTTCTTTTAAAGGAGCAAAAGAAGTTAAAATAGTAACTCTTTTAGATAAAACAGAAGGTAGAATTGCACCAATTAAATCTGATTGAGTTGGTTTTGAAATTAAAAATGAATTTGTAATTGGTTATGGTTTAGATTTCGATGAAAGATTAAGAAATCTTCCATATGTTGCAGTTTGTGATGTTGAGAAATTAAAAACTTGAAAATGATAATAATATCATTTTCTAATATTTAATTAGATTTTTAAAAAAGTTATATAATGTATATATGGAGGAAGTTATTATGATTAAAAAAATTGGGGTTTTAACTTCAGGAGGAGATGCTCCTGGGATGAATGCAGCTGTTGCATCAGTAATTAAAACTGCCATCTCAAAGGGCATAGAGCCTTATATTATTAGAGATGGATATAAAGGTCTAGTTAATAATTGAATTGAAAAAGTAGATATTAATTTTGCCTCAGATATTATTTCAAAGGGTGGAACAGTTATTGGTTCTGCAAGATTGCCTGAATTTAAAGAAGAGTCAGTAAGACAAAAAGCTGTGGCTAATTTAAAAAAATTAAAAATAGAGGCTTTAGTTGTAATTGGTGGAGATGGAAGTTATCAAGGAGCTGAAAAATTAACAAAAATGGGAATTAATTGCATTGGTCTTCCAGGAACAATTGACAATGATATTGTATCTTCTGATTATACAATTGGTTTTGATACAGCTTTAAATACAGTTATTAATGCATTAGATCAAGTAAGAGATACTATACAATCTCACAATAGATGTATTATTGTAGAAATAATGGGAAATGGCTGTGGAGATTTAACATTATATGGGGCTACTGGAAGTGGAGCTGAAGTATTTTCTACAAAAGAAAGTTATTTGTCAGAAGAAGAAATTATTAAACAAGTTAAAGCATTACATGATAAAAATAAGAGAAGTGTAATAGTTGCTGTTGCTGAAAAAATTTATGATGTAAATGATTTAGCAAAAAAAATTGAAAAACAAGCTGGTTATGAAACTAGAGCAACAATTCTTGGTCACATTCAAAGAGGTGGAAAACCAACTGCTATGGATAGATATTTAGCAGTAAAAGCAGGTATCTTTGCAGTTGAAGAATTAATAGCAGGTAAAGGTGGATTGTATATTGGAATGAGCAATAATAAGTTAGTTGCAAGAGATATAGAATCAACATTAAATATGCCAAAAGTTAATAAAACTGATGAGTATGAAAAATTAAGAGAAATTAATAAAGCTGTATAATTTTAACAAGGAGAAATATAATGAATAAAGAAATAGAATTTTATGAACCAAGTAAGATAGCAAAAAAAATAAAAAGAACTAAAATAGTTACTACAATTGGACCAAGTACTCATTCAAAAGATGATATTAGAAAACTTTTTGAAGCAGGAATGAATGTTGTTAGATTAAATTTTTCACATGGTAAAACAGAAGAACAAGCTGAAAAGATCAAATCAGTAATTGAATTAAGAGATGAATTGGAAAAACCAATTTCAATTATGTTGGATACAAAAGGTCCAGAAATTAGAATTGGAAAAGTTTTTGAAGGTGCTCAAAAAATAAAAGCAGGAACTGATGTTAGAGTTTATACTACACAAGAAGAATACTTAAATCGTGAATGCAAATCAAATGAAATGACGGTTTCATATGATATGAGTATTGATTTGAAACCAGGAGATACTGTTTTGGTAGATGACGGAAAATTAACATTAAATGTTATTAATGTTGAATCAGGATTGGTAAATTGTAAAGCATTTAATAGTCATATAGTAAAAACTAATAAAAGAGTAAATTTACCTGGAGTTGATTTTTCATTACCATTTTTAGCAAAAAAAGATATTGAAGATATAAAATTTGGAGCAAAAGCTAAAGTTGACTATATTGCAGCTTCATTTGTTAATTCAGCAGATAATGTTAATGAAATAAGAAAAATTCTTAAAAAAGAAAAAACAGAGCATATTCAAATTATTTCAAAAATAGAATCAAAAATTGGGATTTTTAATATTGATTCAATAATTGAAGCTTCAGATGGAATTATGGTAGCTCGTGGAGATTTAGGACTAGAAATCCCATACTATGAAGTACCATATTGAGAAAAACAAATGATTAGAAAATGTAGAAAAGCTGGTAAAGTTGTTGTTGTAGCAACACAAATGTTAGAATCAATGACTGATAACCCCCAACCAACTAGAGCAGAAGTTACAGATGTTTATTATGCTACTGAATTAGGAGCTGATGCAACAATGTTAAGTGGAGAATCTGCTGCAGGAATTTATCCTTTTATTACTACAGAAACTATGGCTACAATTAATAAAAGAGCAGAATTAGGTTTTTATGGAAAGATCTATTATGATAGAGCTTTAGAGGTTGCTCGTCAATCAACTAGTGGAAAAAGAGCAGAAATAGCTGATGAATTAGCAAATATTACAAGAAATGGTAAATATGAGTTTGCTCTTGTTCTATCAAGAACTGGTGAATTATTAAGAACAATTTCAAAATTTAGACCAAATGTTACAATTTTGGGAGTTTGTGATAAAGAAGAATTATGAACTGGTTTTGGAGCAATGCATTCAATTTTTATGAATAAAGTAAAAAGCATTGATGAAATTATTAAGAACAAAGATGCTTTAATAGAAATTGCTAGATCTTGAGGAGCTAAAAAAGGTGAAGAGATCTTAATAGTAAAAAATGAAGATATTAAAGTCTATCAAGTTTAAAATTAACCAATTAATGGTTATTTTTTTATACACTTGTGTATTTGAGCAAATCATCTAATAAAGTGATATAATTTTTTTGTTATTAACAAGGAGAATAAAATGAATAAAATTAATTTAAATGAAAAAATGAAAAGAACCAAAGTTATTACAACTATTGGTCCAAGTGTTCACTCAAAAGAAGCGATAAAAGAATTGTTTGAAAAAGGAATGACAACAATTCGTTTAAACTTTTCACATGCAGATTTCCAAGAACATGGAGAAAGATTTGAATGAGTAAAAACACTAAGAAAAGAAATTAATAAACCAATATCAATATTACTAGATACAAAAGGTCCAGAAATTAGAATTGGTAAAATGAAAGATGGAAAACAAGAAATTAAAGTAGGAACAGAAGTAACTGTTTATACTGACCCTAAAGATTTTTCTACAAGAGAATGTAGTGCAACTGAAATGCAAATGTCATACGATATGTCACAAGATGTAAAAGTTGGAGATACTGTTTTAGTAGATGACGGAAAATTAACAATGCACGTAACTAAAGTTCAAAAATTTAAAGTTATTTGTAAAGCATTTAACAATCATTTAGTAAAAACAAATAAAAGAGTTAATTTACCAGGTATTGAATTTACATTGCCATTCTTAGCAGAAAAAGATTATAACGATATTAATTTTGGTATTGATAATAATATTGATTATATTGCAGCTTCTTTTGTTAATTCAGCAGATAATGTTAATGAAATAAGAGAAATATTAAAAAAGAAAAATGCAGAACATATTCAAATTATTTCAAAAATAGAATCACAAGTTGGATGTGATAATATTGATTCAATCATTGATGCATCAGATGGAATTATGGTTGCTCGTGGAGATTTAGGATTAGAAATCCCATATTATGATGTACCATATTGAGAAAAACAAATAATTAGAAAATGTAGAGAAAAAGGGAAACTAGTTATTGTTGCAACACAAATGTTGGAATCAATGACTGATAACCCCCAACCAACTAGAGCAGAAGTTACAGACGTTTATTATGCTACTGAATTAGGAGCCGATGCAACAATGTTAAGTGGTGAATCAGCAAATGGTGATTTCCCATTTATTACTGTTGAAACAATGTCAACAATCAATAAACGTGCAGAAATAGAATTTTATGAAAAAAATTATTATACAAAACAATTGGAAAAAGCTAGAAAATCAAGTTCAGGTAAAAGAGCAGAAATTGCAAATCAATTAGCTAATACTACAATTAGTGGAGGTTATGAATATGCAATTGTTGTTTCAAGAACTGGTGAATTATTAAGAACAATTTCAAAATTTAGACCAAATGTTACAATTTTGGGAGTTTGTGATAATGAAAAATTATGAACTGGTTTTGGAGCAATGCACTCAATCTTTATGAATAAAGTTGATAATTTGGATGCCTTTATGAAAGATGAAAAAGCAATAGCACAAGTTGCAAAATCATGAGGCGTAAAAAAAGGCGAAAGAATTCTATTTGTTAGAAATGAAGATATTAAAGAAATTACAATAAAATAGTTTTTAAACCTAAACCTTTAAAGTTTAGGTTTTTTTATTATTTAAATTCATAAATAGAAAATTTTCTATGTATTTTTTATTGAATAAGTGTTATTATTTTTTTGAAATTAATAAGGAATAGGAGAAAATGTACATCTATTAAATATATAGTTAGTATATTTTCTTTTTCTTTATAGTTTTAACATAATTAATAGGAGAAAAAAAATGAAAAAACTACTTTCAATTTTAGGATCAGCGTCAATAGTGGTATCTTCAGGGACATATGTAATTGCATGTAATCCAAATAAAGATACAATTAATATATTATTTGTACCATCACAAAATAGTACAGAAATTATAAATACTGTAAAACCATTAGAAGAAAAGCTAGCAAATGAGTTAGCTAAAATAGCACAAGCAGATAATAGAATATCAACAAAAAAAGTTAAAATTGCTCCTTCAACAAGTTATGAAGTTGCAGGAAAAACATTACAAGATGGAAAGGCTCATTTAGCATTTTTACCTGTAAATACTTATGCAAAATATAGAGGGCAAGAAAAAGATAAAGCATTTGATAAGGAAGGAATTTTATTAAATGCTTCTAGAGCAGGTGCTAAACCTGAAACTACATTTTCACAATTTCTTGATGAGCAAAATAAATTTAATTTGTCATTAGCAATGGAAGAAGTTACTTCAGAAGCTTCATTAGAATTATCTAAGCATTATAATAAAATGGTTAAAGATAATCCTGAAGAAGTAAAAACACAAGAGAGTGCAAAAAAATTATTATTAGATCAAGATAATGAAGTATCTTATTATAGATCATATATATATGCAAATAATAAATTCCTATCAGATAATCAGTTTGATATTAATTCATTTGAAAATGGTGAGGAGTATAAAGCAGCTTTAAAAGAATTAATTTTAAAAGGTGCAAAAGATAAAAAATTCCAATTTACTTTTGGAGCTAGCAAAACTTCAAGCTCAGGAGTGTTATATCCTATGCTATGATTGCAAGATGTTTTAGGAATTGAAGATAATGAATTAAAAGATTTATGACAAAATAAACATGAACAAGGTAGTTATCCACAAGCATCTCAGGAAGTTTCAAATGCAACTTCAAATTATGCTGTTGGATTTAGTGATATTAGAATGGAAAGTAAATCTTCAACTGACGTAGAAAATGCTTTTAAAAATACAACAGTTATTGGGGCAACTGAACCTATTGTTAATGATCTAATAGCTTATTCTAAAAAAACTATAAAGGATGAAATCTTCAAAAATGATTTAAGAACTGCTTTTAAAAACTTAATTGCAGATAAAGATAATGCAAGTATATTTGAAATTTATAATCATACTGGCTATGTAGGGCCAATAAACATTGAAAATAGTAATGACTTTGAAATAGCAACAGATAAAACAATAACTGATACAACAAATTCAACACAAGCTCTATTAGATAAGATGAAAAATTGATAGGAAAATAAATATGGTACAAAAAGCTTTAAGCTTTTTTGTATTTTTATAATATGATAAATTTTACAAATGTAAATAAAGTTTGACCTAATGGCAAACATGTTTTAAGAAATATCAATTTAAAAATAGAGGATGGAGAATTTGTTGCAGTAATAGGTTTATCTGGTGCTGGTAAAACTACACTTTTAAAAACTATTAATGGTATTAATAAAATTTCTTCGGGAGAAATATTAATTAGTTGAAATAATAATGAAGAATACAATTTAAGTAAAATAAAAAATAAAAAATTAAGACAATTAAGAAATAAAATTGGTCTTATGTCACAAGAATATAATAATTTAGAAAAACAAACAGTTTTAACAAATGTCTTAAATTCAAGAATTTCAAAAGTAAACTTTTGAAGATCTCTTTTAGGAATTTTTTCAAAAAAAGATAAAGAAATAGCTCTAAGGTCATTAGAAAAATTAAATCTACTTGATTATGCATATATTAGAGCTGAAAACTTAAGTGGTGGTCAACAGCAAAGAATTGCTCTTGCAAGAACCTTATCACAAGAACCACAATTAATCATTGCAGATGAACCAGTTTCTGCATTAGATCCAATACTTGCAAATCAAGTTATTAAAGATTTTCAAAATGTTAATAAGTCTGATAAGATAACAATTATTTTAAATATACATCATGTTGAGTTAGCACAAAAGTATGCTTCAAGAATTATTGGATTAAAAGATGGAAAAATAATTTTTGATGGTAAACCTCAACAATTGACTAAAAAAATATTAAAAGAAGTTTATGGAGATAATTATTAAAATGAATAGAAAAATTAATGCAATTACTTCTAGAAATGTTTTTGCAATAAATGATAAGTATACAAAAGCTCCAAAGAAAACATTTTTTATATCTCTATCTATTATAGTTTTCATATTAATAATCTTTGGTTTCAATATGTTAGAAACAAATTGAGTTGAATTTTTTTCAAGTTTTAGTTTATTCTTTGAAAGAATTGGTGATTTAATTAGGTGGGATTGAGAGGACTTTCTTAAACCAGATACAGTTGGAATAGTATTTTTTAATACGGCTTTATACTCAATTTTTATGACAATGATTACAGCCTTTGCTGGAACAATAATTGGAGTGCTTATAGCAATTCCCGTAGCAATTTTAGCAGCAGGAAATATTGTTACTAATAAATTTATTAATAATACTGCTAAAAGTCTTATTGCAATTTTTAGAACAATTCCAGCTTTTGTTTATGCTCTTATTTTTGTGGGATATTTTGGCCAAACAATTTTAACAGTTACAATTGTTTTATCAATCTTTACATTTTCAATTACTTCAAAAATTTTATTTGAAAGAATTGAACATATCAATACAAAGATTTTTATTTCACAACAAGCAACTGGTGCTAATAAAATGAGATCTTTTAGGTCAGCAGTTGTACCGCAAATATCAAATCATATTACATCAGCAACTTTTTATGCTTTGGAAACTAATATAAGATATATTTCTGTTATTGGTGGTGTTACAAATTATGGTATTGGTAAATTAATTGATGATTCAAGAGGAAATGATGATTGATCACGAGTAGGTTTTTTATTATTTTTAATTATTAGTGTAGTAATATTATTAGAATTAATAATATATGTATTAAGAAAATATATATTATTAGATAAGGACTTTATTTTAGATGAAAAAAATCAAAAAAAATATTCAACTTTAATTAAAAAAATTTCAAGAATGAATAATTTAAATTTTTATATAAGATATGTTATTCAAAAGGACCTATTTTTAAATCTTGAAATAGCTAAGCAAAATAAAGACTTTAATTCAATTAAAGAAATTAAAGAAGAAATGAGAATTAAAAAAAATAATTTTCTATCTGATCATAAATCAAAAATGAAAAAAGATATTAATGACTTTGAAATATTTAAAAGTCAAAATTTAAATTCAAAAAATTGATTTATTTGAGATGCAGAGAATTCTATGAATGTTAGAAGAGATAAAATTTATTTAACAAATTTTAATTTTGAGGTTTTAAAATTAAAAGAGGAAATAAAAAGTAATTTAGATAATACAGCATTGCAAGAACATGAAACTTATTTAAAAAATTTAACTATAGATGAAGTTATTAAAAAAAATCCCAAAAGATATATTAAAAGATTATGTTTATACTTTATTCTTTTTGCATTATTTTGTTATTCATTAACCTTTATTGAATTTAATATAGAGAGTGCAGAAACAATTAAAAATACCAATAATAATATAATAGAAATGTTTAAAATAAATTGATTGTCACTTTTCATAGCTCATGGATATGCACCTCAATCAGTAATTTATTTACTGTTTCAAACTTTATCAATTGCAATAGTTGGTACGTTTATTGGAGCTATCGTAGCATATGTTTTTGGTATATTAAGTTCAGAAAATATAGTCAATTACTATGTTGCAAAATTCTTTGTATTAATAACTTCTATAATAAGATCAATACCCACATATATTTATGCAATTTTATTTATAGCTCTTGTTGGAATGGGACCTTTTACTGCAACTTTGGCAATTGCTGCAGGAACTGTAGGAATGTTAACAAAATATAATAGGGAAGTTTTTGATGATATAAATTTAAAAGTTTTATATCAATTAGAATCTACAGGATTAAATAAATTTCAAAGATTTAAATATGGAGTAATGCCTCAAACAACAAGTAGTGTAATTTCATATATTATTTATAGATTTGATATAAATTTTAAAGAGGTTGCGCTTTTAGGAGTAGTTTCTTCTGGAAATATGGGTTATTTATTAAATAGTTATTTTGCAGATCAATTATTTAATGAATTTGGTGCACTATTATTTGGTATTATATTATTCACATTATTGATTGAGTATATTTCTACAACTTTAAGAAATAAAATAAATTTAGGAATCAATCCTAAATATATTGATAAAATCATTCTTTTTATTAAGCATAAAAATTTTGCAAAATATAAAGCCAATGAAATTTTAGGTTTATCAAAAGCTGATTTTGAATATATTCAATCAGAAGCTTACTATGCATATATTAATAAAGTTATTTATCAAGAAGCAAAAATCATTTCTAAAGATAAAAAAGTTTCAAGAAGTCACGGTTGATACTTAAGTTATATTAAAAACTTTAACTTAAGTAATAATTTAGACTTAGATTTACAAGAAGCAAAAAAAATATATAACAAACATAATTTAGAATATAAAAATCTAATTAAAGAGTTTAATGAAAAAAGAATTGATTTTATTCAAAAATTAAAAAATAGTAAAGCTGAACAAATTAAAGAATTGGATTTAAATTCCAAAAATATATTAGAAGATAAATCCTTTAAAAAAGAAATAAAAGCTTCAAAATCTTTTATTAGAAAATCAACTAAAATTAAAATTGAAAGTTTAGAATATTAGAGGAAATAAAATGTTTAAAAAACTTATTGAACTAATAAATAGTAATAAAAAAATAATTCTTTTGAGACATATATATCCAGATTTTGATGCAATTGGTTCACAAATGTCCTTATATCAATTCATTAATGATAATTTTAAAAATAAAAATATTAAATTAGGTGGAGATTTACCAAAGGAATATCATTGTATTGGTAAAACACAAAAATTAAAGCAAGAAGACTTTAAGGATGCTTTAGTTATTATTACAGATACCGCTATAAAAGAAAGAATAGATATTCAAGATTTAAATTGGTTAGCTCTAGCATCTGATGTATTTAAAATTGACCATCACGTTAATATTGATCAATATGGAACCATGGAAATTGTAGATTCCTCATATCCAGCTACTTGCGAGTTATTAACAGAACTCTACAATAACTCCAAATTAGTTTTTTCAAAATTAACAGCCTATTATTTATTTCATGGTCTTATTACAGATACTGATAGATTTATGTATAGAAATGTAACTGCCAGAACATTTGAAATGGCAAGTATTCTTATAAAAAAAGGTTTTGCTATAAATGATGTTTATAAAAATATATATGGTTTAAGCCAAGACGAAGTTAGATTAAAAGGCTATATTTTAAGTAATTATAAAATCTCAAAAGAAAAAATTGCATATATTATTTTAACCAAAGAAGTAATGCAAGGTTTTAATATTGATGATAATAATAAAATTTCACTTTGAGTTAACATTTTAGGAGAAATAAAAGATGCAACAGCTTGAGTATTCTTTACACAAGGCAAAGATTTTATAAGAGTTGAATTTAGGTCAAATAAATGTAATGTTCGTGATATTGCTGTTAAATTTGGAGGCGGAGGGCACATTAATGCATCAGGTGCCAAATTAGAAAGCATTGATCAATGTCTTGAAGTTATAAAATATTTTGATAAAAATTTTAAAAAGTTAAAACTATAGTTATTAAAAATATACTATTATAAAAGTATATTTTTTTATTCTAATATTGAAATTTTACAAAAAATAATAATAAAATAAAATATAAAATTAATTTATTTGTTTGTGATTAATAAAATTATGTATAATTAAGAATATTAGGTTATGTATTTTTTATAAAGACAAAGGTGGAGAAAAAATGAAAATAACACTGCTAGATGGCAACATTATAAATTATGATCAACCAAAATCTGTTCTTGAAGTAGCTCAAGAAATTTCTAAGTCACTTGGTAAGAAGTGCGTAGGTGCTGTTATTAATGATAAAGAAGTTGTACCAAATACTGCTCTTATTGATAGAGATTGTAAATTGCAACTAATAACTGAAAGACATGAATTATATGAATCTGTTATAAACTATACTGCAAAGGTAATAGTGGGCTTAGCTCTTAAAGAAATTTTTCCTGAAGGTAGCCTTTATCCAGAAGAAGAAGGTTATAATAAATTAGAGTTTTTTAGTTATTTTGATTGTGATCAAAAGTTAACTTTAGAAAATATCAAAAAAGTTGAAGAATTATCAAACAAATATATTTCATTAGCTCTTGATATAGAGTTTAAAGGAAATACTTTTACTGAAAAAGATTATATTAATATGATGAACAAAATGAATGTAAAAGAGAAATATACAATGGGTATGGTGGATTTAAACAAAAAAAGATATATTAAATTCCCAATTTCTGCTATAAAAGATGTTTTATTTTACTCAAGATTTGCAACTTTAAATAAAACAAGTGACTTATTTAAAATTCAATTAAATGAAGTTACAGCATTTCAAATTAGAGAAGATAAGTTTGTTTATAAAATTCATGGTTTAACTGCAACTACTGAAAAAGCTTTTTTAGAAAAACAACAAAAAATTGAAGAAATTAAGGAAAATGATCATAAACATATTGCCAAAATTTTAGAAATTTATCATTTAGACCCCTTAATTGGTCAAGGATTACCAATTTGATTGCCAAATGGGACTATTTTAAAGCAAGAAATTAAAAAATATTTAATGCAAAAAGAATTTGAATATGATTTTATTCAAATTGAAACTCCAGTTATTGGTACAAGTGAACTTTATAAAACATCTGGACATTGAGACCATTATCGTGATGACATGTTTGCACCAATGTTGCTTCCAAAAGAAGAAATGGTTTTAAAACCAATGAGTTGTCCGCATCATATTGCAGTATATAAATACAAACAAAGAAGTTATAGAGATTTACCATTAAGATTTGCAGAACATGCTCTACAACATAGGTATGAGTCATCAGGTAGTTTAACAGGACTTGAAAGAGTTAGAGCAATGGAATTAACTGATTCACATATTTTTGTTACTCCTCAACAAGTAAAAGAAGAATTTGTAAGATGTTTTAATCTAATCACAGAAGTATTACTAACTTTTGATATTAAAGTAGATTATTTATCTTTATCTTTAAGAGATCCAAAAGATAAAGAAAAATATTTTAATGATGAAAAAATGTGAAATCATGCTGAAACAGAATTGGAAAATGTTTTAAATGAACTAAAAATTGATTATAAAAAAATGATAGGTGAAGCTGCCTTTTATGGTCCAAAATTAGATATTCAAGCAAAAACTGCTTTAGGTCATGAAATTACTGTTTCAACAATACAATTAGACTTTTTACTACCACAAAGATTTGATATAAGTTATATTAACAGTGATGGAGAACTTGAAAAACCAATTATGATTCATAGAGGTCTTGTAGGAACTTATGAACGTTTTATCTCAGTTCTTTTAGAGCAAACAAAGGGAGTATTACCTTTATGATGTTCACCTTTACAAGTTGAAATAATACCAGTAAATATTGCAAACAAAGATTATGCAGAAAAAGTAAGAGATGCATTTAAAGCAAAATTAATTAGATCAAAAATTGATTTAAGAGATGAAAGATTAAGTTATAAAATTCGTGATTCACAAGTAAGAAAAATTCCGTATCAATTAGTTCTGGGAGAAAAAGAATCAGAAAATGAAACAGTAACTTTTAGAAAATATGGTTCTGAACAACAAACTACAGTATCATTAAAAGAGTTTATTAAAATGATTGAAGGTAAGATTATAGATAAAGAATAGTGTATTAATAGGAGAAAATACTTTTTATGAATAAGAATAATAGAAATATAGAAGAAGAAATAAAAATTCTAAAAGAACAAGATTATGGTATATTAGATGCTCAACACTCATTTATGATTGATGGTACGCTTGGAGGATTCAAAGCAGCTATTCATAAATTGCACTATACTTTTATAAAACAAATTCTTTTAGGAATTATGAGTGGAGTAATAATTGGCTTTGGTTATGTAGCGTGTGTTATAGCAATGGTTTCTTTAGAAGGAACCGATTTTGCAAAGGTTGGAACTCTTTTATTAGGATTTCTTTTTCCGGGTTGCATTATTTTAATTACTTTCCTTGGCGGGGGATTATTCACAAGTCACGTCTTTAGTACGATTCCAGTTTTAAAGGGTTGTGCTAGTAAAAGGTCCTATTTAAAAGGAATTTTTGGAGTCCTTTTAGGAAACTTTTTGGGTACTTTTATATTTGTAGCAATTTTTGCTGGAGCTGGAGGTTTGCTTAATAGTAATCAGCCATTTTTACTTAAAACCTTTGATATGACTATTCATAAGTTATATTTAGTTGCAAATGATTTAACTAATGGTAATTCTATTAAAACAGTAAGTATTTTTGCAACTATAGGAATAGGAATTTGTTCAGGAATCTTATGTAATATGATGGTTTGTTCAACTTTGCCTTTAACAAGCTCAACAAAAAATTCAGCAACAATAGTTTTATTATTAATTTTCCCAATTGCATTTTTTGCAATTGGAGGATTCCAACATGGTCCTGCAAATTCATTTTTCTTATGAATGTTATTATTTGAAGTAATTTTTAGTCCAGAATTAACTTTAAAAAGTGGATTAACACCACAGTTTTCTCAAGTTTTATTGTTTATTGCTTTAAGTACTATTCCAACATTAATTGGTAATTGAATATCAGGAGCATTATTATTGCCAGGTATTTTATATTATATTAATAAAGAATATGTTTCAATTTTATTTAAAAAAATTAAATTAGAATATTTAGAAGGTAAAACTGTTAGTTTTAAAGATAAAGCAGATAAGCAAATAAAAAGAATTGATAAAAAAATTAAACTACAAGAAGCTGAAAATGATTCAAAAGATAATAAATAAATTATTTTAGATTAAATAATATATTTTAAAAATGTCAGAAATGACATTTTTTTATATTATAATTTAATAGATAAAAGTACAGGAGTATATTATGAGATCAAAAATCAAGCAAAACAGTAAGGGCAAACGTAAGTAGTTTAAACTATGTTTTTTTTGATTGATTTTTCAATTATACTTATTTTTTAAATTTTTAATACACAAATAAATAATAATCAACAATAAATAAAATATTATCAAATTATATTAATTAGAATGCGAGAACTCAAAATGAATAATAATGAAATAAAAATGAAAAAAAAGAGGAAATTTAAAGTTCCTACATCTTTTACAATACTTTTCTTTGTATTGGTAACAATAATGATAGTGTCATGAATTTTACACTATTCAGGTATTAAAGTTGAAAATGAAAAAATTAAAGCTATTGGTATTATCGATTTATTTGTGTCTATTTTTCAAGGATTTAATGATAAGGTTGAAATTATAGTTTTTGTTATGTCTATTGGTGCTTTTATTTTTATTGTAATGAAATCTAAATCTTTAGATGCTTTAACTCAAAAAATTGCATGAAAGTTTAAAGATAAAACAATATGAGCTATTCCTATTATTGTAGTATTTTTAAGTTTTTGTGGTTCAGCATATGGTATGGCTGAAGAAGCTTTAGGGTTTCATATGATAGTTATTCCACTTATGCTTGTTGCAGGATTTGATGTTTTTACAGCAACAATTACTGTACTTCTTGGTGGAGGAATTGGGCCAATGTTAGCAACATTTGATCCTTTTCTAATTTTTACAGCTTCAGCTGCTGCTAATTCAAGTCAGGCTGGTATTTCTGAACCAACTGATGGATTAGCTTTTAGAATAATTGCTTGATTTTTAGTCACTGGGTTTACATCAGCATATATTATGTTTTATGCAAGAAGAGTTAAAAGAAATCCCAGTTTGTCTTATACTTTTTCAACATTAGAAGAAGATAAAAAATTTTTCTTAAAAGAACAAATAAATGAAGTACCTTTAACAAAAAAAAGAATTTCGATATGTGTAATATTTTTATTAATGTTTCTCTTAATGATTGCTTATTTATTTCCTTGAGATACATTAATAGGAAAAAATATATTCGAAAATGCGGGTATTTGAGTACAAGAAAATATGCCATTCTTTACATCATTAGTTCCTGGATTTGGACATGGTGATATGTATGTTGTTGCTGGATTTTTCTTAATTGGGTCGTTAATTGTTTCAATTTTAAATTGAGAAGGAGAAGAGACATTTGTTGAGGATTTACTTACTGGATCAAAAGATATGATAGGAGTTGCTTTTATTATTTCAATAGCTGGAGCAATTACTTATTTATTGAGTGAAACAGGAATTAAATCATTGATGCTTAGTTCCATAAATGGTTCAAATAGTAATGCAATGAATCCATTTGCATTTATAGTAATAACTTTCTTATTATTTATTCCATTGTCATTTGCATTACCTTCAACTTCAGGGTTCTCAACAGCCATCTTTCCAGTATGAGGACCTCTTGCAAATTCAGTTACAATTGGTTCTACTTCTATTACTATGGTTTCAGGAAGTATTACAGCATTTGCATTTGCAAATGGTATGGCAAATATGGTATCACCAGCATCAGGAATTGTTGTTGGAGCAGCACAAATTGGTAGAACAAGTTATGGTACAATAATGAAAGGTACGTGAAAGTTCCATTTATCATTATTAGGTATTAATATTGCATTACTATTAATAGGAACTGGACTGAATTATACAGGTTCTCACATTTTTTAAGAAGAACTAAAAAAACCTAAAAAGGTTTTTTATTTTTTGAGGTATTTATATGAAAAAAAAGAAATTTATAAGTGATAAAGCATTTTCAAAAAAGAAATTTATAGACTCTTTCAAAATGATTGGTGAGTGTATAAAAAGAAATCCTGCTACTTTTACAGGATATATAGTTTTTACAATTATTGATGCAATTTTTTATTCATCAATGACAATTGTTGTTAGTCAAATGACAAAAAATATTATTAACAATGGTGAACAAGCAAATCAATTTTTATGATTTTCAATGAGTTGAGTTAGCTGAGCATATGTTGGTTTAGGACTATTAATATTAATTGTAATTTTTGATTATCTGACAAATATTTATTCTGCATATTTTTCTAAAAAAGTTGAAATTTATTTAAGAGTAAAAGCTTTAAAAAAACTTGTTGAAGTTGATATTAGTTACTATTCAAAAAACCAATTAGGTTTAATTATGTCAAGAGTAATTAATGACAGTCAAGGGGCAGGAGATTCATTCAATGATTTCTTGTTAAATTTATTATTTACAACTGTTAGTTTTATAGCAATGATGGTATTTATGTTTATCTTAGACGTTAATCTTGCTTTGATTGTCTTAATGATTTTTATTGTTTTAGTAATAATAATTTGAGTTTTATTTATTTATTATCGAAGAGCAATTATCGAATCAGTTGATGTTAAACAATCAATTGATGCAGATATTACTGACAGATTAATTAACATTAGAGCAATTAAAGCAAATGCAGCAGAAAATAGAGAAACTAAAAGAAACATGAGATTGCATGATAAATATGATAGAAAATTAAGTAAAGTAATTTGACTTCAATCTTTATTATCATTTTTCTCTTATACTTTTGCTTGGTCTCTACCAATTATTACAATAATTGCTGCAATTGGACTTTATAAAAACTCTATGGATCCAAGCGAGTTATCACATTTGCTTGTAGCTTTTACATCAGCTACTAATAATATTTTGTATTCTTTATTAACATTACCAATGTGAATGAGAGGACTTACAAAACTGTCTAATTGTATTATGAGATTAAATTACATTTATGATACAAATTCATTGTTAAATTTTGTAGATCAACCTGAAAAAGTAGGAGATATTGAAAAAATAACTTTTGATAGAGTTACATTTAATTATCCAGAATCACCAACAAAAAAAATATTGCCTGAAATAAATTTAACTTTTGAAAAAAACAAAAGTTATGCTTTTGTAGGCGAAACAGGTGTTGGTAAGTCAACTATTGCTAAATTATTATTAAGATTTTATGATGTTACTACAGGTCAAATATTAATTAATGGTAAAAATATTAAGCTATTAAACCCAAATGATTATCTAGATAAAGTAGGTTATGTTGAGCAAGAACCTCAAATTCTTTATGGAACTGTGATGGAAAACCTGAAGTATCCTTTCTTTGACAAGACTGATGAACAAGCAATTGAGGCTGCAAAAAAAGCAAAAATCCACAATTACATAAAAAAACTACCAATGGGTTATGATACAATTTTAGGAGAACGAGGTTTTATGTTAAGCGGAGGGCAAAAACAGCGTTTAGTAATTGCAAGAATCTTTTTAAAAGATCCTCAATTGCTAATTCTCGATGAAGCAACAAGTGCACTTGATAACGTGATTGAAAAGGAAATTCAATCAGAATTAGATAAATTAATGATTGGTAGAACAACTGTTGTTATTGCACATAGGTTAAGTACAATAAAAAATGTAAATGAAATTATTGTACTTGATAAAAATGGTGTTTCTCAGAGAGGAACATTTAACGAACTTAAAGAAAAAGAAGGTCGTTTTAAAAAATTATATACATTAGGTCTTATGAAATAGGTGAGTAAAATGAGCAAAATTGACTGAGAAAATATATCGATGGAAATGATTTCTTGTATTGGAACTTCAAAATCTAATGCAATAATGGCAATTCGTTCAGCAAAAATTAAGGAATTTGAAAAAGCAAATAAATTAATGCAAGAAGCTGAAATTGAAATGACCAAAGCACATAGTCTTCATTTTGATATTGTTTCAAGAGAAGCAAATGGAGAAAAATTGGATTTAAAATTAATTTTTATTCATGCTGAAGATCAAATGCTAACTACTCAAGCTATTATTGATCTTGGAAAAGAAATGATTGAAATGTATAAAATTATAAATAAATAAAAATTTTGGGAGGGCATAATATGCCAAAAGCATTTACAATAGATTTAGGAGCAACAACTGCAAAATGTGCTTTTTTTGAAAATATGAAAATTAAGCAAACTTTTATTTTTAAAACAATAAATAAAGATAAAATACTTGAAAATATTGCAGTAGAGGCGTTTAAAATAGCAAAAGAAAATAACATAAATATGAATGAACTAGATTTCATTGGAATCGCAGTTTGTGGAATAGTTGATAACAAAACTGGAACAGTGATTTATTCAACAAATCTAGGCTGAAAGAATTACCCAGCAAAAAAAGAATTAATGAAGTTATTTAATAACAAAAATGTCTATGTATTAAATGATGCAAAATCTGCTGCTTATGGAGAATGAGCAATTTCTTTAAAAGGGAAGCCAGATTCTATGGCACTATTTACATTAGGAACTGGTGTTGGTGGAGGAGCTATTTTTGATAGAAAATTAGTTTTTGGAGATAACACTGGATTACCAAGTGAACCTGGGCATGGTGGTGGATTTCAATCAGAGTGTCAATGTAGTTGTGGTTTAATTGGTTGTATAGAACCAGTATCATCAGCAACAGGGATTGAAAGAAAATTAAGAGAGATTGGTTCAAAATCTACAGGCCCATTGGGTAAAATATACAGTCAATTAAATGGTGATATTCATATTATTGATATAGCTGATTTAGTTAAAAATGGAGATAAAGAAGTTATTAAAATATTTGAAAATAGCTTAGAGCCATTAGCAAAATGTATTTCAGTATTAATTCATTTTTTTGATTTATCAATGATTGTTATTGGTGGAGGTCCATCAAATTTGGGTGAACCTTTAATTCAAATTATTAAAGAAAAATTAAAAAATTACGTTTTACCAGACTTTTATTCAAGAATAACTATCAGAACAGCTCAATTAGGAAATATGGTTGGAGCTTGGGGAGTTTATAAATATGGTATAGATAATTTAATAACAAAAAAATAAATTCTTGAATTTATTTTTTTGTTATTAAATGCTTTAAATATTATAAAATATATATAGAAAGAGTTGATTGCATGAAAAAAATATTATCTTTGATGGGTACAATTGGATTAAGTTCTTCATCAATTTTATTAACAACCCAAGTTGTTTCGTGTAACGCAACTTGATCTTTGGAATATAAATCAATTTTAAAAAAGGATGCCCAATCTATTGCTGAAAATGAGTATTTTGATATTACTAGTAAAATTGACCTATCAAATAAAATAAAAAGAAATTTATTTTCATTAGATATTAATAGTCAAATTAAGAGAAATAATGCCTTATTGAGAGAAATAACTGATGAGTCATTAGAATTATTTGCAATAGCTAGAGCTTATTTTGATTCAATGGTAGTAATTGATGATGAGGGCAATAACAATAATGACTATTATTACTATGTTCTTCAAGATAAGGAAATTTATGGTAACGCTTCAAAAATAATGAATTATGAATCTGAGAAAAGTTTTTTAGACTTTTTTGGAGATGAAATAATAAAACCAGAATTTCAGTCAAATGCTGCTAGATTTGCAGTATTGAAAAATAACTTAAAATTTACTCAAGCTTACTATGAGGTAATAACTTCAGATTATTCTAAACAAACTTCTCAAAATAAAGCATATATTGAAAGTATTCATGAAATGAATAAATATATTGAAGATGGCTTCTTTGTACCATTATTAAAATTTATTGTAATGGAAAAAGTAATAAGTGCTGGAAACTCTTTAACAAAACTTAAATTTGATAAAAATATTATTGAATATTTAAATGTTGGTCAAAAAGGAGAAAACACACTAGATAAATATATAGGTTATTGATATGATTCTAAAAATAAAAATACAAGTGGTATTTTAACTTATAATTGAAATTGTGAACATACATATGAAAGCAATTTAGATTTAGATTACATGAAACTTTCAAACGAACAAAAAAAAGAATATCTAAACAGTTGAAGATCATGTGAAGATTATAAAGGAAAACCAGCAAATCAATTAAGTGAAGAAGAGGCTTTAAAAATAGATGATAATTTAATTAAAGTTATGTCATTAGGAATTAATAAAAATGATTCAAAAATTAATAATGCAATTGTTGAAAAGGATTTTGGACTTGAAGAAAAAGTTCAAATTGCTCCTAGAGTTCATTTTAATGCTTTAGAGGGAATCTTAAATAATGAAGAGGTTCAAAAATTCTTTAAATACGGTTTTCAAGAAGTTGATAAAGGGGGTATTTAATAATTATGCAAAAGTATGAAAAATATCCTGAAATTTTTGAAGCAACAAAAATAATTAAAGAAAATAAAGTAAAACTAAAAAATAATAAAAAAGAATTATTTGAATTGTCAAATCAGCTTCATCAAAAAAAGCAAAAATTAAAATTAGTATCTTCAACATTTAATAAAATTAAAAAAGAAAAACAAAAAGATATAAAAGCGAATTTTGATTTATCACTTTCAATTGCGAAATATCAAAAAACTGATATTAATAAACTTTATGATGATTATGAAAAAGAGATTGAAAATTTAGATACAGAATATGAAACAAAAAAAATTAACAGAATTGAAAAAAATAAGTTAGATATAGAAGAAACTAAAAGTAAAATCTCTTCTATAAAAAGTCAAAAGATTTCTATGAAATCAAAAAATAAAGAACTTAAAACAAAAATTAAAAGGGATTGAATAGATAAAAAAGCTTTAATTAAAGAAGAACATTTAAAATTAATTGAGCAATTAAAAACAATTAAGTCAGAAGTTTCAGCTAATATATATGAATATAGAAAAAAATACAAAGCAGAATCTAATGATTTAATGGAGAAATGAAAAAAGGATAATAATAGTCTTGCAAATATTGATTACATTTTAAAACGCCAAAGAAAAGTTAGAAGAATTAAACGATTTCAAAATGAATTAGATCAAACTATTTATGATTTATCTTTAAAAATAAATGAAATCAGAATTTCATATGAGAATCAAATTAGAGAAGAAAAATTAAAAATTAAAAATCAAAAACTTTTAATTAGATATAATGCAGGAAAAGCAGATCGATTGACTATTAAAATGACAGTAGATAAAGTAACAAATGCATCTGGTAAGCTTTCAAACTGAAAATTTATGGTGGCTTTAAAGAATGGATTTTTCTCACTTATGCCATTGGTAATTGTTGGTGCTGTTTTTATTCTAATTAATAATATTGTTTTAGGAGCAGCAAATGGAGGGTTCTTTAACTTCTTTTACCTAACTGCTGATGAACTTGCAATTTTAGATAAATTTAAAACAGTTGGTTCTTATATTTGAAATGGAACTTATGCATTTTTTGGTTTTCTATTAGCAGGAGCAATTGCATATCATTTAGCACCTTATTATAAGGTTAATCAATGGTCAGCTGCTATTGTTGCTTTTGTAGCATTTCTAATTATGAGTCCATCATTTTGAACAAGCATAGGAGTTTTTGGAACTTCTGGAATGTTTACAGCCATGATTATAAGTATTTTATCTACTGTTCTATTTGGTAGGCTTTCACAAAATGAAAAACTTAAGATTAGAATGCCTGAATCAGTACCTGATGGGGTTTCTAAATCATTTAATATTTTAATTCCATATGCTATTTCAGCAATCTTTTTTGGAATGATAGCATTTGCAATTACATGAATTGGTCAAATCGTGGGAGAAATTTCTATTGGAGCTGAAACAGTTACATTTATTGATTTAAATGGTTTGATAACTGTAGCAATTCAAAAACCAATGGTTAATGCAGTTTCAGGATTTGGTGGAATGATTGCTATAGTACTTTTATGACAAGTACTATGATTTATGGGAATTCACGCAAGTGGAGTGCTTTCACCAATATTAGAACCAATTCAATTAGATGGTCTTACTCAAAATCAGCAAGCACTAGCAGAAGGGTTAGACCCTGAATATGTTTTTACAAATCCATTCATGAATAACTTTATATTTATGGGAGGTACTGGTGGTACGATTGGACTAATTCTTGTTATATTGATGTTTTCAAAACGTGGAGATTACAGATCAATGGCTAAAGTTACATTAATACCTGCAATATTCTGTATTAATGAGCCATTACTATTTGGATTACCTTTAGTATTAAATCCAATATTATTTGTACCATTTGTTATTGGACCATTACTAGCAGGAGCTTTTGCTTATTTTGCCACAACAGCGGGAATTATACCATATTCAAGTGTTATGGTTCCATGAACAACACCACCAATACTTGGTGGAATCTTGACAACGAAAAGTTTTATGGGTGGTATTGTAGCTGCAATAAATTTAGTTATATTGATGGGAAGTTATACACCATTCATTTTATTGGCAAACAAAATTGAACAACGTGAATTATTAAGTAAATTCACAAAAAAACCAAAATTAGAAGATATAAATATATTAGAAAAACAAAATAAACTAAATCATTTAAATTCATAAATTTAAATTATCTTGGGAGGAAATTAAAAATGAATAAAAAAATACTATTAGCATGTAATGCAGGAATGAGTACTTCAATTTTAGTGAAAAATATGCAAAATTATGCATTTGAAGAGGATATAAATGTTGAAATTAAAGCTGTTTCAATAAATGAAGCAAAACTTAATGGAAAAAATTGAGATATAGTTTTATTAGGACCACAAGTAGGTTATGAATTAGAAGAAATGAAATCATATCTTAATATGCCTGTTTTTGTAATTGAAAAAGAAGATTATGGTAAAGCAAATGGAGAAAAAGTTTTAAAATTTGCTTTAAAAAACTGTAAATAAAAATCACTTTTAAAAAGTGATTTTTTTATTGATAAAATTATATTAGTGAGGTAATTTATGAAAAGAAAATTAGGAATATCAATTTATCCAGAGCAATCAACATTTGAAAAGGATAAAAAATATTTAGATTTAGCTAAAAAATTAGGATATGAAGTTGTTTTTACAAGTATTTTACATTTTGTGGGATCAAAAAATGATAAACAAAAAGCAGAGATGGTTTTAAAATCAATTCAATATGCAAAAAAAATTGGATTTTATACTATATTAGACGTTGAATATAAATCAATGGAACTAATAAAAATTAATGTTAATGATATATCAAAATGCAAAGAATATGGAATTGATTGTTTGAGATTGGATTCACCAAGTTTGCCTTTTGAAATAGCAAATGTTACTCATAACAAGTTTGGTATTGATATACAACTAAATATGTCAAATAATGACAGTTTGATTGATAATGTAATGGACTTTAAACCAATAAAAGAAAGGCTAAGTGGATGTCATAATTTTTATCCATTAGAGTATACTGCTTTACCTTTTGAATATTTTAGTGAAGCAAATAAAAAATATTTAAAACATAATTTATCTACTGCAGCTTTTGTAGGAAGTCATAATGGAGAAATGACATCAGCTGTAGGTTGAAAAGAATTACCTACTTTAGAAGAACAAAGACATTTAGCTATTTCTGAACAAGCAAAGATTCTATTTTATACAAATGAAATTAATACAGTAATTATTGGTAATGCATATGCAACTAATGCTGAATTGGAAGAACTTGCAAAAATAGACAAATATGAAATAACTTTAAATTTAAAACCTCTTTATAAAATTAGCAAAACTGAAGAGCAAATTTTAAAATTTGATCATTTTAGAAGAGGAGATATAACAGAGTATTTTATAAGATCTACTTTTTCAAGAGTAGAATTTAAAAAAGATTCTATTGCTCTACAAAATACTAAAAAAATTTATAATAAAGGTGATGTTGTTATAATAAACAACAATGATATTAAATATAAGGGTGAATGTCATATAATTTTAAAAGATAATTTCGAAGACAAACAAGAAAAGTATAATTGAATTGGTACAATCAAAAAAAGTGAAAATAGGCTACTTGATTTTATTGGTCCGTGAAGTCACTTTAGATTTAGAATAGAGGATTAGCAAAATGTTATTAGGTTCATTAAGTAGTGGAACGTTTTGAGCATTATTTAGTTTTGGGATACTAGGATTATTGCTTGGGATTTTTTCAACCATATTTTTTATTAGATTTAAACAAAATAAAAAGGATGAAAAAGATTCTTTTAAAGTTGTCACAACAAAATTTAAAATATTTCGATTTTGACAATATTATGGAATTTTTACTTTAGCAGTTGTGGGTTATTTAATGGCTCTAATTTTCTTAGCAATTTGTCTAGGAGAAATTATTTAGTGCAAATTTTTTCTAAAAAATCACTTTTTTATGGAAAAATTGTTGCATTTTTTTTTTTTTTTTTATACCATTTACTTGTATAGTAAAGGAAATTAAAAATGAACAATAAAAATGTGCATTTAACTAATGAAAAAAAGTTAAAGACAAAAAAAGTTAAAGATTCAAATAACTCAAGTAGTGGTTGAAGTAAATTTTTAACCATGCTTCAAGAATTGGGAAAAGTATTACAATTCCCAATTGCAGTTTTACCTTTTGCAGCTATTTTAAATCGTTTTGGTGCTTTAGGTATTACTTATAGTAGTGAAGTAGTCGGTGATAAGTTAATAATAACTAATCAAATAGGTTACTGAATTTCATTGATAATTCAAAAACCAGGTTCAATTCCATTTGATAATCTTGCATTATTGTTTGCAATTGGATGTGCCTTTGGTTTAGCCAAGGATCATCGGGGTGAAGTTGCATTAGTTGCTGTAATATTTTATTTATCTATTGCAGCTTTAACTGGAGAAAAAACTCTTCCTGAAATGCTTTATGGAAAACTAATGACATTTACAACTCAAGATGGAAAAGATTCTTTTTCTAAGCTACTTTATGTCCAAAAAATGGATGGGGACAATATAGTAGGTGGAGTTTATGTTTTAAGTACTGGAGTACTTGGAGGTATTGTATCTGGATGTTTATCAGCTTTCTTATATAATAGATTTAAAGATATTAAACTTCCAACAGCTTTATCATTCTTTGGAGGTCGCAGATTTGTGCCAATGATAGCACTTGTAGTTACAATTCCAACAGCGTTGGCCTTTGCAATTATTTGACCTTGAATACAGTTAGGACTAATTAGTTTTGGAACAGCTGTAGCTAATCCAGAAAATCCTGCTGTTGCGATACCAGGAACTACAGCTTATTCAATTTTAAATAGATTATTATTACCATTTGGTTTACATCAAATTATGAATACATTCTTCTGATTCCAAATGCCTGTTAGTGGAAATATAGTACAACCAGGATTTGGATCAAATCCTTCGATTGGAACTGAATGAGTAACTGAAATGGGAGATATTAATGCCTTTGCAAAAGGAATTAGTAACTCAGGATTATTCCAAGCAGGATTCTTTCCAATAATGATGGGAGGTCTTCCAATGGCAGCTGTTGCTATGATAATGACAGCAGATAAAAATAATAGAAAAGAAATTGCTGGATTCCTTGGAGGAGTTGCAGGGGTTTCATTCTTATCAGGAATTACAGAACCATTAGAATTCTCATTTGTATTTATTGCACCAGTATTACTTGGAGTTCATGCAGGACTTACAGGAATATTTATGGCAATAACTACTGCTATGAAAATTCAAATTGGATTTGGATTTAGTGCCGGATTTATTGATTATGCAGCATCATTACCACAATCATGAGCATTATCAAATTATCAGGGAAATATAATATCTAATCCATTATGAATCTTAGTTTTAACAGCAGCAGCAGGAGCAACTTATTACTTTGTATTCTACTTTGTAATTAAATGAATGAATCTTTCTACACCAGGAAGAAATGTTGAAGCAATATCACCTAATAGTGTAAATACTTCAAGTAAAGCATCAACAACAAAGGAAACATCACAAAAAGGTGATAAGTATGAAAATATGGCTTCAATAATTGTTGAAGCAATTGGAAAAGATAATTTTGTAAGTATTGATAATTGTGCTACAAGATTAAGATTAATTTTAAAAGATAACAGTAAAATTGATGATGCATTAATAAAATCTGCAGGAACATATGGAATTAAACGATTAGGAACAGAAAGTTTACAAATTGTTATTGGTCCAGATGTAGAACATGCAGCAAATGCATTGAAAAAAATTGTTGTTATACAAGAAAACAAAGAAGTAAAAGAAGTTAAAAAATAGTAAAAAAAGAAATGGTTACATTTCTTTTTTTGGAGGTAAATATGGCTTTTAATTTTGAGCAAGATACAGATTGAATATTTACATTTTGCAAAAATTGCTGAGACTTTAAAAAATTTATTTTTAATAAACCTATTAATTTCGAAACAAAAGCTTCTTATAATGGAATTTGTGTAAGTTGTAAAAAAGAGCAAAGAATAAATTTAAAGGAGGCAAGAGATTATTATGATCATTTAAATGATCATAATAATTAAAAATAAATATGGATAAATTTCCTTGATGAGCTATTTTAATTATTGTTTTATTTCTTGTACTGCTTTATTTTATTATTCCTTGAAATAAAATAACTAAAAAAGCAAAAGACAAATCTGATCTTGTAAATAACCCCAAAGAATTTATTGATTCAGAGGTTGACATTAAAATAACAGAGGCCAAAGAAAATAGAAATAATAGACCTATGCTTGGAATTTATAATTGATTTGGAAAAAAAGAAGCATTAAGGTTAAGAACTATTGTTTATGTTCAACCAGAAGAAGATAGTTGTGAATTATGTATTCCATTTGAAAATACTATTTTATCTTTAGAACAGTATGATAATAAATATCTTACAATGAGTGAAGCAATTTCGAAAGGTTATCATCATATTGGTTGCAAACATATTGATATTGATTATTTTCCTGGTTCAACAAGAATTCCAAATAAAAAGTTTACAAAAGAGGAACAAAAATTAAAACATAATAAAGTTTTAAAATTGTATAAGCTAGAAAATAGTATTAGAAATTTAAAATATGAGTATGATAATGTAAAATCATCAATTAGTTTAAAAAATAAAATTGAACTTATTTCTAATGAAATTGAAAATTATTGTAAAGAGAATAATCTTATCAGAAATATTGAAAGGGAAAATCCAAATATAGCTGATATAGATAAATTTAGATAAAAAATCAACTAATGTAGATTAGTTGATTTTTATTTAATTAATATATTATCTATATCCTCTTGCTTAATTAAGTTAATATCTTTTGAATCAATTACTATTTCACCATTTTTAAAACAAATTATTCTATTACAAATTTGTTTTATTTTCTCTAAATCATGATCAATAATAAAGATATTTTTATAGTTGTCTTTTATTTTTTTTATATCATTTAGTAATTTATTTTTTCAAGCGCTATCAAGAAAATTAAAAGCTTCATCCAAAATTAGAATATCAGTTTTAAATAATTGAATAATCATAAATTTAAAACGTTGTTGCTGTCCTGGAGATAATTTAGCAAAATAAGTCTCTTTAAAATCTAGTAAATCATAGTTTTTAAAAAAATCGTTTATATCAATTTTTTTCTTATTTAGATTATTAAACAAAATAACCAAGTCTACTAATTTAATAAGTCCAAAATTGCTTACTTGTTGTAAAATACTATAACTATAGATTTTATCAACTTTAACATTTTTATCAACTTTAAAAGAGTTGGACAATAGTTTCAAAAATGTAGTTTTTCCTGAGCCATTTGCACCCATTACACCAATAATTTCATTTTCTTTTATTTCTAAATCTTTAATATTAATTTGAAAAAAGTCTGATATTTTTTTATTTATATTAATTTTCATAGAAACCTCCTATTTTTTTAAGGCAAATATCAGTGCCCCAGATACTAATAAAGCATAATTAATTAATATTGCTAACCATATATATTCATTTGACCCGTCAATCATTGATATATTAATAAGTGGAATTACACTAAAACTTATTTTCAGTATTTTACTATTTGTATATATAGAAAATAATAAAAAATAACTTTCAAATCATAATGAGTATAATAGTAGTAATACTAAAAAACTTATTAAGAATTCCTTTTTGTAAGGTGAAAACTTAAAAATTAATATGGATATAATAAAAATACTTATAATCAAAGAAAATTGTTTAAAAAAATTATTAATAAAAAACTCAAATATTCCATAATTGGCTAAATAATTTCTATAAAAAATTAAAGACCAAATAAAATAAATTGTTAAGTTTGTTATTGAAATAATAAAACTATTTAATAAATAGGCGAGAATTATATTTTTAGACTTAATTCCTGAACTTATTAAATGATTTCAAATTCCATTTTGATAATCTTTATAAAGATATAAAGTAAAGAAAATAAAAAACATTACTAAAGATATATTTATACTTTTATTTCTTATATCCATAAGCTCTATTTTTGGTTCCTCAGATATATCTGAAATAATTAGACTCCCTATATCAATTAGTAAAAAATAAAAATAGAATATAAACATAATTGCCAATATTAAATACCATTTACTTTTCATTCTTTTAAAATTAAATTTAATTATATCCAACATAAAATCACATCCTAATAAGATTATATTCTTGTAAATATAAAAAATAGTAAATATAAAATATATTATAAAATTACAAGTTTATAGATAATATTAAAGTATAGTTAAATTTTTATAATAATTTTAGAATTAACACTTATAATTATTTAATTTTATAAAAAGGAAAAATTGATATGGAAGAATTAAAGTTTTTATCAATATTAAAATCAATTGCAAATAAAAATCCTGAAGATATTAATTCTTACATTGCAAATTTTATATTAAATAATATTAAAGAAATTAATGATTATAGTCTTGAAAAATTTGCAATTTTAACAAATACTTCAAAACCTTCAATTATTAGATTTTGTAATAAGCTAGGGGTATCTGGTTTTAGCGAATTAAAATTTCAAATTAAAAACTTAATAAAAAATAATTTAGCTTTAAATGAGCAATTTAATTTTAAAAAGCAGTTAGTAGATAATAATGATAAATATCAAAACTATTTACAAATTAAAAATAATTCCTCAAATATTGTTTTAGAAAGATATATTGCAAATCAAAAAGATATAAAGATTTTATTAGATAGAATATCTAAAGCTAATTCAATTTATGTTTTTGGTATGAATCTAGCTTATAATATTTCGCGAAATTTTGTTCAAAGAATTAGGTGATTAAATAAAACAATAATTCAGGAAAGAGATTTAAATTCAATAGAATCATATGTTCAGCAAATTAATGAAAATGATGTAGTATTTATATTAAGTCTATCTGGCAATAGCAAATATTTAATTGATTTTGCATCAAAGTTAAAAAATAAGACATATATTTTTGGGCTTCTGGGTGATGATGGTGAAATTAAAAAATATTGTGATAGTGTAATTGAAATACCACAATTTGAAGATAAAATCTGAGATTCATTTTCAATAAGGGGACAATGTTTAATTCAAATTTTGGACTATATTTATATGGATTTAACAAATTATTTACTTAAAAAGGTACAAACTGATTAACTAAGGTACACAATGAGCTAAAGTTATTAATTATTTTTTTTGTTTAAGTAATATTAAAACGAAAGGAATAATAAATATGAAAGGATTAACTTTTAAAAAAGAAAAAAATATTGATAAAATCGATATAAAAAAATCTAAAAAAAATTTGCTAAATAAATTTCAAAAATTGGGAAGAACATTTATGTTACCAATAGCAATGCTAGCTTTCTGTGGTATTTTATTAGGAATTGGTGCTTCACTTACTTCTAATGCAACAATTATACAAATACCTTGATTAAAAACTAGAGGATTATATGATTTCTTTGTATTGCTTAAAACTATTGGAGCAATTGGTTTTACATTTTTACCATTTATGTTTGCTATGGCAATTCCAATTGGTTTAGCTTCTGATAATCAAGGTTCTGCTGCTTTCAGTGGTTTTATTGGTTATGTGACTATGCTTTTTGTAATTAACTTTACATTAAATGTTTTACCAGAAAATTTAACATCTGAGGGAACATTCATTGGTAAATCAACACAATCCATATTGGGAATCAAAACAATGGATATTGGAGTTTTGGGAGCTATCTTTGTTGGTCTCTTAGTATATTGACTGCACGAAAAATTTCAATATATTAGTTTACCTAATGCAATATCTTTTTGAGGTGGTACAAGATTTGTTCCAATAATTTCTTTATTAATATTTTCAGCAATAGCAATACCAACAACTTTTATTTGACCTTGTTTTAATCAATTGATATTTTGAATTGGCTTAGGTGTACAAAAAGTAGACTGGTTTGGTCCATTTCTATATAGATTTACAGAAAGTTTAGTAAGACCTACGGGAATGCACCATGTTATTAATACAATAGTTAGATTTTCAGCAGTTGGTGGAACAATTATTCTTCCAAGTGGTGAAAAGATCACAGGGGCATTAAATATTTTTTATAAAGAATTAGAATTGGGATTACCAATCTCAGCATCTGCAACTAGATTTTTATCTCAAGGTTATATGCCAACAGTAATGTTTGGTTTGCCAATGGCAGCAATTGCCATTTATATTCTTGCAGAAAAAGAACAAAAGAAAATGGTCAAGTCAGTTATTATTCCAGGAATAGTTGCTAGTGTTGTAGGGGGAATTACAGAACCATTAGAATTTTTATTTCTTTTTGTAGCACCATTATTATACTTAGTCCATTGTTTCTATATTGGATTAGCCTATATGTTTGTGGGGTTATTACAAGTAAAAATTGGAAATACTGATGGTAATATTATTGATTTTATAGTATTTGGTTTAATGCAAGGATTAGTTACAAAATGATACTATATATTATTAGTTGGTCCAATTTGAGGTGTGTTATACTTTTCAACATTTTATTTCTATATAAAATATAGAGATGTAAAGACTATTGGAAGAACAGAATTAAGTGAAGAAGAAAAAATTACTTTAATAAGCAATGATAAAAAAGAACAGATCAGTACCTCAGATGAAATTGCAATTAAATATATTGAGTTATTAGGTGGTAAGGAAAATATAAAAACTTTAAATAACTGTTATACACGTTTAAGAATTACTTTAAACAAACCTAAAAATATTTCTCAAGAAGAAGTAAAAGAATTAGGAGCAATAGCTATTAAGTATATTGATGACTATAATATTCAAATAATAATTGGTCCGAAAGTGGAAAAACTAAAAAATGAAATAGCAAAAACAATAAGGAACTAGGTGATAAAATGAACAAGAGCTTTAACAAAAAAATAGATAGATCAAAAAGTAATGAAAGAAAATGGTCAATTGAATATTTAGAAGAAAATTATAAAATTGATTTTTCAAAAAAATTTTACAATCTTTCAATTGCCGATTTGGACTTTCAAACTCCAAAACCTATTGTAAAATCTATAATTTCAAGAGCAAAGAAAAAAACCTATAGTTATACTTATACAGAAAAAAAATCACTTCAAGCAATTCAGATTTGATATAAAAAAATGCATGAAATTAATTTAAAAACTGATTTAATAAAGTTAGTTCACGGAACTGTAAATGCAATGTTTGAAGTTGTTAAATGTTTTACAAAAGAAAAGGAATCAGTTCTAATTCAATCTCCTATATATCAACCATTTGAAAGATCAATTATTAAAACAAAAAGAAATGTAATATATAATAATCTAATTTATAGAGATGATAATTATTACATTGACTTTGTTGATTTTGAAAATAAAATTGTAAAAAACAAAATAAAATTATTCTTATGATGTAATCCTCATAATCCTGGAGGTAGGGTTTGAGAACAAGAAGAAATACTTAAAATTATAGAAATTTGTAATAAAAATAAAGTACTAATATTTTCTGATGAAGTTCATGGTGATTTAGTTTTAAATCAAAAGCATAATTCTTTACTAAATTACTCAAATTTAATAAAAGATTTTATAGTCTGTAATTCACCAAATAAAACTTTTAATTTGGGAGGATTGAAGGGTTCATATATGATTTGTTCTAATAAAAATATATTTGAACAAATATCTAATCAATATGAAATTGATTCGCTTACATCGCCAAATATTTTTTTTCAACCAGCACTAATAAGTGCTTATACAAATAACTATTCTTATAATTGATTAAAAAAATTGAAAGAATATATTTATTCAAATTATACTTTTTTAAAACAGCAATTATCTAATTTTCAAAATTTAGAAATAATGCAAATGCAAGCTTCATATTTAGTTTGGATAAAATTTAAATCTAAGTTAAGTTTAAAGGACATAAAACAACAATTTATAGATAATAATTTAATATTGAGCTTTTCAGATGATTTTGCTGATTGTAAAGACAATTGAATAAGACTAAATATTGGTATAAATAAAAAAACTTTAAAGCAAGTTGTAAACAAATTAAAATTAGTAGTATTTAACATAAAAGGAGAAAAATAAATGAAAGTAATTAATACTGTAAAAGCACCAAAGGCAATTGGGCCGTATTCACAAGCAATTTTAACTAATGACAATTTTCTATATGTTTCTGGGCAATTAGGATTAAACCCTCAAACAATGATTTTAGAAGACAATATTGAACTGCAGACAAGAAGAGTTTTTGAAAATATTGATGAAATATTAAAAGAGGCAAATTTTGATAGAAATGACATAATTAAAACTATGGTTTTAATAGATAATATGGCTGATTTTGATGTAATTAATCAGATATATGGAGAGTATTTTGGCAATCATAAACCAGCAAGAAGTGCATTTGAGGTCTCAAAACTGCCAAAAAATGGTTTAATTGAGATTGAAGTTATTGCTAAAAAATAAACTTTTTATCAATATTTTTAAATATTTTTTTAAATAATATTTGAAATAACAAAAAACTATATTATAATAATTAAGGTTTAAAGAAAGAAGCGCACAGCTCACCGTAATTTGTAAAGAAACGGTATAAAACTTATTTATTATCTATATATAAAATAAATAAATTTTAAGTGTGCTCCTAATCTTTTAACGGCACACTTTTTATTTCGGAGGACAAATGGCAGACAATAAAAAAATAATAACAGATTTTGTAAATAGAGAAATTAGAGCAAAACAGATTTTAATTATTAATGATGATGGGACTAAAAATGGTCCATTAAACAAATTTGAAGCTTTAAAATTAGCAGAAGAAGCAGGTTTAGACCTACTTCAAGTTGGTATGCAAGATAGTAATACAGCTATTGCTAAAATACTTGATTATGGTAAGTTCAAATATGAACAAAAACGTAAGCAAAAAGAAAATAAGAAAAATCAAGTAAAAGTTGAAAATAAAGAAATTCGTTTAACAGTAGGAATTGGAGAGCATGATCTAGATACTAAGGCTAGAAAAGCAAGAGAATTCTTATTACAAGGCGATAGAGTTAAAGTCTCATTAAAATTTAAGGGTAGAGAAATAACTTTTCAAGAATTTGGTAAAGAAACATTAGATAAATTCTTTACAAAAATTGAAGATATTGCAAAAGTTGAAAAAGAAGCCAAACTAAATACAAGATTCTTAGATATGTATGTAGTGCCAAAAAAAGGTTAATTATAGGAGGAGAGAATTTATGCCAAAAATGAAAACAAAAAGCTCTTTAGCAAAAAGAGTTAAAAAAACTGGTGCAGGTAAATTAAAAAGAGGTAAAGCTTATAGATCTCATTTAGCACAAAATAAAACAACAAAGCAAAAAAGACATTTGAAAAAAGCAACTTTCGTCTCAGCTGGAGATATGAAACGTCTAAAAGGATTATTACAAAACTAGGAGGTAGAACAATATGGCAAGAGTAAAATTTGGTAAAGTAACTAGATCAAGAAGAAAACGTTGAATCAAAAGAGCAAAAGGTTACTATGGAACAAAAAAAGCAAACTATAAAAAGGCTCATGAACAAGTTGTACGTTCTATGGCCTATGCTTTTGTTGGGCGTAAACTTAAAAAACGTGATTTTAGAAAATTATGAATTATTCGTATAAATGCAGCAGTTAGACCATTAGGACTAAGTTATTCAAAATTTATGAATGGTTTAAAATTAGCTGGAATTGATATTAACAGAAAAATGTTATCAGAATTAGCAATTCACGAACCAAAACAATTTGAATCAATCGTAACTTCATCTAAAAAAGCTTTAGAAGCTAAAAAATAATCTAAATGAGCAAAATCAGCTCATTTTTTTAATTGTGTTAAAATTATATTGCTTAAAAGAAGAGGTATTATATGGCAAAAATATTAGAAAATAATAAAATTGAATTTTCAAAAGAAGATATGAAAGCAGCTTGAAATAATTCTCCTAAATTAATTAATAGAGACGAAGATGAATTTAGATTATGTTTTATATGTAAATTTTTTATGGACCATTCGAAATTTGAAAAGGGAGATTTTTCATGAGTTTGTGAGTTTATTGATCTTAAGAATTTAAGATTAACACCTGATAATTTAATTGCAATCCACCCACAATGTAGAGAATTTAGACATAAAGATGATTGTTCTAAAATAGTTAAAAAAATAAAAGCAACACAATGAAGTGCTGCTAATTAGTTAAAACTTTATTTAAAGTTTTTTTTATTTTCTTTTATAATTTAAACCAGTTAAATTTTTTACTTTAGTTAACTTTTTACTTGCTAGTTTGCGAGCTTTTTCTGCGCCTTGTTCCAACCAAGAATCCACTAAATCAGAGTTGAATAGTTCTTTAAATTTTAGTTGAATTTTTTCTAATAAATTAACAACAACATTTGAAACTTCATCTTTTAGAATTCCATAGTCTTTATTTTTAAAGAATTTTTCTGCTTCTTCAATTGAAATATTTTTTAAAGCTGAATAAATTGTTAATAGATTACTTACACCAGGTTTATTTTCAACATCATATTTAATTATATTTTCTGAATCAGTTACAGCTGATTTAATTTTCTTTTTAACTTCATTTATATCATCTAAAAGAGCAATAAAACCTTTAGGATTAGCTCCAGATTTTGACATTTTTTTTGTAGGATCTTGCAAGTCCATTATTTTTGATCCAACTTTTGGAGTGTAATCACCAGGAATGGTAAACATTTCTCCAAACTTATTATTCATTCTTTCTGCAATATTTCTTGTTAATTCAATATGTTGTTTTTGATCTTTTCCAACAGGTACAAATTCAGCGTCATAAAGCAAAATATCTGCTGCCATTAAAGCTGGATATGTTAGTAAACCAGTAGGTATGAATTCAGTTCCATTTTCAGATTTAACCTTAGTAGATTTATCTTTGAATTGAGTCATTCTTTGCAATTCACCAATTGTAGTGTTACATGTTAAAATTCATCCTAATTGTGTATGTTCTAAAACATCACTTTGTAAAAAAATTGTTGATTTTTTAGGATCCATTCCACAAGCGAAATATAAAGTAACCATTTCTTTAATATTTTTTCTCAAAATATCTTTATCAATTGGTGTAGTTATTCCGTGAAGATTTGCAACAAAGACATACATTTCAAATTCATCTTGTAAAGCTACAAAATTTTTCATAGCTCCAATATAGTTTCCTAATGTCATTTTTCCTGTAGTGGTTATTCCTGATAACATTCTTTTTTTATTCATAATTATTTGCTCCTTGATTTACATTTAATATTATACAATCTTTATATATTTTTCTCCTAAAAATAAGTAAAATTAATAATAGTTTAGAGGTGATATAATGCTTTCGTTTAGTATTATTAAAAATGACTATAAAGCAACAAAAGAAGTTGTTTCTCATTTAAAAGAAAAATTAGAATCTAGAGGATGAACTTACAATGAAAAGTTACCAAATTATATTTTTATATTTGGAGGAGATGGAACTTTTCTAAAAGCAGTATCAAGATATAAGGATCAAATTGATAAAGTAAAATTTGTTCCTTTCAAATCAGGGGGTATTGGTTTTTATACAAATAAAAATAGAATAGAAAACCTTGATGCTACAATTGAATTAATTGAAAAAAATAAGTTTAATATAAACAATTTTGAATTATTAGAAATTAAAACTAAATCTCAAAAGCTGATTGCTGCGAATGAAATAAAAATACTTAATGAAAAGACACCTTTATATGTTGAGATTTATATAAATGATGAATTCTTAGAGAAATTTCATGGTACAGGGCTTGTTGTATCAACTTCAAATGGAAGTAGTGGATATATGAAATCTGCTGGTGGAGCAGTAATTCTTTCACGAACAAGTCAGATTTATCAATTGCAAGAATTAGTTCCTGTAAGTACTAATAAATTCAGAACACTAAATGCTCCTTTAATTTTGAATAATAAATATGTATTAAAATTAAAGTTCGAAGCTAAATCAAATGAAATAATGATTATTGATACTGTCGAATACCCAGTTAATGATTTAGAAATTGAAATAAAACCTTCAAAAATAAATATTAAAGTTGTAACTGATATCAGCAACTCTAAAAATACAAGTAAAATTCAAATACTAAGAGATATCTTTATTAAAGATAAGGAAGTGATTGAATAATGAATAATATTTTATATATTGTTATTGCCATTTTATTTGTTATTTGTTTTATTTCTTTATTTCTTTATTTCTCAACAGTGAGTATGTTAAAGAAGAGAAAAGAAAAATTTGGAATAAATTCAATTGAAAAGGGTGCAACTATTTATGAAAAAATTCTAGATGAAATTGGCACAATTGAAAATATTGACGGTATTAAAGAGCAAAAAATAATGGTTTTATCAAAAGAGTTAGTAAATTTAAATAACTTGAAAAAATTAAAAATAAAAGCAGAATTTGAAGAAAAACAATTAACTTTAACTTCAAAGGAATTTTCGATTAAATTATTTTTGAAAAAATTATCAAATGAATTAAAAAATAAGATAAATTAATTATCTTATTTTTCTTTTATATTTATAAATTCCACCATCAAGGGTTTTGGCATTATACCCTTGCTCTTCTAAAAATCTAGCAACTTCACCACTTCTATTTCCTGCGTTACATACAGTTACAATTGGCTTATTTTCAGGATTTTTTTCTTTTAGAATGTTTTGATAATTTCTTAGAAACTTATCAATATGAACGTTTATTGCTCAATCAAAATGAGGCAGAGTCTTAAACTCAGTTTCTGTTCTAACATCTAAAGTGAAATATTTATCATGATTTAAAGAATAATCTTCTACTGAAATATACATATAAATTTCATCCTCTCTCAATAAGATTTTATTCTTTTATTTTAAAAAAACTTTACTTTAAGTATAAATAAATTATAATTAAAGAGAATTCAATTCTGGTTAACGTTTATTAAAAAAATTAAACAAAATAATAAGAAGAAAATAAAAAATAAGGAGAAAAAATATGGCAGATATTAAATTTATGGCCCTTGGTGGGCAAGACGAAAGAGGTAAAAATATTTTTGTTATTAGTGTTAATGATAACTTATATATTTTTGATGCAGGAATTAAATTTCCAGAAAGAAGTGTATTAGGAATTGATGTAATAATCCCAAATTTTGATTTTTTGAAGGCGAATGCCAAAAAAATCAAAGGAATTTTCCTTTCAAATCCAAGCTCAAATAATTCCGGAGCAATTAGTTATATTTTAAGAGAAATTGATGTACCTGTTTATTGTAATGAACTTACAACAACTATTTTAAAATATAGAAACTTAAAATATAGAATAAAAAATAGAGAAAATAACTTCAAAATAATTAATGATAAAGACGTCATTAATTTTGGAGATGTAAAAGTAGAGGCATTTAGAACAACAGCTGCATTTCCAGAATCTTATGGTTTTGCAATTCATACTCAAGATGGTGTTATTGTTTATGCTGGAGATTATATTATTGATGGAAATGAACAATCATATTTTTCAACAGATATGAATCATCTAAACCAAATTGCTCAAAAAGGAGTATTGGCTTTAATTAGTGATGCTGAATATGCTTCAAGAATAGGTTACACTGTTCCAAATCATAGGATTGAAAAATTTATTGCAGCACCAATAAAAGATAAAAAGAGACGTTTGATTTTAGGAATGTTTGAAGAGGATGTTTTTAAGTTATTTGAAATAATAAAACAAGCAAAAGCAAATGATAGAAAAATAGCAATTTATGGAAAAACTATTACTAAGGTTGTTGAATCTAAAGTAATACAAGAAAGTTTAAATATTACTGAAAAAGATATTATCTCTATTGAAGAATTTATGAAATCACAAGATGGAATTTTATTGTTAACTGGAGCAGGAGATCTGTTATATGCAAGACTTGCAAAAATTGCTGCGGGAAATGATGATAAAGTTGAATTTACTGAAAATGATACTATTATTTTAGCAACTCCTCCAGCAGCTGGAGTTGAAAAAAGACACGCTGAAATTCTTGATGAATTATCAAGAACAAATGCCAAGTTAATTTCTTTAACTGAAAAAAATATTTGATCTATGAGAGCTAGTTATGAAGATATAAAATTGATGACTAGAATTATGAAACCTAAATCATTCATACCAATTAAAGGATTGTATAAAGATTTTTTAAGTGCTGAAAGAGCTGCAATAGAAGCTGGCGTGGACAAGAAAAATATTCAACTAATTAATAATGGTCAAATTCTTAAAATTAATGATGGGGGAAAATTAGTTATTGGTGCTGACTCAATTAAAACAGCAGATGTTTATGTTGATGGAATTGGAGTTGGTGATATTGGAGCAGTTGTTTTAAATGAAAGAAAACAACTTGCAACAGATGGGGCAGTTATTATTGGAGCAAATATAAATAATAAAACTAAAGAGTTAATATCTCTAATTGATATTCAAATGAGAGGTGTTATTTACATCACTGATGAAAATCCAATTTTTAAATTAATGCAAAAACAAATAATTGATATTTTAGAGAAATATAAAAATGAAGCAAAATCAAAACCAGCTAGTTTCGATTTAAATGCAATTAAAAAAGAGATTGTTTCAAGAATAAGAAGTACTTTAAAACAAGAAACAGGAAAGCAACCTATTGTTTTAGTAATAATTAATGAATTAGATGGTTCATTTTTTGAACCAAAAATGGTGAAATCAAAAAACTCATAGTTCCATGAGTTTTTTTGCTATTTGATGTAAAAAAAGGTTAAAATATATTAAAATCATATGGTAAGGGCATAATTAAGGTGAAATAATGAATAATAACAAAGGGCTAAATAATCACAATAATAGCGATCGTACAAGAGCTTTTACTATTCAAAAAAAACAAAGAAAAAATGACTCAATTTCTTGAATAGTTGGAGCATTAATTTTATTTTTTTTAAACTTAATGTCATTGGGAAGAATTACTATAATTGGTCAATTCTTTGATGATGTAATTTTTAATTTACCTTTTGGTTGATTCAAATATTTTTTGTACTCTTTATTTTTTCTATTAGACTTTTCAATTTATTTTGGAATAAAATTTAAACCCAAAAAAAGGTTTATTGCAATGGTTTTTTTAACTTGGATTTGTTTATGCTGGATTATTAGTGCAATTTTATTTATTGTGGCCTATCACGTTAAAACTCAAGATTTTATAGTAAAAGATATATGATCAAGTTCAATATTAAAGGACTCATTAAATTCTTATTTAACTAATTGAAAAAGTAATTCTATTTGGGGAGAAAATAGTGGAACAGTTTGAATAGCAGACCCAAGTACATATTTCACAACATGATCTGGGGGAGGGTTAATTGGAACTATTCTTGCTGGAATATTTGCCTACACTTCAATATATGTAGGATTAATTTTTGCTATTTTATTCTTTGCTTTAGATATGATTTGAATCTTTACAGGAGATCCATTCTTTTTCTTAAAACCAAAACATAAAAGAAAAGGAAAAAGATTAAGAATTCTTTCTTTAAAAAATAGTCAAGATATTAATTATCACATGAAAGAAGCACCTAAAAGGGAAAGAAATGGAAGAGGTATTTTGAATATATTAAATATTCAAAATGATGAAACATTTGATGAAAGAATAATTTTATCTTCATCAAAAGAATCAGATATTACTATTGAATTGCCAAGTTTTACTAGAAATTATGAAAATAATATTTATGAAGAAGTAAATACTGATTTTTATAATGATGATTTTTCTAATGTAAATTTAGAAAATTATAATTCAAATCAAAATTATAAAGAAGAATATGCTCGCCCAGCTCCCACTCCACCTCCAAATCCAAATAGAATTGTTGATTATAATTTAGATCAAAAAATTCAAGAAGCTAGATTGCAAGCTGAAAATTTAGTTAGAAAAGAACATAACTATATGCCAAGAAGAGATAAAGATTATAGTTATGATTCTCTTCCATATGATACAAAATATGGACAAGTTTCAACGGAACAAGCCAGAGAAGAATTGGCTAAAGAAACTAATATTACTCCTTTTGGCGCTAATGGAAAAACATTGGAGTTAGTACAATCAAGAAATAAAAAAGAAATTAAATTTGAAGAAGTTAAATCTGGTCAAATTACTTTAGATCATTTTATTAGTGAAACTAAAAAGGAAAAAGCAGAAGAGAAAAAAATGATTGAAGACTATGGAGATTACACTTCACCAATGCAAGAAAATGTATCAAGAAATATTTTACATTCTTCAGCATCTTATCAATCTGCAAATAAAGTAAATCAAACTATGGAAGTGAATAAAAATAAAGCAGTTGAAAAAGAGCAATTTGTAAATCATTCATATCAATTGCCTCCAATTGATATTTTAAAAGTTCATGTAGTAAACTTAAAAGATCAAGAAGCAATTACTAATTCTGCAAAAGAAAAAGCTGAAAGTATTAATGAAACATTTAAACAATTTGGTGTAAAAGCAAGTGTTAAAAATATGAGTATTGGTCCAAGTGTTGTTAAATTTGAAGTGCAACCAGAACCAGGGACAAAAGTTAATAGTATTACTTCATTAGAAAATGATTTAAAACTAGCACTTGCAAGTCAAAATGTAAGAATTGAAGCTCCAATTCAAGGGAAAGCTGCAGTAGGAATTGAAATTCCAAATGATAAACCTGAAGCAGTTCCAATGAGAGGTGTTATTGAAAATACACCAATAGTAAAAATGGGAAATAAATTATTATTTGCTATTGGTAAAACAGTTACTGGTGAATTATTATTTGGTGAATTAGATAAAATGCCTCACTTACTTGTTGCTGGTTCAACAGGTAGTGGTAAGTCAGTTATGATTAATGGAATTATTTCTTCAATTTTAATGAGGGCAAAACCTCATGAAGTTAAATTCTTAATGATTGACCCTAAAAAAGTTGAACTTTCAGTTTATTCTTCAATTCCGCATTTACTTGCTCCAGTTATTAGTGATATGAATATTGCTAATAATGCATTGAAAAAAGTTATTAATGAAATGGAAAGAAGATATGCATTATTTACAACATATGGTCTTAAAAATATTGCTGGATTTAATGCAAAACAAAAATCAGATTCAACTAAATTACCGTATTATGTAATTATTATTGATGAGCTTGCTGATTTAATGATGACTTCAAATAAAAAAGATGTTGAAGACTCAATTATGAGACTAACTCAATTATCTAGAGCTGCAGGAATTCACTTAATTGTTGCAACTCAAAGACCATCAACTGATGTTATTACAGGAGTTATTAAATCAAATATACCAGTTAGATTAGCTTTCTCTGTTGCTTCTTCAATTGACTCAAGAACTATCTTAGATTCAAATGGAGCTGAAAAATTAATTGGTAAGGGAGATTTACTTTACACAATTCCAGGGAGCACATCGCTTGTAAGAGCTCAGGGAGCTTATATTAGTGATGATGAAATTGAAAAATTGGTAAAGCATTGTTCTAGTCAACAACAGCAAATTTTTGATTCAGAATTCTTAAAAACTGAAGTTGAAGAACCAAGTTATACAGTAAATCTTGGAGCTGGTCAAGATGCGATGTTTGATGAAATAAAAGATTATGTAATTAGAACTCAAAAAGCTTCTACCAGTTTAATTCAAAGAAAATTCAATATTGGTTATAATCGTGCTGCAAGAATTATAGATGAACTTGAAGAGAGCGGAATTATTGGTCCACAAAATGGATCAAAACCAAGAGATGTATACATTCAAAATGAAGATGTTTATTAAAATCAGCAAAACTATTTGCTGATTTTAATTTATTTAACTATATATAATAATATTTGAGGTGAGATTTTATGGAAAACATAGTTAAAAATTTACCAGAAAAACCTGGTTGTTATTTATATAAAAATAAAAAAGAACAGATAATCTATGTTGGAAAAGCTAAAAATCTTAAAAAGAGAGTTTCAAGTTATTTTAATAAAGCACATAATTATAAAACAACCCAACTTGTTAGAAATATATGTGACATTGAAACTATAGTTACTGAAAATGAAAAGGAGTCATTAATTTTAGAGCAAAATCTTATAAAAAAATATCGCCCAAGATATAATATTGTATTAAATGATGATAAAAAATACCCATATATTGCTATTACAAAAGAGCAAGATCCAATTTATGTTTATACTAGAAATTTTGACAATAAAAATCAAATATCTTTTGGACCTCTTCCTGATGGAACTAGTGCTAGAAATATTTTAAAAACTTTGGAAAGAATTTATCCATTGAGAAGATGTAAAGGAAATTTGGGTAAACCTTGTATTCATTTTCATATTGATCAATGTTCAGGTGCATGTTTTAAAGAAGTTGAACCAAAATATTATCAAGATCAAATAACTAAAGTTAAAAATTTTTTTAATAGAACAAATGATGATTTTAAAAATAAATTAGAAGAAAAAATGATTATTGCTGCTGATAATCTTCAATTTGAAGAAGCTCAAAGAATAAAGGAAATTATTGCTCATTTAAACTTTTCAATTGTAGAACAATTTGTGGACTTTAATGATAATTTAAATCGAGATGTTTTTAATTATTTTGAAACAGAAGAATATATTTGTTTTGTTGTTTTATTTTATAGAAGTGGTAAATTAATTTTAAAAGACCAATTAATTATAAAAAATAGTTTAGAAGATTTAGTTTCTTTATTTGAAAATTTTATTATGCAGATATACTTAAAAAATATGCTTCCTGACTATATTATTCTTCCTCCAATATTAAAAAATACAAGTTTGAATTTTTTATTTCAAGAAAAAATAACTTATGGCAATGATGAGACTAGTTTAAAAATATTGGATCTTGCAAAAAATAATGCTCAAGAGTATATTAGACAACAAGAATTATACAAAAATCAAAAATCAATTAGTAAAGAAGAGCTACTAGATAATTTACAAAAAACTTTAAAACTGCCAAATTATCCATATCATATTGAAATGTTTGATGTAGCTAATATTTTAGATGAATTTGTAACTGGGGCAATGGTTGTTTTCAAAGGAGCTCAGCCAAGTTTTAATGATTTTAGAAAGTACAATATTATCATTGATGAAAAAGGTGATTTTCAAAGAATGCAAAATATGATTTATAGAAGATATCAAAAAGAAGTTGGTGAACAAAAAAACCTCCCTGATTTAATTATTATGGATGGGGGTAAAATACAAGTAAGTGCCGCTAAGTCACAATTAGAATTATTGGACTTAAACATTCCTATAATTGGACTTGTTAAGAATGATAAACATAAAACTGAATATATTTTAAATCATGACTCACAAGAAATATATTTAGATAAATCTCAAGAGGTTTTCAAATTTTTAGAACTGATTCAAGAACGAGTTCATAATTATGCAATTGCTGGCTTTAGAAAAAAACATAATAAATCATTTACAAGAGATGATTTATCTGCAATTAAGGGAGTTGGTGAAAAAATGATCCAAAAAATAAATACGCAGTTTCCTTCTAGAATGGATTTTTATAATGCCAGTTTTGAAGAAATAAAGAGTATTGTTAAAAAAGATGAAATTGTTTTGGCAATTAAAGAAATAAAAAACCAATTAGATAATAAAAAATAGAATAATATAGGTATTTTTATTATAAAAAAATGTATAATATTTTAGTTAATAAAAGGGGATTCATATGACAGATAAAGATATTATTTTAACAGCAGAGGGTCTTAAAGAATTAAAAGAAGAGTTAACTCATTTAATTAATAATGTACGTCCACAAGTTATTGAAGAACTTGTTGAAGCTCGTGCTCAAGGAGATTTATCAGAAAATGCTGATTATGATGCTGCAAGAAATAGACAAGCAGAAGTAGAAGCAAGAATTAAAGAAGTAGAAGCAATGCTTTCTAAAGCAAAAATTATTAAGGATTCTAATTCTAAAAATAAAGAAGTAAAAATTGGAAGTCAAGTTTCATTTACAAGTCAAAAAACTAAAAAAGAAATGACTGTAAAAATTGTTGGAGCTATTGAAGCAGATCCATTTGAAAACAAAATTTCAAATGAATCACCATTGGCTAAAGCAATGATGGGTAAAGTTGTTGGAGACTCTGTTGAAGTAAGAGAACTAAAAGAACCTTATAAAATAACAATTAAAGATATTAAGTAGTTAGCCTAATAATTTTATTAGGTTTTTTTGTATAAAAGGAGAAAGTAATATGTTAAAGGTTCAAAGCACATTTAAAAATAATTTACCAACAATATATTTAGTTGGAACTCCAATTGGTAATTTAAATGATATTTCAAAAAGAGTTATTGAAACCTTTGAAAATGTTGAAGTTATATATTGTGAAGATACTAGAGTAAGTATTAAATTAATAGAAAAATTAAAACTTTCAAAAAAATTAAAATCACTACATAAATTCAATGAATATTCTGTTTCACCAAACTTAATAGAAGATCTTAATAAATATAAAAATATAGCAATAATTAGTGATGCAGGAGTTCCTTGTATTAGTGATCCAGGAGCAATTGTAATTAGAGAGCTTATAGAAAAAAATATAGAAGTAAATATAACTTCAATCAATTGTGGTCCAGCATATATTCATGCAATAGTAGCATGTGGTTTTGTGGCAAAAAGAAATTTATTTTTAGGTTTTATAGATAAAAAAAATATTGAAAAGGAACTACAAAAAATATTAAATGACAATCATAATAATGATGTAATAATTTCCTTTTATGAATCAGTTCATAGAATCCAATCAACTTTAAACCAGTTAGCTTTACTTTTAAATGAAAATACAAATGTGGTAGTTGTAAGAGAATTGACAAAATTAAATGAGGAATTTTTAAGAGGTACAATTTTTGAAATTTGTGATTATATTAATAATAATCAATTAGTTTTAAAAGGTGAATTTTGTATTGTGATTGATTCAAAATTTACTTTAAAAAATGATACAAAAGTTGATATGGAAAAAGTAATAAGTGAAGTTCAAAAATTAATATCACAAAATATTAGTAAAAAAGATGCTATTAAAAATATCTCAAAAAAATATAGTGTAAATAAAAATGAATTAACAAAATACTTTTATAAGGAGTAATTTTTTAAATATTATAGACGATATAAATTATAGGAGGTCTATATATGGAAAAATTATCTATAGCAAAATCAAGAGAAATTGTTGGTGGAAAAGGAATAACAGGAGCTTTACTTGGCGGTGTTGGTTCTGTTACAAAATCAATTAGTGATTTTTTTTCAAATACAGTAGGAACTATTGCAACAACTGTATTTACAGCAATTTCATTAAATAAAAGTGATAAATTAGAATCAAAAATTGGAAATTCTACTTTTAAATTAGATAATTCAGCTTCAAATAAAGCATTAATTGAAGCTGAAAATAAAGTGCCAAATGTAGTAAATTTATTCTAAAATTTTGTTCAAAAAAGTAAAAAAAAGTAAAAAAAAGTACTAATTTGGTATAAAATTATTTAGGTTGCTAGTTTCAACCGCACTTTTGTATGTACTTAAGAAGTTTGTAAAATAACTCACATACAAGGCGAGTCTAGACTGGAGGAATAAAGATGTTCGCAATTATAAAAACTGGTGGAAAACAAATTAAAGTTCAATCAGGTGATGAAATTTATATTGAAAAATTAGAGGTCGAAGAAGGTAAAAAAGTTACTTTTAATGAAGTTCTAATGATTGATGGTACTGTAGGTTCACCTTTAATAAATGGAGCAGCAGTTATAGGAACTGTTGTTAAACAAGGTAAAGGTAAAAAACTTAGAGTTGTTAGATATCACCCTAAGAAAAACGTTAATAAAGTGTATGGTCATAGACAACCTTATACAAAAGTTAAAATTGAGACTATTTCATTAAATGGTTCAAAAACAACAGCTGCACCAAAAACAACAGAATCAGTTGTTTCAAGTACAACAGCTGCACCAAAAACAACTACTTCAAATAAAACAGAGGAATAGTTAATGGTAAAAGCTAAAATTGTTGAAAAAAACAACAAAATAAATTCATTTGTAATAAATGGTCATGCAAATTCAGCAGATTATGGAAATGATCTTGTATGTGCAGCTATTACAGGCATAGTTTCAGGTGCATTAAATGCATTAGATATTAAATTTAATAAAAATTTAAATATTAAAGTTGATGAAAAGAAAATTGAAATAGAAGTTATAGTAAATGATACAATTCTAAATCAACTACTTGAATTTATGATTATTCAACTGGAAACTATTGAGGTTCAATACCCAAAGAATTTTAGAATAGAAAGGATGATTTAATATGCGTTTCTTATTAGGATTACAATATTTTGCTTCTAAAAAAGGAGTAGGGTCAACTAGAAATGGTCGTGACTCAGAATCAAAGCGTTTAGGAGCTAAAAAAGCAGATGGTCAATTTGCTAATGCAGGTTCTATAATTTTTAGACAAAGAGGAACAAAAATCCATCCAGGTGTAAACGTTGGACGTGGTGGAGATGATACATTATTTGCTTTAGTATCAGGAATAGTAAAATATCAAAGATTTGGTAAAAACAGAACTAGAGCTGTTGTTATTCCCCAAGAATCTAAATAATAATATAAAAGCTCCTCACTAGGAGTTTTTTTTAATGAAAAGAGGAAATAATATGTCTTTTTTAATGTTGACACTTACTTTTTTATTATTAGTTCTTCTTTTATCTTTTTTCTGTAAGATTAGAATACGAAAGAGCAAAAAAATTAGTAAAGATAATATGAACATAGAGGTGGCTTTAAAAAATTTCAAGTCTACTTTTGCAAGTCAAAAAGATAAAAAAATTTTGATAAAAGAATTGGATTTAGTAGAAAGTTTTAATAAATTTCCTTTTAAATCAGATTTTAAAGAAATAAAAATTAAATATAAAAATGAATCTTTAATTCAAAATCTTGAAAATACACAAAATAGCTTTTATGATTATTGAGCAAGTAAAGAGTTTGATTTTTTTATAATATTTGAAAATTTGTCAAAAAATAATTTTGTAATCTTTTCGACCAAAAATTTATTATTAATATATAAAGATTTTTTAGGGCAAACCTTTAATTTATACAAATCTACTTTTATTTTAGAAGTTTTACCTGCTGTTATTTTTAAACAAGAAAAAAGAGAATATAAAAAAATTAAACCAGAAAATCTAAATGAATTTATTGATAGTCAATTTATTAAATTTTCTCAGGAACTGAATAAAATAATTAAAATGATTGAAATTGAATTAAGAGTTAAATCAAAAGAGAGTAAAATAGATTATCAAATTACTGAAGAAAATTTAAAATTAATAGAAGCTTATAAGATTTTGCAAGTACTGCCAACTGATTCAGATGACAAAATTAGAAAGGCTTATTTAAGACTTGCTAAAATGTATCATCCAGATAAAAATAAAAATGTAAATGCAAAAGAAAAAATGGCACAAATTAATGATGCATATGATATTGTAGTAAAAGAGAGAAATAAAAATTAAGGAGAATATTATGAATGTAAATAAAGAAATATTATTAGGTCAATATTTTGACCAAGCTTTAGAAGAAACAAAAAAGATAGTTGCTATGCCATCTTATAGAAGAGACTTAAAACATGGAGCTCCAGTTCATCAAGATACAAAAAATGTACTTAATCATTGTATTGATTTATTAAAGGGCTTTGGTTTTAAAACGTTTATAGCACCAGATTATAGATATGGCTATGCAGACTATGGGAATGGTGACAAATTATTTGGAATAATTTGTCATTTAGATGTGGTTCCCCCAGGAAATATTGATGAGTGAAAAACTAATCCATTTGAGCCAATAATTGAAAATGGGAAATTAATAGGTAGAGGCTCATTTGATGATAAGGGTCCTACAATGATGAATATTTTTGCTTTTAAATATTTAATTGATAATGGTTTTAAACCAGATTATAAAGTTAGATTTATTTTTGGTACAAGTGAAGAAACAAACTGAGAATGTATGGAAGCATATGTTGCAAATGAGCAATTATGTGATTTAGGTTATGTACCTGATGGTCATTTTCCAGTTGTATATGCAGAGAAATGAATTGCTGATGTTGATTTAGTAGGGAATTTTGAATCAGAATTTGAATTAAGTGGTGGAGAAGTTTATAACGCTGTAAATGATTTAGTAAAGTATAGTGGTCCTAAAACAAGTGAAATTGCAGCTTGATTAAAAGATAATTCAATTGATTCATATGAAAAAGATAATTATTTATTTGTAAAAGGAATATCTGCTCATGGTAGTTTGCCATTTAAAGGTATTTCAGCTTCGACTTGATTATTAAAAGCAATTGATGCAGTAGGTTTAAAACATCCATTGGCACAATTTGTTTCAAAATATGGTCATTTAAATTTTGATATGAAAGAAATTTTTGGAGATTTAAAAGATGAAACCGGGGATTTAACAGCATGTAATGGAATAGTTAATATTTCAAAAAGAGATTTTAGATTCACAATTAATTTTAGAATACCATGTACAAGAGATCCAAAAAAAGATGTCGTAGATGTTTTAGAAAAATTTGTTTCAGATAAAAATATTGAATTAAAACTAATTTCAATTGAAGATAGAGTTTATTTTCCAAAAGACAGTGATGTTGTAAAAAACATTATGGAAGTTTATAAAGAAGTAACAGGAGATTTGAAAGCAGAACCAATTGCAATTGGAGGAGGAACATTTGCAAAATCAATGCCTAATATGATTGCTTTTGGAGCTGAATTTGACTTAAATGATTCAACTATGCATGCATACAATGAGTATGTAAAAATTGATGATTTAAAGAAAATGATGGAGATTTATGCAAAATCTTTAGTTAAATTAACAAAATTAAAATAATGCTATTAAGCATTATTTTTTTTATAAAACCAATATTAAAAAATGATATACTATAAATATTGTATATTTAATTTTGGGTATGCAATCACATTTGGGAATTTTATATCCTAGTGCTTGTTATTTATAATTAAACAAGTGGATGTATTTAGAACCAGTATGGAAGAATAACGAATAAAAATTTGAAAGGACCTTAACATGGCAAAAGATTTAACAAGAGAACAGCTTTGAGATGCTGGAGCTCAATTTGGACATCAAACTAAACGTTGAAATCCAAAAATGAAACCATATATTTACGGAGCAAAAAATAAAAATCATATTATTGATTTACAACAAACAATTTGAAGATTAGAGGACGTTAAAAGATACGTTACTTCAATTGGACAAAAAAAAGAGAAAATAATTTTTGTTGGAACAAAAAGAAGTGCGAAAAATGCAGTTAAAGAAGCAGCATTAAGAAGTGGAAATTTCTTTGTAAACTCAAGATGATTGGGTGGAACACTAACAAATATGAAAACAATTTCATTAAGAATAAAAACTTTATGAGATATTGAAAATGAAGAAAAAACAGGAAAAATTAATTTAAGACCTAAAAAAGAGCAAATTCTAATTAGAAAAGAAAAAGCTAAATTAGAAAAAACTTTGGGTGGAATTAAACAAATGCATAAACTTCCAGCAGCAATGTTTGTAGTTGACCCTAAAACTGATGAAATTGCAGTTAAAGAAGCTAGAAAATTAAGAATTCCAGTTATTGCTATTTGTGATACAAATGTTGATCCAGATATGGTAGATTTTGTAATTCCTGCAAATGATGATATTCAAGAATCAGTAAACATAATTACTAACTTTATAGTTGATGTTTATGCTGATGCAGCTGGAATAAAAATGCAACCAAGTAGTTTAAAAATTGTAGCTCAGAAAAAAGAAGAGAAACAATATGGAGAAGGTCAAAGACCTTATACACCAAGAAATAATGATTCAATGGGTGAAAAATCAGCTGCACCTAAAAAACCTGCTGTAAACAAAGAAGAAACTAAATAGGAGAGATTAAAATGGCAGTTACACCACAATTAATTAAAGAATTAAGAGAAATGACTTCTGCTGGAATGATGGACTGTAAAAAAGCTTTAGAAGCTACAAACGGGAACATTGAAGAAGCAGTAGTATGATTAAGAGAAAATGGTTTAGCAAAAGCAGCTAAAAAAGCTGATAGAGTAGCAGCTGAAGGAGTTTCATTTGCAAAAACTGATGGTAAAAGAGCTATTATTTTTGAAGTGAACTCAGAGACTGACTTTGTTTCGAAAAATGATAAATTTATGGCATTAATTGACAATATTGGTAATGCTTTATTAAAATCAAAAGCTAAGAATTTACAAGAGGCTTTGGAAGTAAAATTATCAAATGGACAAACTATTAGTGAAGCTTGTGTAGAAGCAACAGCAACAATCGGAGAAAAAATTGAATTAAGAAGAATTGCTGCAGTTGAAGGTAAAAATTTATCAATTTATAATCATGCAAATAAAAGAATTTCTGTATTATTAAATTTTGAAGGAAGCATTTCAAGTGAAGATGCATATAATGTTTGTATGCACGTTGCAGCTATGTCTCCAAAATATTTAGCATCAAGTGATGTTCCTCAAGAATTTAAAGATCAAGAAATGCATATTATTAGAGAAACTACTGATTTAACAGGTAAACCAGAAAATGTTGCAGAAAACATTTTAAAAGGTAAGTTAAATAAAAAAATTGCTGAAATTACTTTATTAGATCAAGGTTTTGTAATGGATGAAAAACAAACAGTAGGCAATTTTGTAAAATCTAAAGGCTCAACTTTGAAACAAATGTTTAGATTTGAAGTAGGAGAAGGAATTGAAAAAGTAACAACAGATTTCGCAGCTGAAGTGGCAGCACAGTTGGCAGGTAATTAATATGATAAATAATTTATTATCTTTAGAACAAAGTAATTTGCTAATTCTTTCAATTGTACTTTTAACAGTAGCACCATTGTCTTCAATCTATTCTTGATATTTAACACTTCAATTTAAAACTAATAAATCTGAAGTTAAATTTGCAAATAAATTATGAGTTTCAATTATGATAACTTTACAATTTTTATCAATTGCATCATCTATAATGTCAATAGTATTTTATTTTATTGATTTGAATTTAAGTCAAACGTTATTCATTGTTTGCATTGTCATAGCATTTGCTACATCAGCAATTTGGTTTTCAATGGTTTTATTCTTTTCAAATCAAATATGATTTTATATGGATGAAGAAAAAATTGTTACATTAGGCGAATCAATAAAACTATCAAAAATTCAAAAAATTATTGAAGATGATCAAAAAAGTGCAGTATATGTAAACTACTTAGAAGGTAGAAGAACAATTAAAAAAGTTAAATTTAGTAAAAAAACAGCTTTAGGAATTTATTTTTTAGAAAACGCATCAAAAACTGGTGTTACTCCTGAAAAAGGTGATCAAGTTTCTTATTTTAAAGAGCAAATAGCTAAAATTAGACAAGAAGCTTTGGAAATGACAAATAAAAGTGTTAAAACACCTGTTGAACCAGTTGAAAATAAAACTGAAAAAGAAGCAAAAGAAAAAGTTGAAAAAGTTTCAAAAGATGTAGAACAAGCAGTTGAAAAAACAGAGGAAATTGTTGAAAAACCAGTTAAAAAACCAACTTCTTCTGTTAAAAAACCCACTGCAAAATCTAAAGCTTCAGAAAAAAAAGAAGATAAATAAAATAAAAGCACATTTCATATGTGTTTTTATTTTATTTAATATAAAATTAATATGAAAAAGGCAGAGGTAACTTTTAAGTAAGTTTGAGAAATACTCTTAGAACCTGATCTAGTTTATACTAGCGTAGGAAGACCTTTGGAATAATAATTCTGCTTTTTTCATGGAGGAACTTCATGAATAAAAATATTATAAAAATTTCTATCACATTGTCTTTAATAAGAATATTAATATGTTTAGGTTTAATGATATGAGGAATTATATCAATTGTAAATGCAGGAGATCAAAATGGAAATCTATCTGTTGGTAAAATAGTAACAATTTCTTTTTGTTTTTCACTTTTTTTTATTTTATTTACTTTAATAAATTTTTCCTTATTTTTAAATTGCATTATTAATATCAATGATATTAATAAAAAAAATATAATAGCTTTATCTTTTATAACTATAAATTTAGAAATTCTGATTTATTACTTAAGCAAGCAAAGTTTTAAGTTTAAAAAAATAGAAATGAGAAGATGGACAATATTTGATATAACTTCAATATCAATTTTATTAGCATTATATTTTTCAGTTGGTTTTGTTACAGGTTTAATTCCACCAATGCCTTTTTATATAACTTTAACTTTTAAATATATACCACTTTTTTTTGGAGCCTTTGTTTTATCTCTTTCTGCTTCACTCACTTTATGTTTTTTAGCAGCTACATTATCAGTTTTTTTACCAGGAGCATATTTAAATTTCTGACAATTTTTCTTTGACTATTGACTTCCCACATTATTAATTTTTACAGCGGGTGCTTTTACACCAAATGTAAAAACAGATAAGATGATTATAAAATTGGGTGTATGGTTTGCCTTTATTTCAATTCCTGTTTTATTTTTATATCTTTCAAGAGTTACATCAGGAGTTGTATATTGGTTAAATCCAAATAAAATTGAAATAATCAATAAAGAATTCAATTGAACAAATAATATTGGTTATTCATTTATTTATAATTCAATTAATACAATTTTTGACTATATACTTTTAATAATTTGTGTTCCAACAATATGTGAATCTCTTTGAACAGTTAAAGAAAGATTTTTCTATAATAGAGATTTAGTTTCAACAGAAATTTTAGATTAAAAATTTAAATATAAAAAAAAATTTCATTTTTAATAAAAATGAAATTTTTAATTACATTTCTTTTAAAATTTTTTTGTAGGAATTTAAAGAATATTTTAAGAGGAAAAAATTATGTCAAAAAAAATTAAAAAATATAGATATAACTTTGCGAAACTTATATTTACAATTCTTTTACTTCCTCTAATTTTATTAAAATCAAAGAAAGGTTTTAAATTATATAGAGATTTTTGTTATATATATCCAAGGTCAGAAAAAGAAAGAAATTTTAATGAATTCCCAAATATTAAATCTAAATTAAATTGCTTAGAGTATCATTATTGAGATTTAAAAAAAATGAATTTAAAAGCAGAATCATTTAAAGAAAAAGATATTGAACACTATACTTTGATTACTGAAAAGGGAAACATAAGTTGTATTAGAGCAAAAAATACAAACAGTAAAAATTGAGTTATTGCTTTGCATGGTTGAACCGAAGATAAATTTTTGGCTTTAAGACTCGTCTATCATTATTTTAAAAAAGGTTATAATATTTTATCTTTTGATGCCTTTGCTCATGGTGATAGTTATGGTAATTATACTGATATTGGTTATTCAAGTATTGAAATGTTAGATGAAATTATAATAGATTTAAAAAATAAAAATAATATTGAAAATATTGGTTTAATAGGTAATAGTATGGGAGCTTCAACTTCGATTTTATATTCTCAAAAAGGTCTATTTAAAAAAGAAATAAGTTGAGTTATTGCTGATTGCGGATTTAGTAATATCAAATATCAATATCGTTATTATATTCAAAATAATTTTTTTAAAAAAGCTTGATGATTAAATGGATTAGGATTTACAAAGCGCTTTAGTAGAATTACAAAAACAAATCAAAATAAATATAATTTAATTAAAAATATGAAACTTAATAATCAAACACCAATATTTTTTATACATGCTATTGGTGATACATTTATACCTTATGAAATGAGTTTAGATATGTATAATAAAAAAATCTCATTTGAAGTAAATAAAAAGAGTAGTTTATGAACACCAATAGGTTCTGAACATGTAAGTGTAATTACAGATTATAATAAGGAATACATAAATAGAACCTTAGATTTTTCCAAAGAAAGTGAGAAAATAAAAAATGAAAAATAAGAAGATGGGTTTTTGAACTGTTCTTGCATTGACATTAACAGCAACAATTGGTTCAAGTTTACTTGTTACTTTTAATCAAGTTTTTATGATGGTTGGTAATAATCCACTATTAATGATATTAGCTTGAATTATTGGAGGAATAATTATTCTTCCCGAGACTTTTTTAATGGTAGAACCAGCAATTTCTTTTCAAGAAAATGGAACTACTTATAGTTGATTAAGAAGAGCAAATTGAAAGGTTATGAGTTTCTGATTTGGTTGAGTATTAACATTATTTGTATCAGCAACTGCAATTGCAAGTAGTTGTTTAGCTTTATCTACAATTATTATGAGTATGGCAAAAAGTGATAATATTTATCTATTAAAAACTATATCTGTTTTAATTTTATTATTAATTGGAGGAACACAAATATTTTTAAAAAATAGTAGTCAAATAAGTCAAATTGTCTTTTTAGTAATAAAAGCACTACCAATATTATTTGTAATGATATTGGCATTAATTTATGGTTCAACTGATGGCTTGTTAAGTAACAAAGAAATGAATCAAGGATTAGGCCAAGCATATATTTCTTCTTCATTATTGATTCCAGCAATAACAATGACAATGTTTTCATATTCAGGAACAGAAGTGCCAACCTATGTTGCTGGTGAAATTAAAAATCCAGAAAAAACAACACCTAAAGTAATTATTTGTGGAGTAATAGTTGTTATTAGTATTTACTTAATATATGGAATAGCTTTATTATCATTAGCTAGTTCTGGTGATGAAATGGCAAATGGAAATCAAGGTTTATTGGCGTTTTCAAAATTGCCATATTGAGCTAAAATGACTTTTAATATTTTGGCAATTCTATTATTTATTGGTTCAATTAATGCTTTTCTTTTATATCAAACAAGATTAATTTATAAAATGGCAGAAGAAAAAGATTTATCTAAACCTTTTTTAAAAACTTCTAAATGATCAAATCAACCATATATGGCAATGTTATTATTAATGGGCTGTGCAATAGTTTATATAATTTTTAATCAAATTGTAGAATTGTTGGCTTATTTTTCACTAGCCGTAAGTGCTTTAAAAATATTGATGACAACAAATGTAGTATATTTGAGATTAAAAGAAACTTCATATAAGAAAGTATATAAAAATTGGCTATTTTGAATATTTGTTACTTTTGCATATTTAACTTGTATATTAACACTTATTGGTTCTATGATGTTAATGCTAAGTACAACAAGTATGACTGATATTTGAAAACCTATTTTAGTTATCTTATTTGTGATTTTAATTGTACCTATAGGTTTTTTAAAATTTTATTTACAAGAAAAATACTTAAAAAAAGAAAGTATTGAAAGCTAATTTAATAATATAGAAATTAAATCATTAAAAAACCCATATTTTTATAAAAAAAATATGGGTTTTTGTTATAATCTATCTAGCGAGGTAAGTATGGCATTAAAATTTAAAAGAGTTTTATTGAAAATATCTGGTGAAGCTTTAAAAGGTAATGGAGACATTTATGATAAAGAGAAACTAGATGCAGTTGCAAAACAAGTGATTGAACTAACGAATCAAGGGTTGCAAATTGGAATCGTAATTGGTGGGGGAAATATTTGAAGAGGTAAATTAGCAGATACTCTTGAATTATTTAGAATTGAAGCAGATTATATGGGAATGTTAGCAACAATTATGAATGCATTAGCATTTGAAGCAACATTAAGAAAATTAGGTTTTGATAAAGTTAAAGTTTATTCATCATTAGAAATCAAAACAGTAACAAGTTCATATAACTATAGAAATGCAAGAGAAAAACTTGATGAAGGTTATGTAACAATTTTTGCTGGAGGAACTGGTTATAGTTACTTTACAACTGATACTGGAGCAAGTATCAGAGCAATTGAAATTAAAGCAGATGCTTTATTGATGGCTAAAAATGGAACTAAAGGAGTTTATGATTCAGATCCAAATACTAATTCCAAAGCAAAATTTTTAAAAAAATTAACACATAATGATTTAGTTGCAGGTAACTTACAAGTTATGGATTCAACTGCTGCAGCATTATCAAGAGATGGTAAATTAGAAATTGTTGTCTTTGATATGAATGGTGCAGATAATATTATAAAGATTGCACACGGTGAATTAGAAAGCACTGTAATTAAATAAGAGAGGAATTAATATATGTCACATGAAATAATTGATATTACTGAAATGAGTATGCAAGAAACAATTGAAAGTTTCAAAGAATATTTACTAAAAATTAGAACTGGAAGAGCAAATGCAAGTATGCTAAATAGTGTTATGGTTGATTTTTATGGAACTCCAACTCCATTAAACCAAACATCACAAGTATCTTCTCCTGAACCTCAACAGTTAGTTATTAAACCTTATGATAAAGGTCAAGTAGCAGCGGTTGTTGCAGGGATTAATAAAGCAGATTTAGGTTTAAATCCTATTGCTGAAGCAGATTTAGTAAGAATTAATATACCACCTTTAACTGAAGAAATTAGAAAAGATTTAGTTAAAAAAATGTTAAAGGAGCTTGAAACTTTTAAGGTGAGAATTAGAAATGCAAGAAGAGATGCAAATGAAAAAATTAAAAAAGATAGTTCATCACCTGAAGATGTTAAAAAAGATTTAGAAAATCAAGTTCAAAAACATACTGATAAGTTTATTGAAATGTTAGATAAATTGTCTAAAGATAAAGAAAATGATTTAATGAAAATTTAACGACTAATAAAAAGCTTTTGCTTTTTTTTATTTTAAGTAAAAAAGTCATAATTTAAGGCATTTTATAATTAAAGTACTTTAAAATATTCAATAAAAAAGAAATTAATGTGAGGTTGTAAAACATTTTTTTATATATATACTAAATATTAGAGGTGTAAACTATGGGCTTTAGTATAGGTATGGTTGTATCATATAATCATCAAAATTACGTAATATTAGAGATAATTGAAAAACAAATTGATGCTAGTTTCATTAAATTTTTTAAGTTAAAAAATCTAATTGATAAACAAATAATTACAGTTAATTCTCAAGAAGTTCAACAAATTCACTTAAAACCAAAACAAGTAGTTAATAAAGAAGAAACTCAAAACCAAATTACTGATACTAGTTATATTGAATCTTTATTTTCAGAAATAGGTTCAACACAAGAAACAGATGATATTAGTTTATTCGATTTAACTGGCGAAAATACTTTTACTTTGGACGATGTGATTTTTGAAAAATATCCAAGTGATGATTTTGAAAATGAGGGAACTATAAACATATTTGATAAAACAAACACTACAATGTTGGTAGAAAACTTTCAAACACCAGAAGCAAAAGTACACTTAACACCAAGACGAAAATCATCATTAGAAAATATTTCACCAATTAGTGAAACTTTCAGTAATCTTAAAATGGTAGGAGAAGTAGCCACTAAAACTGCTGAAATAATACCTACAAGAAAATTACAAGCAGAAAAAAGGCAATCTGAAATTAATAGAATTCAAGAAATTAGAGATTTTCAAAAACATGAATTAGAATATAAAAATAAGAAAATTAAAGAAAATTCATCATTAGATGAAACAGTCTATAATACTAATGATAAGTTCAAAAATTACTTAATTAAAGAATTGCAATCTGAACCTTTAAATGAAAGAAGCTCTTATATATTAAAAGAATTAAACTCTAATTTAATTAGTAAAAATGATAAAACTAAAGAAATTGATAGTAAAGATCTTGCAAATGTTGGTGCAAATGAAGAATTAAAAAATGATTTTACAGAATCTTTAGAAAAAGAATTTAAGTTAAATAATGTTTCTGACAGTTCAAATAGAGTAATTAATGAAAAACACTTTGACACATTAGAAACTGGCCCTTTAAATACTAAAAGATTATTTGAAAATTTCAATAAACAACAAAACTTTCAAGATAGTTTAAATGAAAAATATAATAATAATATTGAAAATACAAATACTTTATTTGGAGTAAATAGAAATTTTAATCAGGATGCTTTAAAAAATTCTAAAATTTATAAAAAATTTAAATTAATGAGTCTATGATTAATAATTTTATTATTATTAATGGTTATTACTCCTTTAGTTGGAATATTTGTAAAAACTTCAATGTATTGAGTTGAGAATAAAACAATTGATTTAAATGCAATATTTTCTATTGCTTCTAATAATGCAATAGATATGATTTTTGTTGTAACTTCTGCATTACTTGCTTTAGCATTTCTAATTTATTTAGTTTTCTATTTAATAGTTATTAGTGATAAACAATATAAAAAAATTGCTTTCTATAACTTTCAACTTGAGAATAAAGTTGAGATAATTGATTCAATTCAAAATTATAATGATGAATCAAGTGTTTATTTAATAAAAGTTCATAATGAAATTAAAAAAATTAAAAAAGAAATTAATAAAATTAATCAACAGCAATTAAATGTAGTAGTTTCTAAAAAAGAGGAAAATGCTCAAAAAATTTCACACTAAAAGGTCATTTATATGACTTTTTACTTTTATTTTGTAATAAAATATAATTTGAGGTGCAAAAATGCAACATTGAGATATAAAAATTTTATTTCCGATACTTTTTATAATTTGTACTATTTCAATAGTATTTTTGTGTAAAAAAGAAAAATTACAAAAGGATAGTTACTTATGATTAATTCAAACTATTCTATTTTGATCAGCAGCTGGTTATGCAGGAGTAGAAATAAAAAATCAAATAAATTTACAGCAAAATATTAGTTCTACAAATTTTATTTTAGCTAGTGTTTTCTCAACTTTTTTATTTTTAATTATTTTAAAACCACTTGCCACGTTTACAACAGGAATTATTCAAAATAGAAAGATTTGAATTCAAATAAGTAGTATTTTATTAGTCTTGATTATAGTCTTAACTAGTTTCTTAAATTTATCATTATGAATTTTAATAATTGTAGCTTTAATGCTTTCATTTTGTTTAGCAAGTTCAACTTTATTTACTTTATTTTTAAATGAACAAAGCTTTTTTAGAATATATATTATGCCTTCAGTTTGAATTTCATTTATATTTATTTCTTTTTCATCTTCTTTAGGAATTTATTTTAGTAATGTAAATATGATTGCTAATAGCCAGGCTGTAACAATTTTATTTAATGTAATTTTAATACTTATGTTAATTGTAGGTTTTATAGTTAGTTTAATAATTAAGGAAAACAAAAATTTAGTACAAGTTTTTGATAATGAGGTTTTGGACCAGTTACCTAGAAAAAATAATTTTACTTTCTTTGTAATTTATACATTGGCTTTTTTATTAACTTTAACTAGTGCAATTAATAATTCACTGTTTATAAAACTATATATCGCTTTAAATTTAACTAATTTAAATCTGAATGATGAAAATGTTTTACTTTGATTAAGAATTAATGAATTTGTTTATTTAATTCCCACAATTTTAGCTTCAATAGTTAGTTATAAGTTTTTAAGAAAAATAATAGAACAAAAATATTTAATTTATATTAATATGTTTGTTTTGTTTTCAGCATATACAATAATGGCATTTGTTTCTAATCCATTCATTTTTATATTATTAAATATAATAACTGGAATTTGTTTTAATCAGATAATTTACTCATTATTTTCAGCTTGTGTATTTTGAAATTATAGAGCCAAAAAAAATCCTGTTACAGGCTTATATGGTAGTTCAATTTTTGCAGCATATTTTATTGTTGAAGTTACACAAAATAGCTTATCTACTTCAAAAGTCACTATTTTTAAAAATTTTTCTAATTTAAATCAATTATTTATTTTTAAAAATAATTCAACGACAGGTGAATTTGAAAGGGTATTAAGATCATTTGATAATTTCTCAACTCTAATAATTTCTATTGCATGTGTAATTGTACTTATTTCAATATTAATATTTTATTTTATGAGCAACAAAATATTTTCAGACTATAATAAGTATAATTCAGCCACAAAAAATTTAAAAATGTTAATTAAGAAAAGAGTTATTACAAAAACAAAAACCAAATTAAATTTACAAGCAATAGAAGAGGACATTAATCAAGATTATGAATAGGATTTTTAATAGTGAAATTGAAGTTATATTTGAAGTTAATCCTTTTGAAATAAAAAGTATTAAAAAATCAAATATAGAAATAATATATCAACAAAGTTCAAATTGACAAAAAAACTGACCAATTTTATTTCCTATATGTGGAAACTTAAATGGAAATTTAGAACATAATGGTAAATTACTTAAACTTGAAAGACATGGTTTTTTCAAAGAAATAAAAAGTTGAAAAATTATAGAACACTCTCAAAGTAAAATTACTCTTGAATATATCTCAAAAGAGGATTTTTATGAAATTTATCCATTTAAGTTTAAAATGACAATTGAATTATATTTAGATAAAAATAATTTCTTTTTAAATATAATTATAAAAAATTTAGAATCAGAAGAAATGTTTTTTTCTATAGGTCATCATCCAGGTTTCAAATTTTTAAATAGGTCAAACTTACAAATTGAAAAACCTATTTTATTTTCAGATAAATTTGAAAATGGACTTATTCTAAATCTTGAAAAAGATATTAAAATTAAAGAATTTACAAATCAAAGTTTGGATTTTAGTGATAGCAAATCTTATATAACAGATGACTATAATAATCAAGATATAAATATAAATAGTGGAGAAATAAAATTTAAGATTAAAACTAATGATTTTAAGGATTTAGTCTTATGAAGAGAAAATAATAGTTGTGATTTTATTTGTGTTGAGCATTGAAATGGTTTACCAGATAGAGTAAAAAGAATTTCAAATGAATTAAAAGATAAACCTGAAATTTTGACTTTGAAAACTGATGAACAAAAAGAGTTTTTATTAAATATTGAATTTTAAAAAAAAGATGCTATTGCATCTTTTTTCATTCCTCATAGTATTCCATAATCAATTCCTTTAATTCTGGAACTAACATATCTTGTTGTACGGTTTTAAATATTTTTCCTTTTTTAAATATAATTCCACCCTTATTACCACCAGCAATACCAATATCTGCTTGACTTGCTTCTCCTGGGCCGTTTACAACACAACCAAGAATAGCTACTTTTAGGGGGAATTGAAGTTCTTCTACAAATTCTTCAACTTCTTTAACAACTTCTCTTAGAGCAAATTCTAATCTTCCACAAGTAGGACAAGCTATTACTTCGACCATATTTTCAAAAAGACCTAGTGAGTTTAATAGTCTCTTAGCCACTTTAATTTCTTCAACGGGATCTTCACTTAAACTAATTCTAATTGTGCTACCAATTCCTCTTTGTAAAAGATAACCAAGACCAAAACTAGATTTTATAGCTCCATTTAATAAACTACCAGCCTCAGTTATACCTAAGTGAGCAGGATAGTTTCAATTTTCACTAGCTAGTTCATAGGCTTCAATTGCCATTAATGGGTCAGTTGCTTTAAGAGAATAAATTATATTTTTAAAATCATATTTTTCTAATATTTCAATATGTTCTCTAAGAGATTCAACCATTGCTTTTGCAGTTCACCCATATTTAGCAACCATTTTTTTGGGCAAACTTCCTGAATTAACTCCAATTCTTATTGGTATTTGCTTTTCTTTACATTTTTCAACAACTGCAATTGTGTTTTCTTCAATACCAATATTACCAGGATTGATTCTTATTTTAGCACATCCAGCATCTGCTGCTATTAGAGCAAATTTATAATTGAAATGTATATCTGCAACAATTGGAACAGGAGAATTATCAACAATTTCTTTAAGCGCATTGGCATCATCAATACCTAAAACAGCAACACGCACTATTTGGCATCCTTCTTTATAAAGAGAATTTATTTGTTTTAAAGTTTCTTTAACATTATGAGTTTTTGAAGTTGTCATTGATTGAATAACAACATTATTATTGCCCCCAATTTCAATATTGCCAACCATAACTTTACGTGTATTAATTCTATTTATCATAAATTTCACCAAATTGTCTTTTCTTTACTAAAATATTATACACTCTTTTATAAACTAAATTTTAGTACAGATAATGGGGTTATAAATAATTTTTATGTATAATTAATACAGTAAGGGGTAAAAATCATGTCAGAGAAAATTACATTAAGAGATATAGTTAAAATTAATAAAAAACTTGCCTCTAAAGAATATGAATCTCAAAAAGAATTTAGTTCATATTGTGATGTTATTCAAGAATATATCGATGAGACTTTTTTCAAAAATGATGCAATTATTGAAAAATTAGTTGAATATTGTGAAAATAGTGCAAGATATCTAGATATTACTTTTAAAAAAGCTAGTGGCATTATATTAAGTGATGAAAATGTTCATAATTATACAAGTAATATAAAAAGAGCAATTGAAAAAACAATTTTTATGGAAGAGCGAATTTTTAATTTTTCTATTTTTGTAGAGATAAAAAGTATATTTAAGTATTTTTTAGAAAAATCAAAAGAATATGAATCTTTAAAAAATTTTAAAGATTCATATAGTGTAAGTTCAATTGAATTTCATCAACAAAATGAAAGTTTTAAATATCTTTATACAATATTTGATAAATTAACTTATATTGCAAAACATCTAAAAGATAAATATTACAAAAAAGAGCCTACAAAATATTCTAGTGATGCTCTAAGATTTTCAAATGACTTTTTACCAAATATTTCTTTTTTAGCAAAAAGTGCTCAGGACTTTCAAAAATTATCAGATATCATTGAAAGAGTTACTTATTCAAAAGCATGACATTATATTAGAAGATTGAGAAATTCTATTGAACATGATTTTGTTGATCCGACATATAAATACAATATTTGCTTTTCATTAGAGTTATTATTCATAATAATTGGTAGAATATTGCTAGCATTAAACAAATACTTACAATCAGATGAACAAATCAAAGAAACATTGGAATCATTAAGAGTAGAAAAATAATTTAATTTAAGAGGGACATTATGAATAAATGAAATGAAATACAACTAAATAATTTTAATGGACCACTAGATTTATTACTTCATTTAATAAAAGAAAAAGAAATGAATATTATGGATATTAATTTATTAGAACTTTCTTCACAATATATAACATATATTAAAGAGTATGAATTATTAGATATTGAAATAGCAAGTGAGTATTTAGTTATGGCAGCTTATCTTATTGAATTAAAATCAAAGTTATTAATTCCAAAAGAAGAAGTAGAAGTTGATTCAAACTATGAAGAACAAGAAAGAGATGACTTGATACGTAGATTAATGGAATATCATAAAATTAAGGAAGTAACAAATTTCTTTAAACTTAAACAAGAGGATTTTTTAAAAACTTTTAGTAAAACAAAAAGTATAATAAAAGTAGCTAAAATTGATGATGATGAATTACCTTTAGCTCAAAATAATATTGATATTGAAAAATTCTCAAATATTTTTCTAAGAGCAATTGAAAAAAATAAATTCCAGAGAATGGAAGTTAATACAATTAATAGAGTTGATATTTCTCCTGAAGAAGTTGCAGAAGAAATAAAGTCATTTTTAAAAAATAATAATATTAATGAAATTGATTTGGCTAAACTAATTGAATTAAAAGAATTTTCAATTAGAATGATGGTAGCAACTTTCTTGGCGGTGCTAGACTTAGCTGCCAAGAAAGTTATAACGCTTTCTCAAAATGGAGATGAAGTTATTGTAAAATATTTAAGTTAATTTAATAAGAGGAGATAGTTATGGATAACAATAAAAAGATAGCAATTGTTGAAGGTTTATTATTTTTAAGTGGTGATGAAGGAACAACAATTGAAGAATTACAATTTATTTTAAATGAAGGTAATATTGGTGAAATTGAAAAAATTATTGATAAATTAATTGATAGATATAGTAAAGATAAAGCTTGTGGACTAAACATTCAAAAATTTGCAAAAAATAAGTTTAGATTAATTACTAAAAAAGAAAACGCAGAATATTATACAAAACTTGCAAATGTAAAAACTGAATCAAAGCTTTCAACAGCAAGTATTGAAACTCTTTCAATAGTTGCTTATAAGGGACCAATATCAAGAGCTAATGTTGAAGACATTAGAGGAGTAAATTGTGAGACAATCTTTTATAAATTAAAATTAAGAAATTTAATTGAAGAAGCTGGAAAATCCCAAGATGTAGGTAAACCAATGTTATATAAAGTCACAGATGATTTTTTAAAATATTTTAATTTAAACAGCTTAGATGAGTTACCAAAACTAAAAGAAGCAATAGAAGAAGAAAAAGACATTTTTAATAGAGGTTCATAATGGAAGAAAGATTGCAAAAAATAATAGCAACTAGGGGATATTGTTCAAGAAGACAAGCAGAAAGACTAATTGAACAAGGTAGAGTAAAAGTTAATGGAACTGTTATCAGAGAAATGGGTTCAAAATTTGATACTAATGTAAAAATTGATATTAATAATAAAAATTTAGATGAAAATAAAGAGAAGGTTTACTATTTATTTAATAAGCCAAGATTAGTGTTAACAACAATGCATGATCCAAAGGATAGAAAGACTGTAGCAGAGTTTTTTAAAGATTCAAAATTAAGAGTATATCCTGTGGGAAGACTTGACTATGATGTTTCTGGAGCATTAATTATGACAAATGATGGAGAATTTGCAAACTTTGTAATGCATCCCAAATATGAATTTAGAAAAACATATCAAGCGTTATGTAAGGGAAAAGTTCATAAGTATCAAATCAAAAAACTTGTAGATGGTGTTATTATTGATGATGATTATAAAACAAAAGCAATCCAAGCAAGAATGTTGAAATATGATGAGGAATATGATGAATCTGTAATTGAATTAACAATTGCAGAAGGAAGAAAACATCACGTAAAGAAAATGTTAGTTGCTGCAGATATTTATTTAAGAAAATTAAAAAGAACTCAAATAGAGTTTTTAACAATTGATGATTTACCAATAGGTAAGTTTAGAGAACTAAAATCACACGAGATTAAACAATTTTATGGAATTTATAATTCATTAAAGGTTAAGAGAGGTAAATAAATGAGAATAGCTATTTTTGGAACAGTTGGTGCGGGCAAATCAACTATTAGTGAAGAAATTTCAAAAAGACTAGGTTATGAAATATTTCCAGAACCAATTGATAATAATCCATACTTTGATGATTATTACAAGGATATGCAAGCAAATGTATTTAAAATGCAAATATATATGCTTACTGCAAGAAGTCAACAATTAATTGAAGCAAGATCTTTAGAAAATGTTATTTTTGATAGAACTATTTTAGAAGATCCAATTTTTGTTGCAGTTAATCATGAATTAAAAACAATGAATGATGTTGATTATAAAACATATACTGATTTTTACGAACATGTAGTTATTCCAAATTTAGCTCATAGAGCGACATTTGATTTAGTAATTTATTTAAAAGTTTCAACTGATAAAGCAATTCAAAGAATTAAAGAAAGAGGAAGAAGTCAAGAGTTGAATACTCCAAGACAATATTGAGAAACTTTAAATAAGAAATATGATGATTTTTTTGAAAGAAGAAAACATATGTTTGAGTTTTTAGTAGTTGATGCAGAAACAGATGATTTAAATATAAAAATGAATTTTATTATGGAAAAAATATATGAAAAAAATCCTAAATTGATAAAATAAAATTAGTGTGAAATTTAAAAGATTGTTTTAGAAAAGGAGTTTTAAAATGGGAAGAGCACATGAAGTTAGAAAAGCAAGTATGGAAAAAACTGCTGCTATGAAATCAGCAATCTATGGTAGAGCTTCAAAAGAAATATATATGGCAGCAAAAGGTGGTAGCAAAGATCCTGATTCAAATTTGGCTCTTAGAAGTGCTATTGATAAAGCAAAATCTAAGCAAGTTCCAGCAGATGTAATTCAAAGAGCAATTAAAAAAGCTGAAGGTGGAGATGCTGATAATTATACTTCAAATAGATATGAAGGTTATGGACCAGGAAATTCAATGATAATTGTTGAATCACTTACAAATAATGTTAATAGAGCTATAGCTGAAATAAGAGATGCATTCAATAAAAACGGTGGAAAAATTGCAAATAGTGGAGCAGTATCTCACTCATTTCAAGCAGTAAGTATTTTTGCATTTGATCAAAAAAATGTTGAAGAAACTTTAGAATTATTAATGGAAACAGATTGTGAAGTAAATGATGTTGTTGAAGAAGAAAATATGACAGTAATTTATGCTCCATTCAACTCTTTTAATCAAGTAAAAAAAACATTAGATTCAGCAGGTATTAATAATTACAATATAGCAGAAACAACTATGTTAGCAGATGAAATGATTAATTTAACAGATAGTGAAGTGAAAGCTGGATTTGAAAAACTTATTGATAGATTAAATCAATTAGAAGATGTACAAGAAATTTATCATAATGTTGAAAATTAAAAGTTATAAAAAAATCAATAGTTAAACTATTGATTTTTTTGTTTTTATCAAATTTTAATTCTCTTTGACTTTTCAAGATACATTTTATCTCCTGGTTTTGTTTCATAAGCTTCATGGAATTCATCAATATTTATTAAAACACCATTGCATCTAAATTCTTCAGGTGAATGAGGATCTATTAATAAACGAGTATTTTTTAATTCATCAGTAGATTTTCTCATTCAAACTGTAGCGTAATTTTCAAAAAATAATTTGATATCTTTTTTACATTGTTCTTTACAAATATCTAAAGCCGCAGCAACTCCACTTAAATCACCAATATTTTCACCCAGAGTTAATTTTCCATTTACTTTAGTTCCATTAATTTCATAGTTATTGTACTGTTCAACTAATTTCTCAGTTCTCAAGTTATATTGTTTATAATCTTCATCAGTTCATCAGTTTTCAAAATTCCCATTTTTATCAAACTTACTTCCTTCATCATCAAATCCATGACTTACTTCATGGCCAATTACAGCACCAATACCACCTAGATTTTTAGCTCTTGGTTCTTTTATATCGTAAAATGGTTTTTGCAATATTCCAGCTGGAAAACAAATTTCATTTGAAGTAGGGTTATAATAAGCATTAACAGTTTGTGGATTCATATATCATTTTGTTTTGTCAACTGGAAGATTTATTTCAGTTAATTCTTTTTGAATAAAGTGTTTTGATAGGTTTCTAATATTTTCATATAAATTGCCACCTTGTTCATAACTCCTAATTTCAATTTTTGAATAGTCATCAAATTTATCTGGAAAACCAATTTTTATTGTAAATGAGTTTAATTTTTCAATTGCTTTTTGTTTTGTAGTTTGACTCATTCACTCTAAATTATTAATTCTTTTTGAATAAACTTTAATTAAGTCTTTAACAATTCCTAAAACATCTTCTTTTGATTCTTGTGAAAAGTATTTTTTAACGTATTCTTTTCCCAACAATTCTCCAAGTTTAGAATTGGTAAATTCAACAGCTCTATCAATTTCTGGTTTCATTTCTTTAACTCCACTAAAAATACTTGAGTAGTTAAAATTTATTTGATATAGATCTAAACTTAATATTGATGAAAAAGCAACAAGAGTTTTTATTTTCAATAAATCTTTTAAATCTTCTAATTCAAAATTATTTAAAATTTCATTTAATTTTTTTAAAAATTTTGGCTCTGTTAATATTATTATTTCAGCTTTTGCATAACCTGTTTGAGTTAGATAATCATTTCAATTAATAAATGGACAATACTTATCTAAGTCAGTTATTTTAACAACATTATAAATATTTTCTGGACTTCTTAATTCCTCTTGTTTTAACATACTTTGAGATATTTCTTTTTCAAAGTTATAAACCAAATCAAAAATATTTTTTGTTTTAAAACTTAACTTTGTTGCTCTTGACATATCTTCCAAATATGTTTTATATGCAGCTTTAATATCATTGTGTCTAGGGTGATTTTCATCATAGAAATCTCTATCTGACATTCCTAAACCCATTGAACCAATCATTAAAGCTCTTTTATTACTATCTTTAAAATCAGAGTCAATTGTCTTTGAGTGAAAATAAGAAATATTAAAATCTTTAAAACCTTGTATTAAAAATTTAGTAAATTCTTTTTTTGAAGATAAAGAATCAATTAATTTTATAATTGCCATTATTGGTTCGATACCTTGTTCATTTCTTTTTTTAACATTTAAATAATTTTTAAAAATATTAGTAATTTTTTCTTGATCACTTTTTAATTTAGACTCTTTTGATTTAAACTCTAAAATTAATTCTTTGATATCATCCATTGATTTTTTATGTAACATTTCAAAACTACCTCATGATGGATATCCACTTGGCAATTCTGTATTATCAATTCATTCTTTATTCATATAATCAAAGAAATTATCTTGAGGTCTTATTTTTATTGACATAAATACATCTCCTTTATACAAATTAGATTATAGACTAATAAAGAAATAAACAATAAAAAACAGCTAAAAGGAGATTTAGATAATTTTGTTATAATTATCTAGATAAAGAGGTGCTAATATGAATCGCGATATTATTTTATTAAGAACTGTTGAAGTAGCTGCAATTGCTTCATATAAATATATTGGTAAAAAAAATAAGAACTTAGTTGACCAAGCTGCAGTTGAAGCTTTTCAAGTAATGTTAAAAAACGAAAAGGGTTTTAAATTGAAAGTTGTAAATGGAGAAGGTGAGCTAGATGAGGCCCCAATGCTTTTTGTAGGGCAAATATTGGGAGATTTAGAAGACCCTAGTGTCTTAACATATGATGTTAGTGTTGACCCTGTTGAGGGAACTCATCCAGCAGCTTATAATTATGCAGGGAGCATTTCTACCATTGCTTTTTCTAGAGAAAATACAATGTTACAGCTCCCTGAAATGTATATGGAAAAACTATTTGTTAGTACCGAATTTAAGGAATGTATTAATTTATCAAAGGGAATTGTATTTTCAATTGAAGCAATGCAATTTCATGCCAAAAGAAAGGATTTAAAATGTATTATTTTGGATAAACCCCGTCATCAAGAAATTATAAGAAAAATGAATGATATGGGAATAATTGTAAGACTTATTCAAGATGGTGATGTTTTAGCAGCGATAGATGTTGTTAATGGAGAAGCTGATTTTGTTTATGGAATTGGAGGCGCTCCTGAAGGTTCATTAATGGCCGCATTATCTATTTCTTCTGATTGTAAAATGCAATCACGACTTGTAAGATATGAAGAAGTTTGACCAAATGAACTTGAAACCATAGAAAGACAAAATAAGGAGAGAGCTTGATTAGAAAAATATAATCTTGATTTTGATTCAATACTGCATGATTTGGACTTAATTGATGATCATAAAGTTAGATTTTTTGCAGCAGGCTTAACTGCTGGGGGAAGTTTAAAACCAGTAGATTACAAAAATGGAAAATTTTATGTAAATGCTTTTATGTCTTCTCATGGAATAGTTAGAAATTTCAATTCAGTGTATGATGTAAAAAAAGTAAATTCTTTAAAACCTGAGATTAAATTTTTATTTGACAAATACAAAAGATAGTATTTTAAAGTTATATAATTAACTTAAGGAAGGTGGTTTTTATGGATTCTTTAAATAAGATACTTTTAATTGCTTTAGGATTATCGCTAATTTCTTTAATTACTATAAGAATTTTTAATACTTTTAGTTTGAATAAAATAATAATTCATGAAATAAACACCGCAGATAGTAATATTTCAAGTTCAAAAATTGATTCGATAATATCTAAATTTATGGTTTATTTAAGAGCTGAAGAAATTAATGTGCTTTATGGTGAAACTGAAAGTTATTATAGAATTAACCAAATGTTAAACAAAAGGAAAAAACAGATAGTAATACCAAAATGAATTATGCCAAGTGTAGGTTACGAATTGGATTATATACTGGCAAGCATTTGATTTAATGTTAAACTTTATCAAAAGGATAAAGATATAAAAAGAATTCAATTAATAGTTAAATGAATTCCTTTATTTTTATATATTATTTATTATTCAACTTTAATAACAGCAATTGTTTTTTCATTTTTAAATAAAGCTTCAATTATTAAAGAAAATCCTTCAAAATTTCTGATTTTCCTTTTTGAAAAACCAATATTTGAATTTATTTCGATTACAGCATTTCTTTTTATTGTTACTTTAATGTTTTTTTCAAATAGTCTAAAAAATGGTTTAGAAGAAAAATATGAAATGGAAATTATTCAATTTGTAAAAAATGAATGTGATAGTTATAATAAAGATATTTCAATTGCTAGAATTTATTCAAAAGAATTTAATAAGCTTGATTTTAAAGTATTTAGATTTAATTCTAAAACATCGAACTTAAAATTTGTGGGTCCATTCACTTTACTTTAATAAATAAAAAAATGAGAGTAATCTCATTTTTTTATTTATTATTAACCCTGACCTAATCCTTTTTCTTTTCATTCAGCCATAATTTCTTCTTTACCACCAGGTTTAGAATATCTATCTTTATATTGTTTATATCTTTCTTTACATTCACTTAGTTCGTGCATTGCTTCTTTTGCTGAACCCCAACCATTAATTTTAACTTCTTTTTTTTGTAATGCTTTATATTGTAAAAAGAAATTTTCAATCTCGTCTTTTAAATGCTGAGGAACATCTTCTAATTTTTTATATGAATCAAATCTTCTATCATCTGCAAATACACCAAATAGTTTAGTATCAATTTCACCAGCATCAATCATTTTAATTGAACCCAAAATTCTAACATTTACTCCAACACCAGGAAGTGTAGGATAGGTTACAAGACTTATAACATCTAGTGGATCTCCATCTCAATCAAGAGTTTCAGGAACAAAGCCATATTCTCCTGGGTAAAAATTAGCCCCATATAAAACTCTATCTAAACTAATTTCATTAGTATTAATATCATATTCATATTTATTTGAACTACCTTTTGGTATTTCAACAATCATTTTAATTACATTTTTTTCCATCATTAAGATCTCCTTTATAAAATTATTTTATATTAAAAGTTTTGACTTATAACATTAGTTTCTAAAATAAATGTTTATTTATTAATTTTACAAGTAATTTAGCACTAAACAAAAAGATAGTTAAGTTTAATGATAGTTTAGCAATTGATACTCCAAATCCTGTTCATAGTAGCACGTTCCATCCATAACTATTTTTTTGTGGCATGATTCCAGGATATAAAGTGCTGTATCATTGAAATATAAAATTTTGGTTACAAGCAAAAGAAATCAGCGCAGAAATGATAGTTGCTAAAGCTCCTGCAATAACTATTAATAATAAATATCATTTCATTTGATTTTCCTTTTTGATTTTAAAAAGTATGCTTCTTTTTAATAGAAAAAATATAAAGGCAAAAAAGATAATAAAACTTAAATCTGAAATTGTCATTGCCAATACACCAATCACATTACTTGGGAGGGGTAATACCATCCTTAATGAATTTGCTAAAATATTAAATAGTGCAGCATAACAAACATTTGTTGCTAGGTATATAAATAAAATCCCGATTAAAGAGAATTCAATTGTAAAAGCTTCTGCTATTGCTAAGCCCCCAATTGTATATTTACTAATAATTGTAAATACTATTTCAATTGCAAAAAGCATTGCCAATAGCGATATTCTTTTAATATCTAAAACAAAATTATCTTTTAATACCATTCTTCAGTTGTATTTATTTATTTCTGCAAAGTCATATTTATGACCCCAAAAACTATAAGTATTTTCCATTTTAACTCCTTTGAAATAAAAAGCCCTTATTATTAAAAGCAAAAGGGCGATTAGTATACAACAAAAATATAAACTAAAAAGCTTATAAAAATGCCATGGTATTTTCTCTCATCCGGACTTTACCGTCGGTTTCAGAATTTCACTGAATCAGCTTTTTTTACGAGCTCATGGACTATTACCATCGGTAAGGAATCACACCTTGCCCCGAAAATACACACAAGATTATTATAAACAACAAATAAAAAAAGTAAAAATTATAAAAATTATAATTTTTATTTATAATTTTTATAATTTAATATATAATATTTTTGAGAAATAAGAGGAGATAAATATGGAAAAAAAGAACCATGAAATACCAGATCATGATGACGTAAAAGAGGGTAAAAAAGACCATTATCATGACGAACACCACTTTGATTCTCTAGGTAACCACGATGATATAGATGACACTGATTTTCATTGAAAAAACAGCTTATTTACAAGTAGAAGAAATTTAACATTTAAAATAACTTTAACTGGAGTATTCTTAGCTTTAGCTGTTGCCTTATCAGCATTTGAAATGCTTTATGAACAGTTGTTAGATAAGATACCATTATATGGTGTTGCTATTCCTTTTAGAATATTAGATATATTAGTTATAACATTATCACTTGCTGCATTAGGTCCAATTTTTTCTGGCCTGATAGCATTTATAGTCCCATTTATTCATTTAATAGATGCACACAATCCACTAACTTTGTTAATTGATAGTTTTGGATATTTTGTATCAATTTGATTAATGTGATTTGTTTATTACTTTATTTTTAGAAATTCAAGTATTCATAAACATCCAATTAAAAGTGTAGATAAATTTAAAAGATGAAGTCCAATTGCTATCTATGTACCTATCATTACAATTATTTATACTATGTTAGTATTTGCAATGTTATACATTACAACAAACAGTGACCATGGTCATGATCATAGTCACTTATCAACTGAAATGATTAATTCATATCATGAAGCTCATTCAGGAGAGTGAACAAGTATAAAAGAAAATATTGGAATATTTATAGGTGTTATTTCAGCTGTTGAATTAGTTAGATTTTCAATTTGTTACATATTATTTGCAATAATTGAACCTCAAGTTAAAAAAATTAATCATTATTACAAGTAAAAATAAATTTTTTATCTTTTTAACAGATTATTTGATAAAATCTATATGAAAGTTAAAAATAGTGAGGTAAATAAAAAATGGCAGGAAAAAAACCAATATTTGTTTCTATGGATTTAGGAACAGCATATACATTAGTTTATATTGAAGGAAATGGAATAGTTTACAACGAACCTTCAATTGTAGCATATAAAATTAAAGAAAATAAAATTATAGCAGTTGGTGCAGAAGCATACAAAATGATTGGAAAAGGAAATAAAAATTTAAGAATTGTTAGACCAATGGTTGATGGTGTTATTACTGATATCAAAGCAACTCAAGCACAATTAAATTATATCTTTGCAAGACTTAGATTAGAAAAAGCTTTAAAAAATTGTGTTATGTTGTTGGCTTGTCCATCAGCAATTACACAATTAGAAAAAACAGCACTTAAAAAAATAGCACTTAGTTTAGGTGCTGCTGAAGTATTTATTGAAGAAGAAGTAAAAATGGCAGCCTTGGGTGGAGGAGTTAATATTAACGCTCCAACTGGAAGACTTGTAGTTGACATGGGTGGTGGAACAACAGACGTTGCTGTTATTTCATCAGGAGATATAGTTATTTCAAAATCTATTAAAGTAGCAGGTAACTATTTAAATGAAGAAATTTTGAAATTTATAAGAGCCCAATATGGAATGGAAATCGGTATTAAAACAGCAGAAATAATCAAAATAAATATTGGTTCACTTGCAAAATTCATTGATGAAAAATCAATGAAAGTTTATGGACGTGATGTTGTTTCTGGATTACCAAGAGAGATCGAAATTACACCAGAAGAATTAAGAGAAGTATTGAAAGTTCCTTTATCAAGAGTTATTGAATTAATCGTTCAAGTTCTTGAAATGACACCACCAGAATTAGCTGGAGATATTTTCAGAAATGGAATAGTATTATGTGGTGGAACAGCATTAATTAACGGTATTGCAAAATATGTTGGAGATACTTTACAGTTACCAACTAAAGTTGGAGAACAACCATTATTAGCAGTTATTAATGGAACAAAAAAATTCCAATCTGAAATATTTGATAAATTAAGAAGAGTCAAAGAAGAAATAAGTTATTAATAAAAAAATCCTAATTATAGGATTTTTTTATTATTTATTTATGGAAAAAAATTCTAATTTTTATTTAAAAAAATATAACTTTTTTTGAACTGTGATATAATAAATTTGAAATTATAAGAGATTATAATTTCACATTATCAAAAAAAATTAAAAAAAGTGTTAAACTGTCCAAAAGGCTAATTATTTTATATTTGTAATCTGATCTTTTAATAAACTATGAATGAGTGAGTTTATTAAATAACTTATTATTATAAAATATTCATAAATAAATGAATAAAAAAATTCTCTTCTGAGAATTTTTTTATTTTTTTATTCATCACCAATTTTAACAGCACCAGTAGGACAAACCATTTGGCATTCAACTAATTCTAGATCATTTTCGTTTGCTTCAGCAAAACCATCATCATCCATGAAAAGAGTTTCAGTTTCATCAATTTGCACGCACGCCATACATCCTATACACATTGATTTATCAATTCAAGTTTTCTTCATAAAAACCATCTCCTTTTCTTTAATATAATAACAATAATTTCAATTATTTCTATATTTAATTTATAATATATAAGTTAATGGGGTGAAAAATAGATGAACCTAACAAGAATGGAACGTAATAAAGCAATTCATGAAAAAGTAAAGAAGGAAATTGCTTATAAAAAGAATATACAAGATGAAAAATCAGTAATTCATTCAACATTTGAAAAATTAAAAATGATTGATTTAGACTTTTTTAAAGAAAAATTATCTATTTTTGATGCAAAACATGAATTTGAAAAGCCTTACCTTGATAGAGATAAGTCATCAAGTTTATTCCCTGAGGATTTAAAATATGAAATGAAGTTGGAAATCTCGGAATTAAAGAAAATTGGGTTAAATCAAGCTAATAAAATTTCAACTAATGAAGTTGAAGAGCAAGAGAATTCATTAAATTTAAGAAGTGATAAATATATTAATTTATATAAAAGTTTACAAGAAAATGATAAAAATTTTCAAATAAATATTAACAAATTAAAAGAAAAGCAAGCTTGAATAAAAACAAATCCGCAAGATATTTCTATGACTACAGTGCAACAAGTAAGAAGCAAAGATAATAGAAGTACTCAGCAAATGATAATAGAAGTTAGTGAAAAAAATGAAAAGGGTTTAAACAGAGTTTTAAAAACTTGAAAATTACAAGAAAGAAAATATAGATTTAAATGAGTTCTTCCTACTTTGATTACTTTTATAGTATTAATGTTTTTAGCAATAATAATTCCAATATTTGTGGTAGGAGGGTAATTAAATTTGAAACATATTAATATTGCAGTAGATGGAACAGCAGGGTCTGGAAAAAGCTCAGTTATGAAAAGAGTTGCTGTAAAGTTAAAAATGAATTTTATTGATACTGGGGTTATGTATAGAGCTTTTACTAAGTTTTGCTTGGATAATCAAGTAAATTTTTTAAACGATAAGGAAATTGAAAAACAAATTAAAAATTTTAATTTTAAATATATAAATGAGAATTCTATTTTAGTAAATAATGTAGAATATGGAAAAACTATTTTTGATTATGATGTTGCAGAAAATATTAAATATGTAGCAAAAAATAATAAAGTAAGAAAATTTATGGTTTTAGCCCAAAGAGAAATGACTCAAAATAAAAATAATATTGTTATTGGAAGAGATATAACAACAGTAGTTCTTCCAAATGCAGAATTAAAAATATATTTTGATTGTTCTGTTGAGGCAAGAGCACAAAGAAGATTCAATCAAAATAAGAGAAAAAAAATTACTCCAAACGTTTATGAAGATATACTAAGACAAATTCAACAAAGAGATGATTATGATAAAAATAGAGAAATGGGTGCACTTAAAATTGCACCAGATGCTTGATATTTAAATACAAGTAATTTAAGTATCGGTAAAGTAATTAGATTAATTTTAAATAAAATAGAAAATCTTAAATAGTCTTTACTTTTTAAGGGGGTGTAGCTTTATGGCAAGAAAAGGAATTGTAGCAATAGTTGGGAGACCAAATGTTGGAAAATCTACACTTTTTAATAGAATAATTAGAGAAAAAAAAGCGATTGTTGAAGATAAACCAGGAGTGACTCGCGACAGAATGTATGGTAAAGCAGAGTGATTAACTTTACCCTTTATTGTAGTTGATACTGGTGGTATTACGCTACAAGATAGCCCTTTTTCAAAAGAGATAAGAATGCAAGCAGAAATTGCTATTAAAGAAGCAGATGTAATAGTTTTTGCAATTAATTATAAAGATGGAATTACACAAGAAGATGAAGCAGTAGCTAAAATACTTTATAAAACTCACAAACCAGTAATACTTGCCGTTAATAAATATGATAAAAAAGATCAATTTGATGAATCATTTACTTTTATGACTTTGGGTTTTGGAGAACCATTTATGATCTCTTCTACTCATGGAATTGGAATTGGTGATTTACTAGATAAGATAATTGAAAGCTTTCCAAAATTTGATGAGGGTGAAGAAAATGAAGAACTAAAATTAGCAATAGTTGGGAGACCAAATGTTGGTAAATCAAGTTTAGTAAATTCATTGGTTGGTGAAGAAAGAATGATTGTTTCTGAAATAGCAGGGACAACAATTGATGCAGTAGATAGTAAAATAAAATATAATGGCAATAGTTATACAATTATTGATACAGCTGGTATGAGAAAAAAAGGAAAGATTTATGAGAATCTTGAAAAGTATAGTTACCTAAGATCAATAAGTACTATTAATAAAGCTGATATTGTACTGCTAATTCTTGATTCTAGTGAAAATATTAAAGACCACGATACAAATATTGGGGGGTTTGCTTTTGAAGAAAATAAACCTATAATAATTATTGGTAACAAGTGAGACTTAGTTAAAGATAAAGAAACTAATACTATGAAAAGAAAAGAAGAAGAAATCAAAGCTTATTTCAAGTATTTAAATTATGCTAAAGTCTTATTTATATCTGCAAAAGAGAATAAAAGAATAAATAAAATATTTGATATTGTGGATTTAGTTCAAAAAAATATTAAAAAAAGAATTAGAACAAGTCTACTTAATGAAGTTTTCAATAAAGCTCAATTAATTAATCCAGCTCCAAATCATAATGGTGGAAGATTAAAAATATTTTATGCCTCACAAGTTGAAGCATATTTACCAACTTTTGTTTTATTTGTTAACAATCCAGAATTTGTTCATTTCTCATATAAAAGATTTTTAGAAAATCAAATTCGCTCACAGTTTGATTTTAGCGGTGTACCAATAACAATTATTTTTAGAGAAAGGAAATAATATATGCAAAAGGAAAAGATAGCAATAATAGGAACAGGAGCATATGGAACAGTTTTAGCTAACGTTTTAGCTGATAATGGTCATGATGTAATCATGTATGGAATTGAAGAAACACAAGTTGAAGATATTAATAATAATCATTTAAACTCTAAATTTTTTCAAGATTTACTAATTAATTCAAATATAAAAGCAACTACAGATTTTCCAGCAGCAATGGAAAAAGCAAATATTGTAATTTTAAGTGTGCCAACATTTGCTTTGGATAATGCAATTGAAAATGTAATAAAATATGGAAAACGTGAGATGCATATAATAAATGTGGCTAAAGGTTTAGATGAAGAAAATCTTGATTTATTAAGCAAAAAAATTAAAAAAAGATTTGAAGGAACAGGGGTTATGAAATCCTATGGGGCAATCTATGGGCCTTCAGTTGCTATTGAAGTGATTATGCGAAAACCAACTTGCGTTATGAGTTGTAATGAAGATGAAGCAATTGCTACTTATATTGCAAATTTATTTTCAAATGAATATTTTATTGTAAAAGTTACAACCGATGTTATTGGTTGTGAAGTTTCTGCTGCTTTAAAGAATAGTGTCGCAATTGCTGCTGGATTATTACATGGTTTTTCAGCTGCCGATAATTCAAAAGCTTCATTAATTACTATTGGAAATGCAGAAATTTATAATATAGCAAAACATTTTGGAGCTAAAATAGAAACATTTATGAATTTTGCAACTCTTGGAGATTTGATTTTAACTGCTTCTTCATTAAAATCAAGAAACTTTTCATTGGGCGTTCAGATTGCTCAAAAAGATGATGCAAAGATGGTTTTAACTTCTCATAAGAATACTGTCGAGGGAGTTTTATCTTGTAAATTGGCATATGAGATATGTAGCAAATATAAAATTAAAGCACCAATGTTTGAAATACTATATAAAATACTATACAATAATCATAGACCTAGTGGGTTAGTAAATGATTTTTTCCAACATGCTAAGGTAGTATAGATTTAAGGGGTGGATATAACCATGACAAAAAAAGAATTATCTGAAAAAATTTCAGCAGAATTTGGTAATACAAAAGCTGATGCTGAAAAAATGATTAACTTTGTATTTGATGAAATTGTAAATGCTCTAGTTAATAAAGAAGAAGTTGCAATTGCAGGATTTGGTAAATTTGTTACAACTGAGAGAGCATCTCGTGAAGGTGTTAACCCAGCAACTGGAGCAAAAATCCAAATTGCTGCAACAACTGTAGCAAAATTTAAAGTAGCTAAACAATTAAAAGAAGCAGTTGCTAAATAATAAGAACAAAATTTAAAAGACTTGCAACATGCAAGTTTTAATTTTGCAAAAAATATGTTTGAACTTTTCAAAACAGGATTAATAAGCAAAAAAACTCTTTTAATTTTAAACTATTCAAAAATTAAAATTAATGAGAATCAATTAGCTATTTTATTAATAATTATGGAGTTATCAAACGATGACCAAAAAAACTTTACACCATCACAAATTGCAGAACATATGATAATTTCAAAAGAAGAAATTGAAAAAGAAATTTCTTTACTTTTAAAAAATCGAATTATTAAATTGGAACAAAAAGGTAAAAAAACTATCCTTGATCTAACACCTTTATTTAACAGATTACTTGTAGAATTAGAAGAAAAACACTCTAAATTAAGAAATGATAATACATATAATTTTATTGAAAAAATGTTTGATTATAAATTAACAGAATCTGAAATAGATAAAATTGAAAATTTTATTGAACTGGGTATTTCAAAACCTAAGATTATGTCAATAATTGATGAGTTTAAAATTGATAATATTAAAGACTTATTTAAAAAGTTAGAAGATAAGTCAAAAGAGACTTCCGTAAAAATAACTATGTATAATTGATTAAATGATTAAAAATATCATTAAAATTAAAATTAATACCTGAAAAATTTATTTCCAAGAAATTTTCTTTGAAATATTGATAGGGTATTTTTTTATTTTTTATATTACTTAGTTCACTTATATGAATAAAAAATATTTTTTCATATAAGTGAAAATAAACTAAAATAAAGGCACAACCATTATTTTTATTAACTAAAGTTAATTTTTCAAATTGTTGCTGTTTTAAATTATTTAAATTAAAATAATCTTTTTCAGTTTCTTTTGCTTCAAATTCTAAGTATATGCCTTTTCAAAGTCCAATATAATCACAAAAGTAATTTCTTTTTAATCTAGCTGTAATAATATTGTTATTAATAGAAATAATATTATTATTGATAGGCATTTTATAAATAAATCCATTATTTTCGTCTAAAATACTAATACTATTATTTATAATAGTTTCTAAATACATTCCTTTATTTTTTATTATCATAATTTCACCCAAAGATATTAATCGATATATATTTACAAAAAAATATAAAATAAGATACAATAAGACTAAATGGGGGCATAACAATGGCAGATTTTATAAAATTAACAAAACAAGAAATTATAGACAAAGATTTTGAAGTTGAATATAAAGGTTATAAAGTAGAAGAAGTTGATGCTTTTTTAGATATGATAGCAGAAGACTATAAATTTTTTGAAGAAAAAAACATTAAAAAAGAAAAGGAAATAGCAACTTTAAAAGAAAATATTAATAGATTATCTAGTGAACTGACAGAAACATTGGCTACTTTAAAATTAAGTGAAAGTCAAATGGAAGCATTAGCCAGAGCTGGATTAAATAGTTCAGACTTAATTAAGAGAATTTCTAATTTAGAAAAAGAAAGATATAATAAGTAATTTAGTATAAAATAATCAATGAGATTAACTTTGAATCAACTGCTATATTTGAAAAATAATATAGAGGAAACTCCACGCTTGCACATTCTGAGATGAATGTAGTGTTTGTGCTAGAGAAAAAAATAACTTTAGGTACCAATTTATTGGTAACGACTTAAGTATAGTCTAAGGGCATTTATGCCTATGATAAGCTTTATAAAGTGCCACAGAGACGATTAGCTAGAAATAGTGAAATGGAACGGGTAAACTCCACAAGCAAGAAACTCAAATTTTGGTAGAGGAGCTTAAGGGTGAGGAATTCAACAAGCCTTTGGGATCGCATAAGCGATAGATAGATAGTTGATGCACGTAAGTGTTACAAAACGTGGGTTATGATAACTTAATCTCACTATATTTTTTAAGGATTTGTATATGAAAAAATTATTTGAATATTTAAAATTAAATAATTTAACACTATCTTCATGTGAATCATTTACAGGAGGATACTTTGCCAATCAAATAACAAATATTTCTGGAGCAAGTCAATATTTTAAAGGTTCCTTTATTTGTTATTCAGATGAATTTAAAACACAAGTTTTAGGAATAGATATAGAAGTAATTAAAAAATATAGTGTCGTTTCAAGAGAAGTTTTGGCATTAATGTTGGAAAAAACTAATCAAAAAATTAAATCAGATATTGTTATTGGTTTTACAGGTTATGCTCCTCCAAAAGATGTTAATGAAAAATCTGGTTTGAGTTTTGTAGGTTTTAGGATTAATAATCGAAATTTTATTTTTGAATTTTTTATTGAAGAAAATATCTCAAGAGAAGATTATAAACAACAAGCTAGCGAATTTATTATTAATAAGCTTCTAAAAATTTAATTTTAATTCCTTATTGTCGATAATGATAATTGAGGAGAAAAATATATGATAGAAAAAATATTAGAAAAAAATACAAACGAGGTGCTTTTAAATATGAGTGATAATAATATTTATGATGATCCTGCTTTTAAAAGCGTTTTAAAAGATATTGAAAAAACTTTTGGAAAAGGCTCAATTATGAAATTAGGAGATTCAGCAAATTCAGCTATTGAAGTTATTCCAACTGGAAGTTTTTTACTTGATAGAGCTATTGGAGTTGGGGGATATCCCAAAGGTAGAATTATAGAAATTTATGGTCCAGAATCAAGTGGTAAAACAACACTTTCATTACATGCAATTGCTGAAGCTCAAAAAAATAATGGAAGGGCTGCTTTTATTGATGCAGAACATGCTTTAGACCCAAGATATGCTCAAAATATCGGTATTGATATTAAAAATCTTGTTGTTGCTCAACCCGACTCAGGAGAACAAGCTTTAGATATTTTAGAAATGTTAATTAAATCAAATACTATCGATATAATTGTTGTTGATTCAGTAGCAGCGTTAGTTCCAAAAGCAGAATTAGATGGAGAAATGTCAGATCAACAAATTGGTTTACAAGCAAGATTAATGTCAAAAGCTTTAAGAAAAATTAATGGAATAGTTTCTAAAACTAATACAACAGTCATTTTTATTAATCAATTAAGAGAAAAAGTAGGTGTCATTTTTGGTAGCCCTGAAATAACTCCTGGAGGTAGAGCTCTAAGATTTTACTCATCTATAAGATTAGAAGTAAGAAAAGGAGAAACAATTTCTACAAATGGTGAAGCAACTGCAAATAAAGTTAAAATTAAAGTTGTAAAAAATAAGGTAGCTCCACCATTTAAAACTTGTCAAATTACTATTGCATATAATAAAGGTGTTGAAAAAGATCTTGAAATTATTGAAATGGCAACGATTTATAATATTTTAAATAAAGCTGGAGTTTGATATTCATATTGTGATGAAAAAATTGGACAAGGTAAGGAATCTGTTAGAGAATGATTTAATAATAATCCAGAAAAGTATTTAGAAATTCAATCTAAACTTAAAGACTGTATAGAATAATAAGTAATCTTTTTAACTGTATTTAATACAGTTTTTTATTTTTTTGAATTATTTTTATATCCAATAGTCATATTAGATATAGGAATTAGAGAAAAATATTAACTTTATTTAATAAAAATATAGTTTCAAAAATACAACATAAACATATTCAACTATATTATTAGATATAAAAAATCTTAATTAATTAATGACAATTATTCTGTAAATTGATCCAATTAACAGTTTTGATTTGAAGAAGAAATTCATGATGGATAATATTAATATAAAAACAAAAATTATTTTTTTGTTTTTTTTGTTTTATTTTGTTTATTAAGTTCCTTCTCTAATTATGCTATTTTGTTAATTTGATGTAAAATAATAGGGTTGCAAAAGGCAACGCCACACTTTTCTAGGATTGGAGAACAATGCTAGTTATGAATGATGATTTAGTACACTTGTATATTGCGATAATATCTTTTTTAATAGTACTTTTAATTGTATTAGGTACAGTTATTGTATATTTAATTAAGTCTCGTCAGCGCAAATACATTTTGAAAAAAACATTAGACGAGTCAAAAGAAATTAAAATGAAAATATTAGCAGAAGCAAAAGCTGATGCAGCTTTAATAAAACTTAATGCTGAAAGTGATGCTTCGTATATTCGTGAAGAAATTTCTATCGAAAACAAAAATTTAAAACAAAAAAAAGAACAATTTTTTGAAGAAATAGAAGTTTTGAATAAAAAGGAAGAAGAATTAATTCAAGATAAAATTAATACAAATAAAATAAAAAGTGAATTAAAAATTCAAAAAAAGAAATATCAGTTAGCTCTTGAAAATATTTCAAATTTAACAGAAGAGCAAGTCAAAAGTGAATTATTTAATATTGTAGAAAATAAATATTTAAATGAACTTTCAAATAAAATTAAAGATTACGAAAATAAATTAAAAATTAGAGCTGAAAAAAAAGCATCTGATATATTAATTGATGCAATGCAAAGTTGTCATATTCAAATTACTTCTGAAAAAAATACAACATTTTTTGAAATTGAAAATGATTCTTGAAAGGGAAAAATTATAGGTAAAGAAGGTCGCAATATTAAAACTTTTCAATCTTATGGAGGTGTTGATTTAATAATTGATGATACACCAAATAGGATTACCATTTCTTCTTTTAACCCTATAAGAAGAGAAATTGCTTATTTAACTTTAACTGAACTTATTAAAACTGCAAGAATTCATCCTGCAACAATTGAAGAACAATTAATTATTCAAGAAGAAAAATTAAATAAACATTGTTTTGAAATTGGTAATGAAGTCTTATTAAATTTAAATATTGATGATTTACCTGAAGAAATAGTTAAAATGATTGGTAAATTAAAGTTTAGACATAGTTATGGACAAAACGCTTTACAACATTCAATTGAGGTTGCAAAGATATGTAGAAAAATTGCATTAGAAATGGGTCTTGATGAGAAGATTGGACTTAAGTCGGGTCTTTTACATGACATTGGAAAAGCTGTGGACTTCGAGCAAGAAGGAAGTCATGTAAAATTAGGAGTCGATATTCTTAAAAAATACAATTTGGAATTTGAAATAATTAATGCTGTTGAATCACATCATAATGATGTGGAAAAAGAAACCTATTATGCAGAAATTGTTGCAATTGCTGATGCAATGAGTGCTGCAAGACCAGGAGCAAGAAATAATGATGCCAATGAATATTTTATAAGAATGCAAGAGCTTGAAGATATTTGTTTACAACAAGAAGGTGTTATTAAAGCTTATGTTTTAAAAGCTGGAAGAGAAATTAGAGTTATGGTTAATCCAACTGTTATTGATGATTACAATATGAAAAAAATTTCCTTAAATTTAAAAGAAAACATTCAAAAAATAAATAAAACCCCTGGAGATATTTATATAACAATAATTCGTGAAAAACGTGAAGTTATAAGATTATAAAAACACCAAGATAATGGTGTTTTTTGTTATAATTAATTGAGATTGGAGTGAAACTATGGGATTTGGAGATTTTCTAGCTAATAGAATGAAAAAGTCTATTGAAAAGAATTTAAAAAAGACTACTTTAAATAGTGATAATGTAAAAGACGTATTAAGAGAAATTAGATTAGCTCTTTTAGAAGCTGACGTAAATATTGATGTTGTTAAAAAATTTATAGCAAATATTCAAGAAAAAGCTGAAGGAGTTTTTATTGAACAAGGTGTTAGAGCAGATCAACAAATGGTTAAAATAGTTCACGCAGAACTAGTTGAAATTTTAGGAAAAACTAATAAGGCATTAGAAATTGATAAAAAACCTTCAATTATTATGATGGTTGGTTTACAAGGAGCTGGAAAAACAACAACAGTTGGTAAACTTTCACATTTAATTACTAAAAAAAATAAGAAAAAAACTCTAATGGTTGGTTTAGATATTTATAGACCAGGTGCTATTGACCAATTAGTTGAGTTGGGACAGAAAAATAATTTAGATGTTTTTGAGCAGGGAAAACAAAGTCCGGTTAAAACTGCACAACAAGCAGTAGACTATGCTCAAAAAAATGGATATGAAGTAATAATTTTAGATACAGCTGGACGTTTACAAATTGATAAGCAATTGATGGATGAACTTAATGAAATTAGAAAAGTAGTTTCTCCTCAGGAAATAATTCTTACAGTTGATGGAATGACAGGGCAAGATATTATAAATGTTTCACAAGAATTTGATAATTTATTAAAATTAACAGGAGTTATTGTTACGAAACTAGATGGTGATGCTCGAGGTGGGGCTACATTATCAATAACTGATATTACAAAATTACCAATTAAGTTTATTGGTGAGGGTGAAGGAATTGGAGCTCTTGCTGAATTCCATCCAAAAAGAATGGCTGATAGAATTCTTGGGATGGGTGATGTTGAAACATTGTTTGAAAAGGCAGCTGATGTTGTTGATCAAAGAACAATGGAAAAAACAATGAAAAGAATGTTTGCAGGACAATTTGATTTAGAGGATTTGAGAAATCAAATGGAGCAAGTTGCCAAAATGGGAAATCTTGGTGGAATTATGAAAATGGTTCCAGGATTAAATGGAAAAGTTAGTGAATCTCAGATTAATCAAGCTCAACAAAAACTTTGAGTGGCAAATATTTTAATGACATCAATGACTTTAAAAGAAAGAAGAGAACCAAGACTTTTAAAAGCAATTACTAGAAAACAAAGAATTTTAAAAGGTTCAGGTAGAACTGAAAAAGAATTTAATGAACTTTTAAATCAATTTGATAAAGGTAAAAAACAAGTTCTTGAATTAACTAAATCACTTAAATCAGGAAAAATGCCAAATCTTGGTGGTCTAAAATTTTAGTTAAAAAGAAACTAAAATTAAAACAAAAAAAGAACTAAATTTAGTTCTTTTTATTTTGCTTCAATTGCTTTTACTTTTTTTTCTATTTGAGAAATAGCTTGTAATTTTTTATTAGCTTCTTCAATTGTTTTTTGAGTACTTTCTAATTCCATTCTTCGTTTCTCAGCATCTTTCATTTTCTTTCAAACACCAGTTTTCATTGCATCTGACATTAACAATACTGAAAGTAAAGTTATGTTAAAGATATCATTAATGATTTTAGATACATGTTTTTTTTCTTTTGCTGATAAGTTTTCAGCCTTATAAGTTTCCAAACTTTTAACATCTTTGAAAAAATTGTCTGCAAAATATTTTCCAAATTTTTGATAAATTAATGCTTCACCTTCATGAGCAAATAAAGATATACTTTTAAATAAAATTAGTTTCATTTCAACTTCATCTTCACTAGTAGATCTAAATTGTTCTATAACATAATTTAATCTATCATCATGGAATTCATCAACCAATTCTTCGACAACAATTCTTGAAGGTTGTCCAACTAATTTTAAAATTGGTTTTTTTCCTGCAGTTTCATATTCTATAAATTCATAGTTCATTGCTTTAATGTATTTTTTAATACGTAAAGGTAATATATACATATCATATGCAATATATTCTGAATACCTTCATTTTCTTGCAATAATTTGTGTGATTATATTATAAACCATTTCCAATACAGTTAAGTTTAATGATCTTTCACTTACTTTAAACTCTAATTTGTTTAATCTCAATAATTGATAATATTCATATCCATAGTATTCAAGTGAAATCATATTAAAATATGTTTGAATAGTTGAATTATTCATAATCGCAGAATAAGAAAATTGAATATCTGGTACAAGAGCATCAACTATATTTTCAAATTGTGGTCTATAGTCCAAAATTGAGTAAAATTTATTTTTTTCAGCCATAAAATATCCTCCAAAATATAGTTATATTTTATCATATTTCCTTTTGAATAAATATGTAAGTGTATAATAATAAGGATTTTAGGAGTTTGTATGAAAATAAAAATAATTTGTTTTAATAAAGTAAATAAAGAATATAAAGAAGTTTATAAAACATATATAGATAAACTTAAAAATCATTGTACTTTGGAAGTGATTGAAATTAATGAATTTGATCATGGCGATATAAAATCAAATATGGTAAAAAATGAACAAAATATTAATTTGAAAATATTAGAAAGTAAGGAATATGAATTTTTTTTATTAGATATAAATGCAAAACAGTACAGTTCTGAATTAATTGCACAAACTTTACAAGAAAATCAAAACTATAAAAGTGGTAAAATTTGTTTTATTATTGGACCAAGTGATGGATTCAGTGAAGATTTTAGAAATATACATAAAAATAAAATTAGTTTTGGTCTAATTACTTTGCCTTATAATTTAGTAAGAATAATTTTATTAGAACAAATTTATCGAGGTTTTAAAATCATTAAAAATCAAAAATATCATAAATAATTAAAAAATAAATTAGATTTTTTAATAATTAAACTATAAAATGATACTATCACTGAGGAGGTAATCCTATGAATGACGAAAAATCAAGTTTCAATTGGTTTCCAGGTCATATGAATAAAAGTATTAAAGAAATCGAACAAAAGATTTCAATAGTTGATCTGGTTATGGAAATTGTTGATGCAAGAGCACCGTTCTCAACACAAAATCCATTACTAAGAAAAATACTAAATACTAGACCAAGATTAATAATATTAACAAAATTTGACTTATCAGATAAAGACATAACTAATCAATGGACTGAATATTTTAAGTCTATAGGAAATACAACATATATTGTAAAAGATAAACAAGCTGATATTTACAGTGATATTTTAAAACTTATAAATGAAATGACTAAAGAGTCACAATTGAAACAGAAGAAACGGGGAATAGAAAAACCTCAACTCAATGTTTTAGTTGTTGGTATTCCAAATGTTGGTAAATCAACAGTTATTTCAAAACTTTCAAAAGGAAAAACTTTAAAAATTGGTAATAAGCCTGGTGTTACAAGAGGAATGCAAAGAATTGTAATGACAAACAGTATTACATTGATTGATACTCCGGGAATCTTACCTGCAAAGTTTGAAAATGAAACGGTGGCTTGTAATTGTGCTGCTACGAACTCAATTAGATTAGATGTTATTCCAAAAGAAAGAATGGCAACTAAATTAATGAGATATATTTATAATTCATATCCATCATTAATTGAAAATACTTATAAAATTAATAAGCATGTATTAAGACCCATTGATTATGATGATACATTTACTATTTTTGAAGAAATTGCAAAGAGAAATAAATTTACAATTCTTGATGAAATAGCTGATGTTGAAAGAGCAATAGAATTATTTATTCAAGATATTATTAAAAACAATTTGGGAAATATTTCATTTGAAAAGCCAATTGAAATAAAGGAAATATCGAAACAAACGATTCAAGAGAAAGATTTAGAATCAGCAATAGTAAGTGATTTAACAGTTGAATGATAGAAAACCCAAGATACTTATTTGATCAAAAAATAAGAGAAGAAAATAAAGTTAATTTAATTTCAGGCAGTGATGAAGTTGGCAGAGGAGCAATGGCTGGTCCAATTGTTGTTGCTAGTGTAATTTTAAAACCTGAGTATAATAATTTTAAAATTAGAGATTCTAAATTATTAAATGAAAAACAAAGAGAAGAGTTGTTTGAAGAAATTAAACAAAATTGTATTGCATATAGCATTTGTGAATATGATTCTAAGTTTGTAGATGAGTTCAATCCCAAAAGGACAAGTCAAATTGGTATGATTGATACAATAAAAAAATTAAAAATTAAGCCAGATATTTGCTTAATTGATGGAGAAAATATAGAATTAAATTTGTGTAAAACGATAAAAATTATTAAGGGTGACAATTTGAGTATTACTATAGGAGCTGCGAGCATTTTAGCAAAAGTTTATAGAGACAGAATAATGAATAATTATCATTTAAAATATCCACAGTATAATTTCATAAAAAATAAAGGTTATTGTACAATTGATCATCAAAATAGAGTTAAAGAATTTGGTATTTTGGATATTCATAGATTTTCTTATAAACCAATAAAATTTCTAAAGGAGAAAAAAGATGAACTTTAATAAGAACAATGAAGTCTATCAGGAGTGATTAAATTCTAATCACTTAGATGAAAATTTAAAAGAAGAATTATTGAAAGCAAGTGATGAAGAATTAAATGCTGCATTTAATATTCAACTAGAATTTGGAACTGCTGGAATAAGAGGTATTCTTGGAGCAGGACCAGGAAGATTTAATTTGTATACAATTAAAAAAGTAACTATGAGTTATGCAAAATTGTTATTATCAAAATATGGAGATGTTTTAAACAGAGGAGTTGTTATTGGTCATGATAATAGAAAATTTTCAAAAGAATTTTCTCAATTGACTGCTGAAATTCTAACAAGTTTTGGTATTAAAGCTTACTTATTTGAAAATAACATTATGAAACCAACGCCAGTAGTTTCATTTGCAACCAAACAATTAAATGCAATTGGTGGTATTGTAATTACTGCAAGTCATAATCCAGCTATTTATAATGGTTATAAAATTTATGATGAGTTTGGATGCCAATTAATTGATGAAGATACACAAATAATTGCAGAATATATGGAAGAAATAAGTGATATTTTAAATTGAAATTATAAATTTGATGAAACACTTCTTGAAGTTGTACCTCAAAATGTTTTAGAAAAATATAAGGAAATGATTGAAAATTTACAATTCTATAAAAAGAAACCAAGAAATAAATTTAAAATGATTTACTCAGCTGTTAATGGAACTGGAACAGAGTTTACTCCACCATTATTGAGAAGTTTTGGTTATGAAGTAATCGAAGTTGCAGAACATGCCTTTGAAGATTCAACATTTAAAAATGTTGGAAATCCTAATCCAGAATTTGAACCGGCTTGAAAAATTCCATTAGAATATGGAGAAAAACATAAAGATGCTTCAATTATAATTATTCAAGATCCTGATGCTGACAGAATAGGTTGTGCAGTTAATCATAATGGTAAATGAATTAGAATTGATGGTAATCAAACAGGACCATTATTAATTGAATGAAAATTAAGTCAAATGAAAGAACATAATTTAACTCCAGAAAATCCAGCTATGTATTCTAGTTTTGTTACAAGTGATTTAGGAGATAGAATTGCAAATGAAACTTATAATGTTAAAGTTATAAAAACTCTTACAGGATTTAAATGAATGGGTTCAGAAATCTTAAAAGAACCTGAAAGAAATTTAAATTTTGTATTTGCCTATGAAGAAAGTTATGGTTATGTTCTTGACTCTTCAACAAGAGATAAAGATGGAATTCAAGCAACAACAATGTTAGTTGAAGCTGCATGATATTACAAACAAAAAGGCAAAACATTAATTGATGTATTAAATGATTTATATGCAAAATATGGTTATTACTATACATACACTGAAAATTTAAATTTTAAACCAGAAGAAATTAAATCGAAAGTTGAACCTATAATGAAAAAACTTAGAGAAGAAGAGTTTTCATCAATGGGTGGCTTAAAATTAAGTTATGTTGAAGATTATATTGATGGGTTATTCAATATGCCTGGACAGAATTTAATGAAGTTTTATTTTGAAGATGGAAGTTGATTTGCAGTTAGACCTTCAGGAACTGAACCTAAGGTTAAAATATATTTTATTTGCGTTAGCAATAATGAAGAATCAGCTATATCTAAGTGTGAGTTAATTTTTAAAGATCTAAAAAAATTCTTAGAAATATAAAATAATGCTTTAGCATTATTTTTTTTACATTTAAAATGAAAATTGTTAATTTAGTACTTATAATAATAGTGGCATTAATATAAATGAAAGCTAAAAGTAAGGAGAAAAATGAAAACATTAATTATTGGAGGTAGTGCAACTGGAATGGGTGTTGCTGCTAGGCTTAAAAGAAATGATCCTAGTATAGAAATAACAGTTATACAAGATAAAGATTATGTTTCTCTTGGAGCCTGTGGTCTTCCATATTTTGTTGCAAATAATTTTGAAGATAAAAATATTTTAATAGCAAGAAAAAAAGAAGAGTTTGAAAAAACTGGTATTAAAATTATTTCTAACGCAAAAGTAGATTCAGTTGATTTTAAAAATAAGACAGTATCTTTTAATGGTCAATTTGAATCTTATGATAATTTAGTTTTAGCAGTTGGCGCAAAGCCTATTAAGCCAAATATTATTGGTGTTGAAGGAGAAAATGTTTTTTCTCTTACAACATTAGAAGATGGAGTTTTGTTAAAAGAAAAAATACTTAACAATGACAAAATCAAAAAAGTTGTTATAGTTGGAGCAGGTTTTATTGGATTAGAAATGACTGAAACTTTTGCTGAATTGAATAAACAAGTATATTTATTAGAAATGGAATCAAAAGTTATGAAAAAAGCTTTTGATGAAGAAATCTCAAATTTAATTGAAGAGAAATTAATAGAGAAAAAAATTAATACTCTACTTGGTGAACAGTTAGTAGAAATAAAATTGAAAAATGATAAAGTTAATTCAATTTTATTAAAAAGTGGAAAAGAAATTAAAGCAGATGCAGTTTTACTTTCTGTTGGTTTTCAACCAAACACTTTATTTTTAAAGAATAGTGATTTAAAAATGAATGACAGAGGAACAATTATTGTCAATCAAAAAGGTGAAACAAATATTAAAGGTGTTTATGCAGCTGGTGATTGTGCAACTTCTAAGGACTTTATTAATAATGAAGATATTTATTCACCACTAGCAACTGTTGCTAGCAAATTTTCAAAAGTAATTGCAGATAATATTGCTGGTAAAAAAGCTAGTTTTGCAGGTTCTATTCAAAGTTCAATGTTAAGAATGTTTGACCTTGAAATAGCAAGAGCTGGATTAACAGAACAAATGGCATTAAAAAATAATATGAAAATTAAATCAGTTTTTATTAAAGATAAAGACCATACAAACTATACTCCAAATCAAAAAGACTTATATCTTAAATTGATAATTAATGAAAATACAAGGGAAATAATTGGAGCTCAAATGGCAGGAAGTAATAGTTCTGTTTTAAGAATTTATGCTTTGGCAGCTTTAATTTGACAAAAGGCAAAGGTAGATAGTGAATTAGAACAAATCGATTTACCTTATGCTCCACCATTTTCAAGAACTGTCGATATCATTCACATCGCTTTATCTAAGTTAAATAAATAAGAAGGGAAAGATTAATATGTTATTCTTGGCAGAAGAAGAAAAAGGCCATAACTTACTTAGAGATTTTGTAGCTATTAGTACATGACAATCACTTGTGGCAATATCTATATTTATTTCTTTACAAGTAGGACTATGATTCTTTTTAAAAAAATATAAATTTGCATTTATGTACAGAGTTATTCTTGGTATGGCAATTGGTTTAATATTTGGTATAGTATTACAATCAATTATAGGTTTTCCAGATTCGGATTCTTTTGAAGAGATTTCAAAACCTTGAAATGAGCTATATTGAATTTATGAGTTAAATATTTGAGCGTCGTTCTTTAAAAATATATTTATTAATGGTGTTTATTTATTAACAGTGCCAATTGTTTTTATTGCAATATTTAAAATAACATCTAAACCAGGTGAAACTGGTTTGGGAAGAATTACAGCAAAAGGAATTGCATTATTGCTATTTAATGTTGCTGTAATGTTCACAATAACTTTTTTTATAGGGTTATTAGTAAAAGTAGGACAGGGATTTGAATTAACTTCAGATTCTTCTGTTACTGGTAAAGATAATGTACCTTTACCTCAAATTATTTGAGAGTACATTCCAAATAATATTATTGGAGCTTTAGCAAAAAACACAATTATTCCTGTAATGGTAGTTGGAGCTTTAGCTGGTGGAAGTGTAAAAATTTTATCAAAAAGAAAACACGTTGAAATGGAAGCTATTAGAAAAGCAATGGATACAGGATGAGATGTTATGATGTCTATTTTAATGACATTTATGAAAATCATGCCTTTAGCTGTTATGTCTATGATTACTGTTTCAATTACTTCAAGACCAATTGGAGCATTAGTTTCAATTGGAAAAATAATTGGTGTAGGTTATTTAGGAGTTGCTATTGCATTGGCTCTTTTAACATTAGAAATATTCTTAAGTGGAATAAAAGTTGGAGCTTGATGAAAAAACGCTTGAAAACCTTTAATCCAAGGTTTTTCTACACAATCTTCTAATGCTTCCTTGCCAATAGCAATGGAAACATTAACACAAGATATGAAAGTAAATGGAAGATCTGCAAACACAATTCAACCAATTTCTACAACAATGGGATTGATTGCTTGTGCTGGAGTTCAATCAGGATTAGCAACAAGTATCTTATGAACAGGAACTAGTTCAGGAAGTGCTGTTCATGATATGGGGCTATTTACATTCTTTATAATGGCTTTATTTGTTACAGTAATTGCTTCACTTGGAATAGCAGGTGTTCCAGGAACTGCAACAGTTGTTACTGTTGGTGTACTTGGAGGTATTGGATTTGGAGGATATGCAGGAAGTGTCTTACAATTAATTGCACCTCTAGATGGTTTGTTTGATATGGGAAGAACTGGTGCCAATGTTGTTGGAGGTGTTGCTGTTGCCACAATTGTTGCAAAATCAGAAGGACTAATTGAAGAAGGATCCAATCTTTTAAATGAAAGAGGAATTCATTCACAACAAAGAATTCTAGAATCTAAAAATTTAAAAGATGAGCATACTAAAATTCTAATTTCCTTAAATTCCACATCAATGAAAGAATTAAAAAATAAAGACTTAACAAAAGAAGATAAGGAAAAAATTAAACTTAAATTAAAAGAAGATTTAAAAAAAGAAAAGCAAGTATATAAAGAAAAGAAAATTATTTTTAAAGATAAAAATAATAAAAAAGGAGATAAAAAATAATGAGAAGAATATTATCACTTTTATCAAGTATTTCTTTGATTGCTTCGTCTTCAACTTTAGTTGCTTCATGTACTGAAAATAGTAAAGAATTCAAAACAATTGATTTTGAAAAGCCATCAGAAACTATAAAAGAATTTGAGTCAATTAAATTAAAACTTAAAAATAGAAGTAAAATTAATGGTCTTAAAATTGAAAGTTCATCAAATCTTAAGGTTCAACTTAGTGGTAAAAATAATGATGAACTTATTATAATTGCTGGAGCCATTAAAAAAGAAAATGACCAAGAAACAAATGAAAAAGAATGAGTTAAAATGAGTGCAAAAAATGCTTATACAGAAGTAATTGAATTTAAAATTACTGCTAATTTAGAAGGTTATAAGGCAATTGAAGTTAGTGGTTTAAATAATGAAAATAATCTTCATTTAAAAGCAGGTTTAAAAGAAACAATTGTAATTTTAAATTATGAGCAATTAATTAATTTTAAAATCAATTCTGATAGTACTGAATCAATTAATTATATGCAAAATGGAGATAATATAATTGTAAATGCTAAGCAAAACTCTCAAAGTGGTGCAAGTCTAAAACTTATATTATCTGCTGATAATTCTAAGGTTGCATTGGAAATTAATATTGAAGTTATTTAAAAAAATAATTGTTAAATCAATTATTTTTTTTATTTTTATGTCGATATTAATAGTGGGAGGAATGTTGATATGAATAATGTAACTATTATTGGCCAAATGGAAGGTGAACCTCAAGTTGTTTTTGATTCCAAAGATGGTCAAAAAAAATTATATAAATTTGTTTTAAAAGTACCAAGAAATTATAAAACTAAAACTGGTGAAACAATTGCTGACTTTATTAATGTTAAAGTTTGATCTAATATTTTAGGAGAAGAATATGAATATTTTGATCAATCTTATATTGGTGTTGAAGGAAGAATTGTATCTTTTGGAAATGTTGAAAATAATAAATATGGAAATGAATTAGTTGCAAATAAAATTTTTCAATTAAGCTAAGTGGAAAATGTACTATTATATTTTTCAATAAAATATAGCGGTGATTGAGATCAAATTTATAATGCTTTAGATACAAAAGAAAAAATTACTCATAAAGATTTGGATGAAATTTCAAACAAGGTTGATTGTAATTTTATAACTATTTTAAACCCATTATATCCAAACTACTTAAAAAATACTCATAAACCACCATTTGTAATATTTTATAAGGGTGACTTGTCTCTTATTTCTAACCACAATAAAACTATTGCATTAGTTGGTGGAGACGAGGTAAATGAGTATGGAATTAAAAGTACTCAAACTTTTATGAAGGAATTAAATGAAGAGGGTACAGTATTTTCTACAATTGAAAATATTGGTGTAAACAATGAAGTATTGGATAATGGGTTAAAAAATAATTACAAACTAATTAAAATAGTTGAAGAAAGTATGAAAGATTATCTTAAAAAAACACTTGATATACCAGAAAGAAAAAATTTATTGGCAATTACAGAAATATATGAATCAAATAACAATATTGTTAATCTTATGGGAGATTATGCAAATAGAATGTTATGTGGCATTTCAAAGGCAATCTTATTTATTCAATTTAAAGAACGAGATATAATAAAAAAACTATTCTCTTTTTCAATAAATGAAGGTAAAGAAGTCTTTGCAGTTCCTGATAGCATCTATTCAAAAAATGCTACAAATAAATTAATTAAAGATGGTGCAAAGTTAGTAGAAAATGCAAAAGATATATTAAATCAGATTTAATAATGATATAATGTTTTTGTGATAGAAATATCACACTTGTAAGGCTAACGCCTAAAAAACTAAGTATAAATTAACTAATCATTTTATTCCCGACACACAAATGATAAAAGTTATTTAATTCAAAGAGAGATTTATCTCTCTTTTTTTTGCTTTTTAATGTATAATTTTTAAGAAAAAGGTGAAAAAAATGTCAAATAATAACATAATTGAAGAAGTAAGTTCAGAAAAAAAAGCAAAAAAGTCGAATAATAAAGAATTTAAAAAGAAAAAGAGTGGTAAAGCTTTCTTTGCTATTATTTTTCATTATTTAAAAAGACATCCATTAGTTGGTATATTTTTGGTTATACTAACATTTGCATCTTCTCTTGCAGGAGTTTTAAGTCCCAAAATTATTCAAAATATTATGTTGATATTAGTTTCAAAAAGTACTGAAAATGAAATTACAACTACACCTCTATTTGGGTTTAATTTGACTTGACAAGATTGAATTTATGTACAACTTGGATTATTTGGGTCATTGGCAATATTTACTTTTGCTTCAAATTATCTTGCAGGAATAATGGGTAAAAATGTGGAAATTGAACTAAGAAATAAAACATTAGAAAAACTAGTAAAACAAGATATGAGTTATTATTCTGATAAAAAAATTGGAGAAATACTAACAAAAATTGTTTCAGATACTCAAATTATTGGAGATCAAGCACAACAAATACCAGTAACAATGTTAAATGCATCATTTACATTTTTTGGAGCATTAATTATGATGTTTACAATTGATACTTATTTAACAGTGGTAGTAATAATAACAATGATCGTAATTGTAACATCAATATTTTCAAGTTTTGGAATTGTTAAAAAAGCAGCTTTCAAGACAAGAGATTCTATTACATCAATTAATGGTGATGTAACAGATAGAATAGCAACTGTTAGATTAATTAAAGCATCAGGAACAGAAAATTATGAAACAGAAAGATTTAAAGAAATTCATAAAGATTACTTTAAAAAATCAAGTAGTTTAATTAAGTTGCAATCAACAATTGTAACTATTTTAGTAGCAGGAATAAGTTCAATTCAAATGATAATAGTTATTGCTGCAGCAATAAAATGACATGATGAACCAGCAACAATTTCTGTTGTTTTAACAGCATTTATTTCATCAGTTGGAACAATGGTTGGACCAATTATGCAAGTTGCAAGATTACAAATTGGATTAATCCAAGCTTCAACTTCAGCTGTAAGAATTGATGAAATTCTTACTTCAAAATCAAGAATCGATCCTCATTATAATCCTGAAGAGGGAATTAGAATTGAAAATATTGATAAAGCAATTATCTTTAAAGATGTAGAGTTTAGATATCCAGAAAAACCCGAAAAAATTATTATTCCAAAATTTTCATTTACATTTGAACATGGTAAATCTTATGCATTTGTAGGTGAAACTGGAGCAGGTAAATCAACAATAGCGAAACTATTGTTAAGATTTTATGATCCTTTTAAAGGTAAAATTTTAATAAATGGAACTAATGATTTAAGAGATGTTAATTTAGCAAGTTATTTAGATAAAGTTGGTTATGTAGAACAAGAACCTCAAATTTTATTTGGAGATGTTCTAGATAATATCAAATATGGTCGATTTAATGCCACTGATGAAGAAGCTATTGAAGCTGCTAAGTTAGCTGAATTGCATGACTTAGTAATGACTTGACCAGAAGGATACAAAACTATTCTTGGAGAACGTGGATTCATGTTATCTGGTGGTCAAAAACAAAGATTAGTAATTGCAAGAATGTTCTTAAAAGATCCTCAGTTATTAATTTTAGATGAAGCAACAAGTGCTTTAGATAATATTGTTGAAAAAGAAATACAATCTAAATTAGATACATTAATGAAGGGTAGAACAACTGTTACTATTGCACATAGATTAAGTACAATAAAAAATGTTGATACAATTATAGTATTGGCCCCTGAAAAAGGTATTGCTCAAGTTGGTAGTTTTAGTGAGTTAAAAAATAAAGCAGGTCACTTTAAAAATCTATACGATGCAGGATTGATGGGTTAATTATAAATATTAAAACCTCTTACTAAGTAAGAGGTTTTTAAATATTTAAATCTATGATAAAGGATTAACTGTAATTCATTCAATTATTAAATTAATTTTATTTTTAGTCTTTGATTCTAAAACTTTTTGAACACTTTCACTTTGAATAGTTTCTTTATATTCTTCAATAAGTTCTGTTGGTTCTTCTTTTGTCGTAAATCATAATACCTTAATACTATAACCAAAAGCTCATGTATCTTCAATAATGGTCTCTTGATATTTTATTCCTTTTATTAATAAAATATTTTAATAAAATAAAAATTTTTTTTTATTTTATTAACAATGAAAAAGTAGCTTAAATGTATTATACTTAAAAAGTCTAAATTTTAATGGAAGGAATAATTATGATAGCAAAAGAACAAATAAATGAAAAAACATCGAATATAGATGAAAATATCCCGTTAATTGAGATTAGCAATATTACAAAAACTTATAAGCATAAAAATGCATTAGACGACGTTAGTTTAGTAATAAATCCAGGAGATAGAATTGGAATTATTGGACCAAATGGTGGGGGAAAATCAACTTTGAGTGAAATACTTGGAGGAATTAGAAAACCAACCTCAGGTAAAATAAAAAGACAAGAAAATATGACAATTGGATTACAATTCCAAGAATCAAAGTACCCAATTGGAATAACAGTTTTGGATATGATTAAGTATTATTTAGAAACATTTAACATACCAATGAATGAAGGAAAACTAATTGAAATATTAAGAAAGTTTCAAATTGAAAATTATAAAAATAAATTTCTAGAAGGTTTAAGTGGTGGTCAACAACAAAGAGTAAATATTCTTTTAAGTTTAATTCACAATCCTGATTTAGTTATTTTTGATGAAATTTCAACAGGATTAGATATTGAAGTTAGAAGTGAAATTTTTGATGTAATTAAAGAAAATGTTGTAAGCAAAAATAAAGCAATGATTTTGGTAACACATATGATGAGTGAAATTGAAGAACTTTGTGATAAGTATATTTATATTCACAATGGAAAAATTAGAGAGCAAGGTCTTGTTAAAGATTTAGTAAAAAAACATGGATCAGTTCATAATTTTACTTGAAAAAAATTTAAAGAAGAAAAGGCAGCTGATTTAAAAAAAGACATTGAAAAAGCTGATAAAGAAAATAAAAATAAATTAGATAGAATCATAAATAGTGAAAAAAATAAAGGAAAAAATATTCCTTTAATAAAACTTTTAATGAAATATTATGCAAAAGGTTTTGCAGTACCATTTTTCTTATTTTTCTTCCCATTAATTCTTCTATTCTTAGAAGGATTTGTATTCAAATCAATGGAAATGCCTGGAGCTGCAGGAAGTGGAAAACCGGGGGCCTTATTACATAATTTAATAGGTTCATTAGCAATAATGCAAATAATTTCTGTGGGTGTTTTTATAATTCCACAAACAATTTTAGAATTTAAAAATAGTGTTCTTATGAAAAGAATTGGAGCAACAAATATAAAACCAATATTCTTTATATTAACTGTTGTGGCTATGGGAATTATTTTTATGCTTATGGGATTCTTTTGAACTTTATTATGAGCTGGAATAATGTTTGGTGGAGAATTTGGTTGAGCAAATGTTGCATTACCAGTACAGTTTGGTGAATCAATACCTTTCTTATTATTGACATTGGTTCAAGCTGTTTCAATGGGAATGTTATTAGCAAGTATTTTTAAATCAACAACAACTTATATTGCAGTTTCAAATATTTTATATATGCCAATAGCATTTTTAGGTGGATCTTTCTTACCAATTGATTTAATCATGAATAGTCCAGTTCTAAAATATGCTACCTATTTAAATATATTTAAATATTGCATGGAACCATTCTCGAATGCATGAGCTGGAAGATTTATATTTGATTTAGAAACTGGAATTTATTTAGCGGTTTCTATAGCAATGATAAGTGCCTTTACAGTAACAGCCTCATTTAAATTAAAATGAGAATCTTAAAAAATATTTTTATGCACAATTTTATATTGTGCATTTTATTTTTTAAGGCTTTTTTTTGTTATAATTAAGCAATGGAAAAAATAGTTAACATTATTGGTGCTGGTTTAGCTGGTTGTGAAGCTGCTTACCAATTGGCAAAAAGAAATATCAAAGTTAAATTATATGAAAAAAAGACTTTAAAAAGAAACCCAGTCCAAAAATTGGATTATTTTGCTGAGTTAGTTTGTTCAAATACTTTAAGATCAAGTGATTTAAAAAATGCAGTAGGTACTTTAAAAGAAGAAATGAGAATGTTTGACTCATTAATAATTAAAGCTGCTGAATTTGCTCAAATACCAGCAGGAGGAAGTCTTGCAGTCGATCGAGAATTATTCTCTAAATATATTACTAATGAAATGAAAACAAATAAGTATATTGAAGTTATTGAACAGGAATTTCAAAAAATAGATAAAAATCAAATAACTTTAATTGCTTCAGGACCTTTAACTAGTAAAACATTACAGTTAGAAATATCAAAATTAATTGGACAAGATTATTTTTATTTCTTTGATGCTGTTGCTCCAATTATTACAAAAGATTCAATAAATATGAATATTGCATTTAGAAAAAATCGCTATGAAAAAGGAGAAACTCAAGATTATATCAATTGTCCAATGAATAAAGAGCAGTATGAATTATTTCACAAAGAACTTGTAGCAGCTCAATTAGCTCCAGTTCACTTAGAATCAGAGCAAAATTTAAAGTATTTTGAGGGTTGTATGCCACTAGAAGTAATGGCAAAAAGAGGATTTGACACTTTAACTTTTGGTCCATTAAAACCAGCTGGTTTGAGAAATTTAGATGGAACAAATAATTTTGCTGTAGTTCAATTAAGACAAGATAATGCAGCCGATAATCTTTATAACTTTGTAGGTTTTCAAACTAATTTAACATGACCTGAACAAAAAAGAGTATTTAGACTAATACCAGGGTTAGAAAAAGCTAATTTTGTAAGATATGGTGTTATGCACCAAAATAATTTTATTAATTCACCAACTGTTTTGAATGAATTTAATCAATTAAAATCGAATCACAATATCTTTTTTGCAGGCCAAATTACAGGTGTAGAAGGTTATGTTGAATCAACATCTTCAGGTATTATAGCTGCTATTAATATTGCAAGATTAATAAATCAAAAAGAACTTAAAAAATTTCCAATTGATACTGTTATGGGTGGTTTGCAAAATTACATTATTGCCACTAGTTCAAAAAATTTTCAACCAATGAAAGCAAATTGAAGTATTGTTGAAAATTTAGAAATTAAGTCTAAAATTAAAAAAGAAGAGAAAAAAGATATGTATTCAAATAGAGCTTTAAATTCAATGAAGCAATTTATTAAAACATTAGTATAAATAACGAAAGGTTAATATGAGAGAAATCGATAAGCAAAGTATTTTTTGATATGGTTTACATAACTTAGTTCATGAAAATGCACAACTTAAATACTATATTACAACTCAAAAAGAACTGATTTATAATTTGTATCCAGTAGTTTATTTAGGAGTTATTCAATATTCTTTATATCGAGGAATAGTTTTAACAGAAATTCCATTAGAAGAGAATAATTCATATACAGAATATATTCTAGAAAGATATGAAGAAATTTATAAAATTAGATATAGATTTGTAAAAGATAAACCAAAAAAAGCAAATTTAAAGGACAAAGAAACATATGAATTATGTTGAGATATAATTTCCAATCTATTATTACCCTATATTAATGAATATTGTTTTAGAACATATGATATGTGAAAAAACTTATCTCAAGCGTATATTAGAGAATTAGTAATTAACTATGAGTATGATATTAACTATGAATCAGATGATGGAAAAATTAAAGCTTCGACAATGTATCCTTTTGTTTTTACTTTAAGTTTAATTGGAGTTCAAGAAAAACAAGGTTTATATCAAAGAATTGAAAAATGTTATCAAAAAGATGTACTGATAAGAAAATTTAATTCTGGAAGAGAATGAAGAGAAAAAGAGTTAGATTATTTAAATGAAACATATGAATTAATTCAAAATGATGAAGAGTGATTATTATTCTTAAGTAATTTTTCATCATCAAAATGAGATAATTTTGATTTAAAAGAACGTTTTAAGGCTCTTTTTCAATTAACTAAATTAACAACTATTCTTATGAAAGAAGAAATTAGTGCTGTAACTATGCTTGATGATGGTGAAGAGCTATATGATCAAATTAAAAACTATCTTCCCTTATTTATATTTGATGATAAATATATTAATGAAAAGGGAGAATTAAAAACAGAATTAAAGAAATCAAATGTCAAAATTTTATCACCATTTGCAAATCAAAATATTAATATAGAAGTTTTAATTCCTTATATTGAATCAAAAGGAGAAAGATTTATTTCATATAATCCTGAAACTCTTTTCAGAACATCAGAAATAATTTATACTGTACTTGCAAAATTAAGATTAATTTTATTAGTTCATGAATATTTACCTAATTTAATTGATTCAAGAATTATGCCTAAAAAAAAGTTATATGTTGATGTATTAAATCTTTTTGAAGAAGTAAAAGAAGATAAATTTAAAAGGAAATTAGATGTAGAAAATTTATTAGAATTTGATTTTTTAATTTCTGAAGATGATATTAATGAAGTATTGGAGTTAAAATATACTAAATTAGAGGATTTCTATAATAAAAAATGTTTCTATAAAATTGGTAAAATCATTAGTTTATTGCTTGGTGTTGAAAATACAACAGCATCAAAAATGAATTATGATTTGTTTGAACTATTTAAAAATATTCTTATTTTAATGGGTCCTCATCCTTTGGATCATACAGTTCAAACACAAATATTAGTAAAAAAACTTTATTCAAAATTTGAAAAAATGTGTAAAGAATATGAAAAATTACTAAGTGAAGATTTTGAAAAATCTAAAATGTATATTTCAAATTTGGAGCTCCCTTTAAAATTATTAAGATGAAAAACCTAAATTAATTAAAAAAATATAATAACTTTTATATTATGTTTGGAACTTCCATTAAACTTATTATATAAAATGTTAGTTATTTTATATATAATATTTTTGAAAAGGACAAAGGAAAATATAATGAGAAAATTATTAACAATTTTAGGAGCTGTTAGCTTAGTGGCTACATCAAGTTCTAGTGTAATAGCATGTAACAATCCAGTACCACCACCTCCTGTTGAGAAAGTGGATTTAACAGATGAATTATTAAAAGAGTTTGTTAAGGAAAATAATGAATTTAGCTATGAAGGACCTTTTGTATTTGAAGAAGGGTACTTATTTAGCGATAAAAGTATTAGCACATACTGAATTTTAGGAACTTTAGCTTTAACAAAATTTTATGATTCAATTAATGAAAATTTTAATTATGATGGTTTTTCATTCATTGGAGGTAGCGCAGAAATTGTTGATAAAACAATTGAGAGCATTAAAAATAATGTAAAATATACATTTAAAGTAGGTTTTTCTTATAGAAGTAATAATAAATTTAACCAAGAACAAAATGATAAATTATTTTTTAATTTTACTTTTATTCAAACAAAAAAATATGACAATCTTGAATATTTAAATAAATTTTTCAACTTTGTAATAAATCAAGATTTTTATGAAAATAATAGAGGTATGAGTACTTCAAAAAATAAAAAAATTGATATATTTCAGACAATTAGAGTTCGACTAACATCAAAAGCATTAGAAGAAATTGCTGACAAAACAAAAAAAATTGAAAAGTTAGAGGAAGAATTTATTAATGGTTTTAAAAATGATGAAGGAACTCAATCAAAATCATTTTTGAACTCAGTAAAAATTAATATTAAAGATTTTGATAAGTCTGAACTTGACGAATATAGAGATACCTATAACCTAGATTTAAAAATTGCATTGAAAGATAATATAAGTATATTTATAAATAAGAAATTAAATATAATTTTATCTAAAAAAGGTTAAATGAAAATTGGAAAATAATTATCAGAAATTGAAATAAATAGTATAGAAAAGGAAAATATAATGATAAAATTATTAACAATTTTAGGAGCTGTTAGCTTAGTGGCTACATCAAGTTCTAGTGTAATAGCATGTAACAATCCAGTACCACCTCCTGTTGAGAAAGTGGATTTAACAGATGAATTATTAAAAGAGTTTGTTAAGGAAAATAATTAATTTAGTTATGAGGGACCTTTTATATTTGAAGAGGGGTATAAAATAAATAATAGTATAACTAGTACAAAGTGATTTTTAGGTCATTTAGGTTTAACAAAATTTTATGATTTAATTAATGAAAAGTTTAATTACAAAGGATTTTCATTTCTAGGAGCTTCAGCAGAACTTCTAAATTATGAAAATAGTGTTATTAAAAATAATACTGAATATACTTTTAATTGTAAATTTAGTTATCAAAGTAATAATAAATTTAATGAAAGAGATAACGATACATTACCTTTTATTTTTAAATTCACTCAAACAGAAAAATATGAACAAAAGGAATATTTAGAACAATTATTCGGTACTGTAATTAATCATCGTTTTTATAAAAATAATGAGGGAATGAGCACTTCAAGTTCTGAAAAAATAGATATTTTTAATAGTTTATCAATTGATTTAACTACAAAAGAGCTAGATCAAATAGAAGAAAAAAATGATAAATTGAAGGAATTGGAAAATAAAATTACTAAAAATATTAAGGCTACAGAAGAATCTCAGGAAAAATCAATATTAAATTTAGTAAATATTAATGTAACTGATTTTAAGAAAATGGATTTTGATCAATTTAAAGATGTCTATAAGCTAGATTTAAAAATTTCTTTAAAGACAGATAATAGTGTATTTATAGTTAAAGAATTAAATACAACTCTAAAAAAAGAGTAATTTAAAATTATTTAAAAGTAGAAAGGCAAAATAATATTATTTTAGAAAAACTATAATACTATATATTTAGAACCAAAATGTTAAAAATATAGTATTATTCTTTAAAATTTGCTATTATTATTTTGTCTTATTTTTGCCCACGTAGCTCAGTAGGATAGAGCATGCGCCTTCTAAGCGTAGGGTCAGAAGTTCGAATCTTCTCGTGGGCGCCAATTTTAAAAATACATACTAGCTTTTGCTAGTATTTTTTTTATTTTTTTGTAAAATAAGATGGTTGAGGTTTAAAGGTAATAAAATATGGAATTCAAGTATAAATCAAAAATATCAGAAGTAAAAAAATATGACACAATTGCAAAGGTTTATTTAAGTTATTATGTTGATCCAGTTAATAATGAAATTAACAAATTAGAAGTAAATAACCACGAATTATTATCTTTTAATGATCATCCAACCTCAATTATCAAGAAAAATTGAGATTATAATTTTGAAGGTTTTAATGAAGTTAAAAAATATAGTCCCAAATTTGTTACAAATTTTACAAATAAAGCTTATCAAAAACAAAAATTACTTAACGAGATTAAGTTTAAAATAAATTATCAATTTATGGCACTTAATTTAAATGATTTAAAAAAATATGAAAAATATAGTGTTAAAAAAGCTGAATTTATAAAAGTGGATAATAAAGAACAATTAGACAATTTTGTAAAAATAGTTGGCACAATATTTTCAGATGAAGTAACAGATTCTAAAAAATTTTATGGAATATTTGAAGAATATCAAAAAGTTAGTGAGCTTTACATTATAAAATATGATGATCAATATGTTGGAACAGGTCATTTAACTCACTTTGATGAAAATATAACAGTTATTGATGATATTGCAATGTTAGAGATTGCAAGAGGAAAAGGTCTTGCTACTTTTTTAATGAAATCATTAATAAATAGATGTTTAGAAAAAGGACAAAAAGAAGCTTGTCTTTTTGGAAGTAAAATGGCCTTTAATATTTATAAAAAATTAGGTTTTAAAGAAGAAGATTTCTGATTAGAACAATTTAAGGTAGTTTACTAAAAAAAAGAATATAGGTGATTTTATTAAAAAGTTTAGTATACAGTTAGTATTTATATGTTTTTTATTTTTTATGTATTATTTTTATAGTGCATGAGTTAATAATTTAAAAGATAAGGGTGAAGGAGAACTTATGTTCCAATTATTTGATCCCTTTAAATTAATTCTTTTAGGTACAATTTTTACAATAATTTATGGTGCAATTAAGAACCTATTATTTTCGAGATTTGTCAATCTTAAAAATTATAGAAAAAATTTAAGAAATAACATTCTTTTTGAGTTTGACAATACAATTATCTATATTGATAATTTGAAAAAAATTATAGTAGCAAATGATTTATCTGGAGCTAAAAAGGCTTTAAAAGATTTTAAAGCAATTAGTTATATTCCAGATTACTTATCAGATTTTATTGATAAATTGGCAAATACTTTATTGTTAGAAAAAGATATAACAATCTATAGTGAGGCAATTGAAGTAATTTCAAATAATGTAAAAGAAACATTTAATTTAGAAAGAGAAAGAACACTTAAAAATCAAAGAGGATTACAAGAATTAAAAATGTCAGAAGCCTATTATACAAATACAAGTTGAGATTCAATTAAGTATAATTTAGCTTTAAATAACTTGGACAATAGTCAAGCAAGCAGATGAAAAATATCTAGTTTATATATTTCTAAGTTTAAGAATTCATTATTTATGGCATTTTTAATCAATGTAACTGTTTTTGTAATTACAGGAATTATAATGTCTTTAAATAATGTCAGAATAAATAATTACTTTTTTGCTGGTTTTGCATTAGCAATGTTAATAGTTGCAATGATTCATTATAATATTTCAATTATTTTATCTTCAAGAAAATTAAATATTAAAATCTATTGATTACATTTATTAGTTTATTATGTAATTATTTCTATAATATTTGCAAACATTATACTTAATATTATTTTCTTTCCTGATGTTTCAACAAGTAATGGTTCAGAACAACCAGTTTGATATAACTCAGAACTGCTTAATTTATTAAAAAGTATATTATATATTGTATTTTCAACAATGTTATTAACATACGTATTTGGAGGTCTTTTGGAACTATTGGAACAATCCAAATTTAATTTAATAAATTCAATTGAAACATTTATAATACCATTAATAATATTTATTTCTACTTTAGTAATAAATATACTATCAATATATAATACTCAAAACACATACTATATTATCAATTTTACAATTCTTATAATGTTTTGAATATTTATAGGGATATGAAATAAATTCTTTGCAAGATAATAATTAAAATCCTTTTTATTGTAATAAAATATAATTTTAAATAAACTGAAACATATTATTTCTATTATTGCTTTTATTATTAAATATATGAGAAAAAATATACACGCAAAGATTTGCTATAAATGCAAGACTAGAATTTCAGATGGAGATGTTTATGAGTACTTTGAAAAGCAAGACATTTTTTCAAATAAAGTGATTTTCTATGCTCATAAGGAGTGCTTAAAATAAGTTTGTTAAGTAATTTAACTTGACAAACTTATTTTTTAGTTTAATATAATATTGTTCTTAAATAGAAAAAAAGGAGGAAAACAATGGTTAAATTAAGATTAAAAAGAGCTGGTAAAAAAAGAGCTGCATTTTATAGAATTGTAGCTTCAGATGCCCGCGTTAAACGTGATGGAGAGTACATTGAATTAATTGGTACATATAATCCAATTAATGGAGAAGTAAGTCTTAAAAAAGAAATAGCTTTAAAATGACTACAACAAGGTGCTCAACCAACTGATACTGTAAGAAACATTCTTTCAAAAGAAGGTGTTATGACTGATTTACACAATGTTAAATTGGAAAATAAAAAAGCAAAACCAAAAGCACCTAAAAAAGCTGCAAAACCAAAAGCAGCTTCTGCTCAAAAAGCAGCACCTAAAAAAGTTAGTGAAGCAAAAGAAAATACTTCAAATAAATAGTGAAACAAGATATTTTTAAAGCATTTGAAAGAATTTTAAAAGATATTATCCCAAGTGACGTATTATATGTTTTAAAGCAAAAATATGAAACTGATCAAACTTACGAGTTTATACTCGTAATTCAAGAAAAGGATCAAGAACTTTTTAAAAATAAAAAAAATGAAGGTTTTTTAGAAGCAATTACAAATATATGTAATTCTGAGATATCAATTTTTTCTAAAAAAATTATTATAGATTTAGAGGTCTTAGAACTGCATGTTTAATAATTTACAAAAAATAGGAAAAATTGTAGCAACTCATGGCTTAAAAGGTGAACTTAAATTTAAATTAGAAAGTGGTCTAATTCTTATTAAGGAAATAAAAAGCGAGCAATTTTTTTTAGAAAGTATTTCAAAAAATTTAGATGTTTTTGAAGTTAAAAAGTCTTATTTTTTAAATAAAAAACATATAATTGCTTTAGACAATATCAATACTATTGAAAAAGCTCAGAAATTAATTAATAATACAGTTTATGTAAAAAGAGAGTCTGAACTTATAGAAGAAGAGTTTAGTTATATTGGTTTTGAATGTTTTTATCAAAACAAATCCTATGGAAAAGTTATTGATGAAATGTTTAATGGAGCCCACGACTTGATAAAAATTGTAATAGAAAATAATCAACTTTGAATTCCTTGTGTTGATTTCTATTTAGAAAATATCAATCTTGAAGAAAAAAAAATATATCTAAAGCAACTTGAGGTTTTAGTATAATGAAATTTTCAATTATAACTTTATTTCCAAACTTAATTAATTCTTATATATCAGAGTCAATAATTAAAAGAGCAATTGAAAAAAATAGTATTGATGTAGAAGTTATTGATCTTAGAAAGCATACAAAACTTAAACATAATCAAGTTGATGATTATCAACTTGGTGGTGGTAAAGGTATGGTTTTAATGGTAGAACCAGTAGTTAATGCAATTGAAAGTTGCAAAAGGGAAAATAGCTTAGTAGTTTTAACAAGTCCTCAAGGTAAAACTTGAAATCAAAATTTGGCAAGAAAATATTCTTTAAATTATGAGCATATAATATTAGTATGTGGCCATTATGAAGGTTTCGATGAAAGAATTTTAGATTATGTGGATTTAGAATTATCAATTGGTGATTATGTTTTAACAGGTGGAGAAATAGCAAGTATAGTTATTTTAGATTCTATAACTAGATTATTAGAAGGTGTCATTGCAAAAGATTCCCATTTAAATGATAGTTTTGAAAATAATTTATTAGATCATCCAGTTTATACAAAACCAATTGAATTTAGGGGTAAAAAAGCTCCTGAAGTTTTAACAAGTGGACATCATGCAAATGTTGAAAAATATCGTCAAGAAGGTCGATTAAGAAATACTTTTAATAAAAGACCAGATCTTTTAGAAAAAAGTGAATTAAGCAAATCAGATTTAGATTTTATAGAAAAATTAAAAAAATTGAAAGGAGATAATTAATTATGAATATGTTAACAAAAAACACAAAAGCATTAATTGATGAACAATTAAATACTAATCTTCCAAACTTTACATCAGGAGATACTATCAAAGTTAATGTAAAAATTAAAGAGGGAGAAAAATTCCGTATCCAAGCATTTGAAGGTGTAGTTATTAAAACTCAAGGAAGTGGAATTTCATATTCAGTTTGTGTAAGAAAAAATTCAAATGGAGTTTTTGTTGAAAGAACATTCCCAGTTCATTCACCAATTATTGAAACAATTGAAATAATTAAACGTGGACGTGTAAGAAGAGCTAGAATTTACTATATTAGAAAATTAACTGGAAAAGCTGCACGTATTAAAGAAGTTATTAATAATAAAGCAAAAGATGCTTCAGCAGTTAAAAAAGCAGTTAAAAAATAATTATTTAATTTAAAATCTTTCAATTATTTGAAAGATTTTTTTGTTTCTATTTAATTAATTTTTAAAAAAGGTAAAATATTAAATATTAAGAGGTGCTTGTTTTTTATGAAAAATTACTATGAAGATATAATGCAAAAAATTAATGAAATTATGAGCAAAAATGATTATGATGAGGCTTTCAAAATTGTTTGTGAAGAATTAAGTGCTCCGTATGTCCCTCAAGATTTTGAAAAACAATTAGAACAAATGCAAAAAATTATAATGGAAAAAATTAAGTTTGAAGAAAAAAACTTTACAAATTGAAATACGGAAAAAGTTGCAAATATTATGGCAAAAAAATTAGACCAAGATTCTCATTTAATGGCATTTGATGCACTAAGAGGATTAAATGCCAGATTAATTTTAGAAGATATTAAAGCTTACTTATTAGATAGTGAAATTAAACCAGAGTATAAAACTTTTTTAATTATGGTTTTAATTGAACAATTAGTCGATCAAGAAATATTGATTGAAAAGAACGGTAGCAAGATTTCAATAAATCCCGCAAAGTATAATTTGAGAGAAGCACAAGATATTTTAAAAGATATTGAATTAAAAATAGAACAAACTATCTATGATTCAAATCCAAGTCTATTTACAATTTGTCAGCATATTGCAAATACTTATTTTTATAATGTTTTTCCAATTTTAAATTTTGACAAATTTACTTTAAATGATTTAGCAATGGCAATTATTATGAAAGCATGTGATTCATTAGGAATTGTTTTAGAAGAAAGTTTAGAATTAAAAATAGATTTTAATAAGGAAAATACAATGATATTATTAAGTGAGTTAAATAATATCATTTAAAGAAAAGAGGTAAAAATTATGATAAAAACAACTTTCACAGAAGAAGATTTTGTAAAATATAATGACCCAAAAAGCGTTATGATGCAATTATTTGGAGTTACTTGTTCAGTTTGTGGAATTGATGAAATTGATTATGTAGATGAAAAGGCACCAAAAACTTTAGGACAGATTGCTAAAGAAATATTGGATGAAGATCCAGAAATTGATGATGATGAACTAAATGACATGATAGAGCCTCAAATTGATGCATGACAAGAGTTAGATGATTATAATGCTTCAATTGGTATGCCAACATTTTTATGCCATAACTGTTATACTCAATTAATTAATGGTGAAATATCAATATCAATGAATGGTGATATTGTAGATTAAAAAATAAAAAGAGGAGAACTTAGTTCATGAAATTTGTAGATTTAGCGCATTTTAATATCAAATCTGGTAAAGGTGGCGATGGAGCCGTTTCTTTTCGTCATGAACTATACGTAGCAAATGGTGGACCTAATGGTGGTGATGGGGGTAAAGGTGGCGATATTATTTTTATAGCTGATGAAGGTAAGTCATCACTTTTAGATTTAAAATTACAGAAGTTTTATAGTGCAGAAGATGGTTTTAAAGGTGACATAAAAAATATGCACGGTAAGAATGGGAAAGATACCTATATTAAAGTTCCAGTAGGAACAATTATTTATAATAACGATACTAATGAATTATTATTCGATTTTATTAGTGATGGTCAACAAGAAGTACTTGCTCAAGGTGGTAAAGGTGGCAGAGGAAATGCAAGATTTGCAAATTCGAGAAATAAAGCACCTACAATTTTTGAAGCTGGAGATCCAGGTCAAGAAGTAAATATTAAAGCAGAATTAAAAGTATTAGCAGATGTTGGTTTTGTTGGTCTCCCTAATGCAGGTAAATCTACTTTATTAAGAGCGATTTCTAATTCAAAACCTCAAATTGCAGATTATCCATTTACAACTTTAAATCCCCAGCTGGGAGTAAGTAGAGATAAAAGTGGAAGAACTTTTACAGTTGCTGATTTACCTGGTTTAATTGAAGGAGCAAGTTTAGGAAAAGGTTTAGGACATGAATTTTTAAGACACATTGAAAGATGTAAAATAATTTGTCACGTTATTGATATGTCAGGAAATTACGCAACTGAAGATGTTATCAAAAATTATGAATTAATTAGAAAAGAGTTAATTGAATATAATTTTAATTTAGAAAAAAGAGTTGAAATTATTGTTGCTAATAAAATTGATATTGATGAAGCAAAAATTAATCTTTTATATTTTAAAGAAAAATATAAAGATAAAAAAATTATTGAAGTGTCAGGATTAACTAAAATTAATATTGATGAGTTATTATTAGAGATTGGTTCTACTTTGGAAGTTGTTAAAGATATTCCTTTATGAGAAATTAAAGATGAAAATCCTCAAGATTATAAAGTTTATAATTTTGAAACTGATTTAAAAGATATTCAAGTGAAAAACCTTGGAAATGGTAAATGAAAAATTGAGGGAGAAGATGTTTATAAGGCATATCAAAAAACTCCAATTTCAACTTATGATAACTTACTGTTGTTTAATGAAAAACTTAAACATTTAGGAGTTTATAATATTTTAAGAGAAAGAGGAGCACAACGTGGTGATATTGTAAAGGTTTTTGATATAGAATTGGAGTGAATGGATTAATATGCAACTAAAAGAATATATAGATTATTTAGTACAATGATTACAACAAGAGGTAAAAAAAGCAAATCAAAAAGGAGTTATTGTAGGAATTAGTGGGGGAATTGATTCAGCTGTTGTTGCAGCTATTGCAAAAAAAGCTTTTCCAAATGACTATTTGACAGTTTGAATGCCATGTAACTCTAGTGATCTAGATGAAAAATGTAAGTTAGAACTAATTGAAAAATTTGATTTAAAAAATGTATCTGTTGATTTATCAAAAACTTTTAATGTTTTATCTGATTCATTAAATGATTCTGGAATTAAACAATCAAAAATTGCACTTGCAAATTCTAAAGCTAGATTAAGAATGACAACACTTTACTCAATGGCTCAAACTCATAATTACTTAGTTTTGGGAACGGATAATGCAGATGAATGGCATATAGGTTATTTCACAAAATTTGGTGATGGTGGAGTTGATTTACTTCCAATAGTTCATCTTTTAAAAAGAGAAGTTAGAGAGGCTGCAAAAATTTTAGGTGTTCCTCAATCAATTATAAATAGAGCACCAACTGCTAGTCTATGAGAAGACCAAACAGATGAATCTGAAATTGGCTTCAGTTATGACTTAATAGATGATTATATTAGCGGTAAATCAGTTGATAAAGCAGTAAAAGATAGAGTTGATTATTTACACAAAATTTCTGAACATAAAAGAATTGGTGCTCCAATACCTAAAAATATTAGATAGTTAGTGATTGAAAATATTAAGTTTAATCACTTCTTTTTTTTTTTTTTTTTGATAAAATGGCGGTAAAGGGGAAAAATAAAATGAAAAAATTATTAGCAGTACTTGGTTCAATAACATTAATAACTTCAAGTTCATTTACAGTTGTATCTTGTTTTGGAGGTAAAACAGACACATCAGAAGATAAAAAAACAACTTGAACTGATGAAGAAATTTTGCAGAGATTTGGTTCATTAGAAATTAATCAATTAGAAAATGGTGATTTAGAGCTATCTTCAAAAGAAGATCACTTTAAAATTTGATCAGGATCAGATGATGGAAATAAGTATCAAAGAGTTGTTAAAAGTCAGGATGTAGAAGGAATTAAAGCTAATTTTTTATATGATAGTTTACTTCCACCAGAAGCAAGTTTAGAAAATCCATTTGGAATTGAATTGATGTCAGCATTTTATGTTGGTAAAAGTGAAGAGGAAGTTAAAAATGCATTTCCTAAATCACACAGTAAAACTGTATTAGAATTTGGCTCAGAAATGACATATGATAATCAATTTAAATGAAGAAATAAAAATGCTTTTTCAATATTTTTAGGTTCAGGACCAAGAGAAGGTAATACTTTTTCATGTACAAGAATGTGATCTAAAACAATAAAAGTAAAAACTAATCAAGGAGAAGATATGTATGTAGGCTTATTTTCTCTATATGTAGATTATTTTGTAGGATATGTAACAACTAATTTAAGTTCTTGAATGAAAGATTTTTTTGAAGAATATAAAAGTCAATTAAAGTCTCCTAATTTAGAAATTGTAGAGGAAGTAAATCAAAAACAAGAGATTATTGCTAATAAGGATAATCAACATTTAAAATTAAAATTGAGTAATGCTGAGTTTACATTTAATGATTCAATTAAATATAAAAATGATGAAAATAGAAAAATTAATGCAGCACTTAATTTATATCTCAATAATAAAATTTGAAATCATTGAGAAGAATTTAATTATAAATATGAAGACTCAGATTATGATGGATTTAACTTTTTTGAAACAATTGACTCAGAAAAACCTAATAGTGATAATCATTATAATTATGGTTTTGAACTATCAGGTCCAAATCAAAAAAGATGAGATTATAATAGTATAATTTATACAAAAATAGATATAGTAGAATAACTAAATTAAGGGGAAAAATAAAATGAAAAAATTATTAGCAGTACTTGGTTCAATAACATTAGTAACTTCAAGTTCATTTACAGTTGTATCTTGTTTTGGAGGTAAAATAGACCCACCAGAAGATAAAAAAACAACTTGAACTGATGAAGAAATTTTGGAAAGATTTGGATCATTAGAAATTAATCAATTAGAAAATGGTGATTTAGAGTTATCTTCAAAAGAAGACCACTTTAAAATTTGATCAGGATCAGATGATGGAAATAAGTATGAAAGAGTTGTTAAAAGTCAGGATGTAGAAGAAATTAACACTAATTTTTTATATGATAGTTTACTTCCACCAGAAGCAAGTTTAGAAAATCCATTTGGAATTGAATTGATGTCAGCATTTTATATTGGTAAAAGTGAAGAGGAAGTTAAAAATGCATTTCCTAAATTACACAGTAAAACTGTATTAGAATTTGGCTCAGAAATGACATATGATAATCAATTTAAATGAAGAAATAAAAATGCTTTTTCAATATTTTTAGGTACAGGACCAAGAGAAGGTAATACTTTTTCATGTACAAGAATGTGATCTAAAACAATAAAAGTAAAAACTAATCAAGGAGAAGATATGTATGTAGGCTTATTTTCTCTATATGTAGATTATTTTGTAGGATATGTAACAACTAATTTAAGTTCTTGAATGAAAGATTTTTTTGAAGAATATAAAAGTCAATTAGATTCTCCTTATTTGAAAATTCAAGAAGATATAAATCAAGAAATCAATGATACTAATGCAAATAATCAGCATTTACATTTAAGATTTGAAAATGCTAACTTTAAATTTACTCAAAAAATTAATTATAGAGAAGATGAAAATGAAGAGATAGAAACTATGAAAGTATCAGAAGCATTAAATTTATACCTTTTGCATCAAATTTCATTACATCATTATGGATTTAATTCTAAAAATGAAAAATCAGATTATAGTGGTTTTAAATTCAATTGGGATTTGGACTTAGAAGATCCTAATAAGGAGGATTATGATAATCATTATAATTATGGTTTTGAACTATCAGGTCCAAATCAAAAAAGATGAGATTATAATAGTATAATTTATACAAAAATAGATATAGTAGAATAACTAAATAAAGGTGAATAAAATGAAAAAATTATTAGCAGTACTTGGTTCAATAACATTAGTAACTTCAAGCTCATTTACAGTTGTATCTTGTTTTGGAGGTAAAATAGACCCACCAGAAGATAAAAAAACAACTTGAACTGATGAAGAAATTTTGGAGAGATTTGGATCATTAGAAATTAATCAATTAGAAAATGGTGATTTAGAGTTATCTTCAAAAGAAGACCACTTTAAAATTTGATCAGGTTCAAATGATGGAAATAAGTACAAAAGAGTTATTGATAGCGAAGATGTAGAAAAAAATAGTGTTAATTTTTTATATGATAGTCTACTTCCAACAGGAGCAAATTTAGAAAATCCATTTGGAATTGAATTGATGTCTGCATTTTATGTTGGTAAAAGTGAACAGGAAGTTAATACTGCACTTGCAAAATCTCACAGTGATGCCGTTAAAGAATTTGGCTCAGAAATGACAAATAATAATCAATGAAACTTGAGAGAAAAAAATGCTTTTTCAATATTTTTAGGTTCAGGACCAAGAGAAGGGAATACTTTTTCATGCACAAGAATGTGATATAAGACTATAAAAGTAAAAACTATTCAAGGTGAAGATATGTATATAGGCTTATTTTCTCTATATGTAGATTATTTTATAGGATATGTTACAAATAATTTAAGTTCTTGAATAAAAGATTTTTTTGAAGAATATAAAATTCAATTAGAGTCTCCTAATTTAGAAATTAAAGAGCTTGTAAATGAAAGTGCAAATATTAGTACAAATCCCAATAACCAACATTTAAATTTAAAATTTTCAAATGCTAATTTTAAATTTAATGGGATAATGGAATATAAGAGAGATGAAAATTCAGAACTTGAAAGTATAAAAATTTTTTCAGCACTTAATTTATATATTAAAGATAAAATTTGAAATCATTCGTATGAATTTAATTCTAAATATGAAAACTCAAATTATAAAGATTTTTTATTCGATGATAGAAGCGATTTAAATGATCCTAATAATGATCCTGAGACACATTATAACAATGGATTTGAAATATGAGGTCCAAACAATAAGAGATGAGATTATAATAGTATAATTTATACAAAAATAGATATAGTCAACAAAGAGGAAAAAAATAATTTTTAGATTAAAAACTTCAACTTTAATAAGTTGAAGTTTTATTTATATTTTTAAAACTCTTAAAATTTAATTAAATTCTTAATTATTAAAACTTTTTTACATTAATAGACGTTTTTGTTAGATAATTAAATAAATAAGGAGAACTATAAAATGACAGAAGTACAAGCAAATAGTATAAGTGAATATATTGATAATTTACCTGATGAAATAGCAGATAAGATGTTTGAGGAATTAATAGCAGGTATGAGTTTATATTTTGCAATCGTTTTATTTGGTGAAGAAATTGAAAAAAATTATGAACCACTAAAATTAGACGGTAAATCTCTTGAAGAAATATCAAGAGTTGTTAAAGAAAACGAAATAGGAGAAGAAGAGGTTTATTCTGCATTAATGGGTTCATTACAAGAAGAATCAGATGCTGAATTATTTGCAGAAGATTGTGTTCAATCAATTGCTTTTAGTCCTGAATTTCCTAAAGAAGTTTTAGCAAAATTAGAAGAATTAAATATTGAAATTAATGATTTTTCAATGAATTTAATTGTTACTTTAAAAGATGAATTTATTGACTTTTTTGTTAATGATTTAGATATTCAAGAGTGAAAAAACGATATTATTGATGCATTAGTGGCAAGCTGAGACTAATAAAAAAAATAAAACTAGATTTAAAAAAATCTAGTTTTTTTAATAAATATGATATTATAATATTAATTGTAGATAGGGTATTTACAGTTGGGCTAAAAAAGGTGATTGTTATGAAAACACTATTATTAAGTAAAACAAATTTTAAAGTATTAGACTTTAGTCTTCCTTTATGAGTTGTATTGCTAGTTTTTACAATAATTGCATCTATTTCTTTAACTATATATTTTTTGATACTTTTTAGAAAAAATAGAAAATTTTATTTTGAAAAAGAACAGGTATCAGCAGATGAATTTAAAAGACTTGAAAAATTTGAAATTCAAAGAAATAATTTTGAGCTAGAAATAGCAAAAATTAGAAAAATTCAAAGAGATAGAATAAAAAAATAAAACCTTTTTATGCTCATAAAAAAGGGGGCACTTTTTATGAGTGGATTAATAAATCCAATTAAAAATGAAGAATTAAATGATAATCAAAACCAACAAACAGTTGGAACTTTTGCGTTGAATTCAAATCCTCAAAATAACCCTAATTATTTTAATGAAACAGCTATTTATCAAAAAAATTTAATTGAAAATAAAAACTCTGGTTATATAAGACCAAGACAATTAAATTTTGATAATAGTTATCAACAAAATAAAATGCCAGAATATAAAAGAAGCGAAATTAGAGATCCCAATGAAAAAGTTTATTTTCAAAATAATCAAAGGGATTTTATGCAATATCAACAACCACGATATCAACCATCTCAAATACAATCTTATGTAAATTATCAAAATCAATATAATAATAATCTAAAACAAGAACGTTTAGATTTTGAAAATATGTCAAGAATTAACTATGGAAATTATAGAGATGAAAATCAATATAACAGAATGGTTTATCCACCAAATAATCAAATTAATAATATTCAAAGAAATGAAATTTATAGTAATAAACCTCTATATGAAAATTATCATATGCCAAATAATAATATGCAATATGGCTATAATGATTTTTCAAATAATAATCAATTTTATAATCCAAATCCAAATTTTGGATATAATCCAGAAGTTGATTATGCACCTGTAAGTTCAAACAACTATAATCCATATGAACATAATTCATATGGACAAAGAATGAAAAATGCAAATATTATTCCTAAAGAAATTGCAAGAGAAATAAGAAGTGAAAAATTAAGAATATTTTTAATATTCTTAATAGGAGTTGTTGGAATAATTACAAGTTCAATTATGTTAGCAATATATTATAAAGCTGGTGAAGCAGGAACTTACATGGGTGTTGAGAGAGCAAAAGTTATGTATCCATTTTTCTCAATTACTTTATTAATTGTGGCTTCAGGATTTTTTATAACAAGTTTAACTGATTTTGCTTTTATTTACTCAAATGTGAAAAAATATGAAAAGGACCTTTTATTTGGCAAGGAACTCGTACCTTATTTCATAACAAGAAATTATAGAAGTTTAATTTCAAGAGGAGTCTTTTTAAACTGAGTCGCCTTTTGTATTTACATCTTTGGAGCAATTTCATTGGGAATAATGTATGGTTTACAAAGTAAATTTTTAAATGGGGGAAAAATTTATTTCTTCTTTTGAGAAGTAAAATTAAAATCATTAGATTCAGAAATTAAAACAAATATTGTTATTTTATTTATTACTTTAATAGTTCATGTATTAAACATTGTAACAACTAGAACAAGAAAAAATAATTTAATTGGATATTATGGTTATGAAATAATACCACAACATGAAATCAAAGAAATTAGAAAAAGAGCAAATAAAATTTGTATGATAATATTCTTTACTTCAATGGCAATTATTTTATTCTTAATTGTTATACCTTGATTAATTATTAGAAAAAAAAGAGGTCTTTCATTAACACCATGAGGAGCAATAAAATAATTGACAGAAAAATTAATAGTTTGTATGTTCACATTCCATTTTGTGAACATATTTGCTTTTATTGTGATTTTGTAAAAGTTAAAAAACCCCAAGATCCCCAAGTAATTGAAAAGTATTTAGATAAAATTGAATTAGAGTTAGAATCATATAAAAATAGACTAGATGATGTTCAAAGTATTTATATTGGTGGGGGAACACCTAGTTGCTTAAATGAAGAACAAACAACAAGAATGTGTACAATTCTTTCAAAATATACTAACAAAGAAAATTTTGAATATTCAATAGAACTAAATCCTGAATCAGTTACAATAGAAAAATTAAATATTTATAAAAAATTTAACATTAATCGAATCAGTATGGGAATTCAAACATTTGATAATGAACTTCTAAAAAAAATTGGAAGAATTCATGATAACTCGTTGGCAATAAAAGCTTATAAATTAATTAAAAAAGCAGGCTTTAAAAATGTCAGTATTGATTTAATGTATAATTTATATGATCAAACTAAAAAAAATATAGCAACAGATTTGGAGTATCTTAAAGATTTGAAACCAGATCATATTTCTTGGTATTCTTTAATAATGAAAGAAAAATCAGTTTGAGGAAGAAAAAATATGAAAGTGCCTGAAAATGATGAACTTTTTGATGAATTAGTTAATCAAGGTCTTAAAGATTTGGGCTACATTAGATATGAAATTTCGAATTATGCTTTAGGCAAAGATAATAAATCACTTCATAATATTAGTTATTGAAATAATTCTACTTTTGCTGGAGTAGGTATTGGAGCTACAGGTTTTGAACAAATTGAAGGTAAGTATTATTTAACTAAAAATGAAGGTAATATTTTAAACTATAAAAAAGAATTTGAATTACTTTCTCAAGAAGATTACTTTTTTCAAATTATAATGATGGGCTTAAGAATGGTAGAGGGAATTGATATTTCCTTAGAAAAAAACAAAGATATAATTGATTTTTATCAAGAAAAAATCCAAGAAAAAATTAAACAAAATTTATTAGAAATAGTTAATAACAATCTTAGATGTACGGAAAGGGGATTTAATATCTTGAATGAGATATTAATTGATTTTTTATAATATGAAAAAAGCTTTAATTGTAGTTGATTATCAATATGATTTTGCCCATCCATTGGGAAAACTTTATGTTCCTCAAGGAGAGTTAATTAAAAAAGAGATTGAAAATAAAATCATAGAATATAAAAATAATGGAGATTATGTTATTTTTTCAGGGGACTTTCATCCACAAAAACATGTTTCATTTAAACAATGACCAGAACATTGTGTTGTTGGTTCAAAAGGTGCAGAATTTTTTGTTGATTCATCAAATGTTGATTTAATAATAAAAAAAGGAACTAAACTAGAATATGATAGCTATTCTGCTTTTTATATTTCTAAAGATACAAAAAATAGAGAAGAATTAAATGTAGAATCACAATTAGATTCTTGATTAAAAAATAAAAAAATTGAAGATTTAGAGATTTGTGGTTTAGCATTAGATGTTTGCGTTCAAGCAACATATGATGATGCTATTAAAAAAGGATATAAATCTGTAATAAATTATAATCTTTGTAAAAAAATAAAATAAAGTATCGATTAATTGTTTGGAGGATTATATGCTTGAACAATTAAAAAATATTAACAATAACAATTTTGCTCTTTTAAAAGTAGTAAATAATGATAATTTTGTTGATTTTAAAGATATTATATATAATTTTTTAAATCAGCCTCAAATAAGAATTGAAAAGAAATATGATATACTTTTTTCTCAGGCTTTTAAGATTAATTGTTTTAAAAAGGTCGTAAAAGAATTGGAAAAAGAGTTTACTAAAAATTATGTTTTATGAAAATTAACTGAAAATATATCTTATTGAACATCAATCTTTTTTTCAAGTAAATTTTCTATAGGAAATGGAATGATAATTTTACAAAAAATATTCATTTTAAAACAAATTTTCTTAGTTCAATTAAGGTACAATTCAAATATTTGATTGAAATTAAATAAAAAGCAAACTGAGAAAATTAAGCCCTCTAAAAATTTAGACAATATTAATTACAAGTTACTTTTATTATTTTGTGATTTTAATGAAAATGAGGATTTGAGAAGTCTTATTACTAAAGAACAAAAGGAACTTTTAAATTTAGTTTTAAAATCAGATAAAATTGAAGATTATGTTGAATTGAATAATAAGATCAAGATAAATATATTTAAATATTTACCAATAAATATAAAACTTTTTCAAGGTGAAGTAACTAGATTAACTTCAAAATTAAATAAAAAAGAAAAAGCAAAGTTAGCTTATGTTACATTTATGCAACTTTACTGTATTTTTGTTGAAGAAAATTATATTAATAAAAATTAAAAAGACACCATTTATTTGGTGTTTTTTTGTTAAAAATTTCAAAAATTAGCACTTAAACATTGACATTGCTAAAACAAAATGTAATATATTATTGATTAGCAATTAGATACATAGAGTGCTAATTAAGAGGAGGAATGTTTATGGATTTTACACAAAAACCAGATCCTTTAAATGATCCAGAAATCCTAAATAAATATACAAGGGATTTAACAAAGGATGCTAAAGAGGGAAAAATAGATCCAATCATTGGTAGAGATGATGAGATTATGCGAGTAATTAGAATCTTAAGTAGAAAAACCAAAAACAACCCGGTTTTAATTGGAGAACCTGGTGTTGGTAAAACAGCTATTGCAGAAGGTTTAGCTCAACGTATAAATAAAGGTGATGTTCCAAGTGTTTTGAAAGATAAAAAAATTCTAGAACTAGATATGGGAAGTGTCATGGCTGGTGCTAGTTTTTTAGGAGATTATGAAGCAAGAATTAAGGGAATTGTAAATGCAATTCAAAAAGAAAATGGTCAAATAATATTATTTATTGATGAACTACACTTAATTGTAGGAGCAGGAAAAACTGGAAATGGTGGAGGAATGGATGTATCCAATTTACTAAAACCATCTCTTGCAAGAGGTGGTATAAAAGTAATTGGAGCCACAACTTTAAAAGAATATCGAGAGTACATTGAAAAAGATGCAGCATTAGAAAGAAGATTTCAAAAGGTGATTGTAAGTGAACCTACTATTGAAGAAACAATTTCAATTTTAAGGGGCCTAAAAGAACGTTTTGAAACATATCATGGAGTAAGAATCCATGATAATGCTTTAGTAGCAGCAGCACAATTAAGTGATCGATATATTTCAGATAGATTTTTACCAGATAAAGCAATTGATTTAGTAGATGAAGCTAGTGCAACAATTAAAACAGAATTAGCTTCAGTTCCTACAGAACTATATCAAATTGATAGAAAAGTTATGCAATTAGAAATTGAAAAAGCAGCTCTTTCTAAAGAACAAGATGATAAGTCAAAAGAGAGATTACAACAAGCTGAAAAAGAACTTAAAAAATTAAAAGTTATACAAGCTGATTTCAATAATAAATGAAATTCTGAAAAAAAATCATTAGAAAAAATTAATCAATTTAGATCCACAATTGATAGTTTAAAAATAGAATTAGAACAAGTTCAAGCACAAGCTAATTATCAAAGAGCTGGAGAAATTCAATATTCATTATTACCTGCATTGGAAAAACAATTAAGTTCAGCTTTAGATAATAATAAGGAAAAATTGATATCTGAAGAAGTAAGTGAAACAGAAATTGCTTCAATTGTTTCTAAATGAACTGGAATTGAGATGGAAAACCTAATTGAAAGTGAAAAGCAAAAGCTTTTAGGTTTAAGTACAGCACTTAAAAAAATGGTGAGGGGTCAAAATCAAGCACTTGATTTAGTCTCTGATGCAATTATTAGAAGTAGAAGTGGAATTAAAGATCCTAATAAACCAATAGGAAGTTTCCTATTCTTAGGTCCAACTGGTGTTGGTAAAACTGAGGTTGCAAAATCACTTGCAAAAAATTTATTTGGAAGTGAAAAGAAAATGTTACGTTTTGATATGTCAGAATACATGGAAAAACATTCAGTATCTAAATTATTAGGTTCTCCTCCAGGTTATGTTGGTTATGAAGAAGGAGGTAAACTTACTGAAGCTGTTAGAAGAGCTCCATATTCAATATTATTATTTGATGAAGTAGAAAAAGCTCATCCGGATGTATTTAATATATTTTTACAAATTTTAGATGATGGTAGAGTTACTGATTCACTTGGTAAAACGATAGATTTTAAAAATACAATAATAATTATGACTTCAAACATTGGTTCTGAATATTTAATTTCAACACCACCTGAATTAATTGATCAAGATATTCTAACTGAAAATTTAAGAAAATTCTTTAGACCTGAATTTTTAAATAGAATTGATAACATTGTTAACTTTAATGCTTTATCAAAAGATGTGATTAAAGAAATTATTATAAAAACTTTGGATGAATTAAAGGAAAGAGTTTTATTAACAAATGAATACATAATAAACTTCACAGATTCATCAATTAAAAAAGTTTTAGAAGAAGGTTATGATCAACAATATGGTGCTCGTCCAATTAAAAGATATATCGAAAGAAATATTGAAACTTTAATTGCAAGAGCTATAGTTTCAGGGGAAATAGAACCAAAGAGAAATTATGTAATTGATGTTAATAATAACAATTTTGTACTATCAACTTCAAATAAATTAAATTAGCACTTGATTATTAAGAGTGCTATTGATAAACTAGAAATGTATTGTTATGGAGGTGTTTTTAATTGTTAACAAAACGTCAAAATTTAATTTTGAAATCTATTATTGAAGAATATATTAAAACTGCATTACCAGTTGGTTCTAAAAGAATTCAAGAGGTTTTAACAATGGAAGTATCTTCAGCAACAATTAGAAATGAATCAGCATTTTTAGAAGAACAAGGCTTTTTAGAAAAAGCACATACGTCTTCAGGAAAAGTTCCTTCAACAAAGGGTTATCGATATTATGTTGATAACCTTATGGAATCAAATAATATTGAAGATATCAAAGTTCAAATCAATGAAATTTTTAAAAAAAGAGGAGCGACTATTGATGAAATTTTAGAAAAAACTTCATCAATATTAAGTGAGATGACAAAGTTAGCAACAGTTGTTGCTACTTCAGAAATTAATGGAGAGTTGCTTTTATCAAAAATTGAGTTAATACCAATTTCAAGTAAGTCAGCAGTAGTTATATTTGTTCTTTCAAACGGAGCAATTGAAAATAAAAATATAAGTCTTGATTCAATAAGTTTAGAAGAATTAAGATTATCAATTGATTTATTTAATGAGAGATTAATAAACTCAAAAATTTCAGAAATTGAAACTAAATCTCAGGCGATGATTCCTGTTTTAAGACAACAAGTTAAAAAGTATGAATTTGTCTTACAAACTTTAATTGGTGCGTTGATTCATACCGACTCAAATAAATCAAGAACAAGTGGTGTCAAATATTTATTAGAAAATCCAGAGTTTAATGATGCAAAAAAAATAAAAGATATTATTCAATTTATTGAAAATGCTTCTCCTTTTGTTTGATTTAATTATCAAAGTAAAACAAACAAAACCACTGTTGCTATTGGTTTAGAAACAGGTAATCAAAATGATGATATTGCAGTTATTGGAACAAACTTCCCCACAAAAGGTGGGGGCAAAGGTGCTTTAGCTCTAGTTGGGCCTAAAAGAATTGAATATGATAAAGTATCAAAACTTTTAGAATGAATAAGCAATAAAATCGAAGAAAAATTTTTGTTGGAAGGAGAATAACAATGGAAAAAGAAAAAATGAAATCAATTTTAGATTTATTTGAAAATATTAAAAAAGAATTAAAAATAGATTCAAAAGAAAACAAAGATCAAAAAAACAATAAAGATCACAAAGAACAAAAAAATCCTCATGAAAATAAGGACAGTAAAGAAAATAAGGATAAAAATCACGATAAAGAAAATAAAGTTGAAGAACTTACTAATATTGAAAAATTAGAATTAGAGTTTGTCGCTTTAAATGAGCAAATTGCAAAACTTGAAGAAGCAAGATTAATTGCAGTTGCAGATAATCAAAATACAGTTAGAAGATTCCAAAATGAAAGTGCTTTGGTTAGAAAATATGGTGGAGAAAAATTAGCCTCTGAGTTAATTCCAGCAATAGATATGTTTAGAGGAGTTTTAAAATCAACTCCTGATAATCCCGAAATTAAAAATTATTTAATGGGATTTGAAATGATTATTAATCAAATTGATCAAGCATTAACTAATGCTGGGGTGACAATGGTTGTTGTAAAACCAGGAGATGATTTCAATCCAGAAGTGCATTCTGCAATTGAACAAGTAAAAAGTGAAGAGTTTAAATCAGGAAAAATAGCAATTGTTGTTTCAAATGGTTATAAACTACATGATAGAGTTATTAAACATGCAGCTGTAAAAGTTGCAGAGTAATTTAGAAAAATATTAAAGGAGAGATTAATTATGGCAAAAGAAAGAATTATAGGAATAGACTTAGGTACAACAAATTCATGTGTAGCTATTATGGAGGGTGGACAACCAATGGTGCTTGAAAACCCTGAAGGTCAAAGAACAACACCATCTGTGGTAGCATTTAAAAATAGTGACATTATTATTGGAGGGGCTGCCAAAAGACAAGCAGTAACAAATCCAAATACAGCAATATCAATTAAACGTGATATGGGAACAAATAAAAAAAGAAATTTAGAAGGTAAAGATTATTCACCAGAACAAATTTCTGCTGAAATTTTAAGATATTTAAAAAAATATGCTGAAGATAAAATTGGTACAAAAGTAACAAAAGCTGTTATTACAGTACCAGCTTATTTCAATGATGCTCAAAGAAAAGCAACAAAAGATGCAGGTAAAATAGCAGGTTTAGATGTTGAAAGAATTATTAACGAACCAACTGCAGCTGCTTTAGCATATGGAATTGATAAACAAGATAAAGAAATGAAAGTTTTAGTTTATGACTTGGGTGGTGGAACATTTGACGTTTCATTGTTAGAATTAGCAGAAGGAACATATGATGTTTTATCAACTTCAGGAGATAATGAATTGGGTGGAGATGACTTTGACCAAAAAATTATGGATTGAATTGGACAAGAAATTAAAAAAGAACATAATATTGATTTATCTAAAGACAAAATGGCTTTACAAAGATTTAAAGATGAAGCTGAAAAAGCAAAAATTAACTTATCAAGTCAAGTTGAAACAGAAATTAATCTACCATTTATTGCTATGAATGAAAATGGTCCAGTTAACTTTTCAACAAAATTATCAAGAGCAGAATTCCAAAAAATGTCAAAAGATTTAGTTGAAAGAACAAGAAAACCAGTTGAGGACGCTTTAAAAGAAGCAAAATTGAAAGCCACTGATATTGATCAAGTTCTTTTAGTTGGTGGTTCAACAAGAATACCAGCAGTTCAAGAATTAGTTAAATCATTACTTGGAAAAGAACCAAATAGAACTATTAACCCAGATGAAGTTGTTGCTATGGGAGCAGCAATTCAAGGTGGAGTTTTAGCTGGTGATGTAACAGATGTTCTATTATTAGACGTTACACCTTTAACATTAGGGATTGAAACAATGGGTGGAGTTATGACACCTTTAATTCAAAGAAATACAACAATTCCTACTGAAAAATCACAAGTTTTCTCAACAGCAGTTGATAACCAACCAGCAGTTGATATTAATGTATTACAAGGTGAAAGACCAATGGCAGCAGATAATAAATCATTAGGACAATTCCAATTAACAGGAATTAAGCCAGCTCCAAAAGGAACACCTCAAATTGAAGTTACATTTAAAATTGATGTAAATGGAATTGTTTCTGTAACTGCAAAAGATAAAGCTACAAATGAAGAAAAAACAATTACAATTTCAAATTCAGGAAGTTTATCTGATGCTGAAATTGAAAGAATGGTTAAAGAAGCAGAAGAAAATCAGGAATCAGATAATAAAAAACGTAAAAATATCGAACTAAAAAATAAAGCTGAAAGTTACTTGAATATAATTGAATCTTCAATGAGCGAAACAGGTGATCAAGTAAATGAAGAGCAAAAAAAACAATCAGAAGAAATGGCAAAAGAAATTCGTGAATTAATTACTAAAGAAGATTATGAAGCTTTAGAGAAAAAAATGAATGAATTAGAACAAGCTATGAAGATGGCTTCTGAAATGGCAGCTCAACAAGCTCAAGCTGGAGCAACTGAAAAACCTAAAGAAGACATTGAAGATAAAAAAGACAAAAAAGATAAAAAAGACAAAAATAAAGATGAAGAATCTAAATAATTTTAAAAAACAACTAATTTGTAGTTGTTTTTTAAAGATAGGAAGGAAGGTATATTATGGCTAAAAGAGATTACTATGAAATTTTGGGTATTGCAAAATCTTCATCTGAAGACGATATCAAAAAGGCATATCGTAAATTAGCTAAAAAATACCACCCAGATATTTGTAAAGAACCAGATGCAGAAGAAAAGTTTAAAGAAGCTACAGAGGCAGCTGAAGTATTATTAGATGCAAATAAACGTCAAGCTTATGATCAATTTGGTCACGAAGGACTAAGTGGAATGGGTTCTGGTTTTGGTGGTGGATTTGGACAAGGATTTGGTGACTTCTTCTCAAATATGGGAGGAGCTGGCGATTTTTTCTCAGACATATTTTCAAATTTTTTTGGAGGTAGAGGTGGTTCTTCTTCAAGAGGCAGATCTTCTTCAAGGGGAAAAGATGTTGTAATAAGTGTAAGTTTAACTCTAAAAGAATTACTATTTGGTGTAGATAAAGAAGTTAAGTTAGATTTAATTTCGAAATGTGATGATTGTGATGGAGTTGGAGCAAAATCAAAATCTGATATAGTTGATTGTGAAGTATGTAATGGTCATGGTGTAGTTACTGTGCTTCAAGATATGGGTATTGCTAAATTTCAAACACAACAAGCGTGTCCAAAATGTAAAGGTAATGGAAAAGAAAATAAAAACCCATGTAAAACTTGTAGAGGAAATGCAACAGTTCTTAAAAAAGAAACAGTTTCAATGCCAATACCAAGAGGTTTAGTTCCAGACCAACAAATTGTTTTAAGAAATGCAGGGAATTATTCTCCATCTGGTGGAGAACGTGGTCATTTATATGCAGATATTCATTTAAGTGGTTCTAAAAATTTAAGAATAGTAAATGATTTTGACATTAAGTTTAGATTTGATATTAGTTATCTAGATGCTATCCTTGCAAATGAAATTCCCATTAGAACACTTGATGGCAATATTAATATAAAAATACCAAAAGGTATTAAAAATGGTGAAATTATTACTGTTAAAAATTATGGATTATACAAAGGTGTTAAATCATCTCATAGAGGTAATTTATTATTAGAAGTTAATCTTGTAATTCCAAAAGATATTGAAAAAATTGAGAGAGAAAAATTACAAAGTATCTTAGATTCAACAGATTTTAAAGTAAAAAACAATTTAGAAGAATAACCTATTAGGTTATTTTTTTTCCATAAAGTATTATTTTTCAAAGCCACTAATTATTGTATAATTAGTTAGTGAGGTTTATTATGTCTGATAAAATAAAAGTTTTAAAAATTAATAAAAATTTAGCAAATAGTTATGAAAATAATTTAGATGATTTTTCTAACAATAAATTATGATTTGATGAAAATACAGGTGAAACATTGGTAACAGAATTTGATAATACAATGGAATTTAAAAGTAAAAATGTTTCAAAAATTGATCTTGTTCAAAATGCTAATTCTCATTTTTTTGCTCCAGAAAATTCCAATAATCTAAACTTTAATAAAAGTGATATCGAAAATAAAAAATATGAATCAATTAATCTTATAGACAAAATGATTATGCCAAGAAGATCTGATATTAGAAAAGAAATTATTGATATGAGAGTAAGAAGTTATGAAAATGAAAAAAATGATAAAGAATATCTTCTTAATCAATTAAATAATGATTCAAAAATGCCTAATAATTTTAGAAATTATAATTTAGCTAAAAATGAGAATATAGTATCTAACAATAATTATTATGAAAAAAATATAAGAGAGCTTGAAAATTCTTTAAATAAAAAAATTGATGATATCAAAAAAACAGTGGAAGTAACTTCAGAGCAAATAAATGAAATTTTTAATTATAATAATGAAATTATTATGAAAAAAACTATTAAAGATGAAGACAATAAATTGATTAAATCATCAAATAAAGCTCAATTAGAAATAAATGAAAAACCAAAGTCATTATTTTCTGAAATAATTAATGAAACAAAAATGATTTCTGATGTAAAAAGCTCAGGTGAGTCAATTTTTTTACTTAATGATGAAGGAAAGACAACTTCAAAAATTGAAAATGAACAGTTACCAATAAACGAAAATGTAATTCAAGAATCAACAATTTCTAATTTAAATACTCAAGATTCAACAGTTTTTGATTCAGACAAACAACAAGCATCAATTTCTGAATTAAATGTTGAAAAACCACAGATTCTTCAATCAGGTGAAGATAAAGAAGGTTCAATTTTTGAGTTAAATAAACAAGAAGGATCAATTTCTGAATCAAAGATTGAAGAAACAAGTGAAGATAAAGAAGGCTCAATTTTTGAGTTAAATAAACAAGAAGGTTCAATTTCTGAATCAAAGATTGAAGAAGCAAGTGAAGATAAAGAAGGCTCAATTTTTGAGTTAAATAAACAAGAAGAATCAATTTCTGAATCAAAGATTGAAGAAGCAAGTGAAGTTCAATTAAATAATCAGGAATTGTTAGTTTCTGAAGTTGAAAAAACAGAATCAATAAAAGAAAACATTGAAGAACAAAAACAAGTTAAAGTAGAATCAAATTTTGCTAATGCAACAGAATTTTTTGAAAGTCAATTAGATGATGAAAAGTTATTAGCAGCAAACAGACTATTAGTAGAAAATAAATTATTAACTGAAAATAAAAGATTAATTGAAGAAAAATTATTAATCGAAAATAAACTTTTAGCAGAAAATAAGAGATTAACTGAGGAAAAAATTTTAATGGAGCAAAAATTTTTAGCTGAAAAAAAATTAAAGGAAAACGAACTTGAAAAAGAAGATAGTTTAGTGGAAAAGAGATTGTTGGAAGAGAAGAGAAAAATTTCAGAAGAACAATGATTAACTGAAAGAAAACTTTTTATTCAAAATAAATTAGCAGAAAAAAGAAGGTTAGAAGAACAGGGAAAAGTAGTTGCAAAAGATGAAATAATTAGTGATAAACAATATATGCTACAAGCAAATGAAATTGAAATAGAGGATAACATTGTAGAAGAAAAGACTGAATCACAAGCAATAAAATCTCAAACTAATTCAAAACAGGAATTAGATAATATTGTTCATGTCAATTTTGAAGATCAAAATACTAATAAAAAAAATAATGATAATATTTTAAATCTTAATAGAACACTTCCAAGTGCAGATTTAGATACAAAGGAATTAAACTCTTTCTTTAAAGAAGATAATAATTATTCATTGCCAGTAATAAATAATTCTGATTATACAATTGCCAATACAGTGGATGATCTTCAAAAAGCTTTTAATAATCTTGAAAATAGAAATAAAAAAGATCAAATGAAAGCAAAATTTTTTGAAAAAGATGGTGGAACAACTCAACTTGTTGAAAGTTTACAAAAAAAATCAAAAGAAAATAAGAAAAAAGAAGCTTCAAAATCTTTCGACTTTGATTCTTTTGAAAATTGATATAATGATTCAAAAGTAGATAAAAAAATTAGTAAATTAACAAAAAAGGAACTTAAAAAAAAGAAATAAAATAAGGCGAGAATTATGAAGAAAAAGAAAGTTATTGTTGGTCTAAGTGGAGGAGTAGATTCTTCTGTTACTGCTGCAATATTATTGGAGCAAGGTTATGATGTTGAAGCTCTTTTTATGAGAAATTGAGATAGTAACTTAAATAATGATATTCTTGGAAATAAATTAGAGGGAGAAGTTTGCCCACAAGAAAAAGATTATTTAGATGCGATAGAAGTTGCAAAAAAATTAAATATAAAAATTCATAGAATTGATTTTATTAAAGAATACTGAGATTATGTTTTTCAATATTTTGTAAATGAATATAAAAAGGGAAGAACACCAAATCCAGATATTCTTTGTAATAAGTATATAAAGTTTGATAAATTTTTAGAGTATTCTATTAATAACCTTAAAGGTGATTATATTGCTATGGGGCACTATGCAGGTGTTAGATTTAATGATGAAATAAAAAAATATGAACTTTTTAAAGGCTTTGACGTTGAAAAAGATCAAAGTTATTTTCTTTGTCAATTAAGTCAAAACCAATTATCAAAGACTCTTTTTCCATTACAAAAATTTAAGAAAAGTGAAATTAGAGATATTGCTAAAAAGTATGATTTAATAACAGCTGAAAAAAAAGATTCTACAGGTATTTGTTTTATTGGAGAAAGAGATTTTGCAAAATTTTTGCAAAATTATATTCCAAATCAACCTGGAGATATTATAGATATTAAAACTAATAAAAAAATTGGAACACATATTGGTGTAATGTACTATACAATTGGTCAAAGAAAAGGTCTAAATCTTGGTGGTCAAAAAGAACCGTATTATGTTGCTCATAAGGATATAGAAAATAAAATTATTTATGTCTCTCCGCTTAGCGACGAGAGCTATTTGGAATCAAAAAGCTGTATAGTAGAAGACTTTAACTTTATATCTAATTACAAAAACTATTTTAAGTCAGATAAATTTGAATGTAATGCAAAATTTAGATATAGACAAAAAGATATTAAAGTAGATGTAGAAGTTATTTCACAAAGTAAAATAAAAATTACTTATAGAGAACCAGTTAGGGCAGTTACAGAAGGTCAAGAAGCAGTGTTATATCTTAATGAAATTTGTCTTGGTGGTGGAGTTATTGATAAAGTTTTAAAAAATTAAAAAAAATGAGTTAAAATAAAAATGAATTAGAAGAAGGTGTAGTTTACATGTTGCTAAGCAGTTCAACAAGTACGATTGTAATTGGAGTTGTTGTTTTAGTTGTTTTAATTTTTGTTATAGTTTCATCAATAACAAGTAAAAAGGCTCAAAAAGTAGAACAACAAAAAAGAAAGAAAGTAGTTAAAGAAGAAATTAAAAATTATCTTGCAAAGACACAAAACATAAAGAATATTAAAGTTGAATATGAAAAGGTTTATGCAAGAAAAGGTGTTGAATATAAATATAGAGACGTTTTTGACGTTGTTGTTCAAATGTTTGAACCAAAGACTAATAAATTAATATCAACAAACGCTTATGAAGTTGAGGGAATAACAACAAAATCAGGTAAAAATAATTATGTAACTGCATGACAAGTTAATGGCGAAATTGATCTTGAAAATACAAAAAGAAGAATTGCTATTGCTGAAAAAAAAGTTAAATTAACAAAACAAGAGAAAGTTGTATTAAAAAAAGAAGAAAAACAAAAAACTATTGAACATAAAACTCAAGTTAAAGAAGAACTTAAAAATATTAAAGTTGAGAAAAAAAATCAAAAAAGCAATAAGGATATTTCTCTTCAAATGGATAAAGCTATCAAAGCAACAACAGTTAAATTTATACCAAGAAGAAATAAATAGCATATTTTTTTAGATATGTTTTTTTATTTAGGGGGATTATAAAATGAAAGTAGTTACAAAAGAAGATTTTAAAAGATATATGAGTGTTTGCCCTAAAATTGCTTGAATTTTTCATAGTTTAGAGAATTTTAAAAAAATAGTTAATCTAAGAAAAAATAAGATTGTTGAAACACATTACAAAGTTGAAATGAACAGTGATGAAGATTTCAATTCGTCTTTTGGTTTTAATGCAATTGATTTGTATTCTGATTTGCTTACACAAGAAGAAAGTCTTTTAACAAAAGAACAGTTAATTCAAAAAGACTTATTGATTAAGCAATTAAATGATTTGAATGGTTTTGAAATTTCAGGTCTTCCTGCAGAAACAATTGTTGATGGTTTAGCAGTAGGTGAAGCTGCACGTGAGTATTATATTGAAAAGCTATATGAAGATAATGCCAAAAATAAAACAAACTTTGAATATTTTGATTTTCAAGATATGGAATATCATCAAACAATTAAAAAAACCAAGGAGCTTTTAGAAAACAGAAATATTAAGTATTTATTTGAACCAACTTTTGAAGCTAATGATTCTATGCTTAGAGTTAGATGTGATGTTTTAATTAACCATGGTAATAGACATGTAACAATTGTTGAATTTAAAGCATCAACTGCATCAAAAGTCGAACATTTTTTTGATGTTATGTATCAAAAAAAAGTTTTAGAAAAAAATGGTTATATTGTTGATGATGTAAATATAGGTTTAATAAACAGAGATTACATTAGAGCCACTGGTATTCAAAATGAGAGACGAGATTTTGAAGTATCAAATTTATATAATATTGATTTTGAAAATGATGTGAAGCCTAAAATTATGGATATAAAACTACCAATTAGTGGCGAATCTGATTTAGTATATTCGCAATTAATAAGAATCACAGATAAATTAGATAACTCTACAAAATTACCAAAAATAAATAGTCTAATTGATGGTATGGAAGCAAATGATTTTTATTTTGATGGGTGTATAAATGAAATATTAAATTTTTTTGAATCAGAAAAAAATTTATTTAATAGTAAGTGTCAAAAAATCAAATTTGAATATGCAAAATTAAGTTATAAAATTGAAGAAAAATACTGTCAACACGTTGTTCCATATTATGATAAAACTAATTTCAATCTTTATGAGCTTTCAGGTTTTAAAGCTTCTGCTGCAATTATTCATAGATTATTTCCAAATGATATATATATAGAAAATATTAAAAGTTTAGAGGATAGTAAATATATCTATAACTCTAAAAACTTATTTAAAGATGATCAAAAGAGAGTCATTAAGGTAGTTTCTAATTTTATTAAAAATAAAAAACTTGAAGCAAAAGATATTATTAAAGAAGGTTCCTATGAAACAATATTAAATGATTTAAAACAATATTATAAATATCCAGTTTATATGTATGACTTTGAAACAGTTAAATGAGCGATTCCTAAATATGATAATTCATGGTCTTATCAACAAATTCCCTTTCAGTATTCAATTCATGTAATTGATAATCCAAATTATGATTTTAATGATCCAATAAATACAATGAAGCATTTAAATTTTATTGCAAGTAAACAAGAAGACCCAAGACCAGAATTTTTATTAAATTTTATTAGAGATTGTTTTAAATATGGCCCTGGTGTTTATGTTGCTTATAACAAATCTTTTGAAAAAGGGGTTTTAAAAAATCTTATCTATTGTTATCCCCAATTTACTGTTCCATTAACCTATATCTATATGAATACTATTGATTTGATGGAATTTTTTAGAAAAAAATGTGACAATTGATTAATTTATCATCCTGAATTTAGAGGTTCATATTCTATTAAAAAAACTCAACCAGCTTTGGACAGTAGTTTAAATTATAAAGATTTAAAAATTAATAAGGGAGATAAAGCAAGTCAAACATTTAGACAATTTTTAGATAATATAATTAGTCAAGAAGAGTATGAAATAATTTTAAAAGAAGATATGCTTAAGTATTGTGATAGAGATACATTAGCAATGATTGTAGTGTTACAAAAAGTAGTTGATATTATTAAAGAATATAACCCAAATTTCTTAGAAGATCTTGAAAAGCAAAAGGAGGATAAGTAATATGTATAAAGTGATATTTTGTGGAACACCTAATATATCAGTTGAAATTTTAAAGGGGTTAGAAAATATTGGAGTTTCAATTGAAGCAGTTATTACTCAACCTGATAAGCAAATTGGTAGAAAAAAGGAAATTAAATTTTCACCAGTAAAAGAATATAGTTTAAGTAAAAAATATAGACTATTTCAGCCTTTGAAAATCTCACAAATTTATGATGAGTTAAAAAAAATAGAAGCAGATTTTATGGTTACTTGTGCTTATGGACAATTTATTACTCAACCCATTTTAGATCTTTTTAAAAATTGTGTTAATGTTCATGCAAGTCTTTTACCTAAATATAGGGGTGGAAGTCCTATTCAATATGCAATTATGAATGGAGAAACTAAAACTGGAATTTCATTAATGAAAATGATCAAAAAAATGGACGCCGGGGAAATATATTGTCAATCAGAAATAGCAATTAGACAAGAAGATAACTCAGCTTTAGTTTTTGAAAAAATGGCTGTTTTAGGAAAAAAAATGATAGAAGAAAATTTATTAAAAATATTTAAAGGTGAGTTAAATGGAATTCAACAAGATGAGTCAAAAGTAACTTTTGCATATAATTTAAAAAATGATCAAGAAAAAATTGATTGAAATAAGTCTGCAAATGAGATTAATAATTTTATTAGAGCTTTAAGTCCTCAGCCAGTAGCATTTACATATATTAATCAAGAAAGAATTAAAATAAAATCAGCAAGAGTTATAAAAGATGAAGAAAAATTAATAACATTGGATATATTATTTGCTAATGGTGAAATTATTGCAATAGATAAAGAAGGCATTATTGTAAATACTACTAATGGTTTTTTAAAAATTCTTGAACTTCAAAGGGAAGGTAAAAAAATGGTTAGTGCAGCTACTTTTAGTGCTCCAAATTCACCTATAAAAGTAGGTTGAATATTCAAATAATTCTTTTAATTTCTAATAAATTCTTTCAAAGTAGCACAAAAGAACATTTTTTAGATATAATTTAAATAGATACATTAAAGGGAGATTAATTTATGTCAGTAAACGATTTAAGACCTGGAAGTACATTCTTATATGATGGAAACATTTTTGTGGTTTTAGAAAATTCATTTTCTAAAACAGGAAGACAACAGGGAAAAGTTACAGTAAAAGTAAAAAATTTAAGAACTGGTGCAAGAGTAGAAATTACTTTTACTGGTGGAGAAAAAGTAGATAAGGCTCTAATTGAAAAAAAAGATATGCAATTTTTATATAATGATGGTTCAAATTGCGTTTTAATGAATACCGAAACATATGAGCAAGTTGAGATTGCTTCAAATAAATTAGAGTGAGAATTAAAGTTTATTACAGATGGTATTATGGTAAAAATGACAGAGTATGATGGAGAAATTTTAGGAATAACTATTCCTGAAAAAATTGAATTAACAATAGTTGAAGCTGAGCCAGCTGTTAAAGGTGATACAACTAGTGGTGCTCAAAAAAAAGCAAAAGTTGAAACTGGATTAGAGATAACTGTTCCATTATTTATTAAAGAAGGAGAAAAGGTCCTAATTAATACTACTGATGGTAAGTATGCTGGAAGAGCTAATTAAAATAAGAAATTAGAGGTGAATAATATGTACATATCTATGGAAAGAAATTCTAGAGGAAATCTAGAAATAGATGAAAAAATACTAAGTAAAATAATTGAATTTGATGTTGTTTCAATAGCAGTTGGTTATAAAAGTATAAGTGTAAGTGTAACTATTCATCAGGAAACAGATTTATTTATTTTGGTTAGAGTATATGCTCTTGGAGAAGGTAAATTCTTTATGGATGGTGTTAAAGCTACATCAATTATTAACGACTCTATTTTTAAAACTTTAAAAGTAAAACCAAAAAATATTGCATTTGCATTTATTAAATAGCTTCTGATATATTTAACAATTTAATATAAGTATCTTAGTTTGAATGATAGAAGAGGATAATAAAAAAATTATTTAAAAAACAAACAAAGTTTAAATTCTGTTTGTTTTTTATTTTCTATAAAATTTATAATTTTAATTGCTTATTTTACCTTTAATGGTTTTTGACTTAATTTTTTAAATTTAAAGTGATAATTTTTATATAAAAACTTTGAGAGAATATATTAACTGAGAATGTTCAAAATTTTAATTATTATGTAACTAGATTTGATTATCATTTCTAAATATTATGAAAGTATTTTTTAAGGTTTGATATTTTAACCAAGTTTAGGTATGCTACAAAAATTATTTAATAATTAACTCAAAGAAAATATGTTATTACTAGTCATAATTAGTAATAAAAAAATCATATTATTAATGTTATTAACACTTATTGTAATACAATTTTAATAATTTTATATCCCCCTTATCTATAATAACCTTTAAAAATAGGGGGAAATAGTGTATAATAAATCTATATTTAAATGGAGGAACTAGGCATGGCGGTTAATAATAAATCATTAGGAAAAAAAATAAGTACTACAAGGACAAAAACAGTTATTGTAAAAAAGCCTGGCTCAAATGAATATTTATATCAAAAATTTGGTCCTAAAGCATTAGCTCTAATTAATAAATACAATTTGCAAATTGATGATAGTTATAAAAAACTTATTTCTTCATATGAAAGAATTAATTCGTTACCTAAAGATGATCCAAGAAAGCCTAATTTAATTGACTTATGAGAAGGTGAATTTAATAGGATTTTTAAACATTTTTGAGAAAATTTTGCAAATGGACAATTTTCAAATGAAAGAACTATATCTGGTTGAAAAGATAGATTAGATGTTAAACCAGTATCTGTTTTACCAGATGAAAAAAGAAGAGATTTAATCTCAAGACTTTCTCCTACAGCAGCAGATTTTAAAGGTAATAAGACTACAAAAGAAGAAATTTTATTTAGAGCTGGTTATCAGAATCAAGTTAAAACTGAAAAAATAAATTTTACAGCAACAGCTAAAACTGGACAAAATTTATTTGAAATTGAAAACTTATTAAGTGCAGCAGAGGAAAAAGGTGTTGGAGAGCCAGAAAGCATTTTAAAAAATAGTTTTGCTGCTTTGCAATCAAGTGAAAATGAAGTAGATTCAACTAAATCATTTATTAGAATTGATGAAGAAACTGAGTTAATGACTTCAACTGCAATTCCAGATCCTAATTTATTGGATTTTATTAATGAAGGAACAGTAGCAACTAGTTTAGAAGAAAATCAAAAAAGTGATGAAGTTGTTAATAAAGAGATAAATAAAGAAACAAAAAATAAAGAACTTAAAGAAGTAAAAGAAACTGAAGAGAAAAAAACAGAAAATATTGGATATATTGCAAAAGAAAATATGTCTAGAGAAGAGTTTAACAGGACAAATAATATTGAATTAACAGAAAATAGCTTTGTACAAGAAGATCAGAGCCTTGCTGCTTTAGAGTTAGGAACTGAGTTTTTCCAAAAACATTTAACTGAGGAATTTGATATTAAAACTAATGTCTATGTTACTGAAAAAATGGGTAAAATTGAATATAGTTCTAAAGATGAATTGATACTTCCTGAAAAGAGAAATATTCTTTCAAAAGAGGGTTTTGAAATTAATTTAAACCCAGAAAAAACTAGTTTATTAGTTACTAATCCAACTAAAATAGATAAATCAGATGAAGTAAGACCTTATCATGAAGAAAGACCTGTAGGTCATTATCCAATAAATTATGATGCTTCTAAAAGACCAATGATTCACGATTTAATTGCTGCAAATGAACGAGAAAGTCTAGCTCTTGATGAAATGACTCATAAAGTTGAGTATTTAAGACAATTAAGAAATGATCGTCGTCATAGAGTCAATATGATGAAAATTGAAAGAGCTAATAGTTATATCATTACTCGTGCTAGAAGATTAGCAGAGTCTCGCGAATTAAAAAGACTTAAGAGACGTGAAGATGTTAATGTAAAAGCAATCGAAAAAGCAGAGAGATTAAGAAGATTACATGAACGTCAAAAATTAATTGAATTAATGAAAGAACGTCAATTAAAGAGAACAGAAGAAAAACGTGTAGCTTCAGTTTTAAGACTTGAACGTGAAAGACGTTATGAGAGAGATGCTAAATATAGAGCTGAAATAGCAACCATTGATGCACAAATTAGACAAGAACAAGAGTTAATAAAAGGTACTGAGTTAAAAATGAAGGCGTACTTTACAAAGATTAATGATAATGAAATGTTTGATGAATCATTAAAAGTTGCTAAGGAAATAGTTCCAAGTTACAAAGCAATTCAAGAAAAAGCTGCAACAATTCAACAACTAGAAGAGAAAAAGCGTAAAGATAGAGTTGAAAAAATCAGCAGAAAATTTATAAAAAATATTAAATAATTTCAAAAAAGGCAATTTTTAATTAAAATTGTTTTTTTTTTTTTTTTTGTTTTTTGTTTTTTTTATTAATATTCAAAAATTCTTTTAAATTATGAAATATACTTTATTTTTTAAATAAAATATGATATTTATAGTAAAATATTTTTAACTAGTAAAGTTTGTTTAAATGTTTTAAATGAACTATAGTAATAAATTTGATATAGATTTTTTAACTCTTTCAAAAAGAGTTAAAAAGGGAAAAAAGAGGTACTAAATAACAATGATAGTAAAAAATAAATCAAGAGTAAGAACTGAAAGTGACTTTTCATTATTATCTGGAAAAGTAAGAGCAAGAGTTAAGAATTTAATTGAAAAAAGACTTAATACTAAAACAATAATAATCTTTGCTCAAGAATATGAAGCTTATGATTTCAATTTTCGTTTACAATTAATTGATTATATCAATTATATAATGGAAATTGAAAACGCTAATCTACCAACTTATTTAAGAAGTAGTAATCAAGCAGCTAATGAGGCAGTTTATCAAAATTTAAAAAGAACTATTTTTAAACCAAAAGAAATTGATAAAAAGAATTTTCAATTTCAATTAAATGATTCTAAAATATCTACTAGCAAAAAACTAGTTAATAGTTCTATTCAAGCTGATCCTAAAAAGAAGGAAAAAGAGGTTCCAAAGTTAAACTCAATTGATAGAAAATCAATTGAGAAATTACTTTTAGAAGCAAAATTTAAAGAAGAACAAGAAACAAGACTTAGAGACTCAAAATTAAAAGAACAACAAAAATTAGTTGAACAGCAAAGAAAAGAATTAGAGGAGAAAATGTCTCTTCAAAGGAAAAAAACCGAAGAACTTGCAGCTAAGTTAAGAGAAGAAAAAAGAATTTTAGAAGAAAAGAGAAGAGCAGAAGAAAGAAAACAAGAATTAGAAAAACAAAAGATTCTTGAACAAAAACTAAAAGAAGAAAAAGCAGCAAGACTAATAGAAGAAAAAAAATTAGCTGAAGAACAAAAAATTGCTGAAGAAAAAAGAAAACTACTAGAAAAACAAAAAGCAATTGAGAAAAAAATAAGAGAAGAGAAAGCAGCAAGACTTAAAGAAGAAAAAAGGTTAGCTGAGGAAAAAAGAAAAGCTGAAGAGCAAAGATTAGCAGAGTTGGAAAGAAAAGCCGAAGAAAAAAGGTTGGCAGAACAACAAAAATTGGCAGAAAAACAAAGATTAGCTGAAGAAAAAAGAAAAGCTGAAGAGCAAAGATTAGCAGAATTACAAAGAAAAGAATTAGAAAAACAAAGAAAAGAATTAGAAGAAAAAAGAGCAATTGAGAAAAAAATAAGAGAAGAGAAAGCAGCTAAGCTTAAAGCCGAAAGAGAAGCCTTAGAAGCTAAATTAAAAGAGGAACAAAGAATTGCTAAAGAGCAAAGATTGGCTGAAGAAAAAAAAGCTAAAGCTGAAAAACAACAAAGACTTTTAGCAGCACAAAAAGCTGCAAAAGAAGCAGAAAAAGAAAATGAAGAACGAATGATACAAACTAAATCTGTTAAAGAACGAGATTACTTAAGAGAGCAAGCAGAAAAAGAAAAACTTTGAATGCAATTATATGGTAGATCAAGAGAAGAAGCACAAAAATATAGACAAAATCAAGAAGAAGATAAAGTATCTAAGATTAGTCAACATAATAAAAAATTGTATATAAATTCAACAGATGAAGCTCAAAAGACTTTTGATATTCTTGGATATGAATTTTCAATTTCTGAGACTATAGACCCAAAAAACAAGTTTTTTAGTTTTTGATATGATTTAAAAAAGAAATTAAATACATCAAATATATCAATTTGGTTAAAGATTCATCCAGAAAAGCAAAGATCAATTCTTAAAAAGAGATTAAAACTTGAAGCAGGACTTTGAGAAAAAATAAGATACTTATTTACAAATGAACCAATTAAAAAGAAAAATAAAGCTGAACCAACTAAAAACAATAAGAAATCTTAATAAAATCATTAAATAATCAATATTTTAATATTAAATTTGTTTATTGAAGAAAATATTTATTAAGATTAGACTAATTTACATTATTCATGGGAGGCAATTATGATATGCTGTGATTGTAAAAGCAAAAGAAATCATTGCAGTTGTTCAATTTTTGAATGTGATTGTACAAATATTATAAGTTGCTTTTGTTGTTTGTTTGGAAAATGAGAACAAAAAGAGAATCAATTAAATATTAGTCAAACTTTTATAAATTACTCAAAAGAGGTAATAAAAATAAAGATAATACCAAATATTATTAAAAAAGATATTGAAAATAGTTTAAAAGAATTTAAAAAAGTGGAAAATAGTTTGAATAAAATTAATAAGGACGATTATATTAAATACATAGATTCAAATTATGACCCAGAATATATTGCTAGATTAATAGAAAAAAATAACATTGCTAAATTAACTTATTTTATAAGTAAACTAGAATTATATATTGATCTTTCTAATATTTTAATTGAAATAAGTAAGTATTTAGATTATAAAAATGTCTATCTAAAAATAAAGGCAATTACAAATGAGATTGTTTCATTATTACCATCAATTGCTGAAATATTTGCTTCATATGAAGAATCACTTGATAATTCCTTAGAGTATGAAGCGTTAAAAGAAAAAATGTATCTTTTTGATTTAAATTTAATTAATTTGGAAAATAAGTTAGAGTTTAAAATTACTTAATAATAGTTAATTATTTGTTATAATAAAAAAAGTTATGTATAAAAGAGGAGACATTTATATGAAATTTAGTACAAAAAAAATTGCTGAAAAAGGGCAAGGAACTTGAATAGTTACAATAGAGGGTAAAGAGTGAGAAGATGCAGTAAAAAAAGGTAAATCTAAGGCTGCAGCAAATATTGAAATACCTGGTTTTAGAAAAGGTAAAGCGCCAAAAGAAAAAGTTGCTCAATATTTAACACCTGTTAAATATTTAAATGCAGCAGTTCAATCAATCATGGATAAAGCTTGAAATTTTGCAAGAGATCAAAAATCTGATGTTGAACCATTTAATTCACCAGTGCCTACTCCTGTAAAAATAAGTGAAAAAGAATGTGAATTACACTTTGTTTTTGACTTGAAGCCAGAGATACAAATTGGAACTTATAAGGGCTTAAAAGATAAGGAATTAGTAAAAGAGGAATTAAAGGTTTCAAAAGAAGAACTAGATAAAGCAATTGATCAATATAGAGAAAGATTTGTAATGGAAAAACTTAAGGAAAAAGATGGAAAAATTGCTAAAGGTGATTCAGTATCTTTTGATTTTGAGGGATTTATTGATGGTAAAGCTTTTAAAGGTGGAAAAGGACTAGATTTCAAATTAATTATTGGTAGTGGACAAATGATTCCTGGTTTTGAAGATGCAATGGTTGGAAAAGGATTAGGAAAATCATCAATTAATGTAGTCTTTCCAAAAGACTATACTGAAGAATTAAAAGATAAAAAAGCTGAGTTTAAATTAGAAATAAAAGAAATAAAAGAAAGAATTTTGCCAGCTAAAGATGATGAGTTAGTAAAAGATTTAAATTTACCTGGAATTACTACTTTTAAAGAATTAGAAAGTAGTTTAAAAACTCAAATTTTAGATCAAAAATCTGTACAATCAAAAAATATCTTTGTAAATAAAGTAATAGATTTAATAAGATTAAATTCAAAAATTGAAATTCCTAAATCAGCAATTAATAAGGAAATTGAAAATTTATATAAAGAATTTGAAGCAAAAGTTCAAAGTCAAAAAATTACATTAAAAGATTATAAGAAACAAACAGGTTTAACTGACAACGATATTAGAAATGAATTATTTGAAGATGCAAAAAAACGTATTGAAAGTTATTTAATAACTGATAAAGTTAGAAATACTGAAAAATTTGAAGTATCAGAAGAAGAATTAAAACAAAAATATGAAAATTTAGCTAAAACTTTTGGTGTTGAAATAGATTTCATTAAGAAATCTTTATTACCTGAAGCACAAATAAAAGAAGAAATAATAAAAGAAAAGATCGTTGATTTCCTATATACAAATAACGGTTAAAAAATACAAATTTCTTGTATTTTTTTATTTTTTTAGCACTTAACACTTGCAAGTGCTAAAAATTATGATATTATATTTTTGTACCTAAGGAGGAATATTATGAATAAAAAATTACCTATGTTAATTACTCGAGGGAGTTATATCTACCCAACTTTTGAGCAAGTTTTAGAAATTGGTAGAGATAAAACTACTTTAGCAGTTAAAGAAGCAGTTGATAAATATGAGGGGAAAATCCTAATGGTTTCACAAAAAAAACCATTAGAAGATGATCCAAAATTAAAAGATTTATTCACATTTGGTGTTTTAGCTGAAGTAAAAATAAAAAAAGAATGAAAAGATGGTACATTAACTGTAAATATAAAATCAATATCACGTGTAGAAATAAGTGATATTGAATTGAAAGAATTTTATATTGCAAATTATAAAGTAAAAGATAGCTTAAAAAGCTCAAGTAAAGAAGCATTAGATAAAATTACAAAATATATTAAAGCAATGATAAGTTCTCAAGAGGAGTTTCCATCAGAAATAGGAGATATCATTAAATCTTCATCACCTAATGTTAATCCAAACTTTATAGTAGATAGTGCTGCAAATTTAATGCCTTTTATGCCAATTGAAAAGAAACAAGCAATGCTTGAGGAATTGGACCCTGTTAAAAGAATTGAAATTATTAATGAGTTTTTAGATGAAAAACGTCAATCTGCAGATATTGAATCATCAATTAGTAAAAAAATTAAATCAAGAGTTGATGAACAACAAAGAGAATTCTATTTAAGAGAGAAATTAAAAGCTATTAAAGAAGAATTAGGCGATATGGATGGTGAAGGAGATGACTTGGCTAAATATAAAAAACGCCTTGAAACTGAACCTTTCCCTGAAAATATTAAAAAAAGAATTTTATCAGAAATTGATAAATGTGAGGGTATGCCTGCTTCATCTTCTGAGGCAAATATTACAAGAACATATATTGATTGAATGATGCAAACACCATGATGACAAAAAACTGAAGAAAAAACAAATTTAACATTTGCAAAAAAAGTTTTAGATAAACATCATTACGGACTTGAAAAAGTTAAAGAAAGAATTATTGAGTATCTAGCTGTAAAACAAAATACTAATAAAGTCAAAGGACAAATAATTACATTAGTAGGTCCTCCAGGTGTTGGTAAAACTAGTTTAGCAAAATCTATTGCTGAATCAATGGGAAGAGAATTTGTGAAAATGGCTCTTGGTGGAGTTAAAGATGAATCAGAAATTAGAGGTCATAGAAAAACTTATATTGGGGCAATGCCAGGTAGAGTAATTCAGGGAATGAAAAAAGCAGCAGTTAAAAACCCAGTTTTCTTACTTGATGAAATTGATAAAATGGCAAGTGACTATAGGGGAGATCCAGCTTCAGCAATGCTTGAAGTTTTAGACCCTGAACAAAACTCAAAATTCTCAGATCATTATTTAGAAGAAGAATATGACTTAAGTGATGTTGTATTTATTGCAACAGCAAACTATCCAGAAAATATTCCTGAAGCTTTATATGACAGAATGGAAATTATTGAATTATCAAGTTATACTGAAATTGAAAAAATGAAGATTGCAGAAGAATACTTAATTCCAAAAGTTCTAGATGATCATGCTGTTACAAAAGAACAAGTGGTCTTTAAAAAAGAAGCAATTAATGAAATTATTAAGCACTATACTAGAGAAGCTGGTGTAAGACAATTAGAGAGATGAATAGCTTCAATTGTTAGAAAATTTGTTGTAAAAATGTTAAAAAAAGAAATTGAAAAATTAGTTGTTACTCCTAAAGTAGTTAATGAATTACTTAAAAAACGTATTTTTGAACATACTGAAAAGGAAAACGAAGCACAAGTTGGTGTTGTTACAGGTCTTGCATATACTCAATTTGGAGGAGATATCTTACCAATTGAAGTAAATCATTTTCCAGGTAAGGGAGGACTTATCCTTACTGGTAAACTTGGAGATGTAATGAAAGAATCAGCAACAATAGCTTATGACTTTGTTAAATCAAACTATAAGGCATTTGCTATTCCAAAAGAAGTATTTAATGAAAATGATATTCATATTCACGTTCCTGAAGGAGCAGTTCCAAAAGACGGACCAAGTGCTGGTGTGACAATTACTACAGCAATTGTTTCTGCTTTAACAAATAAACCTGTGCCAAAAGAAATTGGTATGACAGGTGAAATTACACTAAGAGGGTTAGTATTCCCAATTGGTGGTTTAAGAGAAAAATCAATTTCTGCTCATAGAAGTGGTTTGAAAAAAATCTTAATTCCTTTTAAAAATACTAAAGATATTGAAGACATTCCTGAAGAAGTAAGAAAAGAACTTGAAGTAGTTCCTGTTCAAAAATATTCAGAAGTTTATGAAAATGTATTTGGTATAAAATTAAACGATCTTGTTAGAGAATTACCAATTGCAACTCCTTCAAAAGAAGAAGGCAAAAAAGCTCATTAATATCTAAAAAACAACTTTTAATAGTTGTTTTTATATTTTTATGATAATATATCAACAATATAAAATAGAGGTGAAAATTTAAATGGACAATTCATATAATGCTACTAGTAATCCAATTGGAGATGCGATTGTAGTAAATAATAAAGAAGAATCTAAACAATATATTCCAGATGATAAGGTTTATAAATTAGTTAAAGAAAAAAATAAACTTAAATTTTCATGAATAGTATTAATTTATGGATGAAAATATAAGGCTTTATTTTTAAGTGTTGTTTTTGTTGTAACATTCAGTGCATTTTTAGTAAGTTTAAATACATTATTTTTAAGAAATGTTCTTAGTGCTGCACAAGCTTCTGATGGTAGATATTGAAATCTATCTTGACAATGATGAATGGCTGTAACAGCAACAGATTTAATACTGCTATATTTTTGTACATATATTAGGAACTCATGTTCTATTATGCTCGCAGTAAATATTGAAGTCGAATTGAGAAATCTAACAATAAAAAGATTACTAGAACAAGATATTAGTTATTACTCTGATAAAAAAATTGGAAAATTAATGACAAAATTAGTTGGAGATACTAACGTTATTGGAAATGAAATTTCAGGAATGATTGCTTGAGTAATTCAAGCTCCATTAGTTATTGTAATGGGAACAGCAATGATGTTTGCTATTCATTGGCAACTTGCTTTAGTTGCAAGTATTTGTGTATATTCACTAACTTTTCTTGTGATATTGTTTTCTTTACAATATCAAAAAAAAGTAAAGAAAGTTAGAGATGTAATTTCTGATGTTAATGGTGATGTAATTGACCGAATTGGGGCAATTAAATTAGTTAAAGCAACAGGTACTAGAAGATATGAAGAATCAAGACTAGAAGAGCTTCATAAACCTTATATTAAAGCTTTTAAACCAATTTCAAAAATAGATGGTACTTTATTGGCAATCCTAATTGCTTCAGATGTACTAATAAATTTAATTATGATAACTATTGCAATAGAGTTTTTTAATGATAACAAAATGTTAACAACAACTTTACCATCATTCATTTCAGCTATGGTTGGATTGACTCGTCCATTATGACAAATTGCAGCTATTATTCCAGGACTTTCAAGAGCAGCTGCTAGTTCAGCTCAAATATATGAAGTCATTGAAAAGGATCCTATTCTTGATGATAAAGATAAAACAGGAATATTATTTGATGAAAATATTTCAAAAATTGAATTTAGACAAGTTAAATTTAATTACCCTGAAAAGCCAGAAGTTAATATAGTTCCTAATCTTGACATTACTTTGGAAAAAGGAAAATCATATGCTTTTGTTGGAGAAACTGGAAGTGGTAAATCAACAATTTCAAAATTATTATTGAGATTTTATGATCCAACTGAGGGGTGTGTTTTAGTCAACGATAAAAATTTAAGTGATTTTAATCTAAAAAGTTATCTAAGTCATGTTGGGTATGTTGAGCAAGAACCATCAATAATTTTTGGAGATGTTTATGATAATGTTAGATATGGGCATTTTGGTGCAACTGAAGAAGAAGTTCATGAGGCTTGCAAAAAAGCTCAAATTGATCAAATCATTAATAGTTGACCTTATGGTTATCAAACTATTTTAGGAGAACGAGGTTTATTATTAAGTGGAGGTCAAAAGCAAAGATTAGTAATTGCAAGAATTTTACTTAGAAATCCTGAGTTACTAATTTTAGATGAAGCAACAAGTGCTTTAGATAATATTGTTGAAAAGGAAATACAAGCACAATTAAATGAATTAATGAAAGATAAAACATCAGTTATAATTGCTCATAGATTAAGTACAATAAAAGATGTAGACAAAATATTTGTATTAGCTCCTGGTAAGGGAATTGTTCAAGAAGGAACTTACAAAGAATTAATAAAAATTCCAGGAAAATTTAAAGACTTGCATGATGCAGGCAAGTCTTAAAAAAACTAGCCAATAGGTTAGTTTTTTTATGCTATTATTCAATTAGGAGTTAAAACAATGAATAAACCTTTAAGTTTTTTATTAAGACCAGATACATTAAAAAATATTATTGGTCAATCACATTTAATTAATAATAAATATGGCCTAATATCTAAAATGGTTGAAAAAAAATTTATTACTAATTTAATTTTTTATGGTCCCCCAGGTGTTGGTAAAACTTCAATGGCGATTTCAATTGCAAATGATCTTAAAGCAAAATATGATTTTTTTAATGCCTCAAATGACAAAAAAGAAAAACTTCAAAAATTAATTGAATCATCAAATCACGATGAACAATTAATATTAATTGTTGATGAAATTCATAGAATGAATAGAAATATTCAAGATTATTTATTGGAATTTATAGAATCCAAAAAAGTTGTAGTTTTTTTAACTACAACAGAAAACCCTTATTTTGTAATTAATCCTGCTATTAGAAGTAGATGTACAATTTTAAAATTAAAAGAAATTACTATTGAAGAAATGAAGGAGGGACTAAAAAGAGTTCTAAAAAATAATAGGATTACTTTAGATATTGAAGAGAATGCATTTGAAAATCTTTGTGAACTTTCAAATGGAGATTTAAGAGTTGCTATTAATTCAATTGAATTAATGATAGAACTATATTCAAATATTAAAATTAATAATGAAATTATTGAAGCAATATTTGAACAAGCTGTTACTAAGGGAACAGGAGAAGGTGATGAATATCATGATCTCAAATCAGCTTTACAAAAATCAATTAGAGGAAGCGATGTTGATGCGGCTTTACACTATTGAGCAAGATTGATGCAAATAGGAGATTATGAAGTTTTAATGAGAAGAATGATCATTATGGCATATGAAGATATTGGTTTGGCAAATCCCACTATTCCTATAAGAGTCTATCAGGCTTGTCAAACTTTTAGACAAATTGGTATGCCAGAAGGAAGAATCATTTTAGGTTTGGCAATAATTGAAATGGCTTTAAGTGAGAAATCAAATTCTTCTTATTTAGCTTTGGAAAAAGCCTTAGAAGATGTTAAAAATGGATTGGCACCACCAATTCCACCATATCTTAGAGATAATCATTATCGTAACGCTCATAAATTAGGTCATGGAATTGGTTATAAGTATGCTCACGATTATGAAAATGACTGAGTTCAACAACAATATCTTCCTGATGAAATTAAAGATATTAATTACTTTACATTTAAACCACATAGTAGTTATGAAAAAAAATTAATGGAAATATACATAAAATTTACAAAGGGAAATAAGATAAAATAATAGATAGAAAGTAGGTATTTTTAATATGAAAACTAGTGCAAAAATAAAAGAAGAATTAGCCCAACATGGTTATATTTGATTACCTACATATAAAAATATATTAGAGAAAGTTTGACAACACTGTGAAACTTATATTGATGAAGATGAAGAAGTTTTATCAGCACTTTGAGCAAGTTTTAAAAGATATGAAGAAGATATGATTGGAATAGTTTTTATTACAACTAAAAGAACATTTACTTTGGAAATTAGTGATGATGATAGTAGTACTCAAATAAGATATTTACCTTTTGACTCATATTCACTTCAAAAAATTCAATTACAATTTTCAAAAAATGCAAAGGGTTTACATTATGTTTCACTTCAAAATGATAGTTTTGGAAATGGTATTACATTTGGAACAACTAATCGAGATGTTGCGCAACATTTTGTTGACACTTTAAGTGGAAGAACAAATGGAGAAATTGAAATACTTCCAGATTCTGATGACCCATTATTAGCTGAAAATGAAAAAGAACAATTAATTGATGAAAATTTAGAAAAAGCTAAGAAAAAAGTTCCTCATAAATTAGAAAAAAAACATGAAGAAATAAAACCTATGAAAGAATTTGAGCAATGAAGGAAAGCACCTCCAGAAGCTAAAGATAAAGTGGTTGAAATTAAGATTGTACCGCCTAAAAAAGAGAAGCCTAAAAAAGATAAAAAAAGAGGATATGGTGTAAAATGAAAATCAAAGATTTGATTATTATGATTTTTGTTACCATTCTTAACATTAGGAACTGTTATTGCAATTGTGTTTCTATTATAATATTAAAAAAACTCGTTTATTATAACGAGTTTTATTTTCTTTCAATTGATGTAATTTTTCACTCATTTGAACCTTTTGTTAATTTAAGTTCTATTTCATAAAAAAATGTAGCTCATGAAAGTATATCTGTATATGTAGTTTTGTATTTTATAAAGGCATCAGTATCTGGTTGATCAATACCCTCATAACTTAATACTTTTGTTTTAAAGTTCATATTGCCAATTAATTGTTTATAAGTGAAGTTTGTTAACTCTTTTTTAATTCTATTAACTTCTTTAAAACCTTCTAATATTTGATCAAATAAAGCATTAATTGAAGGGTCATCAAATATTTTCTCTAAACCACTTAATATTGTTTCTTCTCTAAAATTATTTTTTTGCTTTCCTAAATCATCAAAATCACTTCCAAGAGCAAACATTGCTGATTTAACACCTTTAACTTTTTTATTTTTAATATTATCAAATTCAATATATAAACCATTCTTATCGCTAGTAATCATTAATGTTTGAAGAGAAGTATATTTATTATTACCTTGTTTATAAGGAATATCATTTCCATAAAAAATAGAGTATTTATCATCAATTAAAGCTGTTGATAGATTTCTGAACCCATTAGCCATTAATGTTGAAGCCTTATTAATATTTTCTACTTTCTTTAGATTTGGATTTGATGAATTAATTGATTCATAAAGAAGATTTAATATTTCTGAAATATTTTTTCCTAAAAAAATATGTGAGTTTAATATAGTTTGTAAAGATGTATTTGTTTCTCCTCCAATAATAGTTTTCAAGAAAGTTGACTCAGAACTTCAAAGAGTCCTTCAAGAGTTTTTCATTATTTCATCTTGATTAAATCTAAATGGAATTTTAACACCAAAAGTTTTTAAAAAATCAAATAGGGAGTCTAATCCATTGATACTTCTATTTTCAATAAAAGTATCAATAATTGCTTTCATAAAGTTACCTATCTGATTAGGTCCAATTTCTGCAACTACATTAATTTTAATATTTTTTCATTGTGCCAAACCATTTCCTATTGCATATAGTAAAGGAGAGAAACCCTCAGCACCTGTGTAATCACCTGATAAGGTTGTTAATTTTCCTAATAGGGCAGGTACTCATCCTAAAATACCAGGTTTTGCAATATCAAAAGTTTTTTTACTTCCACTTTGGAATAATAATCCAATTAATTTAGCAAAGTTCAATCCATCATTTTCTTTTGCGTTCAAAGCGATTGAAAGATTTTTTATTAATATTTTTGAACTATATTTATTATTAAATTCTTGCTCTCCAAGTTCTTTCAAAAACTTCAAATTCTTTTTTTCTTTTCTTCCAACTTCACCTTTGTATGAATATAAGTCATCATGGCTTTGAGGAGTATCTTGTGAAAAATCGATACTTGTAATTCTATGCAAAATAGCTGAAACAACAAATAGGGCATCAAAAAGAATTGGGATCATATTTGAAGTATCTAAATTATTTATATTTTTTAGAAAACCAGCAAATGTATCACCAAATTTATTTTCAAAATCATAATCAATATCTTTATACAACTCATTTATATCTTCAATAACTTTATCATTTTGTCTTGAAAGATTTGCAAATATATTATTAAGTCTTTTTACTGCAGCATTCATTATTTTTTTATTTGTCAAGTTTTCAATTTTATCTACATTTAATATTTTATTAATTACTAAATCTATTGTTCCTAAGGAATTAATATTTCAATTATTCTCTTTAATAGTTGTTCAAAAATTTACATTTAGAAAATTTGCAATTAGAAAATATGGTAAATTTGAACTCTCAGCTAGTTTTATTATTAGTGCAATTACATCTGCTCATTGATCTAAGATTTTTGCAATTGGTTTCATCTTTTCACTACTAAATTGATCAACATTATTTTCACTAAGTTTTAACTCAGGTAAAAAAGATTGTATTAATCCTGATGAGTTCGGATGAATTCCACCGTTTGCCTTTATAATACCAATAAAAACTGTTAGAAGACTTCCAATAGAGTCTGCTGGACCATTTGGAGATTTTACATTGTTTGTAAGAAACAAACTATTTTCATTTGTAGAATCTTTTACTTTAGCTATTTTATTTATCTCATCTCTTGTTAAATTTTGATTAAAATAACTACTATTTAAAGAACTCATATTTGTTTGATAGTTTGTATTAAAATCAGGCATAAGTTCTTTTGCACTACTTGAATTTATTAAATCAAGTAAAAAATTTGCATCATATGGAAGACCATTGTCTCTACTTTGACTTGCATTTTGTATCATTGCTCCTCTTAAAAGAGTAGACGATATTTTAGTTAGATTATTTACTTTATTAAATATTGACTGTTTTTTATTGTTTACCATGCTACAACTTGCCACACTTGCTGTTGAAGCTGTTATTGAAACTATTCCCAAAAGTGAAATAATTTTTTTCATTTTCCCCGACTACTCCTTCTAATTACATTAATTATATATTAAAAAACTTTCTTTAAATAGAAAGTTTTTTTGTCAATATTTATATTTAAACTCTTTTTATACTATTGATTTTTCAAGATGATTGATCTAATTTAAGGATTAAATCAATTTGGTATTTAAAAGTTTTATTAGTAAATGGCTCATTATAAACAATTTCATAAGTAATTGATTGTTCTAAATTATTTTGATCTATATTTTTATAATTCAAAATTTTTGTCTTAAAATTTTGGCTTTTAATTAATTTTTTATAGATATTATTAGAAATGTTTGTGTTAATTGAATTTATCTCATTAAATGCTTTTAATAAGTCATCTAAAATTTGATTAGTTATTTCATCATCAAAAATATATTCTAATCCTTGCATAATTGAAGAATTTCTAAACTTACTAAATATTTGATTTCCATTTGTATCAAAATCAGTTCCTAAAGCATACATTGATGCTTTAGGACCTCTAACTTTTTGATTCACTATGATTGGATCTTCATTAATTTTTAAGTATAAACCATTTCTAGTTGAAGTTAAAATTAAAGCTTGAAGGGCATTATAGTTACCATTTTCACTATTTTGTTTAAATTGTTTTTCATTATTATTACTTTGATATCAAAGTTGATATTTATCATTTACCATTTCTTTGCTAATTATATCTAACCCTTTAGATAAACCTTCTGCTTTTTTATCAATATTTTTACTTTTTTTCATTGTACTAGTTGGATCAACTTGAGTAAGGGCTTTATAAATTAAATCAATAAGTTTAGAAAGGGTAATACCTTCAACTATCTCATTTTTGAAAAGAGAATATAAACTAATTTGTTGTCCAGTTAAATCCTTTATTAAAGTAGAATCTTCATCTCAAATAGCACTAAATAGATGATTTAATTGACTTGTTGTTTTTTCACTAACTTTTAAATCAATATTTATACCAATACTGTTTAAAATCTCAATTACTTTATTCAAACCACTAAAATTTGAGTTAAATCCAAGTCCATCACCAATTACTCATCTAAGTACATTTCCCACTTGATCAGGTCCTATACCTGCAAAAGATCAATCTTTTCAAATTGCAATTCCATTTCCAATACCATAAAGAAGTGAAGAATAGTTATTTTTTTTATTTTGTCCTATTCAAGGAGAACTTATTTTTGGAATTAAACTTATTAATCCAATGTTTTGGTCAATATTTGTTACTTTTTCACCAGAATTAAAAAGTAAATAGAATAACTTTTGCATTTGTTTACCATCTAAATTATTTTCAATGTTTGTAATTGTAGAAAGATTTTTTAAAAGTCTTGCAGTGTTATATGGATTATCTTTTAAAGTTAATTTATTTAACTCTGCTAAATAGTCATTATTTAATTTTTTACTATCAAATAAATATTCATTTGATAGTGGAATAAAGCTTGAAAAATCTATTGATGAAATATATTTTAGTAATGATGAAAAGACGAATAAAATATCACTTATATTTTCAGTTTTTTCAAAAATTGACTTTAACACTTCTTGTATATTTAAATTACTATTTTCCTTTGTTATTTGTTTTAAAAATTCTCCAATTATTTTTCCTAAGTCTTTATCAAAGTTTTTACTTAAACTAAATAAATTTTCACCAGTTATAATTTTATTTTCTTGATTTATTATTCTAGCAAAGATATTATTAATTTTATTTAAAGAGGCGTTTATTATCATTTGACCAGTTAGTTCATCGGCATCTTTTTCTTGTAGCAGTAAAGAATTAACCAAATCATCAAAAATTTTTGCGCCCCCTGATAAATTTATATCGTTTAAAAACTTAATAATTCAGTCAAATATTGCCTTCATATCTTTTTCTTTAATTGCATTTTCAAATTCTGAATTAAAGAAATTTTTTAAAATAGCATAAATGGCATTTGATTCTTGTAAAAACCCAATTGTTTTTGCTAAAGGGTCTTTAATATTTTTAATTAAATTTGCAATTGGTTTAAGTTTTTCACTATTTAAATTATCTGCTAAATTATCATTTAAACCAAGTTTAGGTATTGCACCTTGAATTAAACCTGAAAGACTTGGGTGAATTCCTCCGTTAGACTTTAAAGTAGTAATAGCAAAAACAGCAATACTTGCAATACTTTGAATTGAGCTAGTAGGAGATTTTACTTTATCACTTAAAAAGTCTTTATTTAAATCATTAATTGCATTTCTATCTAAATTTTGATTATCAAAATAAAGATTTCTAAGGCTATTTAAAGTTGTTTCACTATTTGTATCAAATAATGGAATTAGCTCATTTGCTTTAGAATTATATACAAGATTGTTTAAATAATTTGAGTCATAAGCAAAACCCTTGTTTATTTCTTGACTTGCATTTTGAATGATTGAACCTCTTAATAAAGTTGAAGAAATTTGTGTCAAATTACTAATTTGGTTTTTAATTGATTTCTTTTTCAAATTTATTGTGCTACATGAAGTAACACAAATAGTAGAAGTTGACATACTTACTACTGCTAAAATTGATAATATTTTTTTCATTTTATCCCCCGATGTATAAATTATATTTTCAAAATATGATAAAATATTTTTGAAATAATATACTATTTCAAATTATTATAATATGTAGTCGGGGAAGAATTCAATGAAAAAATCATTATTTTTATATTTAAAACAAGGTATAAAAGGTGTGATGAAATTTAAAATACAATTTATTGTAATTGTTATTTTAAGTTTTTTAGCAACTTTTATTTTGAGCATCTCTTTTTCAACAACTAAAAGGATTACAAATGATTATGAAAAGACCATGTTAAAGATGGAACCTTTTGATTTTTTAAATCAACAATCAGTTGGATTAAATTTAGCAGAGGGTACAGGTTCAAATATAATAGCACCGATGGATATTCTTAATAATCAGTTCTTATATGTTAAAGATTCAAAAGATTTAACTAGTCAAAAAAATAATAAAGCAGTTGATTTAAATTATAATATTTCTTCTTTTGACGATTTTTCAAGTGAGGGGTATCAAGAAACATTTTTAACTAAAACTTTTCAGGATTCTGAAATTCAAAAGCAATTCTTAGAAATGTTATCTGATAGGGATTATTGATTTAGTATATTTCAATATACTTATGATCCAATTAAAGATGAAATTAAGTGAGATTCAAATTTAGATATTAATTATTATTCTGGTTCAAGTTCATATTCATATTTAAAAAATACAGCTGCAAATAAACGTGGTAGAATTTCAAATTTTTTCTTACCAACAATTGAACTATTAAAGAGTAATTATTTAAAAGATCTATTTAGTGAAAATCCACCAAATTATATTAAAAATACTCTATTTTATGAATTAAAATCTAAAGGAATAATTACTCTTGAAAATTTTGAAGGAAAAGAAGCTTCAAAAAAAGTATTAACAGATAATTCTGATTTTGATATTTATAATAGATATTTATATTTTGCATTAGAAGCTATAATGAGACAATTAATTGGTTCAACAATTGAATATCCTACATATTGAATAAATCAAGCAATTGCTCAATCAGATTCAAAAGAGAGAGAGAGAGTAATTCAAAAATTTAATGAGTTAAGTAAAGACAATAAAATTGGTTTCAATTTTTTATTAGAAAATGAAATTGAAACAAGTAAAGAGTTTGCAATAACAATATTTAAATGAATATTTGGTTTTAAACCACAGTCAAATGAATGAAATAGTGAAAATTTTGAATCAAGTGATAAATTTATTGTAGATAAAGAATCAAAGCCTTGAAAAAATAATCTTGATGTAGGTTCTGAAAATATTGATTTAGAGAGATACCCAAGTTCAAAAGAAGAAATTTTTAATAAAGGTATGAGAGGAAGTTTAAATCAAATTGTTGTTAATGGTAGTAATAATAAAGTCTATAATTACGATAATAGTTTTAGTAGCAAATATTTAAGACACTTTGAAAATCAAAGTATTGAACAGACAATTGGTTATTATAGAGATTTTAATGATTTTGATACTTATAATATTGAATATAATTTTGAAGGAATAAGTGCTGCAAAAGCATTTTATATTAAGAATGAATTTTTAGCTAAAGCTATGGGATTCAAATATGAAGCAAGAGCTGAAATGGAATTCACTGATGTAACAACCGAAATTAATTACAGAATTATTGATATCAATAATCATTGAAAAGATAAACTTACTTTGTACGAAGGACATTTACCAAGGACTAAAAATGAAATTTTGATTAATCCTCAGTTTGCCACAGCAAATAAATATCATTTAGGAGATAATATTGTTTTAGGTGAAGGTAATTTTGTTATTTCAGGTTTTGCAGTAGAACCTTTAAGTTATTTTCCAATGGGAAATACTCAAAATCCACTTCCAAATAATAAAAAAAATGCAATAGTTTTTGCAACTAAAGATAACTTTAATCAAATAATTTCTACGCAGTTAGAAAAACTTGCAACAAAATCAATTTACTCTATGCTGACAGTTGAAGATAGAAATAAGTTGTCTGAAAGTGATAAGAATCTTGAAAAATATAGAGCTTATTCATTTAATAATGTGATAGAAGTTTATAATTCTTATAACTATATAGTTGGAAACAATGAAAAATTGGATAGTAATAATTTTATTAATAAATATTCAACTTTTGAATCAAGTACCTTTAGATATAATTGAATTGTTGCTCCAATGTTAATTAACGGTTTTAGAATTTTTTCTTATATTTTTTCAGTTTTAGTTTTTTTAATCACAATAATTGCAACTGTTGTAGCTGTTAAAAAAACAGTTGAATTAAATTCTGGAGAAATTGCTATTTTAAAAGCAATGGGAGCTGGCAATTATGAAATAGCTTCTTCATATATGTCTTATGGAATAATTGTAACTATATTTATTGCTCCAATTGCGTGACTTTTGGGTTCTTTTATTCAAGAATTTATAGCTAAAGTATTTTTAAATTTCTCATCAGGAAGATCAAACTTGATTATTTTTAGTCCTTCAGCATTGCTGATTTCAATTTTAATTTTTGGTTTATTATTATGTTTAATTTCCTTTTTAACAGCATTTTTATTGGTAAAAAGACCAACATTAGAGATTATGTATAAAATGGAAAAAGTTAAACGAATTAAATGAGTTGATAAATTTAATAATAAGGTATTTAGCAAAAGTTCTTTCTCTACTAGATTTAGTATAGAATTGGCAACATCTGGGTTTTCTAAAACAATTCTATCTGCTACAACAGTTTTTTTTGCAGGATTTTTAATATCATTTGGATTAACAATTCCTGGTTTAGTTCAAAATGTTGTGGGAGGTTATTATAAAAATGTATATTATTCTAACTCTTTTGAAAATAGAGAATTAATAGGAAATGCACCTTTAGCCAAAACGTCGTTATCACCAACAAGAGAAGTGGAATATTATGAAAAGTCTTTAATTGATAGTAACAATATTTTTGGAAGTGGTATAACACAAATATCAAAAAACGTATCAAGTTTTGCACCACCAGCAGATAATTCGGCAATTCCTCAAATACTATTAAATCCTTCACAAACAGAAGATAATAAATTAAAAGCGGATTGACTTTATAATTTTATGAATAGTGTTTCTTCTGAAGAAGTTAATTTAGATAATCAAAACTCACTAATTGCAGTAATTGCAAGTTTATTAGGAAACAATATTAATCAATTGGTTGGTAAAGCCATTTCAATTGCAGATATTCAAAAAATTTTGGAATGAACAATTCACTCTGATTCACCAGAATTAGAAAATTTTGAAGATAGATTGCAAAAAATTACAGACTTATCTGGATTATTAACTGATGGTTTACCACAATTGCTGACAAACTTTGTTCCTGGTTCAACAGTTACAGAAGGAGATTGAAAAGAGCAAATTGTAAATATTATAATTGCACAAACGCCATCGTATATAAAGCAATATGTAACTAGATCAGAAAATAGACTTAATAACTTTTCATTTGGTTGACAGATTAATAAATATATACCAGGAGTAGATAATGTATATACTAGATTAAATATTGCTACAAACAATAATATAAATTTAGATATTACAGGTTTACAATCAACTCAAAGTGCCTATAATATGAATAAAAATGAAAGAACCAAATTATTTATTAGTGATTATCAAGCAAAGATTTTAGAAAAATTAATAAATGGTTTTGATGTTACAGACAGTGAGATTAAAGATGTTAGTCAATTTTATGATGCAAAAACTCTAACTATTCCAGTAATTGCAAATGGTCAAACAGATTTTGTACTTAATAATGAATGAGATAATCTTAATAATCCAAAAATTAAAAAGGATAGACTTATCTTAAGGGAAAGTTCATTGAATATACCAAATCAAGCTTGAATGTATGATGATGGAGATTGATTAAGATATAAGAACTCTTCATTTAATTCTGATAAATCTTATATTGAAATGGAAGGACTGTCTGCAAGTAAATTTACACATGCTCCAATTTTTGATCAAACTGGTTTTAACTTAATTAATCCTAAAAATACTGGTGATAAAATAAAGCTTAAAAATAATGCATATGGATTCTATAATTTAACTTCTGATCCTAATTCAAAAGAAGAAAAAATTAATTTTGAAATGAGACCTTATTATTCTTTTGATAATATAACTATGTTTATTCCTGAACTTTATAAAGAAAATTTCATGAAGTTAAAACAAAGTGGTAATAGAGATAGCAAACAATGATGACTTGATGATGCTTCTGATTTTGTTCCTTTAAAAACTAAAGAAGCCTGAGCAAGAGTTAATCCAAATTTAGGGAAAGATACTAAGTACTTTGCCATTAAACCTTATTCACTATACTATGATGCCTCAGGAGACTTTGAACGTGAACAAGAAAATTTATCAGGTACACCAGTTGAATATATGACAAGGGGATATGAGAATCTGTTTGCAAGAACTCTAAGAGAAGTTAATGGACCGATAACATTAGGTAATGTGGAATTAGATTGAAGAGCTAATAATAAAAATGTTCAACAAATCAAATTTAAAAGAGTTGGTTCAATTGGAGTTTATGGACAACCATTAGTAATTGCAGATCAAAGTATTGTTAATATGCTAAGTGGTTATGGAATTTCTAAATACATTCCATTCAATTTACAATATGAAGATTATACGAAACCTAGTGGGTCTTATAATGTTAATAATGTCAGTGTAAAAACTTATCAATATTTCAATCCTAATGATTTTAATGAAAAAGCTAAAAATAATATTGACGAAGTAATTTATGGTGAAAATAAGCTAGAAAAAAGCATTAGACCAAGTATGTGATATAGTGGAATATTATCAAATGCACAAGAACCTTATTTCATTACAAGTCAAGCATCATTTTCAAGAGATTACAAATCTGGACAAGATACTATGAATGGTAATAATTACGGATCTAGTACTTTGGAAATGAAATCAACAATTTTATTAGGGCAACAAAAAGCTCTTATAACAAAACTCTCTTCTATAATTTTAACTGTAGCTACTGTTGCAATTTGTTTATTAATAATAATTATGGTTTTAACAATTACACTAATTAATGACTTGTATGTAAATCAATATAAGAAATTTATGATTGTTATGAAATCACTGGGTTATTCAAATTGAAAAATTATCAAATATACATTTGGTAGTGTAACAATTCTTTCCGCACTATTCTATGCATTAGGAGTGTTTACTAATTTCACTGTAATAGCAATCCTATTTAATATAATTAGTAAAAAACTTGGATCAATTCCATTTGGTTTAACTTGATGAACACCAATATTGGCAATCATTCTTGTATTTGGTTCATTCTTCCTTTCAATTACAATAACAACCAAAAATATTAGAAAAAAATCACCTTCAATTCTTATGAAATAAAATTCTTTAAAAATAAAAAAATGAGCTAAAAAAATCATTTAATTCTATTAAAGAATTTTTTTTTTTTTTTTTGCTTTTAAAAAAGTTTAATTAATAAAATTTAGTAAAGACTACAAAATAAAAAAATATTTTATAACTGTGATATAATTTTAAAAAATAAGGAGCTTAATTATGAGCGAAAAAGTATACCAATTAGATTCTAATCAAATAGGAGTAGTTAAATTTAAAGAACCTTGAATTTTAATACATTTTGAAATTGCAAAAGAGTTAGAGCCTATACAATTTTTTTATTCTTCATTAGAAGAAGCACTGAAAAAAATTGGAATAATCTTTGAAGATAAGGTAATTAATTGCTTAACTTCAAAAAATGAAGGTTATAAAAAACTTTATGAATTAAAAAAATATTTATTGTCAACATGAATGAATCCAGGTATTGAAAATGTGAAAGAATTGCTGGTAAAAGATTATGATTATTTAGAATTTTTAGATAAATCTCCAGAGGAATTAATAAACTACAATCATACTTTTTTAGCATTAACAATTATTCTTATATGTTTAAAATTTAATAAAAATCATTTTCATTATGAAGGAATTCATATTTCTGCTAAATTTGTTGACAAAATGCTAGCTGTTGATTTCTGATCTAAAATTCAAAAAGAAACAACTAAGTAAATATTAATAAGGTTTTGATAATAAGGGAAATAATTTATGAAGAAAAATGGACTATCAGGGAAGGCAATTATAAAAAAAGGAAAACAATTATATAAGGAAAACAATAATAATTCTAATTTTAAAAAAATTATAGAGATCCTATATTTAAATGATTTTTCCTTTTTTCCTAATTATAGTGATATTGAAGAAAAATATTACAAATATGATTTTTTAGAAGGTGTAACTTTGGAAACAGTTCAGACTATGCCTTTAAAATCTACTTTAAAAATTTTAGATATAATTTTAGAATATCAAAGCTTTTATAAGACTAATGAAAATAAAGTAATTGTTCATGGTGATATAAGTCCAGTCAATATTATTTTTGATGATAACTTAATACCAATTAAAGTAATTGATTGAGATGGTTGTTATTTTGGAAGTAAATATGAAGATATTGGCTATATTTGTCTATTATGAGTTAATTTCGGAGATGACAAACAAGAACATGCAAAGTATATTGATGAAATAAAGATTATTTTTAAATATTTGAAATATAATTTACAAGATATCATTGAAGTAAAAAATATAATATTAAATAGGATTGAAAAAGATAAGAGATATTTAAAAGATAATCCTAGAAAAAGAGAAATTGAATATTGAAGTAATTATGTAAAAAAATGAATTCAAATTTATTGAAAGGGTATTGAAGATGAATTTAGTTAATTTTTCAAAAAAAAATATTTGTTTTATTTTTAAAGAGCAAAAGGATCATTGAAAATTATTTATATGAATGTTTTTATATTCTTTAATTCCTGCTATTTGAATTCTAGTAAGAACTTTAGTGATTACACAGTATATGGAAGCCAATATAGATACATATGCTCAATGAGATTATCTAAATATAATGTTAGAAGTTATTCAAGAAACAATTGTTTTTCCATTATTTTGGTGATTTGGAAAAATACATATTGAAAAAAGAGAACACTTGAATAAACTAAGAGAAGTTTACTTAATTACTTTTTTTATTTATTTTATTCTAATTATTATTTTAAGTTTAAATATTGGAGAGCTTGTTAATGTTATTGGTTCAAATCAAGGATATGAACAAAAAATATTTTTTACTTTACAACTTTGAAGTAAAATTCCTGAAATTTTAACGTCAGTTTCAACTGTGGTAATTTTAAATTTAAAAATGTATAAAGGTTTCTTAGTTTTATTAATTAGCAAATTGGGACTCTCTATTATTTTTGATTTTACATTGGCAAATAATCAAGTTTTCAATAATTCCTATGTAGGTTTAGGTGTTAGTACTTTGATAACACAAACACTGTTATTTTTAACTTCATTAATGCTAATCTCAAAAGCTTTTGGTTTTAAAATATTTTTCAATGTAAAAAGTTTTAATTGAAATTTAAAGAAATTAACTTTTACTAAAATATTTTGATTAAATGTATTAGCAGCTTTTATATTTTCAACTGTAAATAATTCATTTTATTTATTTATGATTGCAAAAAACATGAATATAGTTGCAGAAAGTGATGCTTATTGGCTTTCAAATACAGTTATTTGATCTTGAATATTAATGATACCAAATGTTATTTTTGCAATAAATAAATCTATTGTTTCAACAAGTAATAATTTAGATTATAAAAAAAGAGTTGTCTTAATTTTGGAGTTTCAATTAATAGCGCTTATTTCTTTATTATTATCTTTTGCAATTTTTATTCCCACATATAATTCCTTTACATTATTTTTATCTAATAATAATAGTGACTTATCTGAAAGAAGTTGAAATGTTTTCTCTAAATTAATTGGTTTTTTTATATTTTACATTTTAGCTACTAGCTTTAACGCACATTTTAATGGAGAAGGTAAAAATATAATTTTAGCAGTTCAAGCTATTATTTGTAATTTATTAACTTTTGTTCCATTTATTATTCTAAATTCAATAAATCAATTGATTTATGATGTTGAAGTTATTGCATTTATGTTTGGTTTTAGCTTATTTGTTTCATGAATAATTTCAATGATATTTATTATATCTTATTTATTAATTGAGAAAAATAAATATATATCAAATAATATTAAGATCACTGCTTATTAAGCATAGTTATTTAAAAATTTTTAATAAATCATTTTGCTTTATATTAAGATATTGATTCATATTGTTTGCAAGAACATAAATTGATGCTGCTTTGTCATAATACTTTGTCATTTTATTTGGTCCAAAATTAGAATAAGTTTCAATGACTTTATTTTTAACATCACAGATAACTAAATCAACGTTTTCTTTAAAACCAAATGAGTTAAATCCCTTTGAATAAATTAATCTAAAACCATTTTCATTAGAAAATTTATCTTTAAAAATCAGTGAGCTGAATTTTTTAGAGACATTTCTGATAGTTCTTATATTAATCTCCAATATCTGTTGATTATGAATTAGCTTTGAAGAACTATTTTCTTTAAATAAATCTTTACTTTTATCCTTTTTGAATATTTTTGTTATTAGTATCAAATTTTTTATAGTTCCCATATGAATCACCTATAAATATTATATATAAAAAATAGTAGTATAATATTAAAAGAAAAGAGGAATAAATATGGCAAAAGTGGCTATTTTTGTTGCTAATGGTTTTGAAGATACAGAAGTTGTTGCAACAGTAGATGTTTTAAGAAGAGCAGAAAAATTATTTCCTAAGAGTTTTCCTGTTGTAGACATCGTTTCTATTAACGATTCAAAACAAGTAAAGGGAGCTTGAAATATCGAAATTATTGCAGATAAAGTAATTAGTGATATTAAATTTTCTGAATATGATTGTTTAATATTACCTGGGGGAAGAGTTGGAGTTGATCATTTAAAAGAATGTGAAATTTTAATGAATGCAATTGAAAAACATGCAAAGGAAAATAAAGTTATTGCAGCAATCTGTGCAGCTCCAGAGATATTAGGTAAATTAGGTTTAGTAGACGGTATTGAAGTTACTCACTATCCTGGATGTACTGCTAATTTAGAAAAAGCAATTAAGAAACCTCATATTTCAGCAATAGCTGATAAGAATTTTATTACTGGAAGCTCAATAGGAGGAGCATTACAATTTGCACTTCAAATTGTAGATCATTTTACTTCAACTGAAAAAATGTTGGAACTACACAAAACATTAGTATTTAATTATTAATAAGAAAAGCACATATATTGTGCTTTTCTTATATATTTTTGTTATATAATAATTACAAAAGTTTTTAAAAGGGTATATATGAAAAAAATCAATAGTAATTTGCAATTAGTTAAATATTTAATGGCGTTTCTAATAATTCTTTATCATGATTGAACAGCTTTCGGTTATAAAAATGTATTTTTTTTAGAGCCATTTATTGGTGCATCTATGAGTGTATTTATACTTATTACAGGATATTTAAAAGTTGATAGTAAAAATTATAATTTTTTAAATCTTTTAATGATAGTAATTGGTTGTCTAATAATAAATACAATAGTTTGTCTTTCAATAAACAATTTTACAAATATATTAGATCATGTACAGAACTTATTTTTGGGGGGCAGAGATTGATGATATATATGGTGTTTTCTTCTATTGCAACCTTTTATTAAATACTTAAATGATTTTGTAAATAGAACTACAGGTAAATTTTTATTTTTATCTATTTGTCTTTTATTTATATTTTCTTCTGCAACAACTAGTTTATATAAATTTGGTCAAGTATTCACAATGTTTAATTTATTTTATATGATTACTTTTTATTTAATTGGAGCTTGAATTAAAAGATATTATAATTTGGAAGGCATAAAAAAATTTCTAATTCCCACCTTATTACTCTTATTAATTTATCTTCCTATTATGTTTTATAATATAAATGTAGTAAATTATAAAATATCAATGAGCACTTCAAATGTAATTACATATGCTATTTCAATTCTATTATTTTTATTATTCTTATCAATACCATCTTATAATAATAAATTTATAAATTATCTTGGTAAATTATCTCTATATGTTTATTTATTTCATTATATAACTCAAATTATAATTATGGAGAAATTATTTAATAATCAATTTCTAAACTTTAGTCCAATATTTATAAGAAATATTGTATATGGTCTAATTATTTTAGTTGCAACAACAATTATTGCAGTTCCAATTGAATATTGTTCAACTAATTTTGCAAAATATAGTACTCAAAAGATTTTTAATATTTGAAATAAATATAAAATAATTAGTATAGTTTAATAAGCAGAAGATTAATATTTTCTTATTTAAATAGTTTAACTTTTAATTAGATTAGTTAATATTTTTTAAATATGTTAATTTTAACTCTCTTGCTTTTTTTTTTTTTTTTAGTTAGTATCTACTTTAAGAACAAAGAAAATAGGTATTTATTTTATTTTTTTCCAAGCAATTTTTGTAAAGGAGAAAAAAATGAAAAAACTTTTAACTATTTTAGCTGGTTTAGGAATAGCTTCATCTGCAACAACATCAGTTATTGCTTGCGGGAATAAATCTGAACCATCAGTTGAAGAAAATAATGACGTATCAGAATTAATTAATCAATTCAAAAAAGAATCAAGTGAAATAATGGATTCATTTATCAATTCTAAAAAAGATAAGTTATTAGGATTAATTGATGATAATGGAGTTTATAACTTTTTTAATAGAGAAAATATTGAGAAATATGGAACAGATACTAATTCAGAAAGTGCTAATCTAGATGATCTAACTGAAAACTTAAAAGACGATATAGTAACTGATTTCAATAATATTTTAAAAACAATTGACCTAAAATCAGAATTAAATGATTTAGCAACTAAATCAGATAAATTTAATGTAATAATTTGAAACAATGCAGTAGTTGACAGTATTGATTTTGATAAAAATTCTATTGATATTAAATATACAAATAAAGATTGACAAGAAAGTGGAGAAGCTAATCCTAATTATTTCTTGTCTTCAACAGTAATCAATTTAAAAATATCAATTCAATTCAAAAATCAAGATGGCAATAAGGAAAATTTTGATACAACAATACCATTAGTATTTACATATACAAATGATGAGGTCTTGTTAAAAAGTATTGATAAAATTCAAAAAAATATTGAAAATGATTTTTTAGGAACTGAAAGTAAATTTACATGACTAGATTATCAAAATACATTATTAAATCTTGAAAAAAATAGCAGTTATAAAATATTTGATATTTTTAATACAAAAAGAAGAGAAACTATTGTAAATAATATTTATAGCTCCACTCAATTTAGAGATGAGTTTATGAATTTTATTAAAACTAAATATTTAAATGAAATAAATATTGGATTACAGTTTTCAAATAACAATACTCCAGTTATTTCAAAAAATTCAATTACTTCAAAAGTTGAAGCAAATAATTATGATATATTTTTAAATGAAAAAGATGGGCAAAACTATAAGGATATAAATAACTCAGTTTTAATTAACCTTAAAGAAAATGGTAATGAAATAAATTTTAAAGATTATGGCAAAAAAAGTGTAAATAAAGAAGTCTATAATATATTAAATAAAAATTTAAAAATAATGTATGAAAATTATTATAAAAACTTTACAAATTTTTTAACAGAAAGTAATTATGATGGAGTTAATAAAAAGACAAATTCAGTTGCCGTTGGTAAAGTTTCTATTGATGGTTTATCATTGATAATAAATTCAAACTATAAATTACCAATAAATACAGTATCTATAAAATATTCTTTAGCAATTGATAATAATGAAAATAATGAATCAAATGGCGAAAATTTAATTAAAGATACTTCATTTGGAAATGCAATTTATTTTAATGCTATTGAAGGTATTAAATCATTTCAAAATGTTTTTGATACAAAAAAACCAACTATATTGAATGGAACTACTCAATTTGAAACACCTTTTGCTTTTAGTGGAAAAGTTAGAGATCAAGAAATTGAAGAAAATATTTGAGATAGTTTACATCAAGAAAGTAACGGAAGTTATGTTTCATCAGTTAATAAGGGCTTATCTTTATTAAAAGATACACAAGTTAATTTTAGAGATAAGCTTTTAGAAGATGGTAATCAGGGAGTCTTTGATTTAAATTTTGCAAATTATAATAACTCTAGTGGAAAAATATCAGAAGGAGCAATTTATTCAGATGTTTTAAAAACAGAAAAAGGTTATAAACAAAATAGAAGATATCAGGGTTATTATGAAAGAAAAACATCTATTCTTTTAAAATTTAATTTTTTAAGTTTGGTTTTCGTATTTGAACAATATAGTAGTAGTGCTGCTGATAATTCAATAATAATTGAAAGAAGTGAAACTTAATGATCTCACTTAAAAACTATGAAAATAAAAAGTAATATATCTTTTAGTAAATTATTAATATTTAATTTTAAAATTATATTTCATGAGAAATCTTTTATAGTTTTAAATTTACTACTATTATTTTTTCCATTTTTGTTTTCTCTTAGTTTATTTTTTTTAACAAAAGGGGAACAAATAGTAACATTTTTTAATTTTTATATTTTAATCTATATATCATTATTTATATTTCTTTTAATTTTGAGATCTATGCAATTCTATTTTGTTAATTCTATGGATAATAAACTATTGTATCTTGTATTAGCCAATCAAGTATCAAGAATTAAAATATTATTAAGTCAATATATTTTAATAGGTCTTGCTATTTTATTTAATATAATTATTTCTGTTTCTTTAATTATATTTTTTGGCTATTTTCTAACTGATGCCTTTAATTTAATTTTAAGACTCAATCTAGCATTTTTTATCTATTCTTTTGTTTCATCACTTTTTTTAATGTCCTTTATTTTATTGCTTTTGCTTTTTTCAAATATTCAATTTACAACAATAATTTGTACTTTATTAATCTCAATTACTTTTCTTTCAAATATTCCACGTCAGTTTATAGAATCAAAGGAAAGTCAAGGGACAATAAAATTTAATTATAATAATGGACAAATTTATAAAATAAGTGATTTATATGATTCATTTGATTTACAAAAGTATGTTTTAAATTATAAAATAAAATACCCATATTTATCATATGCAATAAATAATTTTATGGTTAATGAAAATGAATTTACAAAAGAAGAATTTATTTTACAAGAAACAATAAACAAAAGAATAAATAATTTTTGAAATAAATTGGGAGTTATAGAAAATCAAGAAACTATAATAACTGGAAGTGATTTGAAAATAAAAAATCTACCAGTTGGTTCGAACTTAACAGATTTAAGAGAATTTCGAGCTGATGATGCAATTGAAGTGGAGTTATATTTAGAAAATACTTTTATTTCAAAAGAAAAATTATTAGAAATGATAATAAGTACTGAAAATACAAATTTAAATTTAGTTTTAAAAGACTTAAGTAATTTTTTAGAAAATATTGAAAATAGTTTGCCTAATTTTCAACAATTTACAAGTGATTATTTTGAAGAGTTTATTTTTGTTAATGAAACTAAAAGCAAAATTTATAAAGATAGCAAAACCAAAGAAGCTGTTTTTAAAAAGGACTATTTAACAAATCTTTATAAGTATAATTTAAATGCTTCGGCATCTTTACAAAGTGGATTTACTTTAAAAGCAGGAGTAACTGAAAATACTTTTGTAAAAAATAAATTGTTCTTTCCTTTAATGTTAGCTTCAAGAGTATTGGAAGAATATTTTATAAATTATACAAGTAAATATATAGTATCTACAAAATATTCTGTGGATACTGAAAATGACGGTTGAAGTAGTTATTCCTCATCAAGAAGTAAATTTGATTTATACAATAATATAAATTTATTTAATGGAATTTGAAATAACTATACAGAATTATCTGGATTTTCATATGAAGATTTTTGATTCAAGCCTGGTTCTAAATCGAAAATTGATTTAAATAATCAAAAAAATATGTTTTTGAATTATAGTAACTACACTTTTAAAATAAATGAATTTAATATAATAGATAAAAATTCTTATAGTTATTATACAAAACCATGAATATATTTAGCTATTCAGTCTGTAATAACAATTTTATTTATGACAATGATTTGTTATAGATATAGCAAGTTTGATCTAAGTTAGGAAGTAAATATGGAAATAAATATAAGAAAATTTGTAAAAAAATTTAAGGCAAATCAAATAGGTGAATTAAATCTAGACATTAATTCAAACAAGATTACTGCCATACTTGGTTCAAGTGGCAGTGGTAAAAGTGTTTTAATAAATTCAATAATAGGCTCTATAAGAAAGTTTAAAGGTAATATTATTATTAATGGAACATCAAGAAAAAAATTTACACATTACAAAATTAATAAGTTAATTAGTTTTTATACACAAACCGATTTTTCACTTTATAGTGTTAATGTAGTCTTCTTTTTAAGAACTATGTGTATAGTTCTAGGAATAAAAAAAAGAGAAAGAGAGCAAAAAATTGAATACTGATTAAAGTTTTTTGACTTATGAGATGCAAGAAAAAAAAGTATTAGTAAATTTTCATGAGGAATGAAAAATCGTTTGAATTTAATTTTATGCTTTATTAAAGAAGCGCAACTTATTATTATGGATGAACCTGGAGCAAATTTAGATTCTTATTGAAGGAATAAAATTAAAAATTTATTGATAGATTATAAAAAACAAGGGAAAACAATTATTATCACTGTGCATAATATTGATGAAATATCAGATATTATTGATGAATACATTATTTTAGAAGGTGGTAAGAAAATATTTGCAGGTACAAAAGAAAAACTAAATATTTATTCAAAATATAAATTATTTATTAAAGATCTTTTTGATGTACAAAAATTTAGAGAATTTTTGTTAGAAGAAGATATTATGTCCTTTAAATATGATAATGATGAAAATTCCTTAGTTATTGCTGTTGATAACTATAGACAAATAAATTACTTATTTTTATATTTAATTAAAAATAATTTACCTCTTAATAATCTTATAAAATTACCAATTAATATGGAATCAATCCATAAGGCTTTAGAAAATAATGAATTAAATAAATAAATGTTTTATAATAAAAATTATAGTTATATAATTTACTTGTTTATTAATAAAAAAAGATAACTTATGTTATCTTTTTTTATTAATTATAATATGGGAGCTAATAAACTTATGAATGAAGATAAATTTTTTACAAATAAAGATGAGCAAGAGCTTTTAACAGAAATTCAAAATGAAATTTTAACTTCAGACGAGGTTTATTTAATATATCCTTTTATTTCAAAAACAATTCTAAATAAAATTTCTTTAACTTTTGATTATTGTTTAAAAAATAAAATAATAATAAAAATAATTTCTACTACTTTTGATGACTTATCTCAATTTAATAATTTATATGAGTTAAAAAAACTTGTCGAAAAGTATAGTAATATTCAAATAAAAATTGAAGATAATTTAGAAAAACATAGTGAAAGAATACATATCAAAGCTGCTATTTTTAAAAGAAAAACAAATTTGGATAGTGCTATAATTGGTTCTTCAAATTTGACTTATAAAGGAATGATAAGTGGAAGAGAATGAAATATTAAGATTATTTCAAGAGATAGTAATGATTTAGTTCAAAAAATGATAGAGGAATTTGATATACTTTGAAATGAAAATTTAGTGGATTTTTCAGATGTGTATCAAAGAGATTTATTAATTCAAAAAGTAAAAGAAAATCAAGATCAAAAAAATAGCTTACAATTAACTAAAATAGATTCCTCAACTAATTATATTAAAAAAAATCTATATAAATTTCAAAAAGATATTATTGATAAACTTTCTTATAGAAGATTTCAGGGAAAAAATAAACATTTAATTGTAATGGCAACAGGAACTGGAAAAACTCTAGTTTCAGCTTTTGATTTTAAAAGACAAATTGAAACTGTTAGTAAGAACCTAAGTATTTTATTTTTAGCTCATCAAAGAGAAATTGTTGATCAAGCATTAAAAACTTATAGAGAAGTTTTAAATGAACCAAATTTTGGAGAAGTATTGTATGATGGAAAAATAATAAGTGAAAAACCTTTACATCTTTTTGCAACTATTCAATCTCTTTCAAATAAGATAGATAATTTTTCAAAAGAACAATTTGATATATTAGTTTTTGATGAAGCACATCATATGGCCGCGAATTCTTTTGAGAGAACTTTTAATTTTTTTAAACCAAAGCAAATCATTGGTTTAACTGCAACTCCAGAAAGAGAGGATGGCAAAGACATTAAAAAATATTTTCATAATGAGTTTGCATCAGAATTAAGATTATGGGACGCAATAAATCAAAAATTATTATGCTCTTTTGATTATTATTGTATTGACGATACCTCAACTGACTTGCAGGGTATAGATATAAATTCCGATAGAGAAATTTTTAGAAAAATTAATACTGATTCTAGAAATGAATTATTATATAAAACAATAGAAAAATATTTAGGTGTATATGCAAGACCTACTGCTTTAATTTTTTGTGTTACAATTGAACATGCAAATATTATTTCAAACTTTTTAAAACAGAAAAACTTAAAGGCAGAGTGCTTAACTGCAGAAAATAGTAAAGATAGAAAAAAAATATTATATGAATTTAGTACTGGAAGAATAAATTACTTATGTGTAGTAAATATTTTTAATGAAGGAATAGATATTCCAGAAATTAACACAATTATACTATTAAGACCAACAAATTCTAAAACAGTTTATTTACAACAACTAGGTAGAGGACTTAGAAAAACTGAATTAAAAAGCAAGTTAGAAGTTTATGATTTAATTTCAAATATTGATAATAAATATGATTTAACTTTAGGAATAAGAAATTTATTTAATTCAAAAATAATTGGCACAAATTTTAATTCAATTAAAAATGGATTACCTTATAATTCAACAATTACTTTAGAAAAACACACAGAACAAATAATTTTACAAAGTCTAAAAAAATGATATGGTAATAAAAACATCATTAAATCTAAAGTAGTAAAATATTATAATAAATATAAACACAAAGCTTTAGAAAAAATAATAGCTGATTATGAACTTTCTTTGCAAGATTTTTATAATGTTCTAGATGATTTATTTTTGAAAACTGCAAGAGAAATTATAAATTATAGTGCTAAAGAAAATAATACAAGTAGAAATAAAAATATTTTAAAGCAGTTTATCTTTTTAGATAATTATCAAATTATAAATTATTTCTTAAAAAGATTAAAAGGACAAATTGATAGGAAACATATTGATTTAGATTTTGACAATTTACTTATGACCTCATTTTTATATGAGATTACAAGTATAGAAAAATTTTTAGATTTATATCCAAATTATTTAGAAATCAAAGATCTAATAGAGCATTTTATTGAAAATAATAAGTTGATAGTAGAAGAATTAATATTAATTTTGGAATATAAATTAAAGTATGAAATATTAATTTTTGAAGAATCTAATAATAAACTTTTATCTATAAATTCTACTTATACTGTAAAGCAATGTTTATCAGTAATAGGAAGAACTAATTTTTTACATTATAGAGATGAAATGAAAGTATTAACTTTTCAAGCTGGATATTTAACTTTTGATAATTCAAAACAAGTAATTTTGGCTGATGAAGATGGAAATGGTTATGGAAAATTAACAAAGTATGATCAAGATAATAATAAATTTTATTGATCTATTCCTGAAAAAATGTCAATGGAACATAAAATAATAAAAGACTTTAGTAATGAGAAAATCAAAAAGTACTTATTTTTACATGATAAGCAAAATTACGATCAAAAAAATATGTTCCTAAAATTATATAAATTTATTGGTATAGGACAATTTACAAAAATGCAAACAGAGAATTATTTAACAGCAGAATTTGATGTATTATAATTCTATTTTATTAATCTTTAAAAGAACAATAATTTAAATGATCATTTACTATTCCAATTGCTTGAAGAAAAGAATATACCGTTGTTTTTCCTAAAAAGGAAAAGCCATTTACTTTTAATTCTTTACTTATTTTTATTGATAAATCAGAAAAAGAAGGGTTTATTTCTTCTTTAGTATTTGAATTATTTATTATTTCATTATTAGTAAATCCTCATATAAAGTTACTAAAACTCTTGTAATTTTCTTGAATTTTAATGAAAGCTTTTGCGTTATTAATAGCAGCTTTTATTTTTAGTTTATTTCTAATAATTCCTGGATTTAGCATTAATTGCTCTTTTTTAGTTTCATCATAAAGAGCAATTTTATGATAATCTCACTGGTCAAAAGCTGTTCTAAAATTCTCTCTCTTTTTTAGAATAATATCTCAACTTAATCCAGATTGATTTAATTCTAAAATCAACATTTCAAATAGTAGTTTATCATCATAAACTGGTTTACCTCATTCATTATCATGATATTGTTGATTTAATATATTTTTATTAGCTCACATACATCTTTGCATCGTTTTTTAATCCTTTTAGTATTTAAATACATTTAAATTATATATAAAAGATTTATCTATAGATTTTAAATTAATATTTAAGTTTAAATTTATAGCCTTTATGCCAAAATTCCATAATTTGTTAAATTTAAATTTATAAAAAAATTCAAATTTTTAGATAATTTAGTTATAATTAAAGTGTCATATTCAAATTAAAAGAAGACGCAAGTCTTCTTTTATATTTGTTAAACATAATTGACAAAAAATATAGGAGGATTAAAAGCCATGACAGATGGTGCAAAACTATTAGATGCGATTTTTGAAATCGTACAAGATAAAAAAATAGATAAAGATATTGTTTTAGAGGGTATTAAAGAGGGTTTTCAAAAAGCATATGAAAAGTCATTTGACCCTGAAGCAACAGTAAGAGTAGATATTGATCAAAATACTGGTCAAGTTAAGGTATTTAAGATTTTAACTGTTGTTCAAAAAATCGAAGATGAATGACTAGAAATTGGGTTAAATACTGCTAAGGAACTTTATGGTGAAAATGTTTCAATTGGTGATAATGTATATGAACCAGTTGAATTTCAAGAGGATTTTTCAAAAATTGCTGTAATGCAAGTTGGACAAATTATTAAGCAAAAAATCCGTGAAGGTGAAAAAAATAAAATTTATCAAGAATTTTTATCAAAAAATCACGAAATTGTTGGTGGATTTGTTAAAGATATTACAGAAAACAGTTATTTAGTAGATATTAATGGTTCAATTATTCCCATTTGAAATAAAAAAATCATTCCAGGAGAAGATTTTGATATTGATGACAGAATTTGCTTCTATATTGAAGAAGTTTCAAGAGATAATAAACATTCCCAAATTCAAGCTTCAAGAATCCATCCAGAATTCTTAACTAGATTAATGGAAACTGAAGTACCTGAAATTTCTGAGGGTATTGTTGAAGTTAAGTCAGTTGCAAGAGAACCTGGACATAGAGCAAAAATAGCTGTATTTTCACATGAAGAAGGTGTTGATCCAATTGGAAGTTGTGTTGGAGCATCGGGGAGCAGAATTAAAAATATTACTAAAGAATTAAATGGTGAAAAAATTGATGTTGTTTTATGAAATGAAGATAAAAAAACATTTGTAATGAATTCATTAGCACCAGTTAAAGTAATAAGCATTGATATTAATGAAGAAAATAATGAATGTTTTATTGTTGTTCCAAATGAGCAATTATCATTGGCAATTGGTAAAAAAGGTATGGCAGCTCGATTAGTTGCAAATCTTGTAAATATGAAAATTAATATTTTTTCATTAGAAAATGCTAAAGAAAAAGATATTGAAATTAAATGAAATGGAAATATTGATGAGGCAGAATTAAGTAATCCAGACTTCTTAAGTAAGGTAAATAAAAGAAGAGAAAAAACAGCGGGTAATTTTAATAAGGATAAAAATTTTGCTAAAAAACAAGATGAAACAGAAGAAATTGTTTTTGTTGAAGAAGATAAGTCAATTGATGAAATTCAAGCATCAATTGCAGCATTTGAAAGTCTAAGTGAAGCAGATAATACTTTTGAATTTGAAGAAAGCATTGATAGTGATGATGATAGTTATGATTCATACTATGAGAAATAATTTTTAAAATATGTCAAAAGATATTAGTCTTAGAAAAGATGCTGCATCTAATAAGATGTATCCAAAAATTGAATTAATTAGAATTGTTAAAAATAAAAGTGGTGACATTTTTATTGATAATACAAAAAAAGCTAATGGTAGAGGTGTATATATAAGACCAACAATTGAAGCAGTTGAAAAGGTAAGAAAAACTAAAGCTTTAGAAAGAAATTTGAAGACTAGTTTAGAAAATGAATTCTATGAAAAACTCTTAGAAGAGGTAAAATTAAATTGGGACTAAATATTGATAAATTATTAGGCTCAATAGGAATGATTTCATCTTCAGGTAAACTAGTTTATGGTGAAAAACTTTTTGATTGCATTAAGCAAAAAAAAGTAAAACTTGTACTAACAACTTCCGATATGGGAAAAACTCAATTAAAGAAAATCAATGATAAGACAAATTTTTATAATATTAGAGTTATTAATAATTTATTTGACTCTCAACAACTAAACAAAGCTATTGGAAAAAGCAATATTAAAAGTATTGGAATTAATGATGATAATTTTGTAAAGTTAATTCTAAAAAACATTGAATAAGAAAGGAGAAGTAGTTATGGCAAAAAATATTAAACAAAATAATAATAAAAATCAGCAATCTAAGAATAAGTCAAAAGCTCATAGTGCTAACTTAAAGAATCAATTAAAGCAAACAACAGAAACTGGTTTAATTGATGGTATTTTTGTTTATACAGAACCACTATCAATTGCAGAATTTGCAAAAAAATTAAATAAGGGCCCAGCTGAAATCGTAAAATGATTTTTTACAAATGGTTCAATGGTAACTCAAAATCAAATTCTGTCAGAAGAACAAATGGGAGAGTTATGTATTGAATTTGGATATGATTTTAAAAAGGAAACTACTGTTACTAAAGAAAATATATTTGAAACTTTTAATGAAAAAGATGATCCAAAGGATTTAACATCAAAACCACCAATAGTAACTATTATGGGTCATGTCGATCATGGTAAAACAACTTTATTAGACTCAATAAGAAATGCAAATGTCACTGAGGGAGAATTCGGGGGAATTACTCAACATATTGGAGCTTATCAAACAACAATTAAATCAAATAAAATTACTTTTATTGACACACCAGGGCACGAAGCCTTCACAGAAATGCGTGCAAGAGGAAGTGAAGTTACTGATATAGTAATTCTAGTTGTTGCAGCTGACGATGGAGTAATGCCTCAAACTGAAGAAGCAATTGACCATGCAAAAGCAGCAAATGTTCCAATAATTGTTTTTGTTAATAAAATTGATAAGCAAGGTGCAGATCCAAATAAAGTAAAAATGGAATTAATGAATTATGGAATAGTTGCTGAAGAATATGGTGGAGATATTCCATTTATTGAGGGTTCTGCAAAAGGAAAATTAGGACTTGATACTTTGTTAGAAACAATTTTATTAATTTCAGAGTTAAAAGATCTAAAAGCAAACGCTAATAAATTTGCAAGAGGAACTGTTATTGAAGCAAAATTAGATAAAAATAGGGGTCCTGTTGCAACAATTTTAGTACAAGATGGTACTTTAAAAATTAGAGATATCATTATTGCTGGGGGAACTTTTGGAACTATTAAAGATTTAGAAAATGAAAATAAAACTAAATTAAATCAAGTATCACCTGGTCAACCAGCTGTTATTATTGGTTTAAATGATGTTCCAAAAGCTGGAGATAAATTTATTATTGTTACTGAAGAAAAAATGGCAAGAGATATTGCTAAAGCTCAATTTGAAAAACAACAAAATGAAGCAAGACAAAAAAATCAGACATTTACTCTAGATTCAATAAAAAATAAAATTGAATCTGGTGAATTAAAATCAATTAATATAATTTTAAAAGCGGATACTCAAGGGACTGTTGAGGCAGTTAGAAACTCAATGTTAAAAATTAGTATTGAGGGAGTAAAAATTAATGTAATTCGTGCAACAGTTGGAGCAATATCTGTAAGTGATGTTACATTAGCTTTAGCATCTGATGCTTTAATTTATGGATTTAACGTTAGACCAACTTCACAAGTAAGACAAAAGGCTGAAGAAGATGGTGTTGAAATAAGATTACACAATATTATTTATAAATTAATTGAAGAAATTGCAGAAGCTGCAACTGGTATGTTAGACCCTATTTTTGAAGAAAAGTCACTTGGAGAAGCACAAGTAAGACAGCTATTTAGACATTCACAAGTAGGAACTATAGCAGGATGTAGAATAATGAGCGGAGTTGTACCTCGTTCCTCAAAAATTCACATTTTAAGAGATGGGATAGTTGTTTATAGTGGAGAAATATCTTCTTTAAAAAATAAAAAAGAAGATATAAAAGAAGCTAAAGAAGGACAAGAATGTGGTATTACAATTAAAAACTTTAATGATTTAAAAGAAAATGATATTATAGAAGCATATAAGGTAGAAGAGGTGAAATAATTATGGCAAAGGATATAAAAATTGAAAGAACTCAATCAACTATTTTGAGAGAGTTAAACTTAATTTTGCAAAGAGAATTTCCAGATAGTGAATACTTAAATTCATTGACAATTCACGAAGTAAGATTATCAAATGATATGGGTCACGCAAAGATTTTTTATTCATCAATGGATGTTAATTCAAACAAAGATGCAATAAAAGCTGAAATTGATGAAAACTTGAAAGAAATTAGAATGATTCTTGCAAGTAAAGTTGAAATGAGAAGTGTGCCAGAATTAACATTTGAATTTGATAAAACTTTAGAAAACGCTAATAAAATTGAAAAAATATTAAAAGATATTAAATAGAAAAAACCTGCATTTATATGCAGGTTTTTTCTATTTATTTTAGCAATTTTTCAGTTAATAATTGAATTCTATTAGTAGTGAGTGTGAATAAAATAATTGCAAATAGATCAAATACCATAAAACTTAATCATGAATGAAAAAATTTAAAGATACCATATATTTCACCATATTCAATATATGATATTAAATAATTTAAAAATGCTGAGCTTAATGGACCGAAAATAAATACTAACATTCCTGAGAATACTAGTGAGATACTTCTATTAAAAGAAGCATTTTTACTATAAACTCGAAATACTTTATCGTATATTAATCAAAAAAGTAATACTCATATTGCTAATCCAATTCCAGAAACAATCCTAAATAATGGACTGTAACCTCAGATTAGAAATTGGAGCAAACCATCTAACAAACCTATTATCATACCCCAGTATATACCTACCACTTGAAAGCTTATAGCAATAACAAAGTATTTTAGGACAAAACCTACATTTACTCCAGTAATATATAATGGAATAATTACATTTATTAAACTAACAGCTGTGGACATACTTAGTAACAAACTGACAAGAGTTATTTTTAGAGTCTCACTCTTAAATCTTGTATGTCTGTTTGACTTCTTTAGTTTGCTGAATTCATAGTCAATATCGATTGATTCCATTGTTTGAATCAATTCTTGTTCTTGACTATTATTATCAGTCATCTTCATTGTCAAATTCTCCTTTTAAACAAACAATTTTATAGAATTCAAATAATATTCACCTCAATAAATATTATATTATAATATATAAAGAATTGGAGTTATTATGCATAGTTTCTTTTTAGATAGAATTGAAGATAATTATTTTGAAATAGTAAATGATAATTTTCATCATATAAAAAATGTTATTAAATTAAAAGAAGATGAGCAAATATTTTGTATTTATAAAAATGAAAAATATTTATGTAGTATTTTTTCAATAAGGGAAAATTCCTGTAAAGCAAAAATAATTTCAAAGATAAAATCATCTAAAAAGAATTATAAAGTAAATTTAATTTTAGGAATTATTAGAGAACAAAAATGAGATTTTGTTCTTCAAAAAGCAACAGAACTTGGTGTAGATAATATTATTCCAGTTGAGTTTAAAAGAAATGTTGTAAAAATAGATATAAAAAATGAACCAAAAAAATTAACTAGGTGATATACAATTTGTGAAAGTGCTGCTAAACAATCAAAAAGAATTGATATTCCAACAATAAATTCAATAGTTAGAAATTTAGAAGAGCTTGAAAATTATAAGGCAGATATTAACTTAGTTTGTTGAGAAGAGGAAACAAGTGAGTTTCTTAAAAAAGAGATTATTAAGGAATTTAAATCAATTAATATAATTATCGGTCCTGAAGGTGGCATTGATGATCAAGAAATCAAGAAATTGAATAATATTGGCTATAAGAGTATTGGTTTAGGAGATAATATAATGAGAGCTGAAACAGCACCACTCTTTGTATTGAGTTGTTTAAGCTATGAAAAGAATGGGGGATAATTATGGATAAAAATTCAAGTAAATTGGTTACAGCAGATGTTGAAGAAATTAACAAAGAGCTGAAAAAAGTTTATATTGATAATAAATTTAAAAAATTTATTGATAAAAATATCTATTATTTAAAAAATAATTTAAAAGATATTATCCAAATAAAAACCCATGGTAGTTATGCAACAGGAGAACTTTATAATTTTGATAAGCAACTTAATATTGACCTGTTAGCAATCAAATATGTCAATAGAAATATGTACAAAATATATGAACAAGAAATTGAAACAAGAGAGCATTTTGATGATTGTTGAATTTGCGAACTTAATAAAGAAATTTTTAATCGTGTTAGCACTTTCTATAAAGTAGCAAATGATATTAAAGTGAGTTGAGTTGAAAAAAAATATAGATCTAATTACCCTAAGAAAATTATTACTTTTGCAGATTCAATCAAAATTACTTTTTATAAGGAAGGATCAGCTGGCTTTTCAATAATTATTAGAACTGCAATTAAACATAATGATTTTTTACCAGTAATTTGTAATAAAACAATGTACAACAGAACCTTTACATTAGATTATGTAAAAACTTTTCGCACATTAAATAAACTATTAGTTAAAAAGTTACAAATTCTTTTTTATTATGTAAGAATTAAATTTAGAAATTTGCTAACTAGACAAGAAAGACTTTTTTTAAAGATAGCAATTATGTCTGAGATACAATATGATTTAACTAAAAGTAATCATTTACAAAGATGATTAGATTATGCTTTTGACTATAATTTTTCAAGTAAAAAAGAAGTAGATAATGTTTTGGAATCAAAGTATATTTTTTATAAACGAACTAAAAAAATAGCAAAATTCTATAATTCATTTAAACTCAAAAATTTGAATTGAGTATTTAATAAAACATATCCTACCATAAAAGTATTCTTGGATAAATATTTTGAGTATATTAGTAATTTTTTAGAAAATAAAGATAAAAATATGACAGGTAATTTTTTCTTTTGATATGATTCAGTTGCATATCTAAAAAATACAATGGGTTCTACTACAATTTCGATAAAAAAAGAAAGTCAGAAATATGATAATTTAGAGTTACAAATTCATTCAAGAACAATTTATCCAACAAATAAAGAAAATGGTTTATTTTTAATTTTTTTACAATATTTTACTTTTGAAATAGAAAGAGATTAATATGAAATTAAACAAAGATATATGAAAATTTAATAAAACTGTAAAAATCTTAACTGTTGAAGAGCAAGTTTTTACAACTAAAATAAATTCCTATTTTAATGAGCTAAAGCTACTTTTTTTAAATGAAAAAATTCATTTAAAAAAAGTAGGAGATTTTGCATATCATTCATATATAAAAGTAAATAATGTTATTAATCTTGATCTTTGCGCAATTAAGTATTTAAAAGGCTCTGCAATTAAAATATCAGATTTAAGCGAAACAATTTTAAGAGTTTCTAAGACATATAATGTAATTCCTGAGATTCATACAGATAAAAATTATATAAATTTAGTTTTTAATTATAAAAATGTAAAAATAAATTTTAGAATTGTTTCTGTAATTGCAAATATTGTAAACAATGAAGAAAAATATTGAGTTAATCGTAATGGTTTGAAAGAAGCTGATATAGTTTTGAAATTAACAAGAGATTTTAAGGTGGCAAATAGATTAAGTTCTGGATTATTAGTTAATTTAAAAAGACTTATAAATTACACTTTAAAAAATGAATTTAATTATACATATGATGCGGACTATTACTTATTAAGGTGATTTAATGAATATTTATCAAAGTCACTTGAATCATTCATTTATGAAAGATATATTAAAAAAGAATTAGAATTAAATATAAAAGAGTTTATGAAGCACGAAAATTTAAGAAAGTGAATTAAAAGAAATATTAGTTTTTTTGATTTAACTAACTTTATTTTTATAAAATTAGATTCAGTGAATACTTACTATTTTAATCAATTTAATTTTGAATATGAAGAAATATTTGATGGTATTTCTCGATATTCAATAAATACAAATTCAACTTTTAAAATACCAATTGATTATTTATCATCAGTTAAGTTATTTGATACTAATTTATTGGAAGATAAAACATACATTCAAGAAAATTTGTCAAATGAAAATGGAGTATCAAATACTTCATGAGATAAATTTAAAAATTATAGACATAGATATATTGTTTCTCCAATAATTCAAAGTGGAGTTGCAAATTATGCAATGTTTCAAAAATGATTAACAGTAAAATCTAATGAATTATATGGGCAATTAAATCAAGATTTAAAAAGTGAAATTAAATCAACAAAACAAAGAGAAGCAATGACAGAACTAAATGATATTGCAAATCGATGACTTACAAAATATAATACAAAACTTAAGTATCTACAACCTTACTTTGATAGAAAATATCCTTTTTACTCAAATTATCAAATAGAGCAGTTAGTTTCTTTAATTATTGAATCTATTAATAAAATTGATGAAGAACAATGAAACATAAAAAATGATAATTAGCAGTAAAATATTTTTATCTTTTAGCTCATTTCTAAAATTCTTTTACATATCAAAAGTTTCTAAATAAAGACTATATATTTTATATAATTAGTTTAATAGTATAAAACTATGTAAAAGGATGGACGCTTATGAAAAAATTATTAAGTTTACTAGGAATTGTGACTTTAAGTGCTTCAACAGGAGCTTCTGTTGTTGCATGTACAAGTGTTTTTGAAAAAGATGATGAAGATTTTGAAACTGGTTCAAAATGAAAAGGAAATGGAACTATTAACAAAGAAGTTTCTAAACTAAAAGAAAATAACATCAAAAAGCAAATATCTAAGGAATTATTAACAAAAGATACAAGTAATAATAATTCAAATCGTGCTGTAATTAAAGAAGAAGATAGATCTTCTTTGGCAGGTAAAGATATTTTAACAGTTAATGATGGAGAATTTGTATTCTCACCATATGCTGATATGGGAATTGTTGAAGATACTGCAGAGTACTTGATGAAAGAAAAAGGAAAAAGTCAAGCAACAAGAGAAGCTGCGGAAAAAGGTTTAGTAAATAATATTGTTTATAATGACTTAGGACAAATTGCTGAAGATACATCAGTAATAACTCAAGATTCAGAAGTTACTTTAGGATTTATGCAAAATGCAGCAGATACAGGGGAATTAGTTCCAATGTGAAATGCTGGTCCATCAAAAGGTGATGGAAAAGGTATTTTAGCTGAAAAAGGTAAAGAAACTGAATATGCTCAATGATTTAATGATCGTTACAGAAATTGAACTGGCCAAGATAAAGACCAAAATGAAAGAATAAAAGGAAAAGGTGGGCATTTAAATCCTGAAAATGTAAGAATTTCATTTGGACCTTTTGCAAATTCATTGTGACATACTGCATGACAAAATAATAAAACTCCAGAAGAGTTAGCACAAGTTATTAAAGCAGTTGGAGATAGATATAATACTAAAAAATTTGACTTCTATTTTGCAGCACCATATTTATCAGCTAGAGGAGATTATGCTGATTCACAAAAATTGCTAGCAGCAGCTTTAAAAATATTAATTGAAAGTGATCCAAAATATGACTTCCAATTATCACTTGTAATGTCAACAAAAGATGGAGTTGCATTAAATGAGGGATTTGGAGCCAATGGTGAAGTTCATTTAAATCTAATTGGAGATGAAATATATCCTTTATATAACTTTACAAAATATTTAGGTATGAATTTTAGATTAAATTTAGTTACTGGTTATTTAACTGTTCCAAATGATGTTAATACTAACAGTGATTGAGAATTGGACATTGTTAAAAGCGGAGCATTAAAATCAGCTCAAAACTGAAATAAATTGAATAATGTTATAAATGGTGTATCAAAATCTTCAAATTTTGTAAATAAAAGAGTAAAAATAACTCCTTGAATTGGAAGAAGAGCTGAAGCAGCAGCATATAATTTCACTCCTAAAAATGCAGCTGATTTAAGAGTTTGAGCAAGAGAACAAAATTTTGGTGGTCTAGGAATGTTTTATATCTCAAGAGATGTACCAAGTGAATTTATTGATAATAAACTTACAGGTCCAGCTCAGGCTGATAGAAATGCATTAGATCAAAATATTAGATCTGGTACAGGTTTTGAGCAATTTGCTTATGCAAAAGCTTTAAATGGAACAAATTCAGGTGAAGCAGTACCAATTACTGAAGTAAAAGATAAGCAAGAAATTAAAAATATTGGTGGAATTGATTATCATGAAGATATTCAAGCAAATACATCTTTGGACCAATTAGAAATTGGTGGTAGTTGAGAAGGACCTTCATGAGAAGGTGGAAGTGGAACAAATCCTGGTCCTGGAGCTGGTGGAGGAAATGGTGGTGAAGCAATTGCTCCACCAACTGGTCCTGGAAAAAGCTTATATACTAAATGAAGTGAAGCTAATCCAAATAGAACTTCTTCAATTACTAAAAAGGAAAAAGCTAATGATTTTACTTACTTTTCACCATATTTAGATGCTGGGTTGTATGAAGGAAATAATATGCAAAGTATTACAACTAATGTTAAAGACTTTGATTATTTAACTCTTGCTTTTGTCCAACAAGTAAATAACCATGGAGATTATTTAGATTTATCAATAGCTGGTACTGCAACAGGTGATGAAGCTTATGAATGATGAGAAAGTAGTCAATTATGAGATAAAATTTTAAAACCTATGGCTGATAAAAATAAATTTGAAAATATTAAAGTTGCTTATGGTGGAGCTACAACAGGTGGATTTACAGATAAAAATCCTTGAACTTTAGCAAATAAATTAAATGAAAATAATCCTGCTAAAGCAAAAGCTGATTTAAAAGAAGCTTTAATTGGTTATCAAGATTCATTAGTAAAATTAGCTGCTAAAAAAGGTAAAAAAGTAAATATGCCAAAAGCAATTGACTTTGATATTGAAGGGCATGCTCAGGAATTAGATGAAGACAATAGGTTATTAGCAGCAACAATTGCTGAAATGAAAAAAGAGGATAAAGAATGAGATTTCTCATTAACTTTACCAGTATTGCCTACTGGACTAACTTCTGTTGGTTATCGTGTAATGAATATCTTCGTTGAAGAGTTTAAAAAAGCTGGATTAAGTCAATCAGATTTACCAGTTGTTGATTTAATGTTAATGGATTATGGAGATCCAATTTATGTACAAGCAATCAAGGATGGTTTAACTAACTTTGATTTAGCAAAACAAGCAGTAAATGCAACAAAAAATAACTTAGCAACTTCAATTGAAAGCAATTATGGAAAAGTTTCAATTGGTAACCAAGGATTGTATAAATTAATTGGTGCAACTCCAATGATTGGTGTAAATGATACAGTTTGAGGAGTATTTACTGAAGAAGATGCAAAGGAATTATATAACTGAAGTCACAAAGTGGGATTAGGTTATATTGGAATGTGATCAATGAATGACGATAGAGGATTAGATGTTCATACTAAAAAACCAATAAACAAGAGCTTATTGACTCATGGTTTAGCCTATTTAGAAGAATATGACTTTGCTAGAGCATTTACAGGGGATTGAACAGCTTCATTGAAAAACCCCAAACCTGAACACAAAATAAAATAATAATAAAATTAGTATAAATAATAAATTAGGCGAATTAGTCTATTGTTATTAAAAAACTCCTTTATTCTAGGAGTTTTTTTAATGAAATAAGTTAAAAATCATTAAAATTTTATATAAAAATATTTTTATATATTAAAAATATTTTTTGCAAAAGAAATTGTTTTTATATATAATTATTTTGTTAGTATAAATATTTATTTATACTAAATATGTGAGGGCAAAATATGAAAAAATTATTAAATTTATTAGCAAGTACAACTTTAGTTGTATCAGCTGGTGGTTCAGTAGTGGCATGTACAAATGTAATGGAAGCAAAAGACAAAACATTTGAAACAGGTGATAAATGAACAGGAAATGGTAATATAAGCAATGAAATTATTACAAAAAAACAAAATAGCATTAAAAAACAAATTTCAAAAAGCTTATTAACAGATGATACAAGTAAAAAAACTTTAACTTATGGAAAAATTGATCCAAAAGATAGATCTTCTTTAGCAAATAAAGAAATTTTAAAAGTTAACAAAGAATTTGTATTCTCACCATATGCTGATATGGGAATTGTTGAAGATACAGCAGAGTACTTAATGAAGGACAAAGGAAAAAGTCAAGGTACTAGGGATGAAGCTGAAAAAAGTTTAAATGGAAAAAACATTATATACAATGATTTAGGAGAAATAGCTGGTAATAAAAATGTTATAACTGAAAATTCAGAAATAACATTAGGATTTATGCAAAATGCAGCAGATACAGGAGATTTAGTTCCAATGTGAAATGCTGGTCCATCAAAAGGTGATGGAAAAGGTATTTTAGCAAAAGAAGGTGAAGAAACTGAATATGCTAAATGATTTAATGATAGATATAGAGATTGAACAAAAAAAAGTTCAAAAAATAAAATAGCAAGTCATAATAATGGAGGTAATTTAAATCCTGAAAATGTAAGAATTTCATTTGGACCTTTTGCAAATTCATTATGACATTCAGCATGAGAAAATAATAAAACTCCAGAAGAATTAGCACAAGTTATTAAAGCAGTTGGAGATAAATATGGTACTAAAAAATTTGACTTTTATTTCGCATCACCATATTTAACACGTCAAGGAAGTTATTTAGATTCACAAATATTATTGGCTAGTGCATTAAAAATATTAATTGAAAGTGATTCAAGTTATGATTTCCAATTATCACTTGTAATGTCAACAAAAGATGGAGTTGCATTACATCCTGGTTTTGGAGATGCTGGAAATAATAATTTAAATTTATTAGGAGATGAGATATATCCTTTATATAACTTTACAAAATATTTAGGTATGAATTTTAGATTAAATTTAGTTACACAAGCTTTAACTGTACCTAATGATGCACACACTGATAAAGATTGAGAATTAAAAGTTATTCAAGACGGAGCTGAACAATCAGCAATTAATTGAAATAAAATTAATGAAGTTACAAATGGAGACAACAAAGGAACTCCATTTACTAAACAAAGAATTAAAATAACTCCTTGAATTGGAAGAAGAGCTGAAGCTGCTGCTTATAACTTTACTCCAAAAGATGCTGCACAATTAAGAACTTGAGCTGTTAAAGAGGGATTTGGTGGACTAGGAATGTTCTATATTTCAAGAGATGTACCAAGTCATTATGAAGATAATGGTTTAGAAGGTCCAGCTCAAGCTGATAGAAATGCATTAGATCAAAATATTAGATCTGGTTCAGGATTCAAACAATTTACATATGCAGAAGCTTTAAATGGAAAACTTTCAGAAAATGAAATTCCAGAAGAAATTAGAGATAAAGATGAAATTATAAGTAAACTTAAAGCAATTGACTATAAAAAAGATATTCAAGAGAATAAAGCGTTAGATCAATTAGAAAATGGTGGTAGTTGAGAAGGACCTTCATGAGAAGGTGGGGGAGGGATTTCAAATCCTGGCCCTGGAGCTGGAAATGGTGGAGGAGAAGCAATTTTACCTCCAACAGGACAGGGAAAAAGCTTATATACTAAATGAAGTGATGCTAATCCAAATAGAAAATCATCAATTACTAAAAAAGCAAAAGCAAATAAATCAACATACTTTTCACCATATTTAGATGCTGGATTATATGAAGGAAATAATATGCAAAATATTACTTCAAGTGTTAATGGATTAGACCACTTAACATTGGCTTTTGTACAACAAGTAAATAATCATAGTAATCATTTAGATTTATCAATAGCTGGTACTGCAACAGGTGATGAAGCTTATGATTGATGAGAAAGCAGTCAATTATGAGATAAAATTTTAAAACCAATAGCTGATAAAAATCAATTTGAAAATATTAAAGTTGCTTATGGTGGAGCTACAACAGGTGGATTTACAGAAAAAAACCCTTGAACTTTAGCAAATAAATTAAATGAAAATAATCCTGCTAAAGCAAAAGCTGATTTAAAAGAAGCTTTAATTGGTTATCAAGATTCATTAGTAAAATTAGCTGCTAAAAAAGGTAAAAAAGTAAATATGCCAAAAGCAATTGATTTTGATATTGAAGGACACGCTCAGGAATTAGATGAAGATAATAGATTATTGGCAGCAACAATTGCTGAAATGAAAAAAGAAGACAAAGCATGAGATTTCTCATTAACTTTACCCGTTTTACCAAGTGGATTAACTTCTGTTGGTTATCGTGTAATGAATATCTTCGTTGAAGAGTTCAAAAAAGCTGGATTAAGTGAAAAAGATTTACCAGTTGTTAACTTAATGTTAATGGATTATGGAGATCCAATTTATGTACAAGCAATCAAAGATGGTTTAACTAACTTTGATTTAGCAAGACAAGCAGTAAATGCAACAAAAAATAACTTAGCAACTTCAATTGAAAAAAATTATGGAAAAGTTTCAATTGGTAACCAAGGATTGTATAAATTAATTGGTGCAACTCCAATGATTGGTGTAAATGATACAGTTTGAGGAGTATTTACTGAAGAAGATGCTAAAGAATTATATAATTGAAGTCATACAGTAGGATTAGGTTATATTGGAATGTGATCAATGAATGATGATAGAGGATTAGATGTTCACTCTAAAAAACCAGTAAATAAAAGTCTATTGACTCATGGTTTAGCATATTTAGAAGAATATGACTTTGCTAGAGCATTTGCAGGGGATTGAACAAAATCATTAAAAAATCCAAAACCTGAACATAAAATAATTAGAAGAAAATAATACTTCTTTCTAGAAAATTTCTTAAAAATCCCTTTTCAAAAAGGGTTTTTTAAGTTAACATTAATACTTAAAAAAACTATTAATTTTAAAAAACCTTTTTATAGAGTAAGAATAAAGAAATTCTAATTAATTCTATATATAAAGGTTTTTTTATAAACTAAATATAAAAAAATAACTCTAGTTTAGAAAATAAAACCAAAAAATAGCAATGATTAGATTTGCTTGTTTAAATAATTTATAAAAAAAACATATTCTAGATTTAAAAGAATATGTTTTTTTTATTTTTAAATAGTAATTTTTATCACTTGTCAGTTCCATCATTGTGGTCTTTTAACATTTGAGCACGTTTTCTAATGTAATCTTTTTCAACTTGACCAATATTATGATATACATCTCGACTTGCTTTAATTCTTAGTTTTTTTAATTCTTCATCACAATATACTCATGTCAGTCAAACAATATGGAAGTGTCTTAAATATTTAATTTCACTTTCATCATACATTTCATAACTTAAAGCTTGTGCCTCTTTTTGAGCAAAATCAACTCATTTTTGCGGATTAATATTTTCATTGTAAGCCTCTTTAGCTAATGCTTGAAATGAAAGAGCCTTTTTAACAATAACTTCTTCAAGTGATTGTAATGTATTTGAAATTTCTTCAATTATTGCTTGATCAAATTCTTCAAATGAATTAAAGTGATGTTTTAATAAGTAAAACATTTTTGTGTTAAGATTGCTTACAGGATTACCTGAGCTATTCAAGTGTTCCTTTTCAGAAATGATTTTAAATTCATTTTCAATCTTTTTATAAAAATCTGATTTTCTACGCATATTTGTCACCTAAGTTCTTTAACTTTTTATATTATATCATATTTTCTAAATTATTCTTAGAGCAATAAAGGGTTATGTGTAATAATAAATATAGGAATGCTTTGGAGGAAATAAAATGAATGGCAAATCAGGAGTGCTTTTAGTGCGCAAACCAGAAGGAATTACTTCTAATGATTTAATTCAAAATGTAAAGAAAAAATTTAATATAAAAAAAATTGGCCATGCAGGAACTTTAGATCCTCTAGCAACAGGATTAATGGTAATTTTAATAAATCAAGCAACAAAGATTTCAAATTATATTTTGAGCAGTGATAAGAGTTATATTGTGACAATGAAATTATTTATACACACTGATTCACAAGATATTACAGGTAAAGTTGTTCAAGAAGAAGAATATCGAAAAATTTCAAAGTCTTTAGTAAAAGAAATTGTTGCTAAGTATAACGGCTATATTTATGATCAATATCCACCAATTTACTCAGCTGTAAAAGTTGATGGAAGAAAGTTATATGAATATGCAAGAAAACAACAAGATGTTGAAATTAGACCCAAGAAAGTTACTATTAAAGAATGTAGTTTAATAGATTTTAATCAAAAATTAGGAACAATTAAATTAAATGTCAGATGTAGTAAGGGAACTTATATTCGAAGTTTGGTTTCAGATTTTGCAAAGGATTTAGAAACTATAGCCACAGTTATTCAATTAGAAAGAACATCTTCGGGTGGTTTAAACTTAAGTGAAGCAAAAGAACTTGAAGAAATAGAACAAAAAGATTTAATGAGTATGTATGATGCATTAATGAAAAATGATCATACTTTAATTGAATATCATAGAATTAGAGATATTAAACAAGGTAAGGCAATTAGCTTGAGTGGTATTAACTATCCAATAATTTTTATTATTAATGATTCTAAAGACGTGATGGCAATTTATAAACATATTGCCCATGATCTATATAAATGTCAAAGAGGTTTATGAGATGAAATTCCTTTGGATCAGCTAACAGAAGCTGAAAGGAATGGATATTATGATTAAATATCAAACCTTTCTTAAAGATAATGAAGTGTTTGATTTAAAATTAAAACCCAATATTGTGTGTATTGGATTTTTTGACGGTCTTCATAAAATGCATAAAAAAATTTTTAATAAAACCAAAAAAATAGCAAAAGAAGAACAAATGATTTGGTCTATAATTACTTTCTCAGAAAAAGTATCAGACTTTTTAAAAGGGGTAAAAAGTAGTTTAGAATCAAGAAATAGAAAATATCAAAATATTGAAAAAAATTATCTTCCAGATTATTTATTTGAAATTAATGTTAATAATGAATCAATCAAATTGACAGCTAATCAATTTTGTTTATTTTTAAAGGATAAATTAAATGTCAAAAAAGTAGTTGTAGGTGATGATTTCAGATTTGGTTATAAAGGCGAGGGGAAAGTTTCTGATTTACAAAATTTTTTTGGAATTGATAATATAATTGTTTTCAAAAGAGTTTCAAATATTTCAACTTCACTTATAAAAGAAAATTTGGCAAAAGGAGAAATTAAAAAAGTTAATAGTATAATTGATGAAAATTTTACGACTACTTTTAAAAAAACTGGTGAAAAGCTTTTTTTAATAGAAGACTATAATATAGTAATTGGAAATGGGCAATATTTAGTAGTAATTAATGGTAAAACAAGTCAAATTCAATTAGAAAATAATGCTGTAATTTTAGATAATAAAGAAGAAATTTTGGATATTGAATTTTTAAAAAAAGTATAAAAAGAGCTTTATTTTTGATATACTTTTTAAGTATTGATGTTTTTTCTCTGATTTGATTTACCCTAAATCTCTTCTATGATAAAACAATTTTCAATCAAGAATTAATAGGGGGGTTATAGACATGGTTTCTAAAACACAAATTGAAAATATTGTTAAAGAATTTGGAGTTAATGCAAATGATACTGGTAGAGCAGAAGTTCAAATTGCTATTTTAACTCAAGATATTCAAAATTTAACAGAACACTTAAATTTACATAAAAAAGATATTACTTCAAGAAGAAGTTTATTAAAAAAAGTAGCTCAAAGAAGACACTTATTAAACTTTTTATTTAAAAAAGATGTTGAAAGATATAAAACAATTATCGAAAAACTAAAAATTAGAAAATAGTGTATCAATTATATTATTTTTTTATCTATTATTATTTGTTATAGAATACTTTTAAAAAATAATGTATAATTAAATCATATTTTGATAATAAAAATAACATTTTTATCAAAATTTAGTATTTTTATTAGAAAGACGGTGTTACTATATGGCAACTGCAAAAACAACAACAGGAAAAAGTACAACTGCTAAAAAAGCAGGAGTAAAATCAACAAGTGCTAAAAAAGCAACTGCAAAAAAACCTAAATTATCAGCTGTTAAAAAGGCTGCTTCAAATAAAATGAGACCTGAGCATATTCAAACTAGAAAAAAAGCATCAGATCCAAAACCAGAAAAAATTATCAATAAAGACATCAAATTAAATGACAGTCAACAAAAATTTATTTGAGAAAAATCAGATCCAGTTTCAGCAACAAATTCATCTATTTATAGACAAGATATTGCTGGAGCAATTATTAAAGTTAGTGAATATGGACAAGCATCAGAATTCGGTTGAGTTTATGCTTTAATTGATCAAGATGGAGAAAGAGATGACGTAAATAACGTTGTTGCTTTACATTGAATGAATGCAAAAGTTAAACGTAAATTAGACGAAAATTGAGTAGCTGTAGTTACTGGTGGAAGAGACATTTCAGGTCTTTTTAATCAAAAAAAAGAAGTTAAAATTGCTGGTAATCAACTAGGAAAAACAAAAAAAACTGTTTTATTCCAACCTTCAATAGTTGAACCAAGAAAAGTAAATATTAAAATTAGATCAGCTGTAGGAAAAAAATAATAAAAAAACCTTATTTATGTAAGGTTTTTTTATTATATAATTATTATGTCCTTAGGGACGCCAAGAATATTTGTTATTCTTTATGTTTGCGTGAGATATTAAAGACCGCTCAATAAATAAGTATTTCCTTTCTCATGCATTTGATAGCGGGTGGGAATATTTTTTTTTGTCAATTTTTGAAAGGTTGGTATAATTATGAATAAAATAATAGTTATAGTTGGACCAACAGCAAGTGGTAAAACGGACTTATCAATAAAAATTGCAAAAGAATTTAATGGTGAGTGCATTAATTCAGATTCAACCCAAATTTTTAAAGGAACAGATATAGCAACAAATAAGATAACAACTCAAGAAATGCAAGGAATTAAACATCATCTTTTATCAATAAAAGAAGTTGATGAAAGTTATTCTGTTGCTGAGTTTCAAAAACAAGCACGAGAGAAAATTGCACAAATATTGGAAAGTAATAAAACTCCAATAATTGTTGGCGGAACAGGACTTTATGTTAATGCAGTTTTAATGGATTATAATTTCACAAGCAATGATCATATTGAAAATTATGTTGATAAATATAAAGATAAATCAAATGAAGAAATATGAAATATTTTGAATTTAAAGGATAGTTTGGAAGCACAAAAAATTCATTCAAATAATAGGTATAGAGTAATTAGAGCCCTAGAACTTATAGAATTAACTGGAATGACTAAAACTAAACTAATAAAAGATAATAAAAATTATTATTACAATAATTTATTAATTATTGGAATATCTGCCAAAAGAGTGGAATTATATAGTAAAATAAACAATAGGGTACTTAGCTTAATAAAGAAAGGTTTGTTTGAAGAAATTCAATTAGCTTACAACGCTAATAATTTAAACAAAAAGGCTCAATCTTTAAAGTGTATTGGAGGTCCAGAAATCATAAAATATTTTGAAAAAGAAATAGATTATGATCAATGTATCGAACTGATGCAAAAAAACAATAGGCATTATGCAAGAAGGCAGTTAACTTGATTTAAAAATCAATTAGACAATGTTAAATGATTTGAACATGATTATGAAAATTTTGAAACCATATCTAATCAAATTATTGAATATATCAGATCAAATCTTTAACTTGAAAATTGAATAACAACAAGTTAGGAGACTTAATAAATGTTGTCTGTTTACGAAAGAGTAGAGAACTTAATTAAGGACAATAAAAATACCACTTTTAAATTAATTGGAAAACAAATTCTAGCAGATTGATCTGTTGGAGTCTTTAAAAGCCAAAGTGAAATTAGTAAAATGTGTTTTGTTTCATTAGCAACAGCAACACAATTTGCTAAAGCGTGCTATTGCGAAGGTTATAAGGAATTATCAATTAGATTAAAAGTTGAGTATGAAAATGTTATGCAAAATAAAATAAGAGCAGATCAGCCAAATCAAGCAGATATGACAGGAATGAGAGCTGTTATAAATAATTGAGTAAGCGAAAACGATGGTTTCTTATATGATTTAGCTAGTAAAATAAATGAGAGAAGGAAAGTTTGGATATGTCCATCATATCAATCGATGTATTCTGCTAAATTTTTAGAAGATGTTTTAACGAATGTGGGAATTCAAACTAAAATAATTGATATTTCTATAAATTTAGAAGTTGGGAAGCATTTAGAGTTTAATAATGAATTAGTTATTATTTTATTGACTGGAAGAGATACTGATACAACAGTTCTTGCTTTAGAGTATTTAATAAAAGCTAAAAATGATATTTTCATTATAACTACTCCAAGTAATATAGCAGAGCTACCCGACATTAAGGAACAAAAACATATGTTAATTAACTTTCAAGATAATAATTTTTTTTACAAGTATAGATGTTATGCATTAATTTCATTGTTCTTTTCATTAAGTGAAAAAATAAGTTAAAAATATAAAATCTTAAACTGTAAAAAGTATTTTAAAAGTATTGACATCTGCGTACTAATTATATATATTTATTAATGTGATTATACGCGGGTGTAGTTTAATGGTAGAACTTCAGCCTTCCAAGCTGACTGTGAGGGTTCGATTCCCTTCACCCGCTCCATTATGAAAATTCAAATCCCTTAAGGGATTTTTTTATTTTGTATTTATAATAAGAATTAAAGGAGTGGTGCAATGTTAAATAATCAAATAAAAAATTTTAATGAATCTAGAACTCCTTTTTTTAAGAGTTTATTTTACTTGAGTATAGAATCACTAATTCCAGGATTAACTATTTGATTTCTAGTAGGCTTTGATTTTAATTTTTCAATGACAAATAAGTTGCCATTTCCAAATGTAGGGTATGTTTCATTAATTTGTATTATATTTTTTATATATACTTTTTTAACAACATATCTGTTTTACAAATTTAAATTTCATGAAACAGATATGTTTACTTTTAGTTCATTAATCTCTTTGATTTTAATTACAATAATCTTATTTGGTAGTTTTATGAATAGTACGGGATTATGATTATTTGTTAGGTTTCTTGCAATAGTTGCTATAGTTATAATAGCAACTCCAATTTTTGTTTTTATTAGTGTTTTATTTAGAAATAAAGAAATTAAAAAAATTGAAGACTTTGAAAAAACTCTTGAAGCATATAAAAAGGGTGAAATTATACCCAATAGTAAGTTATTAAAAGCACAAAGATATCAAAATTATTTAGTTAAAAAACAAAGTAAAATAGAGGAACTTAAACAGTTTCGAATTGATTTAGATTTAAAAATCTCAAAGGAATTAGAAGAGCAAGAAATAAAAAGAGAAATGAAAAGAAAAAGAATAATAGATAAATTAGATGAAAAAGAAAAAAGGCAAAGAGCAAAAAAGCAGAAAGATTAGTATATCTTTCTGCTTTTTAATCTTTCCAATTTACTTTCAAAAATTTCTTTAAAAATAATTTGTTTCTTTTTTTCAAGCATAAAATTTGCTCATAATGTTCATAACAAATCTTGATATTTAATCATTGAATTTAAAATACCTATCTCATCAACATAAATAAGTTCTTTTTCAATGCATTGTTTAATGAAATATTTAATCATTTTTTCATCATCGTTTAATGTTTCACTAATAAAACTAGCAATATCAAAAAATTTATTATTTAAAGAAATATAATCATAATCTATTAAAATAATTTTATTTTTATTTACTAGAATATTACCAGGCACTAAGTCATTGTGACTTAAAACTAGATCTAAGCCATCAAATTTATCGATTTCTTTACTTATTTCATTAAAATGTAGTTCAAAGTTAAATAAAAGAGTATTAGTATTATTTTTAAAAGTTGCTAAAAGTTTATGATAGTCAAATTTCTTTATTTTAAATTCCTTTGAATTAAAATTATGAAGTTTTTTTATTAAATTGACGACGTTATCTATTATTTCCTTAGTTATTTTAATATCTTTAAGAGTTTGAAAATCCCTTAGAAACTTATATTCTGAGAATAATTGATTATCTTTTCAATAAAATTTTAAAGGAGCTAATAGTATATCTTGATTAATATCTTTTAATTGCTTTAAAAAATTATATTCATTTTCTTTATCTAAATAAATATTGTGAAAATCTACTGATTGTTTTTTTAAAATATCTTTTTCAAGTTTCACTTTATTTGTATATCCATTAAATTTCATTTAATTAACTCCTTAAGCCATTATTATTATAATATTAATTAGATATTAAAAGGAGTTATTTATATGAGTGTTTTATGATTTGCATCACAAAATCTTAATAAAATAAAAGAGATGAAAGAAATGATTCCTGAAATGGAAATTAAATCATTAAATGATCTTAAAGAAGTAATTGATATACCAGAAAATGAACCAACATTTGAAGAAAATGCTTTATTTAAAGCAAGAACTTTAGCTAATCTAATTGAAGGTATTGTTGTAGCAGATGATTCTGGATTAAGTATTAAAAATTTAGACAATTTTCCTGGAATTTATTCAGCAAGATGAGCAAAACCAGAAAAGGATTGAGTTAAAATCAATGAGTTATTATTAGAAAAACTAAGAAGAGAAAAATTAATTGAAGGTGAAGAACGAAAGGCATTTTTTACTTCTGCAATTGCCTTAATTGATAAGGATAAGGGGATTGAAGAAGTATTTACAGGAATTGTAAATGGAGTTATCGTTGATGCTCAAATTGGCGAAAATGGATTTGCATATGATAGAATTTTTAAACCCAATAATTTTAATAAAACTTTTGCTCAAATGACTAAGGAAGAAAAAAATGCAATTTCACATCGAAAACTTTCAATATCTAAATTAAGAGAGTATTTACAAAAAAACAACTATTTTTAAGGAGAAACAAAAATGAGAAAAATTAATATAATCTTATTTGAACCAGAAATTGCTGATAATGTTGGAGCTATTATGAGAACTTGTTCACTTACAAATTCAAAATTACATTTGATAGAACCATTTGGTTTTATTTTTGATAAAAGAAATTTTGCAAGAAGTAGTGCTAATAATTTTGAAGGTTGTGAATATAGAAGATATGATAATTGAGATGATTTTATCAAGCAAAATCCAAAAGCTGATATTTTTTGTATGACTCGATATGGAAAAAAACCAATTAGTGATTTTAATTTTAAAGAAATTAACAATGAAATATTTATAATGTTTGGAAGAGAATCAACTGGAATACCAAAAAAAATCCTAAAAGAAAATCTTGGTAAATGCTTTAGAATACCAATGGTAGCTTCAGGGAGAAGTTTAAATATTGCAAATTCAGTAGGAATTGCAAGTTATGAAGTTTTAAGACAATGAGACTATTTAGAACTTTCAAAAGTTGAAGTTGAAAAGGGAGAAGACTATCTAGATAGAGATTAATAATATATAATATATGTTGTATGAAATAGGTGAAATAATATGAAATTTTCAGATTTTGGATTTAAAAAATTTATAAATGATGCATTAGAAGAAATAGGTTTTGTTTATCCAACTAAAATTCAAGAAAAAGTTATTCCTCTTATAAAGAAACATAGACCTGTTATTGCTCAATCACATACAGGAACTGGAAAAACTCATTCATTTTTATTGCCTATCTTAAATAATATTGCATATGATGAATCTAATAAAATTCAATGTTTAATAGTAACTCCAACAAGAGAACTTGCTAGACAAATTTATGAAAATACTAAAGATATTTTAAAGTTTAATGATAAGGGAACTGTTGGTTTATTTGTTGGCGGTGATGATATTGAAAAATCAATTCAAAATGTTAAAACAAAGCAACCAACTGTAGTAATTGGGACACCAACAAGATTAAAAAAAATGTATGAAGAAGGTAATTTATTTATTACTACTGCAAAGTATGTTGTAATTGATGAGTGTGATATGATATTTGATCTTGGTTTTATTGAAGAAGTTGATTTTATGCTATCAAAGATAAACAAAGATGTGAATGTTTCATTATTTTCAGCAACAATTAATAATGGTTTAAAACCTTTTTTACAAAAATATTTATCTAATTCAATTTTTATTGAGAATAAGGACGCAAACCCAACAAACAAGAATATTGAACATGTTCTTGTTTGAACAAAAAATAAAGAAAATAAGGAAGTTCTTAGAACAATTGTTAGTGAAATTAATCCCTATGTTTGTATGGTTTTTTTAAATAAAAAAGATCAAATTAAAGAAATCATTTCTTGATTGAATGAATTTGGTATTAAAAATGTAGGTGAATTACATGGAGACTTAGATTCAAGACAAAGAACTAATATGCAAAAGCGAATTCAAAATGGAGATTTTAAGTGAATAGTAGCTTCTGACGTGGCTGCAAGAGGGATCGATATTGATGGAGTGAGTCATATTATTTCAGTTGACCTGCCAAAAGATTTAGACTACTATATTCACAGAAGTGGTAGAACTGGAAGAAATCAATATTCAGGACAAAGTTATGTTTTATTTAACTCTACAAACCAACATCAAATTGATGAGCTTAAATCTAAAGGAATTACATTTTCAAACTTTAAATTAGCAAATAATCAATTAGTTGAAATTAATACTGTTAAGAAGAAAAAAGACTTTAATGCTAATTTACCAGTGAATGTCGAGACCAAAAAAATTATTGATAAATATAAGGGTCAAAAAGTTAAACCTGGATATAAAAAACGCAGAAAAGCAGAAGTTGATAAAGTTAAAAAAGACATTAGAAGAAAACATATTAAGGAATCAATTGCTAAAATTAAAAAAGATAAATATAAAAAACGTAGAGAAGAGTTATTTGAGAATTAATTTAACAACTCTTTTAAAAAGCAATTTAATGTTTTATAATAATATGTATTAGAGGGAATTTTTATGGATATAACAGAAAGAATTAAAAAATTAATATCAGCAATTTCATATCAAGTTTATGAAAAGGAAACAATTTTTAGACTTGCAATGTTAGCTCTTTTAGGTGAAGAGTCAATTTTCCTTTTGGGTAAACCTGGTATTGCAAAATCATTGATTTCACGTAGGTTAAAATTTGCCATTAAAGGTGGTACTAATTTTGAGTATTTAATGAGTAAATTTTCAACTCCTGAAGAAATTTATGGACCAATTGATTTGAGATTATTAAAGGAAGGTAAATATGTTAGAGTAGTTGAAAATTATCTACCTGCTTCAAATGTTGGGTTTTTAGATGAAATTTGAAAAGCTGGACCAAGTATTCAAAATACATTATTAACAATTATTAATGAAAAGATTTTTAGAAATGGTGGAACAGATATAAAAGTTCCATTAAAACTATTAATATCAGCTTCAAATGAACTACCTGCAGAAGGTGAAGGATTAGAAGCTTTATTTGACCGTTTTATAATTAGATTTATTGCAGAAGGTTTAAAAAGTGATGCAAATTTCGAGCAACTTTTAGATGGTGAATCATCACTTGATGTTGATGTTGATCCAAAGCTTCAACTTACTCTTCAAGAATTAGAAATATGAAAAAAACAAACAAAGCAAGTTAGAATTAGTAGAAAAACTCTTGATTTTATTCACTATTTTAGAAAAAAAATATTAAAAGAAACAAATGGTGAAGCTTATATTTCTGATAGACGTTGAAAAAAAATATCAGGTCTAATGAAAACAAGTGCATTTTATAATGGAAGATCAGAAACTGATATTGCAGATTTATTCGTAATTCCTTATTGTATTTGAGATAATGAAGAACAAGAAAAACAGTATTCTGAAATTTTCTTTAATACATTTTTGGAACAATTTGGTTTAGAATGAAGAAATGAAAAGAAAAACTTAATGAATCAAATTGATTTAGTAAACTCTCAAATTGGTCAAACAGAAGCTCAATTTTTAAGATTAACACCATATACAGACCCATTTAAAGGTTCAATTGCTGGAACTTATTATTTTATTAATTTTACAGATGGTGGAGATAAATATAAAATTTGTTTTATATCTGCAGGAGATTGAAATAAGATAAGAAATTTAACAAATGAATCATTTGAAATTGATTTACATTTTGGAGTAAATTTAAATAAATACTCAGGAAGTCAAAAAACTTTGGTTAGAGCTTATAAAGCAGATCAAATTCTTTTTGTAAATGAAAATAAAAAATATTTATTACAAAATGAAAGTCCGAATGAATTTAATCAACAAATGAATAATTTAGCAGATAATATTGCTGAGTTAGAAGCAAAATATAAAGAATTATCAGCAAAAATGTTTAAGGAATACAAAAAATATATGAACATGAATTGTATTTTCTTTGAAGAAATTTATGATGAAAAAATTGCACAAGCATTTGATACAAAAACAAAAAAACAGTTAGAAGAAGAAGCAGCTTTGGAAAAACAAATGAAACTAAATGCAAAAAATAATAATATGAAAAATCCAATTGAGGATTTAGACTTTAAATTAGAAATTTAAGTAAAGAAGGAAACTATTATGAAATTTGACTTAGATAAACCAGTAAGTGAAATAAAAAAAGAAATTGACAAACTTAGACAAAAAGACATTCATAATAGTGAATTTTTAACATTTAAAAAAAATCATGAATATGCAGCTGAACAATTAGATGATAAAATTAATAATTTTTATTCAGCTTCAAATTTATCTACAATAAAACAAATAAAACTTCCTGAACCAATAAGAAAAGAAATAATATATTATAATTATATTTCTGAATATTATGACGAAGTAAGTTTTGCTCAAAATTTAAAATTAATTCAAAATAAATTGGTAGAATTTGATTCTCCTTTTTCGACCTATATTGATACAATGAATTGAAAAATTGATAATGGATATATAGAATTAAAAGGCAGAGATTGATTAACTGAGTTTTTTAAAACTTGAACTTTTATGTTAACAAAAAGAATTGTAGACTATAGAATGAAAGCTGTTGAAGACTTGAGATATAATTATTTAGTTGAAATCTATTCAATAATTAAGAATTATGGAAAATATGCAAAAATCTATAAAACAATGTATGATGTTTTTGGAAAAGTTGCAAATATTGAAGATGAATTGAGAAATCAAAATATTGAATCAATTGCTAGATTTGCTGAATTTTTATACAAGGATCCTTCAATTTTAATGATTGCTGAAATGTTAGGGCGATTAAATGGTGAAGATGATTTAATGGAAATAAATATAACTGAACAAGTTGTAACATATCCAACAGAAGTTAAATTACCTTATAATCCAGAAGAAATTGTTGGTTTAACTGTTTCAAAAGATCTTGAAAGATTGCTTCCAATGGAATTTGCAGCTTTATTTGATGAAGATTTAGAAATTATTTTTTATAAGAAGTTTGTAGAATCACAACTTCAAACATTTTTATTTGAATCAAATGAAAGAGTTATTGAACATGAAATTGAAGAAGTTGAATATGAAGCTCCAATTCCATTAGAACAAGGAAAATTTATTATTTGTATTGATACTTCAAGTTCTATGGAAGGTGCTGGAGAATATATTGCAAAAGCTTTATCAATTGCTATTTCAAAAGTTGCTTTGAAAGAATATAGAGATTTAGTTTTTGTCAATTTTGCAAATCAACACGTTGAAGAATTTACAATTAATGGTAAAAACGTAAATATACAAAAAATGCTTGAATTTTTAGCAAAATCTTTTTATGGAAGAACAAATGCTAAACCAGCTTTTGAAAAAGTTATTGAAAAAATGCATTCAGAAGATTTTAAAAGAGCTGATTTATTATTCATTTCTGATTTTATGATGGAAGCACTTCCTAATTCGACAAGAGCTAAAATTGCTGATTTAAAAGAAAATTATAATAGATTTCATTCGCTTATAGTAGGAACAATGCCAAATGTTGAAACTCAAGACATATTTGATAATGTTATGTACTATGATCCAAATGACCCTTTTGCAACAAACCAAATTGTTAAATCTTTAAATGAAACTTTAAGGGATTTAAGGGAATTAAAAGATGAAGAAGTTGCATATCGTGATGAGCAAATTAATAATTTAAATACAATTAGAGATAAAAAGCGTTTTAGAGAAAAACATTTAGATGATCCAAAAGCAAAAAAATTTGCAAAACAAAAGGAAAAATTGAAAGAATTAGAAATTAAAAAGCAACAAATTAATCATTAAGGGAAGGTGATGTGTTTATGTTAGTAAAAGAAAAATCAAATTTATTAGTAATTTTTTTGGAACATGGTGAAGATCTCGACCAACAAATTCAAAGTATAATAAGAGAATATAAACTTATAGATGCTAAAATTACTGGTTATGGCTATTTAGAAAGATTAGAGTATGGTGTTCTTTCTCAAATTGATCCATTTTTCTTATCAAAATTATTAAAAGAAGGACTTATCACTGTTACAAATTTAAATGGGATGATTGATAATCGTGAATCAACAATAATGGTTAGTTCAGTTGATGATAAGTTTGACAGACATCAAGGAAGGTTAATTAGTGGAGTTGTTGCAAACTCATTTAATATTATTTTAGAAATATATAAAACAGAGTAAAATTTGTTTTATTTTTTATTTTTATTTACTTTTTAACTTTTTTTATAAAATTATTTTAGTTTCCCTAAAAAAAGATATAGAATAGTTATAACACTTTTCAAAAGTGGGATGGAGGAAATATGAAAAATATTCAAAGTAAGTCTAAAAAGATAATTCTAATATTAATTTTATCTTTTGTAGCTTTCTTTCCGATATTAACAATTATTATGACAGTTCCTGGAATGGGAATTGAATCATTAACTTTTATAAATAGTGTTGAAAAACAAATTAAAAGAATAATGCCAAAAAATAAATTTGTTTTTGACCCAAATCATCCTCTTTACGAGGAAATGATGGAAAATGTTATTAAACCATCTTTTAAAGCAGATGCATTATCAACAATAAATTTTGAAGATTCACATGAAAAAGAAGAGTTCTACTTAAAATATTCAAACTATTCAGAAGAGTGATATAAAAAGCATTGAGCTGAGAAAGTAAAAAATAAGGAACAAATTGATTTATATGATATTGGTTTAAATTTTATTGAATTTGATAAGAGTGTAGCTGAAGAATTTCAATCTTTTGGTTTTGTTAACACAGGAATTCAATGAATGTTTAAAAGTGGAGGTTTGAAAGAAATATTTTCAAAAAATACATATGAAATGTCTTTAAGACAACAAACAATTCTTGATCAATCAGATTATGACGATCAAATGAAATATAGTGGTCCAGGATTGAATGGGATAAAAATTAAACATTCTGTTGGAACAAAAATTGTAAATAATAAGGTTTGATTTTTGAATACTCAAATTGATTCTATTAAGTTTGCACTTAAATTAACAAATCCTTTTATGGATAAAACATTGAGTAAAGATCAAAATATAAGATATGTAACAGTAAATGATTTAAAATGACCAAATTTTACATCAACTTTGGTTTTTCTAAGATTTAGTGCTGTAGTTATATTTTTTAACATTGTAATAATTCCTGGTGGAATAGGTCTATTTTTGATTCTTAGAAAAAAATGAAATAAGTAAAAAAGGAAGGAAATAAGATGAAAAAATTATTATCGCTATTAACAGTAGTTAGTTTTTCAATATCAACAGTTACTTCAACAGTATCTTGTATGCCAAAACAACCAAGTACTACTAAAACAAGTCCTTTGAAAATTGGTTTGGATATAGACAAGAGTCAAACTATTGATACAACTTCAGACCCAAAGAATCATTTTGGTTTTACTAATTATTTTATAGTAGGTGATTCTCTAAGTGATGTTAATGGTTTAACAACATATGTTAAAGATAAATTTGTTGTTAATACAAATTTAGATCAATTTATTGATTTTAATTTAACACTTGGTGGAGCATATGGTTTTGAAGATGAAAATGGTGTTTATAATAGTGCTTTTAGTAATGGAAAAACTACGGGTTATTTATTATCAGAAAAATTAAATTTTGGTGGTATGAGAGCAAGTAATAAATACTCAAAATTAGTCAATTCAAAAGAAGGATATGGTAAAAATTATTCAGTTGGAGGAGCAACAGCTGGTAAAACACCAGATCTTACAACTGGGCTTGTTATTAATGATTTTAGTACAGAAGAACAAGCAAGAGCTTTGGTAAAACAACAAAAAATTGGTTCAAATGATTTAGTTTTCTTTGAAATAGGGGGCAATGATATGTTCTCATTAATTCAAAACCAAGATAGTGAAAATGAAAAAGCTTTAGTTGAATATATGAATGAATCTATTAAGAGTATTAGAGCAACATTGTTTACTCTTTTAAATAATGGTATAAAAAATATCTTATTTATGGGACCTCCAATTATGGATATTGTTCCTAGATATTTAAATAGAGAAGAAAAACAAGATATTGTTGATCTTGGAAAAGAATATGAAATTAAGATTAATAAAGTAGTCAATGAGGTAAAAAGTTATTATCCTGATAGTCTATTTTATACTTCACTTTATGAAGGAGAAAATGATTTTCCAACTATTATAAAAGGATATGGAGAGTATATTGATAAGGAAATTGAAAATGAATACAACAGTACTTCACCTTTTGCTGAAACAAATGTTGTTGAAATAAATGGTAATACAACATTCACTTTTAATGAACTTAAAGCAATTGATTATAAAAAATATATTGACGAGTTAAAAGAAAGCAGTACTTTTGAAAAAACTAAATTAAATGTAACGCTTAAAGCTCAACCATCAAATGTAAATCAATGAAATGATTTAACAGAAAGAGATCAAATAATGAAATCCTATTTTTTCACTGATGTTGTTCATCCAACTAAGTTTGTTCATGAATACGTATCAGAAATAATAAAAGAAATGGTCTTAAGGGAGTTTAAATAATTATGAAAAAATTATTAGCTATTTTTGGAACTTCTTTGTTAGTAGTTTCACCAGCTTTTTTAGTAGTTTCTTGTACTAAAAAAGAAAAGAATATAGATGATATCTCATTAAAAACTGCAGTTGAGCAAATTGGAAAGTCAGTTTATTTAACTGATACAAAAAAATATAATTTTAATTATCAAATGAATGATATATTAAGAACTAAAAGAATAAAGGATATATCAACTATCTATGGAAATGATACTTATACTAAAGATGATTTAAGTTCTTATTCAAGATTTGATGATTTATATAACTATTATTTTGATAAAAATCTTTTTGCTGATAACTTGTCAATTAGTGAAAATATAAATTGAGAAGGAAACATTCAAGCTCAAAATAGTAAAAATTTAGAATTGTTACTTGTAACAATTCCTAATTTATTAGACTTATTAGGAAATGGTAAAATTTTTACATTTATATTTAAATTAATAGAAATTGCACCTTCAATTCTTGTAAGTTTAAGTGATAATTATTTAGTAAGTTATTTAAATAAAATTCTGTCAAAAGAAAATAGTGAATCTTTTTCGAATGCTTTTTCGAATGAACCTTACACTAATTTTACAAATCAAGAAGCCTTAAATTCTTCAATAATTGGTCTTTCAAATTCAATTGATTTTCTTCTTGGAAATAAAAATGAATTAAAAATTCCAACTAAAGAACAGTCACAAGGTGAGTACTTTTTAAATTCGATATCTTTACTAACAAATAATTTAAGATCTATCTTAAAAAAGGAAAAAACAATTAATTTAGATTTAATAATTGATTTACCAGCAATTGCAGAAGTAATTAGATTTGCAAGAACTCTAATTGTTTATATTACAAATGGAGTAGATTCAATTTACAAAGAAAATCAAAATCAATCAGGACATAATTATTTTGAAGAAATTGAAAAATTTAGAAATAGTGTAATTGAAGCCAAAAAAAATGAATTGAACATTTTAAATGTTTTTGAATTTTTAGATAGTACTTATGAAGATGGAGAAGGTCTAAAATTAATATTTGCATTATTATTTCAAAGTTATAAAGAACCAAAATTAAGAGCAGGAAAATTGACAATAAATGTTGGAGCAATTTCAGATGAAAATATTCAAGTGAAAGGAATAACTCCATTACTTCAAGCTTCGATAAATGCAGTATTCCCGACTTTTTATATAACAGAGGGATTGCCTTCAATTGTCGTGTCTTTATTAAAAATACTTAAAATTGATAAAGTAAATTTAGCAAGTGTAACTATTGATTTATTAAATTCTTTGGTTTCTGGTTCTAATTTTAAAGGTATTATTGATATTATGAATCATTTTTTGATTATAAATTTTATAAAAAATGAGCAATTGAAATCAAAAATTGAATCTTTAAAGGAGATTGATGAAATTTATAAAAATTCACTATGAACTGAACTTTATGGTGGAACTTTTATTAATAAATTTTATGAAGTTTTATTTAATAAAAAAATAGAAGAAAAGATTAATATTAAAGGAATACTAGAAAATAGTAAAATATCATTTTTAGGCGAAAAAATTTTATATAAAGATATTTTGTCAAAAATTAATAATAATCAAGATTTTAAAGGAGACTTTAAAATTGACTTTTCAAATATTTCTCAAATAGTAATTGATTTAAGAAAAATATTGGATCTAAAAAATGGAATAAAAACTGATATTAACATTAAAGATTTTCAATCTAATTTGGAAACTTTATTTGTAAATTTACAAGGAATGAAAAAATTAACTTCATGAGCATCAAATACTGAAACTAGTGAAGGAAGTAGTTTATGAGATAAATATCAAGCCGAACAAAATAAATATAATAAAAATTTAAGAGCTGATATTTTAACTCAAAAAATTAAAAGTGTTAATCAAAATAAGAAATACTCTTATGAAGTTATAGTCGAAAATAAAAAATATGTTATTAACTTAAAAATGTTAAAAAATAATAAATTCCAAATTATTTCAATTAATTAATTATTTTATGGAATTAAATAATTTTAGTAAAAAAAGTAGTGTTTTTAAGAACTTTTTAGTATAATTAGTTTAATCTTTATTTTTGCATATTTTTGTGCTTATAATAGAGGTATAGAGAAAATAAAAGAGGAGACTAGAAATGATAGGTATTATTTCAACAGCTTACTTTACAGTTAAAGATCGTCAAGATATTAAAACTGTAAAAAAATATTGATGAAGAAATATGGTTATTCAACATCTTAAATATAGAGGAAAATTTTTCATAATTGCAACAATAGGTTATGGAAAAGCAAATGCTGCAATGGCAATTACTTATTTAATGGAAGAATATCCAACTTTAGAAACAGTTTTAAACATAGACTTAGCTTTATCAACAAATGATAAATTTGATACAACAGATACAGTTATGGCAACTAAATTTATTTATAGAGATGCTGATTTAACAGTATTTAAAGATATTAAATATGGACAAATCGTACACGAACCAGAAGCTTATACTTTTAATACAGAATTTGTAACACAAGTTAAAAACTTTAAATTAGGTGTTTCAGATGGTATTGTTGGTACTTCTGATATGTTAATTTATAACTCAAAACAATTTAAAGAAATGGTTGACAAATATGGTCAAACTATTGATGTAATTGATACAGAAGCTGGAGCATTAGCTCAAATTGCTAAAAAATCAAGTGTTAACTTTGTTGCAATGAAAATTATGTACAACAATGCGTTATCACCATGAGACAATGATCCATTACATAAATTTAAAATTTATGAAACAGCTAATACTTTAAAATATTTATTAGCAAGATTATTTAACTTATTATCTTCAAAATACATAATTGACTTTACAAAAAATACAAATGATGAGTTAGAAGTAATTCATGAATTATTTGAATTATCTCATGATGAATGAGTGGCGTTATTTAAAAGTAATGTTACATCAATTATTTCTGGTTTAGGACCATCATTGATGTTAGTTGATAAAAAAGCATCAAAACCTGAGGCTCTTGATATTGTTGAAGTTTTAAAAAGTAAATTAGATGATGAAGGACCAAGTAAAATTATTTTAGGAGAAGATGAATGAAAAAATGCTCCTAAAAAATGATTACGTAAAATGATGTTCTTAACAAATATTTCTGTAAATGATGATGAATTATTATGAAATAAATCAGCTAAATATGATCTTAAATCAAATAAAATTATTTCAATTGAAGAAGTTGCAAGAGCAGTTTCAAAAGTAATTGCTGATCGTTCACAAGATAAATCAGCTTATACTTATGATGGAGCAACAGTTCTTAAAAAACATTTACTTGTTTCAGTAGATGCTCCAATTTCATTCTATATTACTCATAATGTTACACATGAGTTTGTTGAATGTCCTAAACAAGGATCACAATTAGTTGCAAATGAATTTATGAAATATTTAAATGAACAATTAGCAGAAGTTGAATCTCCTTTTGCTAAAATAGTAGTATACTGTAAAGTTCCTGCAGAAGGTGTTGCAAAACTTCCAGTTATTATTACAACTAAATCAAAAGCTAATCAAGCAGTTGTATTTGAAGGATACTCAAGTAAAGATCAAAAAACTTATACAGTTGTTGATATTACAAGAAATGATTACGACCCATTGAAAGTTGGATCATTCAAAGTTACAGTTCGTTTGAAAAACTTATAGTCATAAAAATAAAAATCACTTCTATAGTGATTTTTTTATTTTTTAATATAATAGTAATTTAGTATATACTATTTTTAGTAAGGAGTGTTTTTTAATGGCCAAGAAAAAAAATAAATTATTTTTTGAAGAAAATGAGAGTATAACTCATATCTTAGAAGATTTATTAGATTTATCTTTACTAAAATTTGATGATAATGAAAATAAAATAAATACTTTTAAAGTACCTGAAATAAATCAAAATAAGGCTGTTACGTTAAATACTACTCGTGCTGTTACTAATTTAAATAAAAATGTTTTTAAAAAAGAACCTATGGTACCAACACCAGAAGTAATAGATTTGCATTCAATAATAGAAAAAGCCAGACAAAAAAATAATAAATTTATAAAGGAAACTGGAATTTCAAACTTTATTGAACCTGAACAAGTTATTCTTGAAAAAGCAAAAAAGCAAGGAAAATCAGCGTATGATTCAGATATATTAAGAGAATTAATATTGGAGAGACAAAAGAAAAAAAGAGAATTAATGGGTTTATCAAGTATAATAAATAAAGCAAAAACAAGAAAATAAATTTTATTTTTTTTATTATTTTTTTAAATAAATTAGTTTTAAACATTTTTTTTGGGGGGGTGAAACAATGGAAAATAATTTGAATGATAAAATTGATGATATTCAGGAAGCAACTCAAGAAATTCTTCAAGACGATATTGTTGAATTTCAATCAAGTGAGGAAAAAAAATCTATTAGTAAATTAGCAAAGGAACTAAATAAGGGTGGAAATATTGACGGTGAACTTTTAAGTAATCTTGAAAATAAAATTATGTCTAAAAGAGAACAAAAATTGCTTGTTCAACAATATTTTAAAACTAAATTTATTAGAGATATAGCTAAAATTATTTTAGCAGCTTTTTTAATTACTATTACATTTGACTACTTTATTACTCCAACTGGAAGAGCAGGTCTTTTCCCAGCTGGTGCAGGAGCAATTGCACGTTTTTTTGCAACTTTAACTTTTCCTAATCAAGATCAAGTTCAATTACAATCGTCATTTTATTTTATTTATTATTTTGCAATAAATATTCCTCTTTTTATTTTTGGATATATTAAACTAGGAAAACGTTTTACATTTACAACATTTATTTTTATAATTATGCAAATTGGTTTTGACCAAATTATTCAAAATATTCCTTTTATTAACCCAAGAGAGTTTAATTTACTTGTAAATTATCAATTAATTGGGTCAATGCCTGGTTCATGAAATACAGGTATATGATTGTTTGTATTTGCTGCTTTAGGTGGCTTTCTATTAGGATTTTCATATTCAATTGTTTATAAAATTGGTTCATCTACAGGTGGATTAGACTTTTTAACTGTTTTTTTATCAAATAAAACAAATAAACCAGTAGGTTCATTAAATAGAAAAGTTAATTTTATTATCTTAGCAATCGTTATTATTTTAAACACTGTAATTATTCCAATGTCACTTATTAATTCTGATATAAAAATTAATATTCTTCAAAGTGGAAACTATTATCAAGATAATAGTTTATTAAAATCAATGTGAGATTATGCAATTGAAAATGGAGCTTTAATAGGAGATAAAAATAGTTATCAATGAGATCCAGTATTTGAAGCTTGATTTTCTAATATTCTTAGCCAGGATAAGACACTAAATCCTGAAATTGCAAAAAACTTATTTGACGGTTCAGCAGCTCTTGCAAAAAATCAATATGAATTTTTAGTTCAATTTGTTTGTAAACAAGGTTACGGAGATGATTTAGTTAATATAAATCAAGGATTAGTTTGACATATTAAATTTTTATTTATTTTTGGACCATCATTATTTGCTTCTTTTTCACTAGTAATTTTTGCAGGAATATCAACTAATGTTTTCTATCCAAAATATACAGTAAGAACATATATGATAACAACAAATAATCCCAAAAAAATTAATAAAATGTTATTAGAAAATGGTTTTCAAAATGATATTTTAAACTGAGATAGTATAAATAGAATTAATGGAAATTATCTACATAGAAGTGTTATTATGGTTGCAATGTCTGTTATGGACTGAGATAAAATTGAAAGAGAAATCTTTATGATTGATCCACAAGTTAAAATAAATGCCATTATAACAAAAAGTGTACGTGGATTATTTAATTATGAGATTAAAAAGAATGATGAAAGAGATGTTATTAGAACGAAAATTGAAAAGAATGAATTAGAATTAGAAAAAATTCGTCAAATTGCTATTGTTCGAGCTCAAAAAGAACATGAAAAATTACATAAGAAAAGTCAAAAAAGAAAGTCAAAATCTAAAAAACAAGAGAATAATGATAAAAAAGATTAATTTTTTTAAAGAAACTAGTAAATTTATTAAATTTATTAGTTTTTTTGTTTATAATTATGATTATAGTGGTGATTTAATGAAAGAAGAAAATCTTAAAAAAATTATTTATGAAATGTTAGATCTTAAATTAACAGAAATAAGAAAAGAATTTACTAGAATTACTTTAAAAGATTTATACTGTTATTTAAAAGATGTAATATTTAAAAACAATAAAATAGTTGATTTGAATGATTTATCGTTCTTCATTATGAACATTAAAATTAACAAAGTATTTGAGTATCTAAATATAAGTGCAATTTTAGATAAACATAATTCAATTGAAACAGATTTAAAAATTATTTTAGAAAGATAGTGGTTAACTTGAATAACAAGGAAAAAAATATAAGCAAAAAACCTAAGAAACCAATTGTAAAAAGTTTTGCTATATTAATAATTATTTGTTCTTTGGTATTAGGGATTGTTTTCTCTAATTTAAAATTCTCAGAAAATATTAAGTTGGGTTCAGACTTTAAAGGTTATTACTCAGCTCTTGTTTCAGTTGGGAATTTAAATGAAGATGAATCAATTAATGGTCAACCAAATGGTGATTCAAATGAAGGTGCTAAAGCTTTAAATGAACGTTTAAATCCAATGGGAAATAATCAAATAATAATAGAAAAAGCTGGTAAAAACTTCTTAAAAGTTTTATCACCTGTTGATGCTTATCAAAATGAAACAATTTTTAAAAACCAAATTCAAAAAAATGGTGGAATTGTTTTATTAGATTCTACTGAAAATAAGTATACTGACTTACAAATTTCAGCTGAAGAAAGCAACAAAATTGAAAGAAAAGGAATTAATGATTACTTTACTGGAGCAACATCAACTTTTATTAATGAATCAAATTCAAAAAACCCTGCAATTTCATACTCATTAAATGGTGATAATTTTAAATCATTATTCCCAAAAGCTGAAGAGGGTGGAGCAGGTGAAACTCGTGAAGAAGGTACTTTACCTTTATTCATTCTTTTAGACGCTGATGGTTTTTATAATGATATAAGAAACTATTTTAATTTAATTAAAGGGAACAAAAAAGATAGAATTGAAGAATTTTTTAAAGTTATAGTTGATCCTTTAAGAACATTTTATGACGCAACAAATACTTCTACAAAAGTTAAAGAAGTTTTATATGACTTATTTTATGGTCAATGAACTGAAAAAACTAGTTCTGGAATTAATACTACTTATAGAGGGTCTTTAATGGCTAGAAGAAATGGTTCAAATGATTCTCTAAGAGATGCAAATTCTTTTTTAGAAGTTGTTGACTCATTTAATTATTTGGCAGAAACATCAAAATATGTTTATGATTCAAATGCTGTAACAAAAGATTTTGAAACTGGTGGAAGATATTCACAAAATGTACAATTATGAAATTCTTCAAATACATTAACAGAAAAATATAAAGTTAATGAAATATTTTCTTTAATTAATCCTGTACTTTTAAATTTTGTAAGAACAAATCAAATACTTTTTAATGAAACTTATGCAAATAACTTAGCAACTAATTATTTCTTATTTAATGGAAATGTTACTGAATCAAACTCACAAAATTCTAATGGATATATCGATGGAGAGAAATTAATAACTAAAGTTGATTCTGAAGCGAAAGCTAGAATTGGAGCTTCATTATTCAATGCTTCTGGTAAAGGTTTTGTCTTTACAGTTAACTCTGTTGCAACTATTGATGGAAAAGTAACTAAAATAATGTTAATCTCATCACTAGTATTTATATTAATTATTGTTTTATGTCTAGTTATCTTTATGGGATTCTTCTACAGATTACTTGGTTTATTTTCAATGATAATTACATTATCAATTATAGGCTTGACTTTATTGTCACTATCATGATTTAACTTAGCAGTGGGACCAGAAACAATTATTTGTTCATTTATTTTAGTAGGGTTAAATATTGAGATTTTCTCTTCATTATTTGAAAATATGAAGGAAAGTTATTATTTAAAACAAAGGGGATTAAAAACTAGTTTTAATATTTCTATTAAAGAAACTGTGGGAATTGCTTTAGATCTTGTTGTTGCTCTATTAGTTCCAGCAATGTGTATGTTCTGAATTTCGTCAAATGCAATTATTTCAATGGCAATAATGTTAGCAATGGGGTCATTCTTTACAGTTTTATTTACAATAGTAGTAGGTGTAATTCTATTTAAATTAGTAATTAATTCTCAGTTAATTGCAAATAAATCATATTTATTTGCTTTAAACACAGATTTTGCTTCTCAAGGTAAATTCTTTATTAATTATAAAATTAGAAAAATAGAATCTAAAATTGCTAAATTAAACTCAAATACTAAAACAATTGATAAAGAATTAATTTCAAAACTTGAGAATAATTTGAAATCTTTAAATGAAAAGTTAAAAGAAATTAATCTTAAAGATATTGAAAAAAATAATAAAAAGCAAGAACTATCTAAAGCTAAATTAAATAAAAAAATTGATTTAATTACACAAAAAATAGCTAAATTAAATTCTGAAAAAGATGCAAAAAAAATTCAAGCATTGAATTTTAAAGTGAATGAATTAATCTTTGTAAGAGATGATAATACTCAAAATATTCTTGAAGAAGAAGGGCAAATTATTACTTCAACAAATGAAAAATTAAAAATTAAAACAATTGAAAGAAACATAAAAAATGGAACTAAATTTGTTTCATTATTCGGAGTAATTCTACTAGCAGTATCACTTGCTTTTGGATTATTATTTGGTTTACGCTTTGATAATACATTTGGAGGAAGAACTGATTATACTTTATGAGGTGATAATACTTCAACACTTTATTTACAAATTAAAGAAGAACGTTTTGAAGATACAAGTAATGGTAGTGCAGATAAGTTAGAAAAGATCTTTAATTTTAAAGAAGATTTAATTCAAAAACATGAGGACTTTATAAGTAATAACAGTGGTGAACGTGAAGCAATTAAATTAGATGAAACAAGAACAGTAAGTGAATTTTTAAACTTTGCATTTGAAGATAGTTTCTATATTAATTATTTGGCTCAAAATTTCTCAAATAATAAATCATATAAAAGTAAAAGTTATTCAGTTTCTTACGGAGATAAATTTATATTTAATGATTCTTCTTCAATTACAGATATAAATCAAAATTGAATCACAGTTACAGTGTTTACACAAGATTTAAAACAATCAGCAATTATTAAAAAAATGTTTAATAACTTAGGTGTTGATAAAAATTCAAATTCAACTTCAGGTAATGGATTTATAACAAAAGCTATTAAACCTGCAACAATGCTTTGGTCAATTAAAGAAATAGCAATTTCTGTATTAACAATTATTGGTGCATTAGTTATTTATATTCTTATTAGATTTAAATGAACATATTATATAGCAATGATAGTTTCAATAGTTTTAGCACCATTAGTAGTAGTAGCAGCAATTACTGCATTACAAATACCTTTAGGAAATGTAGCAATTATTGCAATAGTTGGTTCAATATTCTTTACAATTATTTCTTTATTCATAATTTTTGGTAAAGCAAGAACTTTAATTGCTTCAAAAGATGAAAAATCATTAATTAACTTCTTTAAACAAGAAATTGAAATTATTTATGATACAAAATCAGTTAAGAAAAAAATGAATGATGAGCTATTTAATCTTAAAAATGAAATGAGATTAAATATTAAAACTAATAATCTGCCAAAAGAAGAAAAGAAAAAATTAAAATTAGAATTTAAAGAAATTAAACATAATAAAAAAATAGAATTTAAAAAAGTTAAAAAAGCTAATAAAATAAAAATAAATAGAGTTGCAAAACAAAATAACTATTTATCTGAAGTTTTAGTAAAAACATTTAAATTTGGATTAGTAAGATGTTTATTATTAATTTCTTTATATACAATTCTTGGAGTTGTATTAGCTGCGTCTATGTCAAGTATCTGATCATTTGGAACTTCAATGATTATTGGAACTGTTATTTCAAGTGTGTTTGTATTATTTATATCATTACCGCTATGAGTAGTGTTTGAGCAAATAAGAATAAGAAATCAATTAGCAAGAAAACGTTTCATAAATGGTTTATATGTTTCAAATGAAGAACAAATCATAGAAGGAATAAATGATTAAGAGGTAAGTAAATATGGATATAAATAAATATATTCTAGATGTTCATAATTTCCCAATAGAGGGAGTTACTTTTAAAGATATTACTCCTTTATTAAATGATAAGGATGCATTTAAATATGTAATTGATAAAATGGTTGAATATGTAAAAGAGAAAAAAGCAACTGTTATAGTAGCTCCAGAAGCAAGAGGTTTTTTACTTGCTTCTGCAGTTGCATATGCTGCTAATTGCCGTTTTGTATTGGTAAGAAAACCAGGAAAATTACCAAGAAAAGTAAAAGATGTTGAATATGTTCTTGAATATGGTAAAGGTCATATTCAAATGCATGTTGGAGATTTAAAAGAAAATGATAATGTTGTTATTGTAGACGATGTATTAGCGACTGGTGGTACTATGAAAGCAATTGTTGAACTTGTTAATCAAGAAAAGGCAAAAGTTGGTGGAATAGTATTCTTAGCTGATTTATCATTTCTACATGAACCAGACTTATTTAAAGAGTTTGATTCAAAGAGCTTAATAACTTATTAGTATAATAAAGACAAATATGATAATATTTGTCTTTTTTTATATTTAAAAAATTGGGGTCAAGCTTAGTATTATTAACTTAATTTATATATAATATAGTTATTAATAAAATATTAAAGACAAGGGGAATTTTATGCAGTCAAGAGCCTCAATGAGCGAACAAGAATTTAATTTTATTGAATGTCGTGATGTCGAAGTTCTTGTTTCAGAAATGAAAAAATATATTAAAAATAAAAAGCTAATTGATGAAGTTAAAAGAGCATACTTTTATGCTGAAGAAAAACACAAAAATCAAAAAAGAAAAAGTGGAGATCCCTTTATAATTCATCCACTTTCAACTGCATATTATTTAGCACAATGAAGAATGGGGCCTAAAACTATTATTGCAGGTCTTTTACACGATGTAATTGAAGATACACCAGTTACTTTTTCAGAAATTGAAGAATTATATGGTGTTGAAGTTGCAGATATTGTTGAAGCTGTAACTAAAGTAAGTTATTTTACTAAAGAAAATCGTGAGCAGATGAAGGCTAATTATTTAAGAAAATTATTCTTGTCAATGATTAGAGATATTAGAGTTATTATTGTAAAAATTGCTGACCGTATGCATAATTTACTAACTCTTCAACATATGAAACCAGAAAAGCAAAAAATTATTGCTAAAGAAACATTAGAAATTTATTCAACAATTGCTCACAGAATTGGTATGAAAAATGCTAAAAATCTTTTAGAAGACTACTCTTTTGAATATTTAAATCCAAAAGAATTTAAGAGAGTTAAAAGTCTTTTAGAAGAAGATAAAAGTACTAGAAAAGAAATTATTGACGAAATTATTGCTGAGGTTAATAAAAAATTAAAATCTGGTGGTATTTCTAATGCTATTATTTTTGGTCGTTCAAAAACAATTTATTCAATTTATAGAAAATTAACTCAATTCGGTAAATCATTTAGTGATATTCACGATGTTTTAGCAGTTAGAATTATTACAGAAAAGCAAGATGATTGTTATAGAATTCTTGGATGATTACATGAATTATTTACGCCATTATCGGGGAGATTTAAAGATTATATTGCAACTCCAAAAAATAACTTGTATCAATCATTGCACTCAACATTAGCAAGTAAGGATGGAGTTATTTTTGAAGCACAAATAAGAACCTTTGAAATGGATGATATTGCAGAAAATGGTGCTGCTGCCCATTGAAAATATAAAGAGGGTGAGAAAAATATTGATATTGCTGAAAAGCAAAAAGAAATTGATTTAAAAGTTGATATGTTTACAAGATTAATGGATTTAGAAAAATTAGCATCAGAAGCTGCAGAGTTAGATTACGAAGAAGAATCACAAAAAATTGACTTAAGTGGTGAAGTTGTTGAAGAAGCTTTTAAATCTGATTACTTAGCACCAATGATATATATTCTAACTCCTGATGGTAATGTTGTTAACTTACCATTTGGATCAACTGTTTTAGATTTTGCATATAAAATTCACACTGAAGTTGGAAATAAAACTATTGGAGCTAAAATTAATGGGGTATTTTCTCCATATAACTCAACTTTAAATTCAGGAGAAATGGTTGAAATTCAAACCTCAAAAGATACAAATCCTCATGAAAAATGATTGCGTTTTGTTAGAACTTCAACTGCTCGAAGAGCAATTGAAGATTATTTAAATGCTGAAAAAATAAAAGAAGAAGCTAAAGAACAAATTACCAATCAAAAAATTATTAGAAATGTTAAACGTGAAGTTGATCGTTATATTATTGCACATAATTTAAAATGACAAGTAAAATCAATTGAAGAAATTCAAAAAAAATTAAATGTCTTAGATTATAAAAATATTGATGATTTTTTATTATCTGTAGGAAACGGTGATTTTTCAATTCCTGAAGCAGTTGAAATTGTTTATGTTTCAAAACAAGAATTAAAAGACATTGAAGTAATTAATGATATGAAAACTAGAAAATATAAATCAGCTAAGGGAAGAGATGACTTAAGAATTAATGGAATTGAAAAAGTTAATTGTACTCTTGCACAATGTTGTTATCCAGTTCCAATTGAACCAGTTACTAGTTTTATGTCAAAAACAAAAGGAATTCAAGTTCACAGAAGTGATTGTTTAAATATTACCAATATTAAAAGAGTAAAGAACTTATTAGAAACAGAATGAATTGAAGCAAAAACAGTAGATAGACATTATAATGCAAAAATAAGAATGACAACTTATGATAGACCAGGAATCTTATTAGATATTATTAATGTCTTTAATGCTCAAAGAGTAAATTTAAATGAAGTTAAAGTAATTTCTCAAGAAGAAGATTATTCAGGAAAAGGAAGTATGATTATTAGTGTAAATAGCGCTGAACAACTTATTGTTATCTTAAAATCTCTTTCAGAAATTCCTGGTGTTATTTCAGTAACAAGAGCAACTTCTTCTGAAAATCCAATGGCTTAATTATATTTTTTGATACTAAATATAAAATTAAAATACTTTTATATCATAATTAAAAAAATTTTTAGAATTAAAATTTCTTAATATAAGTTTCCTTGTATATATTAAAAAAAATATACAAGGATTTTTTTTTTTTTTTTTTTTTAACCTTAAATAATAATTGGTGTATTGTCTATATTTAATTTTAAAATATGAATTTATATTTATTTATAAATATAAATTTTGTTTTATTGATCTTTAACTATATTTTATAAAAATTTTTTTCTTTTAAAAAATCTTTTTATAATTCTTTATATTTTTTTATTTTCCTTTTAAGATAAATATATGATTATTGAAATAATCAAAGGAGATAGTTATGAGAAAACTTTTAAATTTATTAGGGGCAGTTGGACTAGTTGCAACAACTAGTGCAACTGTAATAGCTTGTGGACAAGATCTTGAAAAACCTGAAGTTACTATTGAAAAGGTTATAGAAGATTTTAAAGAGGATGTAAATCAAATAGTTCAAGAACATATTGCTGAAATAAGTAAAAATTTTTTTCTTGTAGATCAAGAAAATTCATTGTCTTTTTTTAATAAAGAAAAATTTTCAAGTTATATGGGATCAAATTCTGAAAAAAATGCTGATGACTCTATAAGAGAAAGCATTATTAAAGATTTTAATAATATAATTGAGTTAAATTTATTGAAATATAAAATTGAACTTTTGCAAAAAAAAGAGAAATATTCAACAATATTAGATAACATAAACGTTTTTAATGGAGTGACTTTAAGTTCAAATGAAAAAATAAATTTAGCAACTAAAATTTCAACGGTCACTCAGGATAAAATATGATTTGGAACAACCAAATTTAGTTATTCAGTTTCAGTTAATTTTAAAAATAAAAAAGGAGTAATTGAGGAGTATAAAATATCAGATATTGATGCTTTAATTTCTTTAACTGATAATCAACAGATAGGTGGAGAAATTCAAAAAATGTATTCTAGTATATCAGAAAATTTTATTAAAAATGAAATAAGTAAGATTTATACGGAAAATCTAATTTTGAAGAATAAAACATATTTAGAAAATGTTGATGAAGAGATACTAGATTACTTAAATAGTAATAATTATATATTGAATTTTATTAATTTTGTCAAATCAGATTTTGGTGTTGAATTAAAAATGTCTAGTAATGTTGCTATTAAAGAGTTAGTAACAACTGCTTCTTATAGAAGCAGTACAGTTAAGTTTGATGATCAGTCAGAATTAGACTTTCAAAAAAGTTTTAAAGATTTTTTATTTGAGGATGGAAAAAAAATTGAGCAATTTATTTCTTCTACTCAGGAAAATTTTGAAAAAGAAATGAATAGTAAAATTGAGGAAAATTTAAATAAAATTAATAAAAATTTATGAAATGATCCAAGCTTAGAAAAATCAATTAATTCAGTATTTAAAATGAGAATGGTTAAAGTAAAAAGTATGACTTATAAAATTGAAGAAAATAATTATATTGATATACCTGATATATATTTAAATTTATGACAGGTTAAGGATAAAAAAGTATCTCGAAGAGAAGAAATAAATCAAGATATAATAAAAAATATTAAATCAGCTAGAGAATCATTTATAAAAACATATGGAATTGAGGATAAAAAAATTCCTAATCTTGACACGTACTTTTTTAATTATAAAGGTGATTCAAAAATTATTAATAAATGAATTAATGAGTTAAATATTGTAAATAAAGCTGAAATAAGTGAATATGTAAATTTAACTCATAAAGAATTAATTAATGATAGAAATAAATTTTTAAAAGAATCTAAGCAAGATAATTTTCAATTTGATATATGAACACATCTGGATGGTGGTTTGCTGTATAAACCATTAATAAAAATTAATAATAAAAAAATGGATTTAGGTACACATAATTCTAGCATTTCATCATTTTACTATAATGTAATATTTGAACTTGATTACTTTAAGATTAGTTTGGAAACATTCAAAACTACAAATAATATTACATTGTTTGTTGAAGCATAAGAAATTAGTTTATTAATTTAAAATAATAAAGGTCTGTATTTGCAATTAAAATATTCAAAAAAATTATAAAAAAAATAAATTGCAAAGAGAGTTTAAAGTGTCTTTAAACAAAGCTTTTATCTTAATCAAAAAAGGAATAGTATCAACTATTCTTTTTTTTTTTTTTTTACTTAATTGCTTAAAATGTGACTATTGAACAAATCCAAATTAATTATTGATACAAAAGATGAAGGATAAATAGAAAAGTTTTTACTTGCTTTTTTTAGATAAGTAATTACTTTTCAATGTCTAATTTAACTTGATTATATTTATTTATAAAATTAAAAAATCATAATTAAAGTAAAAGATAATTTAATTATGATTAAAAATAATGCTCCAATAATTAAACCAAAATATAAAGTTTCAGAATATTGTGTAGGGCAGTTTGTTATTAATTTGCTGAGGAATTAATAGTTGGAAAATAACATAGACAAAAATTAATTTTATATCAAAATGAAAATGGAATCAAAAATATTTTAATTGCAAAAAATTTATCATAAATTTTAAAAATATTAGTAATTTTGATACTTCATGAATAATTAATAAAAATCAGGTCTATGAAATGGATTCCAATGGAGCTGGTAAATCTATATTTATCAACGAGTTTTTAGGATTTAAACTTGATTTACACCAAATTACAATTGACGGCAAAGATACTTTTACAAAAGTAAAAGAAATAATTTATATTGCAAGTTAATTTGACTCTATGATTCTTTAACACAAAGATGGTTTATTTAAAGAGTATTGCAAATTAAAACAAGAACTAAATTATTAATTTGATCAGAGATTATTGGATTTTCTGAATTAGGTCCAAGTATGAAAATAAAAAAATATCTAATTGTATAAAACAAAAGGTTACTATAATTGTTGCAGAAATCCATAAATCAAAATTTTTTAGTTTTAGATGAACCAACAAGGGGATTAAATGTAACCATTTTAATTCAATTTTATGATCTACTTTTATAAGATTATTTGAAAAACAAGTAACATTAATGCTACTTTGTCTAATAAATGCTTCAGTTAAAACATGATAATTTTGGCTGTGCTCTATGATATTTCATTTTGATCATCAAGCTTAAATGTGTAACTAGGTTTAGATATAAATAAAATTTTATTAAAGAAAATAATATTATGTCAAATATTTTTCTCATTAATCCAACCTTATGTTAGAACACAAATAATACTTGCAAAATATATTTTTTTAGTTTTAATTATGACTTGCTTATATTTGCCTGATTTCAATATATTGTTAATAATTGGTGCTTTTCCATGATGAAAATCTGAATTTTAGTAATGTTAACAACAGAAAATAAATCTTTAAAAGAATAACTAACTATGTAGGATTGCAAGTTCTTATCACAGAGATTTTTTCATATGATTATAATAGTAAATTAGTTATATCTAGTATAAGTGAGATAATTGTAGCTAATATTAAAGCAAACTTTTATATTGAAGCAATTCAATTAAAAGTAGTTAATATAGCGATTTATTGATATTAATAACAAATATAGTTTCAAAAACCTTTAATTTGACATAAACATCAACTTATTTATTGAAAATAATATTATTTAGTATTTAGTGTATATGATGAAAAATATTTTTAAAGCAGTAATTATCATAATATCTAAAACCTTGAATATTTTAGTATTGATAGTCTTAGAAATATGGTATAATTTTATTAATAAAACGAGGTATACATGAAAAAGGAAATGATTTACTTACCAATTGAAGAATTTGTTAAAGCAAACCTGGATTTCAATATTGCTTCAAATAGAAAAGAATCTGAATTTGATTTTAATTTTACAAGATGAAAAACAATGATTTTTTCAAGTCAAAAGTTAAAATTTGTTTTAAAATATACACAATCTGTTTTGCATTGATTAAGCAAAGTTGCAGATGTTAAAAATTTTAGTGTTTCAATTGATACAACAACTGTTGATAGATTTAATTTCTCAATTTATGAATTTGATAACCATATCTTTAATTGCTCACTTTTTACTAATTTTTATTTAATTCCAGAAGGTGACTGATCAAATAAAATATTTGAAATGCATTTTTCAAAATATGACTTAAAAAATGGCAATTTAATTGTTGAAGAAGAAACAAATTTTTGAAAGGGAGAAGCTGGCTTTGAAAAATTTGTAAACATGTTATATGCAATTATTAAAGAACCTTATAAGTTTGAAAAGGTGTCACCAGTTCAATGACAAGTTGATTTTAAAGATAAAAAAGTATCAAGTTCACAAATTAGAATGCAAATTTCTTCTTTAGTTGAAAAAGGTGTTAGACCAGAAGACCCATATTTAACTATAGAGCAAGCTATGAAAATAGAACAAGGTGCAAATCCCGAAGTGGTTGCACAAGAGGCAAAAGCTGAAAGCGATGCAAGAGAAGTAATAAACCCAATTTGAGATGAGGGAATTGCACAAGAAGAAAAGTACTCTGATATAAACCTAGCAATGGCAAAATCTAGAGGAATAACAATAAATAATAATAAGAAAAAGAGAAGATAATATGTTATACATATTATTTTTTATTTTAAATTTTTGGTTGTTTTTGGTTGTTTTTTATCTTTTTTGGAATATTATATTATTGAGGTGAAAGAATGATTAGAGAAGAAAGACTAAAGTTAATTTTAGATTTTGTCAATGAGCAAGATTATTGTTCAAATGAAAAAATATCAAAACATTTAAATATTCCTTTCACCACTCTAAGACGAGATCTAACAGATCTTCACAATGAATCTAAATTAAAAAGAGTTCATGGAGGAGCAAAGACCATTAGAGAAAAATCAATATTAGAAGCATTTTTAGATGAAAAATTACTTACTAATATTGATGCTAAAAAAAATATAGCAAATAAAGCATTAGCTTGTATTAAACCATTTGAGACTATCTTTTTAGATGCAGGCTCAACAACTTTTTTTCTAGCAGAGATAATAAAACCAGAATTAAATAATAAAATTTATACAAATTCTATTATTAATGCTCAGATTTTAGCAAAAAATGGTATTAAAGATATTAATTTATTACCAGGAAAATTAAAAATATCTACAAGAGCAATATGTGGTGTTGAAACAATATCGGCATTATCAAAATATAATTTTGATTTAGCTTTTATAGGTATTAATGCAGTAGACAATGAATTTAATTTTTTTACAACAGATGAAGACGAGGCAGAAGTTAAAAGAATAGCTATTAAAAATTCACAATTTTCATTTGGTTTAGCAGATACATCAAAAAATAACTCTAAATCACTTGTGAAATTTAGTGATAAATCTCAAATAGCACTTATTAATGAAGAGGTATAAAAATGATATATACATTAACTTTAAACCCCGCAATTGACCATATTGTTTTAGCCAATAAAAAAGTAGAATTAGGTGTAACTAATTATTACACTGATGAATATAAAGTTATTGGAGGAAAAGGAATAAATGCAGGAATTATTTTAAAAAATTTGCAAGCAGATATTCAAGCAATTGGAATTATGGGTCAAGATAATAAAGATATTTTTTTAAATAAATTTAAGGAAATAAATTTAAATAACAATTTTTTTGTTAATGAAGGATCAACTAGAGTTAACTATAAAATTAAACATTTAGAATCAAAACAAGAAACAGAATTAAATGGAATGGGATTTAATACTAAAAAAAGTGTTTTGAAAGATTTGGTGCAATATTTAACAGTTAATTTACAAAAAGAAGATATTGTTATGTTAACTGGAAGTGTAGCAATTGGTATTGATAAGGATATCTATAAACAAATTGGAAAAATTGCAAATCAGAAAAAAGCTATTTTAATTTGTGATGCTACAAATGAACTTTTAAAAAATGTTTTAAAAGAAAAACCTTTCTTAATTAAACCTAATCTTGAAGAAATTTGTTCAACATTAGGAATTGAATTTAATGAAAATATAAGTTTTGAAGAAACAAAAGAATTAATTAAGAAATTAAGAAAATTAGGAGCTCAAAATGTATTACTAAGTATGGGCTCACAAGGAAGTTTATATTTTGATTCAAATAACGATATTTACAAAGTGGGAATTGCAAAAGGAAAACTTGTAAATTCAGTTGGTGCAGGAGATAGCATGTTAGCTGGATTTGTTTATGGAAAATATAAAAATCTAAGTATTGAAAATACGCTTCAATACGCAGCAGCTAGTGGAGCTGCAACTGCTTTTAACGAATGACTTGCTTCAAAAGAAGAAATAGAAAAATTAGTTTCAAAAATTGATGTTAAAAAAATATAATAGGAGGTTCACATGGAATTAAAAGATTTATTTAGTAAACAAATAAGTTTCTTTAATGCTGATTTAAAATCAAAAGATGAAGTTATTGAATTTCTTTCTAATAATTTAGAAAAAGAAAAATATATTAAATCTACTGATGATTTTAAAGCAGCTGTTTACAAAAGAGAATCTGAAGGATCAACTGGGGTTGGTGATGGAATTGGTATTCCTCACGTTTTAAATCCTACAGTTCAAAAATCAGCAATTGCTTTTGTAAAACTAAAAAATAAAGTTGATTGACAATCACTTGACGATCAACCAGTTGATTTAGTATTTATGATTATGACAAATGGAAAAGATGGCAATGAGCATTTAACTGCTCTTGCAGATTTATCTGGTTTCTTAATGAAAGCAGAAGTTCAAAAAAAACTTAGAAGTGCTAAGTCAATTAAAGATGTACAAAATGCTTTAACAAAAGAAGAACAAAAAGTTGAAAAAGTTGAAAAATCAGGTAGCTATGATGTAATAGGTATTACAGCATGTCCAACAGGAATTGCTCATACTTATATGGCACAAGAAAAACTTGAAGAGTATGCAAAACAAAAAGGTTTAACAGTTAAAATTGAAACTCAAGGACGTAGAGGAATTGAGAATAAGTTAACACAAGAAGATATAGATAATGCTAAAGTTATTATTTTAGCTCATGATAAAGCTCTTGAAGGACTTTCAAGATTAAATGGAAAAAAAGTAATTGATACAAATACAAAAGAAGCAATTTTTAAAGGTGATCAATTAATTGAAAAATATAAAAAGGGTGAAGGTTTAACTGAAGTTAAGGCTTCGTCTGATTCATCAGAAGTAAGTGAATTTACAATGAGAAAATTCCTTGATATTAAAGGTAATTTACTTGGAGGAATTTCAAGAATGTTACCATTTGTTGTTGCAGGGGGAATTATATTAGGAATTGCTTTCCTGATAGATTTTGCAGCAGGGAATGGAAATGCTGGTGGAGAATTTGGAACAATTAATCCAGCAGCTGGTTGATTTGCAGCTATTGGAAAAATATCAATGTCTATGATGGTACCAATATTAGGAGCATTTATTGCATTCTCAATTGTTGGATCGCAAGGATTAATGCCAGGAATGGTAGCAGGATTATTTTCTTCAAATATTTTAGGATTTGGTTACGCTTATGATGGAGATGGTAATCCAATTATGAATGGATGAAGTGGGCTTTGAGCAAGATTAATTCCAAAGAATTTACAAGGATCAGAGTCAGGTTTTATTGGAGCAATTATTGGTGGTTATCTTGCAGCTTTATTAGTTGTTGGGTGATCAAAAGCTATGCTAAAATTCCCTAAAGGATTACAAGGGGCTAGAGATATTGTCTTTATTCCAGTGTTATCATTATTATCAATATCATTAACAATGTTTGTTATTAATATTCCTTTAGGATTTATAATGGGTGGTATAAGTCTTGGTATATCAGAATTAGCTCAATTAAACTTATTATGATTAGTATCAATCTTAATTGGATTTATGATGTGTGTTGATATGGGGGGACCAATTAATAAAATTGCTTATTCATTAGGTAATTTAGCAGTTGGTGGTAAATTAGTTACAGATATTAATGCTGCTGGAAATGCATTTAATGACCAAACAATCATTATGGCATCAGCAATGTTAGCAGGAATGTTACCTCCATTAATGGTAGCAATGTCAACAATTATTTTCCCAAGAGCTTGAACAGCAAAAGATAGAGATGCTGCAAAAGCTAACTGATTAATGGGAGCATGTTTCGTTTCAGAAGGTGCAATACCATTTATGGTTAAAGATCCAAAAAGAGTTGCAGTAAGTGCAATGGCTGGTGGAGCATTAATTGGTGGATTAGTTGGAGCATTAAAAATTAAATTACTTGCATCACATGGTGGGGTATTTGTATTCCCACTACTAAGTTCAAGTTATTTAGAAAATGGTTCAATGAATGGTGGTTCAATTGCGTTAGGAGCTGGATCAGCTGTTCTAATTGTATTAGGAGCAAGTTTTATATCTGCTATGATTTTAGGATTATGAAGAACTGCAGATATTAAAAATGGTAAATTAACTCTTGATGCAACTAATGGAGTGAAAGAGTCTATTTTAGAAAAAATTGAAAGTGTAAAAAATAATACAAAAATTAATAATAAAGAAGAAAAATTAACACTTTTAAATAAAAAATTAGATAATTATAGTGCTTTTGAAACAGAATTAGCAACTAAACAAAAAGCTTATCAAGCAATTCTTGAAGAGAAACATAAACAACGAGAAGCAAGAAAAGCAAATAAATAATTAATAAAATAAAAACCCTAATTAATTAGGGTTTTTATTTTTCTCCTTTTAAAAAAAGTGTAAAATATAAAGGTTAGAGGTGAAAATATGATTCAAAAACCTAGAGGCACAGAAGACTTAATTGATTTAAAAGTAAGAGAATATTTTGCTTTGGAGATGATTATTAGAAATGTTGTTGATTCATTTAATTATAATGAAATAAAAACACCAATTTTTGAGAGTTTAGAGTTATTTAAAAAGGGTGTTGGTGAAGAAACTGACATTGTTTCCAAAGAAATGTTTACATTTGCAGATAGAAAAAATAGAGAATTAACTCTAAGACCAGAAGGAACAGCACCAACTGTTAGAGCTATTTTGGAAAATAAAATGTATATAAACGAAAACTTACCTTTAAAATTGTTCTATTTTGGTTCAATGTTTAGATATGAAAGACCTCAAGCTGGAAGAAATCGTCAATTCAATCAATTTGGTATTGAAGTTTTTGGTCCAAAAACACCAGAAATTGATAGTGAAATTATTTGTTTATCTTCAACAATTCTCAATACAATTGGAATTGAAGAATATACAATTCACTTAAACTACTTAGTAAATGGTGAACAAAGAAAACAATATATTAGTGATTTGAAAAAATATTTAAAACCTAAATCACTTTGTGATGATTGTAAAAAAAGAATTCAAGTTAATCCTTTAAGAGTTTTAGATTGTAAAATAGATGCTAATAAATTTGATGATGTAATTGATATGAAAGATTATTTAAATCAAAGTGATAAAGATTACTTTCAAACTTTGATTGACAATTTAAATAATATTGGAATAAAACCAATTATTGATAAAAAACTAGTAAGAGGATTAGATTACTACACAGGTTTTGTTTATGAAGTAAAAGATAAAAAAGGTTCAACATTACTTGGTGGGGGAAGATATGATGAGCTTGTAAAGCAATTGGGAAATGTAGATTTACCTGCATCTGGTTTTGCAATTGGTATGGAAAGATTATTAATTGCCTTAGAAGAAGAAAAAATTTATATTTCTGTGCCTAATAGTTTAGATGCATATATTATTGCTTTAAGCGAAAAAGCTAAGCAATTTTCAAATATACTATTGTTAATGTTAAGAAAAGCAGGTTTAAAAGTTGATTTTGATTTTATGAATAGAAGTATGAAATCTGCTTTTAAGCAATCAGAAAAACTAAATTCTAAAAATATTATAATTATTGGAGATAACGAACTAAAAGAAAATAATGTTATAATAAAAAATCAATTAACAAAAACAGAAAAGAAAGTTGCATTTGATAAAATAGTTGATGCACTTGTTGGAGAATAAAAAAATGAAACGTACGCACACATGTGGAGAACTTACAATAAAAAACATTAATCAAAAAGTAATTCTACAAGGCTGAGTTAAGAAAGTAAGAAAATTGGGAGCAATGAATTTTATTGATCTTAGAGATAGATATGGAGTAACTCAGCTTGTTATTGATGAATCAAAAAACTTGGAAAATATTAAATCTGAATATGTTTTAGAAGTTGAAGGAATGGTTATTGAAAGAAAGTCAAAAAATTTAGAAATTAAAACTGGTGAAATTGAAATTAAAGTTGAAAAATTAACTGTAATTAATAAGTCTGAATTAACTCCTTTTGAAATCAAAGATAATATTGAATCTCAAGAAGATACAAGATTAACTTATCGTTACTTGGATTTAAGAAGAGAAGTAATGCAAAAAAATTTACTTACAAGAAGTAAAATGAATCAAACTATTAGAAATTATTTTTTAAAAAATAATTTTATTGAAATTGAAACACCAATTTTTGGAAAATCAACACCAGAAGGAGCAAGAGACTTTTTAGTACCTTCAAGATTAAACGAGGGTAAATTTTATGCCTTACCACAATCTCCACAACTTTATAAACAATTATTTATGATTTCAGGGCTAGATAGATATTTTCAAATTGTAAAGTGTTTCAGAGATGAAGATTTAAGAATAGATCGTCAACCTGAATTCACACAACTTGATATGGAAATGTCTTTTGCAAATGATCAAGATGTTATGAAATCAATTGAACAATTAATTAAAAAAATAATTTTTGATATTAAAGGTATTAAAATAAAAAAACCAATTAGAAAAATAACTTGAAAAGAATCTATGGATAAATATGGAAATGATAAACCCGATTTAAGATTCGGTTTTGAAATTGAAACTTTAAATTATTTATTTAAAGATACTGAAATCCCATTATTTTCTAATATTGAAAATAAAAGCATTAGAGCAATTTGTATTAATTCAATGTTAACTAAAAAAGATCTTGAAGAATTAACAGAAGTTGCAAAACAAAATAGTGTTAATATATTAGCATTTGCAAAATATGATTTAAATGATTGAACAGGTTCTATAGGTTCAAAATTATCAGATTTTGAAAAAAAAGAGCTAATAAAATTATTTAAAATTAAAAATGAATCAACAATCTTATTTGTAGTAGATGAATATTTTAGAGCAAGTCAAGCAATGGGAGCAGTTAGAAATAAAGTTGCCAAAATTTTAAATTTATTAGATCAAGATATTATGGAATTAGCTTGAATAATTGACTTTCCATTATTTGAGTTTTCAGAAGAAGAAAATCGATTTGTTGCTGCGCATCACCCATTTACAATGCCAGCTGATAAAAGTTTAGAAGATTTTGATACTAATAAGGAAAATGCCTTAGCAAAAGCATATGATATAGTTTTAAATGGTTTTGAAATTGGTGGAGGAAGTCAAAGAATAACAGACCCAAAAATTCAACAAAGAATGTTTGATGCTATTGGCCTTAAAAAAGAAGAAATCGATACTAATTTTGGTTGGTTCCTTAATGCATATAAGTATGGCGCTCCATATCATGCTGGATGTGCTTTAGGATTGGATAGAATTTGTATGCTACTAACTAGCTCTGAAAATATTAGAGAAGTAATTGCATTTCCAAAAAATTCATCAGGAATAGATAATATGACAAATGCTCCAGATAAAGTTTCAACTTTACAATTAGATCAACTCCATATAAAGTTAAAATAATCCCTAAAGGATTATTTTTTTAATAAATTAATTTTATAACATATAAGTTATAATTCTACTATATAAAAAATAAGGAGAAAATTATGATGTCACTTAAATTTCAATTAATATATAAATATTTTTTTGGTCTTTTATCTTTCTTTACAATTTTTTCATATTATATATGAAATATAGTAACAGCAGGAGAAGTTAATGGTGTTTATAAAGGTAATTATGAATTATATACAATAGAATATTTTACAACTTTTACATTACTTTCAAATGTTCTAGTTCAATTTTGATTTATATATGCAGCAATTAATTATAAACAAGAGGGTAAAACAAAAATTTTAAGTCATACAACAGCAAATTCATTTGCAACAATTATAACTGTTACATTAATTGTTTATAATGGAATTTTAATTCCAGTTGATGGTTTTCCTTCACATCCATTTAGTATATTTGTAACACTAATTGATCATGCTCTTGTTCCATTAGCTTTTATCCTATATGTAAATTTATTTATGAGTAATAAAGAAAAAATTAGTCTTCAAAATTTCTTTATTAATAAATTTTGAATTCAATTTGTTATGGTTTTATCTTACTGTATATTTGCAATGATTAGAGGGGAATTAAGATTTAATTCAGGAGATTATTATTTTAATGAAAGTGAAAATGTTAACTTGTTATATCCATATTTCTTTTTAGATGTTCATCATGTTGGACCTGGGGGAATTCCTGGAATTGGATGATTCTTTATTGCTTTTTTTGGAATAATAGGATTACTTGTTGGATTTAGTTTTTTATATAACTTTATTAATAACAAAGTAATTGAAAAAGAATATTATAAAAAAATAAATACTATTACTTAAAACTACTTAAAAGTAGTTTTATTTTTAATAAATGATTTGTTGTTAATTTATAAAATATTTATTAATATGATAAAATAGAAAAATGATTATGAAAAGAGAATAGTTTAAATGCTTAAAAGAAAATATAGAAATATTAAAGGGTATTATACTTATAATTTAATTACTGGAATTGTTGCTTTTTTGTTTTCATTTTTAACTTTATTTTCTAAATATATTATTAGTTTAAATTTTAAAGATGAAAATAAAACTGAAGTTATTGTATATAATAGTTTTGGTAAATACTTAATGGGAGCTTATCACACTGAATCAATTGATATTATTTTTAATACAAATATAGCTTTATTAAAAATAATGTCCATTTCTTTAACAAGTATTTTTATTATATTTACAGCAATCTTTTTTATAAATAAATCAATCAAAAAACCTTTTTTTACATTGAAAAAATTGAATAATATATATGTATTTTTAACTATTATAAATTTAATTAGTATTATAATTATTAAATCAATTATGATATCACAATTTATTTCCATAAATAAAACTTTAAATAATCATATTCTAATCACAAATATACCTGATTATCTTTCAGCAAATATGGATTTAACGATGTTCATAACTATGAGTGTTGTATCAATAATTATTACTTTATCTGCTTGTTTATTTAATATTAGTGTTTTAAAAATTTTGAATGGTTCATTTAAAAAAGAAAATGATAAAAATAAAATTAATTAATTAATTTTATTACTTAAAAGTGTAATTCATGAGAACTTAATTTAAATATATTAATATTAGATGATTATTGGTATATAATAATAAGAGTGTTAAATTACACATCTTTTGATAGCGTATTATTATTGCCTTTAAAAGAACTAAATAGAAAGGCAATGAACTTATGGGATTTGATAACAAAGATAACTTTAGAAGATCAAGAAGCGATGGACCTCAAAAACAAGAGGGAGATCGTGATCGTGGCGGAGATCGTGATCGTGGTGGAGACCGTGATCGTGGTGGAGACCGTGGCGGAAGATCAGGTGGATTTGGTGGTCGTGGCGGTGGACGATCAGGTGGATTTGGTGGTCGTGGTGGAGACCGTGGCGGAAGACCTAATGGTGGATTTGGTGGCCAAGCTGGAAATTCAGGAAGAATTGAAAACTTTGAAAAACCTCTTTTAGAATTATTAAAAGAAATTAATGAAAAGTTAGACCTTCTATTAAAAAAATAATTTACTTAAAACTTTCAATTAGAAAGTTTTTTTTATTCTCATTTTTTATTTTTAGTTTAAAAAGAATAGATATCAATTTTATAAAAATAATTTTACATTACAACTGATAGCAGTACTTATATAAACTTATAAATTTTATTTCAGTAAAAATTTTTTTATTCAAAACAAAAAATTAATTTTATATACAAATTTAAAATTAATTTCTATATCTCTATTGGAAAGAGTATTAGATTTTTCCATGCTAGGATTTATTTGAGTTAAGATTTTATTTAACTTATTAAATAGTAGAAATATTTCATATTTCTTATAAAAATTTATTTACAGCAGCTTGCCTTATTAAAATTTTAAATATTAATTTTAGGTAGGTTGGGTGGGTTTGAGAATGAAAGGTTACATATATGATAAAATTATTAAGTCTTATAGGAGCACTAGGAATTTCTTCTTCTACTGTTGCACCAGCTATTATTATTCAACAAAATAGCAATAATATTATTTCAACAGATATTGAACAAGGTTCAATGAGAATTGATGTAAAAAATGAAAAGCATTTTGACAAAGATGGAAAAATAATACTTGGTACAAGAGATTATAAAGAAGTATTGATAGAAGCAATTGATAAACAAAGAGCTTTTAATAAAGAGAATAATGTTTCAAATTTTGATATTACAGATAGTATAACAAGATTTCCAGGAACTGCTGAAAATGGAAAAATAAGAGTTGGGCGATCATTGAAAGAATTAGTTAATGCTAAGGAATATGAAGTTCTAAGCATGGAGGTTACTATTGCTAAATCAGATAACTCTGGAAATTATAAATATGGAATTAATTTTGAAGGTTTAGCTGATGGGCGATTAGTTACTGGGGACCTATATGGTTATCAGTGAGACCAAGGTTTTGCTGATTTTCAAATTAAACCAGGTTACGTTATTACTCTAATAACAGAATATAAAGTAAGTGAAAGAATTGATCATACAGATAAAATGTTTAATTCAAATATTTACTTACCAGATTTAGGGATAAAATTTACAGCCTTACAAATAATTGAAATGTTTAATTATGAAAAAGGGGATTTAAATAAACAAGCAATTACTTATATAAATTCAACAAAAAATACAAAAATTGATAGTATTAATTCATTAAAACTTTATAAAGCAATTAAAAAAGATAATTCATTTGAAAAAGGAGAAGCAATTTTAAATAATACAATTATTGATGAAGAGTATTTCTTTGTTTCTTTTGAATCAAAAGATGCTATTGGAACATTTAATATGTTAGTTCATAAATAAAAATGCTTTAGAAAAGGATTTATATATAAATCCTTTTTTATTTTTTTGTAGATATATTTTAAAGAAATGTTAGAAGGAAAGTTGTTATTAGTAAAGTTATCAAACGAGACAATAATATATAAAATTAAATGTTTTTTATGAAACTTTTAAATGTTAATTATGATAGTATCTTATTATAAAGGGGTAAAATATGAAAAAATTATTATCTTTAATGTCTTCAATTACATTAATTTCATCGTGTTCAACTACAGTAGTTTCATGTAATTTTTCAAATGAGAAAAATGATCTAAATATAGTTATTACTCAATATAATTTAAGTGAAATTGAAGATAATAAAGAGTTAACAATCATAAATAAACTAAAAGAATTAAATTCAAATTTAGATATTAATTCAATTAAAATTGAAAATATTTGAAGTAAAGGAGCAAAAGTTACTCCAAGTGGTAATGGAGTTTATACAGGAAGTAAAGAAATAAGATTTAGATTAAAAGGCGCACCAATCGAATCAGTTGATAAAGTTCTAGTTGGTTATTACTATGAATGGGGAGGCCCAGCTCAAGTAAAACCAAATTTTGATGAAATTGCCAATACTAATTACAATGTAATTGATATATCGTTTTTATATTCACCAACAGCTTATACTATGCCTGTTTTTGAACCTTGAAATCCAACTGATATGAAACAAGGAATTAAATTCTTGCAATCTAAAGGCAAAAAGGTGCTTATTTCAATGGGTGGAGCTACTGGAAGTGAAATGCGATTTAGAAGCAATCAAAAAAATGAATTAAAACAAACAATTCTAAACGTAGTAAATGAATATGGTTTTGATGGTCTTGATATTGACTGAGAGGGAAGTTGTCTTGCTGATAGAGAAAGTCAACAAGTTACAATTGATGCTTTAAAAGAAATTAAAGATGAAAATCCAGAATTTATAATAACAATGGCTCCAGAAATGCCTTATTTGAAAAATAATACAGAAGCTTCTGGCGGTAGTTATATTCCATTTCTTAAACAATTAGACAAATATTACAATTGAATTAATCCACAATTTTATAATGGATGAGCATTTGGACCATTTGTGGATGCAGAAGAAAAAGAAAGACTAAATTTGTCTACTAGTTATATCTCAAATGATGAAGTGTCACTTAGAGCTGAATTCTACTATTTAATGACAAAGTATTTAACAACAAAATATAGTCCACAAAACGATTTTTATTTAATTGATCCTGATAGATTTGTTTTAGGAGCTTCTACTAATGAGCCAGCTGGTAGAGGAGCTGCAACTGAAGATGCTATAAAAAGATCATATAAACTTCTTTCAGAAGATGGCATTTATACAAAGGGTCTTATGACTTGAGCCATAAATTATGATGCTTATGAAGGTATGATTGAAAGTAATGGTCAACAAGTTTATTTTAGAAAATGAAGTTTTGAGTCTTGATTTAATGAAACTCATTATCAAGAAGCATAGTAAGATAATTAGTAAAAAAATCAAAAAATTAATCAAAATAATAGTTTTAAATGTTATTAAGATTTTATGATAATATAATTATAAATTAAGGGGTAAAATATGAAAAAAATATTAAGTTTATTGTCTTCAATGTCATTAGTTGCAGTTGGCTCAAGTTCAGTTGTAGCATGTGGTGGTATTGATATGGGTGATGTTAATGATGAGAATCACTTAGTACATCACGTTTTAAGAACATCTTTAGGTATGCTTGAAAATGATAAAAAGGACACAATTAAAGAAAAAATTCAAGAATTAAATCCAACTGTAGATGCTAGTTCTTATAAAGTGGCAAGAGTAAATAAAAATAAAACTGCTCTTATTTCTGCAGTAAAAAAAGGTGCTTATAAAGGAGCAATGGAAGTTAAATTTAATTTATTAGGAGAACCTATTAAATTTGAAGATAAAGTTTTAGTTGGTTATTATAGTGACATAAATGATTGAAATCAAAAAGAAAGAATTCCCGAATTTGAAGAACTAGTTCAAACAAATTATAATGTAATTAATATTGGAGATTTTTATGCAAAAGGGGAATTTAAAATGCCTACTTTTGAACCAAAAAATTCTCTTAATATAAAAAATGGAATAGAAATATTGCATCAAAATGATAAAAAAGCAATTATTTCAATGGGTGGTCCATTATCAACAAAAATGAAATTTTCAACTGAACAAAAAGATGATTTAAAGACAGCAATTTTAGGCATAATTGATGAGTATAACTTTGATGGAATAAGTATCGATTGAGAAAATACAAGTCTTTCTAATAGAGAAAGTCAACAAGTAATGATTGATGTTTTAAAAGAAATTAAAGATGAAAGAGAACAATTTATTATTGCTTTATCAGCAACTCCTGATAATTTAAGACTTGCAACTGAAATTGGTCAAGCTCCGAGTTATATTCCATTTTTCAAAGGTCTAGAGGGTTATTATAATTGAGTTACTCCAAAAGCATATAATCAATTTGGATATGATATTACTATTGAAGATAGAGAAAAACAAATACTAAATTGAGAAGACGATGATGATACTTGTAAAGTTGAACAAAGTGGAGAACTTAAATGTAGTATTACAAATGATAATGAAAAATATAGAGCAGAGTTTTATTATTTACTAACAAAATATGCTACTGTAAAGTATAGTAAAAAAAATGACTACTTTATAATTGATCCAGATAAATTTGTTTTAGGGGTTTCTACACATGAATTTGTGGATGAAGGAAAAGGAGCAGCTTCTCAAGAAGCACTTCAAAAATCTTATGATTTACTTAAAAAAGATGGAATTTATACAAAAGGTCTTATGGCGTGAAGAATAAATAATGATGCGTTTGATGGTGAAATCAAGGAAGGTTCTAATGTAATTAATTGAAAAAAATGAAGTTTTTCAGATTGATATAAGGAAATTTATTGAGAACAAAAAAAATAGTATAAGTTTATTTAATTTCAAATTTTCTAAAAATAATTCTCTTTACCAGTAGTTTAACTACTGGTTTTTGTGAGAAAGTAAATCAAAAATATTAAAATTATAAAATCTTGAATAAAAGAGTATGTTTATAAATTAGGGGTAAAATATGAAAAAAATATTAAGTCTACTGTCATCCTTTTCAATAGTGCTTGCAGCACCAATTGCTGTTGTTTCTTGCGGTTTTAATATGGGAGATGTAACTCTTAAAAATCACTTAGTGCATCATGTATCAAAAACAAATTTAGGTTTTATTGAGAGCGAAGATGAAGAAATAATTAAATTAAAAATAAAGGAATTGAATTCTGATTTAAAGATGGAATCAATTGCTATTACAAATATTAAGAATAGAATAGCAGTTATTTCTGGAACAGAAGATGGAATTTATAGTGGGCAATTACAAATAAAATTTAATTTAAAAGGTGATCAAGTTAGATTAGAAGATAGAGTTCTTGTAGGATACTATTTTGATTGAAATGGTGAAGGACAAACAATTCCAACTTTTGAAGAGTTGGTAAAAACAAATTATAATGTAATTAATGTCTCTTTTCTTTATTCTAAAAAAAATTTTGAAATGCCTAAATATTCGCCACAAAATCCAGAAGGAGTAAAAGCTGGAATTAAGTTATTGCAATCTAAAGGTAAAAAAGTACTTATCTCAATGGGTGGGGCACCTTCTAGTGAAATGAAATTTAGAGCTAATCAAAAAAATGAGTTAAAACAAACAATTTTAGATATTGTTGATGAATATGGTTTTGATGGACTTGATATAAATTGAGCTCAAAAAGCTTTAACTGATTCAAGAAGTCAACAAACAACTGTTGATGCTTTAAAAGAAATCAAAGATGAAAATCCGGAATTTATAATAACAATGGCTCCAGAAATGCCTTATTTAACAAATAAATCTGAAAACTCAGATAAGGGTAGTTACATAACTTTTTTAAAAGGGTTAGAAGATTATTACAATTGAGTAAATCCTCAACTGTATAATGGAAGAGGTTTTGGACCATATATAGAGTCACAAGAAAAGAAAAAGTTGAAAATAAAAGAAGATTATATAGCAAATGACAATGAAAAATATAGAGCAGAGTTTTATTATCTAATGACTAAATATCTAACAACTGTATATAGTAAACAAAATGATTATTATTTAATTGATCCAGATAAATTTGTTTTAGGAGCAGCTGCTAATGAAATAGCTGCTAGCGGAGCTGCAAGTAAAGATTCAATTAAAAGATCATATAGACTTCTTAAAAAGGATAAAATTTATACAAAAGGTCTTATGTCATGAGCAATCAATTATGATGCATTTGAGGGAACTGTTAATGTTGATGGTCAACAAATATATAATAAAAAATGAAGTTTTGAGTCTTGATATAATCAGACTTATAATAAGTAAAAATTTAAATATTATAAAACTACTTTTATCATCTCTAAAATAATTTTTTATAAATCAATGATATTATATGAAAAATGGACGGTAAAAATTATGAAAAAATTATTATATTTAATTCCTTCAGTTTTTCTAATTTCTTCAACTTCAACTTCAGTTGTTTCATGCGGTCTTTTTAGTAAAGATAAAAAAGATGAAATTAAAGAACTAGAAGATGATATTAGAATCACTAATTTGGGTGAGATTGAAAACAATCAAGAAGTAGCAATAATAAATAAATTAAAAGAACTTAATTCTCAATTAAAAATTGATTCGATTAAACTTTCTAATATTACAGAAACTAAAGCTTTAGTTTCGTCAAATGGGGATGGAGTTTATAAAGGAAATTTAGAAGTTAGTTTTTCATTAGAAAAGGATCCAATTGAATCAATTGATAAAGTTCTAGTGGGTTATTACTATGAATGGGGAGGTCCAGCTCAAGTAAAACCAAGCTTTGAAGAAATGGCTAATACTAATTACAATGTAATTGATATATCATTTTTATATTCACCAACACCTTATACTATGCCTGTTTTTGAACCTTGAAATCCAAGTGATATGAAACAAGGAATTAAATTATTGCAATCTAAAGGCAAAAAGGTGCTTATTTCAATGGGTGGAGCTACTGGAAGTGAAATGCGATTTAGAAGTAATCAAAAAAATGAATTAAAACAAACAATTCTAAACGTAGTAAATGAATATGGTTTTGATGGTCTTGATATTGACTGAGAGGGAAGTTGTCTTGCTGATAGAGAAAGTCAACAAGTTACAATTGATGCTTTAAAGGAAATTAAAGATGAAAATCCAGAATTTATAATAACAATGGCTCCAGAAATGACTTATTTAAAAAATAATACAGAGTCATCTGGTGGAAGTTATATTCCATTTCTTAAACAATTAGACAAATATTATAATTGAATTAACCCACAATTTTATAATGGATGAGCATTTGGACCATATGTTGAAGCTGAAGAAAAACAAAGATTGAATTTATCTGTGGATCTTATAACAAATGATGACGTTGCTCTTAGAGCTGAATTCTATTATTTAATGACAAAGTATTTAACAACAAAATATAGTAGATTAAATGACTTTTATTTAATTGATCCTGATAGATTTGTTTTAGGAGCTTCTACAAATGAACCAGCTGGTAGAGGAGCTGCTACTGAACAATCTATAAAAGGGTCGTATAAACTTCTTTCAGAAGATGGAATTTATACAAAAGGTCTTATGACTTGAGCCATAAATTATGATGCTTATGAAGGTATGATTGAAAGTAATGGTCAACAAATTTATTTTAAAAAATGAAGTTTTGAGTCATGATATAATGAAACTCATAATAAAGAAAAAAAATAACATCTTGACGATGTTATTTTTATTTTTAACATACATAAATGGTATTTTTATAATAATTGATGTAAGATTATTTAAGTTAAATAAAGTTATAGTAAATAAAAAATAATATTTTTTTATAACTTATAAATTTCTATTTTTAGCAATAATATAAAAAAATAAAATTAATAGAAGGTAAATTTTTGAATAAATTTTTTTGGTAAATGATGAAGAGAATAGATGCGCATAATAAATATAAATGAGATTTAATTTCTCTATATAAAAACGACAACGATTTTTTAGTAGATTTAGAATTATATATTGAAAAAAATAGAGAACTTTTAAAATACAAAAATAAATTAAATAATAAAATTGATTTTTTAAATTTTTTAAGAGAATCAATTTTGGTAGATCAAAGTATTTCTAAAATTAATCATTTTCTAAAGCATTTATACATTGAACAAAATAATTCAAGACTATTAAATCTGGAATCAATTTTTAATAATAAATTGCAAGAGTTTGATGGTAAATTTTCATGAGTTAGTGAGGAAATAAAAAATGTTGGAAAAAGAAAAATATTAAAATGATTATCAGAGGACAATCAGCTTGTTCATTATTCAGAAAGCTATAAAGATTTTTTTAAAAATATAAGATATCTTTTACCACAAAGACATAGAGAATTAATTTCAAAAGTATCAAATTCTAGTTCAATTATCTATGAAATGTATGAAGTGATGAGATTTAAAGATAATGAAGAAAAGAAACTAATTTATAATAATAAGGAATATATTATAAATCAAAAATTTATCTCAGATATTTTGACTTATTCAGATCCTGTTAATGACCAACAATTAAGAATTCAAGCAAGTTTAAAATTTAAAGAAGAACTCAAATATAAGCAACATACTTATGCAAAATTGTATGAGTCTATTGTAAAAGAAGAAATTGAATCTGCAAAACTTGTAGGTATGAAAAGCTTTAAAAATAATTTTTTTGAAAGAGATGATTTTTCAATTACAAATTTTTTAAATTTAATAAATTTTACTTCTAAAAATTCTAGAGCTTATTATAAATATTATGAAATTATTAAAAGATACTTAAATTTAGAAAAATTTTATGGTACTGATTCAAGTTTAGAACTTTTTAAATTGGAAAGAAAAAATTATAGTATTGAAGAGGCACAAGAAATAATTAAAAACTCTTTAAAACCAATGGGTGAAAAATACATTTCAAATTTAGAATATTGTTTATCAAATAATAGAGTAGATTATTATGAAGATAAAAACAAATCAACAGGAGCCTTTACTATTGGTAGTTATACTTATGATTCATTGATTTCTTTAAATTATACAAATGATATAGATTCAATTTCAACATTAACACACGAATTAGGTCATGCAGTTCATAACTTATTTGCTAAGCAAAGTCAACCAAGGCCTTTAAATAGTTTTTCAAATATGATTGCAGAAGTTGCTTCAACTTTTAATGAGCATTTATTATTTGATTATTTATTAGAAAAAGAAAAAGATGAAAAAAGAAAATTAATTCTTATTCAAAATAGAATTGAATTTATTTTTTCTAATTTCTTTTCAGCTATTGCAGATGCAGAATTTGAATATCAGTGCTATAAATTAAGTGAAAAAGGAGAAGTTCTTACTTTAGGAAAAATATCTGAGATATTAAGAAAGGCAAATAAAAAAGTATTGGGTAATTCTGTTTTTGATAAGTATGATAATGAAGTTGGTAAATATAGTTGAATTGCAATATCTCATATTTTTGAGCAACCTTTTTATATTTATAAATATGCTGTATCCATTGCTGTTTCGTTCAAACTTTATTCTGATTTCAAAAGGACAGGAGATGAAACTCAAATAATTAATTTTCTAAAAGATGGGGGAAGTTTGAAAGTTACAGAGTTATTTAAAAAGTATAATTTTGATTGTAAAAACCAAGAGTCCTACAAAGATTTAATATTAGAAGTTGAAAAGTTAGTTGATACTTTTGAATCAATTTTAAATAAAAAATAATCTATTGATTAAACAATTAAAATAAAATTTAAAGTTGTTCTTTTTGCAAGTTTATTTTTAATATACATTTCTTAAAAATCTTGTGTAAAAATATAAGATTGAATTTGAAAAGACAATTAATTCTATTGATAAAATATTTATTTTAATAAGTTTATCCTCGCTAATTTTACTTTTCTTTTTTAACATTTTTGAGTAACTCATTATTTCTCTTGCAATTAGATCAACTTTTGTTATGGTATTTTTACTTGAAAAGATTCTTTCAGATATTAAATCTATATATTCATCTTTTTTTAATATGTTAATTACTTGCTTTTTGTATACTTCAAAGTATGAAATTAAACAGTTATTAACAAGTTCAATTGCATATAGAGATTTACTAGCAATGTCTTTTTTTTGAATATCATCAAAAAATACACAAATTAATTCTATAGATTTAACTCAACCTAAAATAAAGACATAATCTACAATTAGTTTATGGAATTTAGAAAGCAATCTTGAATTATTATTAATCAATTTAAATTTTTGATTATAGAAGTTAGAATAATTATCAATTTGCTGAAACAAAATATCATATTTTTCAAAATCATTTGTATATTCAATATTAAAATCTTTTGGATTTTTATTGAATTTTATTATTCATTTCAATAGCTTCTTAATATTTTTTTTAACATCTTTTTCCCAATAAGGACTTAAATTCTTTAAATTTTCCTTATCTTTTGATGTTATTTTATAGGGTTTAAAAGTATTTATCATTTTATCAAACTTTCTATAAGTTGTTATTTTTATTATATATTAATAGTATAAAGAGAAGAGAGAATAATTTATGTTAGGTAAATATGATTTTAATCAAGAAAATGCTGAAAAAATATTTAAATTTTATAATCCCGTCTTGCAGATAGTATTAACATTATTAAATGAACAGAAGAGTCAATTAAAACAAGATAATATTATAAGCAATGACTTTGACAAATTATTCAATTATTTTAAGAATATCAAATATCTTGATCAGTTTAAGGAATTTAAAGATATGTTTGATTTTTTTTATTATGATTTTTTAAATAAATTAATTCTCTTAAATAAGGATGAAATTGTAGATCGTCATAGATATTGACCTAACTTAGTTTCAATTAAACAAGTTTCACAGCTATTAGATCACTGAATAGGGAAAAGCTATGATAATATGAAAAAAGACAAAGAAGTAATAAGTTTATTTGATTGTTTCACTGAAATTAAAAACTTAATTATTAATTATTGTAATACTTTAATTAAACAAAATTTTAACAAAAAGTTTATTAAAACTCTAGATGATATAAAAAATGCAAATGATTTTAACATTATTGAAAATTTATCAGAAAGAATAATAAATATGATTGAGTATGATTCACTAAATGATGAAAAAGTTCATAATATTTTAGAAGTTAGTTCTCAAAAATATTGAAACGAATTTAGTATTTTAATAAATATATCAATATTGTCTGTATTGGCAATACAAATTAAAGAAGAAAATGCTTTGCAGAATTAATCTGTAACCTAGCTTTCCTTTTCAAAAGTGTCTTTTTAACACTATAAAGTTATAAAAAAAAGTTTTATTTATTAGTTTTCATATATAATAAATTTAATTTAAATCTTGAATAAGTTCTAAAAATCAAATCTATCTAAATCGTTAAAAGGAATGAATATATATGAAAAGAATTATTATGCTATGAACGTTATTAATTTCATTATTTTTTTCTTTTACAGTTTCTACCTCTGAATTTGTAAAAAATAATATTACTAATAACAACTATTTAAAATCAATTAAAAAACTTAATGAAAGTGAGCAAATATCATATAAAAGTTTAATAGAATCAAAAAGTAATTATATGTATTATGGACGTTTTTTAAAGTATTATTATGCAAATAGTATCAAAATATCAGACAGTGATATTGAAATAATTAAAAATACTTTAAAACTAAATGGAATTCAAACTACTATTTATGAATCGCTATTTATTCAAAATATGTTAGCATCTACTATTATGCCAAGTATTTATGGAGCTTCAAGTGATGCTGAGTTTTTTGCAGAAAGTTTTAGTAAATGATTAAATACAGAAGATATTTTAAAAAATAAAAGCTGAGAAGTTACAAATAATTTTTATATTAATTTACTTCCAGAAATTATAAAACAAGGTGGAACTATTAATGGAACTTATGAGGATTCATTTACAATATCACAAAAATTTATTAGTCTAGTTGAAAATTCACAAAATAAAATTTTTTATGATACAACTTTAGATTCAAAGCCAACTAATAGTTTAAATTTAAAATATTCAAATAGTTCGATTATTTGAGAAAATAATCAACAAACTTTGGATTATTTTCTTTCACAACTTAGATTAGAGACTGGAAGTCTTATTTATTTAAATCAAAACCAAAAAGATGTATTGCGAAATTTAGCGTCTTCATGAATGAATGATTCTTATACACCAGCAAGTCAAACTTCAATTGAGGAATTTAATAGTTTTAATGAAAATTATTATCAATCATTTGATAATTTAGATAAAACTTTGGCAGCTGCATCAAAAGATAAAAATAATTATAGTGGAGTTTGACTATCACATATTTTTAATAATTTAGAAGAGGTATATCTTAAAAAGACGCCAAATAGTTTAGGAGTTGATTATGAAAAATGATCAACTAATGACACTGAAAAATTAAAAGAAATTACTTTAAAAACTTATAATTCACTTTATAACATTATAAAAAATGATATTTGAGTAAGTAATATATTAGTGGCATTGATATTAAGTCCTGACTTTCCTTTAAAAAATAATGATGGATCAGAAATGAATGAAGGAACAATGGGATACACAAGTACAAGTTATTATATAGATAAACAAAATAATTTTGTAAGTACGGCTTATTCTTATATCGTTATTACAGGGCCAAGTTTAACTTTTAAAGAATTTAATAGTCAATATAAACAAGGATTTTGAAGTACTCCATATAAATTCAGTGTAGTTGTTCATGAAATTGGTCATGCCTTAGATGGTTTTGGAAGTAAACTAAATATGTATAGAAATAATAATTATTCAAAAACCTTAGACTATAAAGAATTTTATAAAGGAGATGTTTTTGGAGAATATGTTGCACAAGATAATACTTGAAGTATATTAGTAATAATTCTTGCAGGTAGTACAACTGCAGCTGTTTTAATAATAACTTATGTTGTTCTAAGAAAAAAAAGTTCTAAGAAAAACATTGAAAAAGTTGAATAATTATAAAAAAAACTTACTATGTAAGTTTTTTTAGTTTAATTTCTTGAATTTATAAAGAAATATAGGAAAGATAAGAATAAATTTTTTAATTATTTATATTAAAAATACTATTAAATCTCTATTTAAAAACAAATATTTTCTCTGTTTTTAAATAAAATAGCTAATTTTGATAAATTTAATATATTAAAAGGGAAAAGAAATAAAAAAATTATTAAGTTTATTAGTGGGGAATTTCTTTAGTTGATTCTGATTATTTTTTGTCATTTCATATTTTGATTATATTGATTGCCATTCATTGTCTTAATGATAAGTTTAAAATATTTAATTTGAAAATAATTTGTCAAGAGATTTTAGGAAAAGTTGCAATTCTTTATTTTTAAGTATATAACATATAAGTAGCATGTATTTTTAATAAATTCTTATTAATTTACATTGACATTTTAAAGGGGAAAAATAATTTATGAAAAAACTGTTAACTTTATTTTCAGTAACTAGTTTATTTGTTTCAACATCAAATATGGTAATTTCATGTGAAAAAGAAAAGGTAATTAATTTTGTATTACCTGAACAGCCACAATCAGAAGAAGATATAGTTGATGCTTTAGATTATTACATTGATGAAAAAGCAAAAGTAGATGAAATAATTAATAGTGAACTTGTAGCCTGTTCTAATTGTAATGAAAATCAAAAAAATCAAATTTTATTAAACAGTGGTGAAGCTAGACAATGAAGTGTTGTTTATGAAACTTTTATTAAGGCATATAAAAGCTATAAAATGTTAATATTTGATTGTGAAGAGTTAGAATCAAAAACTTCACAAATAAAATATAAAAGAGAATCTACTAATAGTTTTGATGAATATATTAAAAAAAGTCAAGATTATAACAATTTAAGTAAAAATACAAAAAAATTTATGAAAGAAATTCAACAGTGAGCAAGAGAAGGTCTTGAAGAAATTGAATAGAGATAATCTCAATTAAAATTTTAAAATATTTTAAGTTATTTACTATTAATTATAAAATAAACTTATTAGTAGCAAAAAAGTCTATTTTATTGAATTATTAATTGAAATTTATTATAATTATATAAAGGAGAAAAACATATGAAAGATAAAAATATAGTATTATTAGTAATATTATTAATTTTAGGAATTATACCTGGAATAGTTTACTTATTATTCCATCCACAAAATAAATTGATAGCTTTAATTATATTATTAATATTGGCAATTATACCTGGTGTATTATATCTAGTATGACCAAGTGGTGGATACTCAAGTTAATATTTTATATATTAATCAAATCTAAAAAATTACTTTTACATAATAAAAGTAATTTTTTTATTTTTTGATATTATTAACTAGAAAGAGTTATATTTGAGTTGAATTTTATTTATCAATAAGAATATAATTTTTTTGCAAATAATAGGAGAAAGAAAAGAAAATGAGAAAAATATGGAGCAACAGGTTTAGTTGCTTCAACAAGTGTAGCAGTTGCATCATGCAATCCAAAGCAAAATAATGAGTTTCAAATTCAAAAATTTCCAACTAATGTAGAGGAAGCGAAAAAAATTTTGTTGGATTTTTCTAAAAAACAAGCAATTACTGAGTTAGAAATTGAACAAATGGATGATGAATGAATTGGGATATTAAATTTGCGAATAAAAATAATTATTCAGAAAATGAAGTAATTTTATTTGTATCAGTTTTTAAAATTGTAAATACTGAAGGTAAGGATACTAAAATTAAAATTTGAGATTATGACGAAAATAATGTTTTTTTAGAAAAGGAAATTACAGTAGGAGAATATTTATATCTCTCACCAAAATTTGATGAAAATTACTATTTTAGTGAAACAGTAGATGGAATAATAAACACAGATATTTCATTATTTCCAGAGTCAGTAATAGGGATTAAAGAAATGATTAATAATGTAAAAGAAATTCGAAAATGATGATTATCTGGAAGAAATTTATTAGCGTTTAATGATCAGTTCAATTCAACTAAAATTGAACTTGAAAGTGAAGATGAGGATGAAGCTCTTAAAGCAGGAGTTGATTTAAGTAAAAATAAAGATATAACTATAGAAAACACTAGTTTTAGATCTTGATACATAAATCATGAGTCTGTAGTAAATGAATATTTTAGTCTTGCTCCAAACAATAATGATAAATATTTAGGTTTAGCTTTATTTGAATTTTCTCTTAATAAAGATAATTAAAAAGTATATCGCTATTTAATCAATATTTATATTTTTAACTAAATTCTACATGAAACATTAAAAGTGTAGAATTTTTTATAATTCTTTAAATATTGCTAAAATAACTGAATTTATATTAATTTTTTTATAATTCTGAGGAATAAGTACTTATAATTATTCTTAGGAGAAAAATATATGAAAGACAAAAGCGCATTATTATTAATAATTTTATTAATATTGGCAATTATACCTGGAGTAGTTTATTGATTATTACATCCACAACATAAATTGATTACATTGATTTTATTATTAATATTGGCAATTATACCTGGAGTATTATACTTAATATGACCAAAAGGTGGATATGCATATTAATATAGAAATATATTAGAAAAATTTTAAAAGTTATTATTTAGAAAATAATAACTTTTTTATTTAAATATATAATATAATTAAAATATGCTTGGAATATCTAGGTAATGGGGGAAATATGAAAAAATTATTATCAATTTTATCTACAATTGCATTTACTGCTTCAACATCATCAGCTGTTGTTAGTTGTAATACAAAAGTGGATAAAGTAAAGGACATTGATAAAATCATTAAAAACAAAGACTTAGGAAAAATTAGCAATGTAAGTGAAAACATTTTAAAAAATGCACTTAAGCAAAACAATCCTAAGGTAGACACAGATAAATTAGCATTAAAAGATGTTGATTTATTCAATGGAAGTGCTACTTTTGTTCCAAAAAACAAGGCTATTGATTATGATGGGCAAGCCAAAGTTAAATTTGATTTTGGTAATAGAAAAGCAGAATCTCAATATTTATGAGAAGCTATTAGCAATACTTGATTAGGAACAATCAATAAAAATGACCCATCAGAGATTTTAAAAGAATTAAAGGGAGTTAACCCATTAATTGAAACAGATCAATTAGTTGTAAAAGGACAAAACAGTTGAGGAGCAACAATTGAAGCTAAAAGCGATTCAACTCTTTATAAAGGACAAACTTCAGTTTCTTATAATGTAATTGAAGGTGGAGATACTTCAGCAATCTCTCTTTATTCTGCAGTTAAAACTACTTGATTAGGAGAAATTCAAGCGGGTTCTTCTGAACAAGAAACAAAACAAAATATATTAAATCAAATTAAATCAAAAAATAGTGAAGTTAATATTAATGAATTAGAAGTTAAATCAATTACTGAATGAGGAGCACAAGTTGGTGCTAAAGCAGGTTCAGAAGTTTATAAAGATGAATGTTATATAAGTTTTACTTTAAATGGAAATACAGGAGGTTCAGGTCCTGGTACTGGAGTAGCAAGTTCACTTTATAATGAAGTTAAAACTACTTGATTAGGAAATATTTCAGATACAAATGAATCAACAATTTTACAAGCTGTTAAATTAAATAATCCAAATTTAGATATTACTAAATTAACATTGAAAAATACTAATGATTATAACTCAATTTTAATTCCTAATGAAGAAGGTAAAACAACTTATAAAGATGAAGTTTGACTTTCATACAGTGTTTCAGAAAATACAAAACCTGTTGAAAAGAAAGAATTAAGTCAAGTTATTTCAAAAACAAACTTTGAAAAAAGTAAGAGTTCATCAATTCATTTAACAGATAATAACCAATTAAATGAAGGAAAAATAAAGGAATTAATTAGTAATTCAAATGGTGGATTGGATTTAGAACAAGTTGAAATTTCAAATATAAAAGAAGTTTCAACTAAAGGAATAACTGAAGAATATACAAACTATTCAGCAGTAGTTAAAGCAAAAGAAAATTCATATAGTTATAAAGGAACTGTTAACATTAATTTCTATACATTAGTTTTAATAACAAATCCTGATGAATTAAGCGGAGTTATTGAAACTACTCAATTAGGTGAAATTAGTGATAATACCGATGCAGCAATTTTTAATGCTTTAGCAGAAAAAAATAAAAATAAAAATTTAGATTTTGGTAATTTAAAAGTTGAAAGTAAATCAGCAACTAGTGCTATTATTAAAGCTATTGATAATAGTAAAGTTTATAGTGGTTCAGTTTCAGTTAATTTTGTAGTTAAAGAAATAGAAAAACCTTCAGAGAAAAAACTTTTATCTGAAGATCTAACAACTTTAAAATTAGGAGAAATTAAGGATGCTAAAGATTCAACTATCTTAGAAGCAGTTTATTCAAAAAATTCAAAAGTTCAAAAAGGTGAAGTTGAAGTTAAAAATATTACTACAACTGGAGCTACAATTAAATCAAAATTCAATTCTGAATTTTATCAAGATTCACAAGTTACAATAGAGTATAGTTTAAAAGAAAATGGTGAAAAACCAAAACCTTCTAATGATGCTCTTTTAGTAGGATATTGATATGAATGAGGAGGAGCTAATCAACATAATGAACCAGTGAAATTATTAAACAGTGAGGAATTATTAAACTCTGCATATAATGTAATTGATATCTCTTTCTTATACACATGAGAACCTTATGCAATGCCTACTTTTGAACCATTTAATCCAGGAAGTAAAGCTGAAATTCAAAGAGGAATTAAATCATTACAAGCTGCTGGTAAAAAAGTTATTTTATCAATGGGTGGTGCCACTGGTGGTGAGATGAGATTTAGAGAAGATCAAACTGATCAATTAACTGCTACATTTATTAAATATATTGATGAATATGGTTTTGATGGAATTGATATCGATTGAGAAGGTGCAGCACTTGGAGATAGACAAAGTCAACATACAACAATTGCAGCATTAAAAGAAACTAAAAAAATTCAAAACTCAAAAGGTAAAGAATTTATGATTACAATGGCTCCAGAATTACCATATTTAAAATACAATACAGAACATGGTAATCAAGCAAGTTATATTCCGTTCTTAAAAGGACTTGATGGTCTTTATGATTTTATAAATCCTCAATACTATAATGGTTGAGCATTTGGACCATTTATTGACCAAGAAGAAAAAAATTACTTAGGAGTTAATACTTCATACATTTCAAATGATGACGCTGAGTATAGAGGAGAATTCTACTACTTAGTAACAAAATACTTAACAACAAAATATAGTGCACAAAATGATTTCTTTGAAAAGATTCCAACAAACAAATTTGTTTTAGGAGCTGCAACTAATGAACCTGCAGGTAGAGGAGCAGCAACAAGAGAATCAATTTATAAATCATATGTTCTATTAGAAAATGACAATATTTATATTCGTGGATTAATGACATGAGCTATTAATTATGATGCAGTTGCAGACTGAATGTTTGAAGCTTGATTCAAGGAAACTTGAGGAAATAAATAGTTTATAGCTTAGTATAAATAAAAAACTTTATACAGTATTTAAAAAACATATTCTATATTTGATAGAGTATGTTTTTTTTTTTTTTTTTTAAAAAAAAAAAAAAAATCAAGTAAAATTCACTTCTTATACTCTATAAATTTTTTTAATTTAATAAAATTTTATGGAGTATAATATAAGTGTATGAATAAAATTTATACACAAAAAAATTAAAGTGCTCGTTAGTATTAATTTATTAATAATTGTGTATTAATTAGAAAAGAAATAAATTTTATAAGATATTAGTTATGATATAAAAAGTTAATTAAAATAAATATTAATAATAATAAAACAATAACTATAAATAATTTTTTTCATTATATTCAAATGAAAAATTTTAGCTATTAATAGTTATTTATAATTAAAATTTAAAAGGAATATAGTTAGGAAAAATAAAAATGTTAAAAATAGATAGAGTAAATAAAAAATTTAAGAACAAAGAAGTTCTCAGGGATATTTCTTTCTCTCTAGAGAAAGGTAAATGTTATGGACTTTTTGGAAATAATGGAGTAGGCAAAACAACTTTAACAAAAATTATTTTTAATGAACTTAATAGAACCTCAGGTGAAATTTATTTAGATAATATAGAACAAAAAAATATTGACTTTAAAGAATGATATTTTTTTACAGAGAATAATGAATTACCAAATGATATTAGTGTTCAAAATTTTATTGAACTATTAGTGAATTTAAATTCTCTTTCAAAAGATGAATATAAAAATCGAATGGAATACTTAAGTAGTATTTTTGATGCTAAAAAGTTTTGAAAAATTAAAATAAAAAATTTATCTGCGGGTCAAAAAAAATTATTATCTTTATATGCTTGTATGCTCTTAAAACCTAAAATAATTTTCTTTGATGAACCAACTGCAAATTTAGATATTAAGAATAAGGAAATAATTTTAAATGTAATTAAAAAATTAAAATCTGAAAATACCATTATCGTAATAATTACTCATTTAATTTTAGAAGTTCAAGAATTGATTGATCACATATTAATGATGGATAATGGACAAATAACTTACGACTCAAATTTTAAAAAGAATGACGATATTAATGAAATATTTAGTAAATATAGTTCAGGTCTATCTGATGATGTAAAGAATAGTTTAGAGGAATATCTGAATGAAAAATAAAAAGAATATATTTAAAATACCATTTATGAATCAAATAATTATTTTTAAAAATCAAAAAGTAAATTGATTAATATATATAAGTTCACTGTTTATTATTTTTATCTCTGAACTTATTTCATCAATTATTTTTACTACAAATAAAAATGTTCAAAGTACTTATTTAGCAATTAATTTAATTATGATAGTAAATTCAATAGTAATTTTATTTATTACAATTTATTACAGTTTAACGATATTGTTTAATCAAATCTTAGACAATACTTATAAATTGGAATTAAGGTATGGAATTAGTAAAAGAAATATTTTTTTTACTAGAGTTATATTTATATTGACAATTTTATTTTCATTTTTATTTATTAGTTTAATAAAATCAATTTGCTTTTACTTATTTTTTGCTATAAATCATAAAGCAGATATTTTAGTATATAGAATCTATATTTCTGTATATGCTTGATACACAATTTTTATTTTGCTAGTATTTTCAGTTACTATTTTAATTTCTATGTTATTGAAAAAAGAATCAACTATCGGAACTATTGCAACTCTGTTCTCAGTAATATTACTAGTAATAGTTAGTTCTTTAGGTATGATTTCAACTCTTAATTCTTCATCAAGAATCAAGCAATTAAATAATATTGCTATTAATTTTAGTTATTCAAATCATCAATATCAAGAAATTCAAAAAGATGATGAAATTTTAAACTTGTATCTTGCTTTACAAGAATCAGAATTCATGTCTATGAGTATGCAAGAGGTAATGGCAGGTTATAATACTTGAGATTTAGAAATTCAACAAAGCGCTTTAGTATTTAAAGAATTATCTTTTGAAATAAAAGAGATTTTTGAAAATTCAAATATTAATTCATGAGAAAATGTATATGAATTCACTGATGACTATAATAATAATTTTGAGCAACTAGCTAAATTAGCAAAAAAGGCTATTAAAACTAAGAGTGATTCAAAGTATAAATCAGTTTATAATTTTGTTAATAAAGATATTGTCAATTATTTTTATTATCAAGAATTGGATTTAGCTTATAAACCTGAAAAATTAAATACTAATCCAGAATTAGAAGAAAAAATTAAGAATAATTATAATCCTGATGAGTACTTATTTACAAGAGCACTTATGAATAAGCTATATTATAAAACTTCAGATAGATTATTTGAAAAGATGAGAATTAGCATGATAACAACTGATGATATCATTGCTGCACAAAATCTTGAGAATATAAAGAATATATTTAATCCGCTTAGACATATTACTTTAATGTTTCAATCAATAGATTATCAAAATGAAGTTTTAATTAATCAAATTGGAGCAAGTCAAATGTTATTTTCTAGTCTAAATAACATAAAAATATATTCTAATGACTCACAAGTTACTATAAAAACTAAAAGGTATTTAAATATTGAAATATTGTATGTGTTTTATACACTAATCTCACTACTTTTAATTTTTGGATCATATTCAATTTTTATTAAGAAAAATAATTATTAGTAGAAATTTTTAATCACCAAATTAATTTTATATTTCAAAATTTGTATAAAATTAGTTTTATACAAAAAATTATTTTTTCATATTCCCATTTTTATAAACAAGCGTTTACTGGAGTATGAAAAAATTTTTGTATTTTCAATATTATTTTTAATATATTTTTATTTTTATAAACACTTATTTAGTACAAAATAATTTATTTTTTTGCACTTATAGTTTTTATAATAATTTTAGTAATAGAAAAGAGGGATATGAATAAGTATAATTTAATTTTCAAAATGTAAGAAAGGATAAAAAAATGAAAAAAATAATTAGTATGTTGTCAGTTTTGACACTTGGAGTAACAGGAGTAAACTCTGTTGTTGTAGCAAACCAATATAGAAATAATGCAAATGAAGTTCTTGGTAATCAAATTAATTGAAATAAATTGGAAGAAAATTTATTGACAATGTTTGATGGGATATTAGATGAATCAAATGAAAATAAGGAAATGTTATTAAAAGCTCGTGAAGAGTCTTTAAAATATTATGATAATGTGAAAAATAATAATTTATCTCTTGATAAAATTAATAGTAATTTAACAGAAATGTCAAAAAAATATGAGAACCAATATAAAAATGAAATTACTAGGGTAGATACTAGTACAAATAAAGTAAATATTGATTTTTTTAATTATTCAAATTATTTTTCAAACTCAAAAAAAGTTGAAAATTATGAAGATGCAAAGGCTTCATTATCTAAATTTTCAAAAGATCTTGCTATTGCTCAAAATACACTATCAACATTAGCAGTAGTAGCTGGAATTGCTGCAGCTGGTTTTTGAGCAGCTGCTTGATGATTTGGTATTAGCATTCCATGAGCAGTAGCTGCTACTGCTGTTGGAGCTTCACTTGGTGTAGCCTCGGCTTCAATAGGATTTTATAGACAAAAACATAATTTAAATCCAAATTTACTTAGTGCAGTAGCATGGTCGATTAATATTAGAACACTTGCTTCAGCTTTTAAAGAAATTGTATACCCAGTATTAATTATGACAGAGACCACAGTAACAGCATCATCATGAGCTGTTCCTGCAGCTCTTGCTGCAGTTGGAGCTATATTTGTAATATATGCTTGAGTATCAGAATTTGCATAGTTACATATTTTAAATTTATCTTTTTATAGAGATAAATTTTTTTTATTTTATCTCTATAAAACATTATTTTTTCAATAGTCAAAATAAGTTACATAATAATTTACAATTGAACTCTGTTAACTTTTTAAACTTAGCAAAAAATTATCTACAAAATTTTATATCTTTTTTTTAGATTTAATAAAGACTATAAAAGAAGTAAAATGGACCATAGTAGATATAAATATTTTATAAATTTTTATATGCAAAGCACCTTAAAAGCATAAAGAAGTAAATAAATTATTTGAAATGTATTTTGAATAATTTATTAAATTTACTAATTAACACCAAGAAATTTTAATGAAGGACAAAATATTTAAAATTGAAGTTGTTAAAGTAAAAAGAAAAAGTAATAGAGTAGAATGAAACTATAGTATTATTGAAAAGCTAGAACATGGCTTTAATTTACATTGCATAAGAGTTTAGTAAAATGAATTATACTTAAAACATTGCAAAAAATTTAAGAGAAATTGATTGAAACTCAAATAAAACATATTAGGTACTTTCTTAAGACTGAACCCTTTTATTTTAACAAATAGAGCAGATATTGAATTTAAATCAAATGATTCAAAAGAAAATGCATATATTAATAGAGAATATAAGAGTTACTTTACTATTATTAAAATTGATATAAATTTTTTAATAGAATATATATATTTAATAATTTAAATTTTATGTTTGCAAATTCAATAAGAATCATAGAAAAATGCAACGAATAATACTATTATAAAGTATTTAAATTTTGTTTATTTTCAAATGAGGAATAAAATAAAAAACAATTGCTTTACTAAATTAATTATTAAAAATATGTTCGTTAAGAAGAAATAAAACATAAAATGTATAATTTAAATTGCAATATGTTAAAATTATTAATGATATTAAATATGCAATGCTTTGAATTAAGGATGTAACTTATAGTTCAAACTTTATTTATTATGAAAGTCAAGATCTAGTGATTGAAGCTGTTAAAAAAAGTGCTAAACAAAATAGTAATATAAATGTACAAGTTTATAAAACATATTTATATAATTATCAAACAAGTTTAGGTTTAACTATACCGTTATTAGCTTATGACAATGATATTATGTCAGCTATAAATAAGATTATAGAAATTGAATCATCAAATATTTATTAATTTATTTTAAAAGGAGAAAATTATGAAAAAGATATTAACAGCATTTACAGCATTTACATTATTTGCTTCAACCTCACTTTCTGTTATTTCTTGTGAAACAGAAAAGGGATTTTATTTCCCAGATCAACCAAAAAATGGAGAGGATATTGTAAATAGTTTAGATAATTATATTTTTGAGCAAGAGCGCATGCAAGGGATTTGATCAAAGGAACAGGAAGAATGTCAATATTGTAGTAAAGATGAACAAGATGCAATAAAATTGAAAAGTGAAGCTTGACAAAGATATTGAATCTGTGAAACATTTATTAGAGCTTTTTCAGCCTATAAAATGACACAATTAGGATATGACTATTTAAAGTCTAATAAATGACCTGGGGAGGCTTATATGTCAATTCCTCTCTCTATTTTTGATGACTTTGTTGATTCTTGACAAAAAGATGAAACTTTAAATAGTAATACAAAAGAGTATATGTTAGAGATTCAAAAATGAGCAAAAAAAGAAGCCATTCACGAATAAAATAATTAGACTAAAATTAATTTTAAAAATGTTGCACTTTGTGCAACATTTTTAATTTATTCAAAATTTTAAGTTATATTTTTTTAGATAAAACATTTTTAATTTTTATCTTTTATGTCTATCTTTTAAAAAAAATATACAATGAATTTAGTAGAGTGTTATCAGAGAAGGGAATAAAGAATGATAAAGATTTCAAATTTAGTTTATGTTTATAAAAATAGAAAAGTAGTAGATATTAGCAAATTAATAATTAAACAAGGAGAAAAAATTGCTATAGTTGGGCTTAATGGGGCAGGAAAACTACTCTTGTAGAAATTATTTTAAAATTGAAAAAACTTATGAGGGAGAAGTTATTTTTGATAGGAACTATATATCAAATGCTGTTTTTCAAGATTCAAATTTTATTTCAGATATAAATCTAAGAGAAATTTTTTATTTATATTGTAATCTGTATTCAATAAAAAAAAGTCATTTTAAATATTTTCAAAAATTTAATTTACTTGATGTTGAAAATAATAAATTCAAAAATATATCAGGTGGGCAACAACAAAAATTTAAATTTTTAATTTCGCTTTTAAATGATCCAACTTTATTGATTCTAGATGAAATATCAACCTCGCTTGATTATATATGAAGAAATAAAATTGTTGATGTTATTAATCAATATTTGGAAATTAAAAAAGAAATAATTTTACTACTTATTTCTCATGATCCAAAAGAGATTGCAAGTATTTGCAACAGGGTTCTTTTTATGAAAAGAGAAAAAATAATTATTGATATTAATTTAAAAGGTTCATACAAACAAAGACAGAAAGATATTGAAGGGTTGATGAAAGAAAGTATATAAAATTGAAATAACGAGATTTATTTAAACTCAAATTAATTGAGTTTTTAGTTTAATTTTTCCAATTGTTTTATTACGTATTTTTGGTTTTTTATTAAAAAAGGGAATCAATTGATTATAGCTATATGGCAATAATTTTAATTGCTTCTTTAACATGTACAATAATTCCAATTAATATTAATCTTTGCACTGATAAACTAGAAAAAAGAATAAAACATTATTTTATTATTGATAAGGCAATGAAAAAATATATTAGTGCTTTATATGTTGTTAATCTAATTATATTTGAAGTAGTCTCTTTAATAATTTTTTTACTTGCACTCATATTTTTTAAAATTAATGTAGATTATAAAGTGATTTTAATGTTTTTGACATTTCGACTTATTTCCTATACGTTTGGCTTTATCATCGCAATTATTTTAGGAAGTATTACTAATTCAATTAATGGTATTACTCCATTATCAATGCTTGTATTTTGAACTATAATTTTTATTTCTGGAATTACATTACCTTTGTAAATAATGTGAAAGCATTATTATTATCTAGAAGTTTTAACTCCTTTTAGCTCTTTATTTATGTTATATAATAAAGACATTAATTTAATTTTCTTATCATCTATTCAAATTCTTTGTGCCATTATTTCATTATATTCCTGAACAATCTATATCTTCTATCTTTATTTAACAAAATGAAATATTTTTTATGAATTTTTTTCATATTTCTTAAATAAATTTAAATAAATCAAGTACAATATAAGTGTATTAATAGTCATAAACAAAAGGAAGTAGAAATTATAGATATAAAAGTCATAAATATTTAAAAATTCAAACCAAGAAAAATATCAAAGAAATATTTTGCCAAGAAATCCAAAAAAAGTTGGAGAGTCATCAGATTTTAATGATGAAAAATAAATAAATATTTTTAATGAAAAATTAAAAAAACAATTGATTTAATCAATATAAAGGGCAAGTACAAAATTTAATATATCAAAAATGAGAGCCCTGTAAGGAGAAATTAAAAGCATTTTAACTTAACTAATAATAGTATGAACTTAGCTATCATGGATGAGGAATAAAATTATTCATCTAGTTCTAAACATAGAATTAAAATGTATCTAAAAGGACATTGAGTAGGTTAATATAAATATGAAATAACTTTTAGCTCTCAAGCATCATTGGATTATAACAAAGGTTCAACAAATTGACATGCTGCATATACAGCATTTAAATTTAATGAGGCTATTTTAGCTTAAAAATGTTTTTTATAGTAAATAAGTAATTTTATTTGAAATTACTTATATATTATTTATTTTAATAAAATAATATTGAAAGGATAAGAATATGATAGAAATAAAAAATTTAACTAAAATTTTTAAAAATGGAATAGGTCTACATGATATAAATATAAAGTTAAATTCTGGTGAAATAACTGCCATTCTTGGACCAAATGGTGCAGGAAAGTCTACGCTATTAAAATTAATTTTTAGAGAGTACAAAAAGGATAGTGGTGAAATAATTTATAATATTGGAAATGAAGATTTAAAAAAATTTAGTTTCTTTACAGATCATTCTCTTTTTCCAAAAAATGTTTCTCTAAATTACTTTTGTATGTATAATGCACAGTTATCTGGAATTAAATCTAAAGATGCAAAAAAAAGATTGGAACATTTACTAAAAATATTAGATTTAGAAAAATATAAAAATAAATCTTTTAAATCTTTATCTGCAGGTATGCAAAAAAGAGCAATGCTTGCAGCGACTTTAATAAATGATCCTGAATTTATTTTTTTTGATGAGCCAACTGCAAACTTAGATATTAATTCTAGGAAAGAGTTAATTAATCTAATTAAAAATATGAAAGATAAAAATAAAACAATAGTTATCACAAGCCACATTTTGGATGAACTTCAAAATATAATAGATAGAGTTATAATTATTGATTCTGGAAAAATAGTTTTAGATAAGAAATATGATAAAAATAAAGAAAATTTAGAGACACTATATTTTAGTATTATAAAGGGACAAGATGAAAGTAAGTCTTTTGATAAATTATTGGAGTGAAATAATTAGTTATGTTTTTTTATACATCTTTTAAATTTTCAATTTTAAGTATTATTAAATCAAAAACTTTTATAGCAATTAATTCTATATTTTTATTATTAATTATTTTATTAAACTTATCTTTTGGATTGTTTATAAGAATTTCACAAAGCGAAATGGCACAGTTATTTTTACTAGAATATATCAATATTATTATAATTATGATTCAAATAACAGTTCTTTCGCTCTTATTTTCAAATGATTTCTTCTATAATCAAAAGAGAAATGGAATTAAAACAATAGAGGTCAAAAATGGAATGAAAATTTGACAAATATTTTTTTCAAAGTTAGTTGCTATAATATTAATGATATTTTTAGTATCGTTTTGTATCTCAACTATTGTTGTAATAGAGAATTTAATTATTTTTAGTGAAAATATTTATGTTACAAAATTAATTTTTGTTAATTTGTATTTAATTTTTCTTGTTCCTTTCTTTATATTTAGCTTAAATTTAATAATTTTATGTCTTAATATGCAAAAACTTACTTTAATATTTTCAAGTTTTTTTCTAGGCTTACTTAGTTTATTTCATTTTTTTAATGCTGCTGTGTATGACTTTGAGAGCTATAATCCAGAAGCTGCTGGTTCTAACAATGTTGAAATATCCAATTATGATATTTATTTCAATTACTACATTTTAGATTATAAAAAAAATAATAAGAGCGAAAATAAATTATTGCTGGATTTAGAAGAATATAATAGTGAAAATTTAAATTTAAAAGAGTTATTATATTATGATGGAGAAGAAAATCTTGAGTGCAATGAATTAGAAAAAAATGAACTTACTTGTGATGTTAAAAAATATTATAGATATTTTTTAAGTTATAATTCATTTTATAGAAGCGGGGGTCTTTTCTATGATATTGATCTCTTTAATAAATTTAACAAAGAATTTCTAGTAAATTTTGCAAACTATAGAGAATTAAAATTTAATGAGGATCTAATAGAAAAAAATATTTTATTTAAGGAATTATATAACTTTGATATTGAAAAATCTAAATATGATTTATTTGAAAAAAATAACTATTTAATAAATAGTTCTAATATTCTTATAGAATTAAAATTTTATATTAAAAATTTAGAAAAATATTTTAAAAATAATCAGGAGTTAAATTACTACTATAGTGATTTAAAAAAAATAAATAATGTTATTTTAGACATGTACGAAAAGGGTTTCTATTTTAAAAATGAATTGTATTTTTTAAGTAATTCTATAGGTCAAGTATCAAAAGACGATTATAATATTTTTAGAGAAGATTTTATATCACTAAGTCCAATAGAAAAAAGACAAAAAGTTTTTGAATTGCAAGATATATCAAATGGAAAATCTGTTCATCAATCAATTCTTTTTTATATAATTAATAATTATAAGGGTGATAAGTTATATACAAATAAAGTTCAAAAACCAAATGACTATATACCAAATTTCTATAAAATGTCTAATTATTATACAAGTCCATTTTTATGATTAGAATTTTTTGCAAAATTTGGTTTTGTTGAAAAGAAATTTGATAATATAAGTACGATTAATAGTTCACATTTTATTCAAACAAATAATTTTTTAAAATTGGATTATGATATTTATCAAGAAGATGAAAGTTCAATTGAAAGATTCATAATTAAAGATTATAATTATAGAGGTCCAAATACTGCCTTGTTAGTTTTTTTAATTTTACTTTATTGCACATTATTAATAGTTCTTTCCTATGTATTCTATAAAATGAATTTTTATAAATAACTTAATAAATATTTATATACTTGATTATCTTTCAAAAAATAAAGCTATAAATAAATTTAATTTTATTTATAGCTTTTTTATTTTAAAGTTATAAATTAAAAATTTTATTTTTGTGGATTTTCTTCATATTTATTAAATAAAGTAAATAAAAATATAAGTGTATAATTAATTATACACAAAATGAAAAAAAGAAGAAACTTTTAGTTATTTTATCTAGTATTAGTTTATCAATAGTTGCTGTTCAAAGATTAGTTTTTTGAAGGAAATCAAATTACTTTAGAAAAAAGTAATAATTACCTTAATTCTGAATATTAACTATAAATTTAGATGAGATAAATTTAAAGACTGGTTAGGTAAATTTATATACAATTAGAAATAAATTAGATGATTAAAGGGAGGTCACACTAAAAATTTTAATATACTTATCAAGTATAAATAAAGATCTAAAAGGAGTTAAAACGTCTAAATAATAGTAGAGTTTTCACATTATTGTCAAAGGCAAGGATTAATATTAATTGACATTATTGTACATGTTAAAGAAAGAATTATAATTATTGTCATATAGTCATACTCAATTAATTCCTTTTTTAATAAAAACCAAAAATAAGTATTAAAGAAATTGGAAAAATTAAACTAAATACTCAATTAATTGGAGTTTTAATAAATGTCATTATTTCAACTTTATACACTTTCTTTCATCATCCTGTCAATATCTCTCTGTTTCTTTTTATATGAGCCTTCCAAATTAATATCAATAATTATTTTTCCTCTTTTCATAAAAGAACTCTGTTGCAAATACTTCTTATTTCCCTTGAATTATGAGAAATAAGTAGTAAAATTATTTCAGATGTTAGATATGTAGTTTATCGAATTAAGGATATAAATGATACATCTAACTTTATTTATTATCAAAGTCAAGATTTGGCACTTGAAGCTGTTAAAAAAAGTGCTAAACAAAAGAGTAATATAAATGTACAAGTTTATAAAACATATTTATATAATTATCAAACAAGTTTAGGTTTACTATACCGTTATTAGTTTATGACAATGATATTATGTCAGCTATAAAAAAGATTATAGAAATTGAATCATCAAATATTTATTAATTTATTTTTAAAGGAGAAAATTATGAAAAAAATATTAACTTTATTTACAGCATTTACATTATTTGCTTCAACCTCGCTTTCTGTTATTTCTTGTGAAACGGAAAAGGGATTTTATTTACCAGATCAACCAAAAAATGGAGAAGATATTGTAAATAGTTTAGATAATTACCATATTGAGCAAGAGCGCATGGAAGTGATTTCAGGAAAGGAACTTGATGAATGTAAATATTGTAGTAAAGATGAACAAAATACAATAAAATTGAAAAGTGAAGCTTGACAAAGAAGTTGAATCTATGAAGCATTTATTTTAGCTTTTTTATCTTATAAAATGACACAATTAGAATATGACTATTTAGAGTCTAAAAAAATACCTGAAGAGACTTATATCATAATTACTCTCTCTATTTTTGATGACTTTGTTGGTTATCGACAAAAAGATGAAACTTTAAATAATAATACAAAAGAGTATATATTGGAGATTCAAAAATGAGCAAAAAAAGAAGCCATTCACGAATAAAATAATTAGACTCAAATTAATTTTAAAAATGTTGCACTTTGTGCAACATTTTTAATTTATTCAGAATTTTAAGTTATATTTTTTTAGATAAAACATTTTTAATTTTTATCTTTTATCTCTATCTTTTAAAAAAAATATACAATGAATTTAGTAGAATGTTATCAGAGAAGGGAATAAAGAATGATAAAGATTTCAAATTTAGTTTATCTTTATAAAAATAGAAAAGTAGTAGATATTAGCAAATTAATAATTAAACAAGGAGAAAAAATTGCTATAGTTGGGCTTAATGGGGCAGGAAAAACTACTCTTGTAGAAATTATTTTAAAATTGAAAAAACTTATGAGGGAGAAGTTATTTTTGATAGGAACTATATATCAAATGCTGTTTTTCAAGATTCAAATTTTATTTCAGATATAAATCTAAGAGAAATTTTTTATTTATATTGTAATCTGTATTCAATAAAAAAAAGTCATTTTAAATTTTTAATTTCGCTTTTAAATGATCCAACTTTATTGGTTCTAGATGAAATACCAACTTCGCTTGATTATAAATGAAAAAATAAAATTATTGATGTTATTAATCAATATTTGAAATTTAGAAAAGCAATAATTTCGCTACTTGTTTCTCATAACCCAAAGGAAATAGCAAGTATTTGCAGCAGAGCTATTTTTATTAAAAAGGGAATCAAATGAGTATGGTTATATGGCAATAATTTTTAATTGCTTATTTAACATTTACAGTAGTGCCAATTAGTATTAATCTTTGCTCTGATAAAGTAGAAAAAGAATAAAAGATTATTTTATTATTGGTAAGTGAATGAAAAAATATATTAATGTTTTATATGTTGTTAATTTAATTATACTTGAATTAGTTTCTTTAATATTTTTTTACTTTCATTCATATTTTTTGGAATTAATGTAGATTATAAAGTAATTTTAATGTTTTGACATTTCCACTTATTTTCTATACATTTGGCTTTATAATCGCAATTATTTTAGAAAGTACTAATAATTCAATTAATGGTATTATTCTATTATCAATGCTTTCATTTCGAATTATAATTTTTATTTTTGGAATTATGTTACATTTGCAAATAATGTGAAAACATTACTATTATCTAGAAGTTTTAACTCTTTTTGATCTTTATTTCTGCTGTATAATAAAGTCATTAAGTTAATTTGCTTATTATCTATTCAAATTATTTTTTTTCATTATTTCATTATGTTTCTGAACAATCTATATCTTCTATTTGTACTTTATTTAACAAAATGAAATATTTTTTTGAAAAGTTCATTTTTTAAGAATTTTCTTCATATTTCTTAAATAAATTTAAATAAAGTAAGTAAAATATAAGTGTATGAATAGTCATAAAGAAAAGGAAACAAAAATTATAGATATAAAAAGGAATAAAAGTCATAAATATTTAAAAATTTTAAATCAAGAAAAATATCAAAGAAATATTTTTTCAAGACATTCAAAAAAGTTGTAGCGCATTTTATCCAATTAAGGATGTAACTTATAGTTCAAACTTTATTTATTATCAAAGTCAAGATCTAGTGATTGAAGCTGTTAAAAAAAGTGCTAAACAAAAGAGTAATATAAATGTACAAGTTTATAAAACATATTTATATAATTATCAAACAAGTTTAGGTTTACTATACCGTTATTAGTTTATGACAATGATATTATGTCAGCTATAAATAAGATTATAGAAATTGAATCATCAAATATTTATTAATTTATTTTTAAAGGAGAAAATTATGAAAAAAATATTAACTTTATTTACAGCATTTACATTATTTGCTTCAACCTCGCTTTCTGTTATTTCTTGTGAAACGGAAAAGGGATTTTATTTACCAGATCAACCAAAAAATGGAGAAGATATTGTAAATAGTTTAGATAATTATTTTATTGAGCAAGAGCGCACGAGAGGGATTTGATCAAAGGAACTTGAGGAATGTAAATATTGTAGTGAAGATGAACAAAATGCAATAAAATTGAAAAGTGAAGCTTGACAAAGAAATTCAATCTATGAAGCATTTATTTTAGCTTTTTTATCTTATAAAATGACACAATTAGGATATGACTATTTAGAGTCTAAAAAAATACCTGAACAGACTTATATCATATATAATCTCTCTATTTTTGATGACTTTGTTGGTTATCGACAAAAAGATGAAACTTTAAATAATAATACAAAAGATTATATATTAGAAATTCAAAAATGAGCAAAAAAAGAAGTCATTCACGAATAGAATAATTAGACTCAAATTAATTTTAAAAATGTTGCACTTTGTGCAACATTTTTAATTTATTCAGAATTTTAAGTTATATTTTTTTAGATAAAACATTTTTAATTTTTATCTTTTATCTCTATCTTTTAAAAAAAATATACAATGAATTTAGTAGAATGTTATCAGAGAAGGGAATAAAGAATGATAAAGATTTCAAATTTAGTTTATCTTTACAAAAATAGAAAAGTAGTAGATATTAGCAAATTAATAATTAAACAAGGAGAAAAAATTGCTATAGTTGGGCTTAATGGGGCAGGAAAAACTACTCTTGTAGAAATTATTTTAAAATTAAAAAAACCTTATGAGGGAGAAGTAATTTTTGATAGGAACTATATATCAAATGCTGTTTTTCAAGATTCAAATTTTATTTCAGATATAAATCTAAGAGAAATTTTTTATTTATATTGTAATCTGTATTCAATAAAAAAAAGTCATTTTAAATATTTTCAAAAATTTAATTTACTTGATGTTGAAAATAATAAATTCAAAAATATATCAGGTGGGCAACAACAAAAATTTAAATTTTTAATTTCGCTTTTAAATGATCCAACTTTATTGGTTCTAGATGAAATATCAACCTCGCTTGATTATATATGAAGAAATAAAATTGTTGATATTATTAATCAATATTTGGAAATTAAAAAAGAAATAATTTTACTACTTATTTCTCATGATCCAAAAGAGATTGCAAGTATTTGCAACAGGGTTCTTTTTATGAAAACAGGAAAAATAATTATTGATATTAATTTGAAAGGTTCATACAAACAAAGACAGAAAGATATTGAAAGGTTGATGAAAGAAAGTGTATAAAGTTGAAATAATGAGATTTATTAAAACTCCAATTAATTGAGTATTTAGTTTAATTTTTCCAATTGCTTTATTACTTATTTTTGGTTTTTTATTAGAAAGGGAATCAATTGAGTATGGATATATGGCAATAATTTTAATTGTTTCTTTAACATGTACAATAATGCCAATTAGTATTAATCTTTGCTCTGATAAAGTAGAAAAAAGAATAAAACATTATTTTATTATTAATAAAGCAATGAAAAAATATATTAGTGCTTTATATATTGTTAATTTAATTATATTTGAATTAGTCTCTTTAATAATTTTTTTACTTTCATTCATATTTTTTAAAATTAATGTAGATTATAAAGTCATTTTAATGTTTTTGACATTTCCACTTATTTCCTATACGTTTGGCTTTATCATCGCAATTATTTTAGGAAGTATTATTAATTCAATTAATGGTATTATTCCATTATCAATGCTTGTATTTTGAACTATAATTTTTATTTCTGGAATTACATTACCTTTGCAAATAATGTGAAAACATTACTATTATCTAGAAGTTTTAACTCCTTTTGGTTCTTTATTTATGCTATATAATAAAGTCATTAATTCAATTTCTTTATCATCTATTCAAATTCTTTTTGCCATTATTTCATTATGTTTCTGAATAATCTTATCTCCAATTTGTATTTTTCTTGCATTGAAAAGTATAAAGAAATAAAATGAAATATTTTTTTTAAAAAGTTCATTTTTTGTGAATTTTAATCATATTTTTTAAATATATTTAAAAATGGTAAGTAAAATATAAGTGTATGAGTAATCATACACGAAAGGAAAAAAATGAATAAACTCTTAGGTATCTTATCTAGTATTAGTTTATTAATAGCTGCCGTTCCAGTATTAGTTTTTGAAAAAAATCAAATTACTTTAGAAAAAAATAATAATTACCTTAATTCTGAATATGCAACTATAAATTTAGATGAGCTAAATTTAAAAACTGGTGAAGTAAATTTATATGCAATTAGAAATAAATTAGACAATGAAAAAAAAGTTACACTAAAACTTTTAATGGATTTATCAAACTCAAATAAAGAAAATAAGGAATTTTCACTAATTATAAAATCAGTTGCAAAAAACTTTGAAGATTGAATTGTGATCATACCTGAATTGCCTCTTGAAAATAAAAAAACAGTAGGATTATTTTCACTTACATATATCTGAGAAAGTAATCAATTTAAGGGAATACTGATGCTTGATAATCTTTTATTATCAAATGAAAGTGTAGCAGTAAAACTAAGTCTTACAAGTGTTATTAAAGAAACTCGCATAAACAAAATTAAAAAGCTAACTAAAGAAAATTTGGAAAGTAAAATTTTATTTCAAAATCTTCAATATGGATTAGAAACAAGAGATTTTTCAATTGATACAATAAATTATGAATATGCAATAGTTACAGTTACTAAAGAATCGAAATATAGTTGGCAAGTAGAAATTACATATGAAAGTGTACTTGAGGATATTGTAAGAGTTGAAGCAAATTTAGCTAGATCTGATGTGTATAATTCAGAGCAATCAGATTTTAAAACTAGTGCTGTAGAAATAGATATCGATTTAGGAAAAGAAAAGCTTTTAGAAAAATTTAAATATATTGACTATAATTTAGGTGCAAATTATTATACTCAGGGAATGGGAAGATTTGAATATATAGTTAATAAGAATAATCCAGAAACAATAGAATATGAATATAAAGATAAAAGTCATCTTAAACCAAGTTATGAAATAATTGAATTAATAGAAAATACTACTATTAATGTTTTTGAATTAACTTATAAAAATGTAAATTGGGAAAAAGATCAAGGGTCTTTAATAACTACATGATTAAGCGATTTTAAATTGGAAATAAGATTAAATGTAAATACCTGAGTTTGAGCATCAGCTTGAAATACAACTTGGGCTAGAGCAGAAGCAAGACTGTCGTTATCGGACATTAAATTCAGTTAAATATGAAAAAAAAATTATTACTTTCATATTTAATATCTGCAATCATTCCAACAAGTTTGATTGTAGGGTGCGGCCCAACATTTGTAGTTAAACCCGAAGAAAATATTTCGTGAATTTCTCAGGAGCTTATTGAAAAAGTAATTAATACTACTGTTCAAGAATTTGAAACATATTTATTAGAAACCTATGGAAGTAATGAAAACCCAAAAAAAAATTTTTATGATTTTGAAGATGATGTAAAAGAAAACAATATGTTTAATTATTTGTTTAATAAACTTGAAACTATATATAAAATAAATAAAAATAAGTTTTTAGATAGAAAAAAATATCCCAAAGATGACATAAAGGTGTTTCTAAAACAAAAAGAAATCAAAAATCACTGCGAAATAATTGAAAGTGGGGAATGTTTCAATTGAAACTTTTTCAAAATTGATGATAAATTATTTAAAGTTGGAGAATATGATTTTGGAAATTTTAATATAAAGATTACATCTTCCAAAACAAAATTTTATTTTTATAAAAAAAATTTAATTTTTCCTATTAGAAATTACTGAATTGATAAAAAGAATTTTACAGATCTTTGAGAAAGACATAATTCAACTAATGAAATCAAAATTCAAAATATTTCTAGTAAGGATGACTACTTTACAATTCCAAATTTTGAAAAAATGGAACCAGAAGGATTACATTTAAAAGATCAATTTGATTTCATTACACATATTGAAGACATTTTTGGAAATTGATATTGAGATATTAAAAAAACAAGTAGTTTTATATATAGCATGTTTAGTGATAGACTTAGAAATATTGTTCCTATTACATCCAGATATAATGCAAGAAATTTTTATCAGAAAAATCCTAAAGTAAATTTCTGTAAAATAAATCCTAAAGTAAATTTGGATGAGGATAGTTTTCATTACTGCGCTCAGTTAGAAAAAATTAAAAGTGAATTAAATAGCTTAAATTCAGAAAATAATGAAATTGAAATATCATTTAATGTACCATTAAATAAGAAATATTTGGGTATACTAAAGCCTGAAAATATGAAATCTAGTTTTAAAATGTATTTTGGTAAAATTAAATTTCTTGAAAAGAATAAGTATAAATATTATTCTGTTAATGACTAGTAGAATAGTAAAAATATTATAAACTAATATCTTTACTATTGTTTTATCTATTGTGCTATTTAAAATTTATGAATCTTTTAATTTATAATAATAAATTTTTATTAATTATTTCAATTTTTTAAATTTTGTTATCTTTTTAATTTTTTAAAAATAAAGTAATTAAGATATGAGTTTATACAAATTGTATTGGAAGGAAAAAAATATGAATAAACTATTAAGTATTTTATCTAGTATAAGTTTATTAATTACTTCTATTCCCACATTAGCTTTGGAAAACAATCAACTAATTTTAGATGAAAAAGAAAAAGATCATCTTTATTCGAAGTATGCAACTATAAATTTAGATGAGCTAAATTTAAAAATTGGAGAAGTAAATTTATATACAATTAGAAATAAATTAGATGATGAAAAAGAAGTGACAATGTTTTTATTAGTAGAATTAATTAAAAATAATGATAACAAAGATAAAGAACAAGAAATTACTGAACTTATAAAATCTATTGTAAAAAACTTTGAAGATTGATTAATAACTCTGCCCCAATTGCCTTTAATTGAAGGAAGCAAAACAACTGGAAATTTATCTATGTTATATTTAGGGGAGAATAATGACATTGTGGGAATATTAAATATTGAAAATATATCTTTAATAAATAAAAATAAAAACACAAAATATGAATTAAGCAATATAATAAGAGACACAGATATTAACAATATCTCAAAATTAAATAAAGAAATTTTAGAAGAAAATATTCTACAGAAAAATATTAAATATGGTTTAAAAGAAACTTATTTTTCAATACAGACAATAACTTATGAAAGTGCTATTGCTAAGGCAACTGAAATTTCACATTATAGTGGATTTGTAATTATAACTTTTGATGATATTTTTAAAAATATCAAAAATACTGCAACAGAATTAGCACAATCTGATGCATATAATTCAGAACAGTCAAATTTTAAAACTAGTGCAATAGAATTGGATATTGATTTAGGAAAAAATAATTTTCTAAATTCTTATACATATATGGATTATAGTTTAAATGCTAATTATTATACTCAGGGAATGGGAAGATTCAATTATACTATAAATCAAACACAAATTGATCCAAAATATGAGGCGTATAAAAATACTAATCATGTTAAACCAAAATATAAAAGAATAAATCTCAATGAAAACACAACCATTAATACTTTTGAATTAATGTATAAAAATGTAAATCAAGAAAAAACTTTTGGAACATTGACTACTAGATGATTAAGTGATTTTAAATTTGAAATAAGATTAAATGTAAATACTTGGGTTTGAGCAACAGCTTGAAATGCTTATTGGGCTAGAGCAGAAGCAAGTATGGCGATATTAGAAATTAGGTTTAGTTAATTATGAAAAAACAAGCCATTTTTTATTCAATTATTACAGCAATTATTCCAAGTACTTTAGCAATAAGTTGTGCTCCAAATATTATAATAGAACCTGAATTTATTGCTATTCCTTCAAAAATTGTTGAACAAGTTTATAGAAATACAATAAAAGATTTTGAAAATTTTTTAATTGGAGAATATGGGAATGATATTAATCCCAAACTTGATTTTTATTCTTTTGAATATCATATAGAAAATAAGCAAATAATAAAAAATACAGTTAACAAGCTTAATTATTTTTTTGAAATAAATAAGAGAAAATTTTTACAAAATGTTAAATATAAAGCAGATGATATTTATTTTGAAGTAGTTAAAAAAGAGGAAAATTATAATTGTTTAACACTTGATGGAAAGCAATGTGCATTTAATAATATTTACAGTTTAGATGAAAATAAAATAAAAATAGGAGATTATCATCTGGGGAATTTTTCTATAATTATATTTTCCAAATTAAGTGATGAGTTTACTTATACCAAAAATATAGTTTATCCTGTTAAAAATTATTGAATTGATAAAAAAAGCATTTTGAAACTTTGAGATACTCATAACTCTTTTAATAAACAACAAGTTGAATTTATCTTTAAAAAGAACTATCAATATACAATACCAAATTTTTTGGGATTAGAACCTGAGGATTACAGCTTACAAGCTCAATTTGATTTTATTGAGAAAACTGAAGATATTTTTGGTAATTGATATTGAGAAATGAAAAAATCAAAAAGCCTTATTTATAAAAATCTAAGTAATAGTTTTATAGATATTACACCATATAATAGTAAATATAATTTCAAAAATTTTTATAAGAAAAATCCAAATAAAGGATTTTGTGAAATAACTGCATCTGAAAACCCAGAAGTAGATAAGTTTCATTATTGTGGTCAATTTGAAACTATTAAAAATAAATTAATTAACCACAAAATATCATCTAAGAATAATAATATTGACATGTACATTAATGTAAATTTAAACTCTGATTATTTAGGTATATTGGAACCTTCAATTACAGACTTTACTTATAAATTCTTTTTTGGAAGTTTTTTAAAACTAAGCGAAAATATTTTTATATACCATTTTGATAATTTATTTTACGAATAGATGTGTATTATAAAGCCAGTATTTATTTACTGGTTTTATAATACACATTTACTAATTTTCTTTAAATATTAGTAAATTCAAATTTTTTTAAAAATTTCAATAATAAAAAAAGTAGTTTATAATTAATAAAGAAGTACATTATAAGTTAATTAATATTTTAATAAAAATTATTCTAAGGTTCAAAGGATAAAAGTTATATAATATTACATTAATCAATATTATAATGTTTTTGTTTTATAATATTACCTAATAAAAAATATTGTAAAAAAATTAATAAAATTTTTGCTAAAATTCATTTTTGTAAATTAAACATTATTTTAATAATAGTATTTAAATTCATTATTAAATTCTAATAGAAAGAAAATATTTATGAAAAACAAAGATCAATCAGTTAATTCAAAAAATTTTAAATTAAATTATGAGTATGATTTTTTTTGAGTCATATCTATTTCTGGATTCATTTCGCTAATTATATTAATTATTTCTTTAGCTATTATTAATTTTTTAAATATTAATTTCATCTACTTAATTGCTCTAACATCATTTTGAATACCTTTTATAATACTATTCTTTGTCACTAAAAAATTTATTAAAGAGTATAGAAAGAAAAAAATAAATAGAAATTATCAAAAATTAAGATTATTTGATTGATCTACATTTTATAAAAATAATTCAATAGAAAACATTGAGATTCTCAATGTTGATATTAAAACTTTTTTTGTACCAATGGAAAAACTATTTGTAAAAAATGACTTAATATTTAATGATGGTTTTAATATTTTAGAGGATATGATGAATGAAGAACATTTTATAAATAGATTTAAAATAAATAATATTATAAATTTTAAAATTAAAAAACAACAAATAGAAATTATATTTAATGAAATATTTTTAGATGAAAAAACAAATAAAATTTATTGTAAAATAAAAATAAAATTCTTTAATGCAGATTCAAAAAATATTGAGTTTAATGATTTTCAAAATTTCTTTGATAAAAAAAATAAATATAAATTAGAAAAAAATAATGATAATATAATTATTACTTTTTATAAAAATATTAATAGGTATAATGACCTAGAAAACTTGAATAGCAAATATGTAGATCAGTTTAACTTTGTAAATACAATCTCTATTATCCCTGGTCTTTTTTCCATGAGAAAAATGTCAAATAAGAATTTGCATAAGAAAATGATAGATATTGTTAAAAGAGATTGCTTAAACTTGAAAAACTTTAATTTTTTTGATAGTTTTCCTGAAGGATAGAGTAACTTAATTATTTGCACTCAAATAAATGAAATCTTTAATTATTGCAAAATATCATATAAGATATTATTAAATAGAACAAAGAGGTAAAAAAAATATGAAAGCTGTTATTTTAAATTGCTCAAAAACGTATAATGATTCAATGAGTAGAGATGAAGTCTATAATATTGCAAAAGGGTGCTGAACTGCTAAAATGCAAATAATTAGTGATGTTAATTTAGTATTAGTTGTTGCAAATAAAAAAGTTGTATGTGTATTTAAACCAAAAGAATGATTATTGTGTAATTGCTCTAATCAAACAAAATCTAAAATTCATTTTACAGTCACTGATTTAAATGAAGAAAGAGACAATCATTATTTAAATAAAAAATTGCTTATGCATTTTCAAAATCCTGTCAAATATTTTAATGAAGAAGATGAAATTTGAGAGAAATAATACTTTTTCTGTTTCAATTTGTTTAGTATTATAAATTGCTTTGTAATAATATGATATTGTACTAGTTGTATTTTTTCAAAATAGAATATGATATTGGTTAAGAAGAAAATAGTTTAATAAATAGGTTAGCTTATAATCATAAGAAATAAAATACTGTTTGCTTATTAGTTTTTTTAATCTACTCTAGTTCACATTATTAATAACTCTTTTCTATGTATTTCATGAAATAAATTTTACAAATAATTTTTCACGATAAACTTTAAAAATAACCAGTTGAAAAACAATATGTTTTTTTCAAAAAATTAATCAAATTACTTCATAATTTGTTTAATTTTATTGTATATTTTTGTAAAATTTACTATATTAACTATTTAAATATAGAGATATGATATAATAATAAAACTAAAATAAATTATGCTTAATTTTTTTAGTGAGTACTTATTCAGATTATCTGCTTATCTGCTTATCTGCTTATCTGCTTATCTGCTTATCTGCTTATCTGCTTATCTGCTTATCTGCTTATCTGCTTATCTGCTTATCTGCTTATCTGCTTATCAGGTTATCAGGTTATCAGGTTATCAGGTTATCAGGTTATCAGGTTATCAGGTTATCAGGTTAATCTAGTCTGAGTGCTTTCTATTTAAAAATTAAATATAATTTATTTTCGTTTATATTTGAATAATATCTTTTATTTCATAGTATTATAATGACTTTATATATTAGTTTAATTCAAAGTTATTTAAAACAGTTTAAAGAAAATAAATATTAAAAATTTATAATGATAAATAATTTAACAAGTTCAAAATAAAAAAATATTAGCTAAATCAACTTTTGCTTTATATAGAACACAACTTGTTATATAAAATTTATTTTAGTAAGTTAATTATATTGAGGTAAGTTATGAACTTAAAATATGATAAAAAAAATATTAATAAAATATTAATTCTTATATTAATTCTTTCAATTTTGAATTTCAGTATTTCAATTTTGATTCCATTATTTATTATTTATAAAATTATTTTATTTAAACCATCAAGAAAAGCAGTTGACAATATAATTAAATACAGTCTCTTAATAATATTTTCGCCAATAATTTTTATATTGTGGTGATTAATATTAATTTGTGTTTCAATATCAATAGTATTGTTAAATATAATAGCCTTTATATATATTATTTTTTTAATGTTTTTATCTTTTAAAGTAATTTATAAAATTTTCAAATTCATAATTAATCAATTTTTTATTAAGCAAGAGAATCTGAGTACAGAAATATTTAGTTTAAAAAATTGGCTTTATAATAATTATTTAATAATTATTTCAAAAATAAATCAAAAGAATAAATTGACAATAAACAAGGTGGTTTCTCCTCCAAAGTTAACTATTTAAAATTAAAATAAATTAGGAAAAATAACTTAGGAGAAGAGAAAAATGAAAAACGATTCAAACATTTTATTAAAAAATGTAATTAAAAACAAAATATTAAATGATATTAACATATCAATTATTAAAGGACAAACAGTAGCAATAATGGGTTATAGTGGTTCAGGTAAAACAACGTTATTGAATTTAATGTCTGGACTAGATACTCCTGATTCAGGAACAATAATTATTAACGGCACAACAATAAACTTGATAAAAGAACCACGTTTAACAGAATTTAGATCAAAAAATATCTCGTATATTTTTCAAGATTATAAATTGATTGAATATTTATCTATAAATGAAAATATTACATTAATACAAGATATAAATAAAATTAAAATAAATAAAAACAAATTTGATAATATTTGTAAAAAATTAAATATTACAAATTTATTAGATAAAAAAGTAAGTCAACTTTCAGGTGGTCAAAAGCAGAGAGTGGCAATTGCTAGAGCTTTAATTGGTGATAATGATTTTATTTTTGCAGACGAACCAACAGGAGCTTTAGATATGATGACTAGAGATGTAATAATAAAGGAATTAATTGAAAACTCTAAAGTATTTAATAAAACTTTAGTAGTTGTAACTCATGACCCCATGGTAGCAAAATGAATGGAAAAGGTTATCTTTATTGATGATCATAAGATTGAATCAATAAATGAAAGAATGAATGTTAATGATATTGAATTAAAAATGGAATCACTTTTTAAAAATGTTTAGAACAGCTGTTCAACAAGTAAAAAGAAATTGAAAAATTTCATTATCTACATTCTTTATAATTTTTATTTCTTCAACTTTTATTTCTACATTTTTAAATATTTTTTTATCAACATTGGGTCAAACAGAAGATGAGTTTAATACTGCAGGATTTGCTGTAATTTATTTCTCAATGGTTTTATTAATATCTGTGATAATGGTAAAAATAACTACTAACATGAATTTTGAGTTAAAGAGAGATCAATATTATGATCTTAGAATTTTAGGATTTAAAAATAGTCAAATAAGAAAAATAATATTTTATGAAAACATTATATTTATTTTACCATTTATGATATTGTCATATATTATTTCATATCCTTTATCAATGTTATTTATTGAGCAATTAAAAAGAGATGCAATCTTTAGTGAATCTTTTAAACTTATTATAAATCCAATTCAAATTATAATTTATATTTTATTAGCAACTTTATTTGTATTACTACTATTATTTATATCAACTAAAAAAATAAATATTATTAATACCAAAAAAATAATTACAAGAAAAAAAGAAATTATTTCAATAATAATTTCTACTATAATTTCACTATTTCTATTGGCATCTTCTATAGGGATTTATATATCAGGACCAACAATTGATGGGGCAACATATTTATTTGGTGGGTTATTTCTCATTGCGTCTATTGCAGTGATTATTAAACCCTTATGTAAATTAATTATTTACTTTTTAAATATAGTTTTTTGTAAGAATAAAACAACAGTATTTTGTTTAAAGGAGTTTGAACATTCAAAAAACAAATTACTAAATATTTCAATAATGTATATAATAACAGCATTTTTTGCCTCTTATTCCTTTTCATTTTTGAACTTTAAAAGTGAAAGACCAATTGCATATTTGGAGATTGATCCAAATGAAATTTATGCAAATGGCTTAGCATTCTTGGGAAAAATAATTTTTATAGTTGTTGGTGTTTATTCTTTTGCCATGTCAATATCTAGTACTGCTATTTTTATACTTGAAAACAAGAATACGTATCTATCACTTATGATAATGGGATATAGAACATCAAATATTATTTGACATATAGTTAAACAATCAATTTTACTATGCATAATAACAACACTTTTTTCTTATATACCTTCATTATTTATAATAATAACAATTGATAAAAAAATTATAACTGAACTTATGTGACTATGAATCACTATTCCAATATTTGTTTTGTCAACATTTTTAATTACTGCAATATCAATTGTAGTTCCAGTAATTAAATCAAATAAAAAATAAAGTAAGAATTTTACATAATATTAAAAGTAATATCATTTGAGATGTTACTTTTTTTATATATATAATTTAATTCATTATTTAAAGACAATAATATCTGTTAAAAAAGAATTGATCAATGAAACTATAAAGAATATATTTTTGGAAATGACAAACATATTCTAGAATTATTAAGATTAAATAGACTTTTAATTAGTAATTTCTAAAATTATATAATGCTATAATATTTATTGCGTAATTTTTATAGTATTATATAAGTATAAAAAAGTATCATTAAATTTATAACCATTTTATATTAATTATTATTTATACTTTCTAACTATTGAAAAGTAAGAAGTAAACTTAATCTAGTTTATTTAGGGGAAATTTTAGCTATGAATATAATTGATTTAATAAAAGAAAATGAGAATGAATTATCTCCACAAGAGAGGAAAGTTATATTTTTTATAAAAGATAACCTAAATAATTTTAATAATATATCAATAAAAAATATATCTAAACAATTAAACGTTCAAGAAAGTGTCATAACTAAATCATTATCAAAAATAGGAATTGGAGGGTTTAAAAAATTAAAACTCTTACTTGAGGATTCATATTATTCAATTGATGATAAACTCATTGAAAAGAAAAATATTGATATTTATTTTAGTAAATTAATTGAAAATATTAATTCTTTTAAAAAATCATTTAATAGTGATTCAATAATAAAATTATCAAATCTAATTACATCTATTAATCCAGAAATAATTTTTTTTGCAACAGGTAAAACAGCAAAAATTATTGAACCTTTCTTTTTCAATTTATTAGAATTAAATTTTAAAGTAAAATTGGAAACTTCTCTATATAATCATGAAATATATGATGTTAAAAATAAGTTGATAATTATTTTTACTATTTCTGGAAATAATTCAAAGGTCTTTAGGTATTTAAATTTAATTAAAGAAAAAAACGCTTTAAAAATAATAGGAATAAGCACAAATGAGAGTTTTGCAAATGACTTATTAGATGATCATATTTTTGGAACTGTAAAAAGTTTTTTTACAGATAATAGTAGATCAACTCCATTAATTGAAAAATATACAATTCAATTAATATGTGATGCACTTTTATTAATGATTATTTCAAAATCAAGTGTCAAGAATTTAGAAATGAGAGAAAAAATCTCAACTAAAAATAAAGAATAATTTAATTAATTTATATTTTGTGTAAAAAATATAAATTAATTAAAAATATAAATTACCTTTAAATGAATAAAATTTATTTAGGAGGTAATTATGAAGAAAGAGATTAAAAAAACAAAATTCAAAAAATTTCTTACCACTCTGAGAAGTGGACTAGAACAATTTGGAAGAGCTATTTTAGTTCCAGTAACAGTTATTCCACTTTTAGCTTTAATTGGTTCAATTGGTTATGCTGGTCAAGCTATTGCAACTGAAGTTGGAACATATAGTGGGGGAACAAAAATCGCACTTGATGCTATTAAAAACATTGGTATGATAGCTATTACTAATATAGACTTCTTAGTAGCAATTGGATTAGCAGCAGGACTTGCAAAATCTGAAAAAGTATCTGCAGCTTTATCGGGAATTATGGCTTATGCAGCATTACATTTTGCAGCAAACTTAATGCTTCAAGTTGTATACCCAGAAATGTTAAAAAATGCTAAAGAATATGGTTTAATTACAAGATTTGGAGTTATTTCATTTCAATATAGTGCTTTTGGAGGAATGGTTGCAGGACTTATAGGGTATTATATTCACAAATATACTTATAAATTAAAATTTCCAGAATTTTTATCATTTTTTGGTGGACCAAGATTTTCACCAGTAGCATCTACATTAGTAGCATGAATTATAGGTATGCCAATAGGTGTTGTTTGAATATATATTAATCAAGGATTAAAATCAGTTGGTGAATCTTGACAACATATGGGAGCAGGAGCACCTTTACTATATGGAATTGCCAACAGAGCTTTAATTCCATTTGGTTTACATCAAGTAATTAATTATTTTTTATACTATACATCAGTTGGAGCTACTTGAGTAAATGGAGAAGGAGTTGTAATTGAAGGAATTTATAATGTTGCTATTGCAAAATTAGGAGAAGGTGTCTTTATTACTGCAAAAGATACTTGAATTGTTAATGGAACATTTCCTACAAATATTTTTAGTTTAGGAGGAGCTTCATTGGCTATGTATATGTGTATTCCAAAAGAAAATCGAAAAGTAGCTGGGGGAGCTATTATTTCAGCTATGTTAGCATCTGCATTAGCAGGAACTACTGAACCAATTGAATTCACATTTTTATTTACAGCTCCTGTATTATATGGTTTACATATTATATTTACAGGATTAACTTATATGACAATGTATATATGCGGTTTTGCACAAGTTTCTACAAGGGGAAGTGGAATTATTACTTGACTTGCAGTGGATGCCATGAACTTTAAAAACATACAAAATGTTTGGGGATTATTTATTGTAGGTCCTATTGCTGGAGCAATTTATTTTGGATCATTTTATTATTTAATAAAAAAATTCAATTACAATACACCAGGAAGAGATGGTGAAATTGCAGTAATGATTACAAAAAATAATCCAATTAAAGATCAAGAAAATTTAGAAAATAAAGATTTAAAAGACAAAGCAAAATCTAATAAAAAAGAGCAATATGATGAGGAATTTATTTTGAATATTATTAATGGTTGTGGTGGTAAGGAAAATATTAAAATAATGGCCAATTGCATTACAAGATTGAGAGTTACTTTAGTTGATAAAGATAAATTTAATGCTGAAATAATTAATAAAACAAATTGCTATGGTATAAAAGATATGGGTGATCAAAAACAAATAATTTATGGACCCAGAGTTACTAATATTGCAACGAAAGTTAGAGAATATTTAGGAGTTGAAGACTAGATGCCTTTTGCACAAATAACAAAAAATTTATATTTAGGAGATCAATTTTCAAATAAACTTGACCAACCAAATATGGAATTAAAAATAAGTAATATGTATTATGATATTTTTAAAAAAAATTATTCAAATGAATCTAATGTTTTTTACAATGATTATTTTGTAAAAACAAAAAATAAATTAGCTCTCAATTTATTAGATTCTCATGATCCAGATGATTTTAATGATTATAAGTTTGCATTAGCAATTAAATTTATTAATGAAAATATTAAGGATAATTTAATTTATACACACTGTCAGCTTGGTGTTAGTAGAAGTGCGTCAACAATATTTATATATTTAGTTATTTGTAAAATTTTAAATCAAAATAATTTTGAAGTAGCTTTAAATGAGTATATAAAAAAGTTTTATCCATATATTAAAGTTAATTATGGAATATATAAATATCTAAAAAATAATTTTCCATACACAAACGTTGAAAAAATTTCTAAAATGACATGAGGTGATTTAATTGAATATTAGTTATATAGACTTCGATTGAAATAATGTAATTGCTTATGACCAAAATTTTATAGAAATTTTTAGAGAAAGCTCTTTAATACTTCGAGATTTAAAAAATTATCAACTACTTTTTATTGGAGAAGATGCAATTAAACATTCAAAAAGTGAGGGAAACTTTATTGCAATAAATTTTACAGAAAATTCTAAAATTTTATCAGAAGACAATTTTATTTTATTCATAAATTATTTTAAAGATAAGTATCAATTACTTAATTTTCCAATTATAGTAAATAGATATAACAATAATTATTTTTTTGAAAAAAATAATTTAAAAACTATTGATATTTTAAAATTTTATTCTAATATCTCAAATGAGATGGGATTTATAGATTTAAAATATTCTGAGTTAAATATTTATAATAAAAAATTAAATAAATTATTTAAATTTAATTTAGGAAAACAAAAAATATTAAATTTAATAAATAGATATTTTTATTTAAATCATAATTCAACTTTAAATACAAAGAAAACAAAAGAATTATTAAAACAGATATGAAAGGGTGTAAAAATAAATAATGTTTCTTGTAGAAATTTTAGTACTGGACAAGATAACAATATTAAAATTAATAATGTTAAGGAAATTACAAAAGAGTTAGAAGACAATTTAAATCTAATTTTTAAACAAATACGAAATATTAAAAAATATTACATGAATAGTGAAATAAAGGAAGTTTTTGATTATGTTGATTAGTTTAATTATATTCATTACTGTAGCTCTTATTCTATTTGCAATTTCACTTATTCTTATTTTTATAAATAAAAATAAAAAAAATATTAATTTTAAAGCTGAAAGCAAAAATAAATCATTTATTAAATTTCTACCCATAACATTATTTTGTTCAGGAATACTTGTTTTATTTGTTGGATTAGCAACTTATATATAATTTCTTATTATAGTAGCTTAAATTGATAGAGATTTAATTCTCTATTTTTTATATTTAAAAAAATTAATATAGATTATTTAAATTTTAAAAATATAGCTTAGTTAGTACAAAATTTTTAATGTATTACCTTTTATAAAAGGAATTTATAAAAGGGAAAGATGATATAAATATTTAATAAATAGTAAAATATTTTACTATTTATTAAATATTTTATGATAGTATTTATTTGTAATATAAATCCAGCATTTTTAAATAGATAGATGTTTTTAATATATTTCAAATAATTAAATATAGTAATTAAATTTAAAAAGTTATTTTTAATTCTCGTAAATAATATAACATTTTTAAATATATTATATTATTTAAAAATGTTATATAAAAGAAAAAAAGAAACATCAAAATTATTATCTGTATAGGTTTAATTAAACACTTTTAATAAGTAATGTAAATATCTTAAATAATCATTTGTTTGAAAATGGTTAAGAAAATTTCTAAGTAAATACGTATTTTGCTATTGTATCATTAAGTGTAAATGGTGAGTTTATAACAAAAGTAATAGGAACCTAAGTCAAAAATAAAAATGAAACTGTTTCAATTATTATTTCTAATACTAATTGAGAGAGTGACTTCAAAGATACTTCAAATATTATTGATTATGATAATTTCAAGTATGGTATTTATAAAAATTGTATGAAAAGGATAATTTAATATTAAATATAAAGAAAATTAGCTTGAATAAAAGCAAGTAGAAAGTCATACAATAGTTGAATTATCAACAGGATAGGATGAATCACGTAATACTTCAAGAATTAAATTAACAGTTGTAGCAAAAAATACTTATTATAGTACTATTTCAATTAAAGTTGATTATTAAATTTATGCAAGAACAGCAGAAGTAGCAAATAGTTGCGTTACAAAATTAATTTAAATAGATTATTTTAGTAACCAAATATTAATAATGGACAATTAAAATAATTGTCCATTATTAATATTTAATTAAGGAGATAATAAAATGATAGAAATAAAAAATATATCTAAAATTTTTAAAAAAAATAAGGGAATATTTAATGTTTCATTTTCAATTAAAGATGGTGATTTAACAGGACTAATTGGGGATAATGGAGCAGGAAAAACAACTTTAATTAAATCTATAATGGGAGATTATAAATTAGACGAAGGAGAAATAATTTTTTTTGAGAAAAATAAAAATTTTAGATTATTAATTGGATATTTTCCTGATCAAAATAATTTTCCAAAGTCAGAAAAGATTTATGATTATTGTGAATATATTCTAGATTTAAAAAAAATAAAAATTAAAGATATTAAAACTAAATTTGAAAATTTAGTTAGTATGCTTGGATTAGAAGAGTATATAAATAATACATTTGAAAAATTATCATCAGGAATGCAAAAAAGAGCACTTCTAATTCCCTTATTATTAACGGAGCCAAGGCTTATTATTTTGGATGAACCTACAGAAAATCTGGATGTTAATTCAAGATTGGAGTTTCTAAAACTTATTAAATATTTAGCAATAGAATTTAAAATTATGATATTAATAACTTCACATAATATTAATGAACTTGAAGATTACATTAATAAAATTATTTTTTTAAAGAATGGTAAAATTTGTTATGAAAATAATTTTGACAAATCAAAGGAATCTTTAATTGATTTATATCATAAACATTTAGGCGCTGAAAATGAGAATATGGTATTTGATAAACTAAAGGAGATAAAAAAATAATGACAATTTTTAACCCAATATCTTCAAGAATAATGAAACATACAATGAAGTCAAAGTTTTTTTGAATTACATTTTGTACTTTAATATTCACTACTTTTATTATTGATATTCTTTTTTTAATAAAAATTAAGGGAACGCAATCACAACCAGATAAAGTTGTTGCCTATAATTATATTATTTATGCAACTCTTACTTTTTTTATATTATTATTTGAAATCTTTTTTGCAAATAGGTTTTGAATGAAGGATAAAAGTAATGGAATATTAAATATTGAATATCGTAATGATATATCTATTAATAAAATATTTTGAATAAGATTTATTTCAAATAAATTAATTTTATTGACAATGTTATTATCTTTTTATTTCATAAATGTTTTATTTTTCTCGTTTGTAAAAAATATTTATTTTCAAATTAATTTATTAAATCAAATTATTGTCTTAATAGGGATTATATCAGTTGATATTTTTGTTTCTTCAATTTTTATTATAGTTTCTCAATTTAAAAAACAAGTAACATTTGGTGTTATAGCTGGAGTTTTTATTTTAGTTTTGCCGTTTAATAGTTTCATAAATCTTTTAACTAATCTCTCAAATGAAAGTTATGTCACAGCTGAAAATAATATTAAATACGAAACTACAAAAAGAAGTCATGAATTATATAAATCTAATTCCAATTTCAAACTTTTAGTTGACCAATATTCTAGTTTACCAAGTTATTTAAAACTTAATAATGAATCACAAACTTATATAATAATAGACTCCGAAGAAGATTATGCTCAATTTTTAGCAGATAAGGGAGCATTCTATTTTTTCTCACTCTATAAAGAAAAATTTCCTTATAATAGATTTTATAATTTCAATGAAGAAGAGTTTAAAAATAACTTAATTTTTCAATTTATTGAACAAAGTAATAAATTATTTGAGCTTGAATCTGTAAAACCAATTAACAATTCTTCTGAAAGTATTGAAGAAATATGAGCTGATAGTTACTATTCAATTAATTCTAAAGAAAATATAGTTTTAGATGGAAAATATAATTTTAATGAATTAATTAAAAAACTTAAAGTTTTTTACAAAAATGATCAAGAAAAATTAGAAATTATTAGTTTAGTTAATTTTTATTGTATAAATGTTTTAAGTGTAAATAGAGATCTTTCTTTTTTAGAACTAGGGGATAGAGAATTTCTTTATGGTGAATCATTAGTTAAAACTGTTATTGATACAAATATGAATCCAGGAGTTATGATCTTTGAAAAGGGATTATTAGATATAATTAATGCTTACTATAATGTAAATAAAAACTATAGCCATGAAATAAACGAAAATAATAATGAATTTGCCATTTCTCAAACAAAAAAATTGTATTGAAAAAGTTTTATAAATCCATTCTTTGTTCTTAATGAAATCCAAACATTTAATTATTTTAATAATAAATATCAACAAAATATATTATTATCTAACTCTTCTGCTTTTCCATCAGAAAATTATACTTATTATCACTTTGTTCTAAAAGATAATTTACAAGATACAAATTTTCCAAATGAGTCAATGGTTAAAAAAATTGATGTAAAGAATTTGAGTTTTCTAATAATAATTAATTTTATTTTGTGTTATATAATATCATTTTCACTGTTATTAATCTCATTTAAATTATTTAAAAAATATTTACAAATTTAATAATTGATAAATATATATTATTTGTAATGTATATTTATCATAACTTATTGAATTTTTAATATTATTTATTGCACTACTTTTAGTAGGTTTAAACTTCATTAATTAACTCTTGTAAAATAATGAAATCTACTGAGTATAGTTTATAAAAATTATTATAAACATTTATATTGTTTACAGAAAATTATCAAAATAATTAATTGAATTGCTATATTATAAAAAAGTCAAGATTTTTAAAAAGTTTATTTATATAAATTTAATGAAAACAACTATAAGTTTATACTAATTAATTAAATTAAAAGACTTTATATAAATTGCTAAAATACAATATATATAGAAAAGTTCAATTTTATATCAGAAAAAGAATTAGAAATTTTATTATAAACCTAGAGCATTAAATTTAATAAAAATGAAAAATCTAAAAGTAAAAATATTTAGAAATTTATTCACTTTTTTTATAAAAAGTAATTTGAAATTTAAATAATTCTTATTTAAATTAATCTCTTTGTAAAATTATTTTATGGAATACTAGCAATTGCTAGTATATTTTTATTTTTAACAATTAAAGCTATTGAAAGTCTATAATATATATAAGATGTAATGAGGTAAGCAATGATAAAAAGTATAAGAGAGGAATTAATTAAAATAAGTCAGTCAAATGTTAATGATTCATCAACTATAATTTCAAAAGAAATTATAAAAAATTATGATAATTATATTTTTTTAAGTCAAAAAGAGCTTGCAAATAAATGTTTTGTTTCAGAATCATTAATTACATATTTTGCCAAGAAGATGAATTATACAGGCTATCGTGAGTTAGTATCTCGTTTAAAATTGGAGCGTGATTTATATAATATGGATAATCCAATTAAATTAGAAGATAACTCAATTGGAAATTATCGACAAGAGTTTGAAAAAACTTTGAGTTCAATTGATGCTCAAAATTTAGAAATAATAAAAACCATTGACTTTCTTAAAAATGCTAAAAGAATATTTATTTTGAGTAGTTATGATCAAGTTAATAATGCAGAATCTTTGTTTAATATTATGCAAATACAAGGGAAAGATGTACATTTTTCTAAATACCGAAAAACTAATGGTTATTATGTTAATGAGTTAACAGAAGAAGATGCTGCCTTTTTTTTAGTATCTGGATTAGATAATAATAGCTTAGTTAATTATTATGAAAGATTATTTAAAAATAATTGCAAAAGAATTGTAGTTGTTTCTAATAGTCAAGCATATAAATTTAAAGAACCTGATTCTTTAATAGTTATTCAAAATATTGAAAAGCACGAAATTTATGAGACTGCTCGTTCTTCATATATTTATTATTTATTAAATTTTATTTTAATAAATATTTAGTTTTTTAAACTACTTTAATGTTTTTGCATTAATTTAAAGTAGTATTTTTTTTATTGTAATTATCGTATTTCACTATTAAATAGTTAATGAAGGAGAAGGAAAAAGGATATGAAAATTAATTTATATGCACCTTGTGATGGAATAATACATCCGATTGAAGATTTAAATGATGGTGTATTTTCGCAAAAAGCTTTAGGTGATGGCTTTTTTATCGAACCAATAACTAATACTATTTGCTCACCACTTGAAAGTGCAACAGTAAGTTTGATTTTTGAAACCCAACATGCTTTTTATATTGAAAATAAAAAAACAAGATTATTAATTCATATTGGAATTGATACAGTTGCTTTAAATGGTGATGGATTTAAAACAGCGGTTACACTAAATCAAAAAATTAAAAAAAATGATATTTTAACGTCAATAGATTTTGAGCTTTTGGAAAAAAGAAACTTAAATAAAGCAATTATAGTTGCAATTGATTCAGAAAAGGGTGAATCAATATTACATTTAAAAATATCAAAGAATCAAATTAAACAAGGACAATTAATAGGTTATTTGGAAGTTAAAAAAAGTCCAATAAAAACAGAAAAAAGTAATCTTTGAAAAGATATTAGTGAAGATATTTTAAAGAATGTTGGGGGAAATAATAATTTTAATTCCTATTACAATTGTATGACAAGATTAAGGATAAAAATTAATGATAAACAGTTAGTAGATGAAGATACATTAAAAAATCTTGCTAAGGTTAAAGGAATCAATTGAAGTGGCAATGAGCTTCAAATTATTATTGGTGGAGATGCTTATAAAGTAAAAGATGAATTTGATTTTATTTTAAAATCAAAGAATATTAAAACAGAGAAAAAAGGTGCTTGAAGAACAATAACTCAGTTTATTTCAAATGTAATGATACCAGCACTACCAGTTTTAATGGCAACTGGTATTATTGCAGGAATTCAAGCTTTATTTGCTCAATTTGGTTGAGTTCAAGTTCCAAGTGCTGAACTACCTGAAACACAGTTAAACTTATTTTCAATGCTTTTATTTATTGGTTCAAAAGTTGGTTTGGAAATGATAGGAATTGTTTTTTGTTATAATACTGTCAAGTATCTTGGTGGAGATCCAATAATGGGAATCTTTTTAGGAATTGCTTTAACCACAAGACACTTCTTAGGTTCTGGTTTTGGTGAGGGGGCTTTAAATTGACAACATGATGGTAAGGGATATTATTTATTTCAATTATTTGGTAATAAAATTTATATTAAAGGCTATGAATCAAGTATTATTCCTTTAATAACTGGTGGTATTTTCTTATTTTATGTTGATAAGTTTGTTAAAAAATGAATGCCAGGCGCAGTTGACATTGTATTTAGACCAGCAATTGTCTTTATGACAGCATTTGTAGCAACACTATTTATAATAGGTCCAATTACAGGAATAATTGAACAATTACTCGGTCAAAGTGTTATTGCAATTGGAGATTTACCAATTGGTTTAGGTGTTGCAATATTTTGCGGGTTTTGACAAATTTTGGTTTTGACAGGTGTTCATATTGCAGTTGCTAATGCTGTAAAATTTCCAATTATGGCAAATCAAGGTTCATCAATGTTAGCTGCTGGATTTGGAATTGCCATCTTGGCTCAATTTGGAGCTTGTATTGGGGTATTCTTAAGAACTCGTGATCAAAAACTGAAGCAAGCTGCAGTAGGAGCAATGCCTTCAATAATTTTTGGTATTAGTGAACCTACAATTTTTGGAGTTAATCTACCAAAAATTAGACCATTTGTTTGTGGATCAATTGCGGCTTTTTTTGGAGGTATGTTATCAGGAATTTTAAAATTAGATGCTGATGTAATTGGTGGTGGTGGTTTTTTGCAAATAATGTGATTTACAGATAGCATATTAGAAATGATTCTTTATTTAATGGTATTGCTTATAACAATTACAATTGCTTGCCTTTTAACTTTAACATTCTTTAGTGAGAGAAAAACTGAATTAAAACAAGTGAAAACATTAAATTGATCAATTAAAAAATATTTAGTTATAAATAATAGAGTTTCTAAAAAGGAGTATAATTTATTATTGAATGATAAAGAAAAAAATATAATAGTTGACCTTAATAATAACAAAAAAGAATATTATAAATATGAAAAACTAAAATTGGAAGAAATTAAATTAAAACAAAAGCTTGAAAATAGTGCAGCTGGAAAGATTAATAATAAAAATTTTGAAAATAAAATAAATGATATTAAGGTTAATTTAAAAGAGCAAGAAATTGTGATTAATGATTTTAACAAAAAAATGATAAAAGTAATTGATAATTATTTAACAGAGATTTCTTACGTGTCTAAGAATAATGAACTTCTTATTTTAAGAAACGATTATTTAAATAGTTTAAACTCATTATTTAATATTTATAATAATAGAGAAAAAATGGAAAGTCATTTGGAAGTTACTAATTTAAATTTTAAAAATAAATTATTGTATGTATTTAGAAAATAAAAGGAGAAAATATGAAAAAAATAGGTAAAGATTTTTTATGAGGTGCATCAACAAGTGCATATCAATTCGAGGGAGGTTTTGATAGTGATGGTAAAGGTTTATCAATTCAAGATGTAAAGGAAATTTTAAATAAAGAAACCTCAGATTTTAAAGTTGCTTCAGATCACTACAACCATTGAAAAGAAGATGTGACTTTAATGGCTCAGATGGGGTTTAAATCTTATCGTTTTTCAATTTCATGAACAAGAATAATTCCTAATGGAATTGGTGAAATCAATAAAAAGGGAGTGGAATTTTATAGTAATTTAATTGATGAGTTATTAAAACATAAAATTGAACCAGTAGTAACAATGTTTCACTTTGATATGCCAAATGAACTTGAAAAAATTGGGGGATGAGCAAATCGCAAAGTGATCACTGCTTATGTTAATTATGCAAATGTTTTATTTGATAATTTTGGTGACCGTATTAAATATTGAATTACAATAAATGAACAAAATGTTTTACTATTACAAGGACCTATTGTGGGAATTAAAAGACCTCAAAATTGTAATGTTTTAAAACATGTTTTTCAGATGAATCACAATATTACAGTAGCACAAGCTCTTGTGATGGAAGAATGTCATAAAAGATTTGATAGTAAAGTTAAAATTGGAACAGCCCCAAATATTTCGTCAATTTATCCTGCTAGTTGTAAACCAGAAGATATTGTTGCTTCAAAAAATATTGCTGTTTTAAGAAATTGATTTTATCTTGATATTATTGTAAAAGGTATTTATAATCGTATTTTATTAGCCCTTTTAGAAGAGCAAAATGCTATGTTTGAAATTAGACAAGGAGATATGGAAATAATAAAAAAGGCAAATCCAGATTTTATTGCTTTTAACTATTACACGACAACAACAGTTAAAATGAATGAAAAAATTGATAATTATAAATTACCAGATCAAGAGCGTGTTTTTGGTTTTCCAGGATTTGGTCAAACAGTTTCAAATGCAAATTTGGCAAAAACTCAATTTGGATGAGAAATTGATCCAAAGGGGTTAAAAGTTACTTTACTAGAATTACAAGAGAGATACAATTTACCAGTAATTATTACCGAAAATGGAATTGGTGCTTATGATAAATTAGAAGAGGGAAAAATTAATGATGATTATAGAATTAATTATTTAAAGTCCCATATTGAAGCTATTAAAGAAGCTGTTAATGAGGGATCACAAGTATTTGGTTATAATTGTTGGAGTGCTTTTGATTTAATTTCAGTTCATGAAGGAATTTCAAAAAGGTACGGTTTAATTTATATTGATCGTGAAGAAAAAGATATTAAAACAGCAAGAAGAATTAGAAAAAAAAGTTCTTATTGATATGAGAAAGTAATTAAGAGTAATGGTGAAAATTTATAAACTTAAAAAACAAGAATAGTAAAGAGTCTTGTTTTTTTTTTTTTTTTTTAAAAAAAAAAAAAAAAACAAACAAACAAACAAACCTTTCTAAATATATAAAATTTATTTTGTATAAAACCTAATAAGTGAAAAAATAAATTATTATTAAATATAAATACAACTTATTCATTTTTTTTAATTATTTTTTTATTGATAAAAATATTTTTATATTAACTATGTTCAATTCATAAAAAAAATATCCCTTAAATACTAGCTTACAATAAAATAAAACACTTTAATAGTTTCTTAAATTAACTTTTTTAAGACACAACTAATATTTTCAATACTTAAAGATTAAAATATTTTTTTTCATTTCTTCATTATTATGAAGGTATAGATTTAATTGAAAGGAGAAATTTAATTAAGAAAGGTAAAAAAATTAAATTAAATTATTTAATTTTTAAGAAAGGATACACAATGTTAAAAATAAGTTTATTGAATTTATTGCTTTTATCAAATCCAGTATTAACTAGTGTGAATAATGTTTGTATAGAAAATGAAAATATTTATTCAAGTAAAAATGAATATCTTACTAATAATTCAAAAGTTTTAGAAAATCATATAGAAGAAAACTTAAAAATGTCACATTCATATTTAGTGCCAACAGGTTACTTTTTAAAAAGTGGAGAAAAATATAAAATAAAGTTAAATAAAAAAGTATCAGAGAGTGATAACATTGGAATTAGTATTGGACAAAATGGTAGATATGATAATTCAAATTTAGTTTCGGGTTTTCAACATTTTCTTATTGATAAAGAAAGTGATGAAATAGAATTTGTTGCTGATAGAGATGGAGTATTATATATTTATGATAATTTAGGCAATAGAACTTATTCGTTAAAAACTATTAGCGGAAATAATTTTATTAAAATACCAACTTATATTTTAGGGAAAACTAATTTAAATGAATTCCTTTGAGAAGTAGATCAAACAGAGTCAAAATTTATTGAATTTATTAGTGAAAATACTATTTCAACAATTCAAACAAGATGATTTAAAGAAGTAGATCGCAATAAAATTAATCTAGAAAAAAGTTTAACCTATTTCGATAATTTTTGAAAATGATCAAATCAATTTTATGGATTAGATCAAAACTCAAATGGAATAAATAAAAAATATAATAATTATGTTCATCTTGCAAATCCAGATACAGGTCCAGGTGCAGCTTTTGCAGCAAATCAATATCTAGGTTTTTGAGGTAAAAGTAATGTAAAATATTTATTTGAAAGACAAGTGGATAATTTATGAGGTTTATATCATGAGTTAGGTCATACTTACCAAACTCCAGATTATATATGAAGTGGAATGTTAGAAGTTACTGTAAATTTATCAGCACTTTATATTCAAGAAAATTTAGGTATTGGATTATCAATTGATAATGCTTCTAACCAAAAGAGAGTAAAGGAGTATTTGAGCAAACCTAATGAAGAAAAGGACTTTCAAAGTATTAGAGATTTAACACAATCATTAACAATGTTTTATCAATTGCAAACTTCATTTGGACCTAAATTTTATCCATACTTGTCACAATTTTATAGGGCACAATTCTTAGTTGAAAAAGACTTTGATAAAATCAATAAATACATTTATATGACTTCATTTGTAAGTGGCTATAATCTTTCTAAATTTTTTGATGAGTGAGGATTGAAAATGACTTCAGAAACCAGAGAAGCAATTTCAAAATTTAAACCTCTTGATAAAAAAATTTGATTAAATCACACTGAGCCTAATATTAAAATTGTTCAAGAAGATATTTCAAAAAAATATGAGAAACAAAAAGAAATTGAGATTTATCAAAGAAGTAATTTAACTCCAGAATTTGGAACAACATTTTTATCTGCTAAAGATGTTGAAAAGTATTTTTATTCACCAACTTCATCAAATTATAATTCACTTGTAAATAATAAATGAAACTCAAAAAATATAAGGGTAAATAAAATAAATTATGGTGTAGTTGAGTTTGTATTAAATAAAGATGGTTTTTTACCTGAAAAATATTATATTAATACTGAGTTTAAAGATATTAAAACAAAAATAGAATTTTATGGAATTGGAACAAATAAATATGGAGAAATGTATTTAAATACAATCGATAAAAAATTATTTTTACTAGGAAATGGTTCTGGAAAATGAGTTAATGACGGATATAATAATAAAAAATATTATGAGATTAATATTTATGATGAAAAGGGAAAATTATTTAAAAATGAAGTTATTAAAGGAAATGAATCAATTACTAAATATCAATCAACAAATTTTTGAAAAAATGGAATGGACTATAAAGAAGGTTATAGGATTGAATTATCAGTTGGAGAAAATCATAAAATGACTTATTATTCTGATGTAAATAAGTCTATGACTTTTAAACAGCTTTCACCTAAAGCACAGTATGAAAATTATGTTTTTAAAATAAATAATGGAGATATATTATTTGATTCTTATTATATAAAATAGTAATCTAAGCTATATTTTTATTTTTAATAAAATAATATCTAATTTCACTTATTACTAATTAATAAATGAAATTAGTTTTTATTTTAAAAAATCTAATCTCTAAAAAGTTAAATTTGGATTATTAAAACCATTTGACATATAAAAAATCTCATTATTAACTTTACTGAAATTGTTAAATTAATGAAAAACTTGCGACAAATCAATTTGTTTTTTCAAATTTTATTTGTAAGGATGACAGTTTTAATATATTTTTTATTTAAAAAAATATTTTTAAAATGATAAAATATTTTTAGTAGATAATCTATAAAAAGGAGGTAAAACAATTGAGAAAAATATTAAGTTTATTAGGAGAAATTTCCCTAGTTATTTCTTCATCATCATCTGTTGTATCATGTTTTGATACAAGACCAATCATTGATCATACTTTTAAAGATGAATTTGTAATATTTGATTTAGGAACAATATCGGGAAATGAAGATATTCCAAGTATTGAAATTATATATAATGCAATTACAAAGGCACATGAAAATGTTGTGGATTGAGGATGAGCAGTACCAATAGAAGATATTTTGTTTGTTAATGAACCAACAATTAAATTGTGCACTATCAGAGTTATGGAAGGTCGCGATCAACCAACTCTTACAGGAGAAGTGCAATTTACATATACTTATAAGAAAATAGAAAAAAGTGAAATGAACTTTTATTCAAGTGGTCAAAAGGATAACTTTATAAAAAGAGATGCAACAATGGAATAAAGTGCAAAAATTATAAAATTCACTATTATTTGAAAATCAATAGAAAATACTATCATAGTCAATTATCTAGTTTTACAGTTCCTTCTAATTATTGTTCAACAAGACAATCAGAATTATGTGAGTATATTGCTTTTAATTTTTAAATAAATTATTTACATTTTTTTGAGAAATACAATTTATATTCCAATTGATAGGCAAATTATTTTTATCAATTAGAATCAGAGGTACCTAAGATTTTTAAATTTTTAGCCTTAATAAAGATGTGCAGTATCATTTAATGTATAAAAAAATTATCAAAGAAGTAAGTGTCCATTTTTAGATAAATAATTGAAAAGTTAAAAAAATATATTGAATTACTTTAAAAAAATAAATAGAGATTTAATTTTTTTATAAAAAATATGCTAATCAAATTTTGAATATAAAATTATTAATAAATAATATTTTGGAATAGACAGTTAATAATTTTTATAGATTTTAATTTAGATGTAATAGGGGATATAAAATGAAAAAAGAGATGTATAAATTAGAAGATGAATTAAATTCCAAAAAAATTCCAAAAAAATATAAAAATAATATTCAAGATAAAAGAAATAATTTTTGATTATATATAATATTTTTTGCTATAGTAGTAATTGCTGCTGTAACTATAATAATTTTATTTGCTTTAAGTGATAATTATTATCTCCAATTAATTGACTTTGGAAATGGAACTTTATTATTAATTTTTCTGCTATTTTTTCCATATTTAATAAAAATAATTATAGATAAATATAATATAATGATAATGAATAAACACTCTAATAAAATAAAAAAAATAAATTGAACAAAATTATTTGAAATTTATAATAATAATCAATTTATAATAGAAGAAATCAAATTAAATAAATTATATTTAACAGATTATTTATTTTGTAAATTATTATTAAGTAAGAAAATTAAGGCCATTGAAATAAATAATGAATTTAAAATAAGTTTTAATGATCTTTCATTTAGTATTAAATTCTGTAATATATCTTTAGATAAAGATGATAACTTTTTATTATTAAATAAAAAAATAACTTTCAATAAAATAATGTCATTAGATGAAATTAAAAAGGTTTTAAATATAAATATTGTTGAATTTATAAATGTCAATGAATCATCAACAGAAGTTATTATTAACACTATTATCTGCTCAAAAAATGAATTATTTGGAAATTATAAAAGTAAAATAACTTATTTAAAAATGTATGATTTTGAAATTACAAAAAAAATTTTTGGATTATATTCTCAAAAAAAATATAATAAAAATAATTTTTTGGAAACTTATAAAATATATATTGAAAATGATATTAATACAATTAAGGACTTGCTGATTTTACAAAATAGTGCATTAAATTAGATTGTTTAATTTTCTATTTGTCTAAAAAATTATAAATTTTTTAGTGAATTTATAATTAAGAAAACATTTGTAAGGGAATTTAATTTCTTTAATCGTGAAATTTATTAGTGCAAAAAAATTTTAGCTATTGAAAAAAGATATAATACTATTTCTGCAGTCAGTATATGCAGAAATATTAAACCTATAGATTTGATTAAATTTCATTTACAAAATAATGAACTAAGAACTTTACTAAATTAAAGTGATTTATAAATGAGCAATTTTTTATTTTATATATTAGAACTTATATTTTTATATGAGTATGAAATATAATCAAAATAAAAAAATAATGATTTAGCATTTAACATATTAAACCCTTATATGAGAAAGTATAATAAAGGTTTTATATAAAAGGAAAAGTAATTTTTAAATAAAAATTCTAGTATATTACATAAAATATTACATGTGGCCAAATTTAATTTAAAATGGAGGAGTTAAAATGAAAAATGAAGATATAAAACAGGAGTTAGATAAAATTAAAATTTTTAAAAAAAATAATGAAAAATTGGATAAAAGTAATAAGAAAATATATTTTATTATTAATTTTATTATTTTAATTTGTATATACATAGCGATTTCTTTTATAATAATTTTTGTATCTTTATCAATGGAAAGTCAGCTTTTTTTGCTACTTGCAGAAATTTTAATAGCTCCCATTTTTTTATTAATTGCTTTTATTTTTAGTTTTTTTATATCTTTTCACAAAAGATATAAATTAAATAGAATAAATAAGAAAATATCTCAATTAGAGAATATAAATTGAATAAGTTTATATAAACTACTTAATGAAAATGATTTTAATATAATTAATATTAAATTAGAGAGGCAATTTATTGAATATAATTTATTAAAAAAACTATTAATTACTCATTCAATCAATAGCTTAATTATTAATAATGAAGTAACAATAATTAAAAATCATGAAGAAATTAGGATAAATTTTTCTAAAATATCATTGGATGAAGAGCTTAAATATGTACAACTAACTCAAAAAATATACTTTAATAGAAAATTATCTAATTCTGAAATAAATAGAATTTTTAAAGGAAAGGAAAATAATATTATAGTGGATAGGAACACTTTAAAAACAACAAAGATTACACGTATTATTAATTTATGTTTAGAAGTAGAATTAATTAAATATTCCAAAAATTATAAAAATAAATATTTAATTTCCTATGGAGCATATTTAAATTCACTTATTTTTGGATTACATTTACAAAAAAACTATAAGAAAATTAATTATGTAGAACATTATAAAACCATTATTCTAAATGATATTTCCATTTTAGAAAAAATACTTAAATATTAATTACTCTAAATATTATTATTAGCTGGAAGATCATCAAATTACTTATCATTCTGATAAATTAAATATTTTAAACAGGTTTTACCTAAAGCACAGGAAGTTTTAAAAATAACTTTAACTATATTGGGCAAATTCTCTTCAAATTTATTTTTGATATTATGAGAATTTTATTTGCATCATTTTTAAGCTATAAAATTAAATCAATCTTTTGAAGATGTTATAAAGGATTTTTATATATACAATATCAGACATATTCTATTTTCCAAATAATGTAAAGAAATTATAGTTTATTATAAACTTAAGTAAAGTTAGTAAATATAGGTTTGATTTAGATTTTAATAAAATTAATATAACAAATTATTTTTTATATAATCAAATGTTTTAAAATAATTATAAAAATATTGATGTAAATATTTAGCACATATAGTAGTTGGTATAACTTAGTAAATTAATATAAATAGTTAAGATAAAATATAGTTTCAAATATTTCAGAGAAATTTGGACCTATAATCATAATTTAATAACTAAAAAATGTGATAAAATATTAAAAATTAGATAAATAAAAACTAAAACTTAATTTTTAAAAAGAAGGGATTTTAAAATTATTAAGAAAATCAACGATGATAATAAATTAGAAAAATATAATATTGTATATAAAAAACATAAAGAAACTTTAGAAGCAATGAATACGCTGAAAAGACAAGAAAATGAGTGATATGCCAGTGGCAGAGGTGCAAACTCTGTTATAAAAAGATATGGTAGTAGAGAGGAAATTTTAAAATTTAGTAATCTTGCAAATAATGCTGATTTTTTTTATAGACCAATTTCATACTCGTTATAATATAGGTTATACTGAAGGCTTAAAATCAGATCTAAAATCAAAAAATGAATTAGATTTTAGTGCAGATGATAGTACTATAGGATTGGGTGAATATATATCAATATGTAGTTTGTTTAATTATTTTCATACAACTAAGAAATTAAAATATTTCACAGATCAATAAATTGATGAATTTTATTTTAAACCATTTAACAGTAAAAACATTGAACATAAAAACTCTATTTTTAATGCAAGAACAAAAGCAGTTCCATGAAAAATTTGAGAAAATAGTAATTTTAGATATGATATTAAATTTCGAGAAGAAATGAAAACTATTTTAAGGAAGTGATTACCAAAAAATACTTGAAAAAATATAAAAATTGGTTCAAGCACATCTACAATGCATTCTTCATCTTCTGAAAGATGATTATTAAAATATAAAGTTCCTGTTCTATTTTCATTTGTTATAAATAATTTTGCACATAATGTAGTTATTTATGGTTATGCTGAAAAAAACAATGAATATGCTGTACATTTTGGTTGAGGTGGTGAACAATATTCTAAAGTTATAATGGATAAAGATAAAATGTGAAGCTATTTTGGTATTGGCTTTTAATTAGCAATTAAGGAGATATAAAAAATGAAAAAATTATTAACATTATTTTGTGGTATCTCACTTATTACAAGTTCAACGTTATTGACTTCTTCATGTTGATGAACGACAACTCCTCCATCAATTTCACGTGATCCATATCAAATGGATGAGTGGTATTCAACACCTTTATCAAAAGGTTTGATTGAATTAACAGATTCTATAAAGAATATAACTTTTTCTAATTCAGAAGCATTAATTTTACAATCAAATCAAGCTTTAAAAAAATATATTGATAAAGAAAATCTTATTTTTAATGAAGATATTTTTTATAAGTTTAATTATTATGAAAGTTGAAGTGAATGAGAGGAATTTTTATTAAAACCAGAAGAAATAGGTAAATCCAAGGAACTTTATTGCTTTTATGTTGTTAAAGAAGAAAATGGTAAATATATTACAATCAGTCAAAAATTTCAAAGGATTTATCGAGAAGAAGAAAATGCAATATATGGAGAGGCTATGTTTCTTATTTTTAAGCAGTTGAAAGATTTAACTATTAATATTAATTAGTAATTTTAAGTAACCTATCTCAATAAAAATTGAGTAATGAAAAAACCTAAAAAAGAAGGATTTAATTAATTTGCTGAATAAATTAAATTTCATTATAATATTTTCTTTTATTAAATTAGAAAGATTTATAGTTTATTTGATAGAATAAAATTGAAAGAAATTAAGGGGAAATTAAATATGAAAAAATTATTAAATATATTGGGTGGAGCTTTATTTGCTACAAGTAGTGCAACTGTTACAATGAATACTGTTTCATGTGAAAAAGAATACACAAAAGATGACTTTGAAAAACTTGTTAAAGAAATATCTAATTTGGATGAAAGTAAATATACAGAGGAATCTATTGCTTATCTTTTTAAAATTTTAGAAGAAACTACATCAGAAGTTAATGAAGGAAAAAATATTAATGTAAATTATACAAAGTTAAAAAAGGCTTTTGAGAGTTTAGTATTAAAAGAAACTGAAAATGGAGAATTAAAAGAATATAAATTGAAAGATTTGTTTGATAATTCACTTTTTGAAGGTGATGCAATTAAACTTAATATTGTTTTTGACAGTCAACTGGACTATGAAAACAGAACAAAAGACAATTCTGCTATAAGAAATTGAATTTGAAATCAAATGCAAAAGAAATACATAAGTCAAAAGTTTGAGTTAAAAAAATGATAGAGAAAGAATTTAAAGATAATACATCAACTTTGGAAAAAGAATTAGATATTGAACATGAAACAAATTTTGAAATTACAAAAAACTTAATTAGTGAAATTGAAAAAGCTCAAGTAAAATCTGGGAGTATAAAAATCAAATATAAATTTTCAATTAAGTCATAAATAGAATTAATATTCTTTAAAAGGGGGTAAAAAATATGAAAAAACTATTAACATTTTTAAGCGTAACAATGCTATCGACTAGTTCTGTTGAAGCAACATTTGCTACAGTTTCTTGTGGAGAAACATTTACAAGAGATGATTTAAATAAATTATTAAAGGAAGCTAGTAAAATAGATAGAACAAAATATACAAAAGAGTCTTATTCAAATATGCAATTAGCATTTTTAGAAGCTACAAGTGCATGAATTACAAATAAAAATATAAGTTCAAATTACATTAAATTAAAAAAAGCTATTGATGACTTAGTTCTACTTGAAACAAAATAGCAAATTTGATTTAAATAAATTTCAAATAATAATATAAATTGTGAATTTTAAAATTCATTTTATACTTAATTAAGTTAAATAGAATACTAGAATAACTTGTATTCTATTTTTTTGTTTGGTCATTTATTTAAAAAACTAGCTATTTTATTTTTTTACTCAATTTAATTATTTTAGTAACAGTCACATGAATAGGATGAGCAATTCTCTTAACTTTCAATCAAAACGTTATATTTATTGTAATTTATTTTAAATTTTGACTTTAAAGAAAGAAATTTTGAAAGGAATCTATAAACAAAAAAAGAATGAAAAATAATATTTTTAAATAATTCTATTAATATTGGATGAAAAAATATAAAAAAAGTTTTATAATTATTATATGAATAAAAATTGAAAAAAGTTTAATTTTGAAGTTAATTTAACTAAACTAGTTGAAATTCTAGAAATAATTAAAAGTGGAAAAAATATACTTGTGGATTTTGAATCTTTTAATTTAAGTCCTGAAATTAAAAACTTTCCCTTAGTATTTGGATACTCTCAATTAGAATTTAATAGAATAAGTCATTTTTTTTATTAAAGAGTATAAAAGCATTTTTATACCATATAAAATAAAAAGTCCAGAAAATTTTTGAAAGTATGAACTAAGGAAATGATTTAAAAAATATAAAGAAAAAAAATTTATTTTTTTAGGTTCTAAACTTGAATTAGAACTATTTAATAAGTTTATTGGAATTAAAAACAATAATTTTAGTCATCTAGAATTATATGATTTATTAAAAGAACCAGTATTTATTTGAATAAAACCTAAGACAGAACTTCTTGAAACAAAATTGTAAACTTTATTATGGAGGATTATAAAACAGTAATTGATGCAAGGAAAATAAATGAGTTTTTTCATATTATTTAAATGATAAAGAATGAAAAAATAGAGAAAGATATATTACTGAAGTCAAAGAAAAAAATAAAAAAGACTTGCAGACAATGATTGAAATTTTAAATTGACTTAATAAATTAATTATATAATGTGAATAGTTGATAAGAGACCTATCAAGGAGCTAACAAGTTTCTTGACTTTTTTATTTTGCTATAAATTTATACTAAAAGAATTTTGTAAAAAATGAGTCAAGATTTATGCTTTAAACAAATTGGATTTTAATTAAAATATTTATCTTGTAAAATTGCAAAAAAATATTTTAATTAAAGATAAAAAAACAATTTAAAACTGAATTTGAAAATATAGATTATGAAATTAAAATAAGGTAGGTGGATCATTAATCAAAGATTATAGAGAAGGAACTGTTAAAAATATTTATGTAAATATAATATTTCAAATGATAGTTTTGATGAATTAGAATTTAAAATCTAAAAATAATAAGCTTACAGAAATTTTGGTAAATATTATTTTATTTTTATAATCATATTACTATTTGTTAGACATTGAATGGGTCAAAAATAGAGATATGATATAAATCTCTATACACTAGATTTTGTGGATTACACTACATTTTTTATGCAACTTTTATTTACTAAAATCAAAAATCTAAATTATAAAATGTATAATCATTTTATAAGTAAAAAAAGGGAAAATATATGAGAAAATTATTATCAATATTAGGGTCAATAGGACTATTAGCATCAACAGGTGTAACAGTTACAGCTTGCAATCCGAAACAAGAAAAGCTTATAATACCAGCTTTTCCAGCAACCGTTGAAGAGGCACAAAAAATTATATCAGATTTATCTAAACCATATGCACTTACTAAATTAGAGATTAATAAATTGAAAGCAAAAGAAAATTCTGATAACTTAACTGAAATTTTAAACTTAATTATTAAAAATAAATTTAATGAGTACGAGTCAATTATATATGCTTCAATTTTTAAAATTGTAGAATTGGAAGGTAATGAATCAGAAATTAAAATATGAGAATTTGATGAAGATAATATGAATGTTGAAGAAATTGAAATATCAATAAATGTATATTTAAAAGATTCTGAAAATGACCTTTTTTACTCTCTAGAAAAGAACATTAATTCAAAAACCACATTTCCAAATGAAGTTATTGGTAGAGAAAAAATGATAAATAATTTGAAAGATATTCGCAAATGATGATTAGATGGAAAAAATTTAGAAGCACTCAGTGATCAGTTTCGTATTTCTGAAGTGTCTTTAAAGAATCAAGAAGTAGATGAAGCTCTTGAAAAGGTTATTAGATGAAGCAAAAATGAACATATAACAATTGAAACTATTGAATTTGTTTCATGATTATGACCAAGCAATGAAACAGAGAGTAATTCATTTGCTGTTAGACCTAAAAATAATGATAAATTTCTTGGATTAGCAATGTTTGAATGAAGTTATATTTAATTTTTTCAAATATATTAGTAATAGGTTAATTGAATTAGGAATAGAATTATTAAAAAATAAATTTAGTTTTAATTCTTTTTTATCTATTAGTAAAATATTTTGCATATCAATTTTATAAAAACTTGGATAAAAAATTGCAAATAATAAAATTAATTGCAAAATAAAGAATGCATTATATGCACAAACTCAGTTTTATTTGGATGATTTTGGTATCTTTTCTAATTATTTTCTATATATAAAACTGGTCATATAATTAGAAATACTTTCCTTATGTTAATTTGTACAATATTGAATTTAATCGGAATTTAATTGAAGATTAGCATAATTTTAATTATAAAAGCTTAGTTTATTACAGCATAAAAACGAATTATTAGATCTAATAATTCGAAAGAAATAGTGAATGATATTGATAAACATATAAAAAATCAAAAAGATAATCAAAATTTAGTCTCAATGTTTTATGAAAATGAATAGAAATTTGTTGATAAAAAAGGCAATGAGAGAAGCCAAAATGAAAAGCACAATTTTAGGATTAAAAAGTAAAGGAAAAATACTATAAACATTCTAATTTATTTCCCACAAAAATCACTAGTAAAAAAAGTAGAGTTATTACAAACTTTATGAAGAAGACTTAAAAACACTGAAGAATATAAAGGTTATTTGAAAAATGTGAAAACTTAAAATTTTAAATAATTTTAAGTTTTTAATCAGAATTAGCTAATTTTAGGTTTCCCAAATAGTTATATCAATTTGCAAAATGTATCTCAGATAAGCATTATAGAATAAGGGTTATTAATGACTAAAATTGATGATATCATTTTATTTTTATAGTGATATTTACTATTTTTAGACATTCAATGGGTAATAATATATATGATAAATCTCTATACACTAGATTTCCTGGATTACACAACATTTTTATTTAAATTTTATTTAAATAAAAATTAAAAACTTAAATTAAAAATGTATAATTAAATAAAAGGGGAAAAATATATGAGAAAATTATTAGCAATATTAGGGTCAATAGGACTATTAGCATCTACAAGTGTAACAGTTACAGCTTGTAATCCGAAACAAGAAAAGTTCATAATACCAGCTTTTCCAGAAACTGTTGAAGAGGCACAAAAAATTATATCAGATTTATCTAAACCATATGCACTTACTGAGTTAGAGATTACTAAATTGGATGAAGAAGAGGAAGAAGAATTTGATAACTTAAGTAAAATTTTAAACTTAATTATTAAAAATAAATTTAATGAATACGAATCAATTATATTTGCTTCAATTTTTAAAATTGTAGAATTGGAAGGTATGGAATCAAAAATTAAAATATGAGAATTAGATGAAGATAATATGATTGTTGAAGAAATTGAAACACCAATAAATGAATATTTAACACCTTCCGAAGATACTTTTTTTTATTATCTAGAACAGAATATTAATTCAAAAATGATATTTCCAAATGATGTTATTGGTAGAGAAGAAATGATAAATAACTTGAAAGATATTCGTAAATGATGATTAGATGGAAAAAATTTAGAAGCATTTAGTGATCAGTTTAATTATTCTAAAGTGTCTTTAAAGAATCAAAAAGATGATGAAGCTCTTGAAAAGGTTATTGAATTAAGAAAAAATGAAGATATAACAATTGAAAATATTGAATTTCAGTGATGAACAAGTAATGAAATAGGGAGTGAGTTATTTGCTGTTAGACCTAAAAATAATGATAAATTTCTTGGCTTAGCATTATTTGAATATATTCTTGAATAAAAATATTCAAGATATTTATTATAATCTACTTATCATTATATTAAATTAGTAATTTATAAGTTATATAAATTTATTTTTAAATTTCAGATTAAGACTTACTTAAATAAAATTATATTAATAATATACTTCTGTTGAAGCTACATTAACTACAGTTTCTTGTGGAGAAACATTTACAAGAGATGATTTAAATAAATTATTAATGGAAGCTAGTAAAATAGATAGAAAAAAATATACAAAAGAGTCTTATTCAAATATGCGATTAGCTTTTTTAGAAGCTACAAGCGCATGAATTACGAATAAAAATATAAGCTCAAATTACATTAAATTAAAAAAGCTATTGATGACTTAGTTCTACTTGAAACAAAATAGCAAATTTGATTTAAATAAATTTCAAATAATAATATAAATTGTGAATTTTAAAATTCATTTTATACTTAATTAAGTTAAATAGAATACTAGTATAACTTGTATTCTATTTTTTTTGTTTGATCATTTATTTAAAAAACTAACTATTTTATTTTTTACTCAATTTAATTATTTTAGTAACAGTTACATGAATAGGTATGATCAATTTCCTTAACTTTCAATCAGAACGTCATATTTATTGTAATTTATTTTAAATTTTGACTTTAAAGAAAGAAATTTTGAAAGGAATCAATAAACAAAAAAAGAATGAAAAATAATATTTTTAAATAATTCTATTAATATTGTATGAAAAAATATTTAAAAGTTTTATAATTATTATATGAATAAAAATTGAAAAGAGTTTAATTTTGAAGTTAATTTAAATAAATTGGCTGAAATTCTAGAAATAATTAAAAGTGGAAAAAATATACTTGTGGATTTTGAATCTTTTAATTTAAGTCCTGAAATTAAAAACATTCCCTTAGTATTTGGATACTCTCAATTGGAATTTAATAAAAATAAATCATTTTTTTTTATGAAAGAGTATAAAAGCATTTTTATACCATATAAAATAAAAAATCCAGAAAATTTTTGAAAGTATGAACTAAGGAAATGATTTAAAAAATATAAAGAAAAAAATTTTATTTTTTTAGGTTCTAAACTTGAATTAGAAATATTTAATAACTTTATTGGAATTAAAAACAATAATTTTAACCATCTAGATTTATATGATTTATTAAACGAACCAGTATTTACTTGAATAAAGCCTAAGACAGAACTTCTTAAAACAAAATTTGTAAACTTTATCATGGAGGATTATAAAACAGTAATTGATGCAAGGAAAATAAATGAGTTTTTTTCATACTATTTAAATGATAAAGAATGAAAAAATAGAAAAAGATATATTATTGAAGTTAAAGAAAAAAATGAAAAAGACTTGCAGACAATGATTGAAATTTTGAATTGACTTAATAAATTAATTATATAATGTGAATAGTTGATAAGAGACCTATCAAGGAACTAACAAGTTTCTTGATTCTTTTATTTTGTTATAAATTTATATTAAAAGTATTTTGTAAAAATGAGTCAAGAGTTATGCTTCAAACAAATTAGATTTTAATTAAAATATTTTGCTTGTAAAATTGCAAAAAAATATTTTAATTAAATCTAAAAAAACAATTTAAAACTGAATTTAAAATAAGTGCAGACAAAATAGGGTGGTTGGATCATTAGTGAAAGATTATAGAAAAGGAATTGTTAAAAATATTTATGTAAATATAATGTTTTAAGAGCAAGATATTAAAATAAATATAGTAAATAAGTTAGAAAAATGTGAATTAATTAATAAATGTATCAGAGAATGGTACAAAATTAAAAATATAATGGAAGAACCTAATAAATATAGAAATTTTACTGATTCTTTGAGAAATATTTTATTCATTAATTTCACTATTTCAAATACAAATAAAAATTTAATATTTGAAATGATAGTTTAGATGAATTAAAATTTAAAATCTAAAAATAATAAGCTTAAAGAAATTTTGGTAAATATTATTTTATTTTTATAATCATATTACTATTTATTAGACATTCAATGGGTAAAATATACAGATATGATATAACTCTATATACTATTAGATTTCCTGGATTGCACCACATTTTATTTAATTTTTATTTAAATAAAAATTAAAAACTTAAATTAAAAATGTATAATTAAATAAAAGGGGAAAATATATGAGAAAATTATTAGCAATATTAGGGTCAATAGGACTATTAGCATCAACAAGTGTAACAGTTGCAGCTTGTAATCCGAAACAAGAAAAGTTCATAATACCAGCTTTTCCAGAAACTGTTGAAGAGGCACAAAAAATTATATCAGATCTATCTAAACCATATGCACTTACTGAGTTAGAGATTACTAAATTAGAAGAAGAAGAGGAAGAAGAATTTGATAACTTAACTGAAATTTTAAACTTAACTATTAAAAATAAATTTAATGAGTATGAGGCAATTCTATTTGCTTCAATTTTTAAAATTGCAGAATTAGAAGGTATGGAATCAAAAATTAAAATATGAGAATTTGATGAAGATAATATGATTGTTGAAGAAATTGAAACATCAATAAATGAATATTCAACAGAACCTGAAGATGTCTTTTTTTACTATCTAGAAGATAATATTAATTCAAGTAGCACCTTTCCAAATGAAGTTATTGGTGGAGAAGAGATGGTGAATAATTTGAAAGATATTCGTAAATGGTGATTAGATGGCAAAAAAATGGAAGCATTCAGCGATCAGTTTAGTTCTTTTAAAGTTGTTTTAAAAGAAGAAAAACAGGAAGAAGAAGCTCTTGAAAAGGTTATTGAATTAAGAAAAAATGAAGATATAACAATTGAAAATATTAAATTTTATGCATGATCAAATAATGGGACAGAAAAAATTAATTGATTTATTGTTGGACCTAAAAGTAATAATAAAGTTCTTGGTTTAGCATTATTTGAATTTACTACTGAATAAAATTTTAAAAATATTTATTATAATCTATTTTTAATTATATTAAATTAAGACTTACTTAAATAAAGTTATATTAATAGTAGGTTACTTGAATTAAGACTAAACTTATTAAAAAATAAATTTAGTCTTAATTTTTTTGATATTAGTAATTTTTTGCTTATCAATTTTAGAAAATCTTAGGTAAACAACAACAACAAATAATAAAGTTAATAAGAAAATAAAAGAAATCGCATTATATTGATAAATTCGGCTTTTCTTGAAAATAATCAAATAACTAATTTATATCATAATATACATAAATAAATGCAAATTATATTTATAATCCCAGTATATCCAAGTTTTAATTTTTATGTTAATTATAATACTCTTTTAAGACTTTATAAACTGATAAAAAATATAATAAAAATAGCTTTCAAAAGATATGTTAGAAATTCTAACCTTTCTATATAACTATTGTTTAAAAGCTCATTATTTATTAAATAAGAGTATTTTTTGATCAAGTATTGGAAAGCCAAAAAATATAATCTTAATAAGAATCTATTCAAAATATATTAAATAATGAATTAAATTAAGACAAGTATTTTTTAAATATCAATTATTAATAGAAATATGCACCAATGGAAATAGTCACCTCTTTTAAATCTAATAAAAAGCAATTGAAAATTATAATCTTGATGATTTTATAGGAGTATCTACCGAAACTGATATTTCTAGATTGTTAAAATCGACAATGGGGTATGGATCAAAAATTTATAATTACAAAACTTTGATAAATTTAATCACGGTTAAAGCTAATTATTTAAATGGTATAATTTAAATAATTAAAAGGAACTACTAACAATGAAAAAACTAATTGCAATAACTAGTGTCATTTTTCCAATTCAAGCTTCGATTTTAACAGTTTCCTGCGCTTCTAGCAAAAAAATTATTGAATTCTACACTTTTCCACATTATATGAATGAAAATTTCAGTCAATATATATCAAAGAAATGAAGACATTCGAATCTTGTTGACGAAAATATGAATAATACAAAAGTGAAATCAATATTTGATATTTATGATTCAGAAAGCTTTTTGTATAAAAATTATGTATCATATTGAATTGAAGATGAATGATTTACAAAAGTTGGGTTTACTTATGGAAAAAATATAAGTATATATAATAAAAGAAATAACACGTTTACACAATATTTGGAAGAAAATTTTAGTTTTAGAATTGAACGAAAAGGGTTAGGATCTCAGACACCAATAGATATACAAAAATATTGAGAGTATACTTTGGAAGAGGTTGCAGCGGATTTTGGAAAAAAACAAGATACTTTCATTTTTGGATTTAATAATGTTAAAACTGAATATATGAGTTGAAAAAGAGGAACTTATTGGGAATTTAAATTTAAATAGTATTTATTGCTATTTTTTTATATAATAATATTAATTAAGTAGTTTTCCTACCTTTACGTTATACGCCCAAAAAGGAGCTGTAGTATGAATTCAAAAGAAATATGAATGATAAGACATAAAGGGGACAATAATAAAAATATGTTTCATCCATTTCTTATATTATATATATCAAATAAAAGAGTTTTGGCACTTCAATTTTCATCAATAGATATTCATGGTAATTCATATTATGGAAAATTTAGAAATAATAATTTATTTGATATAATTACGAGTAATAGTTTTAATGGAGTACATGCAAATTCCGAAAAAGTTATTTTAACTAATGTTGAAGGAATGGAATACCAATCTTTAGGAGATCCAAAAATTTTATATTCTTTTTATTTGGAAAATTTAAATGAATATAATTGTAAATATAAAACATTACTAACAGATTATCAATTTAGAATTATTTGTCAACAAATTCCAAATCAAGGATGAGAAAAGGAAATTAAGGATCTTATTGATAATATAGAATATTAATATATAATATAAATAGTTCACAAGAGATATGTCAGAAATGGCAAGTCTCTTGTTTTTATTTTCTAACATATCATGAACAAATAGAAATATGTTAGGAGATGAAAATATCACAAGAAATCCAATTATTCCCGAAAATACAAGTAAGAGAAAATTTTTAATTTGACAACAAATGAATTTAACTATTGTTGATCTAGCAGTTTTAATTTTATTTGCTGGAATAGGAATAGGAATTTGCTTATTAATGTGAAAACTTAGTATTGGTTTAAAAATTGTAGGAATACTTGTGGCCAGTTTTTTTATAATTATGGGATTTTTATTAAATTCAAAGAGTCAATTTCATAATAAAAAAATATATGTAGTTATTTTTGAAGGAATTATCTTTTTATTTATAAATAGAAAATATAAATTAGAAAGTAAAAATTGTACAACTAATCTAATTCCTTATTTAAAGATTGAAGATAACTATATTTAATTAAAAAATAAAAAAACTTATATGAGTATAGTAAAAATTGAAGGAAATGCTTTCTTTGATTATGAAGAAATTAAAAGAAATGATATTTTAGAAAGAATTTGAGAAATTTATCGAAATTTACCTAATAATGTAGGATCTATTTTTAAATTAGATGAATTAAAATCTAGAAAAGATATCTTATTTTTTTAGAAGAAAAACGTCATGAATGAGAACAAAAAAGGAAAAGTAATGAAATTAACGATAAACAATATTTTTCAAGAATTAGATTAATCGAAATGGAAATTGAACGATATTCAAATCCAGATATGAATAAGGTCTTTGAATGAATTGAAAAATCAGTATATATTGCATTTTATGCAGACAGTATTGAACAATTAAGAACTTATGAAAATGATATTATACTTAAGTATAATAGGGCAAATTTAAAAGCGATTAAATTAGATGCAATTAATAAAATAAATGTTCTAAATAAAATCTTAGATTTAGATATTATGGACGATATTGAAAATAATATTTATAAGTATAGAGATAATCTTGAAGAGTATTTGCTTACAATAAATTAGAGAATAAATCAAGTTATCTAAAAATTGATAATAATTTAAAAGTATCAATTGGAACAGTTGAAGCGTATGCAAACAATCCAGAATGTGGTTGAATTGGACAAATATTTAATATTGATGGTCCCGTAGTAATAAATTTTAATAAAGTAAATGAAAAAGTATTTCAAGAAACCCTTTCAAAGGCAAGAAGAACTGCAATAGCAACAGCTAATGCAACTAGTAAAAAAGAAATTTTAACACAAAGAAAACGTCAACAAGAAATTGAAAAATTAGAAGAATTTGTTGATGTTATTGGTTATGGACATGATGAATTATATAAATTTAATATTTATGTTGTTAATCGAGCAACTAGTAGTAAGGACTTAAAAAAATCTATAAAGGATGCAAAAAACATTTTAAAAGAACAAAGATTAATATTATTTGCTAATCCTTATAAACAAATTGAAGCTTTTAGTGGAATTTTGCCAAAACCAATCGATCCTTTAATGGAAGTCAATGGAAGAGAAACTCCTTTATATTCTTTAGTGTGAGGAATGCCTTATGTTAGTACAGCATTAAATGAAGATAAAGGATGATTTATAGGTATGAGTACAATGGGAGACGAATTATTCTTAAATCCACATTTAAGAAATGAATAAAGAAAAAACGCTAACATGTTTTTTAATGCTACAAGTGGAGCAGGAAAATCAACAACAATGCAAAGAATGCTAAAAAACGAAATACTTAATGGTAATAAAGTCTATCTTATTGATTCAGAAAATAAATATTCAAAATTTGATGATTATTTTGGAGAATCTAAAATATTTTTAGGTGATGGTTTATATAAAATTAATCCCTTATAAATTATGCCAACTTTATCAGATATTCAAAATGAAGAAGAAATTGAAAGAATTAATTATAATAAAAATTTTTGAAATATAGACAAAGATAATTTAGTAAATAAGAATTTTAATTTAAATGAATCCCTTATTTTAAATCATCAAAGTATTATTGAAATTTTATTTAAAACATTTTTTCACAATATTAGCGAAGAATTTACAAGATATTTAAAAAAAATTCTGATTTTTCTATAATTATTGATTAGATAAAACAGATAATAAAAAAATATTAGAATGAAAAAATGAGCTTTTTCCTATTTTGCAAGATTTCTATAACTGATTAATTAATAATAAAGAAAAGAGTGAATTATATATAAAATTAATTGAATTATTAGAAGATGGATTTGTGAATTCTTTAAGAGAAAATAAAAAAGGAACATATTCAATGTTTTATAATGGATATACAAGTATTGATATTGCAAATAATTACTTAACAATCTTTGATATGAGTTCATTAAAAGATGGAATTGATACAAGGTTATTTGCAATGCAAATGTTTTTAGTTATTAAATTATTAGAAAGACAAATAAAGGTTAATTATGGTTTAAATACAAACACACCACAAAGAGTTATTTTTGATGAAGCTCATTTACTAATGGATAAAGATTTTCCAATAGCTTTAAATTTTATTTATAGAATGGTAAAAATGATTAGAAAAAGAAATGGTGGAATAACAGTAATTACACAAAATCCTGAGGACTTTTTATCAACTCCTGAAATTGCGAAAAAAACTAAGGCAATCATAAATAATAGTCAATATGCTTTTATTATGCAAGCAACTGAAACTAATATTAATAAAATTGAAAAACTTTATTCAGATAGTGATGGTTTTACTGAATATGAAAAGAAAAGTTTAGTTACAGCAACTCAGGGTTTTTGTTTACTAATAACTTCTAAATCAAGAAGATTTACTCTAAATATGGATGTACAACAAGAAGATTTTAGAAATATTGCAGTAGATGAAAGTACTTTAAAAATTTGGGTATTAGGTTACTTGACAACAAGGCTTTATAATATTTTAAATGGTTTAAAACATATTGATACTAAATTAGAAGAATGTGTATCTATTAAAGAAATTAACGATCAAAAAACATTACAAATAAAACTAAAAGAAAAACATAATTTAAAAGCTGAATTATTCAAGCAAAATATTGAAATTAAAGCTGTAAATTTGGAAAATAATATTTTATCTTTTGTATTTAAAGATTTACATAATCAAATAGCGTACAAATTCTATGACAAAATTACTAAAAAGTTGATGTTGATCAACGAACAAATTAATCAAGAAGTTGATTCAAATGAATAATCAAAAGGCTAGTAAAAATGAAATTTGTAGAGTAATTGCTGAAAATACTAATATTAGAATGAAAGAAATTGAAATCGTTTTTGATGAAATATTTAATGAAATTAAAAGTAAATTAAAAGAAGGAAAATCATTAACTATAAAGAATTTTGGAAAATTTAAAATTTATGGTTATAAAAATATGAATATGAATAAAAGCTCTATTATAAAAGTAAAAAAATCTAAAAAGGGGTGAAAGAATGAAAAACATAAACAAATTTTAATTAGAGTTTATAACAAAGATGAAATTGAACTTATAAATAGATTTCAAAATCTTTGTAAGGGCAAAAAAGATAGCTTTAATAAAATAATTAAAGAAGTTTTAATTGAACAATTAGAAAGTTTAATATATGCTAAAGAATTAAGTAAAAATCAAAATATTATTAAAGAAATTATGAATCATACTTTAGATGAAACTGTTATTCCTAGAGTTTCGAAAATTATTAAAACTACAAATGAGCATAATTTAATTAAAATTGAACTTGTAAATAGAAAAATAAATTTTTTAATAAATGAAATGGGACAAGCAAGAATTATTGATGGAAAACCTATAATTAATGACATAAATTTAAAAGTTAAAGATAAAAATTGAATGTTAGAAGAAGAATTAAAAATAAATGAAGAAATTCAAATTAAAAAGAATTAGTAATAGAGAATATAAATAGTTAATAAAAGATATATTAGGAAGCTAGCAATTCTCTTGTTTTTTATTTTTTTAACATATCTTTAGAAGAATAAAGATAAGTAAAAAAAATGCCAGCATATACAAGAAATAATTTAGCAGATAATCTATGAAAAGTAGGTGAAATATGAATTCCAAATAAAGAGGAAAAATGGAAATTGAACATCTGTAAGTGGTTTTGGAGTTTAAGTCTATGATATTCAAGTAATTGAAAATAATGAAAAGAATATTTATTAGGTAATTTTTTACACTTTGGGTAGTTATGAGACCTTAGTGGGAAAATGCAGTTATAGAGATGCATATGATAAAAAAACTTGAAGATAAAATTTTAATGTTAGAAGAAGTAAAAATAAATAAAGAAATTCAAATTAAAAATAACTAAATAAATTTGATATTATAACTTTATGGATAAAAATAATAATATACTTCCACACGGTGGAAAATTTAAAGATATTTGAATTAATCAAAATCTTATAGATAAACTAGATTTTTTTGTAAATAAATCCAAAATGGAGGAAAATGATTATTTCTATGCACTGCAAATTGAAGTAGATCAAAAATTTTTTTCAAGATTTAATCAAAAATTCCCAAATTGAATAATTGTTAAAATATCAGATGATAAATTTAAAAAAATTAACCCAAAAACTAATAGAAGAGTAAATTGATATAGATTATATAAAGCAGATTATTTGTTTGTTAAAGAAAATTATAGATTAAAATCAAATAATAATTTTTTTAGTAAAATTTATGGAGATAGACTTAAAGAATTAAATTTAGTTGATACAATTTATATAAATAATGATATTTTTTCTATTCCCAAAAACTTTACAGACTGATTTTTTATAATTAATTTTTGTAATTCCATAAATCAGCAAATAAAATTGGAAACCGTAAAATTTAAAAATAAAATATTTGAATTAAGGGATTTAAAAATTGATTCTTTGTCTGAAGCTGAGTTCATTGATTTTTATAAAAAAATGAATAATTCAAAATTAAGAATTAAGAATTATTTTAATAGTATTAAAAAAATAAGAGATTTATTAGCCCATTTTTGAAATTATGAATTAAAAGATGACAAAGGTTGTATTATAAGAAAAGTTAAAGTTTTAAAATTTTATTCTATTGATAATGAACTTTTTTTAATAATAAAGGATGATACTACCAAGTTTAATAGATTAGTTGTTATAAATTTTCATGATATAATTAAAGCAATAAAAATAAAATTGATCGATATTCAAAATATTTAATATATAATATAAATAGTTCACAAGAGATATGTTAGGAAACTAGCAAGGCTCTTGTTTTTATTTTTTAACATATTTTCTAAAAGAACAAAGGGGAAGATAGGAAGTGTTATAATAAATGCAAGATATAAAAATACAAATAAACTTTAATAATAATATTATTAATTTCGATGGTTCAACACCATTAATTGAATTTAAAAAATACATTGATAAATTATCTATAGAGGATGCACATATGATTCAAAAAAATGTCAGAAAACAGATTAATTCCTATTTAAAGGTTATTCCTAAACAAGAAAAAATAAATTTAGAACCTCCAATTATTGATGATTCTGAAAAAGAAAAAATTAATTGAAAAAAAGAAACTTTAAAGTGAAAACAAGAATCTCAAAAATGAGAACAAAAATATAATAAACTGGAAAAAGAATTTAATGATTTTAAACTTGAAGTAAAATATCTAATACTTGAACTAAAAACTGAAATTAATCAATTAAGAGAAGATAATAAATTATTAAAAAATAAAGTAGAATTTTACGATAAAAAATATAATAATGAGTATGATAAAGTTAAAAGTGATTTAAACAGAGGAGAAAGATAAATTATGAAATGATTGTTGAGTTTTTTAGCAATAAGTGGATTAATTGTATCAAGTAGTGTTAGTAGTAATATCATGTGGATTTGATCAGGGGGATAATGGAAATAAACAGGGTCCAATAAAGCCAGAACCCCCAACTATTATAAAAGAATTAAGTCAAAATAATGATGGTTTTGATTATGTTTATGATACTAAAAACAATATCTTGAAGCTAGTGAATATTATATAAAGCAAGCAAATATTTTTTATGAATTTATTGACGGTTTTGTTAAAGAAGGAATATCTGAAAATGATATTTGATATTCTTTTGGTGATATGTATTTCCAAAGTATAATTTGATAGGCAAATGAAGGGCAATGAGATTTAGTAAGAATTGATGAAATTGAGGGAAATTATAAATATGATGAAATTGATATTAATTCATTAACCCAAGAAAGTTATTCAAGAATTTGATTTCAAGAAAGAAATACTAGTTTAAAAAAATACACTAGCTATTATTTAGGAAGTGCAAAAGAAATTAAAGATGATAGTAAATGAGGAATATATTCAGGTGGTATGCAAACTGCTTTATACAGATATAAAACTGCAAAACAATCTCAAATTGATAATCCCCCAGAAGCAGCAAATATTCAAGATTTAGAAAAAGATATGAAATTTATAGAGGATTTAACTGAATTTTGAAAAGTTAGATTTGATAAAATTCAAAATTTAAGTGAAAAAATAAATGATATTTTAGTAAATTGAAAAGATTAATATATAATATAAGTAGTTCACAAGAGATATGTTAGGAAACTAGCAAGGCTCTTGTTTTTTTATTTTTCTTACATATCATGAACAGATAGAAATTTTAGGTAATGATTATGGAAGAAAAGATTTTAAAACAAATTAATCTAATTAAAGATACATGAAATAATTTCAAAAATAATATTGAATTTACAGGTGAAATTGATAAGAACTTTTTATATTCTATGAAAAAAACCATTAATAAAATTGATAGTTTAATGGTTGTCTTAATAAAACTAATATTTGAAAAAAATGATGATATTAGTAATGAATTAAATAATAATTTTTCTTTAGAAAAAGATATAAAACTTAAGGAGAAAAATAAAATGAAAACAATAACAGAAGAAGTTAAAGAGTTAAAAACCCCAGTAATTTTTAGAATAAAACCTTTATATAAATTTAGTAAAAATAGAGAAGAAAGAATTAAAAGAGTCGAATATTATTATTCAGGAAGAGCTCAACGTGATGGAAAAACAAAAAATAGAACTTATTTGGATTACATTACAAGAAATAATGCCAATAGAAAAATTGAATTAAGTAGAGAAGAAATTTTAGAATTAAATAAGTTAAGAAAAACAAATATTAAAGAATATAATAAAAAAATTGAATATTATAGTAAAATAAAATCTCAAAATTTAGGTTTATGAAGTAAAGAAGGAATAGTTGCTGAAAATAGATTAAAAGAAATTAAGGAAAATCTATTAAAAGTAGATGGTAAAAAACAATTTGTTTGAGATTCAGTAATATCATTTTCTGAACCATTTTGTGAAAAGTACAATGTCTATAATCCAGAAACTATTTATAATACTTTAAAGGATAGAATTAATATGCTTTTCTGATCAAAAAGAATTGATCCAGATAGCATGGAATGATTTTTTAGTTTTCATAGTAATACAGATAATCCTCATGTACATATTTTATTTTTTGAAAAAGAACCAACAAGAATTGGTGAAAGATATGAAAGTGAATATGTTACTATGGGATCTATTTTAAAATTGAGAAGATAATTGCATAAAATAATTTACATTTACTGAAATATTTTATACAATATAATTGAGGTTATAAATATAGATTAGTTTTAAAAAATATAATTTATAGTCTTTTAGACAGGGTAAAACATGGAAATAAATAATAAAACTATAGCTGTTATTATCGATTTTGACAATTTTAATAAAGATCTTCATTTACAAATACTTTTCAATGAATTAGAACAAATGGGTAATGTTATATATAAAGGAGCTTTTTATACTAATACAGTTGATAAAGATGTAAAAAATAAAGGTATAAAATATGGAATAAATGATTTTATTGTAGAACCATCTTATTCAAAAGGAAAAAATGCTGTAGATATTAGAATTGCACTTGATATAATGGAATTATTGAATAAAGAATATATAGACTGCTTTTGTTTAGCTACAACAGATTTAGATTTTGCACCAATAATAAAAAAATTGAAGCAAAGAAATAAATTTGTTATTGGTTCAGGTTTGTCTTCAACAAAAGAAGAATATAAAAAGCTTTGTCATAGATTTATAAGCGTAGATAAAATTGAGGAGGCTCTTGAAGATACAAAAGAAGTAAAATCAAAAAATAATAACCAAAATCAAAAGAGTAAAATTGCAAATAATAGAAATAATGAATCTATAAAAGAATTAGTTAAAATTGTTAATTTAATTCTCAAAAACAGTGAAAAGGACAATGAAGAATATATTCAATTTTCAGTTATTATAGAAAATTTATATAAAAAAATACCGGATTTTAATCCCAAAAATTATGGTTTTTCAAATAATAAACCAAGTTTGTTTTTTAAAGATACTCTTAAAGATACATATGATTTTAAACAATCAAACAAAACTTTATATATTAAAATTAAAAAATAAATTATATATTAATTTTTTAATTAATATATAAGAAAGTTAATATCAAAATCTACAAAGAAATTTAGATAGAGTTTAATGATAAAAGTTATTTTAATAACAATTGAAATTTTTTTCTCTTTATGAATTAAATTAAAATTATAAAGTTATTACTTAATAAAAATTTAATTGACTCATTTAAATTGTAAATAATAACTTTAAATAGAAAAAATATTTGGATTTAATTATTAACTTAAGAAGCAAAACAATATCAAAAAAGTAAGAGAAAATTTTAAACAAAATAACAAGTCAATCTGAAACTAAATAAAAATTAAAAGAAAAAGTATTTGTATACTTTTTCAAAGTAATAAATTTAGCACAATTAAATATATTAAATATGGAGAATTATATTAATGAATAAGAAAACTTTTACTATACTTAAAACAACCTTTAATATCACTAGTACCAAATTTAATTTTTTAATATATGATTTTGGGGGATTTGCAAGAAAAAATAGAAATTATATTTTTAACATTAGTGAATCTAATGAGTTTTATTTTCCAGAATATTTTCTTGAACAATATACTAATTATAATAAGAATAAACAAGATATCTTAAATTTATCAAAAGTATCGATAGAATATGAATCCTTAAAAAATAAAATTCAAGTACAAGAAAAAAAAATTACTGGTCAATTTTCAGAAATATGTCAAATAGGTATGAGTATTGAAAACAAAAAATATAAAAATATTAATAAACACTCTAGAAATTCAAAGAATGTATCTAGAAATGGTTATGATGGTATATTAGTGGACCCCGAGAAAAGTGAAATATTATTTTTTGAATCCAAATCATCAATATGTAAAATTAGTGAAGGGGAAACAATATCAAAAATAAAAAGTTTATTTAAAAAAGGTTTGGAAACAATATATGGAATTAGGGATGATAAATTTAGTAAAGTAATGAATCCTATAGACCAAAAACCGCTAGATGCAAAAAAAATAATAGATAGAGTTATTGAGTTTGATAGAATGACTAAGGATTTAGAAAAATATAATATTGCTAATAAAGATATTGTTGCTGCTGAAATTACTAGATTTGCTCAAGAAGCTTCAAGAATTGAGTCTGAAAATATATTTTTAGATATAAAAAGGCAAATTATTGGAATTACTATATTTAATAACGAAAATGAAAATTTAGAAGATATTTTTATTGATTTTCAAAACTCGATACAAGCGGAATTTGCAAAATGACAAGAAAACCCAAAAATTAACATATCCAAAATTTATAAAATATTATTTGATAGAATAAATAATGAAAAATTAATAAGTATAGAAATTAATTTAGTATTTCTAGAAAAAGACCCAATGCTAATTATTAAAAATGGCATAGAAATGTCTTTAAAGAAAGAGTGATGAAATGAATAAAGAAAACTATAATGGATTTTTGAATTATTTTGAAATGTTTGGAGCATTATCAAACTTATATTCACTTTTTGATAAAAACCTTTTGACTAAAATAGGAAATTTGGATGAGAAAGAGATAGGAACTATTTTAGGAGTTATAAAATATATAATAAGGAAAGATATTAGTATAGAAGGTTTTGAAAGAGACGAGCAAAAAAATTCTATAAATGATATTTTAAATATCTTAGATGATGTTTTAAACAAATTCTTCGGAAATTCCGATGATAATAAACAAATATTAAAACAAATTAATGATTTAAAAGCCAAATTAGGCTATCCTAAAAAAAGTAATAATTATCTTTTGAATGATAATATAAATTTATTTAATGATCAAAAAATATTTTTTCAGAATTTAGATTATGCTATTTTAAAAAGAAAAAATATTATAATATCTGCGCCAACATCTTTTGGAAAATCGTTTATGATGAGAGAGATAATTTTAAAAAAAAATATGGGAAATTTTTTTTTCATAGTTCCGACGATATCACTTCAAAATGAATATTTTTCAGAATTTTATAAAAAGTTACTTAATAAAGATTTTGAAAAAAAAATATATATTGGAATTGAAGTGGTAAATGATCATGATTTTAATGCATTCAATAAAAATATTTTTATTTTAACTCAAGAAAAAATGTTATCTTTTATTAGAAAATATGAAAACTCTATGTTAAATATTGATTATGTGGTTTTTGATGAATTTCAGGAATTTATAATGAATCCATTTGACTCTAGAGGTTCAATAATGTACTCCGTAATTGAATTTTTTAATAATTTTAATACACCGCATGTTTTTGCTATGCCTTTAATTGCTAGTCCTTTAAGTAAAATTAAAAAAGTTTTACAAAATATTGAAGAAAGAAATTATGTTGAAATAATTTCAAAAATTGATTATTCTTTAAAGGATTTTTACTTATTAAAAAATAATAGTACTTCAGAAAAATGAAATATTAAAATAAATGATAATAATATTAAAGTTGCAGAAATTAATGAAAAATTAAAAAAAGATCATCTTATCAAAAAAATAATTGAAACGGAAAGTAATAATACAACTATTGTATTTAGTCAAAAATCAAAAATTAAAAAAAAGAATTATGATTTTTTTAATTTAAATAGTACTAATTTCAAAAATAATAATAAGATTCTGTTAGTTTTAAATTATATAAAAAATAATTTAGCGGATGAGAGATATTATATATATAAAGCCTTGGAAAATGGAGTTGCTATACATCATTCTGATATAGACTTTTACTTAAAAAAACAAATTGAATTTTTATATAAAAATAAAATTATAAAATGTATATTTACAACTGAAACATTAGCACATGGAGTAAATTTAAATGCTACAAATTTTATTTTTGATGCAAATGTGAGCGGATCAGTACATAAAAGCAATTCTAGAAAGGAACTTACTTATAAAAATTTAATTGGAAGAGTAGGAAGAATTAATAATAATAGAGGGAAAATATTTTTATTTAAAGAAGATAAATACCATAAAATGACAAAAAAAGTTGAATTTCTTGATTTACAACTTGATATTGATATTGATACTAATCTTAATATGATTAAAGAACAAATTAAAAATCATAAGTTAATTTCAGAGCAATCAATTTTAAAAATGGCTACAAATTTCTCTTGTTTTCCAATAAATGAAGATATTTTAAAAGAAAACAATTATAGTAATTCTGATATTCAAGATTGTAAAAATAACGAATTTATATATGATTCAAGTCCTGTTCCAACAAGTAGTATTAAAGATGCAAAAAAATGAATAAATGATGAACATATTTTAATAAAGAAACTTATTAATGCAAATGATATTAAAAATGATTCTTTTTTTAATAATTTTTTAAATATTTATTGTGAAAAAATTTGAAATTTTTATGGACGATGATATTTTAAAAAGGGAGAAGCTACCTATTTTATACAAACTTTAAAAAATAAATTTTATGGAAGAAAATTAATAGAAGAAGTTCAATACTATATTTCAAAAATGGATAATGGAATTTTTTGACATAGAAAAGGTAAAGACTTTGAATTTTATACAAATTCTCCACCTAATGATAATAATGAAAAATATCAAAAATATAATGTACATAGTACTTTGGGTTATTCAACTTTGGTTGATTATTTAACATATGTTAGAAAGAGATATTTGGAATATGGATATACAACATTTATCTCTGATATTTCGCATATATATGAAGTTAACTTTGAGGAAAAACTTTTTGAATATGAATTTGAGGAAATTAGAAATAAATTATCAAATATTGGTATTGATTCTGATTTAATAAACAAAATTATTATTAATGATAAAGAAATAAATAATATATCATTGCATTTATCAAAAATTAATTCTTATAAGGACTTAATAGAAATATTAACAGATAAAGAACTAAAATGAATAATTGAAACTTGTTTTGAATAAATTTTTTTTAGGCTTATTTTATATTTTATTTCTTATAAAAACAAAAAATCAATTTAAATGAATACACATAATGTTAAAAAAAATAAAAATCTATAGAAGTGAAATTTTATATGTAAATATCTTACACAATAAATTAAATATTTTTACTTTTGAATAAATATAAAAATTCAAAATAGATATTAAAATAATTATAGAATCTTTTAAGAGTTTTTATTATAATAGTATATATTTATATTATAGTAGAAATTATAATATATATTAACTTGAAAGTTTGATATTAAAAAAAGTTAATTATAGTTTCATTGCAAAAATAATAACAAGTTTTTTGGAAATAATAGAAAAGCTAATTTTAAAGGTACTAATTTATGATGCAATAATGATAAAAGTAATAAAAAAAATTAATTCTATAAAATTACATAGTTATGTTTTATATTTCTTATAATTAAGCTATTTAAATATGCCTTAAAATTTGATATAATATTAAAAATACCTTAATGGGAGAAATAGACATGAAAATAAAAAAGATTATTGCTAAGAATTTTATGCATCCAGGAAAACAAACTTTTGCATTAAGTGAAGATCATATTTTAAAACAAGGAATTTATAATGATGCAAATGACATATTAGAGTTAAACAAGATATTTAATGGAACTTGATTAGATTCAAATATGAGTTTTGAAAAGTATTATCCAAAGTTTGCAAGAAAACTAGCAAATAAAGAAATGAATCTTCAAATTGATGCTTTATTTTTTCTTGAAGAAGAGGAATTAACTCAATTAAATAAAATTCTAAAATCTTTAGGAGTTGTAAAAGAATGAAAATCAAGAAGTTTTTATTATTCAATTAAATGTGTTTATCCTTATATTTTCCCAATTGTTAGTTTAGTGCCTGCAGAGTTTAAAACTGATAAAGTAATAGGGATCGGTAGTCACTATGAAAAATTCTTTAAAGCTAATTTAAGCAAAAGAGATATTTTAACAACGATGGGAATTAATGCTGTTGGTCAGCTAAGAGAAATTTACTTCAAATACAAAGATGTTAAAGTAAAAGAAGAAGAACAAGAAGATTACAAAAGATATTTAGAAGTTTTAAAATCAACTTTTAGATATGATGAAGAGTTCATAAAAAAATTGGGTCAGGCAATTTATAGTATTGATGATGGTGACATTATCAATTATGCTGATGAACTAGAATTTTTTATAAGAAATAATCACTTTGATAACTTTTTAAACACAATTCCCTTATTAAGAGAAAATAAGAAGTATCGTGAAGATTTTGCAACTTTATTATTTAATGTTTATTTAGTTGATCTAAAATGAATTTATTCTGTCAAAACAGCAAATGATATTGTTGAAATTAGAAAAATTGCTTATGAAAATCATTGTGAAAAAGCAGTTTACTCAAGAGAGTTAATTGAATTTTTTAAAACAAAGTTAGTTTTAAATAAAAAGAACTTTAACTATTATTCAGGAGTGAGCAAATTTAATGCAAAAGCTGATCCAACTTTAGTTTTTACAAATGAACTTAAATATGACAAAATCTTTGAAAAGGATGCAGTTGAACCTAAGCATGTCGAACCAAAGTTTAAATGAAATAAAAAAAGAAGATAAAACTTATAATAGTAATGATATGTATAATATAAATGTAGAAGAACTATTTTTTACCGGAGGTTTGCTATGGGTGAAAAAATAATAAAAAATGAATTATTAAAGAATCTTGTTAATAAACAAGATTTATATAAAGCTGCCAAAAACATAAAATTATCGAATGAAGATACTCAAAGATTTATTGAATCTATTTTTAGCAATTATTTCTTAGATAATGACAATATTAATTTTTTAGTCAAAAATGGCTATAATTTTTTTGCTTTTGAAGACCAAGAACTGTGTTTTTGCCTTAGTGGAGAAGAATTTTTAGCTTGTTGCAAAAAACACTTAGCAAAGACAAAAAATCCAAGTTATACGCCCTTTATTAAGGCTATAATTGCAACAGAAAAGTATGAAGATTACTTAAAATTCTCTTCTCAGTTATTTGAAAGCAATTATTCAAAATTGGCTAAAACTGAAAAGTGTAATTTTGTTAATTGTGAACAAAAAGCAGTTGAAAATAGCTTATATGATTTTGAATTAGATAATGAAAAATATTTAACTTCAAATAAGAGAAATATCTTTGATAATAATTACAAAATGGGTGAGTCTTTTTTTAATGAAGTTCAATCTAATCAATTTAAGTATTTTGGCTTTTGTCAAAATCATATGAATCAAATTTCAGAGATTAAAATGAATAAGAATAGCAATGATGCTGAAATTCTTTTATTTAATTTTCCAACAATAGTCAATAAATTATTTATCTCTAGAGTTCAACTTGAAGCTTTAAAAGAGGAATTTAGAAATTACTTTAATTCCATTGAAGAAGAAGCTGTTAAGCCAATGTTTATTTATAACTTAAAAAAGGTTTCCAATCATGTTAGTTCTTTACTAGAAACTTATACTTTCTTTGTTGAATCATTAAGTGGGAAAACCAATAATTTTGCAATTGCAAAATTTAGTTTACCTAAAACCAATAATTTTAGAATTAAAGATGTCTTTCAACCTCAAATAACACCTGATGATTTTAAAGTTGTTAATTCAATTAATAACTTTTTTATCTCTGAAAATTTTGCAAGTTTGGTTATGTTTTCAGATAAAACAAATTCTTTTATTACAATGGTTTATGACAAAAGTAAAGAAAATTTAAATGCCTTTTTTGATCAGTACTTAAAAATTATTCATTTGAAATCAAAAAGCGAAGCTGCTTTTATTTCAAATTGTTCATTGATATTGGCAGACAATATTTTATTTAGAAAGCAATGATTTGATAAATTAGATGAGCAAGAGAAATTATTATATTCAGCTCTAAATAAATTTAGATTTCAGCACCCAAATATGGGCCAAGAATATTTGAAAATGAAATTCTTTGCAGGGTTTAATAAAGGCAATAATTTCTTTTAATATTTGAAAATTAATGATAAAAAAAATGCTAATTTAATTAGCATTTTTTTTATGACGAATGTTCTCAGTCAATATTATTTTCTTCATCTTTACTTTTTTTGTAACATTCATCACAGACGTAAATTGCAATTTCATCTTCTAGATTTTCATCATATTGATAAATTCTTTTCTTATCCATAAAATTCAAATCGTTATTGCAAGTAGGGGTTTGACATTTTTCTTTCATCTTTATCACTCCTTAAATTAATTTTACTAGATATTTATAAAATAGAAAGTTAATTCAAATAAATTTTTAATTAAAGCTTATAAAAGCTAGAAAATAGTGAGTAGGGGAGTTGAATTGGTTACGATAGGGTAGTTTAAAAGTCAATAAAATGCACTATTTTGTGCATTTTTATAAAAACTTATTCATTAGAAATTACTTGTTTTTAAAATGACATAATCTACTTTTTTAATATCATTTAGTTTAGTTCCACCAGAATATGATATTGATGATTGTAAATCTTCGTGCATTTCTTTGTAAGTTTCCATTAATTTTCCTCTTACTTTAATTAATTCCTTTTTACCTTCAACATATCTTTTTTCACCCTTATTATATTCACTAGCACTTCCATAATATTCTTTAAACATTTCACCTTCAACAGTAACATTGGCTCCAGGTGACTCTTCATGGGCTGCAAATAAACTTCCAATCATACACATTGTTGCTCCAAATCTAATTGATTTGGCAATATCACCATTGACACGTAAACCTCCATCAGCAATGATTGGTTTGTGAGCAGCTTTACTACATCATTTGATAGCACCCAATTGTCATCCACCAGTTCCAAAACCAGTTTTTAATTTTGTAATACAAACTTTTCCAGGACCAACACCAACTTTAGTTGCATCAGCTCCTCAAAATTCTAAGTCTCTTACAGCATAAGGTGTACCAACATTTCCTGCAATAATAAAAGTTTTATTTTTCATATATTTTCTAATATGTTCAATCATATTTTTAACACTAACTGAATGACCGTGAGCAATATCAATTGTAATATAGTCAGGGATAATATTATCTTTGGCCATTTTTTCAATTAAAGCGTAATCTTCTTGTTTTACTCCAACACTAATTGAAGCTACTAAATTAGCTTTAAGCATTTTTTTAACAAAAGCATATGAATCAACATTGAAACGATGCATAACATAAAAATAACCATTTTTAGCTAGCATCTCACACAATTTTTCATTAATAACTGATGCCATATTGGCAGGCATCACAGGCATTTTAAAAGTATGTTTTCCAAGTTTAACTTCAGTGTTACATTCACTGCGTGACTTAACAACACACATACTTGGTATTAGTTGAATATCTTCATAATCAAAAGCGTACATCTACATTTCTCCTTATTCTTTTGAAATTATAGCAATAAAAAAATAAAAATAGAAATGAGTTGTAATAAAAAAAATTAACCAAGAAGGTTAATTTTTTTTAGAACTTTTTAGCTGCTTCAATAATTTTATCAGCAATAGAGTTCATAGCTTCATCTGGATTTGTTGTTGAAACTGGAGCTATTTTAGTTCCTGCAAAAAGAATCGGGGTATTTACTTTTGCACCAACAAATTCTCAAGTTCCTTTTAAAAACTCTGTGTGGTTTCCTCATGGGTATCATCCAAAAGGCGCACCTTGAGTTGTTAAGATTTGTACTGTTAAATGTTCTAATAGACCTTTAGCATCGCCTTGTTTAACATACTTATATGAAAAAGTTTGATCTGCTAATAAAACGTGATCTAAGTAATTTTTAATTAATCCAGAAACATTAAAGTTATTCATTGGACTTGAAATAATTACTTTATCAACTTCTTTTAATTGATTAATATATTTTAATGCATCTTGTTCATTAAAATAAGTTCCAAAGTTTTCTCTTGAAAGAGTTTTATGAGCCATTTGCTCATTGTTTAAATCTAAATGAATAATTTCATCGTTGGGGTTTAATGATTGATATTCTTTAACAAAACGATTTGTTAAAGCTAATGAAAATGATTTTTCAGCAGGACTTACTGTACCTGTGATTACTAAAATTTTTTTTGCCATAATTTTCTCCTTTATCAACTTAATTTTATAGTTAAATTGTAAAATTACTTCATTTTTTTAATAATTAAATATAAAATATTAATTGATTATATAGAGGTACACATGAAAAAAGTCACAATCATTATTGTTGCGGGAGGAAGTGCTAGTGGTAAAACTACAGTGGCACAAACTATTGCCAATGAAATCTTTATGAACAAACCAGTAACTCATTTATCAATGGATAGTTACTATAAAGATTTTAGTGACTTAACTTTTGAAGAAAAACAATTAGTGAATTTTGATCATCCAAGTTCATTAGATATTGAATTACTTTGTCAACATTTAGATGATTTAAAAGAGTTTAAAGCAATTGAAACACCAGTTTATGATTTTAAAACTCATTCACAAAGTGGTGAGACGATTAAAGTCGAACCTTCAAATGTTGTTATTTTAGATGGTATTTTAGCATTACATATTGAAGAAATTCGCAAAAGAGGAGATATCAAAATTTTTATTAGAACAGATGATGATATTCGTTTCATTCGAAGACTTATGCGCGATGTCAATGAGCGTGGCAGAAAGTTAGAAGATATTACAAATCAGTATTTAAATACAGTAAGACCAATGTATAAATTTTTTGTTGAACCTTCAATTGATCATGCTGATTTAATAATTCCTTACTATGAGGGTAATAATATTGCAATTGATTTGGTGGCTGCAAAAATTAGTAGTTTATTAAAAAAATAAAACCATTAATATCTTAAAAAAATGAGTTTAAAAACTCATTTTTTTGTTGAAACTTTTCTCACATTAAATGTTTTTTTTACTAAAAATGAACTATTTTTTAGAGAAGTGCCTATTTTAAAGGGTTTTTGATAAGATTGACATTTTTAAAGTAAATGTGATATATTAATTCTATTATGAAATAATGAGGTAAAATATGGCTGAAAATAATAAGAATTTATCGTATACAGAAGATAGTATTCAAATCCTTGAAGGTCTAGAAGCAGTTAGAAAAAGACCTGGTATGTATATTGGTTCAACTGATTCAAGAGGTTTACATCATTTAGTTTGAGAAATTGTTGATAACTCAATTGATGAGGCCTTAGCTGGAGTATGTAGTGAAATTAATGTTTCAATTGAAAAAGATGGTTCAGTAACAGTAAAAGATAATGGTAGAGGAGTTCCAATTGGAAGTTATAAAGGAACTAATCAATCAACACCAGAAATAATTTTTTCAGTATTACATGCTGGAGGTAAATTTGGTGGTGATGGTTATAAAACTTCTGGGGGATTACACGGAGTTGGTTCATCAGTTGTTAATGCGCTTTCATCTAAATTTAAAGTAATTATTCACAGAGATGGAGTTATTTCTCAAATTAAATTTGCCCATGGTGGGAAATTAGTAGACCAATTAAAACAAACAGGTACTTCTAAACAAACAGGAACAACTGTTAACTTTTTACCAGATGAAACAATGTTCTCAACAACAAAGTTTTCATTTTCAACAATTAGTGAAAGATTAAAAGAATCAGCACTTTTAAATTCAGGACTTAAATTAACTTTAAAAGATAATAGAAGTGATAAGTACGTTGAATATCTTTACGAAAATGGATTAACAGAATTTGTTAATGAACTTAGAGGTGATCAAAAAGCTTTATGTTCACCAATAATGTTAAAAGGTAGTGAACAAAATATTGATGTTGAAATTGCTTTAACTTATACAAGTGATTTTTCAGAAACAGTTTTAGGATTTGCCAATAATGTTAAAACAAGTGATGGGGGAACTCATGTAACTGGTTTTAGATCAGGGTTAGTTAAAGCTTTAAATGAATATGGAAAAAATCAAAGTATTTTAAAAGAAAAAGATAAAAAATTAGATTCATCTGATATTAAAGAAGGTTTAATAGCAATTGTTACTGTAAAAATTCCTGAAAGTTTAATTCAATATGAAGGTCAAACAAAGGGAAAATTGGGAACAAGTGAAGCTCGTTATGCTTGTGAAAAAGTAACTGAAGAACACTTTAGTTTTTGATTACAAGAAAATAAAACAATTGCAATTTCAATTATTGAAAAAGCTCTACTTGCTCGAAGAGCAAAAGAAGAAGCTAGAAAAGCACGTCAAGCAGTTAGAGATCAAAAATCAAAATCAAAATCACGAACAATGCTTGGGAAACTAACTCCAGCGCAAGGTAAAAATAAACAAGAAAATGAATTATATTTAGTCGAAGGGGATTCAGCTGGTGGAAGTGCTAAATCTGGAAGAGATAGAAAATTTCAAGCAATCTTGCCTTTAAGAGGTAAGGTAATAAATGCTGAAAAAACAAAATTAATTGATTTACTTAAAAATGAAGAGATTACAACAATTATCAATGCCATTGGTGCTGGAATTGGAAGTGATTTTGATATTAGCGATATAAACTATGGAAAAATAATATTAATGACAGACGCCGACACTGATGGTGCTCATATTCAAACTTTATTATTAACTTTCTTTTATCGTTATATGAAAGAATTGATTGTCAATAAAAACATTTATATAGCAATGCCACCATTGTTTAAAATAACAACAGGGTCAAACAAAAAGGACTTTATGTATCTATGAACTGAAGAAGAATTAGCAAGTCATATGAAAAAAACTAAAGCTAAAATTGAAATTCAAAGATATAAAGGTTTGGGAGAAATGAATGCTGATCAACTTTGAGAAACAACAATGGATCCAGAACATAGAAAATTAATACAAGTAACAATTAACGATGCACTAGCTGCTGAAAATTCATTTAGAACTTTAATGGGAGATAATTCTGAAAAAAGAAAAGAATGAATTGAAGAAAATGTTAAATTTACACTTGAAGAAAATACAGAATTTATTTAGTTAAACAGTTGCTAGGATGGATGTGGTAAATGTGGAAAATAAACTTTCTTTTACACAAAAGGCAAAAATTATTGTTCAAAAAATTGAAGAATACAATAAGATAAATAAGGAAATTAAAAGATATGGTGATATCTTTAATACTTTTTCTTTTTATTATGAACTCAAAGAACCTGAACTTTTTTTTGAATTAAAAAGCACAGATTATGATGAAAATGATTTTTCTGTCACATCCTTAGCAACTGAACAATGAATTGAAATAAATGTTGAAAATGATAAAGAAGTAAACTGGTTAATTAAAACAATCAATAAATTTATTGAAAAATCTAAAAGTGATATGCAAAAGGCTAGAGAAATATCTAAACCACATGTAGGTATTTTAGTCTATGACGAATTTACTGATTCATATTACTTAAACCCAACAACAGGTCCAATTCTTTTAAAATCAAAAGAAATTTTAAAAGAGATAAGTTCAACAAGAATAGATATTTTCAATATCTTTATTAACTTGCGCTCGGTTGCTGTTGAAGAAGATCGAGCAGTTGAAATATTTGGACTTAATCTTGAAGAAGTTATTGAAAAAATTCAACAAGCATTAGAGTCCATTAATGGTCTTGCAAAAAAAATTATGAAAATAGAAGGTATTCCAAGATATATTTCTTCAATTGAAATAGTTGATAAAGTAATGTATTATAATGGTTATGCTACAATAGATTTTGGGTTAGCAGCTGAAGATAAAAATAAAGTTAATGAAGTTAGTTTAGAAGCTAATATTAATGAAATTGAGCAATTAGAAAAAATTTATGTTCAAATTAGAAAAGACGAAGAAGTAAGTAAAATAATGGCAAGTCTTGGTCGAAGTTTAGTTTCAAAAAATAACCCAAAATTGTATATTCAAAATTCAATTACTGGACTTTGAGAATTATCATATGAGGGTAGAAAAACAATCAAAAATTTAAATATTATCGACTTCATTAATACTGATATTAGTGAAATGGAATTTGATATAAACTAGGAGGAAGCACAATGTCAAATAATAAAGAAGAAAAGGGAATTATTAATTTCGCACTTGAAGATTTAATGGGTGACCGATTTGGGAGATATGCTAAATATATTATCCAAGAGAGAGCTTTGCCAGACGTAAGAGATGGTTTAAAACCAGTTCAAAGACGTATTTTATTTACAATGAATGAAATTAATTTAACACATGATCGAGCTTATAAGAAATCAGCTCGTGTTGTTGGTGATGTTATTGGTAAATATCACCCTCATGGTGATACTTCTGTTTATGATGCTTTAGTGCGTATGAGTCAACCATGAAAATTAAATATTCCTTTAGTTGATATGCATGGTAATAACGGTTCTATTGATGGTGATAGTGCTGCTGCGATGCGTTATACTGAAACTCGACTTGCTAAAATATCAAGTATTATCTTAGCTGACTTGCAAAAAAACACAGTTCTTTTTGCACCAAACTATGATGATTCTGAAAAAGAACCGACAGTTTTACCAGGATACTTTCCAAATATTTTAGTAAATGGTGCAACAGGAATTGCTGCAGGTTATGCTACAAATATGCCTCCTCATAATAGTATTGAAATTATTGATGCAGTTATTGCTACAATTAAAAATCCCAAAATAAAATTAAGTGATATTTCAAAAATAGTTAAAGGTCCAGATTTCCCAACTGGGGGAATTGTTATGGGTCAAGAAGGAATTGACTCAGCATTTGAAACTGGTAAGGGAAGAGTAATTGTTCAATCTAAAATTCACAGAGAAGGCGATACACTTGTTATTGATGAAATTCCTTATGAAATAATTAAACAAGATCTTGTTAAAAAAATTGGAGATGTTGTTGATGCAAATCCACATTTAGAAGTAAAAGAAGTTCGTGATGAAACAGATAGAACTGGTTTAAGAATTGTTATTGAACTTTCTCCTAAAGCAGATTATGAAATTACAAGAAAATTTTTATTAAAAAATACACCTTTACAAATTTCATATAACTATAACAATGTTGTTATAGTTGAAAAGCAACCAAAACAATTAGGAATTATTCCAATAATTACTGCTTATATAAAACACTACAAAGAAATTTTTTCAAGAAAAACTAAATTTGACTTAGAAAAAGCAGAAAAAAGATTAGAAATTATCCAAGGTTTAATTAAAGCTATTTCGATTCTTGATGAAGTTATTAAAATAATTAGAGATTCTTCAAATAGAAGTGATGCGATTGCAAATTTAATTGCAAGATATGAATTTAGCGAAACACAAGCGATTGCAATTGTTGATTTAAGACTTTACAGATTAACTTCAACAGATATTGTTAAATTAGAAGAAGAGAAAAAAGAATTATCATCTTTAATTGAAGGTTATAAAGCAATTTTAGGTGATGTAAAAGTTCTTGAAGAAAAAATAATTGAGCAATTAACTACAACTAAAAAAGAATTTGGGGTTCCAAGAAGAAGTGAAGTTGTAAGCGAAATTGAAAATATTGAAGTTGAAATTAAAAAAACAATTGTACAAAAGGATTACACAATTTGAATTTCACAAGATGGTTATTTAAAAGCAATTGAAGATTCACAACTTGGTAAAAATTCAATGGATGACTTTAAACGTAAACCAAATGATATTTGAATTTCACAAGTTCCAGCTTCAAGTTTAGATTTTATTTTACTTGTATCAAGTGCAGGAACTTACTACTCAATTCCTGTTTATAAAATTATTCCAAGTAAATGAAAAGAAATCGGAATGCATATAAATAAAGTTGCAACAATTTCTGGAAATGAAAGAATTTTAGCAGCATTTGTAGTTAAACAATTTCAAAATGCAAAACAAGAAATACTTTTAGCAACTAAAAAGGGAATGATTAAACGTACTCCAGTTGAAGATTTAGAAACTAAAATGTTTTCAAAACCATTTAGAATTATTAAATTACAAAATGAAGATGAACTTGTATCAGCTTCACTTGTAACTTCAAAAACAAAAACAGTAACAATGTTAACAAGAACTGGTTTTGCTGTTAGATATGATATTGCTGAAATTCCCTCAGCAGGTCCTAATGCAAAAGGAGTTAAATCAACTGTAGTTAAAGAAGAAGATATTGTTGCTGGAAAAGCATTTTCAAATGGAGATGTTTTAATAATTACTAACAAAGGTAATGTTAAAAAAATTAAACAAGATCATGTACCAATTATGGCAAGACCAAAACGAGGAGTTAGATTATATCCTTGAAATAAAAAACGTGATGAGTTTGCAACATTCTTATATAATATTCAAACAAATGATATTTTAAATATTTTGGATGAAGAAGATAATTTAATACAATTAAATGTTAAAAACTTCAAATTTGCAGATTTAGAAGACGTGCCTGAAGATTTAGACATGGCTGAAATAATTACAACTACTTTGGAAAAATCATTTATTATTAAAAATAATGACATTCCACCAACTCCAAAAGGTGGAGAAGATGAAGAACCAAAGAAAGTTGTTGGCTTAAAAAAGTCACCACCCGTTAAAAAAATAGCGGCAGCCAAAGTTGAAAAACCTAATGATATTAAAGTAGAAATACAAGAAGAAATTGCTCCTCACGAAGTTGAAGAAGAAGTAATCTTTGATGATGTTGAACAAGAAATTATTCTTGATGATGTTGAAGATGAGATCATTTCTGATGATGTTGAAGAAGAAGTAATCTTTGATGAAGTTGAACAAGAAATTATTCCTGAAGAAATTGAAGAGGAAGTAATTGTTGATGATGTTGAAGATGTTGAAGATGAGGTCATTTCTGAGGAAGTTCAAGAAGAAGTAATCTTTGATGAAGTTGAACAAGAAATTATTCCTGAAGAAATTGAAGAGGAAGTAATTCTTGGGGATGTTGAAGATGAGGTCATTTCTGAGGAAGTTCAAGAAGAAATGATTAAGGAATCAATGGAATCTAATGAAAATAAAAAAGGGAGCATTAGTGATGAAGAAACTAGTGACCTTAAAATAGATCTAGATGACTTAATTTAAAAGCACTTTATGTGTTTTTTTTATTTTAATTGTGATTTAATTAAAATAATGAATTTTAATTATTAGAAAGAAAAAAAATGAAGCAATACAAAGGTAAAGTATCAAAATTTATTTTTAAATCAGATAATGGCTATGCAATAGCAGTTTTTGTTTTGTTTACTGATGAGAAAAAATCTATTGTAATTACAGGGCCGATTGGTATGATGAAAATTGGTATTATTTATGAAGTTAGTGGTGAAGAAATCGATGACCCAAAAAGAAATCAAAAAAGTTTAGCTATAAAAAGTTTTAGTCAGGTAAAAAATTTTGATAATGATGGTTTAATAAAATATTTAAGCTCGTCAGTTTTTCCAACAATAGGAAAAAATTTAGCAAAAAATATTGTTGAATATTTTAAAGAAGATGTTTTTAGCAAAATAATGAATAATAAAAATGAATTATTTAATATAAAAGATATGACACAAGCAAAAGCAGAAATTATTTATGATGTAGTTATTTCAAAGTTTGGAGATACAAAAATTTTAGATATATTTGTAGAAAATAATTTAAAAATTGAATTTTTAAATTTATTACAAAAGGAAGAGGAAGATATTAATTTTATTGAACAAATTTTAAGAGAAGATTTTTATAGTTATGCTAATGAAAAGAAAATGCAACCATTTTATGAAGTTGATAGAGTATGTATAACTTTTGGAATGGAAGAAAATGATGAAAGAAGAGTTTCTTGATTTGCAAATGAATTTGTAAAAGAAATTCTTTTTCAAGAAGGTAATACGTTTACTGATATGGACCAACTACTTAAAAAAATGAAAGCCCATTTTAATTTAAGTGAAAATGAAATAATAAATAAATTAGTTTATGCAAAAAATCAGAAAATCATTTATTTTAAAAATCAAAAAATATATACAAAAGAAAGTTATGAAGATGAACAATTCATAGCAAAAGAATTATTTGATTTATTAAATAGATCAAATTATTTAAAAAGAGAATTTAATTTTGAAGAGAAACTTAAAGAAGTTGAACAGTTTATTTCTTTGAGAAGTGGAATTAAAAATTTTAAATATAATAATGAACAAGTAGAAGCAATTAAAAATTTTATTGAAAATGATGTTTCAATAATAACAGGTGGACCTGGTACTGGTAAAACAACAGTTATTACAGGAATAGTAAAAATGTATGAGCTGATATATAACGATAGTAATTTTGCATTAACAGCTCCAACAGGTAGAGCAGCTGGTAAAATAAAAGATGATTCAGGCTATAAAACATCAACTATTCATCGATTGTTACAATATTCAGGCAATGATATTTTTGAAGCAAATGAAAATAAACCAATATTCAAAAATTTAGTTGTAATTGATGAATGTTCAATGATAGATAATCATTTATTTGCTTCTCTTTTAAGGGGAGTTAAGGGAATTAAAAAGTTGTTATTAGTTGGAGATGTTGAACAACTTCCAAGCGTTAGTTATGGTAATCTTTACGAAGATTTAATTGTAAGCAATTATTTTAAAACAACAAGACTTGTAAAAAATAATCGTCAATTAAATAGTGAAGGTGAAATTAATTCTATTATTGCACTTTCAGATGCTATTAAAAATGAAAGCATTAATAATTTTAATTTTGAAAATTCTACCAATGTTAATTTTAATTTTTCTAAAGATTATGATAATGTTATTAACTTTTTAAAAGAAACTTATAGTAATTTAAATCCATCAAATATTGATGAACAGTTAAATGATCTACAAATAATTGCTCCGATGTATAAAGAAAAGTTGGGAATTGATAATTTAAACAGTATTATTCAAAATTTAGTTAATCCAACAAAGTCTAAAGTTTATAAAAGATATGATTTAGAATTTAGAGTAAATGATAAAGTTATGTACATTGAAAATGACCCTATTTATGAACTTTCAAATGGAGATGTTGGATATATTAAAGAGTTAAATTTTATTGGTGATAAATTAAAAACAGCTAAAATTATTTTTAATGAAAGAGAAATTGAAATGGGTTCAAGTTCATTTCAAAAAATAAAATTAAGTTATGCTTGCTCAATTCACAAAACTCAAGGAAGTGAGTATAAAAATACAATTATTGTTTTAGATGGTAATAATAGAAACTCTAATTTTATACTTAATAAAAAAATGTTATATACTGCAATTACTAGAGCTAAACAAAATTTATTTATAATCTCAGATCAAATATTGTTTTTAAAATCATGTAATAGAAATCCTAAGCCAAGATTAACTACTTTAAAAGAAGCTATATTAACCTTAAAAGAGCAATAGAATTTTGAATTGTTTAATTTCTTTAATAAACTTGTCAATTTTTGACTTAAAATATAATTGTTAGGAGCTAAAATATGATTATAAAGAATGCAAAAATAGTAGTTGAAAATAAAATTATTGAAAATGGTTGATTAGAAATAGAAAATAAATTTATTAAATCAATTAATGAGGGTAAAACTAATCTTGAAGGAATCGATTTAGAGGGAAATTGATTATTACCGGGTTTTATTGATTGTCACGTTCATGGTGGTTATGGTTATGATTTTGAAAATGGAACTATTAGTGCTTTTGAAAACTTTTCAAAAAATGTTTCAAAAGAGGGTATAACAAGTTATGTTCAAGCAAGTGTTACTAATTCAAAAGAAAATAACATTAAATATTTAAAAGAATTTAGTACATTTATTGAAAATCAAAATTCAGGTTCAAAATGTTTAGGAATACATATGGAAGGACCGTTTATTTCAAAAGAAAAAAAAGGTGCACATGAAGTTTCTTTATTAACAAATCCAGACATTGCTTATTTAAAAGAATTGGTTAAAGCATCAAAAGATAATGTTAGAATTGTGACCTATGCAGCAGATTTACAAGATGGTAGTTTTACAAAGTATTTATTAGAAAATAATATTTTACCAAGTGTTGGTCATACAAATATGAGCTTTGCACAGTGTGAAAGAGATTATCAGATTGGTTTTAGACATGTCACACATTTATTTAATGGAATGAGTGGCGTTAGTCAATATGAACCAGGATTAGCAACTTTCAGTTTATATAAAGATGATATTTTATGTGAAGTAATTACTGATGGAATTCATATTGAAAAAGATACTTTAAAGTTAATTTATAAAATTAAAGGAGCAGACAATATTTGTATTATAACTGATGCTATGAATGCCAAAGGATTAGATGATGGTGAATATAAATTAGGAAATTTGGAAGTTATTAAAAAGGGAATGAAAGTCTTTTTAAAAGAGAGTGGTGTTTTAGCAGGAGCTGGAGCAACGTATGATTTTAATGTTAGAGTTATGTTAGAAGCAAATCCCGAAATTAAAATGACAGATTTAATTAAAATGACATCAATAAATATTGCAAAGCAATTAAAAATATTTGATAAACGTGGAAGTATAGAAAAAAATAAATTTGCAGATTTAGTTGTTCTAAATAAAAATTTAGAAGTTTTAAAAACATTTGTAGAAGGTGAAAGGGTTTATGAAAAATAAAGTTAATCCAAGAAGTTTTACATTGATAAAATTCTTATTAACTTTAGGATTAATTTTTAATTATTCAATTTCACTGATATCATTTATTAATGTTTTTAAAGGTAATGGACAAAGTTTAATAATAGAGTCAAAAACATATATTGCAGTTCAAATTTTATTATTGATATCATCAATTTCAAGTTTATTAATTTTCTTTTTTGTTAGAAAAAATGTTCATAAAAAATTAAATTATAAATATATTAAAAGAGAAAAAATTCAAATACTATTATGTTTAATTTTTATTTCAATTATTTTTGTCTTATCAATTATTGATATTCTAACTTTTCTTTTTATTTTTAAAAATATTTATGTAATGGTTATAATATTTTTAATTATTCAATTAATTTTAGGAGTTATTATTTCAATCTTAGAAAGTTTTTCAAGATTATCAGAACAAGTAATTGCCAATAAATTATGATTTGAAGAAGAGGAAGAAGAAATAAAACTTAAAGAAAATAATAAAAAAGTAAAAGTAATAGAAAAAAAAGATGGAGATTTTAATCCATTTATGCAGGAGGAAGAGCATGATTAAATTTGGAACGATAGGGACTTCAAAAATTACACAGCAATTTATAACAGCTGCTGTAAAAAATCCAAATTGTAAAGTTGTATGTTGTTATTCTAGAGATAAAACTAAGGCAAAAGATTTTATTCGTGATCACAAATTATATGCAAAAGCAGTTGATAATTTTGATCAAATGTTAGATGAAGTTGATGCAGTTTATATTGCTTCACCAAATGGTTTGCACTATGAACAAGCCAAGTATTTTTTAACACAACAAAAACATGTTTTACTTGAAAAACCATTAACTTTATCATTTCAACAAGCTCTTGAAATATCACAAATTGCAAAGAGAAATAATGTTTTTTTAATGGAAGCTTACAAAACATTTCACTGCCCACAAATTTCTCATCTATTTAAATTTGTTAAAAGCTATCAACCATTTATTGCTAATTTAAATTTGAATCGCTATTCTTCAAGAATGGCTCAAGTAAAAATGGGGCAATATGATTCAGTTTTTGATGCAAAACTTGGTAAGGGTTCTACATATGATATGTTGATTTATCCAGTTGAATTAAGTATTGCCTTATTTGGACCTGTAACTGAAGTTAAATCAATGGGTCAAAGGCTTGCAAATGGAAGTGGAATGAATGATTGTGTTATTTTAAAACACGACAGTGATGTATTAACAAATATTGTTTGTAGTAAAGCCAGTAGGGGAGTTATTGAAAATGAATTGCTTTCAGATATTGCAACTTTAACTTTCAAAAATGTTATACAATTAGAAGAAATTAATTTATATAAAACAAATTCTAATGATGTTGAAGTAATTCATAAAACTGAAAATGATAAAGATTTATTTGAATATGAAATTGCAGTTTTTTTGAAAATGATAGCTGAAAATGATTTTAGTTTAAGAGATTATCTATTAGATATTAGTTGTGAAACAGTTAGAGTACTAAATCTTGTAGAGAGTAATCAAGAAAAACCAGGAGAAATTTAAAATGAAATTAAATAAATATATTGATCATACTTTATTAAAAGCTGATGCTAAAAAAGTTGAAATAGAAAAATTATGTCTAGAAGCTAAGGATTATGATTTTGCAACAGTTTGTATTAATCCAACTCATATAATTTATGCAAAAGAATTGTTAAAAGGAACAAATGTAGGAATAACTACAGTTATAGGATTTCCACTTGGAGCAACAACAAGTGAAGTAAAAGCGTTCGAAACAAAACAAGCAATTGAAAATGGAGCAACTGAAATTGATATGGTAATAAATGTTGGAGCAGTTAAAGATGCTAATTGAGATCTTGTTTTAAATGATATGATTGCTGTAAAAAAAGCAGCTTTAAATAATTGTGTTAAAGTAATTTTAGAGAATTGTTTATTAACAAAAGAAGAAATTACTAAATGTTGTCAATTAGCTTTAAAAGCTAATTTAGAGTTTGTTAAAACTTCAACTGGTTTTTCAACTGGGGGAGCAACTTTTGAAGATGTAGCATTAATGAAATCAATTGTCAAAGATCAAGCAAAAGTTAAAGCAGCTGGAGGAGTTAGAACTTATCAAGATGCTATAAAAATGATTGAAAATGGTGCTGATCGCTTAGGAACAAGCGGTGGAGTTGCTATTGTTAAAGGTGAAGAACATAAAAATGGTTATTAGATTTGAATTTTAAAGAAATTTGAAATATATATTAAAAACATGTATTTTTAATAGATTGATTAAAGTAGAAGATTAATTATTTAAAATATAGTATTTTTTGATATTCTAATATAGTATGTTAATGTTAATAATTTTGAATATTCAAAATTATCATTATAGAATAAACTAGATATATTTATAAATTTAAAAAAGGGGAAAAAATGTGAGTATCACTAAATTTTATATCAGATATTATTTTAAATATTTATGGAAAGCGCAATGCGGAATACTTTCTTAATAAAAGAAGAAAAAAAAGAAAAAATAAAATAAATCTTGAAAAACATTTATGAAATTCAAATATTAGAATAACTTATTTAAAAACAACTGCAGATCAATATTTATTTAATCTAAAAATGAGTAAATATAATAGGAAATTGCAAATTCAAGAATTGAATGCTGAAATAATAAAATTGCCAGAAAAAATTATAGCGAGAAATAATTTAGAGAAAGATGTAATAACTAAGGGTAAATTATTAATAAATGTTAAAGAAGATTCTAAATATTATAATCAAGCTAAATTAGAAATAACAATTACTCCTAATTAAATTAATAAATAATTATATTGAAAGGTTAAAACAATGAATATTATATGAATAATATCGGACTTAATACTAATAATTCTTTTAACTGTTTATTATGTATTTTTTTGACCAAATAGATGAAGATGAAATAGAGATGTAAGCAGGATAATTAATAAAAAAAGAAAAGTAAGTAAAATCAAGTTTGATTTAAATGAACATTTAACAAATAAAACAGTTAGAACAAATATTTTTAAAACTTTTGATGATCAAAATTATTTTTGTGATATTAAATATCAAAAGGGAAATAGTAGAGTTAAAGTTCAAGAACTTGAAATCACAGTACTAAAGTATCCTGAGGAATTATTTGAACAAGATAAAGAAGATTTTATTACAAAATGCAGCGGTAAAGCAATAATCAAAGTAAAAAATGATTCGCAATACTATAATAATTGTGAAATAGAATTAAAATTAATTGATAAAAAGTATAAATTAAAAAATAAGCTTTAGACTAATCAGCAGTATTAATTTAACAAGCAAAAGGTTGCTATAAAAAAGCAATTTTTTTTGATATAATATTAATAATATTTGTATTTTTAGGAGGATTTATCAATGAAAAAGTATGGATTTGAAATGGATGATTATAATTTACCAAGTTCAATCAGAAAGAGAATTGATGATTTAGTGGAATTAAATATAAATCCCTCAACTATAAATCTTATTACAACTGAATTTTCTTCTTCAAGTGAAGAAACTAAGGAAAATATAGGAAATTATATACAAAAACTTTTAGAAATAGAAGAATTTATCATTTATCAAAATAGTAAAAAAGGTAATAATGCAAACATAAAACAAGAATTAAATTCAAAAAAAAGATTGGCAAATCTTAAAAAAATTCAACAAATTTTTATTAGAAAAAATGCTTTAAATGTACAACAACAGTTAAATAAAAGATATCAACCAATAAATAACGTTTCTAGAAAGTTACATTCTTTAAGAGAAATTAAAGCAGACAATAATAGTGATTTTAGCGACCAAAATAAAATGCAAGAAATTGCAAATAAAAAAGCAAAAATTGAAATGGCTATTAAAGGTGAGCAACAAAAAATTAAATTAGCTCAAATTGAATATGAAAAAGCTAAACTTGAAGAAGATCAAATTACGCAAGAATTAAAGTTAAATATTGCAAAATTTGCAAATAATAGATTAAAAAAAATATCAGATGCTATGACTACTTATAAAACTATTGATCAAATTCCTGATAAAATTATTGATGAAAGTTTTTCTAATGATGAAAATGAATTTGATTACAAAGAAGTTATTCATGAGCTTTGCAATTTAGATGAAACAGAATTTAACTCAGATATTTTAAAAACAATTGAAATTAATCTTGAAACATTTTTTGATGTTCCTGGATTTGATAATTATGAAGAGGAAATGATTAATATGAGTAGATCTAGATATACTCAAGCTTTAAGAAATAAATCAGAAAAAAGAGAACTTAAAAACTTACAAAATGAAGAAATTAATTTTGAAAAAACTAAAATAGAGAAGGAGTTACAAGAAGAAATCAAAAATAATAATAGTAAAATAATTAATAATGCTATTTATGAACAAAATAGCTCTTTAAACAATGAAATTCAAAATAAACAAAATTTAAAAACTATTTTACAAGAAACTAAAATTATTGAAAAAGAAGAAAAAGAAAGTAAACAAGATATTGACAATGAGATAATTAATAAATCTACTTATCAACAAGATCCTTTATTTGACAATAAAATTGCAATTGAACAAACTTTACAAGAAATTGAAATAAATAAATCAGAAACAGAGAAATCTAAAATTGATTCAAATGAAAGAACTAAAGATATTTCTAAAGTTGTTGAACCTAAAGTTATTATTAAAGAAATTAATAATTTTTTATTTGAAAATGACAATACCAGAGAACTTATAACAAAAAATAAGGTCAGTGACAATATTGAAAATTTTGAAAAAGAAAATAATTTTTTAGTTTTAGAAAATACTAATGAAAAAATTATTAAAAAAATTAAAAAGAAAGCAAGAGCAAAAGATCGTCAAATTGAAAAATTGATAAAAGAAAATGAGTTTCTTCATAAAGAACTTATTAAGTTAAGAGAAGAAAAGAAAATAGCTGAATTAAGAGAACTTGAAAATAAAAAAAGAAGATTAAATGAAAATTTTGAAGATACTCTTAAAAGAGAAAGAAGAAAAATTGAAACTACATATCAAATTCTTGAAAGAAAATGAAGAGCAGAAGCAATTAATAAATCTTTAAATTCTAAACAAAAAGCTTTTAGAGTAGTAAATTCTATTAAAGAAAAATCAAAACTTTTACAAAATTCCAATGCTAATAATTTGGAAATGATTGTTGAAGACAATAGTAATAAATTAAAAGCTAATAATAATGAAATAAAAGTTATAGTTGAAAATAATAAATTTAATAACACTATAAGTTTGAACGAAAGCAATTCTGGAAATGAAAATAGTTCAATTGATAGAAATGTTGTAATTAATGATGACTCAAAAGTAATTATTAAACAAAGTAATTGAAAAAAAGAGAAGGATAGAAATCAGAAAAACTTTACAAATAAAACTTCAAATACAAATAGTAGTTCAAACGTAAATGTTAATCAAAAAAATATTAAAGATAATTTAAGTCAAAATATAGTTACAAATACTTCTAGTAGTAATGAAACTTTAAATGTTGATAATAATTCAAAAATTACTGTTGAAAATATTAGTAACAATTTGGTTACTAATAATAAGGAATCAGAATTTATTATAGAAAATAATTCAATTAATAATAGAGTTTTGAATACAGATAATAGTTCAGAAAAAAATATTGAAAATGAAGTTAATAATGTAACAACTAATAATAAAGAACTTAAAGTTATAACAAAAAAAGTTTCAACAGTAAATCAAAAGGGAAGAACTAATTCAAAAAAAAATAGTTCACAAAAAATAATTGTTGATCAAAAAATTTCTTTTGCAAATAAAAATAATTTATCAACTGAATTTAAAAATCAAAATCAATATGAAGGTGATGAAAAGAGAATTTTATATTTAGAAAGTAGAAGAAAATTAAATATAATAACTAAAGAAGAAGCAAAAGAATTAGAACTTAAAAAAAGACAAAATCATCATACTTCATCTAAGATAGTTTTAAGTAAATATAAATTAGTGAAAAGATAGGTTGATTAACATATCTTTTTTTTATGCTAAAATAACCATATAAAAGGTGGAAAAAGTCATGGAAAATTACCAAACTCAATTTAGAGATTTTGATATATCATGATATACAAAAAATAAAACAAAAAGTTTCTTAAAAAAATTAGGCACTAGTTTTGGATTTGTAATTATTTTAATGCCTATATTTGGAATTATTTTGTCAATAGGAAATGCTACCAAACTTAGTTTATTAACTAATATTGGCAGTATTTTATTTTCAAATATTGGTATTTGATTTGCCTTAGCTATTATTATAGGATTTACATCAAATAAGGGTGTTGCTGTTTATTGTGGAATATTATCCTACTTAGTCTTTAATGTTTTTATTTGAGCTTCAATAAAGAATAATGATAATAAGAATTTATTTAATATTTGATTTTGACATGATTTGCAAAGAAATCTTTATCTATCAAAACTTTTTTTTGGAGGCTTAGAAACATTTAATTCTGGTATTATTGGTGGAATTTTAGTTGGAAGTTATGTTACATTTATTTATAAAAAATTTAAAGATATAAATTTACCGAAAGGTTTAGAGTTTTTTGCAAAAGAAAGATTTGTAATAATTTTAAGTGTTTTATTTTCAATAATTGCTGCTTGTCTTTTTATTATAATATGACCAATATTTGGTTTTCTACTGTCAATGATTGGTTCTATAGTTGCTAAGTCACCAATAGGGCTTGATGCTTTTATATTTAGAACAATACAAAGAATGTTAATTCCTTTCGGTTCAAATTTGCTTTGACAATCTCCAATGTGATATACCCAAGTTGGGGGAGATTTAAATTCTTATCAACAAGATTTGTTGATTCAATATTTATTAAGAGTGACTGAAAGTGAAAATCTAAGTATTATAAATGAGCTTTTAAATATTAATCAAAAGGGTTTTGGTCAAGATGAAATTACTAAGATTTTTCAAAATAATTTAAATAATGCTGATTTTGCAAAAATTGAAGAAAATATTAATTTTTGATTTAAAGAAACAGAAAGCATTTTTGCAACTAATCCCAGTGGTGATCAAATTATTTGAAATATTGTTTCAAATAATAAATATATAACTGTTGATGATTGCTGGAATGTTGGTTTGCGAGTAAGTAGATTTATTTCTGGTGGATATATTAATTCGATTTTTATTTTACCAACTTTGTCACTTACTTTGCTATTAATGACACCAAAAGGTGAAAAAAGATCAAAAATGGGCATTTATATTACTGCAGCTTTAACAGCAATGCTTGTAGGAGTAACAGAGCCTGTAGAATATCTATTTTGTTATACAATGCCTTTATTTTATTTTGTCATTTATTGTCCTTTAAATGGTCTTTTAGCTATGTTAACTTCGTTATTTAAAGTAAAACTAGGAACTTCATTTTCAACTGGTCTTTTTGATTTTATATTAAGTGGTGTTGTACCAACTGCAAATGGAGTTAATACAAGAATATGGATTATTCCAATAATAGGAATAATTGCTAGCATTTTTATATTCACAATTGCTTTCTTTTGATTTAAAAAATTTAATAAAGAAGAAAATATTATTAATATTGAGGCAAAGTTATTAAGAGATTCTATTTATATTTTAATTGACGATTTTGGAGGTTTAAAAAATATTGCTTTATATCAATTAACTCAAAAAGAATTAATAATTAAATTTAAAAATAATAATAATGTTTCAAATTTATTTGAGCATTTTCAAAAAATTGAAAGAACTAATGAGTCCACAATTTTTACAATTAATGAAAGTAATAAAGAGAAGGTAGAAGTGCTAAGTTTTATTATTGCTAATAGAAATAATAAAACAAAATTTAAAAAAGAACTTAAATAAGTTCTTTTTTAAATATGGTCGTTAATTGTTTTTAAAATATTGACAGCAACTTCATTTTTTTTAGAATTATTAAATTCAATAACTTGCTTACTTTTTGTTAACAATATTTTTATTTCGTTAGTATCTGATTCCATAGCACTTGCAAGATTAACTACTAACATATCAAGATTTTTTTCTTGGGATTTACTTCAAGCTTTTTCTAAATTAAAATCATTTGCTAATGAGAACCCAACTAAAAATTGATGTGTTTTTACTTTTCCTAGCTCTTTTAAAACATCAACAGCAGGGTATAAAGAGAGATTTAGATCATTTTCTGAAAGTGATCTTTTTTCTATTTTTTTATCAGTATAATTTGCAACTTCAAAGTCATATAAAGCAGCTGAGCAAATTACAATATCGGAATTTTCATAGTTTTTTAGCATTTCTTCTAACATTTCATCATTTGTTTTTACATAAACATTATCATTATCTGTAAAATTAGGTAATAAAGTGTCACCAAAAACAGTTTTTAGTGATTTACAATTATTTTTTAACACTTTTTTTAATTCATTTCCCATTTTACCACTACTTGCATTTGTAATATATCTAACTTTATCAATATAGCTTCTAGTTTTTCCAAAATTAAGCAAAATTGATTTATCTTTTAAGTTTTTATAGTTATTTTCTTCCAATTCAATAATTTTTAACACTTCTTCGGGTTCTAAAGCTCTTCCAATACCTTCATGACCACTTGCTAATTTGCCATATTTGGGTTCAATTCATTTGACATTACCAGTCGCCTCTAAAATTGTCTTATTTTTCTCTAAAATAGGATTTAAATACATGTTTGAATTCATACTTGGAAATAAAATTGTTTTATAGTTGGAAACTGAAAAAATTAAACTAGCCAAATCATCAGCTAATCCATTGGCAATTTTACCAATGTAGTTGTAAGAGGCAGGGTAAACCACATTTAGAGTGCTTTGAAAGGCAATTTTTATATGATCACCATAATGATGTGAGTCATAGAATTCTCTATCAAATATGTCCTCTAAATAGTCAATATTGGCAAAATTTACGAACTTTTTAGCATTTTTTGTTGTAATTAACTTAACTTCATATTTTTTTGACAATAATTTATATAGCTTTAAGGATTTACTAGCAGCAATTCCACCTGTAACTATTAGATTAATTTGTTTTTTCATAATTTTCACCCATTTCTTTAAATATTATCTACTTTTTTGCCATTTTTTTCATTTTTTTAGTAAAAATTATAGACACAAAGCAATTTACAATCTATAATTATTTTTGACTAGGAGTTGAAAAAATGGCAAGTGTTGTTGTACGCGAAGGTGAACCAATTGAAAAGGCACTAAAACGTTTTCAAAAAGTAGCTGCTTCAAATAAATCAGAAGCAAGAAAACGTGAATATCATTTAAGTAAAAAAGAAAAACGTATTTACAAACAAAAGCAAAATAAAAAATTTGGTTAAACAAATTTTTTATTTTTTTTTACTTTATTTTATTTTTTTATTAGTTTTAAACTGTCAAATAAGATATAATAATAGATATAAATAAAACTTTGAAGGAGAAACATCTGAGATGAAAAAGAACGATAAAAGCGCATATTCAATTAATAATTTATATTCATTGGGTTCATCAGAAAAGCTTGAAAGTGGTAGAACTGTTGGAAAACCTGAAAATTTAACTAATAACCAAATTTCAAAGATTGAATTGTTAAGAAAGTCTAATAGTATGGGTTCTTCTAAAGAAAAGAAAGCCGTTTCTCAATTAGGAGACTTACCTGAAGAAATAAAAAAATCAATTGAAAAAAAAGCTAAACTTCATGAGATTTTAAATAATGGAAGACATTATACAGTTGAAGATTTAAAAATAAAATTAGCAATGGAAAAAAAACCAATTGATAAAAAAAGAGCAAGTCAAATTAAAGAAGAAAGAATTATGTTTTTCAAAGAAAATATTGAAAAATTAAAATTAAATAAGAAGAGAAAAATTAAAATAGTATATGAAGAATAAAAAAATAAAAGCAAAACAAGAAAATGTTTTGTTTTTATTTTTTTATAGCGATTATATAATAGGGGTGATACTTAAATGTATTGTTTAGAAGGATATATATTAGAACAAGATGAAGAGTGCTTATTATTAAAAGTAAATCAAATTGGATACAAAGGCTTTAAAATTTTTAAAGAAAATTTCGCTTTAAATAAATTAAAACTTTTATATGTTATAAATTATAAAAATGAATATTCAAATGATCTGCTATTTTTTGAAAGTAAGAAGGTGAGAGATTTATCAGAATTAATTTTAAATATCAAAAATATTGGAATAAGCACCATTAAAAAAATATTTAAAAATGTTAGCGAAGAAAATTTTATTAAAATTTGCAAAGAGCAAGATATAAATACCTTAAATAAAATTTCAAATTTATCTGAAAGTATTTGTAAGAAAGTTATCAATGAAATAAGGTTTAAATTATTTAATGAAAAATATAATTTAAAGCAAATGAATGTAATAAATTCATTAAATAAACTTGGTTATAAATTATCTGATATTTATAAGTCAATTCAAAATATTGATTTAAATTTAAGTGAGGAAATTCTTTTATCTAAAGCAATTTTAAATTTAAATAATTATGGAAACTAATATTTTTAGACCGAATAGTTTAGAAGAGTTTATTGGTCAAAAAAATATAATTAATAATTTAAATGTATTTGTAATGTCAGCTCAGAAAAGAAATAAAAATTTAGATCATATTCTTATTCATGGTCCTTCAGGGTTAGGGAAAACAAGTTTAGGTTATTTGGTTTCAAAAATAATAAATAAAAAAATTCATATTTTAAATGGACAGAGCTTACAAAAACCAAGTGATATAATTTCACCGTTAACATCTTTAAAAGAAAATGAAATTTTATTTATTGATGAGATACATTCTGTTTCCAAAGAAATTTTTGAAGTATTATATCCAGTCTTAGAAGATAATAAGTTAAATATAATAGTAGGTAAAGAATATAATTCAAAAGTTGTAAATATAAAATTGGCAAACTTTACTTTAATTGGAGCAACAACTGAAATAAATAAATTAGTAGAGCCATTTAAGAATAGATTTTCAATTTTATTTCATTTTCAACATTATAGTGACAATGAAATAACAGAAATAATTAAATTAAATTGCAAAAAATTAAATATGAATTTAGACATTGAGGTAATAAAATATATTTCAAAGTTTTGCCAAAACACTCCAAGAGTTGCAATTAATCTGTTAAAAAGAATTTATGATTACATTATAATTTTAGAATTAAAAAATGTTAATATAGAAATTATTAAAAATATTTTTTTGGAATTAGAAATTTATAAATTTGGTCTAAGTAATCAAGAATTATTGTATTTAAAACTTTTATATAAACATTCAACATTAGGGATTGAAACCATTCAACAAGTTATGGGTTTGCAACAACAAATAATTATTAAGACAATTGAACCGATATTAATTAGAAATTTTTTAATTGAAAAAACAGTTAAAGGAAGAAAAATAACTGAAAAAGCAATTTTATGATTGGAAAAAGAAAATTTAATTTAAGTTTAAATTTATTTTTTATTTATAAAAACTTAAATGTTAAAATATAATTTGATTGTAAAGGAGATACTATGTTAAGACTAGCAAGAACTTTAACAAATGTTGGAATTTATTTGATTCTTACATTATTAATAAATATAATGATATTTTCAATTTTATTAATATCAATAAAGCCACTTATGGATGGGAGTTATAAATATTTTTTAGATTTGGGAAAATGGTTGCAATCAAATTTGGATGCAAGTTTAAGTTTAATAAAAAGTTTGGGGATTATTATTTTATTAGCTTCATTTCTATCATTTATTATTTTAATTTTAATTTTAATTTGAATTAATTCAAGAAAATCAATTTCTCAAAGATTTGGATATATTTTTGGTTTATGTGCAGGGGGAGCAGGATTATTTATTTCAATTTTACCTGCAATGACATTTGGAGTCTTTGCAAATGGAGATGAATTATCGATTCTTTTATCATTAATATTCTTTTTATTAATGGGATTGAGTAATTCACTTTTGTTAACTGGTTCAATATTTGGTATATTATCTGCAAAAACTTATTTAGACAATTATGAGGATAAAAATAAATCTAAGGAATAAAATAATTTTAATAAAAAGTTAGTGTATAATATTTTTGATTATATTTCAAAGGGGCTAATATGGAAAAAAAAGTTTACAACTTAAAAAAATCAAGTTTAGGTAAAGTAACATTTGAAGATGGAACAGCATTTTGCATGATTACAGGTAAAAATGATAATGGAGAAGAATTTAGAGAGATTTTAATTATTAAATCACTTGAAGAGCTTATAAAAAATTTTCATAAATGATCAATTGAAATAATTTCTTTAAATATAAAAGAAATAGATACATTTAATAATAAAATTAAAAATTGACTAATACAAAACTGAATGGAAAATGGAATTCTTTCATTCAAAAAAGAATTATATGAAAATTCTGGTTTAGAAGAAATAAAGAATATGGGAGCAATTGAATTTCTTAATTCAGAACCTGAAATTTCTCAATTGATATTGGTACACATTGCAACTAAATATACAAGTGGTCATTTAAAAATCCCAATAAATGAATTAGAACTATCAATAAGATATATTAAAAATATATTAGCAATTAATTTTTGAGATGATAGAGTAAATAAAGAAGAAGAATAAAATTAAGAGAATATTAATTCTTTTTTTATTTGTTATAATTTATATGGTGATAAATTTGAAAAAAATAATAAACTTTTTTGGTGTTGCAACATTATTAAATTCGACAATTATAACTGTTATATCTTGTGGTGGGACTCCAAATTATAATAGTTTTTATGAAACTAATTATAATAAAGCTTTTCAAACTGTTTTTAAAAATGAAAAAAATATTCAAATCAAGGAATTTTCAATGTTTCCTGAATTAGTAAAAAATAATAAAATTCCAGAACCAGAATCTAAAGAAAAAAAATATATTGAACAACTTATTTTAAGTGGGAATGAATTCAAATTAAATTGTGAAGAGTTTATTTGTAAAAATGATAATTTTTTTTATGGCAAAAAACTGACTTCAATTGAATATGGAAATTTAGGAGAAGATAAAAATATAAAAGAAAGAATAAAAACACAGTATGCTTTAGATGATTTAGCTTCATGGTTTAATATAGAACCAAACACAAAACCAGATTTTTTTTATGATTATACAAATTTAGAATTAACTTTAGATTATTCAAAAAATATATATTTTTTTAAAAAATATAGAGAAGAGCAAGATCTAATACTTTGGTCAAAACAAAATAGTTTAGAAATAGTAGATAAAAGTAAAGATAAAAAAATTAATACAGAGTTTAATTTTTTTGATAAGAATTTTATTTTAGATCAAGAAATTATTAAAAAATTAGTTTTAGCTGATTTAGTAGAAATTAATACAGAGGAAGTTACTGAAAGCTCAACTAAAGAAGGGGAAAAACAAAATATTTTAAAAATTTATTTTAAAAATATTGATAAACTAAAAACTAAAGAAAAAGTAAACAATGTAAAAAGTTTATTTTATTCTTATCAACAAGATATTGAGTTTAAATTAATTAATAATACAATTAAAAATAATTTGGAAAATGATAATGAAAACTATGAAACAATAAATTTAGAAAGTTTTAATATAGACAATAAAAAAATCAGTAAAATTATTTTAGAAATTAATATAAAGGAGGATAATAATGAAAAAAATAATTCATATATTATCTAGTTTATTCATTATACCAACATCTTCAATTATGAGTGTTTCATGTAAACCAATAATTTCTATTGCTTCAAAAAGTTTTACTGGATTTACCAATGATTTAAATATTTTCTTTAAAAAAAATGAAACAATTAAAGTATATAATTTAGAATACTTAGAATTTATAAATGATTCATGAGAACATAATGGATTTGAATCAAGTTTATCTTCAAATAAAATTGAAAATAATATTGTTGAATTAAACATAAACAATCCCACAGAAGCAGAATTTATTCAAACATTATCAGAAATCTATAATCCAAATGTAATTGATAATTTTTATGATTTTACAGGGATGACAATTATTGTAGAAAATATTTTTCTAAATTCAATAGTTGTTAACAATGAAAATGGATTTTATAATACAAAAGTAGAATCTGATTTAGCTTTAACAATTAAAAAGGGTTGAAAAGATCAAGGGAAAATTTTAGCATCCTTAACTAATTCAAATGCTTTAAATAAAACAGAAACATTTTACTTTATAAATAAAATAATTTCAGGAATTAATTTTAGATTGAAAGTTTTGGAAAAACAAAATGAAGATGATAATTGAGATTATGAAATCGAAGGCTCATTAAATGATGATCAAAAAAAGGCATTTGTTAATAAACTAGTTTTCTCGGCAAAAACTAAATTATCATTAGATTTGTCAAATAAAATTACTTTTGAAATGGATGAAAATAGTGCAGATGAATTTCTAATAATTGATAATTTTAAATATAAATTTATTTAAAAAAGCAATGTAACTAAACATTGCTTTTTTTGAACTCTTTACTATTTTTAAAAATGCAATTGATTAGTTCAATTTTTCCTCTTAATTCTTCACTAATCATAATTCCCTTATTGAAAACAATTATTTTAGAATTTTCATTAATATTTTCAACTGAAAGTTCTTCAATTTCATTTTCTTGAATTTCTTGACCAATTATATTACCAAAATAATGTTCAATTATCTCACTAGCTTCTTTTCTCTTTTGAAAATCAGGGTCATTAGATACTATATCCATTTCTTCTTTATAAAATTCACTTTGTTTTGGATTTTCAGCACTTCATTCTTTTAGTTTTTTTAATGTCTTTTCTAAGTTTTTTTGAAGAATATATTCTAAATCTTCATATTCAATTTCATTAAGTAAAGTATCTTCTCCTAATTTATTAAGTAAAGTTTCAATTATTTTTAAAGACTTATTAAGATTTTTAGTTATATTATTTATTTGCATTTTCATTATTAATTCAGTTATTTTTTCTTGAATATTATTTGGGTTTTTTTCTATTGTTTCTAATAATTCTGATTGGGCAGCACTACCAATATTTTTAAGGTCGTCATTATTCTTAATATTTAAACTATATTTTTCAATAAAATCTTTAATATCACTATACTTTGAAATAGTTTCAATATCAGTTTTTACCTTGCTTAAGATGTAAGAAGTAACGTTTAAGTCCGGAGTAAAATCACCAAAGCCTGGTTCGTTATCTTCTATGAAGCCATTTCTAAAATTTTCTACTTTTTCAACAATAAAATTCTTAAATCATTTGACTGATATGTCATCTAAATATGTTTTAAAACTATTTGTATTTTGCATTTATTTTCACCTTTATAGATATAATATCTTATATTTATCAAAATTATATACCTAAAAATGTGATATTATCTTTTTAAAGTAGGTATTAATATGAAAAGGAATTCAATCCAAATCATTGATGAGGGCTTCTTTTTACTTAATGAAAATCAGAATTTTAGATTTGACAGAGAACGTTCTAAAAAAATATTGGAAAATATCCAATTTCCAATAATGGTTTTAGATACTGAGTTTTTTAATCATTCTCATGATAATGGTGAAAATGATAAAAAATTATATGATGACAATAATAAGGATTTAGTATATGTCATTCAGTATTCTTTTGCAAAATCATTAAAAGAGATTTCAAATAGAGATAACAAGAAGGCAATAAAATCAATTACAATTAAAAGAAACTTTAATGATAACGCATATAACTTTTTTGATCAATATTCAAAAATGATTATCTCATTTTTAAACATGTGTCGAAATAAGGAAATTAGAACAATTGTTTGTGCTGGAGCTAGCAATGATGTCAAAATTATTAATAAATGAATTAATGACAATAAACGATTATTTGCAAGAAAGACATTAAAAATGGCTTTTTATAATAAGGAAAGTAAAGAGTTGAATGCTAATTATTTTGATATATATGATATTTTAGAAAATACTTTTTCATTTTCAAATACTAATAAATTAGGTGAAGAATTTTGAAAACGTGAAAATTTACCTGCAGGTAAACAAAGTGATGAAATGATTGCCTTAACTGGTACTAAAAAGTTTTTTGATTGATTTGAAGATATTAATCAAAATATTTTCAAAGATGAAAAAGATGATATTTATACAATGTGTTGTAGTGCATATTCATTTTTTTCAAGATCAACTAATAAGAAAATGGACTATGAAGAATACAAAACAATGAATAAAAACATAAAAAGAGTAATTGATCATTGTTATAACGACGTTTTAAAAGTACTAGAGTTTTTATCTTTTGTATATGAATTTACAAACGTTCCATATGCTAAAAATACATATATTAAAAAATATTAATCTTGATAAAACAATAAAATTGGTATAATTAAAGTAATAATGTGGGGTGTTTGAATGTCAAATAAAAAGTCTAGAAATTTATTATTGCTTAATTATTTTAAACCCTCAATTTATCTTGAAAGTTATGAAAAGATAAATTTAGATTCATTAAAAAACAGTGGAATTAAGCTTATAATGTGTGATATGGATAATACTTTAATTGGTTGAAATGAAAGAATTCCTTCACCAAATGTTTTAAATTTTATTAAAAATATTTATTCGCATAATATGGAATTTGTCTTATTTTCTAACAATATTAGAAGTAGGGTTGAAAACTTTGCTAAAAAAGCAGGAATTACAAATTACTTTTGAGATTGTAAAAAACCACTTTTAGGTAAAATGAAATTGGTTAAAAAACTATTTAAATATAAAGAAGAAGAAATGATTATAATAGGGGACCAACTTGTTACTGATGTGCTTGTTGCAAATAGAGCCCATATTAAAAGCATTTTGGTATCACCATTAAGTAGAAATAAAGAAGAAAGTAAGATGGTGCAATTTTTAGAAAAACACATACTAAAAAAGCTGTCACAAAAAAATATTTTACATGAAGGATTCTACAATGAAGGAGAAATTGGAGGTAATTATGAAATTCTCTAACAATGACAAATTAAATGACATTGAAAAACAGCTTGAAAATTTAGAAGATGTGGCATTGCAAATCAATTCTAATATTGCTGAACCAAATTCAAGCAAAGTAAAACAAAGAAGTAAGGTTAGTTTAACTGAGCCTAAGCCAGGAATTGGTAATACAACAAATTATAAATCAGTAGGACCAAAAAAATGTATTGGTTGTGGAAAACAATTACAGATGGATGATAAAAGATTGCCAGGATTTAGTTTAGATATTGCAAAACAAGATTTGTGTTTAAGATGTTTTAAAATAAAATATTATAATAAATTAGTGGAACAAGAAATTAATGATGAAGATTTCATTGCTATAATTGATGAAATAAATCAAACTAAAAATAAAATTAGATATTATTATGTAGTTGATATGTTTGATTTACCTGGAAGTAGATTAACTTGATTAGAAAAATTAATTTCTAAAAAAGAAGTAGTTATTTTAGTTAATAAAATTGATTTATTTCCAAAATCAGTTAAGAAATTAAAAATTCTAAATTACGTCAAAAAATATTTTGAAGATTCAGCAATTGCTGGTTCAAAAATAATTTTTACTTCATCACTTAAAGTTGACTATATTTCACCATTAGTAAGTGAATTAAAATCCATAGACTATGATCAATATATTATTGGTATTTCAAATGCAGGAAAATCAAGTTTAATAAACGCTTGTTTGAAATTTAACCATCAAATTCCTTCTATTGTTACTTCAAAATATGTTAATACCACTTTAGATAAAATTAAAATTAACTTTACAGAAAATAATTATGTTTATGATACACCTGGTCTTGTAAAGCATAATCATATTGCTATTGCAACTGCACCAAATTATTGAGATTTTTTCTTCTTTCAAAAAGAAATTAAACAAGTTACTTATCAATTAAATGCGGGTCAATCAATTTTTTATGGCGGACTTGCATGATTTAGTTTTGTTGAGGGCCAAGCAGTTAATGAAAAAAATAATAAACCAATTAAGACAAATTTCCATTTTTATGTTAATAAACAAATGCCTTTACATAGAACAAAAAAAGTAAACGCACAGCATTATTTTAAAAAAAATCGTTATAGTTTATCTCCAAGATTATTATCAAGTGACAGTGATTTTGAAGTACATACTTTCTTATATAATGATGACAAAAAAATAGATTTACATATTTCAGGATTAGGTTGAATAAGTTTCAGATCATATAAAGGTATGAAATTAGAAATTACAGTTCCAAAAACAGAATATGGAATAAGAGTAAGTGAATTAGATGCTCTAATTTAAAGAAGTTTTAGATCTTTAGAAAATTAAAAATAATAATAAGAGTATAATTACTTTTTTTGTTATTTTTCAATTAAATTCAAAAAATAAAAAATAACATTTTGAAAAAAATATATTATTAATTAAGTAAAAAGTGATATATTTATATTAAATAAGTTTGGAGGCCACAAAAAATAATGAAATTAGTTTTAGTTATTGAAGTTGGGATTTCAGCATCAAAAGTAGGTTTAGTTAATCAATATGGTGATTTACAAGCTCAATTTTCAGTTGATCACCAAAAAGATAGAATAATTCCCAATTTGTATGAAAAGATAATTGATGGTTTAGAAACTATTGGTATAAATTATGATGATGATATTGAAAAAGTTGGAATTGCAATTCCAGGTTATGTTGATCATATGCTTGGAATAATTAGATATTCAGCAAATTTAGAATTAACAAATTATAATATTAAAGAAGAAGCTGAAGAATTATTTAAAAAGCAAATTTTTGTAATTAATGATGCTAATGCAAGTGCATTAGGAGAGTTTTGAACAGGAGTTGCAAAACAATATGATTCAATCATTTTTTACTATATTGATAGTGGAATTGGTGGAGCTGTTATAACTGAGGGAAAACTTTCACCAGGAGCTAGAGGATTTGCAGGAGAATTTGGACATGGTGGTGGAATGTTTCAAGATAAGTATGACTGTGTTTGTGGTTTAAAAGGATGTATTGAACCAATGTCTTCAACTACAGGAATTGTCAATCATTTTAAAAAGAGTTTAAAATCAAAAAAAAATCATCCAGCATCAAGTTATTTTAATAATATCGAAACAATTACTTTTAAAGAAATTGTTGAGGTTTTTGAAAATAATGAAGATCCAATTGAAGTTATTTTACTTTTACAAGAAGCTGTAGAACCACTTGTAATGCATATGGCAACAATGCAAAATGCCTTAGATCCAGAAGCTATTATTCTAGCTGGAGGATTAACTCAATTAGATCAACATATAATAAAAATAATTAAGAAAAACATTAAAAAATATATTATTGAAATGTTTGCAGAAGAATTAACAATTGAAAACGCTCAATTAGGAAATGATTCAGCAATGATTGGAAGCGCTTATTACGCATTAAATGATTGAAAAATATTCTAATTTTCAATCATTTTTTTATGGGAGATTTGTATGGAAATAGAAGAATTATTAAAACGAATTAATGAACTTGCTAAAATAGCAAAAGAAAGAGAATTAACTCCAAAAGAGGTTAAAGAACGTGATCAATTAAGAAAAAGATATATTGTTATATTTAGACAAGGTCTTGAACAACAATTAGAAAATGTCTCAATAATTGATGAAAATGGCACTATAACAAAGCCAAAAAAGATTAAGTAGTTAAAAGACTATTATCAAGAATTATTGTTCCTTAAAATATTTTTATAATTAAATTTAAATAATAAAAATTTTTAAAAATTCTTTTATTTTTGTAAAAGTTTTTATTATAATATAAATAGGCCTTAATTGGCTACGAAAGGGAACATAAATGAAAAAATTATTAGGATTATTAGGAGCAGCTGGTTTAGTTGCTACAACAAGTGCAACAGTAGTTGCTTGTGGTGGAGATAAAGAAGAAGAAAAAATTGATTTATCAAAATTAACTTTAACAGTAGAATCAGGAAAAACTTTAGAAGAAGCAAAAACTGATATTACAAAACAAATTAATGAAAAATCAGCAGATGCTAAAATTGATACTGATTTTACAGTTACTTTAAAAAGTAAAGAAGCAAATGATGAAGAAACTGGAAAAGATGTTTTAAAAGATGGAACTGTATTAACAGTTGCAGCAACAGGAGATTCAAAATTATTAACAGGTTCAAAAGAAGTTGAAGTTGGAGCTAAACCAGAATCTGAAAAAAAAGATATATCAAAATTAACAGCTGAAATTAAAGCAGAAACTACTCAAGAAGATGCTAAAAAAGCAATTGTTGCAGAAATTGAAAAATTATCAAAAGATGCTAAAGAAACAGTGGATTATACAATTGCTTTCACTAAAAAAACTAATGAAGGTGAAGACGTTGTTGCAGAAGGTGATTCATTCAAAGTTGAGGCAACTAAGTCTTCAAAATTATTGACAGGGACAGCAACTATTGTTGTAGTTAAAAAATAATTTGTACCTATAAAAACAAGAAATTTAAAAAACATATTATTAAAATAATTTATGCATAAAATTATTAAAAAAAATCCATTTAATGGATTTTTTTAATTTTATATTTTAATTAAACTGATAATTTTAAATATATCTTGATACTTAATAAGATTTTTTTATTTTTAGAGATATAATTATTTTGAATAAAAGTGAGGTTCAAATAGAAATATGAATAGAGAAAATAAAAATCTAAATGCTCTAAGAATTTTAGGGATAGAAGCTGTAAATAAAGCAAATTCAGGACATCCTGGAATAGTATTAGGAGCAAGTCCAGTAGTATTTACTTTATTTACAAAACTAATGAATTTAAATCCTAAAAATCCATCTTGATTTAATAGAGATAGATTCGTTTTAAGCGCAGGACATGGTAGTGCTTTACTTTATAGCGCATTACATCTATCAGGATTTGATTTATCAATAGATGATATGAAACAATTTCGTCAGTTAAATTCAAAAACTCCAGGACATCCTGAATTTGGTCATACACAAGGAGTTGAAGCAACTACAGGACCCTTAGGTCAAGGTTTTACAATGGGAGTTGGAATGGCTCTTGCAGAAAGTCATCTAGCTGGAAAATATAACACAAAAGATTTTAATATTGTTGATCACTTTACTTATGTTTTATGTGGTGATGGTGATTTACAAGAAGGTGTATGTCAAGAAGCAATAAGTTTTGCAGGAAGATATAAATTAAATAAATTAATAGTTTTACATGATTCAAATGATATTCAATTAGATGCTCCTGTTGAATTAGCTCAAAGCGAAGACATTGCTCTTAAATTTAAAGCAGCTGGTTGAAACACTTTGTATATCAAAAATGGTGAAGATTTAAAAGAAATTGAAAAGGCAATTTTAACAGCTCAAAAAAGCGATAAACCAACTTATATTGAAGTTAAAACAATTATTGGAATTGGTGCGACTAATCAAGGAACTACTAAAGTTCATGGCGCACCTTTGGGAAATGATATTGAAACAGTTAAAAACTATTTCAATTGAAAAGAAGAGGAATTTAAAGTCCCCCAAGAAGTATATGACTTTTGAAAAGAGAATGTTTTGAATAGGGGAGTTAAAGCAGACAAAGAGTGGAGTTCACAATTTGCAAAATACCAAGCAAAAAATCCAAAATTAGCACAAGAACTTACTAAATCTATTAATAAAGAGTGAAATATTGATTTAAATGAATTACAAGCTTTAAATAAAAATGCAGAGCAAGCTACAAGAGTAAGTTCAGGGGAAGTATTTAATTATTTAAGTAAAAATATAACTTCAATTATCGGAGGTAGTGCTGATTTATGTGAATCTACTAAAATTAAAGGTCCTGATGGAAACTATGATTTTAATAATTTAAGTGCCAGAAATATTATGTATGGAGTAAGAGAATTTGCAATGTGTGCTATTAATAATGGAATGGCATTACATGGTGGTTTATTACCAGTAGCTTCAGGCTTCTTTGTTTTTGCAGATTATTTAAAACCTGCTTTAAGAATGAGTGCAATTATGAAAGTTCAAACATTAAGTATTTTTACTCACGATTCTGTAGCTGTTGGAGAAGATGGACCAACTCATCAACCAATAGAACAATTGGCAATGCTAAGAAGTATTCCTAACATGAGTTTATATAGACCATGTGATATGGCAGAAACTATTGCAAGTTATTATAATGCTTTAAACAATAAAAATAATCCAAGTGTAATTGTAGCAACTAGACAAAATTTAAAGGAATTAGAACACAATAATAAAATTATTGAAGATGTTAAAAAGGGAGCTTATATTTTAAGTGAAACAAAAAATGCTAATATTACTTTAATTGCAACAGGAAGTGAAGTTGCTTTAGCAATGGATGTAAAAGCAATTTTAGAATCAAAGGGAAATAAAGTAAATGTTGTTTCAATGCCAAATATGAATGAGTTTATTAAGCAACCAAAAAAATATCAAGATTCAATTATCAACAGAAATACCCATAGATTCTCAATTGAATTATCAACAACTTTTGGATGACATCAATTCTTAGGTGATAATGGTAAAGCTTATGGAATTGATACATTTGGTTATTCAGCTCCGTTCAATGATGTTATTAAAGAAATTAAGTTTACAAGTGCAGAAATTGCAAAAGACATATTAACTATATTAAAATAATAAATTATTATGTTAATATTAAAAAGAATTTATTAATAAAGGAGGATCTACAAATGGGGACAATAGTATGATGAGGTGCATTATTAATAGCAATAGCTACTGCTATTGTTGGGGGAATAATTGGTTTTATAATAACAAGAAAAGTTATTCAAAAACAATTAAGAGAAAATCCGCCAATTAATGAAAATCAAATAAGAGCTATGTATAGAAGTATGGGAAGAAAACCAACTGAAAGTGATATTAAAAAAACAATGAATGCTGTTAAAAGAGGAAAATAATAAATTTTTCGTTAAAAAGAGTTTTTATAATAAAACTTTTTTTTTTTTTTTTATTAAGAAAGTATTATATAATTATTTAGGAATTAATTCCGTATGAAGTACAGAAATATAAATTATAAAATTAGAACGGTGGACAAAAAAATGATACAAGTTTTTACTTGTAAAAAATTTAAAAGGGTAAATGCATTTTTATTATACAACGAAGATAAAAAAGCTGTATTATTTGATACAGCTTACCAATCGTATAAAGAAATAATAAAATTTGTTGAAAGCAATAACATTCAAATAACAGATATTTTTATAACACATGGTCATTTTCCACATTTTTATGGGTTAAATGAAATTTCTAAAAATCAAAATAGTCCCAATGTTTTTATAGGAAAAGAAGATTTACTAAATCTATTTGATCCTATAAAAAATATGAGTAACTATTTTGAAGGTGTTAATAAATGTATAATAGAACCTATAAAAAATTTGAAAGTAATATCACAAGATGGCAAAGTTAATTTAAATGGCTATGATATTGAAATATTTAAAAAGAATTGTCATACAGAAGGTTCTTTAATAATTTCAGTTCCAAAAGAGAAATGTTTATTTACAGGTGATTTCATTCTTAAAGATGAAACTTATTTAGTTGATGGATTATTGCAACTAAATAATGAAAATGAAAAGTTGATTTTAGAAACTTTTAACTGACTAATAAGTAATTTCAATAAGGATTTTTCAGTATTTACTGGTCATTATGATTATGGATTTAAAATTAATAATATTTTAGAAGATAAAGACGCAAAGTTGCTAAGAAAATATACTTCAAAATAGTAATTTAATCTATTAAATTAAAAAAATGTACTTTATTTTAAGTACATTTTTTTTTTTTTTTTTAATTTATTTTTGCTGATTTTTTTCAACTTTTAATTCAGATTCTGTTTTAATATTTTTTTCAGATTTTTTAGATTCTTCCTTTTGTTCATTAGATTTTATTTTATTTTTTCCTAAAAAGGCAGGTTCAGTACCTTTGATTAATCTAATAATATTTTGATAATGTCTTGCTAAAAGAATAATTGCTGCAAAAGTTATAACTAAATTTATTATTAGAAAACTATCCATAGGTGATTCGTTTACTAAATGGAATTTATTATATCAAACAAAGGGAGCAAAAGCATTTTGAAAGTCATTGCCATTAATTGAAAAATGCTTTAGTCCAGAAAGTTGAGGAATTCACATTAATATTGCAGCTAAAATAGCTGCAAATATTGAACCAATACTTACTTTTTTTGAAACTAAAACCAAAACTAATCATGTTGTAAAAAATATTAATCCAACAAGGATATTAGCAACTAGCATTAAACCTAAGAAACAACTAACAGCTTTTCCACCTTTAAATTTATAATAAACTGGTCAACAATGACCAACTAATGCAAAGAACCCAGGAATAATTAAAATTGTATTTTTAAAAATTTCAGTTGAACCTGTTGGTATTAAACTAATTAAAAACGCAAGAAGAACTGCTAAAAATATTTTAAAGGAATCTAATAACATAATTACAACTCCTCATTTTTTACCAATAATACGACTTGCATTTGTAGCACCTGCATTTTTACTTCCTTGTTCTCTAACATCTTTATTGGTTTTTAATTTTACAATCGCAATTGAAAATGAAAAACTTCCTAAAAGATATGCAAGAATAGAAGTTATAAAAGTTCCTATAATAATTCCTAAAGTCATATTTTAAACTCCTTATAAATCTAATAATCATAATTTATCTTACTATAAAGTTATAGTAATATGCAATAAAATAGTTTAGAATAATAAAATAGTCCTACAAATTATTTTTAAAATGGGAGGGTTTATTAAAAGTGAAACTAAGTGAAAAAATAAATTTAAAAAGTATGATTTTTAATTTATATAAAAAAGATTTATTAGGTCTTTTAAGCAAAAAAGAATTTAATTTGAGCGAAGAGCAAAAAAATGAATTAATTTCTTTAGGTCAAACAAGTGAGTGTAAAACATTATTTGAAGGAATTAATAATTTTTTTGAAAAAAATATTAATAATGAACCAATTGAATTAAGTTTAATGTTAACTTTAGTTTTACAAAGATATCATTATTTTTATAAGACTGAATTAGAGTGAAGAACTTATTGTAATAATTTTGAAAAGATTGAAGAAAAAGATCCAGGGGAATTCTTTTTAACTTATATTAGTAAGTTTTTTAATGACCAAATAGAACTTTACAATAATAGTTATCAAGAGATAATCGAAGAATTCAATATTGAAAAATGAAATAAAAAATTTTCACAAGATATTAAAGTTCTTCTGAAAAATATTAGTAAATCAAATAATTTTCAAGAAAAATTATACAATTGTGAACAATTGGTTTTATTTTTACAAGACACAAAAAACATCTATTCTAGCTTAGAAGTTGTTGGGTTAGAAAAGGAAAAGCAACAATTTCTAGCTCATACAAATGAAGTTAAAATAATATTTCAATCATTAAACCATTTAGTAAATGAGATATTAAAGCAAATCATTGCTGTTTAAAGGAAAAGAAATATGTTTAATAAATATGACAAAATGAATCAAAAAGAGTTAGAGGAAAAACTTTTAATTGTGGAAAAAGAATATAAAGAGTTATTAAATGAAGAGAAAAAAATTGATAAAAAAGTGAAAAAAAATTTATGATGGTGATTCTTTTTTCCCTTATTAGGTTTTCTTTTCTATCAAATTCATCTTAAAAGACGAAAAGAGAATGATAAAAACTATTATATTATTAAAGATAAAAAAAAGGATTTAATTTATATTGAATTAGAAATTCAAGTCATTAAATCTAAAATTGAAAAAGCTAATCAAAAACTTGAAAAATAAAATTATTTACAGATTGTAAACAATATAACTCATTAAATACATAATTAAAGAACTTCTTGTTGATTCTAAAAATGTTCCACGCTCTCAATAATCAACAGTAATAATTTGACTATATTTATCAAATTTATGTTCTTGTGATGGAGAACAGATAATAAAAATATTATCTGTTTTAGTTTTAAGTAAATTATAAAAATTAATAACGTACTGATTATCTAATCCAAAAGCAATTATTAAAAAAGTATCTTTATTTGTTACTCTGTTAACTCAAGTTTCATTTAATTTTCTTTGATAGTTAAAATGACCATTATATCCTAGTAAATTTAATTCACTTATAAATAACTCAGTATTAAATAATTGTTGATAACAACTAATAGCATAAATATTTTTTGCCTTTTTAATGGAATTAATTAATTCCATTATTTTATTTTCCTGAGTATCAATAAAATTAAGAGAATTGTCTATTAAATTTCTATAAGAGTTTTTATTATTTTGACCAATGTTAGTTAAAGAAGATCAATTATAATATTCAGTTTCAACTTTAATTCTTATTGCCAATTCCTTAAATCCATCATATCCATATTTTTTTGCAAACGCTGTAATGACTGATTCAGAACAAAAACTTTCTTTTGAACATTCATTAATTTTAGGCGTTTTTTTATTTTCAATACACTCAAGCAGATAATTTGCAATAGATACATGAGTTTGGTTTTCCAAATTTGCTTTTATTAAAATCAATTTTTCTTTAATACTTTTGAACATATTTATCTCCTAGGTATATATTAGCAAACTTCTTTTGAATTTCCAAAAAAATTCTCCATTTCTATAAATCATTGTAAAAAATATTCTAAACCTTACAATTACTAATGGAGGTATTAAAATGATTAATTTTTCAAAAAAATTTGAAATAGGTGCTTCAATGAGCGCAATGCAAACTGAAGGAAAGGGTGTTACTAAAATAGGTCAATTAGCGTTTGATAAATATTTTCAAGAAAAGCCAGAGTTATTTCACAATAATATTGGTCCTGATATAACATGTGATATTACAAGACACTATAAAGAAGATATTAAAATGTTTAAAGAGATTGGCTTTGATTCATTAAGAACAGGTTTTTCTTGAGCAAGATTATTTCCTGATGGTAAGAATGTTGATTTACAAGCAGTAAGTTTTTATCACGATTATATTAATGAATATAGAAAAAATAAGATAAAAATTGTAATGACTTTATTTCACTTTGATATGCCGCTTTGAGCTCATCAAAAAGGTGGTTGAGAATCAAGAGAGGTAATTGATTCTTTTGTTCAGTATTGTGAGTTTGTTTTTCAAGAATATGGTGATAGTGTAGATTCTTATGTGACTTTTAATGAACCATTAGTTCCTGTATATGAAGGTTATTTAAATGATAGACATTATCCTGCAATAGATGACCCTAAACAAGCAGTACAACAAGCCTATGGTATATTTTTAGCTCATTCAAAAGTACTATTGGCTTTTAGAAAATATGGTTTAAAAGCTCCAATTGGTGTAGTTTTCAATTGAAATTATACATATGCTTTTTCCAATTCAATTGAAGATCAAAAGGCAGCTAAAATTTATGATGCTTATGTTAATAGAGGACCTTTAAATATTATGTTTAATGGTGTTATTGATCCAATTTTAATAAAAACTTTAAAACAATATTCAATCTTGCCAATTTATAGTGAAGAAGAATTATTAATAATTAAGCAAACCAAAATTGATTTTCTAGGAATAAACTATTACTTCCCTTGTAGAGTAAAAGCTCAAAGTAATGGCAAAAATAGATGAGTTATGGATAATTTCATTATTGATATTCCCAAAGATGCCAAAATAAACCCTCATCGTGGATGAGAAATATATCCTGAAGCTCTTTATGAAATTGGAATGGAAATTAAAGAGAAATATAATAATATTGCTTGATACATTGCAGAAAATGGAATGGGTGTTGAAAATGAAAATAGATTCAGAGATGAACAAGGAGTAATAAATGATGATTATCGAATTGAGTTTTTAGAAAATCATTTAAGTCAAATTAAAAAGGCAATTGATGATGGTTCAAATTGTTTTGGTTATCATATTTGAGCTGCTTTAGATTGTTGAAGTTTTAGAAATGCTTTTAAAAATAGATATGGTTTAATTGAAATTAATTTAAAAGATCAAAGCAGAAAATTTAAAAAGTCAGCTTTTTGATATAAACAATTAATTGCAAATAAGAAGGGATAATGAAAATGCTTAAGAAGAAATATATTCAATCTGTTCAAGATATTTTTCAATATTTAGGTGGTTATGAAAACATAAATTACTTTACTCATTGTATGACACGAATGAGATTTCATTTAAAGGATTGAAAGGTAATTGATGAAGAAAAAATAAAAGCTAACGAACATGTAACTGGAATTAAAAAAAATGAAGGTGGAGATGAGTATCAAATTATTATTGGTATGGAAGTTGCTGAATTTTATGAAACATTTTGTAAGATAAATGGTTATGATACTGATGGTAGAACTTTATTAGTAAAATCAACTAATTCAAAAGATAGTGATTTCAAAACAAAACAACTTGAAGAGATTAAACAAATTAAAGGAAAATTTAGAGTTAAAGGTTTTACAAATAAATGTTTGTCATTTGTTAGTAAAGTCTTTTCACCAATAGTTTATCCTCTAATTGGTTATGGACTTTTATTAACAATTTGATCACTAATGACTGTTGAATGAAATGGAGATGGTACTTCATTAGGAGACAGTATTCATTTCTTTGGTCAATTCGCAAGTATACTTGATATTTTAACTAGTACTTTTTCATTGTTTATTACTATAGCTGTAAGTTATACAGTTTTTAAAGCAATGCGATGTACTTCAATTTATGGAATCCTAATTGGTGTTGTTTTAACTGCTCCGGGTTTAGTAACAATGGGAGCAGTTCAAGTTGAAGAAGGTCAAACTATTTTGTCACAGTATCCAGGTTGAACCTTATTGGGAAAAGATATTGTCTATCCATGAAAAATAAACTTTAATGGTCTAATGGTACCAATGATTGGAGTGGCAATCTTTGGAGCTTATATGGAAAGATGAACTTCTAAAATTGGTAATGCCACTGCAAGAAATATTTTAAGTCCAATATTAATAATTGGTGTGACATTTATTTTTGCCATATTTATTGTGGCTCCAATTGGATTATTATTTACAAATTATTTATCAATTTCAGTTAATTGATTAAGTACAAATAAAATAGCAAAATATATTGCATTGCCACTTTTAGGAGCACTATATGGTCCTCTTGTAATAACAGGATTACATCATTCTTTAACTCCAATTATTTTACAAGGTCAATCAGCTTATGGAGCTACAATTATTCAAGGTTTATGTACATTATCAAATGTATCTCAAGGAGTAGCTACAATTGCTTTTGTAGTTTTAAATCGAAGAGTTAGACAGTTAAAAGAATTAGGAGTTTCAAATGGTGTTTCAGCTATTGTGGGGGGAATTACTGAACCTTCATTATTTACAGTAAACTTAAAACACTTATTTCCTTTAATTGCATGTTCAATAGGAGTATTTTGTGGAAGTATAATTCTTGTAGCTTCAAATACTTTTGCTTTACAAGGAGCTAGTTCAATATTTGGGTTCTTAATGTTTCAACATAAAGCACCAGAAGCAACAGGAGTTACTACTTGAATTGGTGGGGGATTTGTTTGAGGGGGAATTTCAATTATTGTAAGTTGTTGTGTAACGTTTGTAATGACTCTTATCTTAGGAAAAATTAAATATTTTAATTCTAGAACTCGAGATTTACTTTTAGAAGAATATAAAGAAGATTTAAATGAATTAAAATTAATATCAAAAGGTGATTTTAAAGAAATACTCAAAAAAGAAAAAGAAACTAAAAAGTCCTTAAAGCACCAAATCAAATTAGAAAAAAGAAATAAACATATCAGAAATAATGTATAACAGCAATTTTTAGACATAATTTAAAGAACTAGAAAGTAAATAAATTCACTTTCTAGTTCTTTTTTTAAAATAAATTTACTTTATAATATATTTGTTAAAGGAAAAAAATTATGAATAAATTTAAATGAAAAAATCCGTTGCATATTTGTATCTTATTAGTTTTATCTTTTTGTATTATTTTTAATTTTTCAACACCAAAAATTAACTATGAAGTAAATAAAGTTAATACAAAAGAAAAAGTTATTATGATAACTTTTGATGATGGACCAAGTTTAGCAGATGAAACTATTTTAGATATTTTAAAAGAAAACAATGCAAAAGCTACTTTTTTTGGAACAGGTATTAATTATGAAAAATATTGAAAAGATGAAAAAGTAAAAGCAATTACTGACAGAATGGTTAATGAGGGTCACACTTTAGGAAATCATTCATATTATCACAATAAGTATCAATTTAAGACAAAGTCTGCTTATGATGAGTTTTATAAAACAAGTGACATGATAGTTAAAATTTATGCAGAAAATAATATACCTAAAACAATAAGTGATGTCCCAATAAGAATGCCATTCTTGCAATATTATCGAGGGATGGATTATTTACAAAGTAAAATGCAAGTTGAATATTTTGTAAGAGGTTACTTAGGTTGTGATTATGATGAAGCAATCTGTGGAAAAGAAAAAATTTTAAAACAGTATAAAAGTAATATAAGACCAGGTCAAATATTAGTTTGTCATACAAGAGATTATGCAAAAGAATGACTTCCTGATCTTTTAAAACATTTAAATGAAAAAAATTATAAAACGGTTAATTTCACCAATGGTGATCAAGACTATAGAAATTATGGGGGATTAATATTCTAATGTGATCAGCTATTGAAATTATTCAATTTATTACTTTAAATATTATTTCAATTTTCTTTATTTATTTTGCAGTTATTAATTCTATTAATAAAGAAGAAAAGAAATGACTTAGAATTGTACATATAGTTATCGGGGGATTAAACTCTATTTGAATTATTTTAATTTATACTTTAAACTTTTTTATTTGAAAATCATCTTGAGGTGTCAATGTTGGTGTAAACTTTGGTTTTATTATTTTAGATATATTATATTTATCAATGTGATTCATTTTAAAATTAAAAAAATAAGCAATTTTATTATTTAAATTTTAAAAATATAAAAAAACAATAATTAATATTATTGTTTTTTTATATTAAAGTACTTTAAGTAAGTTAAAGTACTTTAATTTTTCTAAATATTATAATATAAATAGAATATTTTGAGGGGCAAATTATGAGAAAAATTTTTAAACCTTTAGCAATCATTATATTAATTATCGGACTTATCTTTTTAACATTTATGTATGCATTACCAAAGGGCAAAGATAAGAAAGTACAAGAGCAAAATTTTGTTATGAATCATGGTAATAAGGACTGACATTGAATTGAAAATTGAGAACAATATAATAAAGATCATAAAAATTTTGAAATTTATTCAAATAATACTGACATTGCACATGTTACTGAAAAAGTAATTCATGATGATGGAAAATTTGAATTAAATGCAAATAGTGTTGGTCAAACTTTTCTAACTTTAGTAGGATCAACAAAAAATTCAAATTTAGAAAAAAAATGAATATTTCCAACTGAAATTTATGAATCAGTAGAGCCTGAAAAAATTAATATTGAGATATCAAATAATAATTCAAGTATTGAAACTGGTAATACTGATTCTTCAATAGTAATTAAAAATTATTTAAGTTTAAGTAATCTTAGTATAGAGTCTACAAATAAAAATATTGCAACAGTATTTAATGATAATGAAATTATTCATATATCTGCAATTGCAGAAGGTGAAACAAAAATAATCGTTAATGCTGATAACGCTATTAATCCTGTTGAAATAAATGTTATAGTAAATAAAAAACTATTTGATATTGAATTATCAAATGATAATATCAATCTCCAAACTGAGGAAATTAATTCTTCAATTAGTATCAAAAATTATAAAAGTTTAATGAATGTAAGTGTTAAATCTAAAAATAATAATGTAGTACAAGTAACAAATGAAAATGAAATTATTAAAGTAACAGCACTTGCAGAAGGTGAAACAAAAATAATTGTTAACGCTGATAACGCAAAAAGTCCTATTGAAATAAATGTTATAGTAAATAAAAAATTATTCGATATTGAATTATCAAATAATAAAATTAGTATTGAAAATGGTCAGACTAACTCTTCAATTATTATTAAAAATTATAAAAATTTAGAGAATGTTAATGTTGATATAAAAAATTCAAAAATAGCTTCAGTTATTAATGAAGGAGAAGTTGTTAAAGTAACAGCGCTTGCAGAAGGTGAAACAAAAATAATTGTTAACGCTGATAACGCAAAAAATCCTGTTGAAATAAATGTTACAGTTACAAAAAAATTATTTATTATTGAATTATCAAACAATAATATTAGTATTGAAAATGGTCAAGCTAGTTCATCAATAAAAATAAAAAATTATGAAAGTTTAAATAATGTTAGTGTGGAATCTAAAAATATTAATGTGGCACAAGTAACAAATGAAAATGAAGTTATTAAAGTAACAGCGCTTGCAGAAGGTGAAACAAAAATAATTGTTAACGCTGATAATGCAAAAAATCCTGTTGAAATAAATGTTATAGTTACAAAAAAATTATTTAATATTGAATTATCAAACAATAATATAAGTGTTGAAGCAGAAAAAACTGATTCAACTATATCAATAAAAAATTTTGAGGATTTAAATAATGTTTCTTTCAAAATAACTAATGAAAAAAATATTAACGTTACAAATGAAAATGAAATTATTAAAGTAACAGGACTTGTAGAAGGTGAAACAAAAATAATTGTTAATGCTGATAATGCAATTACTCCTGTTGAAATAAATGTTATAGTTACAAAAAAATTATTTAACATTGAATTATCAAATAAAGAAATTAGTATTGAAGCTGGTCAATCTGATTCAATAACAATAGAAAACTATAATAGCTTAAAAAATATTAATATAGAATCTAAAAATTCAAAAATTGCCTTAGTAATTAATGAATCAAATAATATAAAAATATCTGCAATTGCAGAAGGTGAAACAAAAATAATTGTTAACGCTGATAATGCAATTACTCCTGTTGAAATAAATGTTATAGTTACAAAAAAATTATTTAACATTGAATTATCAAATGATAATATTACTTTGGAAAGTGGTCAAACTAATTCATCAATAAGAATAAATAATTATGATAGTTTAGTTAATGTAGGTATTAAATCTAAAAATAATAATGTCGCAGAAATAAAAAATGAAAATGGAATTATAAAAATATCTGCACTTGCAGAAGGTGAAACAAAAATAATTGTTAACGCTGATAATGCAAAAAATCCTGTTGAAATAAATGTTATAGTTACAAAAAAATTATTTAACATTGAATTATCAAACAATAATATAAGTATTGAAGCAGAACAAAATGATTTAATAACAATAGAAAACTTTGAAAATTTAATTAATGTAAGTATTAAATCAAATAATGAAGATATTATTGGAGTAGTTCATGAAAATGAGAAAATTAAAATTGAAGGACTTGTAGAAGGTGAAACAAAAATAATTGTTAACGCTGATAATGCAAAAAATCCTGTTGAAATAAATGTTACAATTACAAAAAAATTAATTGATATCAAAGTTAATAAAACTAAAGTTAAAATTAGAGTAGGAAGTGCATTGACAAAAATAAAAATATTAAACTATGAGGATTTAGAAAATCCAGAAGTTAAAAATAGTTCTTCAGGTTTAATTACAGTATCTGTTAAGGAAGATACAATTTCAATTAAGGCACTTCTTATAGGAGATGCAACTATTACAGTTAATGCTGATAATGCCAGAGAAATTGTTAAAATAGAAGTAAAAGCAAGATTGATTTAAATTTGATTTATTAATTTTTATAGTCTATTAAAGTAGATAAATATTTATATAAATTAATTAGAAAAAAATTTATTCCATTTATATTTGATTCATAATACTTTTGGTCCAAAAATAATTTATTATCAATTAATTCAAAATTCTTTTCTCATAAATATGTATATAAGATAAAAATATTATTTTTATCTATTTTATTTTTTAGGAACTCATAAGCATTATATAAACTTTCGGTTTCATTTCCTGTGAAAATAAAAATGTAGGAATAATCAAGAAAATGAATTTGATTTAAATTATTTAAATTTTTTGATAAATCAAAAATGTTAGTTTTATAATTTTTTTGATTTAGTAAATCAGAAAGAAATATTGATGAGAAAGAAGTTTCATATGAAGACATTATTACAATTTCTTTATTAGCTTCTAAAACTCGTTTTTTAAATAGATCTATTTTAAAATTTGTATTTTTTGTAAAATTTGTAAAATTAATAAAAATTTCAGATATCTTACTTGTTTTGCTTTTCTTTATATCAATGAAGTTATTTTTATATTCTAGTTTTAAAATAATAACTAATTCTCGATATCCAGAAACTGAAACAGTCTTTGAGAAATTTGTAATTGTAGCTTCACTTACATTGCAAATTTTAGCTAATTGCTTTTGTTTTTTAAAACTATTATTTCAAAAATCTTTTAAAATTTGTTGACTTACAATTTTAAAAGTATTATTTAAATCATTTTTACTTATTTTTTCAATTTTTTTATATAGTAATTCATTCATATTTTCTTTGTTCTTATTTCTTTTTTAATCACAAATATTATATATTCTAATTTTTTAAATATTATTTTGAAAAGAATAATAAAAACTTTTTAATAAACTCTGAATAAATATAAAATTATTTTTAATAATTTAGTTTTCAAAAAGTCAACCAATAATTTTAATATACAAAAGTTAAAGATAATACAATCTATTTTAAAATAGTTAGATATATGTTAAAATAAATATGGTGATTTCTTATGAGTAAAAAAATATTTGATTTAAATAGAGAACTGAAATTTGATCTTGATTATGTCTATTTCAATCAAGGAATTAGTGATTGTCTTCATGATAATCTTGCAGAAGATAAAAGAGATAGTTATTTTAAATGTACAAAATGTTTTACTATTTTTACATTTGAAAGTATGAAACAAGCACTTAAATTCCAGAAAAGAATTTTAAAAGATTTTGATTTTGAATTAGCAGAAAATAATTATAAATTATTAAGAAATGGTGACAATAATGAACAATAATACTATTACATTTTTTTACAATAACATGACAATGATTATGCTACACCTTGAAAAATCAGTTGGTTTATTAGCTGATTTTGAAAATTGAAGTAAAAGTGAAGATGAACAAATATCTTTATTAAAAGAGACTGCATTAAAAGAAAATTTAAAAACTACACTTTTTATTTTAAGTAGTAGAGAAATGAACTACGGACTTTGAAATTCTAAAAATATAATTAAAAAAGCAGAATTAAATAAAATTGATTATGTTGTTTTTTATCAATTAAATCCAATGATTAATACTATGGATGATTTAGATTTATATCAAAACATTAGTGGTTTTTTAAATATAAAAAAAATGATTGTTGCAAACAATTTTTTATTAAAAGAAGCAAGTAAATTTTCAACAAGCTTTGTTAAAAAATGTTGAAAAGAAAATGCAATAATAATAGAAGTTAAAAAAACAAAAGACTTAGAAGATAATTTAATTTTATTAAAGGAAAGTAAATTTAAAGAATTTGAAAAAGAAAATAATCTAAATTATGAATTTACTGGAAGAGTTAGTGAAGGTAAAAAGAGGGGAAGAACAATTGGTTTTCCTACAATAAATTTAATAACAGAAGAGTTCATAGCTTTAAGTTATGGTGTGTATGCTTGTGATGTATATGTTGAAAGTTTAGACAAACATTTTTTAGGCTCTGGATGTTATTGAAAAAATGAAATGCAACAAGATGTATTTGAAATATTTTTAATAGATTTTGATAAAGAAATCTATGGATGAAAAGTTGAAGTTCGTTTAATTGAAAAATTACGAGAAAATATTAAAGTTAATGGTTTTGATGAATTAAAGGAACTATTAAAAAAGGATCTTGCAAATACACTTAAATTCAAAAAACATATAAAATAGAAATTAATTCTCTTAGTGTACATAATGTTAAAAGACATAAAAATATACTAAGAGAATTTTTTACATTTTTTTTTTTTTTTTTAAAAAAAAAAAAAAAAATCATACTATAAGGGATTCTAGGGAAATTTATAAATGATTCAATTATTTAGTTTTTTTAGTATATTCATTGTACTCAAGATTGAATATTTAAAGATAGAAATAAAATAAATGTCTCTTTTAATACTTCTGTTGGTAATAGCAGTAATTATAGCAATCATTTAGTTCCTGGCCCAGAATGCTCAGTTTATAACAAAATGATGAATTTAACTCTACTAATAAAGTTGATATTCTTGATGTAACTGAGCAAGTTTCTTCTGGGGAACTTATTGGGGCGGATATCAACTTAGATTAGGAACAATTTGAAGTGATGAAGGTAGTGAACGATCTATCATTTCACTTAGTATTTTATATTAAAAAATGAGTTAATGGCGGTTCTCATATAACCCCATATTTTTTACAAGTTATATGAGCGATTGCTCATAAAGTAAGATTTATTAATTGCGGTTATTAATAATAATATATATCGACAAGTTATGGATCTATTATCCTATTTAGAAAGAATAATGAAAGCAATATCAGAAATGCTGAACTTTAATTTATTTATGTTAAAATACATTTGAATGAAAAGAGCAAAATAATTTATGGAAAAACAAAAATTTTATTTAGGTAGTCATGTAGGAATGAACGCAGCAAATAATTATCTAATTGGTAGTGCAAAAGAATCAATTGAAAATGGAGCAAATACTTTAATGTTTTTTACAGGAGCTCCTCAAAATACTAGAAGAACTGAAACAAGCAAACTTAATATTGTTGAATTTAAATCAATGTTGATTGAAAATAATATTGATATAAGCAAAGTTATTTGTCATGGACCTTATACAATAAATTTGGCAAATACTGTAAAAGCAGAAACTTTTGACTTAGGAGTTAGACTTTTAAAAGAAGAATTACTTAGATTAGAAGAAATTGGTGTTCATACTGTTGTATTACATCCAGGTGCAGCTGTAGGAGCTCCAAGAGAACTTGCATTAGCAAATATTGCAAAAGGATTAAATATGGTTTATAAAGCTCTTCCAAACACTCCAGTAAAAGTTGCTTTAGAAACTATGTCGGGAAAAGGAACAGAGGTTTGTATTACATTTGAAGAAATTAAAACTGTACTTGACTTAGTTGAGCAAAAGGATAAAGTTGGAGTATGTTTTGATACTTGCCATATGCATGATGCTGGCTATGATGTTAAAAATAACTTTGATAAAGTAGTTGAAGAATTTGATCAGATAGTTGGCTTAGATAAACTATTGGCAATTCATTTAAACGACAGTAAAAATCCAATTGCAAATCATAAAGATCGTCATGAAAATATTGGCTATGGTTATATTGGTTTTGAATCACTTGCCAATATTGTTCATAATCCATTATTCAAAGAGATTCCAATTGTTTTAGAAACACCATGAATTAATGCAAAAGTTAGTCCTTATAAAGTAGAAATTGAAATGATTAAAAATAATAAATTTACAAATCCGTTTAAAGATAAAGAAATAAAATAAAAACTGCTTTAAAAAGCAGTTTTTATTTATGATATAAATTTAATCTTAATCTCAATGACTTATCAAGAATTTTAATATTTGTTTTTATTTCCTTTATTTGTTCAGTAAAAATCGTTTGCAAGTAGTTATCTTGAATGTTTAATAACATTGAAATTGTTGTTAAAAACTCTACTCAAATAGAAGGATTTTCACTATATTGATTCATTTCCTTTAAGTTAATTTGTTCATTTTCAAGTATTTTTTTAAAATCACATTTATATTTTTTTAAGCATTCTTTATCAAATAAGTTAATTATCTTTAAATCCGAATAAATTAGGTTAAAATTACTTAATACCTTGATACATAATTCATTAATTTCTTTATTTGTTATTTCATTTCTTTGATTATTACCTAATAAATGAAATAAAGTATTCATATTGACATTATCATCTAAAAAATCATCACTCATCACTAAATTTCTCCTTTATTTAATAATATATTAATGTAAAATAATAGGGAATTAAGGTGAAAAAAATGAAAAAATTACTTACAATTTTAACTGGCTTATCTATAATTGTTACTCCAGCAACTCAAATAGTTAGTTGTAAAATAACAACAGATAATACTTTTAGAAGTTTTAAAGATATTGAAAAATATTGAGGAACAAAAACTCATAATACAATTATTTTTAATAGTGAACAAGCAAAAAGTGATGATGATAAATTAAAATATATTAATACTGAAATAAAGAAAATTATATCTAATAATTTTATTAATCAAGAAGAAGTTAACAAGGCTTTAGGAAATAAACCAGATAATACAACAGTTAAGGATGAAACTGAATTAATTAAATTTGAATTTTATAAGTCAAATTTGGGTTTTCTAATTGGAAATGAAGAGAAACTGATTACATTTTTAACAGATAGCTTTCAAAATGATAAAAGTAAACCAGTTGAAGTTTACTTTAAGTATAAAGATCCAAATAATAAAGAAAATCCAGATAAACTTAATGATAAATATTTAGATTTAAAATTCACAAATATTCCAGAGTTAAAAAAAGGAGTTTATAAAGATAGTAATAGTATTTTTGGAAATATCAATAAAACAATTCAAATAGAAAAATATTTTTTTAATGATTTAAGTGATGTGGTAAAGCAAAATGATACAAAATCACTTGACTCAGCTTTTTTTAAAAAAAATAAAAAATCTACATTAAAATTTATAAAAGGCATTTTTAAAGCTATAAAAGAATCTTCTGAAAACAACATTGATTTATCAAATACTTTACAGTGAGTCGAAATGGAAAATCCTCATATTAATGATGAAAAAAATCCTAAATATGAATGAAAAGTATTATCTCCTGAAGAACAGTTTTATAGAGAATTATTGAACACATCTGCTGATGAAGAAAGCCTACTAGAGGGTTTTGGAGAGTTAATAAAGGAATTAAAAAATGAAAATAGTAGTGGTTTAAAAAAATTAACATGATTAGGGTTAACAGATAATGTTTTTATTTTAAAACAATAAAGAAAGATAAAAAAAGAAAAATGGAAAAGACAATTAGTATATTAAAAAAAAGAAGAAAAAATACAATTCAAATTTTGTATAGACTTTTTTTATTAGAAGAAGATATCAATAAAATAAAACAAGAAGTTCTAGATGGTTTTCAATTGGAAACATTTGAAGAAGAATTAAATAATTATATTTTTGATATCTTAGATAATACACTTGAATATAAAGCATTAATCTCAAATTTACTACCTGAACTTTGAAATTGAACTAGATTACCTAAAATTATTCAAGCAATTTTAGTTAATGGAGTTTATGAAATTAAAAAGGAAATAACACCAAAGGCAGTAATTATAAATGAGAGTATAGAATTAACAAGAGAATATTTACCAAGTTTTGAAACAGCATTTGTAAATGGTCTTTTAGATAATATAAAATAAGAGGGTACAATTATGAGCATAACAAATTTTACAAATTTTAAAGATGATTTAGCAGATCACTTAAGTTTAATGGCAAAAGAAATCAAATTTTTACTTTATAAAGAGTTTAAAAATTATATTTTTAAACTAAAAATAAGTTCTTACACAGAAGTAAAAGAAAATTTTTTTACAAAAGCTTTTTGTGAATTATCAACTTATTGCTATTTACAAAGTTTTGAATCTAAACTTCTAAATTCAAAAAATTATTTAATAGTAAAAGATTATTTAAAAAATTCAAAGAGAAAATTTTCAAAGCAGAATTTTGAAAATGTTGTTTTTATAACTGCTACTAAAGTATCTAAAAAAGACCCAGAAATTCAAGATGTTATTCATAAATTAACTGATGAACTAAATGTAAATGTTACAATAAGAAATTTAGATTGATATAATAATCAACACTTTTTACAGTATGCTAAATTAGATAGAAAAGTTTCTTATTATCAAGAGCAATTAATAAAATTAATAAAAGTTTATGATAAAGAACTATTTGATAATTTATCAAATAATATTTTTGCTGGAACTAAAATAAGTTATAAAAATGAATGAAATCAATTTTTAACAAAAAAAATTATAAACAGTTTAGATAAATTTCTTTATACACAATTTAATTATGATGAACTAAGATATCAAAATAAACTTGAAAAATTAAACGAGGTTATTAGCGAAGATACTATATATGTTTTTTTAAATAATGTTGAAGTGAAAGATAACTACAAAGCAACTTTGGTAAATGACTTAAAGTTCTTTGAAATTTTTATTAAAGATGACAGTCCTATTTTTACAATAGATAAAGATAATTTCTTTAGTTTATTAAAGCCATTATCTTTAAGAAATTTCAAAAATTTTAATGAATTGATTAAATACTTATTTAAAAATAAAAAAAGAAATCCGACAACTGAGTTAACAACAGATACTTCAAAAACAACAGATACTTTAAATTGATATTGAAATAAAATTCTAGAAAATACAGATTCAAATGAAGAAAATAAGGATCTAAAAAAAGAAAATAAAAATTTAGAATCAGATGAAGAAAGAGATCTTGAAAAAACAGTTACTTTTAATGCTCATGAAACTCTATCAGATTTATCAAATGATAATATTTTTGAAATTCAAGAAGATACACCAAATGATATTTTAAATGAAAATGAAATTCAAGAACCAATTAATAGCATAGTTGAAAAACCAATTTCAAAAGATAAAATAGAGAGATTTCAAAATTTTATAAAATTATACGAAGAAAATAAAAATGAAATAGAATTATTAACAGATAATTATGACCAAGATAAATATTTAAATTTTAAAGAGTCTGTTAATAAAAAGGACATCTGAGATTTATCAAATTTTATTGATAATAAATATGATGATTTAGTTTTTTATTTAAAAAATAAAAAAATATTGAAACAAGATTTAGTTAATTATGAAATTTTATATCAAAAAACAAAAAAATGTCTTGAAGAAAATGAATTATTAAAATAAAAAAGTAGATGATAATTAAGAGGTGCTACTATGACAGAAATGATCTTTAAAATTACAGACTTTACAGATATGTTAAAAGAATATCTTGAGAATTCAAATACTTTTAAAAATGTAAATGTAAAAGGAGAAGTTGCAAATTTAACTCTTAATAAAACAGGACATATTTATTTTTCGCTTAAAGATAGTCAAGCAAAAATTGATTGTGCGATTTGAAAAACTAATGCTAGTGTTTTTACTAATTTAAATATTCGAGAAGGAACTGAAGTAATTGCAAGAGGTTCTTTATCATATTATAAACCAACAGGAAAAATTACTTTTATAGTTTATGATGTGAGAGTTGATGGAGTTGGTGAACTTGCTCTTTTATATGATAAAAGATATAAGGAGTTGCAAGAGCAAGGTTGATTTCTAGATGAATTTAAAAAACCAATTACTAAATTTCCAAACAATATAGGAATTGTAACAGCTGCAACAGGAGATGCTATAAAAGATTTAATTACAACAATTAAAAGAAGATATCCTCCTGTAAATATATTTTTATTCCCTTCATTAGTTCAAGGTGATGGAGCAGCAAAAGATATAGCTAAAAAAATAAAACAAGCAAATAACTTTAAAATAAAAATTGATACTTTAATTGTTGGAAGAGGTGGGGGAAGTTACGAAGATCTTTGATCATTTAATGAAATGGAAGTTCTTCAAGCAATTAAAGAAAGTGAAATACCAGTAATTAGTGGTGTTGGTCATGAACCAGATATAACTCTAGCAGATTATGTTTCTGATTTTAGAGCTTCCACACCAACAGCTGCAGGAGAAAAAGCTACTCCTGATACAGAGAGTGTATTGCAAGCTTTATCTACAAAAACAAATGACTTTGCTAAAGTATTAAAAAATAAAATAGAAAAAATTATTATAGAAGTTGATAACTTTTCAGCAAAGTTACAATTAAGTATAAAATCTAAATTTAATCAAATGATAAATAACTTTAAAAATACTTCAATAAATTTTAATTCAATTATTATAAATAAACTAAATTTCATCAATACTAGTTTTGAAAATAATATTTTAATTTGAAAAAAAAGTTTAGCAAATAAATTAGAAAAAAATATTATAGAATTAAAAACTTATGAAGAAAAAATTGAATTACAAAGTCCTTATTTACCTTTATCAAAGGGATATTCAATTTTAAAACAAGAAAATAAAGTTATTAGATCAGTTAAAGATGTATCAAAAAATCAACTTATTAATGCTGTATTAAAAGATGGAACTGTTAATTTTAAATTAGAGGAAGGAAATGAATAATATGAATAAAAAGAATTTTAATGAACTATTAGACGAAATTAAAAATATTTCAAATAAATTAAATGACTCAAATACATCAATGGAAGATTCAATTGAATTATTTAAAAAAGGAACTGATATGATTAAGGAAGCTAAAGAACAACTAACTAATCTTGAAGGTGAAGTTAAAAAAGTTTTAGATAACAATGAAGTAACAAATTTTTAAAAATCTGGTTTAATAACCAGATTTTATTTTTTTGCAATTTTGTTTGCATCTTCGTCAATAATTAAATTGAAATAAGGGTGTAATGTTAGTATTGTAGAGGGAATATCTTCAACAACCGGACCATTTAATAACTGATCAATAATTTCTGCTTTATTTTCTCCATTAGCAATCATAATAATATTTTTTGTTGCCATTATTTCTCTAGGCCCCATAGTTACATATTCGTCATGAAATAAGTTATTATCTAATTTTGGAACGCTGATATTATTTTCCAAATCCTTATTTTTAATTAATCTTGTTTTATCTCCAAATTTTGTAACTCCAGATAAATTTCCACAAAAATGACCATCAATGCCAATACCTAACAAAACTAAATCTAAACCTCCATCAGTTTCCAATTGTTTAATGTGTTCCTTTCAATTTAATATATTCATTTTATGAATATTTCCTTCATCTATTTTTGTCAATGAATAAAATATTCTTTCTAAATCATCAATAGTAATACCCTTTGAAAGATCATTTTTATAAGGAATCTCATCAAAATTGTAAAAGTGAATTCTTTCTAATTCATTAATTTTATCTAAGTTACTTATTAATTTTTTATAAAATAGCAAAGGAGTTTTTCCTCCAGTTAAAGCAACGTTGATTCTTTTTTTATGTTCATCTTTGTTAATAATATCAATAAATAGTTCTAAAGCCTTATTACTCATATCTTCATAATTTTTTGTTGTAATAACTCTCATTTTTTTAAAATCCTTTCTTATAAAAATATTTTAGAATAAGTTATTGTATATTTACTTTCCAAAAAGGAAAGTAAATAATAAAAAACCCAAACAATTTGGGTTTTTATAGACTCAATATTGTAAAATAAGATAGGTGAAAAGAAATGAAATTAATAGACTTAAAAAATTTTAAAGATTTATATCAACTGAAAGATAATGAAAATTTAAAACAACTAGCACAAGAAATTAGATTTTTTTTAAATGACTTTGTAAAAAAAAATAAAGGTCATATTGGAAGTAATCTTGGAGTTGTTGAATTAACATTATCAATTTTAGTCTATTATAATCTAGATAATTCAATTGTCTTATTTGATACAGGTCATCAATCTCATGTTTATAAACTTTTAATTCATGGAATTAAAAAATTTAATACATTAAAAAAGTTTAAAGGTTTAAGTAATTTTCAAGAAATTCAAGAATCAGAACATGATTGAATTAGTACAGGACATAGTTCAACTTCAATTGCCTATCAATTTGGTTATGCATTGGCTAGTAATAAGGAAAACATTATTTCAATTATAGGAGATGCTGCTTTTTTAGGTTCATATACATTACCAGGTTTAATTAATTTACAAAATACAAATAAAAAAACAATTACAATATTAAATGATAATAATCAAGCAATTGGAGAAAATTCAATAAAGATAAAAGATATGAAAATGTATATTGAATCTTTGGGTCTAAAATACATTAAATGTAATGATGGAAATAATTTTGACCAATTATTTAGTGCCTTTGATCAAGCAAAAAAAGAAACTAAACATGTTTTTATTCATTGTATTACTAAAAAAGCCTTGGGATATAGTGGTGAAGAAATTTTATTTGAAAATCATTCTCTAGAAGCGATAATTCCAAATAATTATTCTAAGCTAGTATCTAGTGAATTAGAAAAATACTTTACAAAAAATGATTATTTAGTTTGTCCAGCAATGATAAGTTCTTCAAATTTTAATAATCTAAAAAATAAATTCAATCAAAATGTAATTGATGTAGGAATCAATGAAGAATTTAGTGTTCTAACAGCTTGTGCAATTGCAAATACAAGTAAAAAAACATTTATATCAATTTATTCAACGTTTTTTCAAAGGATTTTTGATCAATTAGTTCACGATGTTTTTAGAAATAATCTTGCAATTACTTTTTTAATTGATAGGGGAGGTTTAAGTTATGGTGGGGGAGTTAGTCATCATGGAATTTATGATTTATCTCTTATTAATAACTTTAATCAAGCAATAGTTTGTCAACCATATAGCATAAATGATTTGAAACAGATGGTTAAACAAGCTTATATAACAAACAATAAGCAGTTTTTTTTGAGATATGAAAATCTAGAAGCAATTGAAGATGGTTCAAATTCCCAATTTGAAATAGGTGAATGAGAAGAGTTAATTTTTAATAAAACAAATTCCACTACTTTAATTAGTTATGGAAATGTACTTAATGAATTTAAAGAATATATAGAAAAAAATAAATTAAATATTAATTTAATAAATGCTCGATATATTAATCCAATTGATACAAAGTTAATAAATAAACATTTAAATAATAAAATTTATGTTTATGAACAAGTTATTAATAAAAATAATTTATTTACAAATATTAAAAATAAATATAATAATTTTAATATTTATAACTTTTCATTTGATAAAATTAATATAAAGCATGGTGAAAAAGAATTATTATTAAAGGATTTAGAAATGGATGTTGAATCCATTATAAAGAAAATATTAGGAGTGTAAGAATATGGAAAATATAATTGATAAAAATTATTTTTTAGACAAAGTTTCAAAAGACAAAGAAATAGTTGATTTACTCCATAAGCAAACTAGTAAAGAAAACATTGAATTTTTTGAGCATTTAAAAGAATTAAGAAGAATTTTACATTTAAAAACACAAACTGATAAGAAAATTTTATTTGAATATGAGAAATTAATAGTTATTCCAACAGGATCAGAAGATACTTTAGTAAAGGAATTAAATAAATTCAATAAAGAAATATATGCTAATTTACCTGAGCATTATATTTTAGAGTTTGAAAAAGATGAAAATATAAAAAATACTAGTAGTAATAACTTAGAAAAAGCATATCAAAAAAATTTAAATCCAATTGTTGAAAAAACAATTCAGGATTTTGGAGATTCAATTTCAAGTGAATCAAATCCAAATGATTTTATAGATAATTTATTAAAAGATGAAACTTATGAGTCTGAAATTATTAAAAATAGTAGAGAGATTTATGTAGATTCAAATGAAGAAAAAAATAAAATGCTTTTAGATATTAGAGACTCTTTAAAAAAAGGAAACTATAATAAATTAAATTTAACAAAACCTTTTTCATTATCAACAACAAAATATATGAAAAAACTTGAAGCTTTAAAAAAAGGTTTTGAAGATACTTATGGTAGTGAATTATTTAAAAAAGTAAGTTTGTGAGTACATAAAGAAAATCAACTGTATGAAAATATTGATAGAAATAAAAAAATAAATAATTTAAAAGCAGAAAAAATTAAATTAAAAAAGAAAAAAAGGATTTAAAAAATTATTTTAAGGAGATTGCTCTATGAAAAAAAGACTTGATCAAATTTTATTAGATTTGCAATTGTCAGAAAACAGAAATAAGGCTAGGGGATTTATAATTGATGGTAAAGTTTTAGTTAATGATGAAAAAATAACTAAACCTGGAACACTATTTGATCAGGAAAAAGTAAAAATTAAAATAACTAAACAAGAAAATGAATTTGTAAGTAGAGCAGGTAATAAACTACAAAAAGCAATTAAATATTGAAATATTAATATTGAGAATAAAGTTTGTCTAGATATTGGTTCTTCAACTGGTGGTTTTACTGATTGTTGTTTACAACATAAGGCAAAATATGTCTATGCAGTTGATGTGGGTACTAATCAATTGGATTGAAAATTAAGAAGTAATGAAAAGGTTAAATCTTTAGAAAAAACAAATTTTAGAAATGTAAATAAAAGTTTTTTTGAAAAAGAAATTAATTTTTTTTGTTGTGATGTTAGTTTTATTTCTGTTGAAAAAATTCTTTTACCTTTAAAAGATATAGTAAATGAAAATGTAACAGGAATTATTTTAATTAAACCTCAATTTGAGTCAGATCGTGAAGATGTTAAAAATGGAAAAATTAATTCAAAAGAAGGACATATTAAAGCAATTAAAAGAGTTATTAACTATTGTAATCAAAATCTTTTTTCTATAATCGATCTTAATTGATCGCCAATACTTGGTAGTAAGAAAAAAAATATTGAATATTTGTGTTATATTAAAAAAATAAATGAGTTGCAAAATAGCTTTAATATAAATTTAATTGAGCAATTGGTAAATGAATGTTGGGAGTTTTTTGAAAATAATGGAGAAGAATAAGAAAGTAATTTTTCTTTTAGATATGGATGCTTTTTTTGCAAGTTGTCATATGGCAAAAGATCCAAGTCTTAGAAATAAAAATGTTGTAGTTGCTTCGCCAAATCGAAGAGCAATTGTAACTACAGCAAGTTATAATGCAAGAAAATTTGGAATAAGAGCAGGTACACCAGTTTTTAAAGCATTGGAAATGTGTAAAGACCTTTACATTGCAAATTCAGATTTTAGTTTATATATTGACTATTCAGAAAAAGTTTTTGATATTATTTATAATAATTTTACAAAAAGTTTTGAAGTTGCTTCAATTGATGAATGTTATATTGATATGACAAAAACGTGAAAAAAATTTGGCACAGTTAAAAATGCAGCTCAGGCAATTATAGATATGATTTATAAAGAAACTGGTTTAACTTGTTCAATTGGAATTAGTACTAATAAATTTTTAGCAAAAACATGTGTTGATTTTAATAAGCCAAAAGGAATTTCCTTTTTATTAGAAGAAGAAATTGAAGAAAAGCTTTGACCAATGAAAGTTGAAAAAATGTTTATGATAGGTCCAGCAACTCAAAAAATTCTTAATCAAAATAATATCTCAACAATAAGAGATTTAGCACTTCATGATTTAAATTTTTTAATTGAAATATTAGGAAAAAGGGGAATGACGCTTTGATATTGAGCTAATGGTAAAGGTAATGACGAAGTAACAAGAGAAGCTAGTGAATTTAAATCAATTGGCAATGAATTAACTTTGAATTTTACAACAACTAATCATGAAGAGATTGAAGAAATAATATATGAGTTAAGTTTAAAAATTGCAGATAGAGCCAAAAAAAGATTTCTACAAGGTAAGACTATTACAATAGTTGTTAAATATTTAGATGATAATACAAGTGAATTTTATAATGATAAGTTAAGAAAAAAGCATATTACAAAACAAGAATCAGTTCAAGAACTTACAAATGATCCAGAAATAATTTATTCTGTTGCAAAGCAATGTTTTTATGAATTATGAACTGGTCAACCAATATTATTGTTAGGAGTTAGAATAAGTAATTTAGCAAATCAAATTGAACAAACAAAACAGTTATCAATTGATGAAATAGATTTATATGAAGGTATTGACTATAGTGAAGTTGAAAAAGTTATTTATAATTTAAATTTAAAATTTGGAAAAGATAAAATTTTTACTGGCGATAAATTACTAAAATATATTGAGAAAAATGTAGTTCAATCTAAGTTTTTAAAAAATGACGATGTTCATATTTCAAATGAGCAAATGATTAATAAATGAAAAAATAAATAGGGGGTATAAAAATGAAATATCGAATTGATGATTTAATCTTGGAATTACATTCAATCCATAATCAATTAAATAAATTTTTATTTTCCAATACCCTCTTGCAAGTTAAAATAAATATTGAAACTAGTAAAAGAAAAAGTAGACTAACCTTAGGTCACTTTGATACAGCAAAGGATTGATCAGATAATTTGAATCAAATAACTATCTGAACTTTAGCTTTAAATGGAGATTATTTAAACATCATAGGGGTGCTTGTTCATGAAATGGTACATCAATATAATTTTGAAAGAAATATTAAAGATGTTGAAAATAATCAAAGACATAATAAGCATTTTAAAAAAATTTGTGAAGAGGTGGCTATGCTCACTGTTGCTAAAAATTCTAGACGTGGATTTTCATCTACTTCCCCTTCACAAGAACTTGTGAAATTTATTGAAAATGAACTTGATTTTAACAAAGACCTATTCACATCTTTAATGCATAAAGATGCTATTAATTATCATCCAAAAGGTTATAATAAAAGTAATAAGTATCTTTGTAAAGGTTGCGATACTATTATAAACAATTCAAGAGAAGTGACACTAAATATTAAATGTATGGACTGCAATATAATGTTTGAAATATTATAAAAAAGTGCATATTGTAATATGCACTTTTTTATAAAAACACAATATTTGCCTTTACTTGGTACCTAATAATGTTAAAATTGAATTATATCTTTACTTTGAAAAATAGATTATACGGAGGTTTTTATGTCAGGAATTGTACCAAAGTTTTGCCCTACTCACTTAAAAATTCATACTTGTGAATTACAGAATGTCTTTAATAAAAACAAAGTTATTCATGAAGGACTTAACGCCAAAATTAGACGAATGCATGGTATTCAAACTGAAGAAGAAATTGCTCAAAGTAATCTAAAACAAAAAGATGCTCCAGGTAGTATCGGTGATATTTTATCAAAAGCAAAAGTTCGAATTGAAGAAGAAAAAGAAAAAATTGCCAAACTTCCTCATAATGAAGAACCTGAGACAAAAGTAGTTAACAATGATGAAATAAATGATAGAATTGCCAATTTAAAAGCAAAAATGGCTGAAAATAACCAATCACCTTCTAATACTTCATCTGATCTTCAAACAGTTATTGAAAATGCTCAAAACTATCAGAGTAATCACCCAGAAACTCAATATGAAGCTCCTAAAAGAGCAAATCAAGGTAAAACCAATGGTAGAATACTACCAAGAGCAAATCGACCCCATATAACGTCTAAAAGTGCTGATTTAGTAGCAAATAATACTACTAAATCAGCAAAAATCAAGCAAACTTCAATAAAAAAAGATATTGATGAAAGAATGTTTACTCAAGAAGAAACTCAAGAATTAATTCAACTAGCTGTAAAAGAAGCTTTAAAACAAGTTGGATTAATAAAAAATGATAAAATAAAGAAAAAACCAACTACTAAAAAGTTAACCAATAAAACTAAAACTTCCACTGTTGCTAAAAAAGCAACTAATAAAAAAGTGTCTACTAAAACTAAGGAATCAGCAATTGTTAAAAAGCAAAGTAATAAAAAACCTACTGTAACCAAAAAAGTTATTTCAAAAAAGAATAAATAAAATCAAGATGTCAATCTTGATTTTATTTATAATTATTTTCTTTAAAATATCTATTATCCCTCTTCAATTAATTTAATTAAATTATCAATTTCTTTAAAAAATTTACTTTTACTTTGATTATTTTTCAAAATATAATCAAATTTAGTTTTTTTAAGTTTTTTTAGTTGAAAAGCTGTAATAGATTCAATTTCTTCCAATTCCCTATTATCTCGTTTTTTTACAATTTTTACTCTTTGATCATTTTCCATTACTAATAATATTTTTTTATCAAATTTTACATTAATTCCACTTATAACTGCAGCTTCAACAAAAATTAGTTCTGCGTCTTTTTCATAAGCAATAATTTTATTAATTTCTTTTGAAATTAATGGTCAAGCAATTTTCGTAAATTTTTCGTTTAATTTATGATTGTTAAATAAAAATCCTCTTAAAATTGATCTATTAATTTTATTTTCACTTATTGCCTCTGGCATAAATTTTTTAATAAAATTTAAAATTTTAACATCATAAAGAATGTCTTTAGAAACCTTATCTGCTTCTATAACTTTTATTTTGGGATTTTTAATTAAATATTCCAACATAGTTGTTTTACCTGTACCAATAAAACCACTAACTCCTATTATTTTCATTAAAAACACCTCTTTTAATTAATTTTAATTATAAATTATTTTATTAATATAATTGCTAATAATTGATTTTATTGGTGAAATAGCTTTAATTATTTCTATGCAAATATCTCTATAACTATTAAAATCTTTATTATTTTTAGCACTTTCTAATCTATTGATCACATTTGTTTTCTTATTAATATTTTCAAAATTATTTAAAACTTTATTTTTTAAACAAAATCCTATTTTTGGTAGTAATTCTTTTTTTGTAAACGCAATAGCTAAAATCTGTTCAAGTTTAACTTCAGCTTGAAATAAGTCTCATGTTTTTAATGCAAAATAATAATCTTCGATTAACTCTTCTAAATCACTTTTATATCTTGCAAAAAAATTATTATTTGAAGTTAAAATTAAATTTTCAATTAAATTTACTAGTTCAAGATCAACTGCAGTGAAAAAATTTATTTCTTTTTGGATTTCATTTGAAATAGTTAATCAATCGTTATATTGTGAATCTTTAATTATTTTTAATTTTTCAACAACATTTAAATACAATTGTGTATCTGTGTTATCTGCTATTTCTAACATTTTAATTAGTTTTTTATAAAATAAAATGCACTTAGTTTCAACTAATGGATCAAATGTCTTATCTTGTGATAAATCAATTTCATTATAATTTTTTTTAACTTCTTTTATATTTTCATAAGGTTTTGTTTCTAAAGATTGTTGATTTTGTTGAATTTCACTAGTTTTATTTTCTTCAAAATTATTAATTGTATTCATTGATTCAAACTCCCTTTTAGCTTCTCAATTAGTAATATTTTTAGCAATTTCAGCTGTTTTAAAGTCATTAGTTTCTAAATTTTTGCTTATCTCAGAATTTTTTATTTTAATATCATCTTTATAAATTGATTTATCAATTAAATTTTTTTCATTAATTTTAGGTTTCTTAACTTTAACATATTGATCTGCCAATGATGTACCTGTTTGCAGATCAAATGCTTTCAAAACTGCAATATTAATTGTTCACCAACTGCATTCACCAAAAATAGCACCTATAAAGCCTAAAAATAATGCAAGAAATTGAATGATAAAAGGCATCATGAATCACATTATTTTATCAATGATTTTATAAACTTCTTGAGGATTATTAACTCCTTGTAAATTCGAAAATCAACCATAAGAAAATCAATAAATTTGTCCAAATTGCCCTTCTAATTGGTTTACAATTTTGATTGTAATAGCTTCGTCAATTTCTATAAAATTTGAAATACTAAATTGTAATGATACCCCCATAAAAAATGGTGAAGCAGATAATAAAGATAAAAAAGTTGTTAATGTCAATAAAATTAAAAAAACTCAAACAAAAATTATTGTTATTTGATAACTTCGAATTGGTCTAACGATTCTTGAAATTCCATTTTTATTTTTAATTTTATAACCAATATAATAAGTTATTAATCGACTAGTTAAAAATATAATTGCTAATAAACTAAGAGACATTGGTAAATAACAAATTAAAAATATATTTGGATTAACTATTCACGATTTGCCATTATATAAAAACATTGATAATATATTTTGATAATTTTCTTGTAAAATTGCATCATTAATAGTTAGAATATTATTTTTACTTATTATTGGAGATATACTTAATAAAATAGTATAAATTAATATCAAAAAAGAACAAACTATTAAAGCAATAATCATAAATTGCGATTTTTTATTATTTTTTAAAATCTTAAATTTGCCCATAACATAACATCCTTATAAACTATATTAATTATATAATATTTTTAACTTCTTTTTATAGAATGGTTTTAAAAAACTCTATTTTGTTAATAGAGTTTTTTAATATTTAATAAATTGATCAAAATCTGATTTTAAATCTCTATATGTTAAACAATCATTAATTAATTTAACTTGATTTTCAATTAATTCAAAAACTGAAAATTTAAATCTTTGTTCACCAGATAAGTAAATGCCATCTTCTTCAATTTTATGCTCTGGTGATAAACAATAAGGTAGGATTTCTTTATTAATAACACTTTCGTTGAAGTATTTAAATAAAGGTCTATACTCACCTCTTCCAGGTCCTAAATTAACCAAACCAATTGCTACTTTTGGATCTATTACAAAAATACTTAAAATATTAATTTTTGTTCTATCATCAATAAAGTTTGCAATAGTTTTATTTGTTAATAAAAATGTCTCTCTATCTAAATCAGATATTCTAAAAAATTTAAAGAAAGTATTATTAACAATATTGTGGAAGTATATATCTAAAAATTTGTAGTTTTGAGTTACTAAAATATCATAAGGAATAATTATTCTTTTTTGATATTCTTGTAAATCAAAATTTATTGAAGAGTCTTCAACATATTCATATAGACTTTCAAAAGTTCTTTTACTAAAAATATAATCATACATTTCAAAAAGAACATAGCTAATTACATCTAAAATTATTAATCGATATTCTTTTTGAATATCTTTATTTAAAACATCAAAAATTCTATATTTTTTATTAGAATTTGAAAATGAATATTTATACTCACCATTTATTATAGTTATCAAAAAATAGAAATATTTTAAGAAAAGAACCTCTTTACCTGTAACTTCAATATTATCTTTATTTTTTTTAATTCTTTTATCAATAATTGCTTTAGCTACTTTTGATATTTGATTAAATTGTTTTAAAATTTTTTTAACATCATAATTTTCATAATCACTAAATAATACTTCAATAAAAGGAACATTATCCATCTTAATTTCTTCAACTTTATCACTTACAAAATCAATGTATTTAAAACAAAATGACCCATCTTCTTTTTGGGTTAGCCAATTATTTAAAAAATCAGTTGGTAAAATTAAGTTTCTTTTTATTTTTTTCATATTAGCTCCTTCTTTATTCATTTTCTATTAGTCATAATTGTTTTGTTGGTGAAATTGGTGTTGCTGTAATGATAGTTTTTTGAATTTTATCAACAACAAAGTAAACTTCACTTTTTAATGTTTTTATATAGATATGTTTACTAGTTTCAAAACTATAAATTGATTTTGCAATCATTTTTAAAATTTTATCTTTTAATTTAAATTCCTCTTCATCTTTAAGTCTAAGCCTTTGTCTTATTCTTTGAATAGAATGAGTTGAAAAACCATATTCATGCTTATAATAATAACTCATAAAGTACCTCACCTTTATGATTATAAAGTTTTTTTATATTACATTAAAGTAAAAATAAAAAAAGGTTATATAAAAAATGTAAATTACATATATCTTATTAAGAATTTTATTTTTTTACAAAAAATAAACATGAAATATAAATTATATATTAAACTAACTAGTTCAACAGATTTTATATCATTTTCTTACTCTTTTAGGAAGCAAAGCTGAATATTCATTGACTTCTTTGCCTATCCTAAACTGTACCTTGAAAGATAGTCTAGTTTTTTGTATTAAATTATTTATCTATTAAGTCATATTAAAAACCCATACTAAAATATGACCAAATTTCAGATTTCTTAATTATTTGTCTACTATATCAGCTACCAGGTCAACCATAATTAACGACATATTCATTTCTAGAATCATTATAACCATATATAACTATTGAGAATGCTCTTCTTCTTTAACAAAAAATGACAATAAGACACGTCTGTCATATTTTTTAATTCAATTTTCGGTTTTGAATTATGGAATCAACTAACTGAATAATCATAATTTTTTTTGAATTGGCACCTAATCATGTCTTCATTATTTTTTTAATACCTTTTCCTTCTCGAATGTTATAACATCTTCCACCATATTTATCTGATACTTTTTTATACATTAAATAAGAAATTGTATTTTTATTGCCGCTACCACTTTCATTATGAAATATACTTCTAGAATCTAATTCTGATTTATATATAAATCAGAATTAGAATATAAATTATATTTTTAAAAAACTGGAGAATAATTTATTAACATATTAAGAGCAATATATTCACACAACCCTGTTCATCATGATGAATCATAATTAGAAAGAACTCTACATGTCAAACTTGATTTGATGATATTTTTTCTATTCATTTTCAATTAGTAACTAAGTGTGAGAATTCTGCAATTTCTTTTAATAACCTTATTTTGACTATTTGAATAAAGGTTAATTTTGCTTTTTTCTATTTTTTTATAATTATATGTAAATTGCACTTCTCCTGTAAGAGTTGGTTGGTTATGTCCATCAATAACTCTAATAGTGCAAGAATCATTTGTTGGTTCATTAACGAAAATTAGATGATTCAATGGTACTGATCATCGTCAATCTATAACATTTTTATGTGCCCTTTCGATCGCATAATATATAGTTTCAATACTTGGAGTATCTTTAACTCCTGATATTAAACCTAAATCAAATATTTCAAATTCATCTTTAAAAGTATGATCAATGATTGGCCTTGTATCAAAACATGAAACAACAGTTGATGATGAAGAAATAACTAAAGAAATCCCTCCTAATAGACTTAATAATTTTTTCATTTTTTACCCATTTTCTATAATATTTACTAAAAATATTTTATCATTTCAAAAATATTTTTAGTAAATATTACTTTGAATTTTATAAAGTTTTAATAATTTAATATATGTCATATTAAATTAATTTAAAGCAACAATAATTATTAACAAAAAAACAAAAAAAAAGTACTTAAAAAGTACTTTTCAAATTAAAATTAACTTTCTACTATCTTACATTTTATACAACTTAAAAAATCCTCATATAAAATTAGATAATAATTTTTCTTTTTTATTAAGCTTTTCTTGTTTTTTTATTTTTGTCACTTTTACTATTTTTTTTAAAAATTGCTTTAAAACTATCTTTTGAAATTCTACCTTTTGTTTGAATTTCTACCAATATTCTAAATAAAATTATATGACATATAACTCCAATAATTATTGCAATTAAATATCAAAGTATTCCAATAAAGTTTCCACTTTTATCTGTAACACCTGCAAATATTGCAATAATTGGACCACCTCAAGCTCCAACATGACCTTGAACCATAAATGCTCCTGCTATCATCCCAGCAATTCCTGAACAAATTATATTTGGGATAATTATTGCTCATTTATATTTAATTGCAAATGGAATTGCACTTTCACTTACGCCCATTACTCCTAATACTGTTGCATTTATTCCTAATTCTTTATCATCTTTAAAAGTTGATCTAAAAATCATTGTTGAAATTCCTGCTCCAAGTGGAGCTACTGCAAAAGCAGCAGCAGCACATCCCATTGCTAAACCACCATCAACTGGTATCATAGCTGTTGCTCCAAAGGAAGCAATTTTATTAATTGGACCACCCATATCAACTCCAGATAAAAGACCAAGAACTAATCCCACTAATATCATACCTACTCCTGCATTTTCTAAAGCAAGAATTCCTGTATATAAATAACCAATAGCAATTCCAATTAATGGTCCAAATGTAAACATTCAAACTACAGCAAAAATTAATGTTAAAAAAACTGGAATTATAATAATTGGCATAATTGGTTGAATATATTGATGAATTTTTCATTTTGTATTAATTCATTGAACTGTATAACCAACACTTAAACCAAAAATAACTGCTCCGAAAATATTTAATGGTTGCATTACAGAATTTATTGAAACCATATTACCATTTTGTCCTTCTACAAGGATATTTTGAAAATATCCTTGTCATACAAGAGAAGGATTATTTCCAATCATTGTTAATATAAAAGCAGGTGCAATTGCAGCTCGACCCGCAATTGAATTTGCAATGTAAGCTCCTGCTATTGCCATCATAACTGAAAATCCTATATTTGAAAATTCATTTAAATGTCACATAAATTTGACTCATCCAGTTGAATCTGGGGTCAAAGTAACTTTTGCAGCATTTGCAATACCCGCTACGATTGCAGAAGTTAAACCTGCAAAAACAATGAAAGGTATCATATAAGAAATTCCTGCCATTAAGTGTTGAACTAAACTTTGTTTATTTTTATTTTTGACATTAAATGATTTATTTTTATTATCATTTGTAAAAATAGTAGATTCTTTAATAGAATTTTTTAATTCTTCCTCAGCATTTCTTAATGCTTTTTTTGTACTTACATTATAAATTTTTTTTCCAATAAATCTATCTTTATCAACAGAAATGTCAACTGCTAAAAATATAACATCAGCTTCTTTAATATCTTTTTCTGTTAATTGAAATTCATGACCCTTTTGACCCTGAGTTTCAATTTTTACATTTCACCCAAGATTTTCTCCTGCTCGTAATAAAGCTTGTCTTGCCATATATGTATGCGCAACTCCCGTTGCACAAGCAGATACACCAACAACGTTAACACTATTATTATTTGAATTTTTATTTTCTTGTTCCTTTATATCAAATGACTTTAAAATATCAGTTTTAGTTTTTGAATTAATAATTCATGCTTTAAATTCATCAATTAATAGTTTTGTTGAAATTTCACTCAATATTGCTAAATAATTTTCATTTTCATTTTCTAAAACCATTAATGCAAATATATACTTTGTTGGTTTTCCATCCAATGAGTTTCATTCAACATCATTTTTTAATTTTACAAAAATACAAGAAGATCTATTTATTTCTTTTATTCTTGCATGTGGAATAGCAAATCCATTTTCAAATCCTGTTGTACTTTCAGACTCACGTTTTTTAAAACCATTAATTAATGATTCCTTATTTGAAACAATCCCTAATTCAAATGCTTTAGATGAAATAAAGTTAAAAACTTCTTCTTGTGTATTTAACTCTACATCTAAAAATATTTGTTCTTTGTTAAAAATATTTTTTTCCATATCTTTTCTTTCTATGGTTATAAAAACTTATAACCATATATATGTTATAAAAAAAAAAAAAAAAAACCAATATTTTTTTCCAAAATATAATAGTTTTTTAGAAAAAAATCTTAGTAATTTTATAACTTTAATAATTATTTTTTATTAAGAAACTCTTAATTTCTCTTCCAGACCTATATTTAATATCCAAATTTTTACTAATTAATCTATGACAAGGAATTAGCAATAAAATTGGATTTTTTCCCATACACGAAGCTATAAAACGTGTATGATCTGATTTCTTAATATCTTTTGCAAAATCAGAATATGTTTTATATTGTCCATAATCTAATTTACAAAGTTCTTTTAATATCTCTATTTGTTTTTGCGTTAAATTTGGTAAAAATAAATCTTGAAAATCTAATTCTATTTTTTCTTTATTTTCAAACTTTCTTAAAAAATTAATATATTTAATAAACTCATCATCTTTTATTACATTTCTTATTGTATATTTATTATAAAAATCATGAATATTATCTTGTTCAAAACCAATGTAACTTAATTTATCGTTAATAATACCAATTTTAACAATTTTATTTTCAAACATTGTAATCTTAAAAATTTTTAAAATATTTTCAACCATTCATATCACCCATTTAAATTATATTAAAAAAACTCAACATCTGTTGAGTTTGTCAATATATTTTAAATATTAATTATATTTTTATTTATAAATAAATGATTAAGCATCTTGATCTTTTTCATCATTTTTATTCTTATTATTATGTTTATTTTTTCCATTCTGAAGTTCAGCTAAAAAGTCATCAATATCTTTCTTATCTTCATAGATACTTTGATCCATTTCGTATTTTCTACCCTGCATTGCTTCTGCAATCATTGTTTGATATTCATGATTTGCTTTTGAAATTTTATCTCTATCTAATTTTGGATTTAAACATAGAGTTAAAATAATTGTTCCAGCTGTCATTAAAAGTGAAACAAAGAATAATCAGAATAATACTTTAGCTCCTGTCATATTAAATGAACTATTTATTTCACTTAATAATTCTTTAATACCACTTTGATTTAAATTATATCAGTCACTAAAGTTAGCCTTTTCCCCCTGTTGTTTCGCTACATTAAATAACGAACCGCTTAACTGAGAAAGTGGTACATCAGAACCAAAAATATATGAAAATCCTTTAATAAAACTAAAAGCCATCATAATCAAAAACATTGATGGAATAACTAGTGTCATTCCAGGAATAATAAATTTTTGTCTATAAGTTTTAGGCGGCTGTACAATAGTATAAATAGTTCATGAAATAATTAATGCCATAATAATAATATAGGCAATACCCATACCACCAGCTTGCATTCCTAATGAATTTGCAAAAAGTCAACCCATTTTGTCTACTTTTTCACTACTTAAAAATTCTTTCCACTGCTTTTGAAATTCTTGAGAAAATCCAGCAATACTATTAAATTCATTATCAATTAAATAAGGTTTTGCAACTTGAACAAAAATAGATAATACAATAAATAATAATGTAAAAATCCCAATTGAAATTGCTAATGAAAGTTTTAATCATTTAGTATATTTTGGCTTATTATTATACGGATAAAATCTTGGATCTTGTAATGGATGTAAAGGTACAGTTCCCATAAATGGATTACCTTGTGCACTTTGTGCACCAGCCATATTTGAATAATCAGGTATTTCAGTATTGGGTTTTTCCTTTTGTTTATCAACTATTTCTGGTTCAATAACTGTTTTTTCACTACTCTTTAGATATTTCTCTTTCATTTCATTTGAAATTTTTGAATTTTCTTTAACAAATTCTTCTGATAATTCAAAACTTTCATCTGTTAAAGTATCTCTTGCTATTTGCAAGTTATTAAAACAATAAGTTTGTAAGTAAGTAATATCACTTAGTATGTCGTCAATAGTTTTGTTATCTGGTTTTACAAATTTTATTTTTTCTTTAGTAATATTTACCAAAGATTTACCAAAAATAGGTCCTCATTTTTTATCTTTAAAACTACAATTTTCATCTATTTCTAAAATCAATAAATTATTAACTAACTCAATTACTTGCTTTTTATAGTCTAAGTTATTTAATAACTCCACTCTTAGCTTTTCATCTTTTATTAAATTTGCTAATAAAAATATCGAATTTTGATATATCTTGTTAGCTTCCATTTTTTAACCTCTATTCTCATTAAATATTGAACATTTTTAGCAATTCAATCTCTGGAATAATTTTATTGTCAAAAATTCCACCTTTTATATTCTTTTCAAGTAAATATAACAACTTAATTTTATCATTTATTTGTTTAATATTTAGTTTATTTTGTTCTAATAGTTTAGAAATTCGATATGGGTTTGCTCCTAGAGTCGATGCAATTTCTGAATTGCTCATTTTTTCCTCTTTTAATAAAATTATATTTCTTAATGTAACTAAATTACTTGCTAATAAAGCTAGAAAAGAAAAAATATCATTGTTCATTTCCATATAACTAGATCATTGTTTTAAAAAAGTTTTAATATCATTTGAAATAAAACAATTTGCAATTTCAAAACTATCAAAATTATTATATTTTGATGTAATTTCATCTATTAATTTTTTTGTTACTTTTTTTCGCAATGCAATTATTTTATTAATTTCATTTGTAAAAACTTGCATATCATTTGGTAATTTATCAAGAAATATTTCTATTGAATCACTGTCAAATTCTATTTTTGCATTTTCTAATTTTTTAGTTACAATAGCTTTTTTTTGTACTAAATTTGGTTCATCCAATTTTAACATTTTGCATTTTTCATCAGTTAATTTTGCAATCTTTAATTTCTTTGAAAACTTATCTGAATTTAAAGTCATGATTACTTCAACTTCACTATTATTTTTGTTTAAAATTTGCTCTACATATTTAACATCATAATCCTTATGCAATTTAACTTTTGATTCATTTACAAATCAGCAATCATTTATGATAATAATCTTCTTAGTTGAAAAAATAGAATATGTATTAATTTCTTCAATAATTTTTAAAATTGAATCGTCAATAAGTGAATATTCAAAAATTTCATATTCACCATCAGTATTAGCTTTTTGACTTAACTTATCAATTTGCTTTTTAATTAAATAATTATCATTAGAATATACAAAGAACATACTTATCACCTATTAAGTATAATTTACCATTAAAAATTAAGAAAAAATATAATTTATTTTGAATTAAATATTTTTTTACTATATACTCTATTTGTATATAAATATCTTGTTTAGAGGGGTGAATTACGAAAATGGCAAATATTAAATCACAAGAAAAACGTATTTTAACTAATGAAAAATCACGTTTAGCTAACAAAGCATTTAGAAGCTCAGTTAAAACTGCAATTAAAAAAGCTTTAATTGCAAAACAAGAAGATTCTAAAGAAAAAGAAGCTTTAATTAATGAAGCAGTTAGTTTATTAGATAAATCAGTAACAAAAGGAATTTTTAAAGCTAATAAAGCTGCAAGAGAAAAATCAAGATTAATGAAATAATTGATGCAATAATATAAACTTCTTTTAAAAGAAGTTTTTTTGTACTTTAATTACCCTATTACTTTTGACTTTATATTTATAACTATTTTTGGCATTTGTAATGTAAGTTTTGCATTGATATTTTTTTAATGTCTTAATAGTATCTTGGCTAGGAAAATCATATATCTTTGATTTATGTCCAGATATAAAACAATTTCTAGGTTTTATTGTTTTAATAAAAGACTGTGAGCTGCTAGTTTTACTGCCATGATGAGCAACTTGAAGTAAGTCAATTCCTCCATTAATTTTTGTTAAAAAATCTTTATTTTGTAATAATCTTGATTCTCTTTTTTTTGAAATATCACCTGTAAATAATATCTTCTTTCCTTTTACTTCTAATAATGAAACTTGTGAATTATCATTTTCATCCTTATTTTCTAGTTCTATAAAATTACTAATTTTTAAATCTCTAATAGTAAAGATAAATTGATTATCATAATTATAAAAAATGTTTTTAATATTATATATAGCTTTTAAATCATCAATTTGGTCATAGTGATCTTTATGATTATGACTAATAAAAAGAGCATCAATTTTTCTAACTCCATTATAAAGTAAATATTGTTGTAAACTTTTTTTATTGAATCCGTTTCCTTTTCCAGCATCAAATAAAATATTTTTACCTTTATATTGAAATAAAAAACTATTACCATTACCAACATTTAACATTGTGACTGAAGGATTTATTTTAGAAAATTGATTTGCTTGAAAAATATAAAAACAATTAAAAATGAATAAAAAAACTAATTTTTTTTGAATTTTCTTTTTTTCAGTCTTATAAGAAGTTATAACTTTAAATAGTAAAAAATAAGTTATTAAAAATAATATACTAAAATGACCACAAATTGTAAAAATATTAATATATTCAAAACTTTTGCAATAATAGTAAAGAAGCTTATAATCAAAATTCAAAGGATGTTTGGAAAATGGTATTCAAAAAAATAGAGATAAAATAAATGAAAAAATAATAAAAGGCATTAATAAGATTTCAAAAAAGGAACTTAATCAATATATTTTGTAATCGAAATATATTTGAACTGGAATGAATATTGCATTTACAATTAAAAAATTATAGATAATATTGGTTATTGGTTTCTTATCTTTATATTTCTTTATAAATAAAAGTGCAATAATTGTAAGAATAAAACCAATATTAAATATAAAAAGAGGATTTATAAATAAACAAACAATTCAAATAATAGAAAATTTTGTAATTTTTGAAAGTTTGAATTTTCAATTCTCTTCGACTCATTTTATTATTAAAAGTACACATGCCTTTAAAAAAAATAAAGGAAAATTTAATAATGAACAATAATATAAAACTAATAATATTAAGATAATTTTATATTTTTTATAGATTTTGAATTTTTTAAATATCTTTTTATTAAAAAAAGAAGAAATTATATAAATATTAAAACCACTTAAATTAATCAGAAAACCTAAAGAGTAAGAATTCAAAGTAATATAAACTGGATCATTAGTTTTTTGTTGAAAGAGAAATAATTTAGTTAAATGGTTTGATGAAGTAATTAGTTGATATAGATAATATTGTAAAAAATGTCAATTCTTTTTCTCTATAATTGGTTCAAATATCTTATATTTAACATTTCTGTTAAGTAAATATGAATTAAAAGTAAACTCCCAAAAGTTACCTTGAATGCTGACTTTTTCAATGCTTCCCCCAATATTGACAAACTCCCCTACCGCTAATTTTACCTCCCCTACTGGTATATAATAGAGTGTCGTTAGCTGTTTTATCAAAATATAATTTTCTTTAACCTCTACTACTTTATATAGCTTTAAATTAAGTTTTTGATTAAAATCTAACTTATAAAATATTAAGAAAAAAACTATAAATAGAGCAATTATAACAAAAAATGGATATGTCTTTTTAATTCTTCAAATAAGAGAAAGTAAACTAAATAAATAGATAAAAATACAAATATAAATATTTTTTATGTCTTTAGTTAAAGAAATTAAAACAAGATTTAGAAAAACTATAAATAAGTAATTTTTACTAATAGATCAATTTTGGAATTGCTTTAGCATAAAAATCAGTATTAAATTTACTTCCTACATATATTTTTTTAAGCTTTATCATGCAATCATCATAAGAATTTTCAAGACTTAAAAATATTTCAGCGCTCTTTTTAGATACTTTTTCACTAACTCCTCTTGTATAAAAAAAGTCATTATCTAATTTAAAGCGACTTGTCTTAATCACGTTAATTTCATCTTTTGGGTAAAAAACAATTGAATTATTTTTCTGTAAGTTATTATTCTCATCTATTTCAAATAAATTATTTAAATAACTCAAATTACTTGTTTGTAAAAATTCCCTGGAATTACTCAAATTTTCTTCATTTTTAACTTTAACCGGCAAAATATTTTCTTCTTCTAATGTAATATCATATTTAACTTTTAGATAAATATATCTTTGATTATCCACAATAACATTATTAATTTCTGTTTCTTTAATATTTACAATTAATAGAATACTAAATCCAATCATTAATGATAATAATAACAATATAGTTAATTTTATTTTTTTCATAGACACCTCAAATATTTATATCGCTTATAAAAATAAAAAAATTTAATTTAAAAAGGAATCTTTAAATTAAATTTCTTATCTTTATATAAGTTGTTAGAAAATTACTAATTTTATTTAATTATTTTTTTAATGAATATCAAATAACTAAATGCTAATAAAATTAAACTCAATAGTAAGTACATAAATGAACCTGCCACAGGAGAAAATGTTTTACCCACTTTCCTAATATAGTCAAAACTTTTTATATTTTCTCACTTGTTTGATTCATTTTCATTATAACCTACTAGTTCATAAGTAGTATCCACTCATTCAGTAGAATAATATAGTGAATTAAAGTACTTATCATAACTTGACTCAAATAGAATTCTAACAAATGTAGTAAATGGATTTAAATAAGCATTTTTTCTTGCAAATTGATTATATTCTTTTGCATATAAATCAAATTCTGGGTCGCTATATGAATCATTAGAATTACCATAAATTGGATTTTTTAAGTGAATATAGCTCATAAGCAAATCTGTATAAATTTTGTTAAATGTTCTTACACCATCTGAAATATTAATTTGATTATTTCATTGATCATTAAATCTTGTTTCTTTAGTATAAGTTCACATTCCACTTCTTAAATAATCATAATAATCAAATGGTCTTTCTAAAATAGAATATCCAGGATTTTTTTCAAAATCATATTTGTCATAAGCATATTTAGATATTTTTTTGATTAGATTTGCAATATCTTTTAACTCACTATTCTTAGTTTTACTATTAATTTTTTCAATTAATTCATATAAACCATTAGAACCTTTATATAAATCTTTGTCAATCACTTCTGCTTTAGAATATTCTCTAAATAAAGTTGAATTATAATTTGTCTTTTCTTCTTTTGGTTGTAACTTTTTTATTTCCTTTAAATCATTAATTAATTTATTTTCTTTAAACTCACTACTAACTTCTAAATTTATTAAACTGCCGTCTTTATAAATTCTCAAATTATCACTTTCAGTAATTAGACCATTTATTAATAAAGTTCTAATATAAGTTCTGGAATTAATTTCTTTTCTATAAGAGCTATCATTTAATAAATAATTATATTCTGTTAAATAGAAAAAATTTGATTCAAAATTAAAAATCTTATTTATGTTTGTTAAACTTTCAAGATGTTGTTTTATAAGTGAATCTTCTCCATATTTATTCATTATTTTTTGCATTTCTAAACCAACTAAAAATCTAGTATTATAAAGCTTTAAATAATTACTATTTTCATTCTTATTTCATGTTGTATATGAAGGAAAAATAAATGCTGTAACTGAAGCGTCAATCAATAATGACATTGAACTACATAGGGCAAAGATAGTTCCAATTACCCCTATTAATGCTGAAGAATTTATTGTCACAAAAAGACAAATAATAGAAAATATTAAAAGATCTAGAATAAATAAAATAAAATAACCTGGTAAAACATTACTCAAAGTTTTTATACTATAAAAATTTTGAGTTGTTGGTATAAAAATTGCCAAAATAGATATCATAATTAAAATATAGCTAAAAATTATTAATTTATTTATTAAAAATCTTTCTCAAAAAATTTGTGTTTTACTTAAACCACTTCTTATTTCCAAATTTAAAACACCATTATTTATTTCCTTATTATAAAATCTGACATTAAAATGAATTTCAAAGTATGAAATATAAATTAAAATCATAGTAAATGGCATTCAAGCTAGTAAGGTTGAATTAATATCAAAATTCTTTGGAGGTAGCAAATATAAAAATAGTAGTTCAACAAATATTGTTGATGTAAATAAAATTACACTCATTATAATAAAAATTTTTGATTTAATTAATTCAAAAAATACTCTTTTTGCAATTGCAAAATTTAATGCCACTTTTTTTGTTTTGCTTTCAATTACATTAGTTTTATTTTCAATTTCTATTACTTTATCAAAATTAATATTATTTGTTAATCCTCCGACTTGTTCAATATAAATATCTCTTATATTTTCTTTCTTATTGTCAAAAGTTTGATTATAAACAATTTCTCCCTTATTATCTACTTTCTTTAAAATAACTATTCGATTGATTAAACTACTTAATTCATCAATATTGTGAGAAGTTATAACAATCGTTTTTTTAAATTTAGTAGCTAAATTTGAAAGTATCTTTAGAAATTCTAATCTTGACTTTATATCCAAATTTGCTGTGGGTTCATCCAAAATAATAATTTCTGGATCAGTTATTAATATTGAAAGTAATAGAGCTCTTTTTTGCATTCCTGCTGAAAGTTCACTGAATTTATTATTTTGATATTCTTCTAAATTTAATGCTTTTACATATGCACTTAAATTTTCAAGAACATCTTTTTTTGAAATATTCTTTAGATTAGCAGTATACATTGCAAAATCAATTATTTTAAAATCTTTGGGATAATTATTTTGATCAGGGAAAAAAGCCATTTTTGTAAAAGCTTTTGTCTTTTGAATTTCATTATCTTCAAATAATATTTCCCCTCCATTTTTAATATATTCATTAAAGATTAATTTAATAATTGTTGTCTTACCAGATCCATTATCACCTAGAAAACCAACAATGTCACCTTTCTTTAAAGTAAAACTTACATTGTTAACTCCAGACTTGTTTTTAAATACCTTTGATAAATTTTTAACTTCAAAAAAATTATTACTCATAAGTAGTCCCTCCTATTAATTAAATGTTTGATAGTTTAATAATTAATATTTTTCAAATAATAACTTTTTTCTTCTCTTTTTCACTTTCTTTCACAATTATTATAGTACACACAACTCTCTTATTAGTATTAAAAAATAACTTTGAAAATGTTAAAATTTTAGTAATAATAAGGAGATGAATATGTTTGAGTTTACTTTAGTTGATATTATTTCATTAATTACTGGAATAATAAGTTTAATACTAGCCACTTTTATATCAATATGAATTTATAAAAAAGATGATTTTAAAGACTTTTATCGAGAATTTAAAGAAAAGTATTTTTTTACTTTCAATAAAAATTTTCTTAAAGAAATTAATAGTTATTTAAATATTAGTGAAAAAAATAACGATGAAATCGATTCAATTGAAAATCATTTAAATAAAATACTATATTTTTTAAGTTTTTTAATTGAAAATAAAAAAACTATTAAATCAATATATAACAAGTATAAAAAACATATCAAAAGTCACTTGAAGAAAATGAAAATCAATTCCAGTTCTTCTAAAGCAAATAAGTCAAGTAAGCAAATTAGTTTGAATAAAATACCTGATACTGAAATGGAGTTTTTAGCAAATTTTAAAGATAAAAAGATAAATGAAATTTTCAATAACTATAATAAAATTTATAATAATTTATTTAGCGTTTTTATTGATAAAACAATAAAAAAAGAAAAAATTGAGGAAACTATGGAAGCTTTAAGTTTTTTATCTAAAGCAGAACCTGATATAATTTTAACTATTTTATGAATCTTTAAATTATCAAAAGCAGTTAGTGATTAAAAAAAGAAAAAGCTTAAGCTTTTTCTTTTTTTAATTCATTTAATTTATCAACTAATAATTCATGTTGTTTTTTATAATTAATATATTTTTCTTTTTCAGCTAAAACTTTTTCTGCAGCAGCACGTTTTAAAAAGTTTTCATTTGCAAGCATTTTTTCACTTCTATCGATTTCTAATAAAAGTTCATTTATTTTATCTTGAGTTTCTTGAATTGCTTTATCCTTATCAAAGAAATCCTTATTAGAAATATCTAAAAAATAATCTTTAATAGCAATTGAAGTTAAATCCTTATCATCAATTATACTAATATCTAATTTACAATTAACTAATTTTTCAACAAAGATATTAATATAACTAATTCCTTTTTCAATTATTGATTTAAATTTGGATTTTTTAAGATTAAAATGAATATTTAAAGAAATTGCATTTTTTATATTTTGATTTGCTCTAAACTCTCTTAAGTTATTTACTATTTCAAAAATATGATCCACTGTTAAGATTTTAAATTGATATTTCTTATCTAATCATCTTTCTTTTAAAATTGAAGATTGTAAGTCAAAAGATTGATAAATTTCTTCACTAACAAAAGGCATAAATGGATGTAACATAATTAAAATATTCTTTAAAACATAACCTAAAGTTGATTGACTAAATTGTTTTTCTTGTTTATTTAATAAACTATTCTCTCCTACCTGAGCTTTTGAAAGTTCAATATATCATGAGCAATAGTCATCTCAAATAAAATTATAAAGTAGTTTTCCTGCAACTGTGAACTCATATTTTTCAATTGCTTCTTTAACCATTTTTTTTGTTTCACTTAAACGATTTAAAATTCAAAAATCTATTTGATTATTAACTTCATTAGCTTTTACCAATAATTTTTCAAATTCTAGATTAGTAGGAATTTTTTTAAGATTTAACATTACATATCTAGAGGCATTTCATATTTTATTAATAAAATTTCAAGTACTAGTTAATTTTTCTTCACTATATCTTAAATCTTGACCAGGACTTGAATTTGTTAATAAAAAATATCTTAATGAGTCTGCTCCATACTTTTCAATAACATCCATTGGATCAACACCATTACCAAGAGATTTTGACATTTTTCTTCCTTGTTCATCACGAATTAAACCATGAATTAAAACATCTTTAAATGGTTTTGAAGATGTAAATTCTAAACTTTGAAATACCATTCTAGCTACTCAAAAGAAAATAATATCATAACCAGTTACCATTGTTGATACTGGAAAATATCTTTTCATCATTTCTGATTGTTTTTTATTATTTCAATTCATTGTTGCAAACGGTCAAAAAGCACTAGAAAATCATGTATCTAAAACATCTGAATCACGTTCTCAATTTTGTTCATCTTTTGGAGGAGTTATGCCAACATAAACTTCTTTTGTATCTTTGTGATATCAAGCAGGAATTTGATGACCTCATCATAATTGACGTGAAATTGTTCAATCGTGACTATTTTCCATTCATTTATTTAATGTATCATTAAATCGATTTGGATAAAAATTAATAGCTTCTTTTGATTTTTGTAAATCTAAAACTTGTTTTGCTAATGGTTTCATTTTTACAAATCATTGATCTGAAATAAATGGTTCAACAATAGCATTGCTTCTTTCTGAATAACCAACTTGATGAACTATTTCTTCTTTTTTAATAAAAGTTCCCTCTTTAGTTAATTTTGCAATTAATTGCTTTCTTGCTTCAAAACGATCTAATCCTTGAAATTCTTGTGCTAAATCATTCATAGTTGCATCATCATTCATTACAACTATTTGTTCTAAATTATGTTTTAACCCTATTTCAAAGTCATTAGGGTCGTGAGCGGGCGTACATTTCATTACCCCTGTTCCAAATTCAATTTCGACATATTCGTCTGTTATAACAGGTATTAGAGCCTTATTTGATGGGTTTATAACAGTTTTACCAATATATTTGCTATATCTTTTATCCTTTGGATTGACAACTAAACAAACATCTCCAAACATTGTTTCTGGTCGAGTTGTAGCTACTTGTAAAAAATCTTTTTGATTATCACTTAAAATATATTTAAAGTGATACATTGCACCCTTAGTTTCTTTATAAATAACTTCAATATTTGAAAGTGCAGTTTTTTGCTTAGGATCTCAATTAATTATTCTTTTTCCTTTATAAATTAATTTATCTTCATACATTTTTACAAAGACATAATTCACAATTTGATTTAACTCATCTGAATATGTAAATTTTTCTTTTGAATAATCTAAACTTAAACCTAATTTTGCCCATTGGCTTCTAATAGTTGCAGCATACTCTTCTTTTCATTCTCATACTTTTGCAATGAATTTATCTCGTCCTAAATCATATTTTGAAATTCCTTGTTCTCTTAAGCGTTCTTCGACTTTTGCTTGAGTTGCAATTCCAGCATGATCCATACCAGGAATTCATACAGTATCAAAACCATTTAATTTTTTAAATCTAATTAATAAATCTTGCAAGGAACCATCTCATGCATGACCTAAATGCAATTTACCTGTGACATTTGGAGGTGGAATTACTATTGAATAAGCTGGTTTTTTACTATTAAATTCAGCTTCAAAAATTTTTTCCTTAAGTCATTTAGAATATTTATTTTTTTCAACATCCTTATGATTATATTTCTTATCTAATTCTTTCATATTTTGCTCCTTTAAAAATAAAAAAACCTATTTTTTAATAATTAATTACTAAAAAATAGGAACGAGTTATTCAAAATAACACGCGGTACCATCCTAATTGGTTGCTATAACAACCCACTCATATATCAAATTTTTTAAACTTATACAACCTTCAATAATAGTAAATTCTAGTTCACACCATCCACTAGATCTCTGAAAATTACTTTTTATTTACTCCTTATAAGTACTTACTTTTTAATTATATCAAATCAAATAAAAAAAATAGCATAAAATGCTATTCAATCACAAAAAATTCCGACACTAATTGTGATTTATTATTTAAATTATTTACATTCATTCTTTTTATTTCATATCGTATTGAATATCTTCACTTGTTTTAACTAAGTATTTAAATAGCTAAAACTGAAAATTCTGGCTTCTTAATCGATTTTTTAATAGTTTTTAATAACTTAGTTTCTTTATACTCTAACAAATTGTATAAATTTAAAATTCTTTCATATTGGATAGCCTTTTCTTTTAATTCTAATTCAATAATTATTTCAGTTAAATTATCATTATAACTTTCAAGCTCTTCATGTTTTAAAGTTTTTGCAATTTTATTAAAAGTTTTATTGATACTTTTTAATATTTTATTCATTGAAATTCTATATGCAATATAAACAAATGTTAATGCAAATAATGAAAAAATTGATCCAATAAAAATCAGTGACAATCCAAATGATATTTCCTTATTAACATTTATAATTAAATTTACTAACGAAAACATTATTCCCTTTGAAACAGTAGCTGGAAGTTCAACTAATTCAATATTTTCAATTGGATTTGGTAAATAAGCAGGAATATTATTGATATTTGTTTCTAAATTTAATCCTTGTGTAACTGTAAAAATAACTAATGGTGAAACCAATATAAATATTTTTAAAAAAGCTAAAATATTCTTTTTAATTAATATTTTTTTAAAAGATATGGCTGAAATGTTTTGAAAGTCAATTGTTGACATAAATTCATCATAATCACTAAAAAATTTTCACAATATTGAAATAATTGAAATTGTTCCTAAAATTAATTTAATTCCAATTAACATTTTTGAATTAACATAATTAAATCTTAAATTATCAACTGATGGAATAAGCAAAAAAATGGCAAATAAAGAAATGATTGCTGAATATACAATTATATTATTTAAATCAATATTTTTTCTAATATTCTTTATTTTCATTAATTTGTACTCCTTTAATATTATTATAGGGTTTTTTAATTAATAAATCAAATAATTGAATGTATTCTTTTAAATGTTTAAAAAATCTAAGAATATATGGTCATAAACCCTTTCAATTCAAAATAAATTTTTTGCTTTTTTTCTTGAGAATTCAAGCATTGAACTTTCTTCAAGTAATTCATAATAATTTGATCAAATTTTTGTGTAATTATCAAGAATTTTGTCGTTTATTTTCTTAATTTCTAAAATCTCATTATTTGTTAAATCCTTGTTATTGCTAAAAATAAATAATCCATTTTTTGAAACTAAATCATTTTTTTTGAAAACTACATTTAGATAGTTTTCTGAAAATTTTGCATCTTTAAATAAAGATTCATTTGAAAAATATTGAGTTTTAATTAGATTTTTATAATTTGACTCAACTTCTTTGTTAGATTGAGTTAATTTTTGAAATGAGTTTAAAAATGATGGAAGTAACATAACATTTAACATTGACTCTAAGATTGCTGTTAAAAGCGGCTTGTCACTTAAAATAGAACTTAATTCATAATTTATAAATATTACTGTTATAAAATTTGAAAAAATAATATAAATTCAAAATCAAATTGGTGTAAATTCAAGACTTCTTTGAGCTTTAAACTTATGATTTTCTAATTTCAAATTATAATCAAATATACAAATTAATTGAAAAAATTTAGACTTTGAAAATCAGTTGATATAAGTGAATTTTAACAATAAATAGATACTTCCCCCAACAATTAAATATGATACTATATCATTTGATTCTTTAATAAATAAATTTGTAATAAATAAAACTAAAGTTATTGAAAAGATAGTTTGATCAAAAATGAAAGCAAATAAACTCATTAAATTAGTTTTAAAAAACTTTCTAATTATTTTGTTATGCTTTTTAAGCAAATTAATACTATTTTTCTGATTCCTCATTAGTAATTTCCCCTTTATAATTATTAATTTTTGAAGCGATAAATAGATAAAGACTACCTAGACCGATTATTATTGAAATTATAGCAATTATAGCAATGAACATCCAAACAATTCCACTTAATCCAGAAACTTGATTATTGTGAATCTCTAAGAAAAAGTATGGATATGCTCCTTTTTTACTTGCTAATAAAGCATTTGAACCAACACTTCTATAAATTAATTCTCCTCTAATCAAAGAAAAAATTAGATAGATTATTGGATAAATACACATTACTAAAAAATCCTTTTTGATAAATTCTTTAAAACTAAAATTCAATTCTTGTTTCATTAAAAATAAATAATAAGCAATTGTAGCTATTGGCACAACTGTATGTAAAACCATTTGATCAATTCATCAAATTGGTGTTAAAACTAAATCATTTTCTGTTAATAATACTTGAGGAAGTAACATTCCATTAAAAATTAACCCTGTAATTGTGATGTAAGTAACTACGCATAGAGTAATAGTTCTTGATAAGAATTTCACTTGACCTTCTCTATTATGATTAAAAAAGGATACAAGAAATCAAATTGCTACTAAAATATTTGATTGAATTGTAAAAAAACTAAAATAGTTAATAATATAGCCTTGATAATCATAGCCAACAAATTCTCCAGGTTTATTATTATTTATATCTTTAATATAAATAGCCCATTTTTTAAATTCTTCACCATCTATTTTATATACACTATCACCAATATTGATCATTCCTCTTATAAAACCTTGTAAAAGAAAACCTATAATTAATAAAGATATAGATAATTTATATCAAAGTTTTCAATCCTTTAAATTTTTTTTAGTTATAAACATTTTTTTCACCTTTTCAATATACAAAAAAATTATAGACTATTTAACAGTATAATTCACTATTTTGTATCTTTTTTAGTTATAAACATTTTTCAAAGTTAGTTATTAAATTCCAATTTTATTAAAAAAATAAAAAATATACATTAATGTATATTTTTTATTTTTTTAATTTTGTTATAAATTTTTTAATATCTTCAGTTGTTAAAAATTCATCACTATCAGATATGTTTCTATCTTCTTTTTTTAATAATCTTTCTTCTTTTACAAGAGCCTTTTTGTTTACTGATTCTGGAGCAATACGTTTTTTAACAACAGTAGCTGACTTTGATTTTACAGTAGCTTTTTGTTTATTATTTTTTTTCATTTTTTCCAAAACTTTTAACCTCTCTAAATTTTCTCTTATTTCCAACTCTTTTAATTTTTTCTCTTCTTCAGTTAATTTTTTATCTTCTTCAATAATTTTTACTGTCTCTTCAGCTGGTGTTGATTGTTGAATCGGTTCTGGTGTTACATTTAATGAATTATTATAATTTATATTACTTCCACAAAATTCACACCCAAAAGTCTGATTATTATCATGATGATTGCAATTATGATTAATTTGAGGATTTACTATAAAATTACTTTCACTTTGTTGCAATGTATTATGCAATAAATTATTGTGTTCTTGAGTCATATCTTCTCCATAATTAAAAACTATTTCACCATAGTTCACTAATGGCATATTGTTGGGTTTTAACTTATTCATTCCTAATATTGATGGAGTGAATTCAGAAGTTCCAAATTCTGTTGTAAAATTGCTTCTTACTCCAAAATTTGGATTTGAAATACCATTAGAATTACTACTCATTAAATTTAAATTATTGCAAAAAACTTGTGCTTCATCATAATTTAAAAAGCGATTAACTTCTGTCATATCTGGACTGACAACAAAAAAAACTCCGTCTTTTACTAAAATATAGTACATAATAATTCCTCCAAAAAAATTAAAATTTAATTATTTATAATATTAATATTATACACTAAAAAAACCAATTTTTAAATCCATTCTTACGAATTAAATCAAGCAAAAAAATGTGGTTATTAATTAAATAGTATCATAATATACAATTATTTTTTTAAACTTTTTATTAAAAAATATTAATGTTAATCTTCTTGATAAGCTAATGAAAGATCAATATGGCAGTATCCAAAGGGATTTTTTTCTAAATAACTTTGATGGTACTCTTCTGCATCAAAAAAATTTTTTACTTTTTGATTTTCTACAACTATTTTTTGACTACTATCCTTTTGCTTTTTTTCTAAAAAATTTTGAACTATTTTAAAATCTTCTTCCTCTTCTCAATAGATTCCAACTCTATATTGAGTTCCAATATCATTTCCCTGCTTATTTAATGAATAAGGATTGATGATTTTAAAATATTTTTCTAATATCTTTTCTAAGGAAATTAACTTATCGTTGTATTCTAATCAAATTGCCTCAGCATGATTTGTTTTTCCAGAACAAACTTGTTCATAAGTTGGATTTTCAACATCGCCTTGACAATAACCAACTTTAGTATTTGTTACACCATCAATTAAATCAAAATAAGCTTGAACTCCTCAAAAGCAACCACCAGCTAAATATATTGATTTCATTTTTTTCATCTCCTTTTAAAAATAAATTTAAAGTTATTTCATAATTAATAATTATTTTATAACAATATTTAATTAAATTTTATTTTTTTAAATTGTTTTAAAACCTTCTCAATAAGATTTTAAAATAAAATTTGAAAGTCTAAACAAGTATAAATTTCTTTAGTATTTTGTTACTATTATTAACTAAATTAAAAAAAAAAAAAAAAATCATTATTTCTATAGAAATAATGATTTTTAAGAGATTTTAAATTTTTATAAAGGTAGATCCTTTTTAATAAATATTCAATATGAAGCAATATATAACCCTGTTCCAATAACACCCAAGGCAATATATTGACCTAAATATTTTGAGATTTCACTCACATTATTGAATTCAACTGTAAATAAACTATTTAATGAAAAGTATTTTAAAAATTCAACTGATGGGATTTGACTTGCAAAAAATAAAACATAGAATATAATACTAATTCCCCCAGCTGTAGATAAAGAGGCTGCTGATTTATTAAAATAACAACTACATATAAATGCAATTGAACTAATTGCATATAACATTAAAAATAGCCCAAAAAAGTACATTGCAAATAATCCAATATTAATTTCCCCACCTTTCCCAAAAACAGAAATTGTTATTATTGTTGTTAAAAATTGAATAAATATACTGATAAATAAAGAGAAAACAAATGTTCCCCCCTTTGTTAGAATTACACTCTTTCTTGATTGATTGGTTGTTAATAAATTAACCATTGTACCTTTATCTACTTCACTTGCAACAATATTATTTCCACTTGTTAATAAATAAACTAACAATAATGAATATGTAATTCCTGTTGAACTAACAACTAATGCTACAGTAGCTCCTGTTAGCACTTCAGACCAAGTACTTCCTTGAATAATCATTTCATTAACTGAACTATCATTAATCATGACAGCAAAAGCTACAATAATTAAAATAACTGGCAATATCGTTGTAAACAATCATAAACCTAAGGTTTTTCGCATAGTATCTTTAATTAATTCAAATGATATTTTTCTTTCTTTTGTAGAAACATTCACATTGATATTATCCAATGATTCAATTACATCAGTTTCAATTTCATTTTGATAATATTTCATAAAGTATTGCTCCAAATTTAGCGGATGTTCTTTAATAAATTCCAATTTATTTTTACTCATTTTGACAATAAAATCATTTATATTTTTATTCTCAACAACGGCAAATAAAGTATTATTGTTAAAGCTTTTAATAGTTCAATTTTTTGATTCAACATCCTTTTGAGTAACTTTATCTTTAAACTTAATTTCATAAGTTTTTTCATCATTATATTGAATATCTTCAATATTAATAGTTGAAATTATTTTTCCACGTTTAATAATAGATACATAATCACAAGTTCTTTCAATTTCTGAAAAAATATGTGAAGATAAAATAATTGCTTTACCTTCTTCTTTTGATTTTTGTACTAATTTAACAAATTTTTCTTGCATTAAAGGATCTAAACCACTTGTTGGTTCATCCAAAACAATAATATCAGGATTGTGCATTCAAGCTATTACTAAAGCTACTTTTTGTTTCATCCCTTTTGACATTTTTTTAATTTTCATATTTGGATTAAATTCTCAATAATCAATATACTTTCTTACATCATCTCAATTAGTCATATTTCTTAATTTGAAAACTTGTTTTAAGAGATCAATTCCTGTCATTTGAATTGGAAAAGCAATTTCTCCTGGAACATAACCTAAATTTCTTTGAATTTTATTAGCATCTGTTCATGAATCAAATTGAATTAACTCAGTAATTAAACTTTGATCATTTTTTAAATTTGGTTTATTTTCTAAATAAACATTTGAAGTTCCTGAATCAGATTTTATAAACCCCATTAAACTTCTAATTGTTGTTGATTTTCCAGCCCCGTTGGGTCCTAAATAACCAAAAACTTTACCATATTTGACATTAAAGTTAATATCAAAAATTCCATAACCTGATTTAAATTTTTTATTTAAATCTTTTACTACAATTGCATTATTAGACATAAAAGTCCTCCTCTTTTTTAATTTTTACTATATTATTTAAAAACATTAAATAATTAATATGTATCCTCAAAAGCAATTTTAGTGATATAAAATTTATTTTTTAATTGAATTAGATATTTTTGCCATCCAATTTTAATTCTTCATTTAAGAGTAAATTGATTTTTAGTCTCTAAAAATAATTGTCTTATTAGTAAAAATAATTTTCTCAAAAAGAATGAAATACATTCTAAAACTTTCATAAATAGTTTAAAAATTTTTAAAATAATTGAAAGTATCATTTCCCTAATTAGATAAAATTTAAACATTTCTATTTTTATTAAAATATAGAATAAAACAGAACATGAAGTTAATAATTGTATAATGAAAATTTCAAAGCTAAATGAAATATTTAAATTGAATTTATAAGCAATTGAATTTATTAAAAAATGTGTATTAACAAAAATTAAAAATATTTCTTTTAATGTTATTTTAATAGACTGCTTATTTACTTGTTTAGTTATCAATGAATTATAATTATTTGTATTAATTGATCATAATTTTATTTGAAAAGTAAAAAACAAATAAAAGACAAAAGTTCCTAAAATTAAAATAAAATGTCTACTTGTTATTTGATCGTTAAAAATAGCAAAAATGAAGCAAATAAATAAAAGTAAAATAATTGGATTTAAAACCCATTTTAATTTTGTTCTTATTATTTTCATTAAATTCGCCTTCTTTTGATAATTACTATATCACATTTATCAGTTACTATTAAAAGGATTTAAATATAATAAACCTTTTAAAAAAATTTTATTTCTGTTCTTCTGCTTTTTGTTCTTTTTTTTCAGAAAATTTATCTATTTTATTAGAATAAACAAAATAAAATAAACCTCAATCAAGAAATGATTTTTTTGTTACTTTTTGGATTTCTATCCAGTTTTTATTTGATTTTAGAAAAATTAAACCACAAATAGTTGCGATCAAACTAAATATAGCAATTAAAGACGAAAATACAACTAATCCTAATCATAATCAAGATATTTTTTGACTTAAAGTAATAACTAATAAAGTTATAAAAACTCCTGTAAGCAACATAGAAACTAAAAAAATAAGAGCAGAACATAAGGCTACTTTATAAACACCTTGTTTAATATTTTTAATTCTATTTTCCATGTTTTCTCCTATTTATTAGTACTTTTTATAATTATAAACTATTGCTTAAAATAAATAACAAAATTTTATAACAATATATCATTTATATGGAGAAAAAAATACCATAGTAAAAATAAAATTTTACTATGGTATTTTATATTGTCTTATTGTGTAATTAAATTAATTTCTGAAACAATAAGTTTCTTATTTTTATATTTCATAGCAATATCAAAAATAGTTTCGGTATTGCCATCATTTATTGTATATCTAAAATTATTAACAGATTTAATTTGAGTTTTAACTGTTAATTTTTTAAATAATTCCTCAGCTTCAGTTTTTAAATCATTAATTTCTTGATTACTTTCTTCAATTCATTTTGATAAAATATCACTCATTTTTCCAATTAATTGATCTTCATCATTTAAAATTTTAAATAACTGTTCAAAAACTGAACCGTTTTTTAGTGTTCCATCACTGTTATAACCCAGAATTTCAAACATATTTTCTATGTCATTTAAAGCCTTTTCTAGTGTTGAATCTTTTGCTAAACGAGCTATTAATTCACCCAAATCTGAGAAATTAACAGTTGACTTTGTAATTGAATTAAATTGAGTGTTTAATTCAATTACAAGTTCTTTTAAAGATTTTTTTGCTAGAAAGTTTAACGAACTAGGCTTTGCTTCATTAAATCTTTTAACAGCTTTATTTTGATTTTCTTCATGTTCAAATTTAGAATTTGATTCATTTCCTAAAAGTCCAGATAAATTAATTTCATTCATTGGTTTTGCTAATAAATCTCTAATAGAAAAATTAAAGTTTTCATTTGTATTATTTCATAAATAACCTATTCAGTCATTTTTAAATTTCTTTCCCTCTCCAGATACACTAGTTATTTTTTGCATTAGTTCTTTGACAGGACTAGGTAAAATTCCAGGCATTGATACAAGAGCTCCAATTACAGTACTAAATAAACTACCACCATAACTTGAATTTATTCCACCATTTATAATTGATCTTACCATTGCATTTACATAAACTTTGGAAATAATTATATTAATAGATTCTTGTTTCATTGCTATAACTGCAACTTTTGAAAGTAAGCCCATTAAACCATCATTTACATTTTCTGTAAATTGTTTACCTATTGAAAAATTCTTAGAGTTAGTGGCAAATAAAATACCAATATAGTTTTTAAAAACAACTCCATTTAAATCTTCATTTACCATATAGTTTAATTTTTTTAATAACTCTTTAATATCAAGTGAATTGCTATTAAATATCTGACTTCTTTTTTCTTCAATTTTTTCTAAAGTTAATACAGAAGAGGTCATTTCTTCATAACTGAATTGTTCCATATAAACTACTAATGTTCTTACAAATCTAATAATTTCAGCAATGGAATCAATATTTGCAATTAAATCAAGTTTTAATTCAACACTTCCATTCATTAAATTTGAAATATTTTCAGCCAAACTAGATGTTGCACTATCAATATTTTGTTCAACTTCTGCTTGTGTTTCATAAGATAACTTTGTAACATTACCTTTTACTAATTTTTCAACAGCATTTGATAAACCTATCATGCTTGAGTCCAATGCAGTTTGATAATTCATATTTTCATATATTTTATTACTGAAAGCATTTTCTAAAAGTTTTAAATTTTCTTGATTTAAAACTTTTCCCAATGTCTTAAGTAAATCAGGAGAAATAATTGAACTAATCATTGACGGATTACTTGCAACTACTCCTAATAATTGTTGTAAGGTAGTTGGATCTGACATTAATGATAATACTGTGGGTAATGTATTTTTAATAATATCAACTATTCCTTCATCAGCTGCACTTGGGTCCAATACATAATCTTGATAGACATTATCTGATATTTTTAAATCAGATGCTAATAAATCCTTTGTATTAAAATACTTATCTGCTACTTTATAAAATTTATCATTAGATTCAACACCCTCTGAATCATTAAACTCAGTTAATTTTAAAGTTTTTAAATACTCATTTCTTACATTATTTTCCATCATATATTTTGAACTAAAGTGGGTTTCACCATCTGATAATTCCTTTTGATTTAAATAAAGTGATTTTGCATATTGAGACATTAACTTTGATATAGTATCTTGTCTTTCAGCACTTTCAAAATTATCTTCAACTTCATCTGGTTTTTCTTTTTCTGTTGTGTTTTTATTTCCACATGCTACAACTGCTCCTATTGGAGAAGCCATTAACGTAATGGCTCCTATCAAACTTAATAATTTTTTCATTTTAATATTCATCTCTTTTCTTTTTTACTTTTGATTTCATTTTTTTTCAATTTCATTAAAAATAATTTTTTTAGCAAATTGATGTCCGTTTTTTGTTGGATGGACATAATCTAAGAAAAAGAAATCTTCTTCTTTTCCAACATTTTTTTCTTTAACAGTTGCTTTCAATTCAAAATTTGTTATATCAATTCCACTTAAATCTGATGTGGTTGAATCACAAAGCTCTTCTGTAATATTTTTATTTGCTCCGGAATTTTTAAATTCTTGTGTAATTTCACTAAATCTTGTATAAAGGTCAAAAAATAAAATTGAGTCATTATACATTTTATTGGCAATCTTAATAATTTTTGAAATTTCATAATTGAAATCATCACCAATCATTTTAATTATTTCTTTAGTTGCTTGATTTATTTTATAATATCTTGGTATTAAGGTCATATCTGGTGGTGATAAGAAAACAAGTTTTTTTGCACCATTATTTAATAAAGTATACAAAGCATTTTTGATATTTAATAAAGCATTTTGCATTATTTCTTCTCTTTTATTTGAGTTATTAAGATTATCTAAGATTGCAAACATATCATTTCCACCAATTTCAACTAAAAATAAATCATCATCGTGTATTACTTGTTGTTCTACAAGTGCTTGGGCCTGCTTATAAATTCCTGTATTTCCTAATAATAATGAAGTTGCACCCTTTGTTTCATAAGCAGTTGCTCCCCCAACAGAATAATTTTTTCCTCAAACTTTTTGCTGATTTAATTCAATTTCTGGTTTATGAACTAAATTTGAAGATTTAAATTCTTGTGTTGAAAAAGCAAGTTCTTGATTTATAAGAGCTGCTGTGGTTAAACCATTGCTAAATCCACCAATATATTCTCCTGACATTCTAAGATTAATATTAAATTGGTCTTTAACAATAGTTTGTAAACCACCTTGATCACTTAAAGAATCACCTAGTGTAAAGAAATTTGAAAACCCTTTATGTTTTGTTTTATCATCACTTGTATCTTTTGCATTTCTAGTATCAAATTGAGTTCCGATATTTTTATCAAAATCAAAATTAATATCAGTTGCATTTGGTATACAAGCTATTACTGTAGAGCTAGAAACTGTCAATAAACTAATTGATGATAAAGTTAGCAATAATTTTTTCATACTTATTTATTTCCTCTCTTTAAATTGACTATTCAAATAGTTAAAAATGTTGTATAAATTGGTATGACAATTATGATAAACATAAAGAAAATAATAATACCAGCTCTTAATATTTTTATAGTCTCTGTAAAAAATGGATAAGATAATTCTTCATAAGTTACTTTTGTTTTAGGCATATTATTTTCATTTAACTCTTTATTTTTAAAAATACTGTGCCCTAAAATATTTAAACCAAACTTTATATTTTCAATTTGTCGATTTAAAAATCAAACTTTATTATTTACAATCATAGTTCCTAAACTTTTATTAACTTTAATTCCATCTAGTCCTGGACCATCATAATCCATTCATGAATCATAAATTTCTTGGTCAATAATTGTTTGATCTCTTTTTGCTTGTTCATAAAATTGTCAAGAGAATATTTCGTTTAAGCCTTTACTTTTAAAAACTCATTGAATTCCAGCATGAACATAACCATAACTTAAAAATTTTGTAGCAACAGCTTGATCAAATTTAATTAAATCCATTCCCAAATCATATAAATCTATATCTCTTTGATTTTGAATATCATTAGCTCATCTTTTTTCAAATCATTGATTAGAAAAATCAATGTAATTTTCTTTTTTAATAACGTAATTACTATCTTCAAATGAATTTATAGTTGAAAGAGCATCACTTGAATATGCACTTTTAATTGCTGTATTCATTACTTGTTCATAAACTAAATCTTGGCCATCAATTACATACATACCTTTTGGCATTATAGTTTGTATTTGTTTTTCAATACTATTAATAAATTTTTTTGATTCAAGTCCCAATCCTGGAGTTATCATCAAAAAACTAAATATAAATAAAAAAGCAGTTATTGATGATGAAATTATTAATTTTAACTTTATTTTTTTATTAAGAAAATTCTTAAATTTCTGTTTCATTTTAATAAATCCTTTTCTAAATTTCTTATCCTTTTTCACTTAAAAAATAAATTAACTCATAAAGTAAAGTTAATTATTTATCACCTATTTTTCAAATTATCTTTACTTACAAAAAAATAGGCTTACAAAAAATATACTCTTTTAAAAAAGCCTTAACAATTTATTTGAAGGTCTTAAAGGACTTGACTTTTTTTAGTTTTATATATTTTAAAAAAATAAGAAAAAAATAACACTTATAAAAGCCCCATTTTAAAGGACTTTTATAAGTGTTAAAAATTAATAAATATTCTCTTCTATTTTATATAAAAATATTTTAGTATAAAATAAAATCTTTTTATAGAAATATCAAATTTTTAATGCATTTTAAGCTTTTTTTGAACTTAATTTAATAAAAACTAATATAAGTAAATTATTCTAATATTATTTCTTTTATTGTTTATTTAAATATTAAAAAACTCATTTATTTTAAAATGAGTTTGTTTTTTTAACTATTTTATAATTAACTTGGTTTTTTCTTACTTCTTCTTTTTCGTTTTTCATTTTGAATATCTAATTCAACTAATTCCTGAGCTAAAATTCTATTTCTTCTTCAAGGTTCTGGTTTATAATGATAAATTAAAAATGTAATTGCATCTAATAAAAGCATAAATATTACTGGAATAAGTGATATTCCAAGAGCTCCTAAAATTAGATATCAATTATTACTATTGTAACTATTAACTGATGCAAGATTTAGTATCTTTTCATTAAATCCAGGTATAAAAATTACAATTAAATTTACAAGTACTGCTATCATACTTGCAATTCATAATGGTTTATTAATTATTAGATTTATTTTTTTATCTGCTTTTCAATTTGATAACTTTATAAAGTTTGCATAAAAACATGGAGCACAAGTTATTGTTACAAACATAGCTGTTCTTCCAAAATCTCCAATTTCAATTTTTTGTTCAACACTATATTCATTACTTCTTAATGCTTGATGTCAACTTAATGAAGGATTATACTGATCACCCAAAATTTCTTTTAAATAATCCTCAGTTACAAACATCATTCCAAAATAGTATGCTCCAATTGAAGCAATTGTTGTAAATAGAATTATTTTGAATAATGTATATCCTAATCCCTTAAACAATGAATTTTTACCCTTGATTGGTTTAATTTTCATTAAAGTTGGGTCATTTGAACCCATTCCCATTGATAAAGCAATAATAGATTCTACAATTAAATTCATTCATAAAATATTAGTTGCTTCTAATGGAGAAACTGTATTAATTACAGAAAGAATAAAGATTGCTAAAACATTAGCTAAATTAACACCAATAACAAAAGCAATTGCTCTTTTTATCTTTTGATAAACGTTTCTTCCTTCATTAACTCCTTTAATAATTGTTTCAAAGTTATCATCAGTTAAAATAATATCACTTGCTTGTTTAGCAACATCAGTTCCTGTGATACCCATAGCAACACCAATATCTGCTTTACTTAAGCTTGGTGCATCATTTACTCCATCACCTGTCATTGAAACAATATTACCTTTTTGTTTTAAAGCATCTACAATTCTTACTTTATGCTCTGGATTTACTCTTGCAAAAACCTTTATTTGCTCAATTACTCTTAATAATTGTTTGTCATCTAATTGATTTAAGGTATTGCTAGTCATAACCTCATATTCTGAATGAGCTAAATCCAAGTCTCTTGCAATTGCAAGAGCAGTTACAGCATGATCACCTGTAATCATTACAACTTCAATCCCTGCTTCATGTGCAAGTCTAACTGCATTTACTGCAGTTTCTCTAACAGGGTCAATCATCCCAACAGCACCTAAAAAAACCAAATCATGTTCTAAATCACTTTTATCCTTTAATTTATCATAATTTAAATGATATGCAAATGCTAAAACTCTCAGAGCATCTTTTGAAAGTTCATTTGCTGATTCTAATAGTATTTTTTTATCTTCTTCTGTAATATCTCTTACAACATTATCTATCATTATTTTGCTACATCTTTGTAATAGTTGATCAATAGCTCCTTTTGTAAATGCTGTATTTACTTTATTGATTGTGTTTACAGTTGTCATCATTTTTCTTTCACTATCAAAAGGCATTTCATCAATTCTTTGTCAAACATCACGTGAATCTTGTTCATCATAGCCAATAGTTTCTGCAAAATCGACAAGAGCCAATTCTGTTGGATCTCCAATTCTTTCACTACCTTCTGTAACTGAATCATTACATAAAACTAATGCTTTTAAAAATAAATCCATATGATTATCATTTTTTTCTTTGGCATATTCTTTTGAAGCAATAATTTTATTATCCATTATCATTTTTTTAACTGTCATTTTATTTTGGGTTAAAGTTCCAGTTTTATCTGTACAAATAAAGTTAACATTTCCTAAGGTTTCAACTGCTTGAAGTTTTTTAATAATAACATGTTGCTTAACCATTTTTTTAGTACTGATACTTAAAGTAATTGAAACCACAGCAGCTAAACATTCTGGAATAACTCCAATAGCTAAAGTAATTGCTACCATTAAATAATTTGCTCAGGCTTTTTGATCACCACTGAAAAATAAAGTTGTGAAAATTAAAATCGCCAAAATAAAACTTAATCCACTTATTCAATAAGTAAATGAATTTAATTTTTTTTCTAATGGTGTTGATTCTTCTTCATTTTCATTAATTGATTTAGCAATTTTTCCAATTTCAGTTTCAACTCCAGTTTTAATAACCATTCCAATAGCTCTACCAGATGTCGTAAAAGTTGACATAAAAGCTATATTTTTCATTTCAGCTAAAATTGTTGTTGATTCTTTTAAAGCCAAGTGAGTTTTATCAACAGATACTGATTCACCCGTTAGTATTGATTCATCAATACTTAAATCATTTGCTTCAATAATTCTCAACTCAGCAGGTACATATTTTCCAGCTTCTAAAACTACAATATCTCCTGGAACTAACTCTGACGCATCAATTTCTTGTTGCATATCATTTCTAATAACTACCGTTTTTGGCTTAGAAAGCGATTTTAAAGCATCCATTGATTTTCTTGCTTTAATTGTTTGAACCGTTTCTAAAATAGCATCAATTAAAACAATTGAAAAAATAACAATTGCATCAATAAATTCAGATGCTTCAATATGACCTTTATTAGATATTATTGGCGCAATAATTGAAATAACTGCAGCACCCATTAAAACTAATAAAATTGGTTCTACTAAAGTTTTTAGAAATATTAAATATCAAGGTGTTATTTTACCTTTTGGAAGCTCATTTTTACCATACTTTTGTTGTTTTAATGTAACTTCTTCAGTAGTTAGACCTTTTTTTATATTAGTTTCTAATTGTTTTTCAAGTTCTTTATCAGAACCTAAGAGATTTTCATCCATATTTGTTTCCACTTCTTTTATATATATAAAATTATAACAAAAATATAAAATTTTTTATTAAATATTAGATTATAAATTTGTGTATATTGGAAATTTATCACATAAGTCTTTTACTTCTTTTTGCAATATTTTTAAATTCTCTTCACTATGATTTTTTAAAACACTTGCAATAATATTACCAACTTGTTCAAATTCGGCCTCTTTAAAACCTCTTGTAGTCATCGCAGGTGTACCTAATCTAATTCCTGATGTGTGCACTGGTTTTTCTTTATCAAAAGGAATCATATTTTTATTTGATATTATTCCAATTGCTTCTAAAATACTTTCAGCTTCTTTTCCAGTTATTCCAATTGATTCTTTTACTTCTACAATTATTGTATGATTTTCTGTTCCATTGGCTACTAATCTTAAACCATTTTTACTCAAAGTATTTGCTAAATGTTTTGCGTTAATTATAATTTGATTTGCATATTCTTTAAATTCTTCACTATCTGCTTCAAATAAAGCTTGAGTTTTACCTGCTATTTGATTTTCTAAAGGTCCTCCTTGGACACCAGGAAAAACAGTTGAATCTAGTTTTTTTGCAAATTTTTCTTTACAAAGGATTAATCCCCCTCTAGCTCCTCTTAAAGTTTTGTGAGTTGTTGTAGTTACAACATCAGCATATTCACAAGGATTTGGGTGAACTCCCCCAGCAACAAGACCTGCAATATGTGCCATATCAACCATAAAGTAAGCTCCAACACTATCTGCTATTTCTTTAAATCTTTTAAAATCTATTATTTTTGTATAACTACTTGCTCCTGCAAGAATTAATTTTGGTTTGTGTTTTATTGCTAAATCACTAATTTCTTTAAAATCAATTTCTTCTGTTTTTTTATTAACTTTATAAAAAACAAAATTATATAGTTGTCCTGAAAAATTGATAGGATAACCATGAGTTAAATGACCTCCAGCATCAAGACTCATTGAAAGTACTGTATCTCCTGGGTTTATAAGAGTTCTATAAGCAGCTTCATTTGCTTGACTCCCCGAATGTGGTTGAATATTTGCGTGTTCAGCTTTAAATATTTTCTTTGCAAGTTCTATTCCATAAGATTCTATTTCATCAATATAGCGACATCCACCATAGTATCTTTTCCCAGGATAACCTTCAGCATATTTATTTGTCAATACTGAACCAGTCAATTTTAAAACTTCATTTGAAACATAGTTTTCTGATGCAATTAATTCAATGTGATCTTGTTGACGTTTTAATTCTTTTTTTAATGATTCTTCAATTATTGGGCTCATTTTCATAATTTTGTTCTCCTTAAATTTCTATCTATAAAAATAATACTTGAAATATTCATTTTAAGTATTATTTATTTTATAAAAAGTACTTTTTAAATAGTTTTCAGTACTTTTTTTGCAGATATTTTTTCTTCAATTAGTTCATTTAAGTTTATATTAGAAATTTTATTCTGCAACAATCCATAATGAATTTGAACAATATTTAGATTATTAAATATAATTGGTTCTATTTCTTTTTCCACTTTTTTATCAATAAATTTGGAATTATGAATATTTTTAACAATATTCATATTAATTGTTTCAAGAACATTGTTTAAATTTACAAAATCAATAATTTGATATTGTTTATCAATTTCCAATTTTAAGAAATTAATTTTTTCAGAGTTATTTATTTTATTATATTTTTTTATAAGAATTGATGCTTTATCTAGCTGATTTAAGGAAACCATTTTTTTTCCTTTTTCTATTATTTTTTCCTTTTGAAATTCTTCTTTTGAAATTATACTATTTAGTTTTTCTTTTAATTTTATTCACTTTTGAATATTTTTTTCTACTGATTTTATTAATTTTAAAGTATTTTTATCTAAAAGATTTAAGTTCAATTTTAGTTCCTTTTTTAAAGTAATTAATTCATTTTTATTTAAATTTAATTCTAACAATGAGAAAGTTGCTAAATTTTTAAATGTTCTAGCTAATAAAGTTTTTTCACTTGCTCTTTCTTTATAAGTTAACATACTTAAACAAATAGCAAGTGAAATAGAAAATAAACACATTACTAGATAAATTAATCCATTTGTTACTGGGTCGAGTTTTCCTACTCCGTTAAAAACTGGATCAGAAAAGTAACCAATTGCTGCAAAAACTCCTAAACCAGATTGAGACCTTTGTGTAACTCCCATAATATTTGCTATTGCTCCTGCAAAAAATGCAGCAATCGCACCTGATAATAAAGGTCTTTTTTTAGGTAAATTAATTCCATAAAGAATTGGTTCAGTAATTCCTAAAAAACCTGCTGGAAGCATTCCAATTGCTTCTTTTTTCAATTTAGCATTTTGTGTAATAATTATAACTCCAATTAATGCTCCAACTTGCGCTCAAATAGAAATTGATGGTCCTACACCATAAATACTTTGTCCTCCATTTGAAATATGATCTAACATTGTTATCATTCCTAACATACCATGGATTCCAAAAATAACAGCTATTTGTCATATTGCAGTAAAAATACCTACACCAATTCCTAGTGGAATTTTTCCCAAATAAAAGATTAGTGATCCAAATAATGTTTCAATAAAGTTTCACACAATTCCATAGCCAAAAAATGCTAATGGAGAAACCACTATAATTACAATAAATGGTCTAAACATTAATTCCAAAGCAACTGGGATTACTCTTTTTAATCAGGTATCTAGTTTTTTTGCTGTATATATTGCAGCAATTATTACAAATATTTTTGTATTCATAGTGTTAACTCTTATTTTTGTGATTTGATCTAGCATAGGATTTCCAGTATTAATAGTTCCCAAGTCTAGTATTAAAAAATCATGACCTAATCCTAATCTACCACCATCACCAAAAAGCAATGGTGAACATAGAATAATCCCTAAGGCAACACCCATCAGTCCTTCTAATTTGAAATAATTTGCAGCAGAAACTGCAATAGTAATACCCATAAAAAATGCAGATGACCTACCAGTAATATAAAGAATAATTCAACCAATTCCTGTATCAGTAATTAAAACTTGATTAGGTCCTGAAATTTTGAAAACAATATTTGGCATTACTCCAGTTTGAGTTAAAATAGCAATCATTGCTTGAATTAAACCAGTTCCAACCATTATAGGAATTATTTTTAACATAATTGCTGAAAACATAACTAAAAATCTTCTAAATAACGATATGTTTTCATTTTTTAAAGCTATAGAAGATTTTAAATTAAGTTCTTTATTATTTAATTTAATTACTTCATCTTTTAATTTATAAACATCTTGACCAATTACAATTTGCAATTCAGGTCCATTTCAAACAGTTTGTTTTACAATTGGTAAATTTTTAATATTATCAATATTTACAAGTTCTTTATTTTTAACACTAAACCTAAGTCTGGTCATACAATTATAGACCTCATTATAATTTATTTTACCACCAACAAATTTATTAATTAATTTTGCACTTTCTTCATACTTATTCGAAACATTAAAAAATTTAATGGGATCAATTGATTTCAAATCTTCTTTTTGTTTTTCTTTGAAATTATAAGATATTGTACAAATTAAATCTCCTTGCTTAATTTTTCCCAATTTTAAATTATTAATTTTATACTCCTCTAATTCATTTATAACAAATACAATTGGTGTTTCATTTGAAAAATTTTTACTCTCTAATAAATTTAAATCAACACTAAAAATATCACTATTTTTACTTACTTTGTCTCCTATTTTAAGTTTACTAGTAAATCCCTCTCCCTTTAAAGAGACTGTTTCCATTCCACAATGAATTAAAAATTGTAAGCCATTTATATCAAAACCATATGCATGATAGGTTTCAAAAACCATAGTTACTATTGCATTATCAAAAAAACCTTTAAAGTTATTTGTTTTTGGAATAATAACTAAACCATCACCTAATATTCGATCTGCAAACATTGAATCTTTACAGTCTTCAATTTTTTTTACTTCACCATCAACTGGTGAGTACAAATTTATTTCCATTAAATCATCCTTTCACTAGTAATTTTTCCATAATTTTAAATAAAAAACACATTTTTTTCTAAAAGAAAATACTTTCATTAAATGAAAGTATTTTTTTAAATCTGTTAAACTAAAATTAAATATTTTAATACTATATTTTATGTATTAATCTATCTTTTTATTTGTTTTAAATTTTCTTGTTTTAAATTTGCTATTAATAAATTTAAATTAATATTTTCTTCTTTACTTTTCAATAAATTATAGTATATTTGAACACTATTTAAATTATTAAAAATAATATTTTCTACGTCTTTAAGGATACTTTTTTTAATATGAATTAAATCATAAATCTTTTTAATAATAGTTCTTTCAATGTTTATAATTGATTCATTTAATTTGTCTAAATCTATCTGCTTAAACAATTGATCAATCTGTTCTTCTAACACCGCAATTACTTTTGAATTGTCAATTGATTGATATCTTATTTTATAAATATCTGCCAATTCAAACTTAGATTTAGCAATTAAAATCTTACCTTTTTCAATTATTTTTGTTTTAATTGAGTCTTCTTTTTCAATAACTGAATTTAATTTTTCTTTTACTTTTAATCAGTTTTGAATATTTTTTTCAGTGGCTTTAATTAATTTTAAAGTTGTTTTATCCAAATTCAACATTGTTTGATTTAGTTCTTCTTTTATTTTAGTAACTTCATCTTTATTTAAATTTAATTCTAACTGTGCAAAAGTAATTAAACTTTTAATTGTTTTAGTTAATAAAGTTTTTTCACTTGCTCTTTCTTTATAAGACATCATACTAAATAATACAGCTAATGAAATTGAAATTATGCAGGCTAATAAATAAAATAATCCATTTTCAATTGGACTTATTGCAGCAGTTCCCCCTAATTGAGGTTCAGCAAAGAAGCCAATTAATTGAAATACTCCAATTCCAGTATTAGCTCTTTTAGTTACATTTAAAAGACTAGCAATAGCTCCTGCCAAAAATGCAGCTGCAACACCTGATACTAAAGGTCTTTTTTTAGGTAAATTAATTCCATAAAGAATTGGTTCAGTAATTCCTAAAAAACCTGCTGGAAGCATTCCAATTGCTTCTTTTTTTAATTTTGCATTTTGTGTAACTAAGATAACTCCAATTAAAGCCCCAACTTGTGCTCAAACTGAAATTGAAGAAATACCATAAACACTATGTCCCCCATTTGCAAGATTATCAATCATAACTATTATTCCAAGCATCATATGTAAACCAAAAATAACAGCAACTTGTCATAAACCAACAAATATACCAACTCCAATTCCAATTGGAATTTTTCCTATATAAAATATTAATGAGCCAAATAATGTTTCAAAAAAGTTTCATGCAATTCCATAACCAAAAAATGCTAATGGACAAACTAATGCAATTACAATAAATGGTCTAAACATTAATTCCAAAGCAACTGGAATTACTCTTTTTAATCAAGTATCCAATTTTTTTGCTGTATATATTGCACCAATAATAACAAATATTTTTGTATTCATAGTATTAATTCTAATTTTTGTTATATCATCTAGAACTGGATTTCCCGTGTTAATAGTTCCTAAATCAAGTATTAGGAAATCATTTCCCATCCCTAAACGTCCACCATCACCAAAAAGTAATGGCGAACAAAGAATAACTCCTAAAGCAACACCCATTAATCCCTCCAATTTAAAATAATTTGCAGCAGAAACTGCAAGAACTATTCCCATAAAATAACTAGTTGATATACCAATAATAAATAAGATAACTCACCCCACATTAGCTTCTGCAATCAATACGCCATCTTTAGAGCCTGTCTTAAATATAATATTTGGCATTATATTAGTTTGAACTAAAATAGCAATAATAGCTTGAATTAAGCCTGCTCCGACCATTACAGGAATTATTTTAGCCATAATCCCTGAAAACATAGCTAACATTTTTCTTGTTATTGAAATTTTTTCACTTACTAATCCCAGTTCATTTTTAACTCCTATTGTTTGATTATTTAATTTTAAAACTTCGTCTTTTAATTTATAAACATCTTGCCCAATTATAACTTGTAGTTCAGCTCCATTTCAAACCGTTCCTTTTACAAGATTAGTTTTCTTCAATTCATCAATATTAACCAAACTCTTATTTTTTATTTTAAATCTCAATCTAGTCATACAATTATAAACTTCTTCATAATTTGATGAACCTCCAACAAATTTATTAATTAATTTTGCACTATTCTCATATTTATTTGAAATATTAAAAAATTCTTTTGAATCTGTTGAGGGTTCTAAAATCTTCTTTTCATTTTTAGAAATAAATTCATATGTTATTGTACAAACTAAATCTCCTTGTTTAACTCTACCAATTTTTAAGTTATTTATTTTATATGAATTTAAGTCATTGATATCAAAAACAATTGCAGTTTCTTTTGATAAATCATTTTTTTTGAAATAATCTAAATCAACTGTAAAAAGATCGTCATCTTTATTTACTATATTACCAATTTCTAATTCTGTTGTAAAACCAACTCCTTTTAAAGGTTTTGTATTCATTCCAACATGAACTAAAAACTGTAAACCATCTACATCAAAACTATAAGCATGAAATGTTTCAAAAACCATAGTTACTGTTGCAATATCAGTAAAACCCCTAAAATTATTTGAAGATGGAATTAAAATAAAACCATCACCTAACATTTTTTCAGCAAACATTTGGTCACTACATTTTTCTAATTCTTTTATTTCTCCATTAACTGGCGAATATAATCTAATTTCCATTCTCTTCCTCCTCATTATAATATTTTCACAAATTCAATTAAAAGTTAATGAATTTTTGATAAGAGGAAAATACTTTTAAAAGTGGAAAGTTTCAAAAAAAAATGTAAAAAGTTTCAAAAAAGTTTCAAAAAAGTTTCAAAAAAAAAAAAAAAAGTCATTTCTTATATTAAAATAACTTTTTAAAATTTTATTTATTTGAAATATTTTTTAAATCACTAGGAATTTCTTCTTAAAAATATTTCAAATTTAATTATGACATTTATTTAATCAGTAGAAATTGAACCCTAACTTTTTCCAAATCACTGATTCTACCTCTAAAATAAATTAGAATTTAAATATCTTTTGTATTTGTTATAAAATATATTTCAAAATTTTTATATACAATATTTTATTTTAAATTAATTCTACTATATATTTTTAAACTATTTTTTGTTTTACTAAAATATTTTTTCATTAATTGACTATAAGATATTATTTTTAGTAAAGATAATGTTTTATTCAAATTTATAAATATTTTTTCAAAAAAAGTTTTTTGGGAATTCTATTTTTTGTTATTAAATATTTTCACCATTTTTCTCTATTAGTTCCTTATATCAAAAGAAACTATCTTTTCTAATTCTTTTCATATCCTTTTCATCAAATTCATCACGATTGACATAAACAAATCCATATCGTTTTGAAACTCCGTGATGAGACGATACCAAATCAAATGCGCTTCAAGGCATATAACCAATCATTTCAACTCCATCATTAATTGCTTCACTCATAGCTTTAATATGTTGCTTATAATAATCAATTCGATAGTCATCATGAATTTTCTCATCACTTGTTAGAGTCTCTGTTACTCCAAGTCCATTTTCTGTTATCATAATGGGCAAGCGATATCTATCATAAACTTCTCTTAAAGTACTTTTAAAACCAACTGGATCAATTTCTCAACCATATTCAGTTTTTTGTAAATTTTTATTTTTAATACTTCTACCTATTCCAGGAATAACATAACCTGTTTGTTGATCGGTTTTATTAATTAAAGAATCTTTAACATCATCAGCACTTTCATTTTGAACTGTCATTGTTGAATAATAGTTAAAGGCAATAAAATCTGGTTTAGAATCTTTTAAAATTTTTTCTTCTTCTTTTGTGATAATTATTTTTTCATTAATTTTTTTTAAGAAATTTTTAAACCAAGTTCCGTATTCACCCCTACAAACAATATCTAAAAATATTCAATTTCTTATTTGTTCAAAAGTTAATTTTGTTAAATAATCTTCTGGTGTATTTGAATTTGCATAAACTGATGCAATGTTTGGTGCTGGTCCAATTTTTGCATTGGGTAGCATTTTTCTACACAATCTAATTGCTTTTGCTTGAGCAACATTTAAATTATGCATAATTTGTCATTTACTTGCTTTTGATTTTTCTGAAATAAGACCAATAGCTTCTCCAACAAAAACAAACATATTAAGTTCATTTATAGTTAACCAATATTTAACCTTTGAACCATAATTTTCAAATAAAACTTTTGCATATAATTCAAACATATTTGAAAACTCATTACTATCTAATCCGCCTTTTTCATCAATAAAGGTTGGACTATCAAAATGAAACATTGTAACTACAGGTTCAATTTTATATTTTAGAAGCTCATCAATTAAATTATTATAGAATTTAATTCCTTCAGGATTAATATCTCCTTTAGCATTTTTAATAATTCTTGCTCATGATATTGAAAATCTATAAGATTTAAATCCCATCTCAGCCATTAAAGCCACATCTTCTTTTCAGTGATTATAATGATCTGTAGCTACTTTAAATCCTGTAATACCTTTAGGGTAAATTTCTCTTTCATCAAATTTATCCATTATTGATGGAGCTTTTCCCCCTTGATTAATTCCTCCCTCAAATTGATATGCACTTGTAGATGCACCTCATAAAAAATCTTTTGGAAATTTATTCATTTATTATTCCTCCTTAGTTAATAAATACTTCAACTATTTTTTTATGTTATTGGTAAGTTTTAAATTTATTTCTTTAAAAATATATAAAACTTCTTTAATATTTAATAAACAATTACGCACTTAATTTAAGTTCTTTTTTTAATAAATTTTTTTCTTTTTTTAATTCATCTATTTTTTCATTTAGATTAATATTTGGATTTTTATTATCCAATAAACCATAATATATTTGAATACTATTTAAATTATTAAATATTATCGGTTCTAAATCTTTGATGACATCTTTATTTAGAAAACTTAATTTATTTAACTTACTCATAATTTTTTTCTCAAGTTCTGAAATATTTTTATTTAATCTCTCTAAATCAATTAACTTATATTGTTCATCTATTTTTTCCTTTAATAAATTAATTTTTTGAGAATTATCAATTGCCTTATATTTTTCCATATATAAATTAGCTAAATTAAATTTTTTATTTTTTATTGAATTTTTACCTTTAGTAAGTATTTTTTCTTTTGCAAGCTCTTCAATTTCTAAAATATTATTTAATTTTACTTTTGTTTTTAATCATGTCTGAATGTTTTTTTCAACAGATTTTATAAGTTGTAAATTTTCTTTGTCAATACTACTTACAATTTGATTTAAGTCTTTTTTAAGTTTTAAGGAATCTGATTTATTTAAATTTAATTCTAACATTGTTAATAATCTTAATTTATTAATTGTCTTATTAAATAAAGTTTTTTCACTTTCCCTTTCTTTATATGACATCATACTAAACAATAAAGATAATAGAACTGACATTAAACAAGCTAATAGATAAAATAAACCATTAAGAGTAGAACTTATTTTTCCTACACCTCCTAAGACAGGTTCAGAAAAGAAACCAATTGCTTCAAATACACCAATACCACTTTTTGCTCTTTGTGTAACTCCAACAATATTTGCAAAGGCTCCTGCAAAAAATGCACCACATACCCCAGAAATTAAAGGTCTTCTTTTAGGTAAATTTATACCATAAAGAATTGGCTCTGTAATTCCAAGTAAACCTGCAGGAAGCATTCCTATTCCTTGTTTTTTTAATTTTGCATTTTGTGTAACTAAGATAACTCCAATTAAAGCCCCAACTTGTGCTCAAACTGAAATTGAAGAAATACCATATATTGTTTGACCTCCAGTTGTTGGTGAAAAATAATCAAGCATTGCAATTAAACCTAAAACCATATGTAATCCAAAAATAACTGTAACTTGTCAAATTGCAACAAAGATACCAACCCCTATTCCTAATGGTATTTTTGTTAAATAGAACATTGATGATCCAAATAAAACTTCAATAAAGTTTCAAATTATTCCATAACAAAAGAAAGATAAAGGAACAACTATCATAATTACAATAAAAGGTCTAAACATTAATTCCAATGTAATTGGAATAACTCTTTTTAGTCAAGTATCTATTATTTTAGCTGTATATATAGCACCTGCAATAACAAAGACTTTTGTACTCAGCGAGGTGACTTTAATTTTTGTTATCTGATCTAAAATTGGATTTCCAGTATTAATTTTTCCAAGGTCAAATAATAAAAACTCATTTCCCATACCATTTTGTCCACCATCACCAAATATAAATGGACAACAGAGAATAAGACCAAGTGCAATTCCCATTAATCCCTCTAGTTTAAAATGACTTGCCGATGCAACAGCAACCATAATTCCTATAAAATAAATAGTTGATTTTCCCATTGCAAATAAGATAACTCATCCTATTGCAGCATCTTGAAATAGAACATCATTTGCACCAGGATTTTCACTTAATTTAAATACAATATTTGGCATTACTCCTGTTTGCATTAAAATAGCTATAATTGCTTGAATTAACCCAACACCAGCACCAATAGGAATCATTTTAACCATAATTGCTGCAAATGTAGTTAAGAATTTTCGTCCTAAGGAAACTTTCGAACTATTAATCCCTAATGAAGTTCTTATTGCTAAAGATTGAGAATTTAAATTAATAATCTCTTCTTTTAATTTATAAACATCTTGTCCAATTATAATTTGTAATTCATTTCCATTTCAAACCGTTCCTTTAATAAGATCCAACTTTTGAATTTCATCAATATTTACAAGTTCCTTATTTTTAACACTAAATCTAAGTCTTGTCATACAATTATATACTTCATTATAATTTGACTGAGTACCTATTAATTTATTAATTGAAGCTGCACATTTTTCATATTTATTTGTCATATTAAAAAAGTGAGCAGGATCAGTTATAGTTTTTAAATCTTTTTCCACCTTTTTTGATTTGAATTTATAATCAATTGTACAAATTAAATCTCCTTGATTTACTTGTCCTAACTTCAAGTTATTTATTTGATAACTACTTAAATTATTAAATTCAAAAACTATTGGTGTTTCATTAACTATTTTTTTCCTTTTTAATAAATCTAAATCTACACTAAAAATATCATCATCTTTAGTTACTTTATCCCCTACTTTTAAATTTGTTGCGAATCCTTCTCCTTTTAACAAGACGGTATCCATTCCACAATGAATTAAAAATTGCAATCCTTCAACATCAAAACCATACGCATGATAAGTATCAAATATCATAGTCACTTTTGCATTATCAAAGAATCCCTTAAAATTATTTGATTTTGGAATAATAACTAGTCCATCACCTAACATACGATCTGCAAAGATTGAGTCATTACAATCTTGAATATTTTTTATTTCACCATCAACTGGTGAATATAAATTTAGTTTCATATATCCTCTCCTAACAGTAATATTTTCCATTAAATTGGGAAAAAGAAAATATTTCTCCATTAAAAAGAAAATACTTTCACTGTTAGAAAGTATTTTGTACGCATTCAAATATTTGTAGAAACAGCATCTCCAAAGCTATATTTCTATATATTGATTTTGTTTTATCTAATTGATAATTAATTAAAGTTTTATCTGTAAAATTTATATCCAATTGAATATCTTGATTTGCAGTTGTAATTAAAAATCTTTTATTTTCTTCATTAGTTTCACACTCAAATATTTTTAGTAATGAGCGATTATTACTTGAACAAACAATTAAAATTTCAAGCTCATTTTCACTATTTTTTACTGCATCTTTTCTATATTCTCAAGAAATAATTCTAACTACTTTATTTAAATTAGCAAATAATTCTGAAATATACAAACTTGCATGTCTAATTTGATTTGAAGGATATAAATTTATAATTTTTACATCTTTAATTGCTTTTGCTAAATTTTCGATAAATAAACTATTTTCTATAATTCATTTTTGAATAGATTCAAATCTTTCAAAAGAACTAACTTTATTAACATTTTCAGTTCAACCATAACGATCATACTCACTTTTTAAAATAAAAACTAATTCTCTGTATCCTGTACAACCAATTTTTTGAGAAAATTTGGTTATAGTTGATAATGAGACATAACATTCTTTTGCAAGCTCTTCTTGATTTTTGAATTCCCCTTTTGCAAAGTTTTCTATAATTTTTTTAGCAATAATTTTAAAGTTTGTTTCTTCAACAGAATCACTTAATTTTATTAATTTATTAATTGCTGTCATATCATATCATTTCCTATTCATTCAAATTATATATTTAAATAAAAAAGTAAAATATTATATTTACTTATGTAAAATATTTTACTTTTATATCTCCATAGTTTTAACAAATTTTTTAAATCAATCAAATGATTTTTTCTTAAATCTATCCCCAGTTCCTTTATGATAATCGTCATAATCAACAAAAATTAAACCATAACGTTTTGACATTTCATTTGACCCTGCACTAACAACGTCAATTGGAGTTCACATAGTATAACCAAATAAATTTATTCCATCTTCAATTGCTAAACTCATTTGCTCAAAGTGTCTTGATAGATAATCAATTCGATAATCATCTTCAACAGTGTTTTTTTCATTTAATTTTTCTAAAACACCAATTCCATTTTCTGAAATAAATAAAGGGACATGATATCGATCTCACAATTGATTTAAAGTATATCTTAAACCAATGGGATCAATTTGTCATCCTCACTCTGATGCTTCTAAGAAAGGATTTTTACCAAGTTTCATTAAATTACCTTCAGTTAATTCACCTTCTTCTTTTGCAATTGTACTTGACATATAATAGCTAAATGAAATAAAGTCAACAGGATTATTTTTTAATAATTCATCATCACCTTTTTCTTTTATAATTTCAATATTATTGTCTTTAAAATATTTTAAAGAATATCAAGGGTATTCACCTTTAATCATTACATCATAGTAAAATAATTTTCTCATTAATTCCTTTTGTTGATTTTCAAAAACATTTATTGGATTACAATCTAAAGCATACGTAGTTGAATTAGCAAGCATACAACCAACTTGAATATTTTTAAATTTTTTAGAATACTCAACAACTTTTGCTTGTGCAATAAACTGATGATGTAAGTCTTGATAAGAAGAATTTATTTTTTCAAATACAGTTTTTTTAGTATTATCTTCTACAAAGAAAGCCCCCATTAAAACTGATAAATTTATTTCATTAATTGGTAATCAGTATTTCACATATTCATTAAATTCATCGATAAGTACTTTGGCGTATTTAAAATACATATCAACTACTTGTCTATTTCTTCATCCACCGTGATTTTGAACTATTGGAAATGGTGTATCAAAATGATTTATTGTAACCATTATTTCCAATCCCTGTTTTTTACATTCTTTAAATACATTTCTATAAAACTCTAATCCTTTTTGATTGGGTTCTTTTTCGTCACCATTTGGAAATATTCTTCCTCAAGCCACTGACATTCTAAATATTTTTAATCCTGCTTCTTTAAACAAAGCAATATCTTCTTTATATCTATTATAAAAATCTATTCCAAATCTTTTAGGATAATGTAAACCCTTTTTATTTTCAATTGAATCTAATAAATCCTGTTTTGTTAATTTTCTTGTTGCAGTTAAATCTTTCTTATCTTTTAATTCAATATAAGGAATCATTTCTAATAATGATAACGATTTTCCATCAACATCATAAGCTCCTTCTATTTGAGAAGCTGCTGTAGCTCCCCCTCAAAGGAAATCTTTTGGAAATTTTAATTTTTTTGCCATTAAATATTTTCTCCATTTCTTTCTATTAGTTCCTTGTATCAAAAGAAACTATCTTTTCTGATTCTTTTCATATCTTTTTCATCAAATTCATCACGATTGACATAAACAAATCCATATCGTTTTGAAACTCCCTCGTGAGTTGAAACTAAATCAATTGCGCTTCAAGGCATATAACCAATCATTTCAACTCCATCAGAAATAGCTTCACTCATAGCTTTAATATGTTTTTGATAATATTCAATTCTATAATTATCATGAATTTTTTCATCCTTTGTTAAAACTTCTTTTGCACCAATTCCATTTTCTGTTATCATAATTGGTAATTGGTATCTATCATAAACTTCTCTTAAAGTATTTCTAAATCCAACATAATCAATTTCTCAACCATAATCAGTTTTTGGTAAGTTTTTATTTTTAACAGTTTTTCCTACACCTGGAATAACAAGACCTGAGTGTTGATCTATCTTATTATCTAAGGTTTTTTTAATATCTTGAGCACTTACATATTCAACAGTCATTGTCGAATAATAATTAAATGCAATAAAATCTGGTTTGGAATCTTTTAAAATTTCTTCTTCCTCTTTTGTAATAATTATCTCTTCTTTAATTTTTTTTAAGAAATTTTTAAATCACGTTCCATATTCGCCTCTACAGACAATATCTAAAAATATTCAATTTCTTATTTGATCAAAATTTAGTTTTGCTAAATGATCTTCTGGTTTATTTGAATTTGCATAAACTGATGAAATATTTGGTGCGGGACCAATCTTTACATTTGGTAGCATTTTCTTACAAAGCCTAATTACTTTTGCCTGAGCTACATTTAAATTATGCATAATTTGTCATTTACTTGCTTTTGATTTTTCTGAAATTACTCCAATAACTTGACCCACAAAAGCAAACATATTTAACTCATTTATAGTTAATCAATATTTAACTTTTGAGCCATAATTTTCAAATAAAACTTTTGCATACAATTCAAATATATTTGAAAACTGATTGCTATCTAACCCGCCAATTTCTTCGATGAATGTTGGAGTATCAAAATGAAATATTGTAACAACTGGTTCAATATTGTACTTTATAAGTTCATCAATTAAATCATTATAAAATTTAATTCCTTCAGGATTTACATCCCCTTTAATATTTTTAATAATTCTTGGTCATGAGATTGAGAATCTATAAGATTTAAATCCCATCTCAGCCATTAAAGCAACATCTTCTTTTCAGTGGTTATAGTGATCTGTTGCTACTTTAAACCCTGTAATACCTTTTGGATAATTTTTTCTTTCATCAAATTTATCCATTATCGATGGAACTTTTCCTCCTTGATTTATTGCTCCTTCAAATTGGTATGCACTACTTGAAGCACCCCATAAGAAATTTTTTGGAAATTTATTCATTATTTTTTTCCTCCTTTGTTAAGAAATATAACCCGCCATAGCAAGCTGCTTGATTTTTTAAAATAGATACATCAAATTTTGACTCTATATTTTCACATGTGTACATAAGCTTCTTATCTCAGTAAAAATTTTTGTGTTTTGTTAATTTTTGCTTAATCATTTCAATAAATTGTTCGTTGGAACTAACTCCCCCACCAATAGTTAATAAGTCAAAGTCTAAAATATAATTTAAATTTATTATTAACTTAGCTAAGTGAGAAGTAAAATCATCCATCATTTCAATAACTAATTTATCATTTGAGTTATATAACTCAAAGAATTCTTCTCCTGTTATTTTTTTTCCTGTTCTCATTAAATACTTAATTAAAGCAGTCCCCATTCCTGTATCAAAAGTTATAGTTGCTGGGTCTGTTTTATTTAAACTACTATACATTTTACCTATTTCACCAGCTTGAAATGTATTTCCATTAAAAAGCTCTCTATTAATTATAATTCCACATCCAATTGCCGTTCCAATTGTTAAGTGAATCATATTTATTATTTTAGAATTATTTTTAATTCTTTCATTATACTCCCCTAACACTGCAGCTTTAGCATCATTTAAAAGAACAAATTTATTTAATTTAGAATACTTACTAAAATATTTAATTAAATCAATATCAACATCTTTGATTGCTGATTCACTAAGTACTCTTTTATTTTTTGTATCAATAATTCCAGGTAAGCATATTGCTAAATTAAATTTTTCAGATTCCTGGTCAAGTACTTTTGATATTTCAGATAATACATCTACAAATGAAGTTCGAAGATCTTCTAAGTTTTTTGAACTTGCTATTGTATAATTTATTCAAAAACTTTTAGTTACTTTATTATTTTTAAAGATAATACATTTTGTAGATGTTCCCCCAATGTCAAAGCAATAATTATACATTTAAACTCACCTGACTTTTATGTGTTACTTTATTTTTCTTTAACTCATGAATCTTTTCATTTAAATTAATTTTAGGAACTTTATTTTCAAGTAAACCATAATATATTTGAACACTGTTTAAATTATTGAATATTATAGGTTCTAAATCTTTAATAACATCTTTTTTTAAAAAATTCAATTCATTTAATTTACTCATAATTTGCTTCTCAATATTTGAAATATTTTTATTTAATTTTTCTAAATCAATTAATTTATATTGTTGATCAATTTTTGATTTTAATAAATTAATTTCTTGAGAATTATCAATTTGATTATATTTTTGCATATACAAATTTGCTAAATCAAATTTTTTCTTACTTATTAAGGCTTTACCTTTAATAAGTATTTTTTCTTTTGTAATCTCTTCATTTTCTAATAATGTACTTAATCTTACTTTATACTTTAATCATGCTTGTATATTTTTTTCAATAATTTTTATAAATTGCAAATTTTCTTTGTCTAAAATATTTGTAATTTCATTTAAATCTTTTTTTAATTTTAAAGAATCAGGTTTACTTAAATTTAATTCTAAAACTGTTAATAATTTTAATTTATTAATTGTCTTATTTAATAAAGTCTTCTCAGTTGCTCTTTCTTTATATGACATCATACTAAATAATATTGATGTTGATATTGCCACTGAACAAGATAATAAATAAAATGAACCATTAAGAGTGGGATTTAGTTTTCCTACTCCTCCATATATTGGTTCAGAGAAGAAACCAATTGCTTCAAATACTCCAATCCCACTTTGTGCTCTTTGTGTAACACCAAGAATATTTGCAAAAGCCCCAGCTATAAATGCACCACATACCCCTGAAATTAAAGGTCTTTTTTTAGGTAAATTTATACCATAAAGAATTGGCTCTGTAATTCCAAGTAAACCTGCAGGAAGCATTCCTATTCCCTGTTTTTTTAATTTTGCATTTTGTGTAATTAGGATAACTCCAACTAAAGCTCCAACTTGTGATCAAACTGAAATTGAACCAGCTATACCATAAACTGTTTGACCACCAGTTGTTGGTGATAATAAATCAAGAAATGAAATTAAACCTAACATCATATGTAATCCGAAAATAACTGCTACTTGTCACATAGCAACAAATATACCAACACCAATACCTAATGGTATTTTTCCTATATAGAACATTGATGAACCAAATAAAGTTTCAACAAAGTTTCAAATTATTCCATAACCAAAGAATGATAATGGAGCTACTATAATAATTACAATAAATGGTCTAAACATTAATTCTAAAGCAATTGGAATTACTTTTTTTAAATGAGTGTCTAAAATTTTTGCAGTGTATATAGCTGCAACAATAACAAAGACCTTTGTGTTCATTGCATTTACTTTAATTTTTGTTATTTGATCTAACATTGGATTACCAGTATCAATTGTTCCCAAATCAAATAATAAAAAATCATTTCCAAGTCCCATACTTCCACCATCACCAAACATTAAAGGACAGCAGAGAATAAGTCCAAGTGCAACTCCCATTATGCCCTCTAATTTAAAGTAATTTGCAGCAGATACAGCTATCATAATTCCCATAAAATAAGTTGTCGTTTTTCCCATTGCAAATAACATTATTCACCCTATTGAAGCATCTTTAAATAAAACATCATTAGCACCTGGATTTTCACTTAGTTTAAAAACAATATTTGGCATTACTCCTGTTTGCATTAAAATAGCTATAATTGCTTGAATTAACCCAACACCAACCATTATAGGAATTATTTTAACCATAATTGCTGAAAACATAGCTAAAAATCTTCTTGCTAATGGAATTTTTGTATTATTAATTCCTAAAGAAGCTCTTATAGCCAAAGATTCATTATTCAATTTAATAACTTCTTCTTTTAATTTATAAACGTCTTGACCAATTACAACTTGTAGTTCATTTCCATTTCAAACTGTTCCTTTTACAAGTGACAATCTTTTTATTTCATCAACATTTACAAGTTCCTTATTTTTTACACTAAATCTAAGTCTAGTCATACAATTATATACTTCATTGTAATTTGATGAGCTTCCTATAAATTTATTAATTGAAGCTGCACATTTTTCATACTTATTTGACATATTGAAGAATTCAATAGGATCAGTTATACTTTTAAGATCCTGTTCTTTTTTTTCTTCTTTAAATTCATAATCAATTGTACAAATTAAATCTCCTTGTTTTACTTTACCTAACTTCAAGTCATTTATTTTATAGTCAGTTAAACTATTAATTTCAAAAACTATTGGAGTTTCAATCGACAATTTTTTTTGCTTTAATAATTCCAGATCTACATTAAAAATATTATTTTCTTTGGTCACGTTATCGCCTACTTTTAAAGTAGTTGTAAATCCCGTTCCATTTAATGCTATTGTATCCATTCCACAATGAATTAAAAATTGCAATCCCTCAATATCAAAACCATATGCATGATAAGTATCAAATATCATAGTTACTGTTGCATTATCAAAAAAACCTTTAAAGTTATTCGAATTTGGAATAATAACTAATCCATCGCCTAGCATACGATCTGCAAACATTGAATCATTACAATCTTGAATATTTTTTATTTCACCATCAACTGGTGAATACAAGCTTATTTTCATATATTTTCCCCTTACAGTAATATTTTCCATAAAATTAAGAAAAAATAAATATTTTTCCACTATAAAGAAAATACTTTCTAAATTAGAAAGTATTTTTAATATGTTCAAATATGTGTAAAAACAACATTTCCAAAGCTATATTTCTATAAATAGACTTTGATTTATCAAATTGGTAATTAATTAATATTTTGTCAGTAAAATCTACATCTAATTGAATGTCTTGACTTGCAGTTGTAATTAAAAATTTTTTATTTTTTTCATTAGTTTCATCTTCATATGTTTTTATTATTGAATTATTGTTACTTGAGCAAATAATTAAAATTTCAAGTTCATTTTCATCATTTTTAACAGTATTTTTTATATACTCAGATGAAATAACTCTAACTATTTTATTTAAATTATCAAATAATTCTATGATGTATGCACTAGCATGTCTGATTTGATTTGAAGGATATAAATTTATAATTTTCACTTCCTTAATTGCTTGGGTAATTTTTTCAATAAATAAACTATTTTCTATAATTCATTTTTGAATAGAATCAAATCTTTCTAAAGAGCTAACTTTATTTACATTTTCAGTTCAGCCATAGTGGTCATATTCATTTTTTAAAATAAAGATTAATTCTCTATAGCCTGCACAACCAATTTTTTGACTAAATTTTGTTATAGTTGATAATGAAACGTAACATTGTTTTGCAAGATCTTCTTGATTTTTGAATTCTCCTTTTGCAAAGTTATCTATAATTTTTTTAGCAATAGCTTTAAAGTTTGTCTCTTCAACAGAATCACTTAATTTTATCAATTTATTAATTACTGTCATTTTTTTTGTCCTTTTTTTCCTACTAATTAAAATTATATATTTGAATAAAAAAAAGTAAATAATATATTTACTTATGAAAAATATTTTACTTTTATAACTCTTTGGTTTTGATGAAATCTTTAAATCATTCAAAAGATTTTTTCTTATATCTATTACCAGTTCCTTTATGATAATCATCGTAATCTACATAAATTAAACCATAGCGTTTAGACATTTCATTTGTAGAAAGACTAACAACATCTATTGGAGTTCACATAGTATAACCAAATACATCTACGCCATCACCTATTGCCTCATTAATTTGAATAAAATGTTCTTTTAGATATTCAATTCGATAACTATCATCTACTGTATTATTTTTATCTAATTTTTCAACAACACCAATTCCGTTTTCTGAAATAAATAAAGGTAATTGATATCTATCTCATAATTCATTTAATGTTATTCTTAAACCAATTGGGTCAATTTGTCACCCTCACTCAGTAGCTTTTAAAAATGGATTTTTGCCACCCATTATTAAGTTTCCACCATTTTGATTGTTTAGTTCTTTTGACACTGTTGAAGTCATATAATAGCTAAATGTTATATACTCAACTGTATTTTCCTTAATTACTTTTAATTCCTCTGCTGTCATATCTATTTTTATATTTTTTTCTTTAAAAAATCTTTTTGAATAAGTTGGATATTCTCCCTTTGCAACAACATCATAAAAGAAATATCTATTAATTTGTTGTGTTAGTAAATTTTCTAGAACATTGACTGGATTACAATCAATTGAATATGTTGTCATATTTGCTATCATACACCCCATTTTTATATTTTTTGAAATAGTTTTTGCTATTTGAATAACTTTTGCCTGAGCATAAAACTGATTGTGCAATCCTTGAAAAGCTGCATTTAAATATTCTGAACTTGTTTTATAATCTTCTTTAAAAATTCCTAACCCTGTAATCGGTGACCAAGGTGCTACATTTATTTCATTAAAAGGTAATCAATATTTTACTAAATCCTTATATTCATTCATAATAACACTAACAAATTTAATATATAAATCGATAACTTTTTTATTAGACCAACCTTTATATTTTTTTGCAATTGGATACGGAACATCATAATGTTGAACTGTTAACATAACTTCAATTCCATTATTTTTACATTCTTGAAATACTTTTCTATAAAATTCTAAACCATCTTTATTAGGCTCACTTTCATCTCCATTTGGAAATATTCTTGATCAAGCAATTGACATTCTAAAGATATTCATCCCTGCTTCTTTAAATAATGCAATATCTTCTTTATACCTGTGATAAAAATCTATTCCAAATCTTTTAGGATAGTGTAAGTTATCTATATTTTCAATTGATTTTTCATAATCTTCTTTAGTATAGTTATTCATTTCTTGATTATTCTTACGATCCAAATTTGGATTAAAGGGTCTCATTTCAGCTAAAGTAAGAGATTTACCATCAACATCATAAGCTCCTTCTATTTGAGATGAAGCAGTAGCTCCACCTCATAAAAAATCTTTTCTTTCAAATTTCATACTTCTTTTCTCCTTTATCAATATTTTGCCTTAATAAAAATAAAATAAATCTATTTTTATTTTAAATATAGTACTTTACAATTTGTAAAGTACTTACTATATTTTTTTAAAAATATAAAAAAATAGCATATGAAGTACAACTTCTCTTGATGAAAATTGTGAATTATCCAATGAATAATCTACTGTCATTTTTTTTGTAAATTTAAAATTTAATTTATCAATTTGTTTATCTGAGGAAATTAAAAAATTAGTATAATTTTCGTCATAAGCTTTTGAAAAATTATCAATTAAAGTATCGTTATCTCTACCAGTCAATATTAATAAATTAAACCCCTTTTCATTATTTTTTTTAGCTTTAAATCTAAATTCATTATTCAAAACTGTAACATTTTTTTCATATTCATATAGCATATTTGCAAAATATCTTGAAGATTCATTTGCTTGATATGATGTATAAATATTAATAAAATCGCTTTCCCTAATTTTTTCACACACAGTATTTATAAAATCCTCATTTAAATGAATTCATTTTTCAATTGATTGAAAAATTTCGAAAGTTTCCATTTTCTCTTTTCTTTCATAATCAAGTTTTCTTCATTCATTTTTCATTTTAAAATTTAATTCTCTAAAACCAGAGAATCCCATTTTTTTGGCAAACTTGGTAATAGTTGAAATTGATACAAAAGTTTGTGCAGCTAATTCCTCTTGATCACAAAATATTGCCCTGTCAGCATTTTCTAATATTCTTTTTGCTATTATTTTAAAAGTTGTATCTTCAAATTCCTTGCTAATGATTTTTAAATTATCAAACACATATGTCATTAGTTTTACCTATGAAATTTTTTTCTTTCTATATATCTAATAATAAATATAAAAAAAAAAAAAAAATATTTAATTTTAAACAAAAAAAGTTTTTTAACTTTTATTTAAATCAAAATATTTTTTTTACATCAATTATTCTTTGATTTAAACTACCTCTATATAAAATATTTGGGTCATATAACTCTTTAATAAATCTCCCCTGAATTAAAGTATCAATTTCTAGCAGTCTTGATACATGGTAATATCCTTTTCATTACAACTATTTTTTAAAATCAATTCTTTAATTGTAAAGCTTGTATATAATTAAATACTTAGTCCAGTTTCTTGCTTTATTTTTTAAATAAAGGGTAATAATTCAATTGTGCTAAACATTGGATCACCCCGCTAAAAGTAACTCCCCTCAGCAATGAGTTTGATTTTATTTCAGAAATAATTTCAGTTTCATATTCTTTATCAAAATTTCGCCCTATTTTTAAATTTCAACTCAAGATATTATGGCAACCACAACACACATGTAAGCAACCTGCAATGTAAATAACCAGGTCCATCACTAATTGTTTCTTTATAAATTTTAAATATTTTCATTAATTTTATAATAAACTGGTATATGATTTAAGTTTCTAAAATATTCTCTATCAGTAACACCTTCAACTACACCAAAAACTTTTTTAGTTTCCTTTACTGTAATTAGTAACTAATTCTTTTTTCATAGAGCAATATCCTTAAAATATTTTTTTATAAATATAAAACTAAACTTTTATATTTAGTTGTGAATTAATACTTTCAAAATAAATTAAAAAATCAATAAAGACTTATAATAATATAATAAAAAATCTTAATTAAAATATAGCACCCCTATATTATTTATATATGAAAGTAAAAAACCTTATTAATAATAAGGTTTTTTACTTTCATATATAATTTTATGTAAATCAATTTAACTTTTTAAAATCTTTGCTAGAACTCCAAAACAGCCAGCTTTATTTTCTAAATTACTTTTTATTATATTTATATTTTCAATTGGTGAAAAATTTTGAAATAATAAAATATAATTTTTCGCCTTTTGAATTATGGTATCTAAAAATTTACTATTCGAACTTATTCCTCCACCAATAGTAATCGCATCAAAATCCATTAGAAAATTTAATGATACTAAATATTTAGTTAAACTAGTTGTTCATATATCAAAAATATCAACTGCCATTTGATCATTTTTTTCAACTAAGCTCATGAATTTTTTACCATCAATTAAATTTTTCTTTTTGGCACTATCTTTTGCTTTAGCTGTTATTACATTTTCAATTGGGGCAACTTTACCTAGTTCAATTGAATCATTATATCTCTTTAAATTTGCACCCGTAGAAGTGCTTTGAACAATTAAATTAATATCAGGTCTATCAAAGTTAGCAAAGAGTTTAGATAGCTCTCCTGCTCCCCCTTTAAAACCTTTATAAATTTTACCATTAATAATAATTCCCCCACCAAGTCCTGTTCCTACAGTGACATGAAGCATATTTTTATATTTTTTATTCTGACCAAAATAATATTCTCCATAAGCAGCAGATTTTGCATCATTTTCAATTTCAAAAGTTTCAATATTTTTAAATTCAGCAAAAAAATCTTTTAAATTAATTTCTTTAATATTAGTTAAAGATGATTCAGATAATATTTTGTATTTTTTTGAATCAATAATTCCTGGAATACTTATTCCTAAATTAATTTTAATATCTCTTGGCAAATCCCTTTTGATTAGTTCAAAAACATAATTTGCATCTAATTGTCATGCATTTGCTCTTTTTTGATTATCATATTCTATAACACCTTCTGATAATATTTTTTGATTATCATCGATGATTATTTTTTTAATACTTAATCCTCCAATGTCATATAAGTAGTTAGTGTTTTTCATAAATTAATATTCCCATTTCTTTTTTAAAGCTAGCCAATTATTTTGTTAGCTTTTTTATTTACGTTATTTTGTTGTGAAATTTTTTTGATTATTTTGTTTAAAGTGATTTTGACATCAATTGGGTTTGATAATTTGTAAGTTATTTTTAAATCATTTATAGAATTTTTATATAATAATTTTATTGAATTAAAATCTTCTAGTGAAAAATAATTTTCTAATTCATTTAAGTTATTTATAATAATTTCTTCTTTCTTTTTAATTGCCTGATTTAATCACTCTAATTTATCAACCATTTTTTTATCTAGTTGTTGAATTTTCATTTGCAAATCTTCTTTTTTAATTTCAAAAAAAACTTTTTTATGTTTTTCCATAATTGCTTTTGCTTTTACTATCTTACCTTTATTAATTAAAATAGAACCTTGTTCAAATAATTTCTCTTTGATTTTATTTTCTTTGTCAAAAAGTATTTCACGATTAATTTTATATTTTAGACTTTCAATTAATAACCTCTCAATTTTTTTTATTTTAATAACTTCTTCTTTGGTAAAGAAATTTTCTTCTGTTTTTAAAATATTTACTATTTTTTGTTTATCTTCAGTTGATAAATTAGAATTGGATAAATTAATTATTTTAATTAATTTAATATTATTTTTTTTGATAATATTATTTTCCAATGATCTTTCTTTGTACATAAATATTGTAAACATTAAAGCTAATGCAACCGATAACATACAACATAAAATATTGTAAAAACCATTTAAAGCATTTGGCAGTAATTCAACAGTAACTATTTCTGGGTTAATTGGATTTGAGAAAAATCCAAAGAACGAAAATACTCCTAATCCAGTACCTACTCTTTGTGAAACACTAAGCATATTGCTTAAGCAACCTGCAAAGAATGCTCCAAGAGTACCTGCAATAAAAGGCCTTACTTTTGGTAGATTAATACCATAAACAATCGGTGCTGGAACTCCAAAGAAACCTGTAATTACAGTTGAACGAGCTTCTCTTTTAGTTGAACCATTTTTAGATATTATTATAACTGCAACAACAGCTCCAACTTGTCCTCAAACAGAAAACTCTCCTCCTGGAGTTAAATAACTAACCCCATCAGTTAATACTTGCATTTGAGAAATTTGTCCTACAGCAGAATGCATTCCAATAACAACTAATGGCTGTCAAATCAGAGCATAAATACCAGTTCCAATTCCTAATGGAGCTGCTGTTACAAATCTTAAACCTACTGCAATTAATTGTTCAAAAATATATCAAATAGGTCCAATGATAAAGAATGTTATTAGAGCTGAAATTAATAATGTTAACGCTGATTTTAAAATTAATTCCAAAGATTTAGGAACTCAAGTTGCAATTCAGTTATCAACTTTTTTTGTAATTATAATTGCCAATATTACAACAATTATTCTTGCTCCTTGAGGCATTATTTTTATTGAAGAAAGACCAGATCAAACAGGATCATTAGGACTTATTCCTGTTTTAAATAAGTCTCAAGTATAACCAAAACCGATTGGTCCTCCATCACCAAATATTAATGGGCTTCCTAAAATAATAGAAATACTCATAGCAATATACATATTTAATTTAAAATACCTGGCAGCACTTAGTCCTGCCAATACTCCCATAAACCTTAAGGGAGTATTGGATATTACATATAAAATAGCTCATAAAACATTTGTTTCTTTAATAAATTCTTGTCCTGGTTTTAAGCCACTCTCTGGCATTTTTAAAACTATATCTGGCATTATTTTTGAAATCTGTAAAACTCCAACAAATGCCATTATAATACCTGACCCTATCATAATTGGAATTAATGGCATCGATATTGAAGAAATTACAACTAACATTCTTTTTTTAAAAGACATTTTTCTATTTGCTAATAAATCAAATTCTCCTGAATTTTCAATTATTTTTAAAGCGTTATACAATTTGTAAACGTTTTTTCCTAAAATTAATTGTAATTCATTATTTTTTCAAACAACTGCCTTTATTTGGGAGATTTCTTGAAGTGAATTAATGTCTACAAGACTTTTATCTTTTATTTTAAACCTAAGACGAGTTGAACAATTGTAAGAATTACTATAATTTGCTTTTCTTCCAACAAGTTCAATTACTCTTCTTGCAAGTAAGTCTCAATTTGAACTAGTTTTAAAATATTTATCAACTTCAATTTCCCTTTCAGGTTCCAAAATAGATTCAAAAGTTCCTATTAATTGACCTTTTTTAACTTTTGTAGGTCCTGTAAAATAGGGTTTAAAAGTTCAATTTAACCTATTAGATTCATCATTAATTACAACAGCAATATTAGTATTTTTGTGGACTACTTTTAAATATTCCAAATTTACTTTTGCAATTTTTTCAAAATTTTTTAATTTATCATCTTGTTCTTTTACAATTTTAAAATATTTACTATCCTCTAATTCAAAGTCAAGACACATATTAATCATGATTGAAGAGTTCAAATTATTTTGCTTCAAAAATAAACCATGATTTGTTTCAAAAATTAAATCAACATTTGCATTTTCAATTGGGTTATAGATTTCATTTGATGTTGCAGATATAAAATAACCTATTCCTAGAGAGTTATTTTTAAAAACTTTATCATCAATATTTTCTATTAAATCAATTACTCCATCACAAACAGCATAAACATTTAAAATTTTTTTCTGCATAAGTAATTCCTTTCAAAAGTTTAATTATTACAGGATTACTAAGCAATTTTTGAAGCTTCTTTATCTAGACCAATTCTTTGATAAGTTTCTAGAGGAGCATCAACTGTTTTCATTTTTTTAACCATTTTTTCAATCATCATTTGTTCAATTTTTTTATCTTTTAATGGATTTAATTGATTTGGATCATTTTCTAAATCAAATAATAGATTTCCATATTTAAATGAGTTTGCACTAAGTAAAGGTATATCTAAATTAAATTTCATCATTGGCATTCAATTTGAAAATCTTGTTCCTTTTACATATTGCATATCATTTAAAAAGATATCAGGTAAAAATCCTTTCATGAAATTAAAGTTCAATGTGTATTGTGTATTTGGAGAGTTTTTTTCATCTTTAGCAGCTTTCATATAAACATATTTTCCATCATATATATTTACATGTCCTCCATTAATACCAAATAAAATTTCTTTATGATTATTTTTATCTTTTCTTAGTGCTTCATAAATTGAATTACCATCTCGATCAAAATCGTCTTTCATATTAAAGTATTCCAAAATTGTTGGAGCTATGTCAATTGTTTGACATAATTTATCAAATCTTTTTCCATCCATATTTGCAAATTCAGGAATATGTAAAAAGAACGGTGTGTGAATTAATTCATCATATCAAGGTGAAGATGATTTACCAACAAAATTATGTTCTCCAGTTAAAAATCCATGATCTGTATTTACAATTAGCATTGTGTCTTTTCACAAATCATTTTCGTCAAAATAATCTAAAATTTTTCCCAAGTATTCATCAATCATTGAAATTAGTGCGGCATATTCAATTTGAAGTTTTTTAACATTTTCAGATTCCTTTTCTTCATCATAGTGACTATATTTTGGTCAATTCGGAATATTGTCTGTATATGTAGCTCCATAAATATCTCTATATTTTTGAGGCATTACAAATGGTTCATGAGGATCAAAACATTCAATTTGTAATAATCAATTATCTAATTCCTTATGTCCTTTCAAAAAATCAATACCTGATAACATTGTTTGGACACTAGAATAACTTGTATCTTCTTGTGTTAAATGAGCCAAATTTGATTTTCCATATTTCAAAAAATTTCATTTCTCTTCTGTAGTTGATGGGTCAAAACTAGTATTTAAACCATTTTCATGAGGTTGATCGTGATTTTTACCATAAGCTGCCGGTATTCATTGATCATATTCTTGTCCCCTATAACCTTCTCAAGTGTTATATCTTGTATGATAAGTCCCTCCACCATCTTCTCAATAATGTCAATGGTCAGTTGTTAAATGAGTATAAATATTATTATTTTTCAAATGCTCAAATATTGAATTATCAAAAGGTTCTAATTGTCCTCAACTTCTATGTAAAAAATTATATCTTCCAGTATGAATTTCTCTTCTAGCAGGCATACATGGCATACTTCCTGCATAAAAATTATCAAATGTAATTGTCTTTTCTCCTAATCTTTTAAAGTTTGGCGCATGAACTCAATCATTGCCATAATTAGGTAAGTACTTTCTTGTTAATGTATCAAACATTAATATAACTGCTCTCATTTTTTTCTCCTTTGTAGAATGTTAAACATTCTACAAATATAATATAGTAAATATTCCAATATTAATACTTATTTTGGAATATTTTACTATCCAAAAAGGAAATTAAAAATAATATTAGATTTAATTAAATTAGATCTAATATTATTTTGATAATAGATATTCAGATTACAATTATTAATAATCACTTAATATAAATTTCTTTTTTAATAATTTTTTTTAAATAGATGGCTGCAATAAATCCTAGTATTACTGGAATAGCAAAAACTAAATTTTTGATTCAAACTTCTTTTACAGTTCAAGGATTATAGCCCATAGAAATAGGATTTAAAATCAAAGAAATAAACGAAGAAATCATTATTAAAGTATGAGAGATTGGTGCAGCTGTACTTATTTTTAAGGAAAAAATTATTATAAGTAAAGGCATTATGATTGGACCTCCACCCATTCCAGTTAGAGATGTTATAATACCGCCAATAAAAGAAATTAGAGATAAAAGAAGAATATTAATTTTTTCCCCTTCATTACTTGTAATATAAAAATTTTTATTAAGCTTATATACTTTTTGACTATTATCTTTTATTTTTAAAAAATACTCTGAGTAAATTAGCATAAAGGTCACAATTACTAAAGTAACTGCTACTATAATTTTGATTACACTATCTGAATTAATACTTTTTGATATTGTATTTCCAATTAAAATTGATATTGTCGAAAAGACAATACCAACTAATAAAATTTTGTAATTAAGTCTCTTTTTAATAATTTCAATTAACACATTCATGGAAGAACCTAAAAATACTAAAAAAGTCGATATGTACTTTATTTCATTTAATTCATCATTTAAAAAAAGTAAAAATAAAGGCACATAAAGTACCCCACCACCAACTCCAGAAATAGATCCCAATATTGATATCAATAAAATAATAATTGATAGCCATAATAATGTAATTCCCATTTTTTATATCTCCAAATAAATTTTACAATAATAATTGCATTTTTTGGAAAAAATTCTATAATAAGTAATGGAGGATAAAAATGATTTTAATACAAAGTGGTACTTTTTTAATGGGTGGCGATGCCGAAGATGGTTTTATATATGATAAAGAAGGACCACCTACTCTTATAGATATTAATGCGTTTTATATTGATGAAACTTCTGTAACTAATGCAGAATTTCAAAAATTTACAAATGAAACTGATTATATAACCGAAGCTGAAAAATTTGGAAATTCATTTGTATTTGCAGGATTATTAAGTGATGATGAAAGACTTACATATCAAAAAGCTGATTTAATGGGAATTTGATACGATGTTCCTGGAGCAAATTGAAGACATCCACAAGGACCAAAAACAAATATTGCCGATAAAATGAACAACCCAGTTGTTCACGTATCTTTATTTGATGCTATTGAATATTGTAAATGAGCTGGAAAAAGATTACCAACCGAAGCTGAATGAGAATATGCAGCTCGAGGAGGTTTAGTACAAAATAAATTCAGTTGAGGAAATGAATTAAAACAAAATAATAAATATAATCTAAATATTTGAAATGGAGACTTTCCATTTGGCAATACTTTAGAAGATGGTTATTTAGATTTAGCTCCTGCAAAATGCTTTGATCCTAATGGATATGGAATTTATCAAATGTTAGGAAATATTTGAGAATGATGTATCAATGTAAAAAATGTTCCGCTAGAATATTTTAAAAAAAATAGCACTAAGGAAATAATAGATTTAGAAATCAATGAAAGTAAAGACTATGCCCTTCGAGGTGGTTCATATTTATGTCATGATGGTTTTTGTAAAAGATATAAGGTTTATTCTAGAAATGGAACAGCTCCTAGATCAACTGCAGGAAATATGGGATTTAGATGTGTTAAAGATGTTTAATAAAATAAAAAAAGTATTTAAAACAAAAATTTAAATACTTTTTTTATTTTTTATATTTACTGTTTAACAAAATGTCTTATAGTTTTTCTAAGAAAGATAACGCTCCAATATATTTAACAGCTTTATTTGCAAACTTATTAGCTTTTGAAACTATTTCAATTATCTTTTCCTTTGATGAGTTAACATCTATTTTTTCCTTTACATACTCATTTATCAAACAAGAAATAAATGCATCACCAGCTCCTGTTGTATCAGCAATTACATCAGATTTTATAGTTGGTACAAAAATTATTTCATTATTTCAACTACACATTGTATCTTTACTACCTCTTGTTATACAAATTAAACTCTTTTTATTTTTATTCATAAGAATTTTTAATGCTTCTTTTTCATCTTTTATTTTTGTTAATAAAAATAATTCTTCATCACTTAATTTAATTAAATTTGCAGTTTCTAAAAATTGTTCACATAAATTTGTAAATTCCTTAACTTCATTTTCAGTTACTCAAAGCTTATCTCTAAAATTTGGATCAAAACAAAATTTTATTTTATTTTCCTTTGCAAATTTAAATAAATCTCAATAGGATTTATTTAAATTTCCTGGTAAAAAAGCTGTTGCACTACCAAAATGAATAAAATCAATTTCTTTTAATTTATCAGTATCAATATTTTCTAACTTAAAATCGGCATCACTATTTCTTATGAATTCAAAAAATCTTTCTTTATTTTCATCTAATGTAACTTTTGCAATAGTTGTTGCAAGTTTTGAATATTGAATGAACTGCTTTTTTATATTAAATTTATTAATTAATAATTCTATCTTCTCTTTATACTCATCGTTTCCTAAACTACCCATAAAAAAACTTTCATTATTTTTTAAAGCCGCAATTGAACAAGCAACATTAAAACTTGCTCCTCCTACTTCAACTTGTAATTCACTATTATTAGAATATACATCTACTAGAACTTCACCTATTGAGATTATTTTTTTCATATTTATTTTTCCTTTAATTCATTTTTAAAAATAATATTATTTCAAACATATTTATTTGAATCCAGTTGAAATACTTTTAAATTTTTTAAATTAGTTTCTATTTGATTATGATTTTTAATAAAAAATCTTAAGGAAATTGCATGCTCTCCCTCATTAATAAATATTTCTAAACAACTTCTATCTATTAAAATTCTTATTGAATCAATTTTTAAATTATCAAAATTTATTTTTGATGGCAAATTTAATTCATCATTGTAATCCATTAAGCTTCTATCAATTGAAAAAATATTATTTTCATTTTTGATGATAATATTTTTTTTCTTACTTTTAATTATAATTTCAAAATTTTCATTTGCAACTTTTTGTGAAATAATTTCTACAATTCCATTTTGATAATTAAAAATATTATTTTTTAAATCGATTTTATTTAATCTTAATTTTTCTAACTCTTTAACTGGCATTTGATATAATAAGTCATTTTTTAAAGTTAATTGTCTAGGTACAGTTAAATGATTACTTCAAGTTTTTAATTCCTTTGGAAAAGGATTTGATTTTGAATTTCCCAATCAACCTAACATAATAATTCTATTTTCAGTATTTGAAAATATCTGAGGTGCATAAAAATCAAATCCTAAATCAATTTTTTTTAATTTTGATTTAAATTTAAAATTAGCTTTATTATCAACTTTTACTTCTCTATATTTAACAAAATGACTTCCTTCTGCTAAAGAAGTTTCTTGTTCTAAACATGCAAAGATATATTCCTTATTCTCTATATTAAAATAATTTGGGCACTCAACCATATAGGAATTTTGCTCATCATTTTCATCTATTAAAATATCTTTGCTTCATTTTCATTCTTCATCTTGGAACTCATAAACGTTTAGTACTCCTTTGTTTTCCAAAGTTTGTGCACCATTTAACATAAAGAGTTTATTATCTTTTTCAAAAACTACTGGATCTCTAAAGTGACCAGTATATTTTTTTAAATCACATTCAAATAACAATTCTTTAGATACAACTTTTTCTTTTAAATCAATTAATGCTTTTAAAGTATAACTAGTTCTTTCTAAATCATTGAACTTAACATTACCTGTATAATAAATTTCCATTTCACCATTTTTATTAACTCTAGCGCTTCCAGAAAAGACTCCATTTTTATCATAATCAGTTGAAGGAATTAACGTTAAACCTTCATAAACATAATTAATAAAATCTTTTGTAGTATACAAAGCTCAAGACTTATTATAATGTTGAATACTAAAAGGACAATTTTGCATAAAAATAAAGTATTGATCTTTATAAAATACTAAACCATTTGGATCATTTGTTGAACCAGAAAAACCTGCCAAGTGAAATTGATTATTATATCAATTCTTTATTTTTTTATTATGATATTTTTGAAATAAGTTTAGGTGATTTTCATTAATTAAACTATATTTTTCTCATTTCATTTTTTATACTCCCTTATTTTTTAATTTTTTTTCTTCTTTCAGTTTTATTTTTTCAAGTTTATTATTTTTTGATTCTTCTTTTTCTTTTTGTTTTATTTGTTTTAATTCTTCAATATATTTTTCATATTTAATTTTATCTTCTTTTAGTTTTTTCTCTTTTGTTTTCATACTTAACAATTTTTTCTCAGCTTTGTTAATTAATAATTGATAATTTTTTGTATCTTTATTTTGTTGTATATTTTTAATTTCAATTTGTTTATTAACAATTTTTGTTGCTTGCTTATCAATTTGCTTTTGAGAAATTTTTCTTCCTGCTTCTCAATAGAAAAATATAACTAAAGCGAATGCAGAACCAAATGAAATAATATTTACTAAAATAATTAATATTAATTTAACTCAATCTCCTGAATATAATAATAATCCAGGAATTACAGTTACACCCATTCCAGGACATGTTACATTTAATAATCCTGCAAAGAATCCCCCAATAAATCCACCAATTGAAGCATAAATGAATGGTTTTATTTTAGGTAAATTAACTCCAAAAATTGCAGGCTCTGTTATACCAAACATTGTTGATACTGCAGATGACATACCCAAATTTTTTTCTTGTTTTGATTTTGTTTTAAGCGCCACTGCCATTGCAGCTCCACCTTGTGAAATAATTGATGCAGTTCAAATAGCATTAAATATTGAACCAGTTACTTCTGCATTAACTCCTTGAGGAATGCTTCCATCAATTACTAATTGCATTTCTAAACCTTGTAAAACTTGATGACAACCTGTTATAACAATTGCTTGTAGTAAACCTGCAACTATTCCTGTACCAAATCCAAATGGTATTGCTAAAATAGATTTGGTTCCTATTAATACACCTTGTTCTACTAATAATAAAATTGGTCCTAATATAAATAAAGCTGCCAACAATGCAATTAAAATTGTTAGAAATGGTGTAAAAATAATATTTACAGATTTAGGCATTCATGTTTTTATAAACTTTTCAAGATAAGCCACACCAATTCCAACTACTAAAGCTGGTAAAACAGAACCTTGATAACCTGTAATTGGAATTATTCAAACCATTTTAGCAGTAACTGGAGTATCCAATCATTTTAAACCAGCTGCAATTCACTCTTCTTGCTTTCCACCATTAGCTTCAAAATTACTTTGAGCATTATAAGCTGCAATTAATCCCTTGTCAGGCAATAATGGATTAATTAACATTAATCCAATAATAATACCCAAAACAGGATTTCCACCAAATCTTTTAACAGTTGACCAACAAACTAATACGGCTAATGAACTAAAAGCAGTTTTAGTTACAATATCTACTATTATTCATAATAATGAATCTGATTCAGGATCATATGGAATTAAATTTTTAATTAAAGCAGCAAAACCCATTGCCAAACCTGCAGCTACAATTGCAGGAATAATTGGTAAGAATATATCTCCCAAAGTCTTCATGCTCATTTGTATTCACGCAAATTTTCCACCACTATTTCTTAAAGCTTCTTTATTTGCTTTTGCTTTAAGTTTAAATTCTTCATAAGAATCACTTTTTGATATGCTATCTAATTCATCCAATTTAGAATTAACTTCCAAAATTTTTTGCACTTCACTATATGTTGCTTCAACAACACCAGTTCCTAAAATAATCTGCAATTGATTTTGAGTTCAATTTGTACCTTTTGCAATTGGTGAAGATTTTATTTCACCAATATTGACTTTTGATTTATCAATTACATTAAAGCGCAATCTTGTTACACAATGTAAATAAGATTCAATGTTTGCTCTTCCCCCAACAGCATTAATAAATTTTTCTGCTTCTTGTGCATAATTAACTTTTTTCATTATTTTATACCCTCACTTGTTACTTTATTAAATTATTTTCTTCATTCAATAAAATTTCATTTAAAGTATTTTGGATCATATCAGCTCTTTCTAAACTCTAACATTTCACCAAAAATATCATAGACTTTTCCTAAATCAAGAATAAAGTTAAATGAATCTTTATCTTTAAAATTATTTAATAGATCATTATTATCACTTTCATTAACAAAAGATATTTCCTTAGAAGAGTGACTTATAATTGAATTAGAATTATTTTCAATTCAAAGCATTAAACCACTTTCGTTTAATTTTTCAATTGTTATACTTTTGAATTTATCTCTTAATATATAACTTTCCTGATACAAAATTATTTCATCTGTATTTGTTTTTCTTAGACATTTAAAATACAATAATTTTTTGCCTTCTTGGAATCCTGTCATTTTAGATAATTGCTTATTGCAAGTAATTTCAACTAAGTCATAATATTTATTTTTTGAGCCTGGGAAAAGTTCTCTAAAACTAAATAATAAATTATTAGATATTTTATCTTGAACAACAAAACCCTTTCCATTAATTGACTTAACAATTTGCAATTCAATTAGTTTATTAAAAGCTATTCTTATTGGCTGTTCTGAATAACCAAATTTAGTTTTTAACATATTTTGACTAGGTAAAATTTCTCCAGGAAGAACTTTATTTTCTCTAATTAAATACATTAAATAATCGAATATAACTTCTCATTTTTTATTCATAGTATAATCCCTTTATTAAATTAATTATACTACTTTAAGTAATTTTCAAGAGATTTTTTACCTCATTTAGTTTTTAAAAATCCAGTACTTACCCCCGCAGTGACTCCCCCAGAAATTAACATGGCAATTGAGATATGTGCTCCCATTGGAACTGATTGTAAAACTGAATTAATTCCTTCTTGATTAAAGTATTCAACAGTATGTGAAGTTGTTCAATCAAATTGGACAAGTCCAATTCAACTTGCACTTCCAAGTGAGTTTGCAACTGTGTGTGTCATTCCTAATCATCAACCAGCAATTCCACTTCCAATTGCAGCTGCAATAAATAAAGGTTTTACTTGTAAGTTAATTCCAAACATTGCTGGTTCTGTTATACCAGTATATCCTCCAATTGCACTAGAACTAGCTTTTGTAATTTGTTCCTTATCTTTTTTTACAAAGAAAATTAGCATTAAAGCAGCTGTTCCCTGAGCAATATTTGAAACACAAGCTACTGGTGTTATAAATGAAAATGAATGACCATATTTTAATTGACTATCAACTAATAATTGTGTTTCAATTGGTAAAAATCCTTGATGTAAACCTGTAATAACAAGAAATGGATAGAAGAAGGCAAAGATCATTCCACCAAAACCAATAAAACTTCAATTTGTATATTTAAATATTCCTGCTAAACCAATTGATATTCCTTTTCCAATAATTTGCCCCAAAGGTCCAATTACTCAAAAAGCTAATCATGATGATACTAAAATTGTTCCTAACGGAATTACTAATATAGCAATTACATTTGGAGTAATCTTTTTCAATAGTTTCTCTAAATTTACAGAAAGAGCTAAAACTAATAAAACCGGAACTATCTGAGCTTGATAACCAATTAATTTAATTTTAAAAAATCCTCCAGCAACTCCGCCAAACACTTGATAATAAATACCTACTGTTTTATTTAAAGCTTCTAAATACCCTTCATCTTCTGGTCCAATAACAGGCAGACCATTATTTATTAAGTACTCACTAAAAGCTGATTTTCTTGCCTCTTCTATTGCACTTGCACTAGCTCCTAAATCAAATTCTAATAATACTGGCGTACTTGTTGAATAACTATTTAATAATCCTGGTGATATTAAAACCAGTCCCATTGCCATTCCTAAATAAGGATTTCCTCCCCATTTTTTTGCTGCAGTATAACCTACAAATGCTGGAATTGAACCTAATATTGCTCCTCCAATTACATCAAGTAATTTTGTAAAACCTGATGAAGGTGCAAATGATCCAATTAATGATTTAAGTGCTAAAGACATACCCCCAGCAATAAATACTGGAACTAAAGGTACAAAAATTGAAGCAAAGGAATTCATTCCCCTTTTTGAAATCATAAATAAATTAGATTTAACAGAAACATCTTTTCTCCAAAATGGCTCTTTATTTTCTATTTTTAATTCTCCATCAATAGAATTATTATTAAGAACAATATCAATTTGTTTATAGAGTTTATCTACAACCCCAGCACCAATAATAATTTGATGTTGATTTTCTTGTTTTTTATATCCTTTAAATAAAGGATGCTTTTTAACTTGCTCTAAATCAAATTTATCATCATCTTTTAATACAAATCTTAATCTAGTTGCACAATGCTGAATTTCTTTGATATTTTCTTTACCACCAAGTAAATCAATCATTAGTACAGCATTGTCATAAAATATATTTTTTGACATTTTGAACACCTTCAAACCTTTTCATATTAATTATTTAACTTTATAAGAAAAATATATATACCTATAATCATAAGTTTTAATTAATAAAATATACTGCTAAAATGAAATTGTAAAAAAGCAAAAAAAATAACCAATATTAAGGACATAACATTGGTTATTGGAAATATTTTTTTAAGACTAATACTATTAAACATTTATTCGGAAAACTATGAGTAGTTATATAAGTAAATAGTAAATTTATAAATAATTATAAAACAGGATTTTAAGAACAAAGAAATAATCCCATTTGTTGTTTATTTATTTAAAAGTATTAGTAATATGAGAAAAACATTTGTGAAGGAGATTTCTCCCCTCCATTTATATTGTTTCAAAATTTAAGGAAAAAATCTATACACTTTTATAAGTTAAAATGAATTACTCAACTTAAAAATGTTTTATAAAATGCTTTATTTCTTAATAAAACATTTTTAAGTTTCATTTTACTATTTGCTTTTTTTTTTTTTTTTATAATTAGAAAGTGTTAGTTATTTCCTATTATAACTAACACATCTTTTATAAAAATATAATTAGTTTTAAATTAATTTGACTCTATTAAGTTGTATAATAATAAAATAATTAAGGGGGAAATTAATTTATGAAAAATAAAGTGTGATTTATTACAGGGGCAAGTCAAGGATTTGGTCTAATATTTGTTAAAAAATTATTAGAAAAAGGACATTGTGTTTTAGCAACAAGTAGAAATCCAGAAAAAATAGTTCAAGAAATTGGCAAAAATGAAAATTTGTTAGCAGTTAAAGTTGACTTATCAAAACAAAAAGAATTGGATAAAGCAATGAAACAATGTTTTGATAAATTTGGTTCAATTGATATTTTACTAAATAATGCGGGATATGGTCAACTATGAACTTTCGAAGAAACTAGTGATGAAGAAATTAGAAAATGTTTTGAAGTCAATTTTTTTGGAACACTAAATGCAACTAGAGCAGCATTGCCATATATGAGACAACAAAAATCAGGACATATTTTTACAACTTCATCTGTTTGAGGATATGTAGGAGATCCCTATATTTCTACTTATGCAGCTGTTAAATTTGCAACTGATGGTTGAACAGAAGCACTAAGTCATGAACTTGAAAATTTAAATATTGGTGTAAGTTGTATAAAACCAGGAGGTTTTAGAACAAACTTTTTAGAATCAACTTCAATGGTTACTGGTGAAAGTAAAATTGAGGACTATAAAACTGCAAGAGATGCTTATTTTGATGGAATTGCAAAATTTAATAAACAACAAGATGGAGATCCAGAAAAATATTGTGACTTTATTATTAATTTAACTAATAAAACTACAAAACCACCTCTTCATATTTTTACAGGTCGAGATGCTTATAAAAAAGCAGAAACTAAAATTGCAAATTTAAAAAAAGATATGAAAATATTAAAAAAAGAAGCTACAAATTTACATGTAAAGTAAATTTTATTGCTAATGAACATAGAAATAAAAAAGATAACTAAATCTAGTTATCAAAAATTTATTTATATGTTCATTTTTTATTTTTTAGCAGTTCATTTAAAAGTTAAAGTAGTAATTGTAAAAATTGCAATAAGTATCAATATAGCCCCAAGTACTGGTTGTCATGTTGCTGTAAAGTCTTTTGAACCATCATGCAAATTAAATCCACTATCTCATCCCTTATCGCTTCAACCTCTTGTTGCATATAAAAATATAAAAACTGAATATTTATGAGGAATGAAATATGTAAATATAATCATTCCTTTGCTTGATTCAAATGTTTCTGGAGGTAGCATTATCCCAGACAAGAATATACTAAAAAAGTAAATCATCATAATCATACCTTGCATTGAACCAACAGAACTAAATAGTCCCCCAAACATTGTTGCTAAAGCAATTGAAGTTAAAGTTATTAAAATCATTGATAATAATAAATAACCTCAATGAACTCCTCCTAAAAGCTTTGCAAAAGTAGGATCATTTTTATTTAAAGCTAAACTATAAATTTCAGAGAAAATTAGATTAAAGATCATCATTAATATAAATGATATTATTCCAGCAATTAAGTAGACAAATCAAAGAGCTCCAATAAACATCCCTTTTCTGATTCCAGTTATATCAATTCTTTTCAAAAAAACAGAGTTTTTTCATTCAACTACTGCTGGTGCTAATAATGTTAAGCAAGTAAGACAAGGCAATAAAGTATAGGCGAATAAAATTGAATTAGGATTTCCATTTCCACCAATAGCTGCTTTTTCACCCATTATAAAGAAAAACATAATGTTAAAAAAAATTGGAACAATAAGCATAAAAATTATTGATTTTGGTTCTTTAATAAAAGATTTAGAAAGTAATAAAGATAAATTATTAAATATACTAATTTGTTTTTTAATATTTACATCCTTTTGTTTTTTTAATTTATTCATATTATATTTCTCCCTTAAAGAATTTATCCATTAGAGCTCTAACTGATTTGTGTTTTTTAATTGTATTGACTATTGAGTCATCATAAAAAACTTTACTATCTTTTATTATAATTAAGCGATCACACATTTCTTCAACTTCTTCTGGGTGATGGGAAACTAACAGTAAAGTTTGATTAAATTCTTTTGTATTTTTTGAAAAGAAATCAATAATTTTAAATTGTAATTCCATATCTAAACCCGTTGTTAACTCATCTAGAATTATAATTTTTGGATTATTCATAATTGAAATCATTGCATTAAATCTTTGTCTTTGCCCACCACTTAATTTTTTAAGAGGTCTGTCAATAAATTCATCAATTTCAAAAACTTTTTTAATTTTTTCTTCTCACTCTTTTGTTAATTTTGGATAAACTGCTTTATAGAAATCCAACATATTATGTGCTGTAATCCCTGTTGGTCAATTACCTTCTTGTAATTGAATTCCAATTTCTTGCTTAATATTGTCTTCCAAATTAATTTTAATTTCTCCTGAATCAGGTTTAGAAAATTGTGCTATCATTTCAACTAATGTAGTTTTTCCACAACCATTGGCTCCCATTAAAGCCACCTTTTGACCCTCTTTTATTTCTAAATTAAAGTCTTTAAAGATAACTTTTTTACCAAATGCTTTTGAAATATTATTAATTTCTATTAAAGTTTTCATATAAATTCTCCTTATAAGTATTTACTATAACATATTTTTAAATTAAAAAAATAAACATTAAGTTTATTTTTTCAAATATTTTTAGATACATAATTCTAAATTAAATTGCTAATTATAACTAAGCTATTGAATATTAAATTATTTTAACTATATATATTTTTTTTGAATTTTCTATTAGCAAAAAATATGAAAATGACATCTAATATTATATAAAATAAATAAATATAAATTATTAAAAATATTCCCTTTTCTTTTGGTTTTATACCTTGATCAAATATACTTGAGTCTGTACTCAATTGACTAGTTTCATCATTTTGAACTCTATCTATATCTTCTTTGACATTTTTTAAATCAAATCTTGACTTAAGAGTTTTATAATTATTCATAGGTCCTATATTTGAAATATAATCACTATTAAAGTTATTATCTATATTTACTTCATTTAAAAATGAATTAAATGTAAATATATTTAAAAAAGATTCAACATTATTTTTAATAAAAATCTTATTATAATTTTCAAAAGTAAATGATTCTCCAAAATAATTTTCAGTATATATTTTATTTGAATTTAATGGTATTTTCATTGAATAAGCTCAATAAGTAAACAACATCTGAGAAAACAAAAGATATTCTGGTGCATTTTTGTAAAATTCATTAACTTTTAGTTGTTTTTCAGTTTTATTACTACTTTCTCATTCACCAAAATCAGATCCGATATTATTTTTAAAATATAAGTTCATATATCTACCATATTGAAAGAAAAATAATTTACGTTTATTTAAAAATAAAATTAAATCAGAGTATTTATTTCAATATTTATTATCTTTTTTAAGCTCTTTAATAAAATATTTTGTATCAAAATTTATTTTATTTGAGTTTTTAATGTTCATCGGCATCATCTCTAAATTATATGGGCTTTTTCAATCTTTTAAAACCTCATAAGTATCAAATGCAAAACTACCCAATATTTTATTACCATCATTGATAATTAGATCATCTTGCAAAATTTCTTCTGTAGTTTCATCACTTTTTACATTTAAAATTTGACCCATTTTATAAAAACGAGCAGTTTCTGGATCTAATGTGTTACCATATTCGTGAAAAAAAGTTGCTAAATTAATCTTTTGCTCACCCGAAGCATTTCAAATATTTTTTGCAAAATTTGGAGCTATAAAAATATCTTTAAAATACTCATCATTTTTATATTGTTCGTAAAATTCATATCCCATATTTATTTTTACATTTACTTCAGACATTCTCTTTACATCATCTACTGGAGAACTACTAATTATCTGTTTTCCAATATAATTAAATAAGCCCGAGAATGATAAAATAAACACAAGGAATGAATTTATAATTGAAGCACTATTTTTCTTAAAATAACTAAAAATTAATACTGAAAATGAAACATAAAATATTGTTATAAACAATAATATCAAATAAGGTTTTATTACATAATAATAATATGTTCTATTGGTATCTTCATTTCCAATTAAGAAAAATAAACTTGTAATTAAATTTATAATAATTAATAAGTATAAAAATGCTAGAATAAATAAAATTCTTGTAAAAAACATTATATTTTTATTAATACCATGTCTTTGTTCCATATTTAATATATTTAAAGTTGTACTACTTTTAAATAATGTTGATGTCAATATTATTGAAAAAATACCTATAAAAAGATAATTAAATAAATTACTTAATATTAAAATTGCAGTACTACTTGCGTCAATAAATTCATTTTTCAAATTTATCAAAACAATTTGAAAAATGAGATTAATAATTAAAAAGATTAAACTAAACAATAATGTTTTTCATTGCCTTAGAAAAAATATGAAATTCAAATTGAATATCATTTTGAAATTTAAGTATCCATTATTCATAAACTTCCCTCAACAAATCTATATTCATTTTTTTATTAGTATAATATTTTTGATAAATATCTTGAATACTATTTTTTTTATTATCAAAATATTCATCATATAAAATTTTTCCCTTTTTAATTAAAATTACTCTATTTGCAATAAGTTGTAATTCTTCTGCTAAGTGACTTGTAATAAGCATCCCTATCTTTAATTCACCAAGATACTTAATTATTTCTAAAAACTCAATTTTTGAATCAATATCCAAGTTAGCTGTAGGTTCATCAAAAAAGATGAATTTTGGTTCAGTAAGCAATACACCTGCTAAAATAGCTTTCTTCTTTTGTCCAGATGAAAGATTTTTTAATTTTTTATTTATTAAATCTTCTATCTCAATCATTTTTAATATTTTTTCTTGCTTTTTAATAAAAATATCTTTTTTCATATTATTTAATTTTGATAAATATCAAAGATATTGTTTTAAAGTCAATTCCAAAGGAATACTATTTTGATCTGAGAAAAATGATATTTTTGTTAAATTTTTTCAAATATGCAAATTCTCATTATCAAATTCTATATTTCCAGAATCTAATTTTACAAGATTAAATATTGATTTTATTAAAGTAGTTTTACCTGAACCATTTTCCCCAATTAAAGCAATAATATCACTACTTTTAAATTCTAAATTTACATCTTTTAATTCAAAGTTTTGATAGACTTTTGAAATATTATTAATTTTAATCATTTTTTCCCCCAAAAAAGTTATCTATAAAATAACTATAAATTTTATATTATTATGCAAATTTAATTAAAAATATTTTTTATTTATTACATAATAATTTTAATACAATTATTAATAATTAACATAAAAAATTTTATCAAATTTTGCAATATGAAATAAAAAGTACTTCTAAAGCACTTTTTATTTCATATTTATTAATACATATCTATTCTTTTTTGATGTCTTCCACCCTCAAAATTCGCATTAATTCATTCATTAATTATCATTTTTGCAAGTTCTAATCCTATAACTCTTGACCCCAATGATAAAATATTTGTATTATTATGCTCCTTTGAAAGTTTAGCACTATAAGGTTCACTACAAACAACAGCTCTTATTCCCTTTATTTTATTAGCAGCCAATGATATTCCAACACCTGTTCCGCAAAAAATAACACCTAAATCAACTTCTTTATTTGCTACTAATTTTGCAACCTCTTTTCCAAATAATGGGTAGTCGGTTCTTTCAAGTTTATTTGTACCAACATCAATTATTTCATAACCTAATTCATAAAATCATTTCTTTATTGGTTCTTTTAAAACCAAACCAACATGATCACTACCTATTGCTATTTTCATTTTATAATTCCCTTTCAATTTTTAGTAATTGTTCTTTTAAATTAGCTTCTTTATTATTTATAAATGCTCCAACTACAAGAACTTCAGCTCCCTCTAACTTTAATTTTTCATATGTATTTTCTCTTACACCACCATCAACTTGTATAAAGTAATTTAATTTACTATTTATTTTATATTTTGACAAATAATTTAAATTATCATAAACTATTTCATTAAGCTTTTGCCCATTAAATCCTGGTTTAATTGCCATGCACATTACACCATCAAGTAATTTTAAGTATGGTTTTAAAACTACAGGATTTGTTTCTGGATTTATTGCTAAAATTGCTTTCATTCCAGTTTTTTTTATCTCTTTAATTATATTAATAATATTTTCGTGACTTTTATTAGTAACTGATTCAAAATGAAAATTAAAATGATTTGCTCCAGCTTCTGAAAAAGATTTAATATATCTTTGCGGTTCTAAGCACATTAAATGAACATCAATAATTAAATTTTTATACTTTTCCTTTATATCTTTACAAAATTTTTGACATAAAGCATAGTTATTTACAAAATTGCCGTCCATTATATCAACATGAATTCAATCAACACCAGCATTAACTAATTGATCAAGTTTTTTACCTATTTCTAAAAAATTAAATACATATATAGATACTGCAACTTTTGTTTTCATATTATCTACCTAATTTCTCTTTTACATTTAATGAAATATTTGAAACTTGAGGGCCATAAATTATTTGAATGTTTTCACCCTTTTTTATTATTCCCATATTTCCCGTTTGATTTAAAATATCTTCATTTATTAATCGAGAGTCTTTGACTTTAATTCTTAATCTTGACGCACAATTATTAACTTCTAATATATTTTCTTGTCCACCAAGTCCATTAATTATTTTATTTGTCTGTTCAATTGTATAAACTATATCTTTACTATTTTTAGTCTTATTTAAGGATTGCTCAGTTTTTTGAAGTGCTATATCTTCTTCTTGAGAATTTCTTCCTGGAGTTTTAAGATCTTTAAATTTGATTAATGATCAAAATGAAAAGAAATACGCAGGAGCAATTATTAATAAACCATAAATCATTATTCACAATGAGCCATTTCTTCCTGCAAACATTCCAAATATAGTTATTTCACTTTTTCCAATTATATCAACTCCACTTGAATACCCCGGAATTAAACCAAAGAAAACATAATCAATCATTCCAGCTGTAAATCCATTACCTGCTTGAATATTTAATAAATAAGCAAATAAATAACTAAGTCCTCCTATTAAAGCATGAACACCAAATAATAAAGGAGCTACAAAAATGAAAGAAAATATTAATGGTTCAATAATTCCTGTAGCCATAGATGTAACTATTGCTGATCCCAAAATACCTGTAACTTCTTTTTTATTTTCTGGTTTTGCTAAAAATATCATAGCCAATCCAGCTGCAGGAAGACCATAGTTATAAACTGCAAATCTTCCACTCATAAATCCAGTTCCTACCTCTGTAGTAAAATGATTGAATGAAATATTTCAAACATCTCCACTTTTATAAATAATATCTAAATAACTTGTCATATTATTATCTAAAATACTTTGATAAGCTTCTTCTGATAATTCAAAACTTCGACCAATTCAATTCATTTGTTCAAAAAAAATTGTATATGCTCCTTGAGTTAAATTTCAACCTGTTATAACTCCATCAGATATTTCAGGTGCATATCAAGTACCTCCAACTGAGGTAAACCAAAATGGTGTATAAAACACGTGATGTAATCCTGTAGGAATTAACAATTGTTCAAATACTCCAAAAAAATATGCAGCAATTGAACCTGATGTTCTTGCATACTCTTCCTTACTTCCAACATTCATTCAAGTCCCTAAACCTGAACCAATTTGAAATAAAGCTATCATCATAATTGGTCATACAAAGAAAATAACAACTCCTAAAGCTATTCCCATAAAAAAAGTAGCTATCGGAACAAATTTTTCTCCACCAAAAAATGATAACATTCTAGGAACTTTTATATTATAAGTTTTATTATGTACAATTGCTGTTAGTGAACCTACAATTATTCCTCCAAGAACAGAAAGATCCATTGTTGGATTAATACCCATAACACTTGATAACATACCTTTGTTTTTTCCTATCTCAACCAATTTAGAATCACCTGTTATTTTTCAAGGATCAAAACCAACAATTAATTCTTTATTTTGATTCAGATGCGGTAAAAATAGAGCAGATACTGTAACTGTCATTGTCATAAATGCAATCATAGCTGATACAGCAGCAACACCTTTTGATTTTTTTGCAAAACCAAAAGCTATAGATGATGCAAATAAAATTCCCAAACAGGAAAATACAACATTTCCTATTGTCTTTATTACTTGAAAAAAGTTAACTCAACCAATTCCTCATCCATGAGTTTGAGCTGCTGCTAAAAACCCACCACCAATTCCAAGCAATATACCTGCAATTGGCAATATTGCTATTGGAAAAACAATTGCTCTTGATAAGTTTGAAATTTTGCTTGTTGTTTTTGTACCAAAAACTTTTCAAGTTTCTTTTTTAAATAATTTCATATTAAATACCTTTCTATTGAGGGATACTCCTATCCTTCAGCCTTATTTTATTATTCAAAAAGGTATTACTATTTTTTATTTATTTTCTGTTGCTTAGCAACAATTTTTAAAAGATATACTTTAAGTAGAGTAAAGGAATAATAATATGGAACTAACAAGTACTGAAAAACTAATTCTATTGAAAATTGAAAATGATATTGAAACTTTTACAAATAAATCTATTTCAGAATTAAGTAAATTGTATTATGCATCTGACGCCTCAATTCTAAGATTGGTAAAAAAACTTGATTATAAATCACTAAAAGAAATGCAAATTGAGTTTGGAAGTAAATTAAAAATTAGCAATATGATAAACAATTTTAAGGAGGACTCATTATTTGAAACAAATACTAATATCGACGAAACTATCTCTAGCATAACAGCCTTAAGTCTTTATTCAATATTTAGAACTGAAGAAAATTTAGATAAAAAAGCTGTTGAAAAATTTGTAAATATAATTTTAGAAAGTTCAAGTATTTCAATTTTTGGAATTGGAAATTCAAAAAACTCAGCATCATTTTTAAATAATCAGTTACAAAGAATAGGAATTTTATCAAGTTTACAAGATTCTGTTCATGGGTTTTTAATGCAAACTGGGTTTTTGAAAAATAAAAATATATCTATAATAATTTCAAATACATTAAAAACAAAGGAAATTAAATTTATATTAAACTTCTTAAAAAATAATAATATTCCTTACCTATTAATAACCTCAAATAAAAATAACAGTGAAAATGAATTTATAAAATTTGCAAGGTGCACTATTGAATATTCTATTAACTCAAAGGAGAAATATTCGTTTCCAATGATAAGTTCTTTTTATTCGCAAATATTTATAATAAATATAATTTTTAATAGATTAATTCAAAAGACAAAGGACTTTAAAAGTAAGATTGAGATGGGTAACGAAATGACTCTTAAGTGAAATAAATCTTAAATAAAATAAAAATTGCCTAAGGCAATTTTTTAATTGGTATATAAATTAATCAAGTGTTCGGCCAAATCGATAATAATAATAGCACTTGTTAAATGATCTTGTGAATGGACAAAAAGTAAAGATATATCCAGTTTTTCACCACCAGCTTCCTGTGCAATTAAGTCACCATGAATATTATGTACTTTATTTAATTCTAATTTTGCTTCTGAAAGCATTTCCAAAGCTTTCTTTTTATTTTTCTTTTGAGCAATTGTTATTGCAGATAAAGCCATTGATTTTGCAGTTCCAGCTGTTGCTATTAACTCCATACTAACATTTATAATTTTTTCATTCATTATTTATAATCTCCTAATTTTTCTATATCTTTAAATTGAAATAATAAGTCCTCAAGATATCAATTTTTACTATCTTTTCTGTAAATAAAGAAAATAGAACTCATTAATGAATCATCTTGATTATCTCCATCTTTATATCTAATATCTTCAAAATAATTATTTGTAACTGAGAAAATAATAAAACTTTTAGAAGATAAAGATTCTATTTCATATATATTTATATATTTAATTATAACTTTGTTGTCCTTTTGATAATCATAATAGGAATTTCTTTGTTTAACAAATTCATTACATCTATTAACAAATTTTTCTGAAGTATAATCCAACTCTTTACAGACCTTATCATTTTCCTCTTGTAATACTATCTGATTATAGTATTTTATTGTTTTATTTTTATATTCAACATATAAGAATCCCTTAAAAGCAAAACCTCATATTAAAATTATAAAGAGTATTATAGATAAAAGAATTAAAACTATTCTAGCTCATCAATACCAAGGTTTTCCATTTAAAAAAGTTTTTTGACTAACCTCTTTTTCACTAATTTTTTCCATAAACCTTCCTTATCTATTTTGTAGTAATTAAAACTGATTTGTAATTTTTTTCGCTATTTAAATTTATAAGTAATTGAATTAAAATATCAATAAGAAAAATAAAAGATATTCTATTTCCTTTTATAAGTGACTTAAAATGATTATCATTGTTAAATATAGATAGATTTAGGTTTGATAGTTTTTTAATCTTATTTTCTTCAAGACCTGTGAAAGATATTAAAAACATTTTTTTCTCATTTATTTTTTCTGCAACATAAACTAATTGTTTTGTTTCACCTGATAGTGAGAAAATAATAAATAAGCAATCTTTTTTTGTGGAATTTGCACTTAAAAGAGTTTCTTGTATTACAGAATCATTTGAAACATTAACATTAAAACCTAATCTTTGTAATTTTAAACAAAAATCATAGGCCACAGAATATGTTCCACCCATTGCAAAAATAAATATTTGCTTAGATAAATTTATTTTTTCAATTACTTGATCAATTTTTTTATCTTTAGTTCAAATTATATTATTTTTTTCTAAGATTTCATTTATATATGAAATCTCACTTTTTATTATTAAGCTTAATTCTTTATTTTCATTATTTTGATATTTTGAATCAACTAAGACACTATTTATATAATTTTTGACCTCATATTTAAATTCATTGAATGAACTATAACCTAATCTTTTAATAAATCTAGTAACACTACTGGTAGAATGATTTATTTTTTTTGCCAAATCTCTAATATCAATATTATCCATAATTTTAATATTATCAATAACAAAATTTGCAATATTTGCATCAGATTCATTATTAATTCTTATTTTCTTTAATTTTGTTATTACATTTGACATAATTTTACCCCTTATCAACTGTGGGAAATTTTTTTTAATCCGGTTATTGATAAATTTTTAACTGTTGAGATTATTATATCACTATTAAATTCCTTTTCAAAAAGTTCAATTATTTGTCTATTTTTAAATAAGCCACCTGTTGCAATAATTTTAGAGTTGCTCTTTTTTTTGGAATCAATTATTTTTTTATATTCTTTAATTCTATTAATCATTTGAATGATATAGGTATATAACAAATCAATATTAAATTCTACTTCTTCAATATTTAAAATATTTTGATCAAATCTTTCTTTATAGAAAAAAATTTGTTTATCAATTAATTTTGCTCTTGAAAAGTCAACTTCATTTAAATCATCTAATGTCAACCTCATTTTTTTTGCAATTAATTCAATATTATTTGCACCATTTGACGATGAAATTCCATATATTCACTTATTATTGTATATTGGAAAACAATAATCAAAATCATGAGATATTTCAACGTATTTCTGTGAAACATATCTTATACCAAGAGTTGTTCCTAGAGATAAAGAAATATTATTTTCTTCAGAAACTGAACCAATAGCAGCAGATGCTCCATCAGAAATACCTAAATCTATTTGTAATTCAAAATTGTTTAGACTGCAGTTAAATACTTTTCTTTCTAAGAGTAACTTTGGAAAAATACTTTCACTTACATTTATATTTTTTAAAATTGTTTTACTATAATTCTTACTTCTAGAATTAATTACCCCTAAGCCCACTGCATCTGATATTTCAATTACATTCTCATCAGTAAATTTATATAGAATAAAACTTTTTAAAGTTGTTATAGAATCATAATTAATTCCTTTATAGTTTTTAATTTTATAGACAGGTAAAAATTCAGAGTTAACTAATTTGTTAATTTTTCTAAAGTAATTTTTTTCTTCATTTTTTAAAGTAAAATCTATTTTTTCTAAAAGTGAATGCCCTTTTCCAATTTGATTGTAATTCTCATCCAAAAAAATTAATGTATGCATTGCTGATGAAAAAATGACAAATAAATTTTTATTAAATTTAATATTTAAATTAATAAGATATTCTTTTAAAAAGTTAAATAATTTTTCTGCAGAAAAATTATTTTCTTCATCAAAATATATTTTTTTATTAAGAACTGAAATTTTATCAACTATTTTTTTATTATCATAAGCTTCAATTTTAATATTTGTGGTTCCTAGATCAATAAAAATTTTTATCATTAAAAAATCAACTTAAAATAACTTCAAGGTTGTATTTCTTCAAGAAGAAATAAATATTCATTTTCTAAGTAACCAACTACATTTCTTAAGCCATCGTTCTTAATTTCCTTTTTTACAATTTGTAATTCACCTTTATATCTATTGTATAAATTATTTGGAATAACTATTGAACCAATTGGTATAATATCTCCATTAAATTTTCTTGGCTTTATACTTAACTCTTTAAATTCAACTCTTGTGATAGTACTTCTTAAAATATTTTGAGAAAGATCCCCTCTTATGAAATGATTTTCAAAAGACATTATTTCTTTCTCCTCACTTGTAACATTTTCATTTAGATTAATTTTTAGATGTTTTTTAAAATCAAAATGTTTTAATATTGATTCAAAATCATTTTTATTTGCACATTGTGTTGAAATATAAATATAACTTGCATAATCATTTGAAAGTAAATGATTTACTTGCATTCCAATTTCCAAAAATCTATGAATTTCAAGAGTTGGTAAATTTTCACTAACATCTCAAGGGCCTACACTTTCGTGTTCTGTTATTGTAACAAAAGCACCTACTTTAATACCCTTTACTTTTATTTTGGAATTAAATTTCTTAAATAGTTCATAGTCTAAACCTGAATATTTTTGTGGATAAAAATTATGAAGAGCTTGTAAATTTTGTTTATTTGCACCATAACTTAATATATTATCAATGTGGTCATTAAATGTGGAAGGATTTAATTCAATTTTTATATTGTAAGAATTGAATGTTAAATTAGCTTCAAAAAAACCATTAAACTGGTCATCTAACCTTAGACAATCAACACCTAAATCAAAAAAATATTTTAAATCTGGATTTTTATAATTTATTTTAACAGAATCAAATGTTGACTTATTGACATCTATTGTTACAAAATAATTTCTTTTTTTTGCTTCTGTGATTGTTTTTTTATATTTTTCAAAAAGTTTTTTATCTTTTTTTTCAATTACTCCAATAAAATTTATAAATAATAAATCAAAAGAATATTTATTTGCAAGATCCAAATAAGCAATTATTTCATTCTCTTCGAGTGTCTCTGGATAAATTGAAATTCCCAATTTATTTTTTAAATTATTCATAAAACATACCTCTAATTATTTTATATAGTTGCTTTACTTTTTCTATACTTGTTTCTCCACTTTGCTTATCTATAATTGAATTGTAAACATGTGGAATAATTAACGGTACTTTTTCATCAAGAGCAACTTTAATTATTTCTTCAAAGTTTTCTAAATCAATTCCACCAGTTGGTTCTAATGAGAAATTATTCCTTGCACAAGCTCTTGCCACTATTTTATATTCTTCCAGAGTAGACATGCCATTCATTGGAAAAAACTTTATTGAATCTCCTCCCATATCTTTTATAATTTGTATTGCAGTATTCACCTCCACAATTGCATCTTCATTTTTTATTGATGAACTTAAAGGACCAGTATTTATTTTTACATATCCAGGCTTTCCAGTTGGTGAAACTAAGCAATTTATGAAAGTGTCATTTTTTTCAAAATCATTAACTGTTAATCCCACACCGGTAAATACTTGATTTGCATGAGCAGGCTTTACTTTTTTTGATAGTCTAGCTACCATGTAAGATTGGTTTGGATCACCTGCTCCTAAGCCAATACTAATTTTATTATTCGTTTCTTTTTTTCATTTAGTCATTTCATCATATGCGGTCTTATCATTTGGAAAGTTTTTTGATAAAATTCCAACCACAACATTTCCCTCAGTAGCTTCAATAATTTCCTTTGCATTTTTTAAATCTTTTGCTAATACATTTAAACAAACTCTATTTTTATAAAAACTAATTTTTTTCTTATTCATATTTATCTCCCTTCGAAAAATAATGTTATATATTTATTTATTATTTTTGCCTCTTCAATATTTATATTTCTAATGTCAATATCCAAATAACCTTGAAATGCAAAATAATCTCTAAGATAAATTGCAATATCACATTCTTTTAAATAGTTTGCTAATTCTTTTGCACTATTTTTTTTATTTACTATTTCAAAACGTATTCTTTCAATACCTCTTGTATCAATATCTTTTTTACATAATATATTTTTATTTAGACTAAATATTTTTAAATATTCGTCAAAATTATTATTTTTATTAATTTTATAATTTTCTAAAGCGCTCAACAAACCAAAAATATTTTCTTTTCCAATTTTCATTGTTCTTCCAATAATGTCTTGATGTTTTTTTATATTTTCAATTATTATTTTGTTTTTACCAAAGACAAAACCTGATGTTGGACCTTCAATTGCTTTTGATCCTGAAAAAATAACAACATCAATATCCTTATTTGAATACTTTCAAATATCTTCTTCAGCAGCACAATCAACTATTAGAACAATATTATTTTCTTTACACAATTTTATAACTTCATCAAGTGAAGCCATATTCTTTTGAACACAATGATGAGAAACTACATAGAGTAGTGCTGCAGTATTTTTATTGAAATAATACTTATAGTCTTCAATAGAGCATTTATTTGAATATCCTGCTTCCATAATTTTAGCATTTACTAAATTTAAAAGTGATTCAATTGGTGCTCCGAAATCAATATTATGTCCTTTTGCTAAAATTATTTCCTTTTTATCAGGAATAATTTTATTAACATCATAGATCTTATCTTTATAAATTGATGCACAAGCAGATAGAGTTATACCTGCAGATGCCGAATTAACAACACAAACATTTTCGCTTTTAATTATTTTTTTTATTTTATCATATACAATTTCTTTGAATTCCGACATAATAAAAAAATTATTGCCAGCATATTCCATAGCTTGAGCCACATTTGAATTAAATTTAGATACTCCCAAAATAGTCATTCTTCCATCTGCATTTATTACTTTTTTAAATTTTTTCGTCATTATTTTGTACCTCATAAAACTTTCCATTTACAATAACTGCAAGAGGAACTATTTGTTCTTCTAATTCTAGAATGTTTTCTTTTGAATCAATTTCAATATTTTTATTTTTTTTAATTTTAAAAAAAGTTAAATTTGCAATATAACCATTTTTAATTTCTCCCATTTTCCTTAGATTAAAAAAATTATATGGATTTTTAATAACTCTATCTAAAATATCTTTTCATTCCATTCCAAGTTTTCTAAATTTATTCATTGTTACTGAAAGTGATTTTACTTTCTTATTTTTAATATTTGTTTCGTATATATCAGTACTAATAATATCTGGAATAAAATTATTTCTGTAAGATTCTTTAGCACATTCAAAAATGAAACTCTCATTACCATGTCCCACATCAAATAATATTTTTTTATCTATTGCCTTTTCTAAGTCTTGGGTTTTTGTAAAATCCTTATTGAAAAGAGAATTGTTTTTGTAATTATAAATATGTGTGATTATATCTCCCTTTTTTAATAATTTTATTATATCCAAAAACTTAGGTGGTTCATTTCCTATATGTACCATAATTGGTTTTCTTATTTTTTTTTCTTTTCTAGTATCAGCAAATATTTTTAAAGGTTCTAAACCAGTCTGAAGTGTAACAGAGTTACTCATTCTAGCTTTATAGCCTACAACAAAATTATCAAACTTTTTATCATAATCAAATTGAATATCTTTTAAATTTGATAATTCCGATTGCTTATAGATTCCTTTTTTTGAGATATTTAAAAGTATTTTTAAATTTGTAATATATTGTTTATTGATATTTCACATTCTCTCAATACTATTGATACCCACACTACCTGCATCTATTACAGTTGTTACACCATTTTTATATCCTATCTCATCAAGAATAGATCCATATAATTTATTTTGATTATCACAATGAACATGACTATCTATTCAACCATAACTAACATAAATATCTTTTTCAAATTCTATTTGCTTAAAATCATCTTCTTTAATATTTTTTGGTTTTTTTAAATAAATTAAACTCTTTCAAATATAAATATTTATTAAATTATTGTTGATATCTTTTATATTTAGAATTTTCAACATTATTTAATATCTCTTACTCTATTTAATAAATAATCCTTTAAAAGAAGAACTTTATTTACTACTTTTGCATTAAAAGCACTTTGCAATTTTTTATGTTCCTTTTTATTTATTTCTTTAATTGTTCTTTGAGATTCTAAATATCAAATACTTGTAGAGTAGTTTTCCTTTTTTTGTTTAGTTCTAATAAATATTTTTGTTAAAACAGTTTCATCTGAATTTAAATGAGCTAATTCAATTCTTTCATTTTCAATATATTCTGTTATTAAATAATTTTTTATATTATTTTTTGTATCACTAATATTTAAATTAATTCCAATTTTAAGTTTTTCTATTTCAAAATTTTTTGTTCTCAAGTTTAAAAATAAATATTTTAAAAACTCTTCTCAAAATTCAAAGTTTGTCATATTAATTTTAAAAAAAATCTCAGATGAAAAAATTCTATTTATTTCAGATGCATGATTTTCAAAAATTGGTTCTTCAAAATTATTGATCTTTTCTAATTTCATTTTTTTTACCCTTTTTTAATTCTTTAAATTTATCAACATTAAAAACAATTTCTAAACCAATAAAGATAAGTAATAGAGATCATAATATAAACCCTGGAATACTATTTAGTAAAATTCCAGCTATAAAAAATAATGTTGTATATATAATTCATTTTATAGCACTAAAATTTTTTCTATTAGATCCATAAATAAATGAGCCTGTTATTAAAAAACTTAAACCAATTAATAACATTGTTGAATTATTATCTCCAAATAAATTTTTTGTGCCACCTCATTCTTCTCAAAGAATTGTAAAATATATTACATAAGAAATTATAGTAAGAATTCCTAAAACTATAACTCAGTTATGAAAATATTTTTTTAAATTTTTCTTTTCTTTAACTTTTATTTCATTATCTTCTTTTTTCATAAATTAGAAAATCCTTTCTTTAATTTTATTTTGTTTTAATAAATAATACATATAATTTAGTCACCATGCTAAATAAAAACTTATAAATATAATTAAAATAATTAAAGGAAGAAAAGTAGCTATAATTCAACTTACACCAATAAATAATATTAAACCAATAACTCCTATAACTAAATTTTTACCTTTTAATTTTCCTTCATATTTTCTATAAGTAAAGATAGAAACTATTCAATTAATAGAAGATAATAAAGTAAAAATTATTATTAATGTAAATGTACTCATCTATAAAACACCTGACTCACTATCTATTTTTTCCTTTTTCAATAAAAATCTATCATAAGCTAATGTAAATGGGAATCAAATTACAATAGCTGAAGCTAAGACAATTAATGCAGCAATGGACGCTTGTCATTGATTACCACTTGCAAAGAATGCTCCAAAGGGACCTGGCATTGTTCAAGGTGCCATTGTAACTCAATGAATACCAAATGTAATTTGCAATAGATATCCTATTGTTGCAGATACAACTGGACCCAATACAAATGGAATCCACATAAAAGGATTTAATAATATTGGCAATCCAAATAATATTGGTTCGTTAATATTAAATATTCCTGGTACCAGACTTGTTCTAGACATAGATTTTAAAGTTGCTGATTTAGAAATTATTGAACCTACTATCACAAGACCTAATGTATTTCCAGCTCCACCTACCTGAGCAAATCATTGAAAGAATGGTTCTATAAAATAGTTTGGAACCTTTTCACCATTTTTGAAGGCCTCTTGATTTTCTTCAAGAGCAATAATTCAAAAAGGTCTTGTAATTGATTGAACTAATGAACCACCATGAATTCCAAATCATCATAGAAATACAATTAAAAATATAATAATTAAAGCTCCTAATAAATTACTTACTAAGAAATTCCCCATTGGTGCTAAAGCATCTTTTAAGAAATTTGCCAAATCAAATCCTACAATATATCTAATAAATCCTATAATTAGAGCACCAAAGAAAATTGGAACTAAGGCTGAAAAGGAATTACTTACAGCATCAGGAACTTGTTTTGGTAATCTAATAGTTATTCGATACTTAAGACAAACTCTATAAATTTCTACACAAATTGTAGAAGAAACAATAGCAACAAAAGCTGTTGAACCTCCTAAATCCTTTATATTAATTCACAATCCACCTTTTAAAATACTAAAAGATATTCCTGTTTTATCAAGTAATTCTGCTAATTGTGCAGATTCTTGTTCAGACAAAACACTAACATTTAATGATAATGGCAGTATTCACATTATATACCCCATTGCACCAATAACAGCTCCTTGAGTTGAACTTAATCTACTTAGTCTGGCAAGTTCTGAACCAATTCCAATTGCCATATACAATGCCATAATACCAAATGTAAATCTATTAATAAGATCAAAAGCCACTTTTAACTCGGGTGGAAAAAGAGTTGATAATAATTGTCCATCTCCAGTTCCTATTGGAATACTTGAGATAATTAAAAAAACACTTCCAACTAATATAAATGGTAATGCTGCCATTATCCCGTTTCTTATACCTAATAAATGTCTTTGAGTACTAATCTTTCCAAAAAATGGTATTAATTTATTATTCATTCATATTTTGAATTTTGAATCTTCTTTTGAATCTTTACCTTTTGGACTCATTATATACTCTCCTTATTTTTTTCTCAGAATTGAGCAATTGAATTAAGATTAAAATATTCTGCATCAATTTGAATCATCTTTATTTTTCCATCAACATCTTCTTCAAGTTTTGAATACATATGCTTAATTTGTGGTGAGACGAGCAATATTGAATAGTCTTCTAAATAGTCTAATCAACTTGTATCAGTCATTATACCTTTAGCTTCAAACTCAATATAACCATCAGCACATTCGTTTAATTTTTTAGCGATCATTGTAGTTGAAATACCACCGCTACATATTAATAAGCCTTTTTTCATATAATACCTCCAATCATATTTTAAGGGAAAAAAATTTGATAATATTCTTATATTTATGAAAATATTTCCAAATAAATAAAACAAAAAAACTAATATTTACATATTAAGAAATAATTGTAAATATTAGTTTTATATATTTTTAAAGCTCTTCCCCATTTGTTTTAATTAAATTTTGATATCAAAAGAAACTATCTTTTCTATAACGCTTTAAATCCTTTAAATCAAACTCATCACGATTAACATAAACAAAACCATAGCGTTTTTTAACACCTTCATGTGTTGATGTTAGGTCAATTGCACTTCAAGGATTATATCCAAAAATATCTATTTTATCTTCAATAATGGCTGCTTTCAATTCTTTTAAATGAAATTTATAGTACTCAATTCGATAATCATCGTGAACTTTACCATCACTTGTTAAAGTATCATAGCCACCAATTCCATTTTCAGTCACTATTAAAGGTAATTGATATCTATCTCAAAGCTCTCTAATTGTATTTCTAAAACCTAATGGATCAATCTCTCATCCAAATTGAGTTTTTAATAAGTTGTCATTTTTAACTTGTTCATACATACCTTTTACACTTTTTACTTTTTGCTGATCTGGTAACTCATCAAATAATTCATCACTTTCAGGCATTTTTGCAGTAGCAGATGCATAGTAGTTAAAAGCAATAAAGTCTGGCTTTCCTTTTTTTATTATTTTCATCTCTTCTTCAGTGTATTCAAACATTGAATTGTTTGCTTGTAAATAATTGATAACTAACTGATTATATCTTCCAAAAACACAAGTATCTAAATAAAATCAATTACGCATTACTCTCATATTGAAAGCTGCAAATTGGTCAATTGGTTTATTAGTATTACCATAAACACTTGTAATATTTGGTGCGGGACCAATTTTACCATTTTTAACAATTTCGTGACATAAATTAATAGCTTTTGCTTGAGCTAACATCATATGATGATTTACTTGATAGATATTTTTAAGTTTGTTTCCACCTTTTGGTAAATTAATACCTACAATTTCGCCAAATAAAATCATTACATTTTGTTCATTAATTGTTAATCAATGTTTTACACGATCACCATAAGATTCAAATAAAACTTTTGCATACTGTTCAAAGGCATTAATTGTTCTTTTATTCAATCAACCTCCATCTAAATTCAAACTATGAGGTAAATCAAAATGGAACATCGTTACTATTGGAGTTATTTTATATTTTAACAACTCATTAATTAAGTTATTATAAAATTCAATTCCTTCTTTATTTACTTCTCCATCACCTTCTGGCAAAATTCTTGTTCAAGCAATTGAAAATCTATAAGATTTAAATCCCATTTCAGCCATTAACGCCACATCTTCTTTTCAATGATTATAATGATCTGAAGCTACTTTAAAATCAGTTGTTCCTTGTGGAATGTTTGTTCTTGTATCTTGAATTGATTTACCTTTTCCACCTTGATCAAAACCTCCTTCAAATTGGTAGGCACTAGTTGACCCACCTCATAAAAAATTACTTGGTATTTTATTTGACATGCTTCATTTCCTCTCTTGTTTTTAAGTTTAAAACTTCTTTTTTTGTTCAATTTAAATTATTCATTTCAGTTAATTCATAGGCAATATCAATAGAATTAATTGCATTTAAATAAACTTTTTTATAATCTTCTAAAATTTGATTTTTATTAACATTTAAATTATCAATAATATCAGATACTTCTTTATATTTTTGTGTGTTAAAAGTTTTTACTTCTTTTTCACAATTACTTAATTTTAATTCAAGTTCTTTAATTTCAATTACTAACTCATTAAAATTTTCAGGTAATTTTAAGTTATTATATTTATTTGCAAAATAATTATATTTATCTAAATCTTTATCTTCTAGTTTTAATATTTTATTATAAAGTTTTTCTTTTTTCATTTCAAATCTATTTATTATATTTTGTTTTTTAATTTCTTTTTTTTGTAAAGAGATTAAAGTATTTTCATAATTTTTATAATTTTTATTAAAATCTTTAATTGCTAAAGTTTCTTTTGCTAATTCTTCTTTTAAAGATTTTAATTTAGTATCATCAAAATCAAAATTTAATTTAACTGTTTTTAATAATAATTTATTGTTTTCTCTAAAGGCAATATACTCTGATTTACGATCTTGATACAACATCAATGTTAAAACTAATGCTGTAATTAAAGAAATAAATCCAGCTAAAATACCAAATACTATTCCCCATCCAATATCTAATCCCATTCAAGACATAATACCAGTTCCAGTTCTTCTATATTGAGCAACTCCTAATACTCCTGCAACAAATCCTCCAACCAGTCCACCAACACAACCAAAAATAAATGGTTTTATTTTCGGTAAATTAATTCCGTAAATAATTGGTTCAGTTACACCAAATATAGCTCCAGGCAATGAAGCAAAGATAGCTTGTTTTGTTTTTTGATTTTTGCTAATAAAACTTAAAGCTAATACAGCTCCAATTTGTCCCATAATTGCTATTTGTAAACAAGCATACATAGCTGATGGGTCTCCATCATTCATTGGTAATGCAATCACAGTCACAACAGCAACGTGAGTTCCTGTTAAAACTAAAGGTTGCCATATCATTGCAAATATTCCCATACCTATTCCAAATGGTATTTTTCCTAATAAGATTACGAATTTTGCAATAAATTGCTCAATAATTCTAAAAAATGGGCCTACTGTAAATAGCATTATTAGGAATGTTGATAAGAAAACTAATGCTGGTCTAAAGACAATATCAACTGATGTTGGCATTCATTTTTTAATTCAATTATTTAAAAATACTAATAGTAAACCAGCACATATCATTGGTAAAACTGTACCCTCATAAGTTTTAATAACAATGGGATTTCCAAATAATGTAAATAAAGTTCATCCACTTCCAAATAAATATCTACTAGTTAATGCAGCTCCTAATCATATGGCAAGCCAGGGATCTCCATTAAAATATTTTACAGTACTGCATAAAAATACAATTCCCACTAATTCAATTCCTACTTTTGACATAATATACATTAAAGAACTAAATAAATCCAATTCCATTACTGATTGACCTGGTGCAGGATTTGAAATTACACCAGAAATTGCAAGAATAGCTTGTAATCCACTAATTACTCCTGTTCCAATTAAAATTGGAATAGTTGGAAAAACAATGGCAGTAATAGCTCCCATGATTTTTTGCTTTCTTGGAACTTTTGTAATTTTTTGTTTTTCATCACTTGTTGATTTATTGTCAATTATTTTTTGACATTCATCTTTAACTTTGTAAACTTCTCCTCCAATAATTATTTGAAGTTCTTCACCATTTCAATTAATTCCCTTAGTCAATTCAATTTCTTTTAAAGCTTTTTCATTAACAAGATCTTTATTAATAATTTTAAAGCGCAATCTTGTCATGCAATTGTGTACAAGAGATTGATTGTTTTTTCCACCAATAGCTTCTAGATATTTTAGAGCCAAAGATTTATATTTACCTTCTCTTTTTTCAATTTTAATTTTATTATCTTTAATTATTTTTACATCTTCAATTTCTATTTCATAAATTAACTCACCTTTTTTAACTTTTTTTCCTTCATTTTTAATTGTTAATTTATATTTTGAAACCGAATTCAAATCTACTAATACTGGTGTTACTTTTGGCAAATTTGCAGCTTCAATAATTTTCCAATCAACTTTAACAATTTCATCACCAAGAGAAACTTCTTGACCTTGTTTTCCTAACAATGAAAATGGTTTACCTGAAAGCGCAACTGTTTCTAAACCAATATGCATTAAAACATTGTAATTATTTGTTGAAAAATATATTGCATGTTTAGTATCTGTGATTAATTCTATTCTTCCATCTTTTACCGGTGAATAAAAAATATCTGAACTTGGTTCAATATAAACTCCATCACCTAAAGATTTGCTTGCAAAAACAGGGTCTGAAATATTTTCAATTGCTTTAACAATTCCATCTACAGGAGCATAAATTTTTATCTTTTCCATATATTTCCTTTCTTATTAGAATTTTTTCTAATTCATAATAATTTTAAGAAAAAATAAAAAATATTTGCATTTATTGAACTCGTTTATTTTTTATGAACTTGTTTAGTCAACTTAAAAATTAAGTTAGTTAATATTATATTAATTTGATTTAATCTTATTAATATTCTTGTTTCTCTAGTTAGACCACTTATTGACTTTATGGTAATTATCTTATTTAGATCATCTTGATATTTCACTACTTTTGAGAAATGAGACTCACTTGTAATAATTAAAAAATTTATATTATTATCTTTTGCTATACTAATATAATTAAGAATTTCATCTATATCTAAGCCAGTCATAAAAAAAAATATTGTATCATTTGGTTTTAGTATTGTTAATAAACTTCTTTCAAATTTCCTATTATTATAATAAAAAGTTTGCTTATTATTATTAACAATTTGTGAAAAAAGAGTTAATAATTTAAAATCATTTTCTTGACTGCTAATAATTACTAATCTATTTGTTCTATTAATTTCTTGTACAAAAAAATCTACTTTTTTTTGGATTTCTAATCTATCTATAAAGTTATTTATATCTATTCAATCAATTAAATCTAATTCCTTGTCTTGATTATTAGTTTGTTCTTTTAAGCCATAAAATTCCATTTCAGCAATTAGCTTATGTAATAACTCGCCATATCCTTCATAACCAAGTTTTTTTGAAAAAAGAGTTAAAGTTGATTTTGAAATATTTAGTTTAAAAGAAACTTCTTTTGATTTTAAAAAAACATTATTATAAGCATTTTTTAATATAAAATTTGCAATTTGATAATTTAGAGTTTTATCATTAGTTTTTATAACATTTTTAAGTTTTTCTCTGATTCTCATATGTGTATCCCTACTTATTCATACAGTTTTATATATTAGTAATACTACATATAAAAAAAAAAAAAAAAAGAATATTTATATAGTATTGAATAACTATTTAAACATTCTTTAATTCTTTAACTAATTATTTATAAGTTTATTATAATCAATTATAAATTTTTCTTTTAATTTAATTTGATAATCAACAATTGATTTTTGATAATCATCTTTAATTAGATCAACTTGATTTGAATAATTTTCAAGATAATTTCTCTTATCAAATTTTTGTAAATTTACAACTTCTTGATTTTTTTTATTAGAGATTTCTTGTAAAGAGTTTTTTCTAGTTAATTTAGAATTTTTTATAAACTCTTTAATTTTATTGCTATTTTCTTTAATAAATAATTTTTCACTATCTTTTAATTGATTGAAAGCATTTTTTGCAAGTTGAATTTGCTCTTTTGCTTCTATATTAATTTTTTGTTTTTCTTCTTTTAAATTATTAATTTCTTTATGAATATTATCTAAATCATTTTGAGTTTTTGCAGATTTTAATGAATCTTTTAAAACTAACATTTGATTTCTAATTTCTTCAATTTTTTCTTTTTTATTTTCAATAATTTGTTCCATTTTTAAAACATGATGTTCTTTTAAAGAACCAATATTTCCTTTATTTAAAATTAACAATGTTCCATAAACTAAAGTTGTTACAGTCACACCTGCTAAAATTGCAATAAAGAATATTATTGTAAATCATCCATAAGGAACAGCACCTAAGATTGCTACAATTGGTCCCCCATGAGCTGCAAGATCTGTAACTTGAAATCCTCCAGCAATTGCTCCAGCAACCATTCCTCCAAGAACGTTTGCAATAATAGCTCTTTTTGGATCTCTAATAGCAAATGGAATTGCTCCTTCAGATATCCCAATTGTACCCATTATCATTGCTGAAATACCCATACCTCGTTCTTCATTTGTAAAAAATCTTTTAAATAAAATAGTACTTAATCCCATTGCCAATGGAGCTACTGGAATAGCTGCTGCCATTGCTCCCATTGGTTCTGCAATAGGATTTTCTAATGTAACTAATGCAGAGCAAGTCACAAACGCAATTTTGTTGATTGGTCCACCCATATCAAATGAAGCCATTGCTCCTAATAAAATACCTAAACCAATTCCTAAACCAATACCAAAACTTTCACTTCTATATCCTGATTCAATAGCAGATGATAATTGATTCATTAATCAACCAATTGGTCCACCCAAAATATAAATGAATAAAATTGATATTCCAATACCTGCTGTTAATGGAATAAAGAATATTGGCATAACAGCTTTAAGTGATTTGTGAACTTTTCAAGTATTAACTCACTTTACATAATACCCAACTAATAAACCAGCTATGATTGCACCAATAAATCCTGTTGGTGTGCTAACTTCTGTCATTCCTGGTAATGGCATAAATTTAGATGCATCATTTCCAATAAATGCTCCTAGCATCGCTGGTGCAATTGCAGCTCTACCTGCAATTGAATTTGCAATAAATCCTGCTAAAATTGGAATCATTAATGCAAATGCAGCTCCACCAATTTTATCCATTACTGCTAATGGATTTCATGGATACAACGGTTCACCATTTTCACCAATGGGTCCTCCTGTTCCTGCTGAGGGACCTCAAATTGCTTTAGCAATCCCAATTGAAAATGCTAAACAAATTCCCCCCATTATAATTACAGGAATCATATATGAAATTCCAGCTAAAATATGTTGTAACACACCCTGCTTTGATTTATTCATACCTCCATCATTTTTAAACTCACTATTCATTTGAATAGTTGCTTTGGCAAAAGCTTCATCGACTAATTTTAATGGTTCTTTTATTGCTCTTGCAACATGAGTTTGATAAACTGGTTTTCCATTAAAACGTTGTAAATTAACTTTAGTATCTGCTGCAATAATAACAACATCAGCATTTTCAATTTCTTTTGTTGTTAAGGGTGTACCAATCCCCTTACTTCCCTGAGTTTCAACACGAATGTTATATCCTGCTTTTGATAACTCAGAAAGTAATTTATCTTCAGCCATATATGTATGGGCAACCCCAACAACACAAGCTGTAACAGCCACAATATTTTTACCTGATTTTTTATTATCATCTTGATTATTTTTTATAACAGCTTGCTTCACTTGAATTAATTTTGAAAACTCTTTTGAATCCTTTGCATCTTTTAATTTTTGTCTTAGTTTATCATCCATTAATTTTTTTGCAGTTTGACTTAAAATATCTAAATGTTCTTTTGAAGCATTCTCTGGAATAATAAGAGCAATAATAACATTTGATGGTTGACCATCAAGAGCCTCTCATTCAATTCCATTTAAAGTTCTAATACAAATAATTGATGCTGATGTAATCCCCTTAACTTTTGCATGGGGTATTGCAAAACCATCTTCAAATCCTGTTGTTCCTTGTTTTTCTCTATCATAAAAAGCTTTTAATAGTGATTTTGTATCTTGATAGATACCTAATTCATTTGCCTTATTGCAAATGTACTTTAAAACTTCATCTTTTGAATTGAGATCAATATTTAAAAAAATGTTTTTTTCTTTATATATGTTTTCCATATTCTCCACTTTTTTCCTTTCAACTAGATTATTTTCCATTTATTATAAAAAATCAACATATTATCTACAAAAGAAAAAAACCTAAAAAGGTTTTATAAAAATATGAGTCTTTTATATCTATTTATGTTCAAGAAATAATGATTTCACACTTCCCAATTATTTCTAATTCTTTTAAATTATCAATACAAATAGCAGATTCTCCCATTTTAAAATTAATATTGTTAATAGTGCAATTTCCATTTAAAATAGTTAACTGATATCATTTAATATTCTCTGGTTTTTTTCAAATAAATGCTTTACCAAACTCAATTTTATTTTTTTCAAAAGAAAAGAATTCACAATTAAACTTAAGATTATCTTGTTTTCTAAGAATTATATCTTTTGAATCTGGAATTGAAAGATTATCTAAACTTTCTTTAATATGCAACTCTCTTGGATTTCCTTTATCATCAACTCGATCATAATCGTATAGTCTATAAGTTATATCACTAGATCTTTGAAGTTCATAAACTACAACTCCAGGAGTAATTGCGTGAATTTTTCCCGGCTCTACATAAAGAAAGTCTCCTTTTTTTACCTCAACTTCTTTTAGTAAATCTTTTCAATTACCTTCTTGCATTAATTGTTTAAAGGAATCTAAATTATTTGCTTTATGACCATAAATTAATTTTGCGTCTTTTGGACAATCAATTACATACCAACTTTCTGGTTTTCCTAAAGAATTATGATGAACTTTTGCGTATTGATCATTTGGGTGAACTTGAACGGAAAGATAATCATTTGCTGTTATTATTTTTGATAACAAAGGAAAATCTAACCCATTAGAAATTCCAAATTTATCTCTATTTTTTTCAAAAAAATCCTTAAATGTAGTATTATCCTCTAACAAAGACATTCCATTTTCATGTGCTGATATAAGTCATGCTTCACCAATATCGTTACTGGGAATATTAAATCCATATTCTTTTAATTTATTGCCCCCTCAAATTCTTTTCGAAAAGAAAGGTTTAATTTTAATTATTTTATTTGTCATTTTTCATTACCTCTTTAATTATTTTATAATTTATTTTTTACTGGAATTCTTCCACAATTTCATTTAGTTTTTTTCCAACACCAGCATTTTGAACAGTATCAATAACTTCCTTTGAAAGTTCTTTAATTCCATCAATTGCATTTCCTACTGCATAGCAATTAGGAAATTGTTCAAACATTGGATAATCATTGTGTTCATCACCAAATAAATGAATGTCTTCTTTAGATAAATTAAATTTATCTAATAACTTATTTAAACCTCAACTTTTTGTAACACCCTTTTTATAAATTTCAATTCTACAGTTATCTTCTTTTGGAAATTCCAAAGCTAATAAATCATATTCATTTACAACAGCTCTAACATATTCTAATTGCTTGTCATTTTTAATATTTGCAACTAACCCAGGAAAACTTTCATCTAAATCTAAACCTTTTTCAATTAATTCTTCTATACTTTCATAGTTGCATATAACTTTTTGATCAGGAAAATGAGAAAAATCTAAATTAACCTTATTTTCCATTAGATAGTCAAATCAATCTTCGTTTTGAATAAAATGTGTTCTAAAGTCATTTGGAACGTTAATTTCAATTCCTGTATCTAAAAATTTTTCTAATAATTCCTTGATTTCCTCTTTTTTAAAATGTTTTTTTGCAATATACTTTAAAGTTTGTGGATCAATTACTGAAGCACCATTTGAACAAATTACAGGTAAATTAATATTTAATTCTCTAGCTGCAAAATCTGCTAAAAAATAGTTTCTACCTGTGACAATTGTTAAACTATTATTTGATTTTTTTTGAAACTTTAACAATTGTTTTTTGTTTTCTTCACTAATAGTATCCAACTCAAAAATAATTGTACCATCCATGTCAGTCGCTGCTATTTTCTTAATTTTTCTCATTTTTATCCTCCATTACAAGATTATTTTATATTGAATTTTTCAAAAAATAATTTAATTATAAACTTATATTAGGTTTATACTTATTAGGTAATATAAATATAAAAATGTTCATATTACTTAATTTAGAAAATATTTAAGAAATAAATGGTTTAATTACTAAAATAAAAATTTAATATCTATAATTTTGATTACTTAAAATTTTTAGCATTTCTTAAAAAAAGAGAGGAAAATAAAAATGACAAAAAGTTTAGAATTATTAAATAGTCGTATTTCTGCTAAAAGATATCAAAAAGATTTCAAACTATCTGATGAGCAAAAAAAAGAATTATTAGAATCTGTGAGATGAGCACCAAGTGCATTTGGAATGGAGCCATTTAAAGTTCTTTTAATTGAAAATGAAAAAATTAGAGAAGAAATTCTACCAGCTTGATGAAATCAAGTTGGAGTTACACAATCTTCAGCGATTATGATCTGAGTTGGTTATAAAGAAGAATATTTAAAAACTATTCATTTTAAAGAGCAAACTGAAAGAAATATTCCTGCTGGATTTGAAAATATTAGAGAAGCAATGATTGGAGGAGTTAATACTGTACTTACTACATTAGATATGACAATCAATGAATGAGTTGCAAGACAAGCCTATCTTTCATTGGGGACTGTACTTAATACAGCTCAAGAATTAGAAATTGATGTTTGTCCTAGTGAAGGTTTTGATTCAAATATGGTTGGAGAAGTACTTGCAAAACATAATTTAATCAATTTGGATAATGAAAAAGTATTGGTTGGAATGTTTATTGGAAAAGTTGATACTACTCAAGAATTTCATCACTCATTTACAAAAACAAGAAGACCAATTGAAAAAGCATATAAGATTGTCAAATAAAAATATATAACAAAGAAAAACAAGAAAAAATTAAAAATAAAAACTCCAACATTTTAAAAGTTGGAGTTTTTATTTTAAGTTTTATTCTAGGATAAGTTTTCTCTATAATAATTTATCTAGGATTTATTTAGTTTTACTTTCCTTTTTAATTTCTATTTTGAACTACATTAAAAAAATGAAATCAACGCAAAACTAAAAATTTACCAAGACAGAAATATTTTTAATACTAATATAAATATATTATTTTCTAATTCATTAAACGTAATATCTTTATAAGTTAATATTCTATTTCTTTGTAAAGAATTTATCCAAATTATAAGCTATTTTTTTACTTTTACTTAATTTGTCATAATCTTCTTTACTAAGAACTTTTATTTCATATTTTTTACTATTTTTATTTAATCTAATTCAGTTTCAAAATCCATAAAATGAATTAATTAAACTTGATCCTCATTGAATTATAAAAATAATTACTGTTGAACGCTCAAATGAACTATTTTCAATATCTGCTAAAATAACACTTCACATAATTAAACACATTAAATTAGTTAATAATCATAATGTTCATTGGTCAACATACCTAAAAATCATTAAAATAATTGCCATAGCACTTCCAATTAAAATAAATGAATCCAATCATACACTTTTTGCATCAGTAAACTCAATAAGTAAGAATGAATATGCAATTCAAACTACAATTAAAGAAACATAAATTACTATCATTGCTGGTCAAGATAAAAATCTTGACATAACATCTCCCTTATTATCTCTTTTTCTAAATCAAAGACCAAAACCAATAATATTCATTGGAATATAAAAAGCTGCGTGCAAAATTATCGAACTAAATAAAGAGCCTTGTAAAAGTAATATGATATATAGAACAGAATTTGTTGCACCAACAATAAAAGCACTTATTTTACCTTTTGCTCCTAAAATAACCGCGATAGTTCCAGTGATACCTGCAAGTATTGATATTGCTTTATCTTTGGCAATAATTCCCAGAGTTAAAATTAAAGCTGTGGAAATAACTAGAAGCAAAATCTCAAATGCATTCCAACCTGATAATTCTGATTTTAAAAACTTTAAAAAAATATTTTGTTTCTTAATCTCTTTATTTTGTATACTTTGATTTTCTTCATGATCAAGATTTTCATTATTAGTAGTTTTCATATTGCTCCTTTAAGTAATCAATTATTTTTTGATTCACAATTTTTGCTCCTTGAACCTCAACTATTTTACTTGCCACTAAATTTGCAAACTCTAGTGATTGTTCAATTGTTTTGCCACTTGATAAACTTAACATAATTGTTGCAACATGAGCATCCCCTGCTCCAAGAGTGTCAACAATTTTCTTTACTTTAAAACCCACAACTTTATTAAAAATTGTTCCGTCAAAATACGCTACTCCTTTTGAACCTAAAGTGACATATATAATATTTTTATTTTCTAAATATAAAGTTTTTATTGCTTGCTCTAAATTATTTATATTTGTATAGTCTTGCAGTTCCTTTTCATTTAAATGTAATATTGGTTTTAAACTCATAATTTTTTTCATAACTTTTTTACTTATGGAAGTTATCATTGGTCCTGGACAAAAATAAATATTTTTATTTTTTAATTTTGCCAATTCATTAACAATTTTTTCTCCACCATTACTATAAGCTTTATAACCCTCAAAATAAATATTTTCATATTCTTTGAAATCAATTTCTTTAAATCACTGCTTTTCAAATTCTTCTTCCAAACCAGAATACGTTATAAAGGTTCTTTCACCATCTGGTTCTATCAAAGCAATACAATATCCATTATCTTTATAGTCTTTTTTTAAAAGTATATCATGCTCATCTTTTATAAGTTGTTGTTCAATAATTGAAGCAAAAACCCCTGTTCCTATTGGAACAAACAATGAGCAATCTTGATTAAATAATTTAAAAATATTTGCAACATTATAAGCACAACCACCAACATTAATTGTTCGCTCTTTTGAAACAACATCTCCTGATCTTTGCGGTAAGTTTTTAACTTGCATCATTATGTCAACAATAGCAGAACCTATAATTAGAGTTTTCATTTTGAAATATCCTTCTGTTTTCAATATCTTTCAATTTTTTCAATATAAAAATTCAAATTTATTTCATTACTTTCTTTAATTATTTTAACAAAATTATTATCTATTTTCTCAACACCAGTATATGCTCCACAAATTGCGCAAGCCATTGCTCCAATAGTATCGGTATCTCCTGCTAAATTTGCTGCAAGAAATGCAGCTTTATTAACATCTTTTGCATAATATGCAATAGCAATTGCTGTTGGAACTGATTCGCTAATGTTTACACCTGCTCCAATAATATCATATAATTCATTTATAAATTCAATATCCTTGCCCTTAAAACGATTTGCAATATCAATTGCTAACTTAATTCTTTTTGTCATAGATGGACTATATGTTTCACTTCCTAGATCTAATGCTAATTTATCAACAACATATAAATCTTCTAGAATTTCATTAAAATCACTTTTATAAAGTGCTGAGTTAACACACATTGCAATAATTGAAGCACCAGAAATTGTAATATCACTTGTATGAGTAACTTGTGAAACTTTAAAAACATAATCAACTAAATCCTTATGTTGGTTTGCTTTAAATAATAAACCTATTGGTGCAATTCGCATAGCAGAACCATTACTTAACGCTTTATTTGTTATTTCAATTGGGTTCAAATTTTTTTTAATCATTTTTAAGGACTCTTTTGAAGTTGGTCCTAAAATATTTTTTTTGAAAGCATTATTCTGTTCAGCTCAATTTAATAAATTTTTAGCTATTATTTTTTTATCAGGAATAAAATTATTTTCAAATAGTGAATCTAAAATAACTAAAGCTTGTGCAGTATCATCTGTAAATTGTCCTTTTTTATAATTTTTTGCAATTTCATTTTCTTGGGGACCATCCAAAAACTCAGTAATATATCCTTTAAAAAATTCTCTAACTTTTTTTCTTCCTCATAACTCTGAAGGCATTCCCATTGCATCTCCAATGGCCATACCATAAATTACACCCTCAATTTTGCTTTTCATATTCTCTCCTAAAATTTTTCTATTATGTTTATAATTTAATAAAAACAAGATATTATTCCTTTAAAATTATCTCATTAAATAATATTAAAAAATTAATTATAAGAACATACAAAATTTTGATGGCTTTTTATAAATATAAAGACATTTAATTTTCTCATTTTTCTAATTTACTTGATATTGTTAATAATCATTAATAATTAAGATATAGCCTAAGTATGAATGAGAAAAATATAGTCAATCTATAAAATAGTTGTAAACTTACCTTTAATTAAATAATTATTTTATAAAATTTAATTAATTTCAAACATTTCCATAAATATTTGATAGACTTTTTCAAGATTATTTTTTTCAGTTGAAGATATTGCTAAAAATTTATCATCTGGAGATAAATTTAATGTAGTTTTAATTAATTTTTCATTTTTTATAATGTCGTTTTTTTTGCATTTATCTCTTTTAGTAGCGACTATAAATACTTTTATCTCATGATGTTTAAAAAAATTATACATTTCAACATCATCTGTTGTTGGTTTGTGACGTAAATCAACTAGTTGACAAATAAATTTTAACTCTTCTCTATTGGTTAAATACTCATCCATCATTTTACCAAAAGCCAATTTCTGATCACGATTTACTCTTGCATAACCATATCCTGGCGCATCAACTATTCTAAATTCACCATTATTAATATCAAAAAAATTTAATAATCTTGTTTTTCCTGGTGTTGAAGAAGTCTTTGCCAATTTATTTTGATTTGTAAGAGCATTAATAAAAGTGGATTTACCAACATTACTTCTTCCAATAAAACATACTTCCTTAATATTATCTTGCAATCAGCCACTTTTATTGGCAGCAGATGTAATAAACTTTGCTTGCTTTATCATAATGTTTTATTCTCCACTTTTCACTATAAAGATAGAATTTTATCAATTTCTTTTATCATTTTTTCAAAATCTTCTGTTTCTTCAAACATTTCATCTCTTGCTTGTAATTTTTCATTACTTTTATTTGACATTTCTGACTCATATAATAGTCTTAATTTACCAACTAAATCTTCTTGTGTTTCAATTGTTTCATCTAAATACTTATTTTTCTCATTTAAAAACTTGTTACGTAATTTACTACGTCCCCCGTTTTCTTTCAATGATTCCAAATAAGCAATTTCAAATTTCATGTATTTTTCATAATTTTTGTTTTTCATATCTTTTTTTGATTTTTCTGAAAATACTTTCTTTTCTTCATTACTTAAAATTTTCTTTAACATATTCGCACCTCGAATTTCATCATATATCATTATTATAGAACATTTTTTGATTAAAAAGTGCTTATTTATAGTTTATTTTTTTCAATATAACTAAATAAAAAAAGAATAGTAATTAAACTACTCTTTTTTACTTTCTTTTAAACATATTATTTTAACAACTAAAATGATGGTTGAAAAAATAGCTTGAAATATATTTGTTATATAAACTTGTGGCTGAGGTATTGGAGTTAATAAACCATAAATAATTCAAATTAATGAAGCAATAATTAAAATAATAATACTATAATAGGAAATATCCTTTGTATTTTTTGTTTTAATAACTTTAATTACTTGTGGAATTAAATAGACTGCTGTTAAAATCGTTCCAATTCAACCCATTATTTCATATATTTGCATTACTTAATAATTACCTCATAATTTCTTTTGTTAAAACCGCTTATAAGTAAAGACTTATAATATTTATTTTTTACCATTCCTCCAAAAATATACACTATATTTATTTTTTTATTTATTTTTGTTAAATCAATATATTCAAAGAAGTTTCTAGCTAAAATGTCTAAAATACAATTAATTTCATTAATTAAAGCATTATAATTTTTAATTAAAATATAAACACTAAATTTTAGAAATTTGGACTTTACAGCATTTCAATTTTTATAAAGTGTTTTAAGTTCTTCTATATCTTTAAAATTAAAATATTCCAAAGTATATTTTATAAAATTACTACTACTTTTTTCTCTTTCCTTATCTATTATTGCGTATTTTATAAATTCCTTTGCAAATGTATATGCAGATCCCTCATCTGCAATTAAGGGTCCAAAACTAGACATAATTCGTTTCTTGCCTTTAACATTTTCAATCATGACACTACCACTTCCTAGTGATATTGCTAAATAGCTTTCCTTTTCACAAAATAATAACTCTTGAATTTCAATATCAGTTAATATGTAAATATTTTTTTTAATAATTTTATTATTAAAAATATTATATATTAGTTTATATTGTTTAAATTCCAAAATTCCTGGTGCTCCTAGATACAATTTTTCTAAACAGTATTCTTTATATTTTTGATAAATTTTGAAAAGTTCTGCTAAGGATTGATTAGTTTTTGTATATAAATTTACTCCATCAAAAATATCCTTCTTAATTATTTGCTTGTTAGCATCTAGTAAGTAGACTTTAGTAGAAGTAGCTCCACCATCAATTAATAGATTATATTTCATTTTTGATTTAACCTTTTTTTTCGAATTTTCTATCTTTATTTTGCTTTTTATTAATTTCTTCTAAAGCAATCATTTTCATATATTCATGTACGGTTTTTCCTATTTTCTCAGCTTCTTTTTGAATATAAGCCTGCTCTTCTTTTAAGATTTGTTTATCTCAAGCTTTATAAAATGGAAATCATACTAATGTAGCAACTCCAGTACATATCAATGAAGTGGCAACTGCAAATATACTATTACCACTTGAAAGAAATGCTCCAATTGGACCAGGTAAGGACCATGGTGCAACAGCAACTCAATGGATGCTAAATAAATTGACTAAAATTAAAGAAACAATTGCACAAATCATTGGAGCTATCATAAATGGAATAAATAAATAAATATTTAATACCACTGGAAAACCAAACATCATTGGTTCGGAAATATTAAAAACAGCTGGCACAAAACAAGCTTTTCCCATTGCTTTATTTTGCTTTGATTTAGAAAAAAACATACCACAAATTGCCAAGCCAATTGTAGACCCTGATCCTCCAATTCAAATAGTTCATTGATAATATTGTTCTACAAATTTATTTGGTACATCTCCAATCATTCCATTATTTCATCATTCAGAATTCTGAGCAATTGCAGGATATCATATCGGATAAGTTATAATTCCTGTTATTGCGCTTCCATGAATTCCAAATCATCAAAATAAGGAATTAAAGAAGATAATCATTATTACAGCTCCAAAATTATCATTTACTAATGAAGCTAAGGGTTTTAAAATATTATTTATTCCTGTAATTAAATCCACATTTGCGATATAGCCAATTAATATTACAAAAGTTGCGTAAATAATTGCTGGAATAATTGCAATGAATGAATTACTTACAGCTGGTGGAACACTTTTTGGTAATCTAATAGTAATTCGATATTTTTTAAATATTCGATATAACTCAACCATAATCATTGAAGTTATCATTGATACAAATAAACCCTGACTTCCTAAATCTGCTAAAGGTAGTGCAGTTCCACCCCCTTCCGCCAGTACTTCTGGTTTCACTCAGAGAATAAATCCAAGCATACCCATAATTCCAGACATTAATGAAGCCTCACCATAACTTTTACCTAAGTTTACTCCAATGGCAACTGATAGTGCAAGAGCCATAATCCCCATTGTTAATCCAGAGATTACAACCAATGCATGATCTAATACTTTTGGAAAATATGTATATAAATATGCATGATCTGAATTTGGATCAAAATCTGTGGGAATACTTCTAATAACAGTAATAAAAGAAGCAATCATAATAAATGGAATTAGAGAACTAAAAGCATTTCTAATTGCCATTAAATGTTTTTGACTAGCAACTTTACCCAAAAATGGCATTACTTTACCATGAATATTTTTTGCACTTGTTGTAGTAGTATTTTTAAAATACCTCATTGAGTTAATTTTACAACTATTTTTTAGTTGCTCAACTTCTTCTCTAAGTTGCTCTTTTCTTTTAGCATTAAATTTCTTTAATTCAATCAATTCTAATTTTTTTTCATCTTTTGTTAAGTTTTTAATTGTCTTTTTATATTTTCTTTTTTGCTTATTTATATCTTGAAAATAATTATTTTGTACTTCAATAATTTTTAGTTCAACAGCTTTTTGTTCTTGAACTTTTTTATATTTTTCAGGATTTTTTAAAGCTTTTAATTCTAAATTATGAGTAGCTTTAATAATTGAATATTGAGACTTGTATTGTTCAATTACTAATTCTTTTTCAAATTTTAATAATTGCTTATCTTTTAATTTATCTTTTTTTTCAATTTTTAAATCCACTAATTCTTTTTTTTGTAAGTCTTTAAACTTTTTAATTTCTAAATTCTTTTCTTCTTTTTTCATTAATACACTCCTTCCAATTTAAATTTTAGATGGAGTATCTATGCAAATTATTTCATAATATGAAATAATTTCTAAATAAGATTATCAGACTTTATTAACTTACTAATTCTTTCTTTATTTAATAAAGCGTGAAAAATTGACTTGAGTATAAATAAAACTGTCAATTCACTTGATTGTCTATTTTCAATAATGCTTTCATTTTCACCAATTCTAATTACAATATCATCTTTTGAAATTAAATTTGAAACATCATTTCTTGTTATTATTATTTTTCGAATATTTTTCTGATTAAGTTTTGTAATAATTTTTTCAAAAAAACTACTCGATAATGAATAACTGATAATTAAAACACAGTCTGATTCATTAATTATATTAGAGTAAGCAAGTTGTTGATCAGTGTCTTGAGAAAAAAATGTTCTAAGATTAACTCTTAAAAGTCAATCTATAAATAAATGAACCAAAAATATATTGCCTCCCTTGGCAAACATAAATATATTTTTAGAATTTTCAATAACTTCCTTTGCTTTCATTATAGCAACTCTATTTATTTTTGCTGTCTTTTCTAAACTCAATTTAGTTATATCTGCTAGTTTATCTATAGAATTTGCTTCACTTGAAAAATTAAACTCTTGATTTTTCAAATTAATTGTTTGCAAATATTGATTTTCTAGCTTTAATGATATATTTAGACTTTTAAAACCATTTAAGCCTAACCGCTTACAAAATCTTGTCACTGTTGAAGGGCTGGTAGAAGTATTTTTTGAAATATCAAAAATGGTATACTTTTCCAATACCATATATTTTTCTAACAAAAAATTAGCAATTACTTGAAAACTTATATTCTCAGAATATTTTGATATGTCTTTAATTTGTTCTAATGTATTTTTCTTATTCATATTTAATTACTTTTTGCCTTTATATAAATCAATTATATAGTCTAAAAGTTCTAAAATAACAAGAGCATTAGAAAAATGGTCTTGTGAATGAATAAAAAGAGTTTTTATATCTCAGCTTTCTCCTTGAGCTTCTCTTGAGATTATTTGAGCATGTAATCTATGAGCTTCATTTAATTTTGATTTTGCCTTAATAGCCAATTCCTCAGCTTTAACTATGCAACCACTCTTTGCATTTTTAAGAGCTAGAAATGCTATTCCTTTTGCCTCACCAGAAATACCAATTAATTCCATACTTATTTCTATTGTTTTTTCTTCCATTTTAAACTCCCCTAAATTTAAACTTATCTCAACCTTGTAATATACTCAAGAGAAGTAAATCATAATCCTTAATTGAACCGATATAATTTGCTGTATTTCCTAATTGAGTGTAATTATCTTTAAGTATTATTATTAATTCTCTTTGATAATGAGAATTGTTTTTATTAATAATGCATACATCTCCTCTATTTAATTTAATTTTAATATTATTTGTCTTTATTTCATCTTTGAAATCAACTCTAGTAAAAGTTGATCTAACAAAATCTTCATTTAAATCTCCTCTTCAAAAATGATTTTCATAGTCTAAAATTTTTTTCTCAATTACTAATAGATTTTTATCTAATTTAATATCAAACTCAAACTTATCTATTTTATTTACTTCTGCAAAATTAATTATTTCTTCTTCGCTCATAGCTTGATTACCAACTATCACTGTTGAGATAAGACCAGTTGCAAAAAGAAATTTTGCTTGACTTCTTATTGGTAAATTTCTAGTTTTTTCAATTGTTACTAAATTATCTACATCATAATTTTGCGGACCTTTATTTCCAAAATTAGAACCTACAAATGCGGAAGAATGTATCCCTAAATCTACAAAGCGTTTTGTTGTTTTTCAAAAAAAATTAAATGATAATCCACTATTTTTTAAAGGATAAAAATTATGACAACCAAACAAATTTTGCCTCTTAGGTTTATAATCCAAAACATTATTAATAAAATTATCATTATTACTTATATTTAATTGAATATCTAAATCTGATTCATTAAATGTTAAATCAGCTACCTCTTTTGGTAAAAGTGGAGAATCTAATCTCACACAAGATACACCAATTTTTTTAAAGAAATTAAGTTCATTTATTGAAAGTTCTAATAAATTTAAAGCATTATCATTAATATCTAAAATAATATAAAAACCAATCTTATTAGCATTAACGCATATATATTTATATAACTCTAAAATCTCATCTTTTTCCTTTTTATTAAAATGAATAATTGACATAAATAAATTATTAATTCCTTTTTTATAACATTTATTTAAATAATCAATTGTTTCTTTTTTGGAAAAATGTTCAGGATATATTGATATTCCTAATTGTTTTTTAAACATTATAATAAATCTCCTTTTCTTTTAAAGATAATACGTTTTCTAGTTTTATAATATGAAACTCCTAAAATAATTCCTAAAATAATTCCTCAGGATAATGAGATTATTATTGCAGTTATTAAAGTATTTGAAATTATTATTAAACAGAAAACAACAATTAAAATTCCAATTATTGTAAAGCAAGGTGTAATAATTCACAAACTGGGTCTTAAATCGTTATTTTCACAATATTTTAAAGACATTCAAAAAAATATTAAAAAACTAACTGCTAATAAAATTCCCGTTAATATATAATATCAAACTGGCATTTATAAACCTAAAATCCTTAAAATTCGCTCAAACAATATTTCTACGTTTGATGATGCATATTCTTTAGATTGTATTTGAATTAAGGGAACTTTTTTATCTTCTAAAGCATCTTCAAAGTCATCAAAATGCATACTCAAATGAGGTGCAAATAGAATTAAATCATACTTATTTGCTAACTCAAGTATGTTATCTTTTCCAAATCCACCTTCATCAAATTTTAAATTATACTCTTCTCCTAATTCATTTAATCTTTTAGAAATTATTGAACTACTATAACCACCTGAACATAATATTAAACCTTTTATTTCTTTCAAAATTATTCCTCCTCTATTTTAATTACACGCACGATAGTGTTTATTCCATAATCAAATGATTTAATTTTAATTAGCAACTCATTTTGTTTTTGTTCAAAGTCAACTTTTTCTGAATTATCTAAATATGAAATATTTTTAATATTTAATTTTTTTTCTAAATTGTATTTTCTAATTTCTTGAAATTCTCCACCTAAGTGAATTTTTTTTACATGTCCTCCTGTTGTGACATTATAGGCAAATAAATAATAAATATGATTTTTTTTAACAATAAAATCTTCTTCTAATACATATGTTAATTCATAGTCACCAATTAAACTATAGCCATATTTTTTAACTCAATAGCTAAATTTTTTAACTGTCTCTATTTCTAGATTAATTAAATCTCCCTTTTTGTTGACTGATAAATTTAGTAAGTAATTGGCTTTTTGTTTTCTAGCCATCAAAAATTTTAGAATTAATTCTTTAACAGATTTAAAATTAAAATCTTCTTTAGCATATCCTCAGTGATCATTAAAAGTTTGACAAGTTTCAGCAGCAAGATCTCTTGAAAAAATTGAATAGTCAATTTTTTTTAAATGTCCTTGTTCAAAAGTAATTGAATCAACTTCTGGATGTTGTTCCTTTCCAGCATTTAAAAGTCCTGAATTATTTATAATCATTGCATTTGGATTATACTTTCTAATTATTTTATATAACCTGTCTTCTTTTCAATCGTTATTTTTTTTATTTCAATTACCATCAAATCAATATCCCTTTACATTAGGGTATTTTTTACATAAATATTCAATATTTGAATGCATATATTCTAAATACTCATCAAAATTTGTCTCATAACTTGGGTGACTTCAATCCCAAGTTGCATAATATAAATAAGGATCAATATTAGCCTTATTACATTCATTAATAAATTCACTCAAAATATCTTTTGTTTTAGTAATTGAAATGTCATATAAACTAATGCCATTTGAATCATATAATGCAAAACCATCATGATGTTTCGTTGTTAAAGTTATATATTTAAAACTATTCTCCTTAGCAAATTTAACTATGCTTTTAATATTTAATTTTAAATCAGTCTCATTAAGTTTTGGAAAAAGTGATAGATAATCATCAGTTGATAGGTTATACATTTTCATATATCATTCGCCTTTTTCTAATTGATTATACAAACCATAATGAATAAATAAACCAAGACCATATTTTTTAAAATTTTTAACTCTTAGTATCTCTTTCATACTACCTCCATAGTGATTATATTTTCAATTTCTTATAAACATGGAATTATGAAATTTATTTCAAAGTTTGAAATAAATATCAAAATTGAAAATAAAAAAAAGAAACTGTAAAAATTTCTTAAAGTTAATATTTTATAAACAAATGATTTTTAATGAAAATATCAGTAAATTTTTTACTAATTAATTTTTTTTAAATAATCATAAAGCCCTAAGTTGTATTTTAATTTAATAATATCTTGATATTCTTTTTCATCTTTATATGTAATAAATATTAGAGTTCTTTTAAAATTGTGAGTTATTTCAATAATATTTTCTAAAGTAATAATTTCATTAAATAAAAATAACTGACTATCATGAACAAATGCAATTATAGAATTTTGCTTAATATTTAATAAAATTATATATATAAGTACTTGAATTGTATAAATTAAGTAATAAATTGTAAAACCAAATCCAAGATATTTCATATTTTTAAAGACTAGATTTATAATAAAAAAAACTGTTAATGATAAAAACATTAATGTAAAACCAATTAATAGATAATATACAAAAAAATTATTTAATTTCTTATTAAAATACTTATTTTCTACTTTTAAAGAATTCATTTTTCTAAGCCTGTTTGAGTATAAAATGAAAAAATATACTAGAGTAATTGAAGTAAATATAGAGAAAATATACCCACTAATTACACTACCACTTCAGATATTTGAATATATCATGCTTAATTATCTCCTTTTTATTAATTCTTTAATGGTAAGAAATAAATCAAAATCTTCTAATAAAATAATATACTTATCATTATCAACTTCTAATTCAATATATTTATTTCAAATTTTATTAACATAAATAAGTAAATAATTGCAGAATACGATGTCTTTTAAACTATATTGAAAATACTGATTTTTTAATTGAATCATTAATCTTTTGTTTGTAATATAAATTGAAAAGTTAATATCAGACTCTTTTAATTCTTTCTTGTAATCTTCTTTTTCTTTTTGATTTTTTAACTTTATTTTATACAATTGCAATTTATCACTAAAAAAATAACATTCTTCACCTTTTGGTAATTCAAAATCAATATCAACCTTTTTAATTTTGAATTCATCTTTCAGTATTTTTATTTGTTCTTTTATTTTAAAATTCTCACTTTTAAAACTCTTATATTTTTCTTTAAAAATTAAAGCTAATGTTCCTGTTACTAATATCATAATTAATCAGATTAAGACTATTATAATTACTGCAACATTTCTACTTGTCATAGTCCTACCTAACCCCTTTTGTTAATATATTATAACAATTATAGTTTTATACTTTTCAAGTATTTTCTAAAAAAGACAATAAAAAAAGTCCAGACCTAAATCTGGACTAAAACTATTTAAGGGTAAAATAATTTTAAATTTAACAACTTGAATTGTTCTAGGTACTTATTTGCTTTTTTCAAAGCATTTTTACAAGTAGCATTAACTTGTAGTTTCCTGATCCCACCCTTACACCCTTTTGTTCTAACTAATAGATTAGAACAAACAAGAAAACTTGGAGATTTTGTTAATTTGATTAATAAAATCAATACCTTTATAGAATAATTCTTTTGATATGCTTTTTTTTCTGATATATTGCAAGTCCTAAAAGAACTTTACATTCTTTATTATTGATTATTTAAATAAATAATCAATAATAAATTGATAACATAAAAGAGTTTTTATATTTTTTTTTTATTTTTATGTTTAAAAAAAGATTGCAAATATTATTTTTTTTGATATATTTATATTAGCTGTTAATTTGCTAATTTTATTAACAGCGCTAAGACTTATGTTGTTGTAAGCCCTCCCAAGTTTATAATAACTGCAGGGAAATATAATTATTATCATTTTTAATTAAGTCATTTATTTGAGATGTATATATACTTCAAATAAACTATGACAAATAAGATAATATAATATATTCCCTTTTTTTTATGAAAATTTTAATTAATATTAATTTTTTCACTTAAAGCTCTATTTAAATAATAGAGCTTTTTTTAATTTAGTTACTAAACCTGTTAAGGTACATAATCATAATCAAAGAATATTATAAAATTCAATAGAAAATAACATCTTTTATTGTATTCGCTATAAGTCAAAATATATTTTTACATTTCTTAAATGTAGTAGTTTCTTTTGACATAATTATTTTATTCCTTTTATTTTATTTTGCAACAAAAAAATAAAAAAATACCCTAAAAAGTGTTGATAAAACTAGCTTTAAAAAAAGAGAAATTTTAACTAAAATTACTGTTTAAATTGAATTTTTACAAAAATTACTAGTTTCAAACTCTTTTAGATTCTCCTATATTGGTAAACTAAAGAAAGTAGTTGAAGCTAAAACAATACACATTGCTAAAGTATCTTGAATATCTTTATTGGTTTTTAAGAAAAAGTATCTCGATGTAAATAACATAATTGAATAAAATAGGAATCCAATTATTAAAACTCCCAATTGTTTAATAAGATCTTGTACTTTAATATCTATTAAAATCCATCTAAAGTTAGAGCTGGAATACCAATTAACATTACAACTTTGACAAATACTTTATCTCACTCCTTATTTAAAACATTTTTTTAGTTAATATGAAACCTAAAAAATTACTGTTAAAGTTGAAAAAATGCTCCTCAAAATCCCCAGTCGCCTAATATCTAACTAATTGTTTCTCCAATATTTGTTGATAATACATAAATTTTATCTTTCTATTTTTTAAGTTTCGCATTAAAAAACTTATATATGTATCTTTGTTGTTACTTAATATTTTATGCTCAGGATAAAATATATTTCAGTTTATGAATAATTATTGTAAAATAAAAAACTTTTTCACATAAGTGAAAAAGTTTCATAATAAATATATAATTTTCAATAAATATTAATCAATTAAAAATTATATGGGAAATTAACTTCTAAAAATTTTTTTCAACCAGGATTTGGTGAATGATTAGGATAAATTTTTCAATATTTCTTTTGAGCTTCAAGATAAGAGCTAGCTTCTATAATTTTATTTCTTACTAAATACATAAAAACTATACTTGCACTTCTGTTAACACCTCAAATACAATGAATATAAATTTTTTTATCTTTAATATTATTTTCAATTTGTTTTATGGCATCCAAAATTAGTGTTTCATCCATATCTTGAAAATTAGGATAATCTTCAAAATTATATAAAATTCTATTATTTTTTTCATCAACTAATTTAATTTCATCCTTTTTGGGATTTTGCTCAAGAAAGATTTCCTGAGCACAACTCAAAACTAATTGTGCATCATTCGGAACACTGTGCATATCTCCAAGATATAAATTTTCTATTATTTTTTTACTCATCACTTTTCTTCCTTTCTGAAATTCAAAATGGTAAAAATTTTGAAAAAAATTCTTTTGCTGAATTTATGAATAAACAATCGAAATTAGTAACACTTTGATATTCTAAATTTTTATTTTTAGTTATAGTTATACAAATATGTCTATCATTATCAATTACATTTTCTAATAATAAAATTGGACCCAATTGAATACTTGGCTTCATTTCTTTTAATCCCAAAATACTAGGATTTTTTAGATATGGTTCAATTATTTTTTCACACTCTTCTTCTGTTTTACCATTTAGATCCAGATAATAACTCAATGAGTTTTGATTACTTGCTTTAATTAATCAATTTCTCTCATCAAATACTATATATAAATTAATACTTCAATATTCATTATTGCGAAAATAAATTCTATATATTTGCTTTAATTCATTAAAGTCTTTCGGTTCATAGAATTCTATATCACTACAATTACCCTTAATTAATTCTAAATTTAACTGCTTTAAAAAATCTTTTATTTCCATAAATTTGTACCTCAATAAAATTATAAATAAAATAACTAGTATTTTACTAGTTATTTTATTTATAATTAAATTATTTTATATATAGTTAGGTAAAATACAAAATAATTGTTAAAAATATAGTGTTATGATTGCCCTTTTTTAATAAGATAGTAATTTATACTTTATATTTTGGGTAAATATTTATTATAAAAATTAGTTATCTTCTTTATTTTAAAAATATATATTAATTCAAATCTAAGTAATTATCAAATTCAAGGTATTTAAATATAGTTATTTGACCCTACCTATTAATGCAAGGCATTTTAATTTTATATCTTCAAAATAAAAAAGATAGAAATACAAACAAATCTAAAATGATTTTGATAAATATAAAAAAAGTTTAACAAAATTCAAACTTTTATACTAAATTTATTAGTTTTTTTCTGAAAATTCTTTAAAATAATAAGAAAGGAATGATGTAAATGAATTATAAAAAAAGTTTAAAAAAATTGAAAAAATATCACTATAATTGATTGAATATTACACTTATGATAATTCTTTTTCCTATTGTCATAATCTTATCAATTTTATGTTCAATTATGTTTGTACCCTATTTATTTAAATATACCCGAAAAGGAAAATATAAAGGTATAGAATTTAATACTTATGAGCATCTGCTTTATGATCTAGAAGTTAAAAAAATTAATAATTTTAATATTAAAAAGGAGCAAATTAGAGAATTTAAAATTGGAGCAACAAGTGAAGAAATAAGTGCTTTAATTGTTAAACATAAAAATTCTAAAAAATGAGTAATAGGTTTGCATGGCTTTAAAAGAAATAAATATATGGGACTAAGAGGAGTTTTTCATCTCTATGAGCAAGGTTATAATATTATCTGTTTTGATGCTTTTGCCCACGGTTCAACTTATGGCAAATATTCTGATTTTGGGCTTACAAATGCAAAGGTATTAAATGAAGTTATTACTTGAGTTAAAAATTCTTTTGAAGTAGAAGAAATCGGAGTTTTTGGAACAAGTATGGGTGCTACAAGTGCAATGTTTTTTGCAAATAAATATTATGAAAAAAATAAAATAGATTGATTAATTGCAGACTGCCCATTTACTCAAGCAGTTCCACAAATTAGATTCTTTTTACAAAAATATATGATTATACCTTGGTGACTGATGTCATTAGGTATAAATCGTAATTTCAGAAAATATGCAAAAATGAATATAAAAGATGTCAATTTATTAAAGCAAGATAACATTATAAATGATCTTAAAATTCTATTTATTCATGGAAAAAAAGACGATTTTATTTTATATGATAATTCAGTGGTTTTATATCATTTAAAAAATTGAGTTGAAAAAGTAAAATTGAGTCAAATTAAATTATATGAAAATGCAAAGCATTCAAGTTCAATGCATAAAAATTTAGATGACTATATAGACACAACTATTAAATTTATATCTAATTAAGAAGTTTTTACAAAAGCTTCTTAATTTTTTGTTAAGAGAATATAAAAAAGAAAAAAACTTCTATAAAGAAGTTTTTTAGCTATATCCATTAAAACTATATCATTAATAAATTATTTAGAAATTTAACATAAAGCAAGACAATTGTAATATTATTACTAAAACCAAAACCCTATTTAAATAAAAGCTAAATTATATTATTTTGAAACTCTTTTTAATGATAACTTAGCTTGGTCTTTGCTTTCATCTACTGAAATAACATATCCATCCATTTGTTGACCTACTGTTACATAGTCAGCTACGTTTGTTACGTAAGCGTCAGCAATTTCTGAAATATGAATAAGACCTTTGTAGATTTTACCATCGATTTCAGCATCACAGAATGCTCCGAAATCAACAATTTTAGTAATAGTAATATTTACAATTGTACCCATGTTTCGTTCTCCTTTACAATTAATAATAAACTATTTTTATACATAAAGATACCTATTATTAAATAAATTTAAAATAAATATTTTAGTGTGTAAAACTAGTAAAATTTCTAAAAAATGTCCCCATTTTTTGAAATTAAGTTCTGATATCAATAAAATGATTTTTTCTTATATCTTTTTAAACTTTTTATATCATTTTCTGCTCTATCAATATATATAAAGCCATAACGCTTTTTAAAACCTTGATGCGATGATACTAAATCAATAGCACTTCACGGATTATATGCAATTATTTCAATTCCTTCAGAAATAGCTAATTGCAACTGTTCAATATGTTTATAATAGTATTCAATTCTAATTTCATCATTTACAGTCTCATTTTCAAGTGTTTCTGACAAACCTATTCCATTTTCAGAGATCATTAAAGGTAATTGATATCTTTCATACATTTCTCTCAAAGTAATTCTTAAACCCACTGGATCCAATGGTCAACCATATTCGGTTTTACCAAGATACTCATTTTTTGAATAACTAAATAAACCATTAATATCAAACATTGTTTGTTGGTCTATTTTAATTTCTTTATCAGTATCTTCTTGATTTTCCATTACTGTTCCTGAGGTGTAGTAGTTAATTGACAAGAAATCGGGTTTACCTTTTTTAAGAATATCTAAGTCAGTTTCTAATATTTCTGGCATAAGGTCATTATCTAAAAAGTACTTTTTAACTATTGGATTATATATACCCCTTACAATGGCATCCAAATAGTATCAATTTCTCATAATACTTGCATTTTGAGCACTTAAATAATCTTCTGGTTTTTTTGAATTGGGATAAATACATACATTATTTAAAGCAGGCCCTATTTTTGATTCTTTATTATATTTTTTTAATAAATTAACTGCAAGTGCCTGAGCAATAAACATATTATGAGATTGCTGATATAATTCCTTTTCATTTAGAGAAGAATGTGAGCCATTTAAAATGGATACTTTACTCCCAATCATAATCATTACATTTTGTTCATTAAAAGTTATTCAATATTTCACTTTATTTGCAAATCTTTTAAATAAGGCTTTTGCGTATTTTAAATAGGCATTTACTGTCAATTCTCTATTATTTCATCCTCCTCTTTCTTGCAATGAAAGAGGCAAATCAAAATGATACAAAGTTGGAATTGGTTCAATATCATTTTTAATAAGCTCATCAATTAAATTTTCATAAAATTGAAGCCCTTTTTCATTGATTTCACCATCTCCTGAAGGAATTATTCTTGATCAAGCAATTGAAAATCTAAAAGATTTTAAGCCCATTTCTTTAAATAAAGCAATATCTTCTTTATATTTATGATAAAAATCCGATGCAACTTTAAAATCACTGACATCTTCTCCATACTTTTTAATATCTTGAACAGACATTCCTTTACCATCTTCATTATATGCTCCTTCAGCTTGAAATGCTGAGATTGAAGCTCCTCATAAAAAGTCATTTGGAAACTTATTTTTCTTTAATTTCATTGTTATTTAACCGCCTTCATTTTGATATCTTTTCTTCTTAAATAATCATTCTTAATTTGAGTTAATCCATAGTTTATATCTAATGAATGTATAGCACTAAAGTATTGATTATTAAGTTTAATTAAATCTGCAAAATTTAATTCTATTGCAAAATTATTAATATTTTGAGAAATTATATGCATAAATTCTTCTTGCTTATTGTTGAATCATTTTGATTTTTCTTTAAGTTTTTCTTTAAATGAATCAATTTCCTTTTGCATTATTTCTAACTTGTTATTTTTTTCAAAATTTTTAAAAGAATTATATAAAATTTCAATTTTTTCAATTTCTTCTGTTTTACGCATTTTTTTTAATTTTAATAAATATTTATTTTTTTGTACTTCATATTTTTCATTATACTTATCAAAAGTTGCTTCTTTTTTATTTAAAATAATTATTTCTTTTTCTAATTCCTTAATGTTTTTAAGTTCTTCTTTTGAAAAATAATTATTGGTTCTTAATAAGAAAACATCTAATTTTAAAAGTGCTTCTTTTTTTGTTATATTATTTTTTTGACAATAAGTGTAGACCAATAATTTATTTATTTTTCTAATTTCTTTTAACTCATCTGGTCTTTCTTTATATATTAATAGAGTTATAAGTGCGCTTGAAGCAAGTGTTATTAAAAGACATAATGAAAACATTGCCACATTAATACCGCCACCAGGAATATAACCTGTTATTGAAAATATTCCATATCCTCCTGGAACATGCAGTTTAACACCAATAATACCAGAAATCATTCCACCAATTGCTGCACCGATATTTCCTGCGATAAATGGTTTTTGTTTTGGTAGGTTTATTCCATACAATATTGGTTCTGAAACTCCAATTAATCCTGCTGGAATATTTGCAATAGACATAGCTCTCAATTTTGCATCTTTTGTTCTAATAATTAAACCAACTAAGGCTCCTACTTGTCCATAAACTCCATACATTAAACCTGGACTTAATAATTGAGGTATCTGTTGTTGAACTTGCACAGAAATTGGCATTGCAATAGCAATGTGAATTCCAAGTACAACAGCTGGTTGTCAAACAAATGAAAAGATAGCAACTCCAATTCCAAAAGGCAATAGTCCTATTTCATTAACAACATAACCTATTCCATATTCTACAAGACCTAGTGTTGGTCCTACAAAGAAAAATGTTGCACTTACAATTATAATAAAAGCAAGTGTGTGTCTAAAAATTATATCAACCATTGCTGGCATTCAAGTTCTGATTCATTTATCTAATCAATAATAACCAATCATTGCAGCTACACAAGGCAATATTGTATTTGCATATGCTTTAATACCAATTGATACATCTCCAATTTTAAATCATGTTCAAATTGGAGTAGCATTTTGAAATAAAAATGGATTAGCAATTACTAAACATATTAGTAAACCCATTTGAGAATTACCGCCCAAATACCTAATTGTGTTATAACCAACAAATAATCCTAAGAATTTAAAGGCTACATCAGTTATAATATAAAAATATTGACTAAAATGATCAATTTCTTCTAAAGAACCAGCAGGTCCAGGTTTAACTAAAACTCCTGCTTGAATTAAAATACTTTGCACAGCCATTAACATTCCCACACCTATAAAAATTGGTAAATTTGGGACCATAACCCCTGCTAAAGATGCCATAGCTTTTTCTTTAAAAGATCTTTTTGCTTTTACTACACTATTTTCTTTTGAAAAATTATTAGTTAGATTTGTAAATGATGCAAATACTTTTTGCACTTCTCCACCAATAATTATTTGAAGTTCTTCACCATTTCAATGAGTTCCCTTAACTAAATTTAATTTTTCTATACTTTCTAAATCAACTTTAGATTTATTTTTAATTATTAATCTAAAACGTGTCATACAATTATAAAACTTTGAATAATTTGCAGATGTTCCCACAAATTTATATATATCTTCTGCTGTTTTATCGTATTTATTTATAGAAATAAGAGCATCAATATTTTTTAAAATATCTTTTTGATTTTCTAAATAAAAATAACCAATCTCATCTCCTCTTTTTACATTTTTAATATTATCTTTTAAAATAAATTTTCAATTATCTTCTAAACTCTCTTCAATTACTATTGGTGTAGAAATTTGAAGTTTATTTTCTTTTATCATATTAAAATTAACTTCAACAAGTTTGTCATTCAAAGAGACTTGCTTATTTACTTCTGTAAAAATTTTAAAAGGTTTCCCCTTTAGATTAACAGTATCCAAACCTATATGAATAAGAACGTTTGGACCGTTTTTACATTTTAAAAACATTGCATGTTTTGTATCAAAAATCATATTAATATTTGCTTCTTCAAATGGTGAGTAGAAAACATTTGAATCAGGTTCAATATAAATTCCATCACCTAGCATTTTTTCACTAAAGACACCATCATTTAATTTTTCAATTTTGAAAATTTTTCCATCACATGGTGCATAAAATTTTATTTTTTCCATATTACCTCCCAGAAGTATTATCTCTAAAAAGAAAATTAAAGAAAGACTCTTGGTGATTTTTTCATTTAGATTAATTTAATTAAAGTAAATTAAGAGCTTCATTAAAAAATGCTAGTATATAACTCATTGAAATATTTCTATAGATATAACTACTTGGAAAACTTTTTAAGTCTAAAATAAATATATCTTTATAAGTTTGAAGTTTATATTTTTGTGAATTTGAACAAAATATAAAAATGTTTTTATTTACTTCTTTAAGTTTTTCATAAATTTTGATTAGTATCTCATTACCTTGACCAGCAAAAAAAAGTAAAATACTATCATTTTGATTAATTTTTTCAATATAGTTGTAAAATAAATAATCATTTACTATATTAATAGTATTAATATTATTTAAATTAAATATCTCTACAATTAAGTTTGAATAATATTTTAATTGATTAGAACTTAAAATATAAACTTTGCCATCTTTAATTTTATTAAAGATTTCAAAAACTTTTTTCTTAATTTCATCAAAAATATTTATTTCTTTATCCATATTTGTTGCATGAGAAAATTTAAAATTAGCATCTACTTGTTCAGCTAATTCAAATTTTAATAATGAAATTAATTCTCTGTAACCTTTTAAATTAAGTTTTTTTGAGAATACTGTCAATAAGCTTTCAGATACATGTATAGTATCTGCAAATTCTTTTATAGATAAAAAATTTTTATTAATATACATTTCCACTAATTTTTTTGCAATTAATGTGTCATTCTTATTATCATTGTTCTGTGTTATCTTAGTTAATTTATCAAAAATCATGTTTTCCTTTTCTAAATTTTTTCTAAAAAAATTTATAAAATAAATATATACCAATTAGTTGTTGCTAATTATATTAATCTATTCAAATAAAAAAACAAGATAATAATATCTTGTTTTTTTATTTAAAAATAATTTACCTTTATACTTAATATTAAAAAAACATTTTATCTTTTTAATGCTACCTTCAAAGAGACTTCAAAATTTCCCTTAAAAGTGTCAGATTTATATTTTCTAATAAGTCTACTATTTCCTAAAGGGCCTGGGCTTGGAAATACTGTTAATCAACTTAGACCTAAAACATTTGTCTCTACACCTGGTTTATCTTTCATTAATCTAACTGCTATCATCGTGTTATAAGTATCTTCTAAAAATACTCTGTCGTCAGTTTTATAAAGCATTGCATCAATAATATATTCTTCCTTTGTTTTAATATTTGTTAAAGACCAATATGGTTTTACAATTTTTAATTTTTCTTTTGGATTTTTATTAAAATAATTTTTATACTCGCTTAATGTTTTCACATACATTGTTTGAGAATCATTCTCACCTAAATCCAAATCTAGATTAAATATATCATTATTAGAAAACTTTATTAAATCTAGAACTTCATATTCAGTAATAATAAAGAAATCGCTTAGAATTTGTCAAGATGTAAAATATTGATTTTCCTCATATCCAGAGAGAGATACATTTTTATATTCAATATTATCAATTATAAAATCACCAATAAAATCAATTTTATATTGGGCGTCAACTTTATCATAGATATAAAAATTTAATTTTTGAATTTCTACATTATCTGAAATTAATAATTTTTTATAAAAATTATTATCAATATTTTCACCTGAACTATCTAATGCTCCAAACTTTGCTTCTAATTGTTCAATATTTAATTCCACAATATTATTTTCTTTTTTATACTCTTGTCATTTAACTAAACTTTGTTGCATTTCTTTTTTTCTATCATAACTTTTATTTGGCAAAAGTTCATTTTTATTATCTACTTCAAAATTTGAAGTAGATATTTTTATTGAAAATTTATCATCTACTGATAGAAGATTTTCATTATTTTTTATAGTAAAAGCACTAATTTGATTTACAGATCCCAATGTTAAGGAAAATACAGTTAAACTATTTAAAAGTTTTTTCATTTTTTTATAAAATCCTTTCCTTCTTAAACCCACCCTCACCCAATTAATTTTTAATTTAATTATAGATATATTTTATAATAAATGCATAAAATTAACTGTTTTTTAATATTTGTGAATAATAATTTTTTGATTTTACTTTAATAAATTTAAAGCTATTCCATATTAAATGTCTAAAAAATATAAAAAATCCTATACACTCTTTTCAAATGTCATAGGATTTTTTGTTGTATTATTGGTAATCATAAAATTAATATTAACATAAGTTTTTATTATTAATTTTTAACCTTTCCTACTTTTTAATGCTTTATGAATTGATTCCATATTTATAGGCAATTTTATAAGATTCATCAATGGCAAATTATTTTTAATTAAATATAGAAATAAATAATTAATTTGACGATAAGTTTCAGCAGCAATAACTAGTGAATTTTCATTGTTATCATATTTAAATGATTTAATATTTTCTTATAATAAATACTTTCTAAAGGATTCAACGTCAAAAGAATCCTTAATAAATATTTTATATTTAGAATAGACTCCCAATTTATCCTTAGAGCCTTCAAATATTTTTAATCCAGTTTCTAAAATTACATATTCATCAATAATATCTGAAATTTCATCAATGTTATGAACAGTTATAATTACAGTTTTACCTTGTTTCTTGTAATCTATTAATAAGTTCTTAACTTTATTTCTTCAACAATATTAATAAATCTGCTTCAAGATTAAATGCCTTGATAATTTGATCTTTAGTATATTCTCCACCACTGCTAAAAATTTCATTCAAAAAATAGTTTTGTTCAATATAAAGTGTTTTAAATTTATTTATTAGTAACCCTTTATAATCATTTTCAATTCCTAAAATTGCTTTGGCAAAACTGGTTTTGCCACTTCCATTATTTCCAATTAGCCCAATTACTTGATTATTATTATCTATCAATAATTTTTCTATTTCAAACAAAAATTGATCTTTTTTTTCTAATTTAAAATTTTTTATTTGTATCATATAATAATCTTCCTTTTAAAAAATAAGCTATATTTACCTGCTAATTAATTATTATCAAAATAATTTTTAAAGTATTGTGTAACTTTATTAATATCTAAATTTTTAGGTTTTCATTTATTTGCTTGATTTAATACCATAAAATTTTGTTTATATCATTTTAATAAACTATTGTAGTCCTTTATCGTGAAACTTTTTAATTTTAAACTACTATTTTCTAAATAAATTTGTGATATTTTATATCAAGTTAATTTTGTATTATAGGGTAAAAAATCTTTCAATTCTCATTGAATTATACATTCAAGTATTAAAAAGTAATCAGTTTCCACTTGGTGAAATGAGTTATTAAGTGAATAAAAAGAATGAAAAGAATTAACATAATAACCCCTTTTATCCATCTCATTTTTTCAGTTGAAAATAAGTAAATTAAAATAATTTCTTCCTAAATCTAAAAATGGTTGCATAGCTTTATTATTGGGTTTTAAATTTAAACAATAGTCATGCATGCCAAACTCTTTTCTTAATGCTGTTAATGTTATATCTGGTGCATATTTATAAATCTCATAAGGAATAATTCTCATAAAATATTTTCTCTTCTCTATAATTAAAAAAATTTTAACACTTAATTAAATAAAAAAATAATATCTATAAAATTATTATAAAATAAAAATTATCTGGGTCTGAACTTACTCCTTCTTTTTTTATTGTATTAGTAGCTTTAGATCATTATCTAGTTTGAAATCTTCTATTTGAATATTATCAATTACACAAAATGGTTTTAATAATTTTAGTATTTAAATATGACCCAATTAATTCTATAATATCAGAAATATTTTTTTATTTTTTAGCTAAACTTTTAATCTCTGCTATTTCAAAAAATTTTAGTTGATAAAATTTTATAACTCCAAATTTTGAAAAGCTATATGTATTTCAATTTGATTTAATTACCGATTTAATTCAAGACTTTTCTAATAATTATTTTAAATGATTTATCTAAAAATTACTTACTTGAATTCATTTTACTTTCCACTGCTAAAATGTTTCCTATAAGGTTTTCCATCATTCTAGCTTTTCCTCTCTTAATCAGTGAGTTAAAAAAATCAATATAGTCTATTGTCAATTTTTTAGTATTTCACCAATCTGGAGTTTTTATTGTTAATATTTATTATACTAATTTAAAATTTTTAATGTAATAAATAATTTTTTACAATCAGCAAACTTGGCTTTAATGGTTTGGATAATAATTTTATGATTTTTATAAATGAATGCTTTATCTATATCTTTATAACCTCACGATAGTGCAACTGTTGTAGAAACAAGGACTTTTTTAATCTAATATTTTTTACTTTTTACCGATGTTCTTATTGGGACGGGCAATTCCATGAACATTATTAGAGCAAAATAAACCATTATTAAATTTTAAAGTTTTAATAAGTATTTTTTTTCTCTTGTTGTATTTCTTGATTTTGATAATATAATTATTTGAAAAATTAAAAGTTATATAAATAATCTATCAAGTTTCGGAGAATAAAAATAATTTTTTTTAAATCAGATACACTTATATTTTATTTTATAATTCTTGACTTTCTTTAAAATTAATTATATTTAATTTATTATTAAAAGCACTTTATATAAAAAAATTCTCAATATATAAATATTATTAGAACTTTTTATTCTATATCTATATATTAAGAATTTATACTAATTATTAATTTTTATTTTATGTAAATGTAATAAATTCCTTACCAAAATTACCATCAAGTATCTGATCTAAGTCAATATAAAAGTTTAAATATCCAAAACTTCAATGAAATGAATTATTCTCAAAACGAGAGCTATCCCCTGATGGATTATAATAAGAAATATAAATACCTTTTTTCTCATCATAATGTTTAAATCATTTTGAATTAATTAAATATTGAAATGACTTAGATTTCCTTTGAGAAAAAGAAAACATTGTATCTGATGATAAATTTGCTAAATCAAACATTGATTCTCTATAACTTTCCAAATTTGTTAATTCGTTAGTTAAAGATAATTGATAACTCATAAATTCTGAACCACCAGCTAAAGCTTGATCAAATTTTATTTTTTTAGTAAAATCAGATCCTTTTAAGGCCATTAATATATCATCTTTTGAATTAGCTTCTGGTACATATCCATAATCATAATCAACACCAAAAGTTTCATGAAAAGCCTTAATAGTTTTTACAGAAAACTCAGACATATCATCTAAAGCTTTATCTTCACTTTCATTTAAATCAATCATATAATTTACAGCAATTTTAAAATCTGGTAACTCATGAACATATGCATTACTTCCCAAATTAATTGATAATCCCTTTAAATTAATATAACCCATAGCAACTGAACTTTTATACTCATTACTATTTTTATACTCATCAAAATTTCCCTTTAAAGTTTTTAAAAAATCTTCTTTTAATAAATTAAAATCCTTATTTCAAATATCTTTATTTTTTTTCACAAAATATTGATTTCTCAAAGCTTGCTTTGCATTAGTAGTTTCTGGATTATTTCTAAAAATAGTTTTCAACATTACTTGACCATTTAAATTTGAATAATCATATTTAATTGATTCTTCATTATTAGCAATTTTATGTTTATTAGCGCTAGCTAATAAAGACGTTTGATTCAACTCTTCTGTTTTAAAAATTGATTCTTCACTAAATGCAAGTGGTAAAGCTTCTAACTCAGCAAAGTATTTATTTTTTATAAATGAAATTATTGATTTTTCAAAGCCATTATTTTTTCTATCTATATCATAATAATTAGCTAGTTCTTTATCAATTTTTCCATATCCATCTGATGGTTTTTTAGAACCCATAATATCTTTTCACTTTAAATTAGTTTGTTTAATATCATCTTGTTCTTTTGAAGATAAATAATCATTTGCAATATTTCTATAAAAAAGATCAGTTGCATTTTTTAAAGCAACATTATCTGTTGATGTATATTTAAGAGTATCATCAATATTTAAAGTTTCAATCTCTTTTTTGCCTTTATACTGTATTTCAATAGTATAATCTAAAGTCACATTACCTAAATACATTTGCTGACTATTATTAGAATTAATTTTTAATGTACTTCAATCAAAAACTATTCCCTTATATAAACTATTAACATCATTTAAAATAAGTTTATATTCACTAATAAACTTTAATTCATTTAAACTCTTTTCAAGATTTTCAATATCTAAAACTCTTACAATATCTAAGTTTAATTGATTTAATCGGTATTCACCTATCTCTTCAGAACTTTTCCCCTGATATTGTTCAATTGTTGTTTTATTCAAAAATTGATTATCAATTTCTGTAGCTGGTAAATTTATTAAATTCTGATAAACATTTTTTTCTAAATGTTCAGCAAAAATATTATTAACGTCTTTTTCAAATTTTTTTATCAATTCAGCTGTTATTATTTCATCTTTTCCAGGATCTGTTTCCCCACAAGCTACTACAGTAGCACTTGATGAGGCTACAAGAGTAACTGCTCCTAATAAACTTAATAGTCTTTTCATATTTCTGTCCTTTTCTTAATACCCTTAGAACAATTTAAGCCTATACATATTATAAAAAAAAAAAAAAAAAGCAACATTTAAGAGCAAATGAATGTAAAATAATATCTTAATAAACTTATAAAAGTAATAAGTAAGCTCAAAAATGTAATATTTAAAGAGAATTTTATAAATGAAATTTGCTATTTGACTTTAAACTTCTTCCAATTTCATTATTAATTTAGAGATATAAACTCTCTCAATTATTTAAATACAATATTTTATTTTATAATTCTTGACTTTCTTTAAAATTAATTATATTTAATTTATTATTAAAAGCACTTTATATAAAAAAATTCTCAATATATAAATATTATTAGAACTTTTTATTCTATATCTATATATTAAGAATTTATACTAATTATTAATTTTTATTTTATGTAAATGTAATAAATTCCTTACCAAAATTACCATCAAGTATCTGATCTAAGTCAATATAAAAGTTTAAATATCCAAAATTTCAATGAAATGAATTATTCTCGAAACGAGAGCTATCCCCTGATGGATTATAATAAGAAATATAAATACCTTTTTGTTCATCATAATTTTTAAAATATTTTGAAGTAATTAAATATTGATGTGACCCATGAGAGTATCTTTGAGAAAAAGAAAACATTGTATCTGATGATAAATTTGCTAAATCAAACATTGATTCTCTATAACTTTCCAAATTTGTTAATTCGTTAGTTAAAGATAATTGATAACTCATAAATTCTGAACCACCAACACTAGCTTGATTAAATTTTATTTTTTTAGTAAAATCAGATCTTTTTAAAGCCATTAATATATCATCTTTTGAATTAGCTTCTGGTACATATCCATAATCATAATCAACACCAAAAGTTTCATGAAAAGCCTTAATAGTTTTTACAGAAAACTCAGACATATCATCTAAAGCTTTATCTTCACTTTCATTTAAATCAATCATATAATTTACAACAATTTTAAAATCTGGTAACTCATGAATATACGCATTACTTCCCAAATTAATTGATAATCCCTTTAAATTAATATAACCCATAGCAACTGAGCTTTTATATTCATTACTATTTTTATACTCATCAAAATTTCCCTTTAAAGTTTTTAAAAAATCTTCTTTTAATAAATTAAAATCCTTATTTCAAATATCTTTATTTTTTTTCACAAAATATTGATTTCTCAAAGCTTGCTTTGCATTAGTAGTTTCTGGATTATTTCTAAAAATAGTTTTCAACATTACTTGACCATTTAAATTTGAATAATCATATTTAATTGATTCTTCATTATTAGCAATTTTATATTTATTAGCGCTAGCTAATAAAGACGTTTGATTCAACTCTTCTGTTTTAAAAATTGATTCTTCACTAAAGGCAAGTGGTAAAGCTTCTAACTCAGCAAAGTATTTATTTTTTATAAATGAAATTATTGATTTTTCAAAGCCATTATTTTTTCTATCTATATCATAATAATTAGCTAGTTCTTTATCAATTTTTCCATATCCATCTGATGGTTTTTTAGAACCCATAATATCTTTTCACTTTAAATTAGTTTGTTTAATATCATCTTGTTCTTTTGAAGAAAAATAATCATTTGCAATATTTCTATAAAAAAGATCCGTTGCATTTTTTAAAGCAACATTATCTGTTGATGTATATTTAAGAGTATCATCAATATTTAAAGTTTCAATCTCTTTTTTGCCTTTATACTGTATTTCAATAGTATAATCTAAAGTCACATTACCTAAATACATTTGCTGACTATTATTAGAATTAATTTTTAATGTACTTCAATCAAAAACTATTCCCTTATATAAACTATTAACATCATTTAAAATAAGTTTATATTCACTAATAAACTTTAATTCATTTAAACTCTTTTCAAGATTTTCAATATCTAAAACTCTTACAATATCTAAGTTTAATTGATTTAATCGGTATTCGCCTATCTCTTCAGAACTTTTCCCCTGATATTGTTCAATTGTTGTTTTATTCAAAAATTGATTATCAATTTCTGTAGCTGGTAAATTTATTAAATTTTGATAAACATTTTTTTCCAAATGTTCAGCAAAAATATTATTAACGTCTTTTTCAAATTTTTTTATCAATTCAGCTGTTATTATTTCATCTTTTCCAGGATCTGTTTCGCCACAAGCTACTACAGTAGCACTTGATGATGCAACAAGAGTAACTGCTCCTAATAAACTTAATAGTCTTTTCATATTTCTGTCCTTTTCTTAATACCCTTAGAACAATTTAAGCCTATACATATTATAAAAAAAAAAAAAAAAAGCAACATTTAAGAGCAAATGAATGTAAAATAATATGTTAATAAACTTATAAAAGTAATAAGTAAGCTCAAAAATGTAATATTTAAAGAGAATTTTATAAATGAAATTTGCTATTTGACTTTAAACTTCTTCCAATTTCATTATTAATTTAGAGATATAAACTCTCTCAATTATTTAAATACAATATTTTATTTTATAATTCTTGACTTTCTTTAAAATTAATTATATTTAATTTATTATTAAAAGCACTTTATATAAAAAAATTCTTAATATATAAATATTATTAGAACTTTTTATTCTATATCTATATATTAAGAATTTATACTAATTATTAATTTTTATTTTATGTAAATGTAATAAATTCCTTACCAAAATTACCATCAAGTATCTGATCTAAGTCAATATGAAAGTTTAAATATCCAAAACTTCAATGAAATGAATTATTCTCAAAACGAGAGCTACCAACTGATGTATTATAATAAGAAATATAAATACCTTTTCGCTCATCATAATTTTTAAATCATTTTGAAATAAATAAATATTGAAATGAATTAGAGTACCTTTGAGAAAAAGAAAACATTGTATCTGATGATAAATTTGCTAAATCAAACATTGATTCTCTATAACTTTCCAAATTTGTTAATTCGTTAGTTAAAGATAATTGATAACTCATAAATTCTGAACCACCAGCACCAGCTTGATTAAAATTTATTTTTTTAGTAAAATCAGATCTTTTTAAGGCCATTAATATATCATCTTTTGAATTAGCTTCTGGTACATATCCATAATCATAATCAACACCAAAAGTTTCATGAAAAGCCTTAATAGTTTTTACAGAAAACTCAGACATATCATCTAAAGCTTTATCTTCATTTTCATTTAAATCAATCATATAATTTACAGCAATTTTAAAATCTGGTAACTCATGAATATACGCATTACTTCCCAAATTAATTGATAATCCCCTTAAATTAATATAACCCATAGCAACTGAACTTTTATATTCACTACTATTTTTATACTCATCAAAATTTCCATTTAAAGTTTTTAAAAAATCTTCTTTTAATAAATTAAAATCCTTATTTCAAATATCTTTATTTCTTTTCACAAAATATTGATTTCTCAAAGCTTGTTTTGGATTAGTAGTTTCGGGATTATTTCTAAAAATAGTTTTCATCATTACTTGACCATTTAAATTTGAATAATCATATTTAATTGCTTCTTTATTATCAGCACTTTTAATTTTATTAATGCTAGTTAATAACGATGTTTGATTCAACTCCGCACCTTTAAAAATTGATCCACCTTCGAATACAAGGGGTAAAGCTTCTAACCCTGCGAAATATTCACTTTTTATAAATGAAATTATTGATTTTTCAAAGCCGTTAGTTTTTCTATCTTTATTATAATAATATACTAGTTCTTTATCAATTTTTCCATATCCATCTGATTCTTTTTTAGAACCCATAATATCTTTTCACTTTAAATTAGTTTGTTTAATATCATCTTGTGCCTTTGAAGCTAAGTAATCACTTGCAATATTTCTATAAAAAAGATTAGTTGCAGTTTTTAAAGCTCCATTATCTGTTGATGTATATTTAAGAGTATCACCAATATTTAATGTTTCAACTTCTTTTTTGCCTTTATATTGTATTTGAATTTTATAGTCTAAAACCACATTACCTAAATACATTTGTTGACTATTATTAGAATTAATTTTTAATGTACTTCATTCAAAAACTATTCCCTTATATAAACTATTAACATCACTTAAAATAATATTATATTCATTAATTGACTTTAATTCATTTAAACTCTTCTCAAGATTTTCAATATCTAAAACTTTTATGATATCTAAGCTTAATTGATTTAATCGATATTCGCCTATCTCTTGAGCACTTTTTCCCTGATATTGTTCAATTGTTGTTTTATTCAAAAATTGATTATCAATTTCTGTAACTGGTAAATTTATTAAATTCTGATAAACATTTTTTTCCAAATGTTCAGCAAAAATATTAGTAACTTCTTTTTCAAATTTTTTTATCAGCTCACCTGTTATTATTTCATCTTTTCCAGGATCTGTTTCCCCACAAGCTACTACAGTAGCACTTGATGAGGCTACAAGAGTAACTGCTCCTAATAAACTTAATAGTTTTTTCATCTTTTTATCCTTTTCTTAATACTTGTAGAACAGTTTAAGTCTATTACTATTATACAACTAAAAAATAATTTATTATCAATATTCAAAAGTTAATTAGTGTATAATAATAATTTAATTCACTTATAAAAGTACTATGTAAACTCAAAAGTGCAATTTTTATAGAGAATTTTATAAATAAAATTTTTATTTGATTTTAAACTTCTTCTAATTTTATTTTATTACTTATTGATTTCATTAAAATTAATTATATTTAATTTATTATTAAAAACAATTAATATAAAAAAATTCTCAATACATAGATAATATTAGAACTTTTTATTCTATATCTATATATTAAGAATTTTATATTAATCATTAATTTTTATTTTATGAAAATACAATTAAATCTTTCTTCAAACCCATTGTAGTCGGTCCTAATGCACTATAAAATAAATTATTTAAATTGATATAAAAATTCAAATATCCAAAACTTCAATAAATTGTACTAGTTTGATAAGCTACACCTGGTGACATTGGAAAAATATTATTCCTTGAAATTGAAATTCCTTTTTGTTCATCATAATGTTTAAAATAATTTGACCCTTCTAAAAAATTATACTCACCATTTAAATCAGTCCTTCTTTGAGAAAATTGAAACATTGTATCTGATGATAAATTTGCTAAATCAAACATTGATTCTCTATAACTTTCCAAATTTGTTAATTCGTTAGTTAAAGATAATTGATAACTCATGCTTTTTGAAGAACCATAAGTTTCAAAAGAATCAAACCTTAATTTGTTAGTAAATTCAGATCTTTTTAAGGCCATAAATATATCATCATCTGAATTAGCTTCTGGTACATATTCATAATCATAATCAACACCAAAAGTTTCATGAAAAGCTTTAATAGTTTTTACAGAAAACTCAGACATATCATCTAAAGTTTTATCTTCATTTTCACTTAAATCAATCATATAATTTACAGCAATTTTAAAATCTGGTAGTTCATGAACATACGCATTACTTCCCAAATTAATTGATAATCCCTTTAAATTAATATAACCCATTGCAATTGAACTTTTATATTCAGCACTATTTTTATAATCAACAAAATTTCCATTTAAAGTTTTTAAAAAATCTTCTTTTAATAAATTAAAATCCCTATCTCAAATATCTTTATTTTTTTTCTGGAAATATAGATTTCTCAAAGCTTGTTTTGGATTAGTAGTTTCGGGATTATTTCTAAAAATAGTTTTCATCATTACTTGACCATTTAAATCTGAATAATCATATTTAGTTGCCTCTTCATTAATACCACTTTTAACTTTATTAGTGCTAGTTAATAACGATGTTTCATTTAACTCTGCTCCTTTAAAAATTGATTCTTCTTCAAATACAATTGATAAAGAATCTAAAACATAAAAATATTTACTCTTTACAAATGAAATTATTGATTTTTCAAAACCGTTATTTTTTCTATCTAAATTATAATAATTAGCTAGTTCTCTATCAATTTTTCCATATCCATCTGATACTTTTTTAGAACCCATGATATCTTTTCATTTTAAATTAGTTTGTTTAACATCATCTTGTTTCTTTGAAGCGAAATAATCACTTGCAATATTTCTATAAAAAGTATCAGCTGAAGTTTTTAAAGCATCATTATCTGTTGATGTATATTTAAGAGTATCACCAATACTTAATGTTTCAATTTCTTTTTTTCCTTTATATTGTATTTCAATTTTATAGTCTAAAACCACATTACCCAAATACATTTCTTGACTATTATTAGAATTAATTTTTAATGTACTTCAATCAAAAACTATTCCCTTATATAAACTATTAACATCATTTAAAATAATTTTATATTCATTAATAGACTTTAATTTATTTAAGCTTTTTTCAAGATTTTCAATATCTAAAACTCTTATAATATCTGAACTTAATTGATTTAATTGATATTCACCTATCTGATCAAAACTTTTTCCTTGATATTTATTAATTGTTTCTTTATTTAAAAATTTATTATTAATTTCTGTAGCTGGTAAATTTATCAAATTTTGATAAACATTTTCTTCCAAATGCTCAGCAAAAATTTTATTAACTTCTTTTTCAAATTTTTTTATCAGGTCATTTGTTATTTTATTCTTTTCAGGTTTTGTGTCCCCACAAGCTACTACAGTAGCACTTGATGAGGCTACAAGAGTAATTGCTCCTAATAAACTTAATAGTTTTTTCATCTTTTTATCCCTTTCTTAATACTTGTAGAACAGTTTAAGTCTATTACTATTATACAACTAAAAAATAATTTATTATCAATATTCAAAAGTTAATTAGTGTATAATAATAAGTTAATCCACTTATAAAAGTACTATGTAAACTCAAAAGTGCAATTTTTATTTGATTTTAAACTTCTTCCAACTTCATTATTAATTTAAATACAATCTTTTATTAATTCTTGACTTTCATTAAAATTAATTATATTTAATTTATTATTAAAAACAATTGATATAAAAAAAATTCTCAATATATAGATAATATTAGAACTTTTTATTCTATATCTATATATTAAGAATTATATATTAATCATTAATTTTTATTTTATGAAAATACAATTAAATCTTTTTTCAAACTAGGCTGCATTGGTACACTATAAAATAAATTATTTAAATTGATATAAAAATTCAAATATCCAAAACTTCAATAAATTGTACTAGTTTGATAAACTACACCCGGTATCATTGGAAAAATATTATTCCTTGAAATTGAAATCCCTTTTTGTTCATCATAATGTTTAAAATAATTTGACTCTTCTAAAAAATTATACTCACCATTTCATTCAGTACTTCTTTGAGAAAATTGAAACATTGTATCTGATGATAAATTTGCTAAATCAAACATTGATTCTCTATAACTTTCCAAATTTGTTAATTCGTTAGTTAAAGATAATTGATAACTCAAGTTTTTTGAACAACCATAATTTTCAAAATAATCAAACTTTAATTTGTTAGTAAATTCAGAACTTTTTAATGCCATTAATATATCATCATCTGAATTAGCTTCTGGTACATATTCATAATCATAATTAACACCAAAAGTTTCATGAAAAGCTTTAATAGTTTTTACAGAAAACTCAGACATATCATCTAAAGTTTTATCTTCATTTTCACTTAAATCAATCATATAATTTACAGCAATTTTAAAATCTGGTAACTGATGAATATACGCATTACTTCCCAAATTAATTGATAATCCCTTTAAATTAATATAACCCATTGCAATTGAACTTTTATATTCAGCACTATTTTTATAGTCAACAAAATTTCCATTTAAATTTTTTAAAAAATCTTCTTTTAAAAAATTAAAATCCCTATTTCAAATATCTTTATTTTTTTTCACAAAATATTGATTTCTCAAAGCTTGTTTTGCATTAGAAGTTTCTGGATTATTTCTAAAAATAGTTTTCATCATTACTTGACCATTTAAATCTGAATAATCATATTTAGCTGCTTCTTCATTAATACCACTTTTAATTTTATTAGTGCTAGTTAATAAAGATGTTTCATTTAACTCTGCTCCTTTAAAAATTGATTCTTCTTCAAATACAATCGGTAAAGAATCTAAAACATAAAAATATTTACTCTTTACAAATGAAATTATTGATTTTTCAAAACCGTTATTTTTTCTATCTAAATCATAATAATTAGCTAGTTCTCTATCAATTTTTCCATATCCATCTGATACTTTTTTAGAACCCATGATATCTTTTCATTTTAAATTAGTTTGTTTAATATCATCTTGTACCTTTGAAGCTAAATAATCACTTGCAATATTTCTATAAAAAGTATCAGTTGAAGTTTTTAAAGCATCATTATCTGTTGATGTATATTTAAGAGTATCACCAATACTTAATGTTTCAACTTCTTTTTTTCCTTTATATTGTATTTCAATTTTATAGTCTAAAACCACATTACCTAAATACATTTGTTGACTATTATTAGAATTAATTTTTAATGTCTTTCAATCAAAAACAATTCCTTTATATAAGTTTTTAACATCACTTAAAATAATTTTATATTCATTAATAGCCTTTAATTCATTTAAACTTTTTTCAAGATTTTTAATATCCAAAACTCTTATAATATCTGAACTTAATTGATTTAATTGATATTCACCTATCTGATCAAAACTTTTTCCTTGATATTTATTAATTGTTTCTTTATTTAAAAATTGATTATTAATTTCTGTAGCTGGTAAATTTATCAAATTTTGATAAACATTTTTTTCCAAATGCTCGGCAAAAATTTTATTAATATCCTTTTCAAATTTTTTTATCAGGTCATTTATTATTTTATCCTTTTCAGGTTTTGTGTCCCCACAAGCTATCACAGTAGCGCTTGATGAGGCTACAAGAGTAACTGCTCCTAATAAACTTAATAGGTTTTTCATACTTTTTCCCCTTTATAATTCATTTGTCTTGAAATTTTTAAATTATAAATATTATAACTTAAAATTACTTTATTTTCAATATTTAACACTAAATAAGTGTATAATAATTTCTTAATGAAATTATAAAAGTACTATGTAAACTCAAAAGTGCAATTTTTATTTGATTTTAAACTTCTTCCAACTTCATTATTAATTTAAATACAATCTTTTATTAATTTTTGACTTTCATTAAAATTAATTATATTTAATTTATTATTAAAAGCACTATATAAAAAAATTCTCAACAGATAGATAATATTAGAATTTTTTTATTCTATATCTATATATTAAGAATTTTATATTAATCATTAATTTTTATTTTATGAAAATACAATAAAGTATTTTCAGTCACCAATTGCTAAATCTGAAGTAGCATTCATTATCCTATCTAAATTAAAATTAAAACTTAAATACCCAAAAGTTCAATAAAATGATTGGCAATCATCATCATTTGGTTGTGCGCCATCATTATGATGAAAAAGTTGAATCCCCTGTTCATCAGTACCTTTCCCTCATTTTGATTGTCCTAAGAAATGTTGTGCTACGTGCAACATAGAACTTTGTCTTTGAGAAAATGTAAAGAATGTATCTGATGGTAAATTTGCTAAATCAAACATTGATTCTCTATAACTTTCCAAATTTGTTACATCGTTAGTTAAAGATAATTGAGCACTCATTGCAGTTGAACTTGACCTAAAGCCCTGAAATTCTATTTTTTTAGTAAAATCAGATCTCTTTAATGCCATTAATATATCATCTTTTGAATTAGGTTCTGGTTTATAACCATAATCATAATCAACACCAAAAGTTTCATGGAAAGCTTTAATAGTTTTTACAGAAAACTCAGACATATCATCTAAAGATTTATCTTCATTTTCATTTAAATCAATCATATAATTTACAGCAATTTTAAAATCTGGTAACTGATGAATATAAGCATTACTTCCCAAATTAATTGATAATCCCTTTAAATTAATATAACCCATTGCAATTGAACTTTTATATTCATCACTACTTTTATAACTTTCAAAATTCCCCTTTAAAGTTTTTAAAAAATCCACTTTTAATAAATTAAAATCCTTATTTCAAATATCTCTATTTTTTTTCTGGAAATATAGATTTCTCAATGTTTGTTTTGCATTAGTAGTTTCTGGATTATTTCTAAAAATAGTTCTCAACATTACTTGATCATTTACATTTGAATAATGATATTTAATTGCATCTTCTCTTAAATAAGATTTCATTTTATTAGCGCTAGTTAATAAAGATGTTTGATTCAACTCCGCTCCTTTAAAAATTGATTCACCTTCAAATGCAAGGGGTAGAAATTCTAACTTAGTAAAATATTTGCTCTTTACAAATGAAATTATTGATTTTTCAAAGCCGTTAGTTTTTCTATCTAAATCATAATAATTAGCTAGTTCTTTATCAATTTTTCCATATCCATCTGATACTTTTTTAGAACCCATAATATCTTTTCATTTTAAATTAGTTTGTTTAATATCATCTTGAGCCTTTGAAGCTAAATAATCACTTGCAATATTTCTATAAAAAAGATCAGTTGCAGTTTTTAAAGTCGCATTATCTGTTGATGTATACTTAAGAGTATCACCAATATTTAATGTTTCAACTTCTTTTTTGCCTTTATATTGTATTTCAATTTTATAGTCTAAAACCACATTACCCAAATACATTTGTTGACTATTATTAGAATTAATTTTTAATGTACTTCAATCAAAAACTATTCCCTTATATAAACTATTAACATCATTTAAAATAATTTTATATTCATTAATAGACTTTAATTCATTTAAGCTTTTTTCAAGATTTTGAATATCTAAAACTCTTAAAATATCTGAATTTAATTGATTTAATCGATATTCACCTATCTCTTGAGCACTTTTTCCTTGATAATTATCAATTGTTTCTTTATTCAAAAATTGATTATTAATTTCTGTAGCTGGTAAATTTATTAAATTTTGATAAACATTTTTTTCCAAATGTTCAGCAAAAATATTATTAACTTCTTTTTCAAATTTTTTTAGCAGTTCACTTGTTATTTTATCTTCTCCAGGATCTGTTTCCTCACAAGCTACTACAGTAGCACTTGATGAGGCTACAAGAGTAACTGCTCCTAATAAACTTAATAGTTTTTTCATGCTTTTTTCCCCTTTATAATTCATTTGTCTTAAAAATTTTAAGACTATTAATATTATACCTTAAAATTGCTTTATTTTTGAGATTTAACACTAAATAAGTGTATAATTAATAGTTAATGAAATTATAAAAGTACTATGTAAACTCAAAAGTGCAATTTTTATAGAGAATTTTATAAATAAAATTTTTATTTGATTTTAAACTTCTTCTAATTTCATTATTAATTTAAATAAAATATTTTATTTTAAGTCAGAACACCAATATTTTATTTTATTAATTCTTGACTTTCATTAAAATTAATTATATTTAATTTATTATTAAAAGCACTATATAAAAAAATTCTCAACAGATAGATAATATTAGAATTTTTTTATTCTATATCTATATATTAAGAATTTTATATTAATCATTAATTTTTATTTTATGAAAATACAATAAAGTATTTTGAGCCAGCAAGTGGTAAATCTGAAGTAGCATTCATTATCCTATCTAAATTAAAATTAAAACTTAAATACCCAAAAGTTCAATAAATTGATTGGCAATCATCATCATTTGGTTGTGCGCCATCATTATGATGAAAAAGTTCAATCCCTTTCCCCTCTTCATTAGTACCTTTCCCTCATTTTGATTGTCCTAAGAAATGTTGTGCTACGTGCAACATAGAACTTTGTCTTTGAGAAAATGTAAAGAATGTATCTGATGGTAAATTTGCTAAATCAAACATTGATTCTCTATAACTTTCCAAATTTGTTAAATCGTTAGTTAAAGATAATTGAGAACTCATTTGATGTGAACTTGACCTAAAGCCCTGAAAATATATATTTTTAGTAAAATCAGATCTCTTTAATGCCATTAATATATCATCTTTTGAATTAGGTTCTGCTGTATAACCATAATCATAATCAACACCAAAAGTTTCATGGAAAGCTTTAATAGTTTTTACAGAAAACTCAGACATATCATCTAAAGCTTTATCTTCAGTTTCATTTAAATCAATCATATAATTTACAGCAATTTTAAAATCTGGTAACTGATGAATATATGCATTGCTTCCCAAATTAATTGATAATCCCTTTAAATCAATATAACCCATAGCAATTGAACTTTTATATTCATCACTACTTTTATAACTTTCAAAATTCCCCTTTAAAGTTTTTAAAAAATCCACTTTTAATAAATTAAAATCTTTATTTCAAACATCTTTATTTTTTTTCTGGAAATATAGATTTCTCAAAGTTTGTTTTGCATTAGTAGTTTCTGGATTATTTCTAAACATAGTTCTCAACATTACTTGATCATTTACATTTGAATAATGATATTTAATTCCATCTTCTCTTAAATAAGATTTCATTTTATTAGCGCTAGTTAATAAAGATGTTTGATTCAACTCCGCTCCTTTAAAAATTGATTCACCTTCAAATGCAATCGGTAAAGAATCTAAATCAGAAAAATATTGACTCTTTACAAATGAAATTATTGATTTTTCAAAGCCGTTAGTTTTTCTATCTAAATCATAATAATTAGCTAGTTCTTTATCAATTTTTCCATATCCATCTGATACTTTTTTAGAACCTCTGATATCTTTTCATTTTAAATTAGTTTGTTTAATATCATCTTGAGCCTTTGAACCTAAATAATCACTTGCAATATTTCTATAAAAAAGATCAGTTGCAGTTTTTAAAGAATCATTATCTGTTGATGTATATTTAAGAGTATCACCAATACTTAATGTTTCAATTTCTTTTTTTCCTTTATATTGTATTTCAATTTTATAGTCTAAAACCACATTACCTAAATACATTTGATGACTATTATTAGAATTAATTTTTAATGTATTTCAATCAAAAACTATTCCTTTATATAAGTTTTTAACATCACCTAAAATAATTTTATATTCATTAATAGCCTTTAATTCATTTAACCTTTTTTCAAGATTTTCAATATCTAAAATTTTTATAATATCTGAATTTAATTGATTTAATCGATATTCACCTATCTCTTCAAAACTTTTTCCTTGATATTTATTAATTGTTTCTTTATTCAAAAATTGATTATTAATTTCTGTAGCTGGTAAATTTATTAAATTTTGATAAACATTTTCTTCTAAATGTTGAGCAAAAATATTATTAATATCCTTTTCAAATTTTTTTATCAGGTCATTTGTTATTTTATCCTTTTGAGGATCTGTGTCCCCACAAGCTACTACAGTAGCGCTTGATGACGCAACAAGAGTAACAGCTCCTAATAAACTTAATAGTTTTTTCATGCTTTTTTTCCCCTTTATAATTCATTGGTCTTAAAATTTTAAGACTATAAGTATTATACCTTAAAATTACTTTATTTTCAATATTTAACACTAAATAAGTGTATAATATTATTTCATTAAGATTATAAAAAACTAACTTTGCATCAATTTTTTACTTTCCAAAGCTTTATGAATTGATTCCATATTTATTGGTAATTTAACTAAATTTTTTAAAGGCAAATTATTTTTTATTAAATATAAAAATAGAAAGTTAATTTGTTTAAAATTTTCAATTGCTACTACTAATGAGTTTTCATCTCTATCAAATTTAAATGCTTTAATCCCATATTCTGATAAAAAAAATCTAAAATTTTTATGATTAAATCTTTCATTGATGTATACTTTATATTTTGCATAAATATCTAATTCTTCAGCAGAACCATTAAAAACATTTTCTCCATTATCAATGATTATATAATCATCAATTATATCTGCAATTTCATCAATATTGTGAACAGTAATAATAACTGTTTTATTTTGCTTTTTATATTCAATCAATAAATTTTTTATTTTATTTCTTCAATATGAATCTAAATTTGCTCCTGGTTCATCCATAATAATAATTTCTGGATCTTTTATAAAACACAATATTAAATTCATACGATTTTTCATTCCTCATGAAAAACTTTTAATTGACTTATTTCTTGCTTCTCATAGATCAAAATATTTCATTCAATTTTCAATTTTCATTCTTACATTTTTTTTGTTTAAACCCATCATTATAGAAATATCTAATAAAAATTTATATGCTGAAACATTATAAAGAGAAAAATCCATTTGAGTATAATAACCTATTTTTTTATTTACTTTAAAATATTTTAAAGATTTTCGATTTATGCCCTCAACAAGTATTTTTCCATTAAAATTTTTAATCATTCCTAATAATGAGTTTAATATAACAGTTTTTCCACTTCCACTGCTTCCAAGTAGAGCAGTTATTCTTGCTTTCTTAATTGAACAATTTAAAGGTCCAATAAGTTTTTTCTTAAATTTTTTCAAATAATTATCAAATTGTATAATATCTTCCATAGAATCTCCTAAGCTGTTAAATCTAATTTTTTAAATTTATTTTTAGCAATATAATAATTAATAACAGTAAAACCTAACTGTAATAACACATAAAAATATGGTGCTATAAAATTATCGTAAGTATTTTCATTTATTTCATCTTCACTATTTAACTTGAAAATATATGTAGGCTTTGCAATAAATAAGTTATCTTGTTTATCAAAAAATATTTTACTTGAACTTTCTGGTTCAAATCAAATATCTTTTCAAGACCTTCCCCCATAATAAGTATAATTTTGTAGCATATTTGAAATGAAGTTAAATTGAAAGAAAACATTATAAGTAATTCTAGATTTTAAATAATTTGATCAGTTTTCATCTTTTATAACAGAACCATTATTAAAAATAACTAAATTATTAGTATATCTTATAAAATACTGTTCCAAAATTCTAGCACTTAACATTGTTGGAGAAAATAATTTTTCTTCTATTATGGGTCTAATTTTTGAAGATTCTAAACTTAATTTATTATTTGAATATGAGAAATAACTTTGATAAATATCTACTAAATATTTTTTGTCAAATAGTAAGTTTGGTTCTGATGAGCTAGAAACATTAGAAATATAATTTTTTCTAATATTTTGTTCATCTTCTAAAATAACTAAAGGATCAAATAAATTAGAAAACGTTTCTTGAAAATTATCATTTATGTTTATTATAAACTCTGTAAAATCTATAAAATCCTTGACAAAAAGTTTTTGTTCGTCAGTTAATGATTCCGATTCTAACTCATTTTTTAATTCATCAATTGTTAAAAAATTATATGCTAATTGAAATGAAAAAGTAACTTGATCACCTTTTCATTTAGCAATATTTGTACTGTTATTAACAGTAACTATTTTTGTAGGCTGTTTTAATTCTACTACTGTATTTTTCTTTTCAGCTATTCCCATTTCAGTTCAGAATTCCATTCTTTTTTGAATGTTTTTTTCGTTATTAAAATTAGTCTCAATAGCATTTGGATCTGTTTCAAATTCATTATTTATAAAATTATTATATATTTCAAAACTCAAATTTGAATATCTAATTTCCTTGTTTAAAATTTGTTTTTTCAAATTATAACTATCATAAATTTCATTTACTGACATACTAGTATTTGAATTTTTATATAAAAAAGTAATCTTTTTACTTTGACTTTCTTCAGATTGAATCAAAAATGTATAAGGTAAATTACTAATAAAAGTAGCTGATAAAATTAATGTCGCTATAATTGTTGAAACTTGAATATTTGATAATAAGGAAATTAATAAAAAGAAATTAATAAGAAATACACAACTAAGAAATGCATATATTAAATATACTGTTGTTAATCTCAATAAAAATAAATTTGCCTTAAAATTAACAGCCATATTTATAATGTTAATTAATAAATAGCTTATAAATATATTTATAAGCATTAATAAAATAAATGAAATAAATTGGAAAAGAAATAATTTTGACCTTGATAATTGTTGAGTAATTATTATATTTAAAGTTTTATCATCTCTTTTTACAACATAAAAATATTGTGTTAACCTTAAACAAAGAACAAATAAAATTACAAATATTGATAAGATAACATAATAATCAAATACTTGCAGAAAATTACTATTGTTCTTTTGAATTAGAGAATAACATGCTATAAAAAGAGAAAATAATAAATATAATCCGTTAAATATTAAAAATGATTTTTCTTTAATAATTGATTTAAAACTGTACTTTATTATTGAAAATCCTGGTATTATACTTTTCATAGTTTTAGAGAAAGTAATAAAATTAAACTAATAAATTTTATTACTAATACCTATTCTATTTAAAAAATAAACCTTTGTACAAAAGTTACTAGTTTAATTAAATCAATCTTAAAATCTAAATCAGAATTTATTTTAAGTTTTACTATTTTTAATGCTTTATTCATTTTTTTTACCCTTTATTTTTTCCCTTTACAATTCAACAATAATATAATTATACATAAAATAACAAAAAAGTGTAGTATTTGTATTTAAAAAGCTAATTTTAATTTTTTAAATATTTTACTTCTTAAAAACTCCTAAAAGAATAGAATAAGCTTTAGAAAATAAAAAAAACTGTTAACAAATATAAATATTAGTTAACAGTTTAAGTAATTTTTAAAAATCAAAATTATCTGGGTCTGGTCCAACTCTTTGTTGTTTTATTGTTCCTATTAATTGAATATCTTCATTAGTTAATTCAAAATCTTCAATTTGAATGTTATCAATTACTCTAACTGGTTTAGAAGATTTTGGTATTATTATATAACCTAATTGCAATGCTCATCGTAAACAAATTTGAGCCTCTGATTTATTATATTTTTTAGCCAATAATTTAAGTTCATCTACTTCAAAACATTTTCCTCTAATCATTGTTCCCCATGATTCAACTAAAATATCATTTGCTTGGCAAAATTTGACAACTTCTAAATTTTGCAAAGCAGGGTGCAATTCTATTTGATTAATTACAGGTTTAACTCGGCAGTTTTCTAATAATTCTTTTAAATGATGTACTTGAAAATTACTTACACCAATTGATTTAACTTTTCCTTGATCAAGTGCTTCTTCTAAGGCCTTTCAACATTCTAATCTATCTTCTGTTGGTCAATGAATTAAAAGCAAATCAATATAATCTATTTCTAATTCTTTTAAGATTTCATCAATTGCTTGCTTTGCTTGTTCATATTTACTATGTGAATTTCATACTTTTGAAGTAATAAATAATGTTTTACGTTCAACACCACTTTCTTTAATTGCTTGAGCAATTATTTTGTGATTATTATAAATAGATGCTGTATCTATATGTTTATATCCAGCTTTTAAAGCAGCTTTAATAGATGCAAGTGTTTCTTGTTCATCCACTAATTCATATGTTCCTAATCCTATTTGCGGTATTTCTAAACCATTATTAAATTTTAAAGTTTTATTGAGTATTTTATTCATTTTGTTCTCCTTTACTCAATATAATTATATTCTTTTATTATTAAATAATACTTTATTGTATAAAACCTTTAAACTAGAAAAAACAATTTTCCTTTTAAATGAATCTAGATATTAATTTTATAAATAACATCATTTGCTTTATTGATAAAATCTCAATTATTGCTCAAAATAATTATCTATCCTTTTCTTTATTAATAAAGTTGTTAAAGGTGCATTTAAAATACTTAGTAATATTTACTAAGTATTTTCTAAATATTTTAATTTTTATAAATAAAGCAAATTTAAACTCATTAATCTATATTGTTTCCATTAGAAGCAATTACTTTTTGATATCAATAAAAACTATCTTTTCTATAACGTTTCATATCTTTTAAGTCAAATTCATCACGATTTACATAAACAAAACCATATCTTTTTGATATCCCCTGATGTGTTGAAACTAAATCAATTGCACTTCAAGGGTTATAACCAAATAACTTAACACCATCATTTATAATTTTTGGTATTTGTTCAATATGCTTTCTTAAATAATCAATACGATACTTATCGTGAATTTTACCCTCGCTTGTTAATACATCTTTTGCACCCAACCCATTTTCAGTAATTATTATTGGTAAATTATATCGATCATGCAATGCTCTTGCAGTTAATCGAAAACCAATAGGGTCAATTTCTCAACCATACTCACTGACTTGCAAGTTATCATTTTTTGCTGATTGAAACATATTTTCTAAGTTAAACCCCATTTGTTGATCTCCTACTTTAAAATCTTGATCTTTAGTTGGAGCTTTAACACTCATTGAACTATAGTAGTTAAATGCAATAAAATTAATTTTAGCCTTTTTAAATAACTTCATTTCTTCTTCAAGAATATCAATTTTATAATTATTTTCTTTTCAGAAATTTAATAAAATTTGATCATAACCTCCTTTAACAAAGGGATCTATATAGATTCAATTTCGAATTAAATTAGCATTATGAGCTGCTAATACATCTTCAGGTTTATTGGTTTGAGGATAAACTAAAGAGATATTTGGAGCTACTCCAATTTTTGCTTTTTTATTAATGGTTTTTAACAAAAGAATAGCTTTTGCTTGAGCAACATTCATATTGTGAAACATTTGATATGATTCTTGACCATTATCAACTCCTGTAAATTGTTTTGACAATAAGTGACCAAACATAACTACCATATTTTGCTCATTTATTGTTTGTCAATATTTAACCTTATTTTTATATTCATTAAATAAGGTTTTTGCATATCTTAAATATGCATCAACTATTAGGTCCTTATTTTTTCATCCCCCTTGTTCTTCTAAATAATTTGGTAAATCAAAGTGGTGAATTGTTACAAGTGGTTCTATCTTATGTTTAATCAGTTCATCTAACAAGTTATGATAGAACTCGACACCTTTTTGATTTGGTTCTTGTTCAATTCCTTTTGGATATATTCTAGTTCAATTAATTGAAAAACGATAAGATTTAAAACCCATTTCAGCCATTAAAGCAATGTCTTCTTTATAATGGTGATAATGATCTGATGCCACTTTAAAATCAGTAATATCTTCAACATTTAATCCCTTTATAAAACCCCCTGCACTAACGTCTTGAACTGATAAACCTTTACCATCTTTATTTCACGCTCCTTCAACTTGATAAGCACTTGTAGAAGCACCTCACAAGAAATTTTTTGTTATTTTATTCATACATTATCTCCTCTTTTTTTTACTGTCTAATTCTTTTTTTACTAATATAGAAATCTTTTTGATCAATTAGCATATAGCCAATTTCTAAAGCATTAATTGCGTTGTAATATAAATCTCCAACTTCTGTTAATACTTTACTATCAGCTTTTTGACTTACTTGTAAAATAACAGAGTTAATTGCTTGATAAGATTTTTCTTTTCAATTATTAAACTCAATAATTGATTTCTCATTTTCAGTTTTTGTTTTAGCTAATTCTTCACTCAATTCTTTAACTTTTAAATTATTTTCTAAGATACTATATTTCTCTAATAATAATTTTAATTGTTCCTCACTAGCTTCTTTTTTTGAAAGTCTTGCCAACTTAGAAATAATACTTTGTTTTTTCTTTTCAAGTTTTGAAGTTAAATTATCAATTTTAGATTCTAGTAAATTAATTTTAATAAAAACTTTTTCAATTTCTTTTGAACGTATTGAATCTTCAGTTTTGATTACAGAATCTATTTTTTTAATTTCTTCTGCTAATTGTGTTTTTGCAACATTTATTTTTATTTTTTTAGCTAAACTATAGTATTTTAAAAGTACTTTATTTGCTGATTTAACAGATTTTATTTCATCTTTTCTTTCAACATACATTAAGAATCCTACCCCAGCTGCTGCTGGAATAACTCCAATATTAAGAACAAGTCATAAAACACAATTTAAAATTGCTGAGTTAGGCCCCCCAATAAAAATATTATTTGCAGAAGGCATTAATCTAACACCATTAACAACAGTTTCAACATATCTTGGTTCCATTAAAGTACCTGTAAAACCAAAGATTCCTAACCCTCCACTAGTTCTTGCTTCAATTCCCATTAAGCCAGATAATAGCCCAAAAGCACCTGCTGCAATTACACCAGCTATAAATGGTCTCATTTTTGGTAAGTTGATTCCATATAATATTGGCTCAGTTACTCCAACAATTCCTCCAGGAATAGCTGCAATAACAGTTGATCTTAATTGACCATTTTTGGTTCTAATTGCCACCCCAATTGCTGCACCTACCTGAGCAAATACTGCAATATTAACAGCCATTAAAGTTGAGAAGTGACCCGCTGCCATTGGCATAACGACTGTCATAATTACAGGAACATGCATTCCTGTTAGAACTAATGGTTGTCAAGTAGCAACGAAAATCATTACTCCAATTCCATAAGGAATTTGTGATAAGTAACCAACTATTAAAGCCATAAATTGCTCTATTAAAAATAGAATTGGTCCTAAGACAAAGAATATTGAAGTGTAAGCAATAATAACTATTAATAAAGGTCTAAATAAAACATCAATTGAAGTTGGCATTCATACTTTTATTCATTTATCTAAATGAAAGATAATAAATGCCATTGCAACATGGGGAATAATCGATGAAGTATATAAGGCTGCTTTTACAACAAAACCATTAATACTAAATAATGTTAAATCTGGTTGCATCCCTAACCCCAATGGTGCACCCGCAATTAATAATGAAAGTAACAATTGCATTATTGTTGGACCACCAAGTCATTTCATTGTATTATAACCAACAAAAACCCCCATTAATTTCAATCCAGTTTCTGCAGCAATATTTATAAATAGTGAAAATAAATCAACATTCATATCTATTGGAGCACCCGTACCAAACTTCATATCAGTAATTACATTTCCCATTACCAATAATGTTTTAAGTCCCATTAATAACCCTGATGCCATTAAAACAGGCAATGATGGCATAATTATGGCTCCAACTGCAATCATAAATCTTTTAATCAAACTTTGTTTAGTTACAGTTTTAACTTGACTCTTATTGGTACTAATACCTTGAGCAACGTTTTCAACAGCTTCTTTGACTTTATAAACTTCTCCTCCAATAACAATTTGGATTTGATTTCCAGCTCAAATAATACCCTTAACTAAATTAATATTTTTAATTGTCTCAACATCTACTTTTTTTGTATCAAGCACTTCAAAACGTAATCGAGTCATACAATTATAAACTTGTTTATAATTGTCTTTTTTCCCTACTGCTTTATATATTACTTCTGCAGCTTGTTCATATTTATTTTTAGTGTTTAATAATTTTTCAACTTGGTAAATTGTTGACTCTTCAACCATTTTTTCTTCAAAAATTAATTCACCAATTAGTTCACCTTGTTTTATAATTTTTTCACTTTTGATCTTAGAATTAAATTTTCATCCCTTAAATTCATTTAAATCAATTACCAAAGGTGTAGATTTGACAATATTTTTTTCATCTAATAATTTAAAATCAACATCTACAATTTTTGTTTTTAAATTAATAGAGTCACCTTCTTTGACTTTAACGTCAAATGGCTTTCCTTGTAAGTGAATTGTATCAAGACCAATATGCATAAGAATTACAGGACCTTGTTCACTTTTAAAATGAAAAGCATGTTTAGTGTGAAATATTTGAGCAACTGTTCCTTCTTCAAATGGCGAATAAAATTCGCTTGAAGTTGGTTCAATATAAACTCCTTCTCCCAACATATTTTCAGAAAATACGCCATCATTTAAATCTTTTAAAGGCTTAATTTTCCCATCTGCAGGAGAATAAATTTTAATATTTTTTTCCATTTATGAAATCTCCTTTCATAAAAAGAATACAATTATTAAAAATAATATATATAGAAAACAATTAAGAGTAATCTACTTTCCTTTTAGTAAATTAAATACTAATTAATTACAAAGTTGCAAAAATAAATATTTTAAAACAAAGCTTCTATATTCATAGAGATGTTTTAAATTTTTTGAATCTATGCATATAATTCTATCTTTATGTGTAAATTCATTTACTTTTGAGTGAGTACTTAGTACTAAATAATTAGTATATAAAAAATTATTTAAAAGCATCTCCACAGTTTTGGTATCTTGTCCTCCTACAATAAAAATAACAAAATCTTTTTCATCAACCTTATTTATTTCAGTAATTTGATCAAACATTTGAGTAGAAAAGAAACATTCCTTAGCGTTTCTCTTTAATAATTCAGAAAAAAATAAGGCGTCAAATTGAAATTGATATGAAGAAAAAAGATAAATTTTTTTAGATTTTTTTATTTCTTCTTTTGTTTTACTAATTTTATTTTCAAAATAGCGAAATTCTCTTATGGCAACAATTATATTTTCTTCAAATTGAGAATAACTCCTATTAGATATATTTAAATTTTGTTTAGTTTCACGATCAGATATTTCTAATTTTAATTTAAAAATTAATTCTCTATATCCTTTATAACCAAGAGAAATTGCAAACTTAGATATTGTTGATTCTGCTACATTTGCAGATTTTGATAAGTCTTTGATACTAGGTATAGATTTTGTCACAAATGATTTCATTAAAATTTTTGAAATGGCATTATTTGCTGAATTCGGGTTAATATTCATATTAATAAACAATTGATTTAACACTGATTTCATAAAATATCTCCTTAACCTAATTATGTTTAAAAAAAAAAAAAAAAAGCAATAAGTACATAATAATAAAAAATAAAAAAAATCTCTAATAAAATGAATAACTATAGTATTATTCATTAGAGATTTTTTTACTAATATTTTAAAATAAAAAGCATTAATTCAATATATTTAATTTTTTATTAATGCGTATTGTTTAGTATTATTTATAATATACTTTTTACTATATGAATTTAATCAATTCTTTATTTCCAACTTCTTTAGCTCCTAAAGTAATTTGATCTAAATCTATATGGAAATTTAAATAACCTAATTGAAAAGTCATTATTCTATCACTTCTATTGCCAGAAATATCACGTCAACTTATATTAATACCAACTTTTTTATTTGCTTTTCAAAATCAATTATTATAAACTCAAATCGTTTTTTTAGCTAAATTTGAAAAACCGAAAAAATACTCACTATCAGGAAGTTTTGCTTCATCAAACATTTGTTGTCTATAGAAACCTAAATTTTGAGAATCAAATAAACTAAAAGTTTTAACAAAATCTCCAGAATTATCATGTCCGCTATAAAATTTATCAACAATTGCATCAGTCAATTCACTTCTTTTTAAAGTCATTAAAAAGTCATCTTTTGAATTATATTCTGGATATTCATATGCATGAGAAACTCCAAACATTTTATGAAAGGCTTTTAAAGTATCTACAGTAAATTCAGATAATAAACTTAAATCCTTTGAAGGAGTTTGATCGTCACCTATTAAATAGTTAATAGCTATTCTAAAATCTGGTAGTTCATGAATATAGCTTCCCTCTGCTAAATTAATTGATAAGCCAGTTAAATTAATATAACCTAAATTAATTGATTTTTTATACTCATCTGTTTCAATAAAATTATCTTTTTCTTTATCAATTTTTAATTCTTTTAAGAAATTATCTTTTTGAATATCAAAATTTGTTTTTCATATTTCATAATTTTCTTTTGTAAAGTAGTAAGTTGATAAACTATTCTTTGTTTCTGGAAGATTTGGATCTTTTCTAAAAACTGTTTCTAGAAATAATCTTCCCTTATCATTTTTATAGTCAAATTTTATTGAATCCTCTTGATTATAAAAAGTTTCTCACTTATTTATTGTTTGCAAAAGTGAATATTTTTTCATTTCAGATGATTTATATATTAAGTCTCCTTCAAATGAAAGTGGTAAAGTATTTCCAACTTTTTCAAAATAATTGCTTTTAATGAATTCAATCATAGAATCTTTAAATCCATTTGTATTAGAATCAATTTCAAAATACTTTTCAAATTCTGATTCTACAATTCCAAAACCATCATATTCTTTTTTACCAGTAGAATTTATATTATTTCATTTTATATTTGTATGTTTTCTATCTTCTGCTTTACTAGACAAAAAATAATCTTTTGCAATATTTTGATAAAAATCATCACTTGCTACTTTTAGAGCAGTATTGTTAGTTGATGTATACTTCATATTATTGCCTAATTCAAAAGATTCTATATCTTTTTCACCTTTGTAATTAACTACAATTTTATAATTAACAATTACATTTCCCAAAAATATTTCATCTTTTTTAGTTTCTGCTTCTTGATAAGATTTAATTACTAAAGAATCTCATTCAATTATTAAATTTTTAAATAAATTATTAACATCATTTAAAATAATTTTGTATTTATTTATATTTTTTAATTTATTTAATTCTTTTGTCAAAATATCAATATCCAAAACATTTTTAATATCATGTTCAAGTTGCTGTAAATCAAACTGATCAATTTCACTTGCTTTTGCACCAGTATATTCAATTATTTTAGTTTGATTTAAAAATTTGTTTTTTATTTCTGTGTCGGGTAATCCAATTAAATTTTTATAAACATTCTCATCAAGATGCTTTTGAAAAATATTTTCTACTTCTATTTTAAACTCTTTAATTAAAGCCTCATTATTTATAATTGGATCTGGTGGTTCTGTCTTTTCACCACAAGCAACTACTGTTGCACTACTTGTAGTTACAAGACTTATAGTACCCAGCAAACTTAATAATTTTTTCATATTTTATTCCTCACTTTTTTTAACTTTATTTTTATTCTTTTGCTTCTAAAGCTTTATAAATTGATTCCATATTAATTGGTAATTTAACCAAATTTTTTAAAGGTAAATTATTTTTAATTAAATATAAAAATAAGTAATTTATTTGTCTATAGTTATCAATTGCTACTACTAATGAATTTTCATCAACATCATATTTAAAAGTTTTTATTTTTTGTTCTTCTAGAAAAGTTCTAAAATCTTTTTCATCAAATTTTTCATTAATATAAATTTTATATTTTGCATAAACATTTAATTCTTCAGCAGAACCATTAAAAATATTTTTTCCATCATCAATTATTATAAAATCATCAATTATATCTGCAATTTCATCAATATTATGAACAGTTATTACAACAGTTTTTCCTGCTTTTTTTGCTTCAACTAAAAGGATTTTAATCTTATTTCTCCAATAAGAATCCAGATTAGCTCCTGGCTCATCAAGAATAATAATTTCTGGATCTTTTATAAAACATAAAATTAAATTCATACGGTTTTTCATTCCCCATGAAAAACTTCTAATAATTTTATCTTTACTATCTCAGATATCAAAAAATTTCATTCAATATTCTACTTTAGTAACTGCTTCCTTTTTATTAATCCCCATCATGATACAAATATCCAATAGAAATTTATAAGCACTTACAACATATAAAGAAAAATCCATTTGAGTATAATATCCAATTTTCTTATTTACTAAATAATATTTTTCTGATCTTCTTAAACTATCTTCAATTTCAATATTTCCTTTAAAATTTTTAATTATTCCTAATAAAGAATTTAAAATTACAGTTTTTCCACTACCACTGCTTCCAAGTAGAGCAGTTATTCTTGCTTTCTTAATTGAACAATTTAACGGTCCAATTATTTTCTTTTTAAATCTTTTTGTATAGTTATCAAATTTTATAATTTCTTCCATTTTTAGTTAACCTGTCAAATCTAATTTTTTGAATTTATATTTTGCTACATAATAATTTATTACTGATATTGCAAATTGCAATACAATATAAAAGTATGGAGCTATAAAATTATTATATGTTTTATCATCAATATTATTTTCTTTATCAAGCTTAAATTTATATGATGGTTTAGCCATAAACAAATTATCTTGTTTATTAAAAAATATTTTACTTGAACTTTCTGGTTCAAATCAGATATCATCGTAATTTCTACCACCATAATAAATATAATTTTGAATCATATTTGAAATAAAATTTAGTTGAAAAAATATATTATAAGTTGTTCTTGACTTAGAATACATATTTCAATTTTCATCTATTATTACAGTACTATTTTCAAAAATAACCATGTTATTTGTATAACGAATAAAATAGTTTTCTAAAATTCGAGCACTTATCATTGTAGGGAAAAATAAATCTTCTTCAATTAGAGTTTTAATTTTTCCACTTTCTAAAACTAATTTGTTATTTGAGAAAGAAAAGTAACTTTGATATATGTCAATTAAGTTTTTAGTATCAAATAATTTCTTTTCTTCATTAGGCTTTGTTACATTTTCAATATAATTTTTATTAATATTTTTTGCATCATTAAATATAACAAAAGAATCAAACAAACTGTAAAATTTATCTTGAAAATTATTAAAGTTATCTAATATTGAGTTTGTAAACTTAATAAACTCTTCAATAATAATTTTTTCTTCTTTATCAAATGATTCTAATTTTATCTTATTTTCTAATTCCTCAATTGTTAAAAACTTATATTTTAATTCAAATCTAAAAGTAACTTCATCGCCTTTTCACTTTGCAATCTCTGTATTGTTGTTAGCACCATTTATTTTAGCAGGGTTTTTAAACTCCACAATTTTATTTTTTTCTTCGACAATTCCCAAGTCTATTCAAAACTGCATTCTCTTTTGAATATTTTTTTCTGTATCAAAATTATTAGTCAATGAGTTTGGATCTGTCTCATATTCATTTTCAATAAAACTTTCATAAATAGCTAAACTTAAATTTGGATATTTTAAATTTTTATTCAAAACATGGTTTTTTAAATCATAGCTATCATAAACTTCATTTACAGAGAAAATTGTATTACTTCCTTTATATATTAAAGAAATTTTTTTACTCTCTTCTCCTTGAATTAAAAATGTATATGGAAGATTACTAATAAAAGTACTTGCTAGTATTAAAGTAGCTACAATTGTAGAAACTTGAATATTAGTAAATAAAGAAATCAATAAAAAGAAATTAATTAAAAAGAAACAACTTATAAAAGCATATACTAAATAAGTTGAAGTAATTCTTAATAAGAAAAAATTAAACTCTAGTAAAAATAGCATATTTATTACATTTATTAATAAATAACTTATAAATAAATTTATAAAAATTAATAATATGAAAGAAATAAACTGATAAAAAAATAACTTTTTCCTTGAAACTTGCTGAGTAATAATTATATTCATTGTTTTATCATCACGTTTAACTACATAAAAATATTGAGTTAATCGTAAGCAAAGAATAAACAATATAACAAAAATAGTTAATAAAACATAATAATCAAAAATCAATAAAAAATTACTAATATTTTTTTGAATAACTGAATAAATTGCAATAAATAGAGAAAACAATAAATATAGTCCATTAAATATTAAAAATGATCTCTCTTTTATAATCAATTTAAAACTAAATTTTATTATCCATATTCCTGGAATTACTTTTTTCATAATTACTATCCAACTTCTATATAAATCAAATTTTTTAAAAAGTCTTAGGCTTTGACAATTCTAATCAACTTTAATAAGTAAATTAAAAAATTTATTTAAATTAATTGATAGTCCAATTAAAAACTTATTAAAAATTTTTTTAAATCTTTAATATTAAGTTTCTATATCAATTAACTATAAACTTTTAAAAAGTTCTGTTTTTATAAATTTATTAATTAAAATTATAAACATCTCTCCATTTTATGCATATTTATTATAATTTTTAAAACTGAGTTAAATATTATAAATAAATCAATACAATCTTTTTTTAGAAAGATTTCAATAAAATACCTACTAAGATATCCCAATTAACTTTTAATTTTTAAATAAAAATTTCTATTAAAGAGTCAAATTAATTTTCGACTCTTTAATTCTGTAAATTAATTTTTTTACTGCTCTAAACTACTTTTTTAAAAAGTGGTTTTTACTACTACTTAACTTAATAACTTTTTTCCGTTACGAGATTATTCTTTTAAATAATCTTATAGGTAATTTTAGGAAAAAAAAGAAAAATAGCAATGTATATAAAAATGATTTCAAAAAAATAAAATAATTTTATATAAAACATTTTTTTTACATAAAAAAATGTTTTTCTTATTAATAAATAAGTTAAACATATAAGTAGAGTTTATTAATTCAAACTTCAATTTTTGTAAATTCAAAGCAGTATTAATTTTAAATAAAAATTAAAAAAACTATTATTTAAATAATAGTTTTGTTTAAATAATAATTTATTAAATAAATTTAACTAACTCTTTATCTCCAAGTTCTTTAGCACCCATAGTAATTTTGTCTAAATTAATATGGAAATTTAAATAACCAAATCTAAAAGTCAATATTTTATTATTCATTGTTTGATTTTTACCGTTTCATTTAATATTAATACCAATTTTTTCATTTGCTGTTCAATCAAAACCTGTATTTTTTCGCTCTGAAGGTGATGATGAATCCAATGTAGCAAATACCATATAATAATATGAATTATCTAATAAATTTGCTTTATCAAATAATTTTGCTTTTGACTCTTTAAGGTATGTATGCATTAAAGAAAAAGAATCACGAAAAAACACTTGTGAACTTATATCATTGTCGTCTAAAGAATTAAAAATATCAGTCATAGCCTTAGTCATTTCAGAAGATTTTAATGTCATTAAAAAATCTTCATTTGAATTATGACTTGGATATTCATAACCATGATAAACACCAAACATATCATGTCATACTTTTAAACTATCTACAGTAAATTCAGACATTAGATCTAAAATTTGTGCATTAGTTAAATTAATATCAATAAAATAATTTATTCCTAATCTAAAATCAGGCAATTTATGTATATAAGCACCATTATCTAGACTAATTGATAAGCCAGTTAAATTAACATAACCCAAAGACATTGAACTTTTATATTCATCTGTTTGTTTAATTTTATCATCTTTATCTATTTTTAGATGTTCCTCTAAAAATATTTCTTTATTAGGTTCAAAATTTTGTTTTCAAATTTCTAAATTTGAAGTTTTAAAATAATGAGCTGATAAATTATTTTTTGTAATTGGTAGATTTGGATCATTTCTAAAAACAGTATCTAGAATAATTCTACCACTATCACTATTGTAGTCATACTTTATAGATTCTTTATTATCATAATTTTTTCATTGATTTACTGCTTGAGTTATTGAAAAATTATTCATTTTTTTAGATTTATATATTAAATCTCCTTCAAAAGAAAGCGGTAATACGTTTCCTGCTTTATCAAAGTAATTTTCTTTAGTAAATTTTATAAGAGAATCTCTAAAGCCATTTTGTGAAGAATCTGTTTCATAATATTTTTGCAACTCGTTATCTATTCTTCCAAAACCATCAGAAGTTTTTTTACTTCCTTTAATTTCATTTCAATTTAAATTTGTATGTTTTCTATCTTCTGCTTTACTAGACAAAAAATAATCCTTAGCAATATTTTTATAAAAATCATCACTTGCTTTTTTTAAAGAGTTACTATTTGTTGATGTATATGTAAAATTTTCATCAATAGTAAAAGTTTCTATATCTTTCTTACCTTTATACTGAATCTCAATTTTATAATCAATAATTACATTACCTAAGTAAAGTTCATCCTTATCATTTGATTCATAAGATAAAACCTTTAAAGAATTTCAATTAAAAATAACATTTTTTAGTAAACTATTAACATCATTTAATATAATTTTAAATTTATTTATTTTTTTCAAATTATTTAAGTCAGTTGTCAATTTGTCAATTTCTAAAACTTTCTTAATATCAGTTTCTAATAATTTTAAATCATATGGATCAATCTCTTCTGGACTTAGATTAGTATTTTCAACTATTTTAGTCCTATTTAAAAAAGAATATCTGTTTTCAGTATCAGGAAGACCAACTAAATTTTGATAAACATTATCATTAAGATGTTTTACAAAAATTTCTTCAACTTCTAATTTCAATTCCTTAATTAATTCCTCATTATCCTCAATAATAGGGCCTGGAGGCTCTGTTGTGTTTCCACAAGCAATTACTGTAGCACTACTTGTAGCTACAAGAGTTAAAGTTCCTAGAATACTTAATAACTTTTTCATATATTTTCCTCCTTGATTATTTTTATAATAATCTTAAGTATATTTTAAAGAATAAAAATAAAATAGTAATTTATATAAAATATTTTTCTAATTAAAAAAGAATTTTATATAAATTAAAACATTTTAGTTTATTTTAAACAGATAATACAATAACCAATAAATACATTTAAAAAAGATTTTATATTTATAAATAAAGGAAACAGCTTAAAAAAGCTGTTTCCTTTATTTATAAATAGAATTTGTAATTAATTATCTATAATTTTAAAATACTTTTAAAAAGTTGAAAAGCTAGTTTTTTATTTCCTATTCTTGTGGAAAAAGCAGTGGCACTACCACAAGCAACTCCCATTTTTAAAGCTCTTTCATAGTTTTTTGTTTTAATAAATTCAAATAGAAAACCTGCAATCATACTGTCACCAGCACCAGCTGCATTTATTAATTTATAATTTCAATTTCCAATGTTACATATTTCTGTTATCTTATCATTGATTAAAATTGCTCCATCCGCTCCCATTGAAATTAAAATATTTTCTACACCTCTTTCAAGAATTTTTTTACCAGCTTTTATAACATCATTTATATTATTTATTTCAATTCCTAAAGTTAATTTTAATTCATCTAAATTTGGTTTTATTAAAAATGGTTTCTTATCGATAGCATAATTTAATGCTTCTCCATAAGAATCAACTATACATTTAACTTTTAATGAATTTGATAACTCTACTAATTCAGAATAAATTTTTTTATCTACTTCTTTTGGAATACTTCCAGTTAGAACTAAATAATCATTTTTCTTCAAATTATTTTTTAAATAATTTATTAATTTATTAATTTCTAATTTATCAATACTAGAGCTTTCTACACTACATTCAGTTTGCTGAGCATCAATTAATTTTAAATTAACCCTGATATTATTTTTTGATTTAAACTTTTTGTAACTTATTTTATTTTTATCAAGTTCTTTATAAAAATAATTTTCAAAATCTCCATTAGTAAATATTAAAGATTCATTTTTTACATTTAAATTATTTAACATCATACTAATATGAATTCCCTTACCAGAAGGATACATTTCTACTGCTTTTGGTCTATTTGTTTTATTTTTTACTAACTCATCAAATAATAAAATATAATCAATTGTTGGACTTAAAGAAACTATATAAATATTTTCTTGCATCTTTATACCCTCTTAATTTGAATTAAATTTTCCTTAATTTCCAAGTCATAAATATCATAGTAATATTTATTTCTATAAAAATTAAAATCTTCATTCATTATTATTTCCATTTCACTAATTTTTTTATCAATAAGTAGATAGTGTTCATTTTTTTTACTTATCAGTATTAATGAACTTTCTTTTATTTTATTTTCAACTTCTGTTATTTCTATTTCTAATTTTTTAATTTTGTTTTCTAATTTACTTTTTTTAACTAAATTTATTTCCAGATTACTATCTTTCATTCCTTTTTTATTAAATAAATCTGCTTGATTTTTTTCTTCTATAATAATTAGTTTATCCAATTTGTATTTCAAGTTTTTATTTTTAATAATTAAGTTATAAATTTTTTTACTAAAAAAATTTAAAGTGTTTAAATTTTTAACATTAACTAAAAGATCTCTATAATAATTTCTTAATATTTTTTGACGATCGGATTTAATATTTTTTAATAAAGAAATTATATTTTTTTTATTTTTTGAATTATATTTTTCATTTTCTAAATCTTTAATAAACTGATTTACTTTATTTTCTAATTGTAAATCAACTTTTATTAATTTTACTTTTGCTTGTTTTATTGCTTCTATTAACTCAGCGTCTTTGATTTTTTTTTGATTTAATTTATTAAAATAATAAATTAAATTTTTCGCAGAAAAGTCAATTTCTTGATTCAAAAATTTTTCTTTAGAAAATTTTTTTGTTGTTTTTAAAGCTAAAACTTTTTCACTTTTTTCTTCTTTTCAAAAGAAGAAAGTAAATGCAATTCCTAATCCAAAAGCAAATAAGTCAATTAAAATAGCTAGTGCTAAAGAATTAGTATAAGCTAAAAACCCAACAATACCACCTAATCCTGCTAGATTATCTAATTTAACTTGAAAAATTCCAATCACTCATCCACCAATTGCTCCTGCCAATGTACCTGTAATAAAAGGTAAGCCTTTTGGAAGATTGACTCCATAAATACATGATTCAGTTGGTCCAGAAATAATTCCTGGTAAAGCTGCTGCAAAACAAGCAGATTTATCAATTGTTTTTTTAGATTTTAATCCAACTGCAATAGTTGCTCCCATTTGAGCTCAAGCTGCTGCAAATGCTGCTGCTAAAAATAAAGATGGATTACCTTTTTGAAGATCTGCAATTGCTGCAAAAAATAATATGTTATGAACACCAAGAACTACTAGTGGTTGTCAAGTTAAACCAACAACCATTGCTCCTAAACCAATTGGCAAATTCATAAATCAATTAAAAACATTCAATAATAAATTTTCAATGACTCCCATTATTGGTCCCATTATAAAAAATGCTAATAATCCTCCAAGCAATAGTATTAAAAATGGATTAAGTATAAAATCGGCCACTGGATTAAAATGCTTTTCCATAAGTTTTTGAAAATAAGCAATAATAATTCCCATAACAATAAATACTAAGATAGTTGAATAAAATGGTTTTATAGAAATATTTCAAGTCCCTAACTTAAATAGTTCAATTCCACTTTCAGGGATAATTGGTGTTATCATTAATAATCCTAAAGCAATTGCAATTGCTGGTTTCCCACCCAAATATCTTACTGTTGATCAAATTGCAATAACACCCATCATTTTAAAACCAGTACTAGCAATAGCGTTTAAAATAACATCAAAAACATTATAATCTTGACCAATAATTGCACTTTCAATAGTTGGGTCATTTACTAAACCAGTTCGTAAAAGAAACTGTTGCAAAGCCATAATTAATCCTACTCCTACTAAAAATGGAATCAAAGGTCCAAATATTGCAGAAACTGATTTTATAAGTCTTTTTCATAAAGAAAAATTATTTAAATTTTCTTGTTGTTTAATTTTAAAATTATCAGTATTATTAGTTTTAAAATTATTTAATTGGTTTTTAAGAATTGATGTTACTTTTGAGACCTCTTGGCCAATAATTAATTGTAATTCTCCATTTGACCAAAGTGCCCCCTTAATATTTACTATCTTTTTAATTTCTTTTAAATCAACTATTTGGGGATTAAATAGTGTCAATCTCATTCTTGTAGCACAGTGGTATACATCCTTAATATTTTCCCCACCACCGATTTTGTCAAAAATATTTTGTATTAAAACTATACTTCTTTCTTCTTTACTCATTTCATTTAATTTTTTTTATAGTTTAAAATAAAATTTTAATCTATAAAAAAATATTATTCCTTTCTTAACTAGAAGGAAAATTCTCACTGATCAATATTGTTTCTTTGGATACTTCAACTTTAATTCTATTGCGTGACTCAAATTTAGTTGAGTCCATTAAAATATAAGATTTTTCACAGTTTTTAAAAACTTTTTCTTTAATCATTGCTTCTTCAATATTAGTTGTATAAAATTCATTCTTATACAAGTTATTCATACCAATAAAGGCTTTGTCAAAGTAAAAGTTATCTAAAAATTTTAAAGCTAATTCACCTGCAGTTGCATGTGTTGAGGGAATAATTGTACCTCCAACCAAGCAAACTGTTATATCATTTTCTAAAAGTTCTAAAGCAATAGAATAACCATTGGTAACTACTTCTACTTGTTTGCCAATTAAAAACTTAATCATATGTTTAGTAGTTGTTCCAGTATCAATAAAAATTAGATCTCCATCTTCAATTAAGTTAGCAGCTAATTGTCCAATTTTATTTTTAAAATCAATATTTAGACTAGCTTTTTCTTCATCAAAAGATTCTCTCAAAATCATTTTTTGATTATTGTTTAAGGATTTAGCTCCCCCATATACTTTGATTAAACGTTTTTGTTGGTGTAGCTCTTTTATATCCATAATAATTGTTTGTATTGTTGAATCAGTCATCTCTGATAAAGTTATATTTTTCATAAATCCCTGTTTATCGATTAATTCAACAATTAAATTTCTTCTTTCATCTTTAAGCAAAAATATTCCTCCCACTTTTATAGTACATTATATTGTTAAAAAAGTTTAAAAAAGTTTAAAAAAGTTTAAAAGGTAGTAAGATATTATTGAGTAGAAAGAAATGAGGATAATAAATGAAAACTAGTTTAAAAATGCAATTATTAAAAGCTAAAAAAGAAGGATATGCTTTGGCAGCTTTTAATTTTGACAATCTTGAAATGATGAAAGCAATTATTGAAGCAGCTGAAGAAGAAAACTCTCCTGTAGTTTTAATGGTAACTGAAAGTGCTGCTAAATATATGGGTTTAGATTATGTTTTTGCTTTAACCTTAACAGCTGTCAATAATGCCAAGGTCCCTATTGTTTTACACTGAGATCATGGCTTTGATATTAGTTTAATTAAAAAAGCAATTGACCATGGTTTTTCTAGCGTAATGTTAGATTCATCTTTAAAACCCTTTGATGAAAATATCAAAGAAACGTTAGAAGTTGTTAATTATGCCAAAAATAAGGGAGTTGAAGTAGAATCAGAAATTGGTCACGTTGGAGGAAAAGAAGATGATAGAAACTCAAAAGCAAATGGTTATACTAATGTTAATCAAGCAATTGAATTTAATAATCTAACAAAAATCGATGCTTTGGCAATTGCAATTGGAACAAGTCATGGTTTATTTAAAGGTGAAGTTAAACTACAATTTGATTTATTAAAAGAAATTGCAGCAAAAATTAAAACTCCATTAGTTTTACATGGTTCAAGTCAAGTACCTTTGAAGGATTTACAACAAGCTATAAAATTAGGAATTACAAAAATTAATATTGGAACTGATTTAAAAATTGCTTGTTCAAACGCATTAAGACAATGATTTAATGAAAATCCTAATGATTTTGATGCAAGAAAATATGGTAGATTTGCAATTGAAGCAATTAAAAAAGAAGCAATTAAAAAAATTAGAGCATTTGGTTCTAGCAATAAAGTTTAAATATATAGATATATTTCATAAGTAAAAAAAAAAAAAAAAACATATTTTGCATTTAGTATCATTTGCAGAATATGTTTTTTATTTAATTTAATAATAGTATTTGTTTATTAATTAGTTGAGCTATCTTATCTTAAACAAATTTAACTAATTCCTTGTTTCCAAGTGCTTTTGTTGACATAGTAATTTCTTTTAAATCAATATGGAAATTTAAATAACCATATCTAAAAGTTAATACTTTATGATTCATTGATTGATTTTTATCATTTCATTTTATATTAATTCCAATTTTTTCATTTGCTGATCAATCAAAAATTGTATCTTTTCTTTCTGAAGGTGATGTTGAATCTAATGCAGCAAATACCATGAAATAGTTTGAATTGTCTAAAATATTTCCTTTATCAAATAATTTAGCCTTACTTTGTTTGTAAAATTCTGTATTACTTAATGAGAAAGCATCACGGAAATGAACTTGTGAGTTTTTATCTTTAGCTTTATCATTTGGAAATCTACTAGTCATTTCTTTTGTTAATTCTGAAGCTTTTAATGCAACTAAGAAATCATCTTGTGAATTATGTTCTGGGTATTTATAACCATGATAAACTCCAAAAACTTCATGTCAAGCTTTCAAACTATCTACAGTAAATTCAGACATTTTGTCTAAAATCTGTGCATCAGTTTCATCAAGACCAACAAAATAATTTATAGCTATTCTAAAATCAGGTAATTTATGAATATAAGCACCTTTACCTAAATTAATTGATAATCCAGTTAAATTAACTCACCCTAAAGCTGTAGAACTTTTAAATTCTTTTGTATCTTTAACTTTATTTTCTATATCTATATTATTTCTAGTTAAGAATTCATCTTTATTTAAGTCGAAATTTTGCTTTCATTTTTTTAAATTTGCTGTTTTAAAATAATTAGTTGCTAAATTATTTTTTGTTTCTGATTTACTTGGATCATTTCTAAAAACAGTATCTAAAAGAATTCTTCCATCATCATCGTCATAATTATATTTTATAGATTCACTATCATTATAATTTTTTCATTGATTTACTGTATAAGACATTGAGTGTCTTTGCATTTCTGAAGATTTAAAAATTAAGTCTCCCTCAAATGAAAGTGGTAATGTATTTCCTACTTTATCAAAATAATTTACTTTAATAAAATCAATTATAGAGCTTTTAAAACCATTTGTTGCTGAATCAGCTTCATAATACTTTTTAATTTCTTTGTCTAATCTTCCAAAACCATCAGATGATTTTTTGCTTCCTTTAATATCATTTCAATTTAAATTTGTATGTTTTCTATCCTCTGATTTACTAGATAAAAAATAATCCTTAGCAATATTTTTATAAAATTCATCACTTGCTTTTTTTAGAGAATTACTATTTGTTGAAGTATATTTAAAATTATCATCAATAGTGAAACTTTCAACTTCATTTTCACCTTTATATTGAATTTCAATTTTATAATTAACAATTACATTTCCTAAGTAAAGTTTATCTCCATCATTTGATAAATGTGACAAGATTTCTAATGAACTTCAATCAAAAACAATATTTTTAAATAAATCATTTACATCATTTAAAATGACTTTATATTCAGTTACATTTTTTAATTTATTTAAATCAGTTTTTAATTGATCAAGTTCTAAAACTTTATAAATATCTTTTTCCAATAATATTAAATCATATGGGTCAAGTTCACTGGCTTTATTACCAGTATTTTCTATTATTTTAGTTTGATTTAAAAATTGATATTGTTTTTCAGTATCTGGAAGACCAATCAAATTTTTATAAACATTATCATTAAGATGTTTTGTAAAAATCTCATCTACTTCGCTCTTTAATTTTTTAATTATAGCTTCATAGTCCACACCTGGACCAGTAATAGGATCTGTTGTACCAGAACCACCACATGCTACTACTGTTGCACTACTTGTAGCTACAAGACTTATTGTTCCTAATAAACTTAATAACTTTTTCATTTGTTTCCTCCTTGATTATTTTAAAATAACCATAATTTGAGTTTAGAGAAGAAAAGAAAAAAGGCAATTTTTATAAATAAATTTTGAAAAACAAAAAATTTTTTATTTTTTAGTACATTTTATTAAATTTATGACACTTTAATAAAACATTTTTTAAAAAAATAAACATATAAGTAGTTTTTTTAAATATAATTTTAATTGCATGTATTGAAAAATTAATTTATAAGATTACAAATTAAAAGTGGTATTTACTTTTTTAAAGTTTATTTGCGAATATATCTGCAAATAATTTTTCTATTCTAAAAAAACTTAATAATTATAAACTTAAACTTTTTGCAACACTTATAATTTATAATAATTATTTTAAATTTATAATTAAAAACATTATGAAAGAAACTTGAATTCAGCATTCTTATAAAAATTTTAATATAGAATAAAAAAAAATATTTTGTATTGTTAACAAAATATTTTTTTAAATAAATTTAACTAATTCCTTATTCCCAAGTTCTTTAGCTCCCATAGTAATTTTATTTAAGTCAATATGAAAGTTTAAATAACCAAACCTAAAAGTCATTACTTGATTATTCATTGTTTGATTATTATTATTTCATTTTAAATTAATACCAATTTTATTATTTGCTGATCAATCAAATGCAGTATTTTTTCTTTCTGAAGGTGATAATGAATCTAGTGATGCGAAAACCATATAATATCATGAGTTTTCCAAAATATTTGCTTTTTCAAATAACTCATCATGATATTTATTAAAAATCTTTGTATTGCTTAAAGAAAAAGCATCACGGAAAAAAACTTGTGAACTTTTATTTTCATCTCCTTCTGTTGGAAAAATTTCAGTCATTTCCTTAGTTAATTCAGATTTTTTTAATGCTATTAAAAAATCTTCATCTGAATTATGTTTTGGATATGGATAGCCATGATAAACTTTAAAAACTTCATGTCAAACTTTTAAAGTATCTAAAGTAAAATGAGACATTTCATCTAAAATTTTTGCATCACTTTGATTAAAATCAACAGAATAATTTACAGCTATTTTAAAATCAGGCAATTGATGAATATAAGCACCTTTCCCTAAATTAATTGATAACCCTGTTAAGTTAACATAACCTAAAGCAGTTGATTTCTTATACTCATCTTTTTCTTTAATTTTATTATTTAAATCAATATTTAAACTTCTTAAAAAATCATCTTTAATATTTTCATAATCTTTTTTTCAAATTTTTAAATTTGAATTTTTAAAGTAGTAACTTGATAAATTATTTTTTGATGTTATTTTTTCTGGATCTTCTCTAAAGACAGTATCTAAAAGAATTCTTCCATCATCTTCTTTATAATCATATTTTATAGATTCACTATCATTAAAGCTTTTTCATTTATTTACTGCGCTAGACATTGAGTATTTATTCATCTCTGAAGTTTTATACATTATCTCTCCCTCAAATAAAAGTGGTAACTTATTGTTTTGTTTATCAAAGTAATTTACTTTAGTAAAATCTATGATAGATTTTTTAAATCCATTTGTTTCAGAGTCTGTTTGATAATATTTTTTTAATTGTTCATCTATTCGTCCAAAGCCATCAGATGATTTTTTATTACCTTTTATATTATCTCAACTTAAATTTGTATGTCTTCTATCAGTTTCATTATTTGATAAAAAATAATCTTTTGCAATATTTTTTGAAAAATCATCATTTGCCTTTTTTAAAGAATTACTATTTGTTGAAGTATATTTAAAATCTTCATCAATGATAAAAGTTTCTATTTTTTCTTCACCTTTAAATTGAATTTCAACTTTGTAATTAACAAGTACATTTCCTAAATAAAGTTTATCTTCATCATTTGATTCATAAGATAAAATTTTTAAAGAACTTCAATCAAAAAGAACATTTTTCAATAGATTATCAACATCATTTAAAATAACTTTATAATCATCTATAATTTTTAATTGATTTAAATCAGAAATTAATTGATCAAGTTCTAAAACTTTTTTAATATCTTGCTCTAATAATTCTAAATCATATGGGTCAAGTTCTTCTGCACTTTTATTACTATTCTCCATAATTTTAGTTTGAGTTAAAAAAGAATATGCAGTTTCTGTATCAGGAATGCCAATTAAATTTTTATAAACATTCTCATCAAGATGCTTTGTAAAAATTTCATTCACTTCCATTTTTAATTTTTTAACTAATGTTTCGTAATCGATTTCCTTTTCACGATCTTTTCCACCTGATTCACATGCAATAACAGTTGTACTACTTGTAGCTATAAGACTTATTGCTCCTATTAAACTTAGTAACTTTTTCATTTATGCCTCCCAGATTATTTTTATAATCACTATCAACTTTAAAGAAAAAAAATAAAAAGGCAATTTTTATAAAACATTTCCAAAAGTAAAAATGTTTTTTTACTAAATCTATTTAAATCTTTTATGACACTTTAATAAAACATTTTTAAAAAAAATAAACATATAAGTAGAAAATTTTTAATATCATTAGTAATTTTAAAACTTATAAATGTATTTAGGTATTTTTTAAAAAATAATATAGAAACAAAAAACACATTCTATAATTAACAGAATGTGTTTAAATTATCTAATTTGTTTTTTGTCATATTCAAAATAAATTGACAATGAATACATAATTATTAATCCTAATGAAAAAATCATAAAGATTAAATAATCATAAGTGTAGTCATTACAATATACTGATATTGCTGTTATAAAATTAATAGAACTAAATACAATTCCAATAATATTTCAGCTTAAAGAAGTTTTTTGACTTTCTGCTTTAATTGAATACACACAAGCTAAGATATCAACAACAACTCACAAACTTCACAATAACATTAAAAGAACTGTAGTGATTAACTTTACACTCAAGTGCATATTATCATTTACTGCCCCATTTAATCCTGTTGAAATAATAATGATACTTTTAATTGATACAACAATAAAACAAAAGATAACTTTTGTATAAAAACTAATTCAATATTTTGACATAATTTGTTCCTCCACTATTAATTTAATAGAAATGAAGAAATAAAAATGTCATTGAAAAACAATGACAGGTTAAATTGAATTTAAAATATCTTGACGTTGCTTTTGATATTCTTCTAAAGAAATCAATTCGTTTTTATACAACTCTTGTAACTTGATTAAACGTTTACTGGTTTTTGATATTCTGACGCGATTTTTATTAGTAAAATATAAAGTTAGAAATAATATAATTTCTATACCAATGGTAATAGTTAAACAAATTGAAATAATAACAAAAGTATAAATAATTGTACCTTGTATTAACCTTGCCAACACTGATGTAAAAAGTATTCACAACATTAACATTGCAAAATTGACAATTATTATTTTTAATAAGCTTGTTAATTTTTTATCTAAACTTACTTTTGAAGTAATCATTAAATATTCATAATCTCTTAAATTGTAATCATTAAATTCATCAATTTTTATTATTTCTTTTTTAACTCTATCTTTATTAGTTATAATTCCCTCTTTAATTATTTGAATAGCTTTTTTATTATTAACTTTATTAATTGATCTTAAAATTAAATAATTAGATGAAATAATTTTTTCACTATCTTCTTTTTTAGCTAATATTAATGTATAAGGATAATTTAAATAAACTAATATATCATTTTCTTTAATAAACACTTCTCTTGGTATTTCTTTACAAAAATCTCTCATATTATTTGGAAAAACACTTATTTGTTTAAAATTATTGCTTGAGCAATTTTTACAATCACTTAAAAAATGTTCACTTCTGTTTAAAACAGTTCCTCTTTTTATAGAAAATAAATCAATTAATTTCATATTTTACCTCAACTTTAATATTTTACATTCAAAAATTAGAAACCAAATCTTTTTTTATGTTCTAATGTGTAATTGATAAAATTTTCATTTATTAATTCTTTATTAATTTTTAATTTTTTTGTTGTAATTTTTACTATATATTTAAATTCTTCTTCACTACATTTTTCTGTAATATGAAATCTATTTTCATGAAATATAATATAACCATGCTCAAATAATTTATCATGATTTGAACAAAATCAAAAACCATTATCTCCATCTACAATTTCTTTGTATTTTTGTTCCAAAGAAATATTTTCTTGATTCTTTATATCTGAAAATCTTTTAATATGTGCTCCCACAATTAAACTAGGATTATTGCAATCACAAAGTATGCATTCTTTACTTCCATATTTTGATATTAAATTATTATGATAAATCAATGAATATCTCCTTATAGCTTCTTGAATTTCTGGTAATGTTGGTGTTTTTTTATTTTCAAAAGTAATATCTGTTTTATAATGTACTTCTTTAAAAATAGCATTTAATTCCTCAGTTGGAACTTTCTTTGAATTTATTCAACCTTTAAAAAATATTTTTTTATTAATTTTTTTAATAAAATTTAAAAAATTTTTATCCATTTTAAATTCTTTAATTGAATATATATTAATTTGCCCTTTAAAATATATTGAACAATAAATTATTATTAATCAAGCTTCTCCATTATTAGCTGCACCAAAATTTAGTAATAACGAAATTTCATTAGCATCTAATAATTCTAATAAATTTGATTTATTAGATGAGTTCTTTTTTGACAACTCGTTTCTATAATAACTTAAATTTTCAATATTTTTCAGTTCACAATTAAAAATATCATCTTGAGCGTATACATTCAGAACTTCTTTATTGAAACTTAAACTTTTAAATATATTTCTAATCATTTCAATATGTAAAGAGCAACTTAAACTAATATTTTTATATTGTTTAAAAACAAATAATACAAAATTTTTATTATCCATTTTTTTATCAACAAACATTTGCATAAAACTTATAAATCCTTGAGAAATAAATATATTGCGAGAATCAGCTTCATATTCTCTTGAGGTTAAAATAAAATCACACTCTAAAATTTTATCATTTTCATATCTGATAATAATTGCTGTAAATTTTGTTAATTTAAAATTTTCATTTTCTATTGAAAAAAAATTATTATCAACTATTTCTTTTACACAATTTTCTAATTTCATTGTTTTTATTAATTCTTTTAATAGCTTATCATTCGCTAATATTGAATCTCTTTTAAATACTATTTTTATATTACTCATAATTTTTTATTATAACTTCCCTTCTATCTTTAGTCATATTATTAGGACAATTAACTAATTTATAATTATTTTTTGATATTCATTTTTTTAAAATTTCATTTTTATCACCCTTATGAATAAGAACATTTGATAACATAAATTTTGCACCCTTAGAGTTAATTCTATCAATAAAATTAAGTAGCTTTTCTTCCTCTATTTTATTTCAACCTTTAAATCCCCTCTTTCCATCATTATAAGAAGCTGTTGTAATTAAATATGGAGGGTCAAGGTATATAAACGTATTTTTATCAATAATTTCTTCATAATATTCATATGAATTTGATTCAACAGTCAAATTCATTTTCTTAATTTTGTTTGAAAATGATATTATTTTTTCTCGTACATTATGATTAAAATCCGACAGCCCAACTGTATTATTAAATTTTAAATCTGAATTAAATCTAATTTGATTTGAAAAGCCAAATATTATTAGTATAAATAAAATAAAACTACTATTATTTTTATTATTATAATATTCTCTTAAACGATTATAATTTTCCTTATTATTTTTACTTAAAGAAAATTTTTTAATATAAAAATTTAATCTTTTAATTATATCAGATGATTTTTTATCTTTGAACATTCTAATTAAGTCTGCTACTTTAAAGTTATAATCATTATATATAACATTTTCAAAATTACAATTAATACCTACATTGAATCCTCCGCCAAAAATATCGATAAATTTGAGATTTTTATTTTTAGGAAAATGTTCTTTTAAAAAACTAATAAGTTTATATTTGCTACCTGAATAATTTAAAGGAGATTCATAGATTACATCATCAAACTTTTTCTTTTTTATTAAAAAAAGATATTCTTTATTTTCGTCATTCTTATTTTTAGAAACTGAGTTAATATATTTTTTATAATTAATTTCTTTTAAAATTACTTTTTCATCTTTAGAAAATCTCATTAACATTTTTTCAAATACTTTTTTATCTATTAACCCTTTATTACTATAACTAATTAAAAGATTTTCAGTATTTATATCACTTAATAATGAAAACATTGCTTCCTCTGCAATAATTTTTTTGGAGAAATCTGAAGATCCAATCTCCTTAGCTCTAGAACCCGTTACTCCACTAACTTCACTTTTTTCGTTTTTAGATATAGTTTCAAGTAAATGATATTGATGAGAATATTGTTGAGAAGTATATGGGGGATCTAAATATGTTAGATATATTTTATCTTTTTGAAGAACTCTTACGACCTCCTCAATTCTATTATTAAATAATATAGGCTTATGTAAATAATTAATTTTTCTTTTCTTAAATTTCTCTATGTCCAAATATAGCGATTTAAAAAATCTAGGGTCTTCTTTTTTTAAGAATGCGCCATAAACGCCAGCAATATTTGATATTCCTGAAATTCCTTCAAGTAAAATTCCCATTAAAAACGAAAATTCAGAGTATTCAATTTCATCATTATTAAAACTTTTATAGATATCGTTAACAATAAAATCAATTCTTTTTGAATTTATTTCAGAAAAATACTTTCTGTTAGCTTTTGGAGAGTAAGTATTATATATGTAACCCTCCAAAATATTATTTTCATTATTATAAATATTTAGCTTATCAATAATTTTATTAGTAATATCACAAAAATACATTTCTGTAAGAATTTTAGAAAAAAATAAATAATCATTCGCTGTTACTTTTGCTCCATGGTTTGCAAAAAAACCTGTCATTGAACCAGTACCTGCAAAACCATCAAAAATATATTTATTCTTTAAATGCAAATTATTTGATTCTAAAAATAATAAAATTTCTTCATGTAATTTATCCTTATTTCCTAAATATCTCATTAAATTCTTCCTCCAAATTATTAAAAAGTTTTATATCTTTGAGACCAGAAAAATCAAAGTCAATTGTATAATTAATGACCCTATCATTTTTTATAATAATTGAATTATTAAATTTCTCTAGATTATAGACTTTATATTTAATATTACTTAAATTAAATTTAATATTATTATAAAAATCTCAATTTGCTTTATTTTGAAAAAAAATGTGAATAAAAGAATCTTCATTTATATATTCAGACACGTTTTTATATAAATCCAAAATATTTGTTAAAATCCCTTCTCTATTTAATCTAGTCGTTATAAACAATGTATTTTTATTGTCTATTTGATCTTTGCCAATTTTATATACATTATCATTCTTTTTTGTAGTTGATTTAACTTCTATATAATAATCCTTTTCTTTAATATAAAAATCTTTTTTTGAATAATTATAACTTCTATAATTTTTACCTAGAAATTTTCATTTTCATATTACTGCCAATTCGGCGTATATACCTTGTAATTCAAGAAAATCAGGTGCTAATACTTTTTGAATAAAATTTTCAATAAATTCCAATAAATTGTAGATACTTTTATAATTATTAATAAGTTTAGTAATTAACTTAAATGACTCTTGAATAATACTTAGTTCGATATTATTATTAAAGGCTAGTACTTCACCCTCAAATTGAATACCTTCAATTTTACCTACAGCTTGTCCTATATAATTAAAATTTAAATATCTAAAACTTTCATTTGAATTACTCTCTTTTTTAAGGATGAATCACCTTTTTTCCTTAGTAAACTCCTGAATCTCTTCCACCAAATACAAATTATTATTATCATTTTTATTAATAAATTTCTTCATTATTATTTATCCTTATCCGAGTATTTAACAAATTTCAATTCCGTTTTAATATCTACTAGCTTCTCTTTAATTTTTTTTACATCATATGTAATTATATCAATCAATAATTCATTATATAAAAAATTATTGATTTTTTTTGCCTCAGAAAAGCACTCTTTTATATTTTGAGATATAAAAATTTTCATTAAATCTGAGAAGTAAATTTCTAATTCCTCATTGATATTAATTTTTTTATTCCTATATCCAAATCATCTAGCTCTTTGTAGAAGAATGTCAATAGGCTGTTTGTGTTCTCTAATGTTTAGCATAAGCTCACAAATTAAATTTTCAAAAGTTAGTCCTCTTGATACCAAATTACCACCGATATATATACAATTTTGATTGTTATTTATTTCTTCATTTTTAGTTTTATTATTTAAAACTTTTACTTCTATACTATTATGATATTTCTCTATGTCATAATTATCAAAGTAAGCAATTTTATTTAAATTTTTTTTAACTTCCTCAAAATAATCAATCACATTATTATTTTTTAAATCCCTTAAAAAAACTGCATGAATATCAAATAATTTATCTTTCAAAATAAAATGCTTCTTTGCATCTATATCTACATTTATTATAGAAGAAACATTTAACTTTGTATATTTCTTAACAAATGATGATAGCAATATATAAAATATTAGAAATTTTTTCAATAATAAATCTAGACTAAAATTATCATCCTTTTTATTTAGCTGAGATATTTCAAAATATTTTTTATTATTAAAAAAATCTATTCCAGTATAATTTTTTTCAATAATTAATTTAACAATAGCTTCTGGATAAATTTCATTAGATTTAGAATTTGTTAAATTAGCATACGGTGTAGCTGTTATTCCAATATATTTAGTATTATTTGCATTTTTGATTTTTACAATTTCATTATATATTGCAGAATTTTTTGAACTTCCATTATTTAAAGAACCGTAATCACACTCATCATCTATTATTAAAACTTTAAAATTCTTTGAAATTGTGTTCAATTCAGCACTTATTTTTTGCATTTGCGTTTTGTTTTTAATAACATTAATTATAATTTTAGTTTTATCTTTTTTTAGAGAAAATAAAGAAGATTTATTTTTATTTATATCATATAGCAAAATATCACATAAATTGTTATTTAATGTGTCTTTTATTCTTTTTAAAGTTTGCTTTAATAAAAGATTAGTTGATCCTCCAAAAATAATTACACAATCATAATCATTATCCAATGCATTCATAGTTATACCAATAATATTATTTGTTTTACCTGATTGTACCTCACCTATAACAAGAATATTATTTTTAATATTCTTAAGACAAAGGAAAATATTTTTTATATTTTTATATATTAACTCATAATATGTTTTTCCATATAAATCCTGTTTCAATTTCAAGTCATTTAAAAAAATAGAAAATAAAGGTCCACTTTCTCTATTTTCCTCATTTTTATTATCATCAAAAAATGAGTAAAACCCCTCTATTATATTAGACATTTTGTTGAATAAATGAAGAATTAGCTATTTCGTTTATAATATTAGCTGACCCATTGCTAATATCATTTAAGCAAGCTAAAATAAAAGATAATCTATGCAAACTTGAAATAAAACTTGTCTTTGTTATTTTTGGACCTGATACCAAGGGTTTTCAAATAGGATGCAAAATATTTAATATAATTTCATAATTATTGCTTTCCTTTTTACTTAAAGTATAAAAATTTTCAGATACATAATTACTTTCTATATGAATAATTTTTATTTTTCCTGATATACCAGTTTTTGGATTTCTATAAATATAAAAAAACTCAGTTCCTCCGCTTCTTACTACTGTTTCTTCCATTGATTCATCATTATAAAAATTTAAACTATTATTATAGGTATTTTTTAAAGTTGCTTGAGCTTGCTTGGATAAAGTTCATTTTTCTGGTTCAGAGTAATTTGATTGCATACTAGTTAAAGTATTCAAAATAGGAGCATATTTTTCTTTTCATTCATTAATAAAATTTAAAAATTTTTCTTCAAATTTTTTATTTTTTCATTCAAAACCAAATTTTTGATCTGATATAGATACATAATTTCTCAAAATTAAATCATCAATTTCAAATTCACCAAAAATTCTATACTCAATTCCCTTTCCCCCATAATTTGTTCTTAGACCCGCTATATAATTTTTAGAGCCTTGTGAATCATCAAAATCATTTGGACCACACATTATTGCTCTTTTAGATTCATACACTGTAAAACCTGTATATGATACATAATTGAATTTAAATTCACTTTTTATTTCCTTTGCATTTCTTAATATTCCTATTTTTATAGGAAGAAAATAATCCTCATTTTCATCTTTTCCAAGATAAATATTACATTCTCACTTTAATTTTTTTTCAAATTTTATTTTTTCTTTTATATCAAAAATTATTTCTTCATTCAGATTATAATTCTCTAATGCTTTTAGAAAATCAATTTTAAATTTTTCTATTATTTCATTTTTGTTTTCGGTTTTTATTTTGTTTGAATTTTTAACTACATCATTTATTCATGTGCTTATATTTTCACTTTTTGGAGTAAAAGATTCTAATGTCAAATATTCATCTTTACCTTTCTCATTTATTATTCCAATAGAAATATTAACTCCCATTTCTATAAATTTATTAAATTTGAAACTGATAACATTACAAAAATGAATAAAATTGCTCTTCTTTAGTAAGTCATATCTACTAAAATTTCCTCTTGAAATTTTAATTTTAGTTCCTCTATTTCTATAAAATTTATCATTCAATTCATAGTTAAATCTTATTTCAGCAGGTTTTTTTTCTACTTCATATTCCACAATTTTATTATTATATTGATCTAATTCTTCTAGATCAATATAAACAAAATTTTCTTCTTTATTTTCTGTTTTCGTTCATATTTCTAATTTATTACCTGATCAGAATGTAGCAACTTTCATACCAACACCATACCTATTTAAATTACTCTTTTTAAATTTTTTATCCGTATTTGCAAATTCTAGTGAGTTTTCAAGATTTTCAACATTCATTCCATATGCATTATCAATTATTGATATTTGAAAGTTATCTTCTAAATGGTAATCAAAAGTTATTTCAATTGCTAATTCATTTAATTTGTTATGACCATTTAAACCTATTCAAGAAGAAATAGAATTATCAATAAATTCGCTAATCATGGTATAAGGTTTTGAAACAAGTCCATCTTCTCTTAACATATCTGTAGTGACTAATAAATTTTTTTTCCTTTTCATTTTAATACCCCTTAATAAATAATATTATTCTATCATAATATTATAAACTTTAATCTAATCAAAATTAAAGTTTATAATATTTAAAAGTTCCTTTTTTAACATTATTTTTTTTTCTTTTAAAGAAGAAAGTAGACTTATTCTTTTTATAATTTCCTTAAGATCATTAAATGATTCTTTTTTAAATAAATTTGCTTCAGTTATATTTTTTTCTTTAATCAAATATTCAAAATATTTATTAAGAGTATCTAACGCTTCCTGCAATACAATGTCAAATTCTTTTTCTATATCATTTTCATTCTGAAAAAAATTAAATAAAGTATAAAAAATTAAATCTCGAGACGAATTGAACTTTAGTAACTTTAAGTTTTTTTTAATTTTTGACTTAAATAAAAAATAAATATTCAACATTTTTAAAATTTTTTGTGAGTACTCATTATTTTTACTTTTTGTAAAAGCTCTAATTATACTTTCTGTATTATAGAATGGACTTTTTATATCTATATAAGAAGAAGAAATATCATTATATATTTGATTATTCATTTTACCAATTTTATTTTTTATGGAAACTAAATTATCAAAACATATTGTAAAGAGCTTTAATAATTCTCCAGCGGATATTCTATTTTTAAAGTACCTTCCTAAAGAATTTGCAATTGAATTTCCATTTTTTATTTCATAATATATATTTTGATCAATTAGTATACTTTTAATATTTAATTGATATTTCTCTAAACTTAATAAATCCTTAATTTCAATCTTATTTTGATTATTTGTAGAAAATGGTAATTTTGTCATTAAATTTTCAGATACTAATTTATATATTCTAACCAAAACATAAGTTTCATCATAATCATTAGAATTTATTTTTTTATTTGATAAATAGTGATTGTAAAGAGTTCTCATTGTTTGTTGTCCATTTATTATATTTGGGTCTTTAAAAATTACTTTATCAATTATTTTTTCATCATATTTTAAATTGCTAACTATCATAGTGATTCCATTGTTTAATAGGAAGAAATTTTCTTTCTCATTTTCTAAACTATCTATTATTTCCTTGGAAATATTTGTTTTTTTAACTTCTTCTCTAACATTACCTTCAAATAATGAGTCAATTTTATTTCCATTTTCTTCTTCTTTAACTATTAGTCCTATTAATTCATTTAATTTAACTTTTAAAATTACTCCCTCGTCATTATTATAGTTGCGATGTTTTATCAAATTATTTTTTTCATCAATATTAAATACATGTTTTATTCCCTTATTAATTCTTTTTCCATTATGAATATTTTTTAAAACAAATTTTAAAAAATATTCAATTGACATGCACTCATCTTTAGCATTTCCAGGAATATTTCAATTCTTAAAATTTAATTCTTGCTCAGTTTTAGTATATACAAAAATAAACCTTACAGTAAAAATAAAATTCACTTTGGCTAATTTTTCTATAATTTCTATTTTTATTCCAGTTTTTTTATTTTTTTCTTTGCTACTAAGACTATCATCCTTTAAACAATTTTCAATTTGTTCACTTGCAAGTTTAGATTTAGCATAATCTTGTGATTTAATATTTTTTCTTGCCTTTGCTTGAATTAAATATAATGTTTCATTTGAAAAATAGCATAAATCCATACCTTTTATTTCTGCATTATTTTCATCAATTAGATATTCATCTACATTTTCTAGACTATTGCCCGAAATAATAGAAGAAACAAATTTCTCAAATAATTTTCCTTGATAGATTCCTTTATCATATTCATTATTAAATTTTTTCTTATTACATAAAGAAAAAAATTTATCTAGTATTTCCATATTTGATACCCCTTTATTTTAAATAATACATTCTTCACATATTTAATTTTTTGTCTACAAAAAATTATAATTCAAATATAACTTTTTCCTTATTTGCTATTACTTTCATTTTTACATGAGTAATATTTTCCATACCTAATTGATTTTTTAATTTCATTTCAAAAATAAATATTGATAATGAATTTATTACTTTTTCTGATAAAGAGTTTATAATACCTCTACCACCCATTTCCTCAATGGCGTTTTCTTGCATTATTAGATCTACTAAGTTCTCTAATTCATCTTGAGTATATGAAATTTTAACATTGTGTTTTTTATTTAAAGCACTGACTAGTTTAGTAAGTTTACTTTCTATTATTTCTTTAAAAATAACTCTATTTGTAATGTAATTAAAAGGTATTATATTTTTCTTTCCAATTCTGTTTAGTAATTCTGGTCTTTTTAAAACATTTACAAAATGATTTTCTACAGCTCTAATAAAATTTTTTCTTATTTCATCTTGATTACCTTTCGGATTATTTCCAACTACTCCAATATTAGAAGTAAAAATGATAAATGTCTCAGAAAAATCAATTAACTCATTTTTTGATGAAGTAAGTCGGCCATCTTCAAGAATTTGCAAAAACTTATCCAATATTCTGCCATGAGCTTTTTCTACTTCATCAAATAATAATACTGAAAAAGGATTTTCTTTAACTGCATTTGTTAATTCTCCCCCAGAATCATAACCTATATAACCAGGAGGCGCTCCAATAAGCCTTTGATCAGATTCTTCATGATTATACTCACTCATATCAAATCTAATTAATTTATTTTCATCTCCAAAAACTAATTTTGCAATTTGCTTTGCTAACTCAGTTTTTCCAGTTCCAGTTGGACCTGAGAAAAATAAAATTCCTTTAGGTTTTATTAACTTTTCAGAGTGCATAATTCCATTAAGTCCTAAACTTGCATTTATTAAGGTTTGTTTTACATTAGCAATAGCAAATTCTTGGCCTTTAACTACCTCATTTAGAATATTGTCTGCATTGTTTAATTGATTTAAATCCATTTTTTCTCATTCTGAATCTCTCTTATTAAACTGGGCCAATGAAAATAACTCCTTAAAAGTGTAGTTATCATCTTCTGTTTGAATTCTAGCCAATTGCATAATTTCTTTAACAGCAAAACCTTCAGTTAAAGCCACTGCCTCAATACGTTCTTTTGAATCTAAATTAAGTTTTTCTCTATCAATAACATTAAATGAGCGATAAAATCTATTGAAAATCTCTGCTCTTTCATTTTTATTTGGCTTATTAATATTTACTGAAGCAAATTCTATATTTTTTGAACTAAAATCATTTGCAATATTTCCAGTATCTCTACTAATAAAAATTACTTTACTTAGCTTATTCAAATTAATAATGTCATATTGATTTTTTACATCATCTTCAAGAATTGTTGACAACAAAATAGCTGCTTGTTCTACTAAATCTTTAATGCTCTCTTGATTTAATAAAGTATCTGAAAAGTCAATTATATATATTTTTCTGCTTATATCTTTATCTTGAATTTCATTTTTTAAATCATTAATAAACTCTTCTAAAATTTGCTTAATACTATTAGTTTCAAAATCTTCAAAATCATTTTCATCATCTAATATGTCTTGCTCTCCTAATAGAAATATTTTTCCTTTTGAGGGAGAAAACTTAATAACATCTTTATACCCAATTTCTTTTGCAATATTAACAATTTTATTATCCAAATTGCAAAATTGCTTTTTAGAATCCTGATTATTTTCTAAAAAAGTATCATAAACATTTCCACCAACTAAAAGTAAATTTTTTTGTTGTAACTTAACTTTCAATTGCTCAATAGATTTTTTCATTTTATTTTTCCTTTACTTTCATTTTTCTAACTCTCTGAATTGGTCTTGTTGTAGTAGAAGTTCTTGTAATTTTTTGACTAACAATAAATCTTTGTTTTGATTGTAATCCTTTGATAAATTTTTCTGCATCTGCATCACATAGATGATCTGCATAGTTACCCATTTTGTATTCCATAGTTCCATTTAATCCAAAATTAACTATTATATTATTATTCTTATTATTAACTACTTTTAAAGATATTACAAATTGGTCTCCTACTTCAGGAGTTGAACTATTAAGAATAATATATTTTTTTGAAAAAGTTTTGAAGTTAATTTTTTTTAATTCATCTTCAACATCTTTTACTAGCATATTTGTTTTTAAAATATTAGTTTCTATTGACTTCATTAGAGCAGAAAAGTCCATAACTTCAATGTTAGTTTCTAATTTTGACAAATCAGAATATAATTTAGTTTTGAATTCCTTTGCAATATTTAAATTATTTAATTCATCTTTTAATTTATCTTTATAAATTTTTATAGTCTTATCATTAGACTCTTTAAATCTAATGTTTTCTATTTCCTGATTAATACTATTAAAATTTACTTCTAGATTATTACTAAACAAATTTTTTAAAGCTTGATTTGCAATAAACCCATTTTGGCTAATTAGTTCTCCAATTTTATTTTTTTCAAAATTAATTGTTCTAATTAATTCACCTTCTAAATTTAAAGTATATTTTATATTTTGAATTTTCTTTATAATATTGTCCAACTGTAAGTAATATTTTTCAATTTGTTTATTCTTTGTAGCATTTATAATATCGTAATCTCCACTAATGGTATGTGATCCACCAATTTGTTCAATCAAAGATTTTGACTCTTCTAATTGAGAATAAATATTTTTAATTTCCTCATTAAAAATATCACTAAAATTATTTTTAATTGAAAAATTTTCTAATTCTTTTATTTCTTTTTCAACTTGTGTTAAAGCTAATAACTCATCTTTATTACATATATCAAATGTTATTGAAGCATTATGACTCATAAAATATTTTCCTCATTATTTCTTTTTCAAATTTACAATATCTAATGTCTTTTCAATATAACCTAATTTTTCCAAATTTTCATCATTAGGTAATATTGCTCTACCATGGACAAACTCTGATAAAAATTTATAACTATCTTTATAAAAAGAATAAGCACCATCTTCTTCATAATTTGCACTTAAAACTTTTGAAAATGTTTTTTTCTTTGTAACACCAACTTTTTGTTCAAGTTTTTTTCGCAAATTAATTATTCTAACTGTGATTTTATCTTCGGTAGGAGTTTCTTTAATTTCTATTTGTTTATTAAGTTCCTTATAAAAATTATCAACTCTCAAATCCTTAATTGGAGATATATCAGTTAATTCTATTTTGTTCTTCAAAAATTTTAGACCCTCTAAAGTTAAATTTTCTTTTGTTGAAACATCAAATTGATTTTTCATTTTTATTATTTTTCAAAAATTCACTTCTTTTTTTCAATTTGTAAAAATTTCTTTTTCTTTATATTCTCATTTATTATTTAGATATAGTTCCTCGTATGAAAAATCGGAATATTCAACAAGTAAATTTATCATATTCTTACTTAAATCTAACGAGCTATATTTTATTAACTCTCTAAGTTCATCACTATTTAAAATATGTTTAACAAATTTTTCAAATCATATTTCAGTAATAGAAATTGATTTAATATTTGCCTTAATAAAATTAATTTGAATACTATCATAATTATTTTTATTTTCCAAATCCTTTAATAGAATTTCAATAAGGTTCTTATTAACTACATTTTCCAAATTTATAAAGTCGAGATATTTATTTTCAATTTTTTGAAGCGAAAATCTATTTAAAAGCAGAGTTTGATTTAAATCATGAATTTTTAATTTATCATTATAGATATTTACTAAATATATATTATTATTATAAATACAAATTTCGCCTTCAATACCAACTTCTTCTTTCAAAATATTATCTAAGTAAATATTATAATCTTCAAAGTCTGGATAAATTATTTCCGATTTAAGTTTCTCTTTAAAATTATTTTTTTTCAAAGTAATATTATATTTTTCAAAAATAATATCCTTTAAATAATTTTCTTCTATCAACCCCAGTTTAATATGCTCAATTAATTTTTCTGCTCTTCTATTTTTAGGTAATAAATTTTTATCTTCATCTATAATAAATTCGTGCTCTTTTTCAATATATGTTAAATAATTATCTACCAAATTTATTGATTGAATTTCTTGAGATAAATGATCTATTTTAATATTAGATTCTCCAAGTGTCTCATAATAATTTGAATCCAAATAATTTTGAATTTGAAAATCTATTTTCTGATTATTGCTTTCAATTTTTTTGTAATTCATTTTAGATTCAATTTCTTTAGGAATCTTATTTTTTAGAACTTCACTTAAAAATATTTTCTTTTTCTTTTGGAAATTTTCAGTTAAGGAAAAATACTCTTCATTCTTAATTTTCTCTTTAATTTTTTTATTTAGAATAAGTTCGTTAAAATTAATTTTTCAAATACTATCAATTTTTTCATAATCATTAAATTTAAAGGTAATTGTTTTTGATTTGAATAATTCCTTGAAGGAATCTTCAATAAAAATAAACATTTTAAAATCTAAATTAAAATATTTTTTCAAGAATTCCTTTAAATCTATAATTGGTGGTAAATCTTCTAACTCATTTTTATAAGCTAAAAGTAAACAAAAACGAGAGTTAAATTCATTTAGTTCCTTTAAAGAAGCAATATTAATTTCTATTTCTTGTAAAAAGTAAGGTATATTAGCATTTATTTTTATTGTATTTCTCATATTCTAATTACCCCTTCATTGTTTTCTACTTTTTCAAATCATAAATTGAAAATATCTAATGGAATTTGTTCACCATATTCATTATCAATTAATGGCTTTACTTCGCTTCTAAAATATTCTTGAACTGCTCCTACTATAATTAATTTATGTCTTGCTCTTGATACAGCTACATTAAGTCTTTCAATTGATTTATAGAAATCAATATTTCTAGATTTAAATTCTTTAAACATTCTTTCTTCATTAAAAGATTGTTTTCCTCTTACAAGGTCTAGAATAATAATATCTTTTTCTCTTCCTTGAAAATTATCAACTGTATCAATTTTTATTTGATTTAAATATTTTCTATCGTTAATATGTTCTCTTAACATATCTCTAATAATAACTTTTTGTGATTTTGTTACTGAAATAATTCCAATTTGATTTGCTTTAATAGAAGAGTCTTGTTTAATTTTTTTAATTAATTCCACAATACAATATGCATTGTATTCATTAAAAGCTGAACCAAGCATTCTATTATTAAATAGAGATATTTTTTGGTCAAATGATACTTGCTCAGGATAAATTCTTATTTCATTACTCCATTTAGAGTTATCTCTAACATATTCAACAAACTTTGAACTTATAAAAGAAGTGTCAATAATATTTACAGCATTCATATAAGTTTTGTCATAATTCAACTTTACAATTAAATCTTTTCTTTTAACTTCTGGTAATTGTAATTGTTCTTCATCATCATAAACAAAATTAACAATATCCATAATCTCTTTATTGAATCTATGCTGAACATTTAAAAACTTGTAAGCTTTTTTATCTCCAAAACCTTTCAATTTTTGTGCATGATTTTTAAATAAAGGAAATAAGAATAATTTTTCAATTTTTGTTTTAAATAATTTAAATTCACTTTCATTTTCTTTTTCATCTGGATCTTTTTTATGTTTCGCTTGAAAATATTTCTTTAATGTATTCTCATCAATATCTGATAAATTTGGAGGTAATTGTCTATAATCACCTGCTAACATAACTTTATCTGCTAAAAGGGCTGTATTTAAAATTTCAATTGTTGTTGATTTGGAAACCTCATCTATTATTTCAAAATTAATTGGATAATCAATAAATAAGTTTCTTGTTTCATTCAAATATGAAATACTTTGCTTACCTGTTGTAGTAATACCTATAACATTTATCAATTCATTGTTTAAAGCTTTTAAGGCAAATGACTCAATTTCTTTTTTATTAAGACTATTATCAACTTTGCTTTTAAATTTGTTACTCAAATTTTTTAATTTATTTAAATATATTTTTTCGGAAGAAACATTTATTTTTTTAAGTATTACTTCAATAATTTTATTAATTGAAGTAACTTCTTCGGTTTTAAATTCTCCATGCATTTTTATAAATTTTGTTATGTTATTATCAAGAGAATAAAAATTTTTAATTTCTTTGTCATATTTTCTTTTAAGAAATAAAAATTTATTATCTAAAACTTCCTCTTTTGTTATTCCATACGTTAGACTTTCTCTTATTTCTTCTTCAATATTCTTGGCAATACTTTTTGAATAAATTCAATTAAAGTCTTCAAATTTGTATTTTTCATATTCCCGATTTTTAATCATTTCAAATAAAAACGTTGGAACAAAACTTACTTCCTCCTCATTTGACTTATAATTATCAAAAAATATTTTTAAATCAGTTTCTCCTTGAACATCAAAGTCCTTTAAAACAAAGTTATCAATTGCATATACAAAATTTTGATACATATGTTTATAGTCATAACCCTCGGTACTTAATTCTTCTTCTTTATCTCTCACATAAGTGTTTTTATAGAAAATAATATTAGGATCTGTTCTAAAAAATTCCCTAAGTCTATCAAAAGCATTATTGATTGCTTCATGAGAAAAAGATGTAATTAAAGTATTTTCATTTTTTTTAGAAATACTATAAGTTATTGCAGCAATTGTTTGAGTTTTTCCAGTACCTGGTGGTCCTTGCAAATAACTTAATGAATTTGATGATAAGGCCATTTCATATGCTTCACGTTGTTTAGTATTTAAATTCAAACTAATATCTTTTTCTGTACTCAAAGACAATTTATTAAGTTCGATACATTCTGGATATTCTAATGAAGTTGCTAAATATGGATTTCTATAAATACCCTTCTCTAACATAAGTATTGCAGAATAATACCTATTAATTTTTGTAAATAAACCCAAATCAAAATCTGATAAATATCAAATTTGCTTACCCTTGTAATCTTTTTTAAGTAATGATGATAATTCAATTTCATTAAAATTTATTAACTTTTCTTCATCATCTTTTGGGTCTGTTTTTAAAATTACACTTTTAAAATTATATGTAGAAAACTCAACACTATTTTTAAGTTCATTAAAATTATTCACATCTTTTTCTAAACTTAAAATTAAATGATTTGCTTCTTGATTTAAGTTTTCTCATTTATTTAAGTTGTTATTAATTTTATTTAATTCAGTTGTAACCTTATTAATCTCTTGTTTTATATAATTTAATTTACTATCTAATTTTTTTATATATAGATTTATGGATTTTTCCTTAGAATTAAAAACCTCTAAATCTTGCTTCAATTCTTTAAGAGTTTCTGTTTCTTTTAAACTATTATTTAATTTACTTTTTTTATTTTTACTTGTCTTTTCAATGCTTTTTTCCAGAAGTTTTATATTTTTTTTAACATTGAATATTTCTTCTTTTATCTTTAAATGTTCATCTGAAGCTAGTTTAGTAGTTTCTATATGCTCTTCCTTATCTTTTTCAAGTTTCTCGAAATCTATTTCAACTTTATTTTTATCAATAAATAGTATTTTAATTTTGTCTTCATTTACTTTAACTTTTTCTAAATTTTTAGAAATTTCTTCATTTATTATAGTAATTTTATTATCAATATAATCTTGTATATCAAAATTTTTTAAAGAACTAATTACAGCACTTGTCTTTATATCATCTCTTTCACTTGAAATAATTTTATATCTACCCTCTGCTATTTTTGTTTTACTGTCTATCATTAATATTAGATTATCTTTTTCTAAACTATTTTCTTCTAATGTAAAATCTTTTAAAGAAAGTAGTTTAGCTTGTGAAGAGGTTTTTTTCTTATCTCTTAAATGTTTTCTAAAATCAATAATAAAATCATGTCACCCTCTTAAATTCAAACCTTCATCAGATCTTCCAGTTAAAATATCAGATCTTGATAAATCCTTGAATAGAGTAAAAAAATCATCCTTATTTTCAAATAGCTTTAAAATATTATTTTTATTTTCTTCTACATACTCAATATTATCAATTAAATTAGTTATTACTTTAATATTAAGAGACTTAACATATTCATAGCCGAAGTCTAATGACTCAACTCTTGTTATATCAAATCATAACTTTATATCAGAATTAACATCTTGCATTGTATTATTTTCGTCTTTTTCATAGCAAAAATCTGCGTAAATAACAATTGAGTTTTTTAATAAATTAAATTCTTCTTTAGTTTTTTCATCAAATTTAAAAATGAAGGCCAAACCAGATATTAATATACCTTGTTTATCTTTTGATTCCTTTAATTTTCTTTCAAAGGCATGAAGATTTCTAAGTGTTGAATTTTGATTTTTATCATTACTAATATTAGTATCAAATGTTGATAAATTTAAATACATTAATTCTTTCAATGATTTCTCATTCAACAATTCAAAAAACTTTAAAAGGATAAATTCATCTGATTCAATATCAGAATTTAATATTTTTTTGATTTTTGATATAACAATATCTCTACATAAAATATCATTATTTTTATTAAAGGCTTTAATACCTATTTCCAGTTTAAGTTCTTCATAATTTGACTCTTTCTCTGAAATTTTAAATTGTAAATTCATAAATTCTTTTTTCCCTCTAGAAGTTTATAAAATTATTTATAATAAATTTTTTCAAGTTGATTAATTAAAAATTTTATAGATAAAGACCTACTATTTTTATAATAACACATAATAGTGTTTAATATATATTTTAAAATGAAAAAGTGGTCTTATTTCCCACTTTTAATTCTGTTACATTTTATACATAGAATTTGAGAATTATCAAGTTCTGTCTTACCAACTTTTGTGTGTGATACTACGTGGTCAGGTTCAAAATCACTTATATTTTCTAATCTTTTATTACAATATGCACAAATATGCTCATTATTATTTCAAATTTCAAATTTTTCATCATAAGTAAAGCTTCTTTTTTTATCTTTAAAATATCTATTTAAAATATTATCAACAATATCAACTCGATTTTTCGCATACTTAAAATCATCATATTTATTACTACTATCTATTTGAACTTCATTAATAGCAGTTTGAACACTATAAAGATTTCTTTTTAAGGAATCTTTATAATGCAAAAAGAAATTTTTGTGTTTTATATTATTCTAAAAAGACATAAAAATAGATCCAAATAATGTATAAAATGACTTTATTTGCATAGTATAATTTCCTACAATTCAAAACATCAAATTCATAGTTTCTTTAAAAGCAATTAAATGTAGTTCGCTTATCATAATTCTATTTGTAATAATATTTCCATATTAATTCTAACAGAACCCTTTTGTTTTCTTTTCTGTATATCAATTATAGAAAAAAACCTAATAATTAACTCTTTAATTGTAAATCTATTATCTTTTTTCATTATTTAACATTTTCATTATTTTTTTATCCATATCTAAATTTCTTATTAACTTAATAATTTATTTCTATGCCTTGGTCCTTACTTCTACCTTACAATTAAGATTATTTGTAACTGACTTATTAATTACTATTTTAGATCTTATTTTGATTTTTTTATAATTTTATTGCTTTTTTTATTCCAAAATAATTTCTTATTCTATAAAAAGAAATAAGGTTTTTTTCCAATATTTCTATTTTCAACAAAAAAATAAAAAGCAAGATATTTTCTTTATTCTTTTAAAAATTATATAATCATTTTAAGATATTCTTTGTACTTTTCATTTTTTAAGCAATCAATAATATTTTTAATACTATAATCATAATTTATCATTTCATAATCCAAATTTTTTAATATTTCTGATATAAAATTACTATTCAAATCCATCGAAGTAAGTAATAATAATATTTCTTTTTTAGTAGTTTTATTATTAGTTTTATCTTCTAATTCATCATTATAAATTATTTCATCCATTTTATTAGGAGTATCACTAAAAATTATAGATATAAGATTATTAAAAAAAGGCTTTATATATTTTTCCAAAATATTATTTCTATTTTGTATATAAAAATCAATAAATTTACTCATATGTACTTTATTATTTGAATTAAATTCTTCATCTGAATCTGATGTCTTATTCGTTACAATTGATTTATTTTTATCTGAAATATAAATTATTTTATTTGATGAAGATAACAAACTTAAATAATTTTTATATCCATTTTTAATACTTTTATTAAAAATAAAATCATCAAATACTAATCTAATTTTATTTAAAAAATTATTATTATCATTATCTATTAAATAATATTTTTTAAATAAACTAAATATATCATTTCTAGATATATCACTATTTTTAAGTTTAATTAAAGAAGTTTTATAAAACTCAAAATTATCCAAAACTAAATTTTTAAATTCCTTAACTTTAATAATAGGACTTACAAAATCAGTTAGATTATATTCTTTAAAATTATTTTCAATATTACCTTCTGGATCAATAATTTTTTTTTCAACATTATCTAAAGATACTGATAATTTATTACTAAATTTTACATTATTTTTTTTAGACTTTATATTTAGTACAACTTGATTTCAATGTTCAATATTTCTTTCTTTGTTTAAATTTAATTTTTCTATTATATTTTCTAATTCTTTTTCATTTTTCTTAATATTATCAACAAAAATTGAATCTGGATCGAAATTAAGGAATGTATCAAATACTTTCCTTATATCTGTAAATACCTCACCAACAATTTTACTTCCTAATCTTCCAACCCTTCCAACTAAATTGGCCAGATTCAAATAGTCCGCCTTATTTCCATCAGTTTTAGAATTCAATATTATCAGTCGTTCGCAATTAAGATTAACTCCATAAGTAATTGTACTAGAACAAAAAATATAATTAAAATCACTTTCTCTAAAGCATTTTTCTATCATTCTTCTTAAAGTTGCTTCCATATTACCATTATGAATTAAGCAATTTCTTTTCATGAAATCAAAAATTCTATAATCTTCAAATTCTGTTATAAATTCTTTTATATAATTACTTATAATATTTTTTTTAAAATTATTATTTAAATCATGAATAGGAATTTTTGTTGTATCTAAAGAATAAATTTCTCTATTAGAGATATACACTATAGTTTGTTTTTTAAAGGCAAGTATTTTTTTTCATCAGTCCTCTTTAATTTCAAGATTAATTCCCTCATTTTTATTAAAAAACATTCTATTTTTATTCTTGTCATAAAAATATATCAATTGAGTTGATAAAGAATTATCACTATTAAATTCTTTTACTTTAAAGTCCGAAATTCTATCTTCTATTTGTTGTGCTGAATTTTTTAAATAAGGTAACAAAAAATAGGATTTTATATTTTGTTTTTTTGCAATTATTAATAAATTTCAATTAAAATTACTTCTTTCTTGATAAGGATTAACCATTGTTGTATAGAACTCATCAAATAAAAGTACGGTATTTTTATTAATTTGAGACATGTTGTTAGAAATTAAATTTAAAGCTCTCTCCTGAGTTAATATATTAATCGAATTACTCTTATAGATTGAACTTAAATTACTTGAAATTCCCATTTTATTAAAATTATTAAAATATTCATTTACTAATGAAAGAGTTGGAACAATAAAAATAATCATTTGACCATTATTAAATTTGTTTAAAGCATATCATCTAATTAAAGTTGATTTACCAACGGAAGTCGGCGCTGATATAAGTAAATTATTATTATCCTCCATTTGTTTTAAAGCTTTTTTCTGAAATTCATTAAATAGGCTATTTTCAGTTATGTTAACTGTATTTTTTATTCTGTCAATATAATTAGTTATATTTAACTTATCTATATCCGAAATTTCATTTAAACTTTTTTTATCATTATAACCCAATTTATATTTGAACATAAATTTTCGTAATTCATTTATATCTGTAAGTCCCTCTAAAATATTATATATATCCTTCAAATAGTTTTTTATTTCAATATTTGATTCATTTATTCAATATAATCAATTTATTATTCCCGAAAAATTATTTATATAATCATTTTTCAATTTTATCTTACAATAATTAACTTTAAGATATATTTTCTTTAGTAGATCTAAAATTTTTTTCAATAAGCTTATATTATTCATTAAAGAAAGCCTCCAGATTTTGATAAAAATTATTTAAATGATTATCCTCTATTTCATAAATAGTTTTATCTACAGGAGAAATGATATTTATTTCTAACTCTGGATTTAGAAGATTATTTATGTATTTTTGAGCCAATTTTTCTACATTTTCTCAGTCAATTATTTTATTTGAAAAAAATACAAGTACATTTAAGCAATTTTTATATAAGGAATCTTCAATATAATATATTTTTTTGTTATCTTTTACTATCACATTTTTTTGTTCATCATCACTATCTAATTCTATAAATTTACTATATATATTTTTCAACTGCTCAAAAAATAATTCATTTAATTGTTGATGCAAATTTTGTTCTAGGTTTTGAATTGTCCATAAGTCGTTAATTGCTAAATCTATATGTTCTTTAACATTAGCAAATGTTCCACTTGAAATTTCCTGAATAAATAGAGACTCAAAGCCTTGCTTTAGTCTCTGATTAAAATTACTATATGAGCTTTTTGATTCTAAAATTATTATTTTATTTTTTTCTCTAGATATGAGTATATTATCCATTCCAAATTTAGCATTTTTTCTATGCTTATTTGGTCTTCAACCTATTGCAAAACAGTCATACTTATCTGATATATATGCAGATGCTAGGTATTCAAGAAAAATTCCGATTGCGAACTTTAATTGAGAATTTCTTTGAAAAAAGTCCTTTGGAAAAGTTAAATTGAAAGCTGGGTTTCTAGTCGCATTGAATAAATCAAATTTTCTTTGCTTAAGTTTTTCTTCTAGTTCTTTTAATATACAATTTGCTTCATCATTTCCATTCGATTCTATTAGAAATATTTTATCTCTCATTTTTTACCCCTATTTAATAAGCATTATAAATAATTTGCTATATATTAAACCCTTCTAAAAAATCCAACATTAATGTCTGTCAATTTCTTCATAATTTTTCACGATTTTTTTTAATATCTTCAACTTTATTAATAATGGTTCTCTCATTTCCTTCAATGGCTTCAATTGACTTTTGAATGATTCCTTTAAATGTTTCAAATGATTTAAGTTTTCATGAATTAAATTTTTCAAATGCTTCATTGTTATCTGATTTATCTCTTAAATTTGATTCAATCAAAATTAATTTTCTTACCATTGATGAAACAAAAACAAAACTATCAGGATCAGCAATTAAAATATTTTTATTTTTTTGTGAAACCAAGAAAGGTACTTTGAATTTTTCTCCAGTACTTGTTGCTACAAGAACTGCATAATTTGCTCCTTCCTTTGCCATGTCTTCTGTTAACTTGGGTTCTCAACTATCTTTTCATTCTCCATTTTTACATTCAAAAACTATTTTTCCAAGATCTAATTCTTTTTCTCTAACTACTTGTAAGAAGTCAGCTTTTGTTCCTGTTCTTGTAATTTTATTTATTTCATCACCTGTTAAAGAAGCTAATTTTCTTAATTCTAATTCAACTTCATTTTCTCAGTTTTCACCTTTTGTTTTATTATTTAAAATTCTATTTGTTGCATTAGCAACTTTTAAATCAGTTATTTCTTTTTCTTTTGAAGAAATAACTTCTTCATATTTAGTTTTAAGTTCCAGCTCTTTTTGATTTAATAATAATTTATTTTCACTTTCAATTTTTTGCACTTCTAATAAAGCTTGAGTTGTTTTAGCTTCTCACTGTGCTTTTTGTAAATTAAAGTTACTTTCTAATTCTAATTTTTGTTTTTGAAGTTTTTGTTCATTTAATTGGTCCAAAGAACTTGCTTCTGCTTCTAATTTTTGAATTTTATTCATTAAAGTAGTAACTTCAACTTGTTTTTCTTCCAAAAATTTAGCTTTTAAATTTGCTTCTAATTCTTTTAAATCTCTTTGATTATTTAATTTAATTGCTTCAATACTTGTATTTAATATATCAATATTATTTTTCAAAGAAGATACAACTTTTTCTTTTTCAAGTTCTAAATCTTTTTTTTGAGATTCAAATTCAAGACTATATGTTTGATGTAATCTTGTTGTTATTTGACTTTCAATTGTTTTTGTTAATTCTTCTTCTAAGTGCTTTTTAAATTGATTAATACTTTCACTGTCTCTTGTTCCTAACTGTATTAAATCAATTTCTTGATTACATTTATAACAAGTTATCAGTAGTTTTTTCATCTAATAATTCCTCTTTTTCTTTCTTTTAGAGGAGCTGGAAAAGTTATATTTATCCATCAAGAACTTTTTATCTATCAGTAATAATTTAAACTAACTCTCTTTTTGTGTTGTATAAACAACATTTATATATTAACAAAAAAAGTAGATATTTTTTAAGTTTTATCTAATTAATATTTTTAACAATAAATATTCCAAACATCTAATACCTCCAGTTATTATGAAATTCCAGAATAAAAAATGAAACTTATAGTTTCTCAAACTCTTTAGTTTTTATTTACTTCTTTATTCATTGAAATTCCCAATAAATTCATCATTTTAATTTCAATAATTGTAAGACAAATATAAATTATTTGCTTATTAATTAAAAAATCTTTTAAATATAGTCATTTAAAAGATTGATTTTGATATAGAAATTTAGTTAAGAAGTGAATTAGAATTTTTAGAAATAATTTTTCCTTGAGCTGTTTTTTCATTCCCTCCACCTTTAATTTCAAAGTGTGAATGATTTGTCATTTTTTCTAAAGCATTGATTTTAGAATTTGACTTGCATAAATAAATGCTTGACTCTAAATCAAACACCTCAACAAAACTATTATCATTATTTTTTAAAATTAAATCCGCTATAAAATTTAAATCCTTATTTTCTAAAAATGACTCATTAATTGAAAACAAATTATAATCTCCTGATAAAGTTGGAGTAGCATCTTTATATTTTTTGTATAATTCGTCCTTCTTTTTAGATTCAATTTTAATTAAAAAATCAGGAACTTGAACTTTTAAATCAGTTGCTAGTGACTTAAATTTTATGTAATCTTCTCATTTAATTTCTTTTAAACCACTATATTTTTTTGTTAAATGCAATCAAGCATTTAACATCATTTCAATATTGTCATCTTTGCCATACTTATTTTGGTTGATATATTTTAAAATAAGTTGTTCAACTTCCTTATATTCTAATTGACAAAAATTTTGATATGCTAAGTTAATTTCTTCTATTTTTGTTTTAGCATAAAAACGATAAATTCCACTACCTTTATTTTCATAACTTGTGATTAAAAAGTCTTCAATTTCTTTTAATGAATCAACATGTGTTCCACTACAAAGTTGAATCGAAGCCGTTTCAAATTTTACAATTCTTAAGTCACCTTCTAATTCTTTTTGATTAAATTCAATTGCTAAATTATATTTATTTTTAGCAGTTTTTGCATCTACAATAAACTCTTCTTTTTTAGCATTTGTTGCCATTTTTTGTTTAACAACATTATTTAATTCAAAAATATTTGACCAAGAAATTTTTTGCTCAATATACATATCCATTCTTAAGCCATTTTGATCATTAAAATAGCCTTTACCAATACTTGTGGGATAAAGTTCACGCAGTGTATCGAAAAGTAAGTGCGCTGCACTATGATTTTGACTAACTAACTGTCTGTGAGTTATATCTAATTTTGCTTTAACAAGTGAACCTACTTTGATATCACTAATTAACTCTACTTTATGAACAACTTTATCTTCGCTAATTGCTAAACCTAAAATTTTGTATTCTTTATTATTAAAAATAATAAAACCTTGATCACTAATTTGTCCTGCTGATTCTGGAAAGAAAACAGTTTCTTGCAAATACATTAATGTAAATTTGTCTTTATTAACAAATTCACTAACACTTGTTTCAACTTCTATTAATTCATATCCTTTAAAATTTTTTAACATTTTTCTCCTTTTAGTTAATTTAAAAATCTATTTAAATTAACTAATATAAAATGATTATAATTTTTAATATTAAAAATTTCAATACCTACATATTAGTTAAAAAATTGCTTATTAAAGAACTTTAAATCAATTAATATTCTATAAATATTGTTCATTGTAGCCCAATTAACTAAGAAATTACTTTATAATCAATAAGTAAAGAGGAACTTTAATATCATGGATGATAAACAATATAAACAAGACTTATTAGAAGTCTTTGAAATAGCTCAAAAAGCTATTGGCAAAACATTAAGAGAATTAGCTGGCAATAACTTAGATCGAATAAGATACTTTGATAATAAAGAAAAAGTGAAACATGTCATTCAACAAGCCGTATTTGATATTGGTTTAATGAGTAAAATGGAATATACCTTTGAAGACCTACAATTAGAATTAAAACCAGTGGCACTAAAATATAACAAATATGGCGAATTAATTGTTAAAGAAAGAATGGTTTTAAATGACATTTATTACGATGAAATTGTTAATGAAACATTTAAAACAAGTCGTTTTATTAATAAAAATCAATTACTTTTAATAATGACATATATTCATGATTATGAAAAAGACTTTTTGGACTATCAAATAAAAGATGCTTTTATTATTGATATTAGTCGACAAAAGGAATTCTTTTTAATTGTAAATGATTGACTTGCTATTCAAGAAAAAGTGAAAAAAGGTAAAGCTGAGGATTTAAATGAAGGTTTTACAAATATCTTATCTGCTTCTACCAAAAGTCAAAATCGAATTGATTTAAAAAAACAACCCTACTCAAATGTTTTAGTAAGATTTAGAAACTATTCATTTAACATTAATTTCTTAAAAGAAATCATTTCAAAAAAAATTAGAAAAATAGATTATTTAAATGAAATTTTTGAAGAAAAGGAAGTAAATGATATTTCTGATTTTAAAAATGAACAAATTGAAGAATATTTAAAAAGTATCATTGGAACAGATATCTCTAGTTATACAGAATCAAAAGCAAATCAATGACATCAAATGGCTTTTGAAAATTATTTAAAGGAAAATAATAAAGAAATGTATGATTTTATTAAAGTAACAAATTATAAGTTAATTCATAAATTAACAGATAACAGTAACCTTCAAGAACAAATTTCAACTAATTATGAATTGGACCCATTTGAAATTTTAAACGATGAATTTGAAGAAAGTACCTTTTATCAAGATATAATCTTAAAAACTTATATAGTAATCATGATTGATAAATCTAATAATCAAGTTTTAAATTTTAAGTTATTTAGATTAAGTGATGCTGATATTAAAAAAGCTCAAAGTGTTTTTTACAATGCAAGAAAAGAAATTCAAAGAATTATTGCTATTGGTAAAACAGAAGAAATAGAACCAAATTTTACTAAAATTAAAGATAACTTAGCTATTCATTTAAGAAAAAGTAAAAAAGCTAACAATACAATCTATAAAGTGAACAATAAGGAATTTAAAATTCCCTCTTATGAATTCTGAATTAATAAAGATGTTATTTATAAATAAAAAAGATTCCTTTTAGGAATCTTTTTTATTTATATTTTTTATTTAAAATTAAGCAACTTTAATTTTAGCAATAACTGAAAACTCGATTTTATCGCCATCTTTAATTTTATAACCATCTTTTGCTTTCACTTTAACATCAATAGTTATTTCACCAGTTTCATCATTGGTTGTAGGTTCACCATCAATTACTAAACCTTCAGTCAATTTAACACCTTTAACTGCAGCAATAGCTTCATCCTTATTTTCAAATTCTCTTTCACTTGTAGTTGCATTTAAAGCATCTTGAACATCAGATGTTGAAACCTCAACAATTTTTTCTTTAATTGTAGCCTTAACTGAAAAATCAGTTTTATCACCATCTTTAATTTCAAAACCAACTTTTGCTTTCACTTTAACATCAATAGTTATTTCACCAGTTTCATCATTGGTTGTAGGTTCACCATCAATTACTAAACCTTCAGTCAATTTAGCACCTTTAACTGCAGCAATAGCTTGATCTTTATCATCAAATTTTTTTCCAAGTGTAGTTGAATTTAAAGCATCTTGAACGCTAGATGTTGAAACCTCAACAATTTTTTCTTTAATTGTAGCCTTAACTGAAAAATCAGTTTTATCACCATCTTTAATTTCAAAACCAACTTTTGCTTTCACTTTAACATCAATAGTTATTTCTTCAAATTTTTCACTCGCTACAGGTTCACCATCAATTACTAAACCCTCAGCCAATTCAGCACCTTTAACAGCAACAATAGCTTGATCTTTATCATCAAAGTCTTTTCCACTTGTAGTTGCATCTAAAGCTGCTTGAACAGCAGATGTTGAAACCTCAACAATTTTTTGTTTAATTTTAGCCTTAACTGAAAAATCAGTTTTATCACCATCTTTAATTTTATAACCAACTTTTGCTTTTACTTTAACATCAATAGTTATTTCACCAGTTTCACCTTTATTTTTAGGTTCACCATCAATTACTAAACCTTCAGTCAATTTAACACCTTTAACTGCAGCAATAGCTTGATCTTTATCATCAAAGTCTTTTCCACTTGTAGTTGCATCTAAAGCTGCTTGAACAGCAGATGTTGAAACCTCAACAATTTTTTGTTTAATTTTAGCCTTAACTGAAAAATCAGTTTTATCACCATCTTTAATTTCAAAACCAACTTTTGCTTTCACTTTAACATCAATAGTTATTTCTTCAAATTTTTCACTCGCTACAGGTTCTCCATCAATTTCCAAACCTTCAGTCAATTTAGCACCTTTAACTGTAGCAATAGCTTCATCCTTATTTTCAAAGTCTTTTCCATTTGTAGTTGCATCTAAAGCTGCTTGAACAGCAGATGTTGAAACCTCAACAATTTTTTCTTTAATTGTAGCCTTAACTGAAAAATCAGTTTTATCACCATCTTTAATTTTATAACCATCTTTTGCTTTCACTTTAACATCAATAGTTATTTCTTCAAATTTTTCACTCGCTACAGGTTCTCCATCAATTTCCAAACCTTCAACAAGGACAACTGCTTTTAGTGCATCAATTGCTTGTTGTTTATTTGCAAACTCTTTATCTTTTACTGCTGCATCTAATGTATTTTGAACTTCTTTTGTAGAAACTTCTTTAATTTCTGACGCAGTATCTTTTTTTACAGTAACATCAATTTTTTTTGATGATAAAACTTCTTGTTTTCCCTCTTTTTCAATATTGTATGTAATTGTTAAAGTTTCTTTAACATCCTTATCTTTTGGTAACTTAAGTGGTATAACACTAACTACTACATCACCATTTTCAGCTACTTCACCAAAAGAAACTTTTAAAATTGATTTCTCATTCACATTCGATACTGATTTAACAATTGCCTTATCATTTCTAGTCCCTAAATTTATTGTGATGTCTTTTGATTCAATTTTAGAAAATTCTAAACTAGAATTTTTTTCTTCTTCTTTATCTTTATCTCCACCACATGCAACAACACTAGTAGTTGCTGTTGTAACTAAACCAGCTGTTGCTAATAATCCTAATAATTTCTTCATTCTTTCTCCTTTTATTAATTATTTAATAAAAGTACCTTGTTACTCATTCAAGTCAATTTCTATTATACCTATTTACTTACTTAAAAAATCACTACTCATAAAGTTAAACATATTTTTAATTAAAATATTTTGTTGAAAAAATGTCTTTTTTATGTTTAGTTTTTAAAAGAAACTTATAATGAACTATACAAAGCAAAAAAAAAAAAAAAAGGTTTCTCTAAAAGAATCCTTTTTTAAAAATCTAAGTATTAATTTCTAATATTATTTTGTTCAGCTTAAGATAATTTTAATTTTTCCTTCTTTATAAACTTTTGAACCTTTATTAACATTAATTGTTAATTCTCCATCAACAGCTGGTACTGTTGCAGCATCTCCATCACCTGGTATTTCAGCTACAGGAGCTTTTGTTAACTCTGGAGTAACTTCTTCAACAACTAAATTCGCATTATCTTTTTTAACATCAACTAAATAAGCAGCTGCATCTTTAACTTCACTAATTTTTAATGTTGTTTTAGTTACATGAGTTGCTATTTCTACTAATTCAGGTGCTACTACTTCACCTTTTTTAACAGTAACCTTAATTTTTGTTGTTGTTAAAATTTCTTGTTTTCCTTCAGTTACAACACCATAAGTAATTGTTAAAACTTCATTAACATCTTTATCTGTTGGTATTTCTTTTGGTGTAACAGTAACTACTACTTCACCATTTTCAGCAACTTCACCAGTAGAAACTTCTAAAATTGATTTATCTTTTGCATCTGATTCTGATTTAACAACTGCTTTATCAGTTTTTTTACCAATATTAATTTTTGCAGTTTGTGCTTTAATTTCTTTAAATTCTAAAGATAAATCTTCACTTTTATCTTTTTCTCCACCACATGCAACTACTGTTGCACTTGTTGTAGCAACTAAACCAGCTGCTCCTAATAATCCTAATAATTTTTTCATTTTTTATTCCTCCATACTTTTTTTAAAAGTACCCACACACACATATCAAGTTATTATTATTATAATTCAATTTAATAATCTTATTTTTTTGGTTTATAAGATAAAAATATTTTTATTAAAATGAAAAAAAATTGTATTTATTAAAAAAAAAAAAAAAAATGGAATATTAATGTAAAATATATTATTCCATTTTTTCTTCTAATTCTTCCACTTGTTCTTCTAACTCTTCAATATTTTCTTGAAGTTCTTCAATTTTTTCTTGCATATTAATTATTTCTTCACTAAGTAATTCATTTTCATTTTTTATTTCAATAACTGACATTTCTTTTAAATTTTCATTTAATTTTTTATCTTTCTTAAGTCGATTTAATGTAACTTTGTCTTTTATCTTATTTGAAATTATAAAACATAAGATAAATAATGAAGCTGCCATCGCTGATAAATTAGCACACCCAACTTGTAAGTCAACAGGTTCTTTAATAAAAGCATATGTAGTTCAAATACATGCATTTAAAAAAGTTAGAAAAAACATAATTGGTGAAAGTGCTTTTGTATTTTTAGTTACGCACACCTTTATTACTTGAGGCAATAACATTGAAAAACTTGTTGCAAAACCAATTCACCCTAATATATCATTTGCAAGCAATTTTGAAGATGATGTTAATAGCATAATAAAAATCTCCCTTATTTATTTATATTAACAAATAAGTGTAGTTGAAGCAATATTAACAATCAATTTCTTTATAGTTAACTTTCCAAAGCCTTATAGATAGCTTCCATATTTATTGGTAATTTAAGTAAATTTTTCAAAGGCAAATTATTTTTAATTAAATATAGAAATAGAAAATTTAATTGCTTAAAATTTTCAATTGCTACAACCAATGAATTTTCTTCTTGATCATATTTAAAAGACTTTATATCTTTTTTTAATAAAAAACTACGAAAATCTTGTTCTTCAAATTTTTCACTTATACACACTTTATATTTTGAATATATATTTAATTCCTCTGCCGAACCATTAAAAATATTTTTTCCATTATCAATAATTATAAAATCATCAATAATATCTGCAATTTCGTCAATATTGTGAACAGTTACTATTATTGTTTTATCCTGCCTTTTAGCTTCCATTAATATGGTTTTAATTTTATTCCTTCAATAAGAGTCTAAATTTGCCCCAGGTTCATCTAAAATAATAATTTCTGGATCCTTAATAAAGCATAGTATTAAATTCATTCTATTTTTCATTCCCCAAGAAAAACTTCTAATTGGTTTATCTTTTGATTCCCAAATATCAAAATACTTCATTCAATATTCAATTCTTTCCTTAGAAAACTCTTTTTTTAAGCCCATCATTATACACATGTCCAATAAAAATTTATAGGCACTTACAACATATAAAGAAAAATCCATTTGAGTATAATAGCCTACTCTGCTATTTACTGAAAAATATTTTTTCTTTTTTCTAGAAATATTTTCAATTCTAATATCACCTTTGAATTCTTTAATTATTCCCAGTAGAGAATTAATAACAACAGTTTTTCCACTTCCACTACTTCCAAGCAAAGCAGTAATTCTTCCCTTTTTAATTGAACAGTTTAGAGGTCCAATAACTTTCTTTTTGAATTTTTTTAAATAATTTTCAAATCTTATAATCTTTTCCATTTTTTTATCCTGTTAAATCTAATTTTTTAAATTTGCTTTTAGCTACATAGTAATTAATAAAGGCAATAATTGCTTGAAAAATAACATAATAGTATGGAGAAATAAAATTATTATATGTTTCTAAGTCTAAATGATCATTTGTATCAAGTTTAAATGTATAGGTTGGTTGGGAAATAAATAAATTATCTTGCTTATTAAAAAATATTTTACTTGAACTTTCAGGTTCAAATCAAATATCATCATAGCTTCTTCCACCAAAATATGTATAATTTTGTAGCATATTTGAAAGAAAGTTAAACTGAAATGATATATTATATGTCGATCTGGACTTAATGTATTTTATTCAGTTATTATTTTTAATCACACTACTGTTTTTAAATATAACTATATTATTTGTATAGCGAATAAAATAGTTTTCCAAAATTCTAGCACTTAACATTGTAGGAAAAAATAAATCCTCTTTGATTAAATTATTTATCTTCTCAGCTTCCAATTTTAATTTATTATCAGAAAAAGAATAGTGGCTTTGATATATTTCAATTAAATTCTTATCATTAAGTAAAATCTTATCTTCAGTTGGTTTTGTTACATTTTTTATATAATTTTTATCAATATTATCTTTATCATTTAAAAAAATAAATGCATCAAATAAATTGTAAAACTTATCTTGAAAATTATTATTTAAGTTAATTATCAACTTTGTGAATTTAATAAACTCATTAATAATTTCTTTTTTATTTTTATCATAATTATTTGTCTTAATTTTTTCTTCTAATTCATTAACTGTCAAAAATTTATATTTTAACTCAAATTTTAATTGAATATTATCTCCTCTTCATTTTAATAAAGGAGAGTTATTATTTGCAGAAATTATTTTTGTAGGTTTTGTTAATGCAACTACTTGCTTTTTCTCCTCTACAATTCCTAAATCTACTCAAAAATTAATTCTTTTTTGAATGCTAGAAGCATTATTAAAATTATTTTCAATTGAATTAGGATCAGTTTCAAATTGGTTATTTATAAAAGTTTTGTATATTTGCAAACTCAAATTTGAATATTTAATTTTTTTGTTTATAACATGCTTTTTAAGATTAAAAGAATCATATATTTCATTAACAGATATTGCTGTGTTTACATTTTTATAGGAAAGAATTACACTCTTACTTTCTTCACCTTGTATTAGAAATGTATAAGGAAGATTACTAATAAAAGAACTAGCTAGTATCAATGTTGCTATAATTGTAGATACTTGTATATTTGCAAATAATGATATTAATAAAAAGAAACTAATTAAAAATACACAGCTTATAAAAGCATAAAATAAGTATGTTGTTGTAATTCTTATTAGAAAGAAATTTAATTGTCTTACAAAAATTAAATTAGTAAAATTTATTAATAAATATGCTATTAATAAATTTAGAAAAATTAATAGGATAAATGAAATAAACTGGTAAGTAAATAATTTTGACCTAGATAATTGTTGTGTGACTATAATATTTAGAGTTTTATCATCACGTTTTACAACATAAAAATATTGAGACAATCGCAAACATAAAATAAATAATATTATAAAGATAGATAACAAAAAATAATAATCAAAAATCAATAAAAAACCACTATTATCTTTTTGAATAACTGAATAACATGCTACTAATAAGGAAAATAATAAATATAGTCCATTAAAAATTATAAAAGACCGTTCTTTTATAATCGATTTAAAACTATATTTTATTATTCATCTTCCTGGTATATTTTTTTTCATTTTTAATAGAATTTATTATATAAATTTAATGAATTCTTTAGTACCCAATGTTTTTGAACCTAAGGTAATTTGGTCTAAATCAATATAAAAATTAATATATCCTAAGTTAAATAGCATAATACTATTATTTATATTTTCAGTTCCGTTATGTCATTTCAAACTAACACCATTTTCATTTGTAATTCAAGTAAAGTCAGTATAGTTTCAAACATTAGTTGCGGACGCATTTTCCTTTTTTTGAAATCCGATTACATAGTTTGAGCTTTCAGGTAAATTTGCTTTGTTTAACATTTCCATTCTTTCCTCAGTAAATGAAAAACGATCACTTAAACCAAAGTTCAAATAAAAATTATATGAATGATGATAGTCTCAAGTAGTTGTTTTATTTTTTTCTATAAATTTAGTAGTTAATTTTGAACTATTAATAATCATTAAAAGATCTTGTTCACTATTATATTCTGGATATGTGTAATTATAATTTACACCCATTGTTTTATGTCAAACTTTTAAACTATTAACTGAAAACTTAGCCATATTGACTAAAACCTTACTAGTTGATTGTTGAGTATCAATTAAATAATTAACAGCTATTCTAAAATCTGGTAGTTCATGAATATAACTTCCATCTCCTAAATTAATTGATAAACCAGTTAAATTAACATATCCAAGTGCTAATGAACTTTTAAACTCGTTGCTTTGAGTAATAGTTGAATCTTTTGGAATTGATAATTCTTTTAGAAACTCCTCTTTTAAAGTAGCATATGCACCTTCTCAAGTTTTATAATTATTATTTGTAAAATAGTTATTAACTAAAGATTGCTGAGTTTCTGGTCTATTTGGATCATTTCTAAATACTGTATTTAGAAATAATTTTCCCTCATCGTCTTTATAGTTAAACTTAGTTGAATTTATATTATTATAACTTTTAACAGTATTTGCTGCGTTAAATAAAGAAAACTTGTTCATCTCAGAAGATTTATAAATAAGATCTCCTTCAAATGAAAGTGGTAATTTACTACTTATTTCATTAAAGTAGTTGTCTTTAATGAAATAAGTAATTGAATTTTCAAATCCATTATTTTTAGCATTGTCTTGAAAATATTTTTTAAATTCTTCATCATATTTACCATAACCATCTGATTCATCTTTAGAAGCGTCTTTAATTTCATTTCATTTTAAATTAGTATGTTTTTTATCTGCTGCTGCTTCAGATAAAAAATAATCTTTAACAATATTTTTGTAGAAATTATCGCTACCTTTTTTTAAAGCTTCATTATTTGTTGAAGTATATTTAAAATTATCATTTATATCAAAAGTCTCAGTATCATTAATTCCCATATATTGAATCTGAACTTTATAATTACCTATAACATTTCCTAAGTATACTGTTTCTTCTTCATAAACTTTAATTACTAAAGATTCTCAATCAAATATAACATTTTTAATTATAGAGTTAACATCATTTAAAAGAATCTTATATTTATTGATAGTTTTTAATACATTTAATGATTTTGTTAATTCCGAAATATCTAGAACCTTATTTATATCTATTTGTAATTGCTGTAGGTCATATGGATCTATTTCCTCAGCCTTCTTTCCTTGATATTGCTTAATTTTATTTTTAGTTAAAAACTTATTCTTAACTTCCATTTCTGGTAAGCCTATTAAATTTTTATAAACATTATTTTCTAAATGCTTTTTAAAAATTTCATTAGTATCATTTTTTAATTCTTTAATTAATTCACTATTGTCATCAGGTGGCTTTGGACTTGTATTATCTTTATTTCCATTACCACAAGCTACTACAGTTATAGTGCTTGTTGCTACAAGACCTATACTCCCTAATAAGCTTAATAATTTTTTCATTTTAAACCTCCGTGATTATTTCAAATAATCACGATTATCTTATTTTAAAAAAAAAAAAAAAAAACAATAAAAAAGTGTAACATATAAAAGTGTTTATAAATTTTAAAGAGTTTTATAGTTTCTAAATTAAAAGTTAATAATAAAAAATATAGTTTCTTAAAAAAATAAAAAAGGATTCTCTCTATAATTAGTTTGAAGCTATATTTTATAATTTTGATATTTTTTTAAATATTTAAAAGAAGACATATCATTAAAATTTAAAATGTTCTATTTAATAGTTTTACAATTAAGAGTTTTAAAAATCAGAATATTTATTAATTATTTTTTTAAACATAAATGATAATTCTTTTGTATTATCTTTATCAAATCCCATCTCTTTTTCATATTCATTTACTCAGTAAATAATATCTTGAACTACTTCTTCACCCTTTTGAGTTAAATAAATTTCATTTTCATTTGCTCTTGCAGAGATTCTTTTAACAATATAATTATTGTCAAATAAAGATTTGATGTTTCTATGCATAGTTGAGGTGTTTGTATTTGTTAAATCAGCTAATTCTACTTGACTAATTCCTTCAACATTTTTAATAAACATTAAGTGTAGATACGCTAATGGATAAAGATCAGAATACTTTTTTAACATATCCTTACTTATTCTTTTACTTATTATAATAATAACTAAATTGCCCTTAACTAGAGTACTTAAATTATCTAAATTATATTGCTTTTTCATTGACACCTCACTAATAAAGTTATAAGATTATCTTATTTCAAATGAAACAAGTAAGTTTATTTGAAATAAATGATTTTATTCAAAATAAATCATTTTATAACTATTAAATATTATAAAGAAAAAAGAAAGGAATTGGAAAAATGGTTATTAAAAAGAGAAAAAAAGTGGAACTTTATTCTCATTTATTTCAAGCTATGAATAATAAAAAAGTTTTAACTTTTTTAATGTTAACTTTGACAATTTCAATTGCCTTATTATTTATATGAAATATTAAAGCAATTGAACTTATTACAGCGCTGTTAGTATCTAAAAGTGTACTTGATTCTATGCAATCAATTAATACAAATGATATATATGAAATAGTTCAAGAGATTGGACTACAAATTACTCCTGAACAATTAGAGAAAATATTGGCAGGCATTTCTCTAGGTTCTAATGTATATGAACAAATTATTCAAAAGTTTTTTTATGATTTTGTTTATTATGATGGCAGTAAATTGCATATCAAAATTTTAGGAGGAGATTTTAAATTATTTACCCTTGCCTATTCAATGATTGTTGATGTTATTGTTGTTGTTATATTATCTTATTTAAATTTCATTGTAAGTGGTTATATTGCCCAAGCATATGAAAATCAGTTAAAAAGAAAATTAATTAATAAAATAATTGATCAAGATTTAGATTATTTTAATGCAAATAAATCAGGTCAATTAATATCAACTATTATTAAAGATAGTTCAATTGTTGCTTCATTTATTAAAGAAGCACCAATTATTTATTTATTATCAACAGTTACAATATTGTTTTCAGCTATCTTAATGTTTAATATTAGTTGAAAATTAGCATTATGTGTCTTTGGTTTATTATTAGCATTTATGATAATAATCTTTATTACTATTTTAATATCAAATAGAGCTACTCGAAAAATAAATAAAATTACTCAAAACTTGGACAATGATATTAGTGAAAAAATTTACAGTATTAGATTAATTAAATCTATGGGAACTTTTAAATATGAGAAAAATCATTTTGATAAAATGATTGAAAAAGTTTCAAAAAAAGAAAAAAAGAAATTCTTAGCTTCAGAGATTCCTTCTGCATTAATAATTGGGGGAATTGGAAGTTTCTCAATGGCTTCAATTATTTTTGGAGTATTTCTATTTTACAATAATACACAATCTTTAATAAGTATTATTACTGCCTTTACAACTGGTGTTATTGTTATGACAATCCCAATCATGCAATTAAGACAAGTAATATCAGCTGTCCCCCACGCTAGAATTTCAGCCAATAACGTTAGTGAGATTCTAAAAAGTAAAATTGCTATTGAGAAATTTGAAACAAAAGAAATTAATGAAGAAATTAATTCAATTGAATTAAAAAATATTGGGTTTTTATATCCTAATACTGATAAACATGTTATTAAAGACTTAAATGTTTCCTTAGTTAAAGGAAAAAAATACGCTTTTGTTGGTCCTACAGGAAGTGGAAAATCAACAATAGCCAAATTATTATTACGTTTCTATGATCCACAACAAGGTGAAATTTTAATTAATAAAAAAATAAAATTAAAAGATTTAAACTTAAAATCTTGATTAGATAAAATTGGTTATGTTGACCAAGAACCTCAAATATTGAGTGGAACAATTTTTGAAAATGTTGCATATGGTTTAGAAAATAAAACTCAAGAAGAAATTATTGATGCTTGTAAAAAAGCAAAAATGCATGACTTAATTATGCAATGACCAAATCAATATGAAACAATTTTGTCTGAACGTGGTTCTCAACTAAGTGGTGGTCAAAAACAAAGATTAGTAATTGCAAGATTAATATTAAAAAATCCAGAAATTCTAATATTGGATGAAGCAACTAGTGCACTTGACAATATTGTAGAATCTGAAATTCAAAAAGAATTAGAAAAATTGATGAATGGAAGAACTACAATTTCAATTGCTCATAGATTAAGTACAATTAAAAATTTTGATGAAATTTATGTACTAGAACAAGATAAAGGAATAGTTGAAACTGGAAACTTTGAAAAATTAATTTCAGTTGAGGGATTATTTAAAACTCTTTATCAATTATCAAAATAGTTTATTAAAAAAGCAGATTACATTAATCTGCTTTTTTAATATTTGATTCAAATAATAAAATATCTAGTTTTTCATTTAAATCTTCATAATAGTCTTTCAATTCTTTTTTTCTTTTAGGTTCATATAAACAAAAGGCTAATACAGTTCCAAATAATGGTAGTCCAATTGTGGCAAACATTATTCCTCAAACATCACCCTTGCTTACTATAATTAATCCTAAAATAAGGAAAAACATACCGAATAAAATTAATGCTAAACTTATTGCTAGATTCATAATAATTTTTTACCCTTTCTAATTAATAAATATATTTTATATTATTTTGTAACTACTATATTTTATAAATTAAAAATATAAATATATAAAATAAGTAGTTTTAAAAATTTACTTATTTATTATAAGGTCAATTATTTTCTATTACTACTTTTTAAAATTGTTATTAAAGAGATTTACTAAAAAATTATTTCTAATCATGAGGTGGATAATTTCAAATATCTATTTCATAATCAATATCACTTGGATCATCATTTTCAAAATTCATTGCTTGAATTGAAACTCCAAATGTAGCTTCTTCATTGTAATAAAACTCATTGAAGAAACTTCATAAATAATTTGGATGATTATTATATCGATTTCTAATTGCAGCATTGATTTGATTTACTATTAAGTTTTGTTCTTCAATAGTGTATTCAAAAAATTGAGGTGCTGCAAGCATTAATAGTTCTCTTACTATATTTATAAGCGGTGTGTTGTGATCAGAACCAATACAAAGCATATTGGCAAGTGCATTAAGAGCTTCTCTATTTAAATAAATTTCAATTCCTCAATAACCTCCACCAAAATCTTCATAAATAATTCTTGTTAAAAACGGACTTCCACCAATTGGAGGAAAAATTCTTTCATTTACAAAATTTAATTCTTTATCTGAGATTTTTTTATTATATAAATTTTCAATTTCAGATAATTCAACGCTATTAAAAAATGCTATTTTATCATTTAATTTAAAATTAAATGTCATAGATGTTTCTTCAAAAAATGAAAAATTGTTTTGAAAGTTATGTGTATTTTCAACTAGAATATCATACTTATATTTAAATTCTGAGTTTTGTCTAAAAATTAATTTTACATCTGTTTCATTAATTAAAAACATTGATGGGAATAATTCTTCATAATAGAAATCTTGATAAAGTTGTGCATTTAAATAATATTCTTCTTCATCAGGATTACGCACATCAATATCATAAGTCTTTAATAACTGCTGGGGATCTGACCCATTAAAGATTCTTGAATAATTATATTTTTTATAAATTTGATTATTTTGATCAATTAAAATTCCTTGCATTTCAGCATCAGGAAAAGAAATATAATTAAACTTCTCTTTAAAATTTCAAATATCAAATCCAAATCTTGGAATAGAATGATAGCTCATTAATCCCTGAGTTTCAACAGTTTTTTTCTTAAAGGGTTCAGATAAATTAAAAGCTTTACTAAATTTTATATCTGAATATATTTCTTGTTCTAAAGGTTGTCTTTTTGTTGAATCAAAGACTCCTACTTGTATACTATTTACTAATCAGTTTTCTTCTAAACTAACTTCATTATATTTTATCTCTTCTACTTTTATAAAAACTCCACCAACTTGATTATTAACATATTTAAAACCATGACTAATTATGGCTTTTGATATAACTTCCTTGGCTTTTGTATTTGTACTGTAAGAAAAATCTAAAATAGAGTTTGATAAAAATTTTTCAATATCACTATAATCTAATTTTGAATTAGCATTAAAGGCATTGTATAAAAAATTAAGAGTTCATTCATCTAAAGTTAATTGACTAACACGTGATGTTAAATAACGATTGCTATATGCTATAAATTCTTTATAGCTTGTTATAACATCTGAACAATCACAAGAACTCTTAGTATCCTTTTTATTAATTTTATTTGATATTTTAATATTTTCTTTTTGATTTACTAATCAAGAGTTTTGAAATAAATTAACTGTTGATAGTGAAAAAATTCCAAAAAGATTTAATAACTTTTTCATATACTACTTATAATTTCCTTTTCTTTCATAACCCACCCAAACTCCCTCACTTCATAATTTAACTATTTTATTTTATATGTATTTATAAAATAAAAATATGTAAATACAAAATTTAAAGTACTTTAATGATTATATTATTAATATGAAATAAAAAAATTTAACTATAATGTTAAATTTTTTTAAAACTTATTTATATAGAATAATCTATATTTTTAGAGATGTAATTCGTTAATAAATTTTTTTATCGACATAACAGAAATTTTATATTTTTTAATAGTTTTTTTTAAATAGTTTGATAGGTCATAATCGTCATCAAGAATAATTAATTTTTCACACTTAAAATCTAATAAATTTTCATAACTCAATATTTGCCCTATTGCTTTGTGAATTTCTGAACTAGCAGATTTTATTTCAAAAATTAAATTTTTATCGCCCCTACTTGCATAAATATCAATATGTGTTAAATATTCTGGAAAAACACTATAGTTAAACTCCTTTAATTTTTTTGCAAGGAAATCTCTCATTTTATTATGTCTTAAACTAAGATTTGATTCTCTTCTAATGTCTATTAAGTTTTTATTATCAAGTTCATTTTTTCCTATTTCATTGTCATCTGATTCATTATTTCCTAATTTATTACTTTTTAATGATTCTCCATATTGAATTGTTAAAATTTTTTCAAGCTCTTCTTGATTAATCTCATGATAAATTTCTCTTGTCAATTTATTTATATGCAAATTAACTAAAGTGTAATTAATATTATTAATTACACCACCAAAGAATCCACCAAAAAGAAAATTTTCAAAAATAGCTTCATCATCTGTCTTATTTTTATTAAACATTGTTAAAGGAGTTTTTTTTCCAAAACTGAAGCACTTTTCATTTCTATCTTCATCTAATGAACGTAAAGAAAAATAAATATTTCCCTTGATTCTATCTTCTTTGAATTCTTTTATTTTATTATAATCAAATGGATTCTTTTCGAATAAGTCAACTGCTAGTGTGTTTTCTAACTTCTCAACAAACAATCAAAATTTATTAACATCAATAAAAAAATTACCCATTAATACAAATGGCTTCTCTCTATGAATTTCAAAATTGTCTTTAAAATCAAAGAACTTTAAAAGCTCATTAAATTTTTTTGCTGGTACTGTCGGTGCCCTCATATTATTTGTCTTACTTTTTTCATCAGCTTTAAATTGTCTATTTTTATCAGGAATGCTTTTTGAAGGCGTTCACACTATTTCATTTTCTGTAATGTTAAATTCATTTGCCATATAATTATTTCTCCTATAAATCTAAAACTTCTTTAATAAATTCTTCAGCACTATATGATTTTATTCTATTAGCATCCACATTATATTGTACTTTTTTTATTCTTTCATCAAGTTCTTGTTGATTAATTAATGGGAAATCCTTTTTATCAAATATTCTTATTTTTATCTTATCAACATTAATTTTATAATCAAGATTTCTAGGATAGTCTTTTACTATTGAAGAAAGATCTTCAATAAATTCTTTTAAAAATTCATTTTTTGAATTTATAAATTTTGAAATAAAGTACATAATATTTTTACCATTACCATCTTCTTTAAAAGATACACCTGCTAAATACGGATTAGTATCGCTAATCTGATCTAATTTTATCAAATAATTATCTTTAAAAATAGAATTTGCCTTAACTTCTAAATATTCTTTTTTTTCATTTATATAAAAATCAAATTCCATATAATCTTTTCTATGTCATCACATTTCAGCATTTGGATAAATAGAGCAAAACTTGTCCAACAGTATTAGTTCACCAAAAAAGCCAAATAATTTTTCCTCTTTTAAAATTCTTTTTTGCCTTTCAAATAGATTTTCACAATCTTTAATAATTGAGTAAAGATTGTGATCAGGTCTTTCAGACATAAGATTTTCTATTATTTTAAAAAGTTTCAAAGTCATTTGTTCACTAATTAAATTATCTCCATTAATTTTATTAATTTTTATAATTTCTGTTATATAGGAATCAATCTCTCCTTGTTCATTTGAAGAGGCATTAGTACAAAAATATTCTCAATACTTATAATTTTCATATTTTTTTTCTTTAATCAATTTATCTGATTTTTTTTCAATAATTAAATCACCAAAATCATTTTTTAATAATCTTAAATTAAGTTCAATATTCTCTTCAATGAATTTATAATTTAACACTTTTTACCTCCACTTGTTATATTAATATAATCAAATTTCTTATTTTTAACTTCTTCTATTAAAGAAGAAGTTATTAAAATTACTCCATCTTTATTTTTATAATCTAATATTGTTTTATTTAATTCTTCTATTTCCTTGTATGCTTCTATGTCTTTTTTTGGAAGAAAAATAGTCATATAATTTATATACATTTTTCTATATCCAAATCACCTTGCTCTTTGAGCATGAGTATCTGCACTTATTTTATTTTCTGGAGAATTACTCATAATTTGAACTAATAAATATTTGAAAGTAAACCCTCTTGAAATTAGTGAACCTCCAATAATAATTTTATTTGAAAATCCATTACTCTTATACTCATTGCTTTTTTTATTTAAAATTATAATATTTGATTCTCTATTTAATTCTTTAAGAATTTTGTTTAAATAATTAAAAATTAAGTCTTCATCATTAATTTTAATCCCTTTAGAAATTAAATAATCTAAGTCATCTTGAAAATAATTTTTTCAAGTATTAAAATTCATCATTCTCTTTATATCCATTAAGCAATTTTTTACATTTATTTTTATTTCATTATGATTATCAGTAATTTCAGATATGTTTAATAACAACTCAAAATTTATTTTATTTTCATTATTAGTATTATAGACTGCATTTGAAATTAAAAATCTCTTTATGGCTTTTATAAAATTTTTAGATAAAACATTCTCATTAATTTCTTTTCTAATATACTCTATTTCCTCATAATGTTTCATTGAATTAAAGATATTAATTCCCATATAATCATTATTACTTACTAGAGGGAAAATAACTTTAGGTTTAGTATCTTCGCTAATACTATTAACAATATTTGCATAAGGTGTTGCTGTATACATCAATAACTTATTTAGCTTTGAATGATTAAATATTTCTGAAATTAAACTATATATTTTTGTACTCTTATTTTTTTTATTAGAGTTTATAGAACCATAATCAGACTCATCATCAATTAATAATATTTTTTTATCTTTTGTTGAAGCATTAATAATTTTATTACTAATAAGTTCAAGATTTTGTCTTTCTTTCATAGTATTAATTAAAACTACACATTTATCTTCAAATAATGAATAAAAATCAACACTTTTTATATTTTTATTATCAAGATAAATCAAACCTTTATCTTTTACTTTTACTTCTTCAAATCTTTCTTCTGTTTGCTCTAAAAGAATTGTATTTGTTCCACCTAATAAAATTACTATATCAAAAAGTCTATTTTCTATAACATCCGAAATTACTTGCAGGATACTCTTTGTTTTTCCAGATTGAACTTCACCAAAAACAAGTGCACTATTAAAATTCAAAAATAAATCAAGAATATTATCACTATCTTTTTTATTTTCTAGAAAATCAAAATTATAGTCAATAAGAATTTCTTTAGACATTGATACATACCCTATTAGATATAATAGATATTATTCTTGAAGGAGTCTTTTCACCCTCAATTTCCTTTTGCAATTCAAAAAAGATACTATTAACATTTTTTGACTCTTCTGCAACAGTCTCAAGATTTTTAAATACAAAATCATTAAGAACAAAAATTATTGCAAATTTATACATTTCAATAACTATATCAGATGTAATTGCATCATTTAAAATTGGCTTTCAAATTGGATGATTAGAATTAAGAGTTATATCACAATGATCTTTTGATATTCATGAAATATCAAAAAGTGTCTCTTCATTTTTCCTTGAATCAGAAATATCAATTTCTACTTTTATAAATTTATCCCCATTTTTAACTAATGAAACTGTGAAAATAGCTGCCATATTTTCATTATTGATAAATTCATTTTTAATATAATTTGAATTAAAAGAACCTTCTGTCCTATTTTTTAAATTATTATCAACTTTTTTTTCGTGCCTTATAGTTTCATTTTGTGCACTCATATAAAGATTTAAGATTTTATCATACTTGTTCATATGAGACTTTATTATTTCATTAAATGCCAATCTTGCTTCTTCACTTAATCATTGTATCCCTGATTTATTTGATGTTAAATCTAAATATTTTCTATCGCCCTTTTCATCTTTTGCCTCATATAAATTATCAATATTTATATAACCAGTTCATCTTCTTTTTTGATTGTTATCTCCAGATATATCATCATCAATTAAATCTTGAACATAATTCGCCATACCTGTTCCTTTTTCATTTGGACTACACATTATTGCTCTGTTGGCTTGGTATAAAGCAAACCCTCTGTATTTTGTATAATTCTGAGGAAAACCTAAATAGGTTTTGGCTATTTCATGATGCGCTAATATAGATATTTCTCCTGTTATCTTTATACCATCTAATATTTTGGTGTCTATGACTCAAGTAAAATTTTCACCATTTAGCATTTTTCCAACAAAGTCTTTTAAAACAGACTCATCTATTTTACTATTTTCTTTTTTATCTTCTTTTAATTTATTTAGGAAATTTTTACCAAATTCTTCTATATCTTTTACAATAAGTTTATTTGATTCAACTCCAATCTCTGAAAATAAATTTGTATTTTCAATTAAAGGTGATGAAGGTTTTAATTTACTTGATATTTCATTTATACCCTTTTCGCTTGCATTAATCTGAATATCCAAACCATCTTTTAAATAGAAAAGATATCTAGTTTCTAAACTTTTAATCATTTCCAAAACTCTTTTAGGAGTAAGTTTTCCAGTTCTTAATTTACCAATTTTTATAATAGTTCCATGATCAGAATCTATTTGTTCTGTAAGTATTTTATTATTTCATTCTTCTAATTGGAATCTAACAACTTGATCTTCTGTGCTCTTTATTTCTTCAATATCAATATAAGTAGCTATTCCAGTGTTACTTCCTCTTGAAATTGTTTTTATTTCAAGTCTTCTTCCTATAAAAAACGCTGATTGTTTTAACCCAACACCATAAATATTCAAATTTGAATCTTTGTGTTCTCTATTAGAGTTTCCAAATAAAAGACATGAATAAAGTTGATCTTCATTCATACCATTGGCGTTATCAATAATTTCTAAATAATAGTTATCTTTAATATCTCTATTTATATTTAAATGGATTTTTAAACCTTTAACAGTTTGTTTTTTATTATAATTTATATTTAAGTAACTAGATATTGAATTATCAATTAATTCACAAATCATCAAATAGTCATTTGATGGAAAACTTGAATATTGCTCAAGTGTGTGATAAGTCATTTTTGCTTCCTTTTGTTGAAATTTCATTTTTATTTTCCCCTTTATTTATTATTTTCTAGTAATTTTTCTATAACTAAACCTATTGCTTTTGACATTTTTGGAGGTACTGCATTTCCTATTTGAACTAACTGTGCACTCTTATTTCCTGAAAAAATAAAATCATCTGGAAATGATTGAATTGCTGCCAACTCTCTTGGTGTTAAAACTCGTGGCAGTTTTGGGTGAATATTTACTCCACCATGATTTTCTTTTATTGTACAGGAAGGCTCATTTCAAGGTGATTTTTTTCAAGAATCAGAGTAATTTTTATATAATGATTTTCCCTCTTCAAGTAAACTTAATTTTCTTTTCATATCTTCACTGTGCTTTGTAAAGATATGATTTATAGTTTGATCTTCTGGTACATTTATAAATCTTTCAATTTCTTCTCCAAGAGTTTTATAATTCTCTTTTTTGAAAATAGGTTTAGGAAAAGCATTCTTCTTACCTAATCTATTTGCTATAAAAATAACTCTTTTTCTTCTTTGAGCTACACCATAATCTGCAGAATTTAATGTATGTGCTGATATTTTATAACCTATATCTTGATAATCTTTAATTATTTTTAGTTCAATTTTTCCATCTAACATGCTTCTTAAACCTTCAACATTTTCCATTACAACAATTTTTGGTTTGATTTCTTTAACTATTTTTAACATATCAGTATATAGTGAATTTCTTTCATCAACAAATATTCTATTTCCAGCTAAGCTAAAACCTTGACAAGGAAAACCACCAACTATTACATCTACATCATTTTTTAGTCCAAAATCAATTACTTCTTTTTTAACTTTGCTATCTCTTATATCTCTGTTTTCAAGTTTTTCATTTGGAAATTTTTTTGAAAAATTATATTCATAGGTAGAAACAGCTGTTTCTACAATTTCAACCGACGAGATTGGTTCAAATCCTGCCATAACAAGACCACAAGACAAACCTCCTGCACCAGAAAATAAATCAATAAATTTATACCCATTTCTATACTTATGTTTTCATCCATCCCTTTTATTGAAATCCCTTTCAATATCTAACATTTCAAAATCATCCATTTTAATATCTTGATTTATTGTTAACTGATTAGGTTCATTTATTTCAAATTTATCTTTCGTTTTCTTTCATTCTAAGTAATCATTGTGATGTATTTGATTTAATTTTCCTTGATTTTTTGAAACTTTGATCTTATTTGCTGCTATTAATCTTCTAATAGTTTTTATGCTTTTATTTTCTTTTAAAGCTACATCTTTAATTGTTAAAAAAAAATTTTCCATGTGTTTCACCTTTAAAAATTATATGGTAAAAACATGGAAAGTGGACATTTTTTTAAAAATTAATTTTATATGAAATTGGTATTAAATGTTTTTTTCTAAAATCTGGATATTCAAATTTTATAATTTTAACATCTTTCTGATTCTCATTTACATAGTAAATTAAAGATTTTGAACTTTCAAAAAGGTCTCATTCTCTTTGACTAATGTAAATACTTTTATTATTAATATTTTGAGATGATTTTACTTCTATTCTTTTAATTTTTCCATCTGGAAAATAACTTAGAACATCAAATCCATCGCCATCTGTATCTAGCTTTTTTACCATTTCTGCAAGATCTATTCTATTTTCATTTATAAGACTTTTCTTTTCAAAATATACAACATGATCTTCAGCTTTATCTCCATTTAAAATTTTATTGCTTAAAATTTTCTTATGTTTTATTCTACTAATTTTAGTATCTCTTGTTTTTTCTTTGTCTATTATATTAAATTCTTTTAAATTAAGTGGAAAATCTTTAGAGTCAAAAAAACTATAAGAATAATAATTATCAATAACTTCTATTATATCTTTATAATCTTTTTTAGAATCTTTCGATAATATATCAATATAATTATCAGGATTTGCAAAATTAAACTTTCAGTCCTGTTTAATAAATTCAAAAAAATTTCTAACTTTTAAAAAATAATTATTAAATTCTTCAAAATTTGATTTTTCAATATTTAAAAATATTGAAATTGGCGAACTTTTTGCATAACTAGTTCCCCTATCTCACCCATTATTTTCAAATGCTTTTGGGTAAGAATTTTTTCAATTCAAATCCTTAAAATTATTATTTAAATAATCATTTAATACTTTTCTATTTTCTACAAGTAACTCTCTACCTCTTTTAGTTTTTATTAGTTCTTCTGTTTTTTGGCAAATATTTATTGTTAATCCATTCTCCGAAGGATAAAAAATTATAGTCATAAATAAATGATTTGTTTCATCTATTCCAATTCATGGAGTGAAAGTAATATTTGCTTGACCAATTGATAACTTTACTTTATTTTTATCTAAGTTAAAAAATGAAATTATTTCATTTTTAACTAATTCTAATATTTGCTTAACTTTAATAGACTTTATATCGTTTACTTTTAATAACGGTTTTATTTTAGCAATATTTTTAAATTCCTTATTAAATTCCAAGATATTCTCTCAAATCATATTAATACCTTCTCTATATTATTTTTTAGACTGGTGCAGTTTCCAATATATGAATTTTAAAATCTCATATTTTTTTATTTTTTATTTTATTCAATAAGATTTAAAAAATTAAAAGAAGCTTATTTTCTTTAAACTTTATTATAATTAATAACCTTGTATTTTCCATATAGCTTATTAATAGATTTTAAATCAATCATATTTTTCTAGTAAATTATAATAATTATACTTATATTTTAACATTCATTGAAATTTTATTCAAATAAACTAACTTTTTTTAAGAAATTATTCTAAAAAAGTATTAACTTAAATATACATATATACAAGTTTTTATACATTACAACGTTTCTTATATAATTCATAAATACACTATTTATTTCTCTTTAAAATCTTACTTAATTAGTATCACCTGTTAAAAAACAAATTTTTTTATCATATAAGATCATTTTCTATAAAAATTTATATTAAGTAAAATAATTAATAGAATTAATTATTATTTTCTACCCAAATAAAGATTACTTATATAGATATCTTCTATATCTTCTATAAGATAATTATTTTTTCTAAAAAAGTCACTTTCAAATTTCTTTATTATTTGCAACATCTTATATTTATTTTCATTTTCAGAATAATGCATACTTTTATGACAATTAGGGCAGAGGCTTACCATATTATCTAATAGGTCAAGATTAATTTTATAAACTGGTGCCAAAGAGATTGGAACTATATGATGCGCTTCTAAATACATATTGCCATCTTCTGTATAAAAAGAAAAATGATCTTTCGAAAAAAAGCACTTATATTGATCTCTTTCATATGTTTGCTTCACTAATTTTAAATCTCTTTTAATTTTTGAATAATTAACATAATTTAATTTATCTATATATACATTTTCATTTTCACATTCAAAAAAATATATTTTTAAATCATCCTTAACATCAATATAATTTGATACGTAACTAATAATAGAATCTGGTAATGAGTAATTTTTACCATCTAAGTCTAAAATATTTAAGTCTACTAAAGAATTAATAACTCATGTACAAAATTTATCATATTTTTCTTCTTTTTCAAAATTATTAATTAGTAAGTTTTGTAAATCAGATGAGTTTTTAATATATGGTATTGAATACTCCATTTCCCTTTTAGAAATATTTTTTTTCTCAAGAAATATTCTAAATAATATTCTAAAAGGAAATAAAGATAATTTAACTTCTTTTGTTGCTTCATTAGGATATGAAACTTTTAATAAAGAATAAATAAAATTTTCCTTCGCCATTTCAAAATTACCCTTTGAATATTCATCTATAAATCTTTTCCCCTCAAATGATAATTCTATATATTTTTTATTAGTTCTCTTAATTAGTTTTAAAAAGCCATAAAATAAAAGCGGTTTTCAGAAATGTCTTACATTAGAATCGTTTTTATCAAAATTATCCATATTTTTTATTAAAAAAGATATAAGTTCCTTTTCAAGAAATTTATTTAATTCAATAGATTTTCTTTCCTTAAAAAAAATTAAAATATAAATTGTTCTATCCCTAGTATATGTATTCTTATTTTTTATATCACAAAAATCATAATTAAATATTTTTGAATTTCCTGGTGCCTGTCATTTATCTATTTTTTGTTGTTTTTGCATTTTTATATCCCCTTGGCATTGTTTCTAATAACTTCTGTGAAAATTTTGGGGGAAATGATTCTCCTAAAACATTTCTTATCATATTTTCTGAGGCTCATTCTGGAATATTTCAATTATCAGGTAATCCGGTTAATCTCATTAATTCCAAAATAGTTAATACTCTTGCATCAGAATAAGTTCCATCCTTATTAATTCTACCAGGATGCACATTATTTTGGCTTGATACTGCTCCATTGCACATTGTAATTGTAGGACTTGGCTTATTCCAATCAATTCTTTTATATGTAGTTGAAAAACCCTTTATTCTTGAGCCATCCTTTTTTATAGGAAAATGAATTCTATTTTTATGAGCGCTTTCTCCTGATGGTGTATTTCGCATTCACTTTATATGATTATCATTGTGGACTTTTGCTTTATGATATTTTATTCCACTGTCTTGTCCTGATTCTAATGAAGGTAAATCGCCTATAGCTTCTAAGACAGTTATCTTAGAACTTTTATTTGGGAATTCTCATAATCTGTACTTTGATACTAAAAAAATACTTCTTCTTCTCGACTGTGGTGTTTCATAATCTGCTGCATCTAGAACTCCAAAATTTACAAAATACCCCATTTTTTTAAAAGAATCAAGTAAATAATCCTTAATTAATACGCTTTTTGAATTTATTGTAATTGGAAATTTTAACATCCCTGCTACATTTTCAATAATTATATTTTTTGGTTCTACTTTTTTAACAAATTCTATAACATATTTAACTAGTTGATTCCTAATGTCATGAGTATCCATTTTACCAGCTATGCTCATACCCTGACAAGGAGGAGTAGCTAATAAAAATTCACAATTCCTCTCTTTATAAATATTAACTAATTTATTAAATATTTTTTTATCAGTTATATCACCGCAAATTACTTCAGAGTCAGGATAAATATGTTTATAAAATTTTGCCCTGTTACTAATTAATTCATTTGCTGCTATTATTTCAATACCACTTTCTTTAAAAAAATATTCGCCAATTCCTACATTAGAAAATAAACTCATTCCCTTCATAAATTAGTAAACCTTTCTTTTAAATAAAAGTAATTATATTATTCTATTTAAATAATTACTTTATATATAATAACTCATTCCTAACAGTTCTACAATTTTATTTTTTAAGATTTTATTCGTTAAATTTACTATAAAATTTTATAATAAAAATGTAGATTTCTCTACATTTTACAACATCCTAATAAAGTTGAATCATCTAAGTCTTGAGCAAATTCAAATTTTGTTTGATAGCCAATATCTTCTGTTACTTCGATTACTTTTTTAAAGATTTCATTAAAAAAGTCTTGATTAAACATAGCAACGCTACCTCCAATTACTATTATTTGAGGGTTAAAAAAGTAAATTGATGTAGATATTAAACTTATAAATTTCTCTTCAATCATTGAAAAGAAATCATTAACTATTGGATTATCACCTTTTTTATATAATTCAAAAGCTTGTTTGGTTGAATTAACTTCAACTCCTAATTCTTGTAATTGTAAGCAAATATTTTTACCACTTGCTAAAAATTCAATTCCACTTCTTTTTGAGTTTTTATTTTTATATATTGGTAAAGCATTCGCTATTTCTAAAGCAGCTCCACTAAAACCTTCAAAGATTTTTCCCTCATTAATAAATCCAGCACCAATTCCTGTTGATATTGTAAAGTATAAAAGTGAGTGTAAATTTTCTCTTACAGTAAATTGACCCAATGCAGCTACATTACCATCATTGTTTATTTTGACATTTTCAATTTCAAATAGATCTTTAAATTCTTTTAAAATACATCTATTATTTCAATCAGGCAAATTATAAGTAGTTAAAATTGTCCCTCTTTTTAAATTTAAAGGTCCTGGACAACAAAGTCCTATGAAATCAATTGGTTCATTTCAACTATCAACTATAGTTTTGATTTTATTTAAACTTTTTTTCATGTTATTGCCATCAGTGTCAATAACTTGTTTTTTAATTATTTTATTATTTTCTATTAAACCAAATCTAATTGAAGTTCCACCAATATCAACTGCTAATTTCATATTTTAATACCTTTTCTTTCTTAATACTTTTTAAAAATAAATGTAATAGTTTTAACATTAAGATTAGTTTTATTGCCATAATTGACAATGAATACTCCATCATTAAAACCAACACTATTTAGTATATTACAAAACTCTTCACACCCGTATCAAGATAATTTAAATTCTTGACTTTCTTTTAATTGCTCATTAATATAATACTCAATTTGATTAACTGTATATTGTTCAATTCAATTTATTTCCTTGCTTAAGTTTTTAACAACTATTTTTTGACCATTAATATTGTGACTAAATTCATGATTACTTCCTGCTTTAAATTCAATTGGCATTATTAAATCAATGATAAGTGTTCCCTTTTCTTTTAATGATTGATAAAAATTTTTTAAAACTTTTATAGCTTTGTTTCTTGATTCCAATAAATTAAAACTAGCATTGGGAACTATAATATATTCATAAGTATTTAATTCAATATAATTTTCCAAATCTTGACAAATTAATTTTCCTAATAAATTTTCTTTTTCTAGATTTTTTTGACAAATATTGATCATTTCTTGAGACTTATCAATTCCAACAATATCCACTTTATATTTTAAAAGTGGAATGTATAATCTACCATTTCCCACTCCAGCTTCTAAAACTTTGCCCTCAATGGGTAAAAGTTGTGATTTATAAAAAGCTAAATCTCCATCAATACTTGTTCCTGGAGGCTTGGTAAAGTCATATATTAAACTGCTTATTTGTTTATAGTGATTTTCCATTTGATACCTCTTATCTCTTTAATTATATTTCAAAATTATCTAATTAAAAAGAAAAAACCAACATTTAGTTGGTTAACTTATTTAATATATTTGCCAATATCACTAACTGATTTGATCTTAATTTTACCAGCACTAAGCGCTAAAGGAGTTGCTGAATTCATTACAAATGAATTTTCAAAACTGCTCAACATTTCAAAGTCATTGTCTCCATCACCACTTACAACAATATCATTGTTAGCAATATTATATTTATCTTGTAGGTATTTAATTCCTAAATGCTTTGAAACATCTTTGTGCATTATTTCTAATACAAATGGTGCTGTTTTAACAATTTTAATACCTTCTATATTTTCAAATAATTGCATTATGAAATCAAAATCTTGAACATGAGCATACAATGAAATATTGTTTAATTTTTCATTTTCTAATATTTCATCCATAAAATCTTGAAAACGATCTTCAACACTAAATCAATGAGGAAAAACCAATGTCTCTTTAAATCTGGGAATTACTTCATCAATACCAGATATTATATTAGTATTTTTTGTATCAGAAATTTTAATCCCACATTTTTTATGTAATTTTGTAAGATTTTCTAAAATTTTTTTTCTTTCACTCATTGGAATTGAAAGTTCATAAATCGATTCATTATTTTTAAACATTGCAGCTCCATTATTTGTTATTCGATATTCTACTTCAAAACCCTTTTCCCTAATTATTTCATCTAACTCTAAAAAGCCCCTACCTGTAGCGATGACAAATTTATTATTTTTTGTTCATTGTTTAATAAATTTTTCATCTTCAAGAGAAATTTTATGATTATTTTCTCTTAATGTCAAAGTGCCATCAAAGTCACTAATTCATCATTTCATTCTTTTTATCTTTTCCTTTCGCTATTATTTTATGACATTTTAATAAAAAATAAACCACATATTAACTATTTTTTGAAAGTTAAAAAATGATTTATTGATACAAAATTACTGTCAAAAAAGTAATTGCTTATCTTAAAAATTGATAATTATCTTCAAAGATACACTAAAGTATCTGCAGGTTTTTGACACCCACAAGTTCCACAGTTTTCTTTTGATTCTTTAAATTGGATTTTTGCAAAACCATCGTTCATTTCACCTTTTTGTAAAGCTTGTGTTAATAACTCACCTTTTTGTAAAGCTGCCAAAACAGTTTTTCCTTGTTTTAATTGATTGTCAATTTCTCCAAAGTCTCCATTTGTTATTTCAACAACATTTTTTAAGTCTAAAGCCATATTTTTCACCTCCCTTATTTGTTATAATACTACTAATAAAAAACAATGTAAGTAGGCACTTTAAAGTAACCTACTTAAAAATGAGGTAATTAAGAATGCAAACATGTCCTGTGGAATTTAGTTTATCAATTTTAAAAAATAAATGAACAATTTTTATTATAAGAGAGTTATTAACAACTGAAAAAAGATTTAATGAATTAAAGCGAAACATTCCTGGTGTCACTACTAAGGTTTTAACTGAAACTTTAAAACATTTAGAAAAGATGCAAATAATTGATCGTGAAGTTGAAGAAACAATTCCTTTAAAAGTAACTTATTCATTAACCAATTTAGGCATAAGCTTAAAACCAGTATTGGACTCTCTTTCTGATTGGGGAGTTAAAAATTTAAATAATGCTAATTAAAGAATAAAAAAACCTAAGATAATTTAGGTTTTTTTATTCTTTAAAACTAACCGTGGTTTGTGTCAGTTGAACACATTTGACAGTTAGCACAGTTATCATCAAATTCACATTTACAGTTACAATCTTTGCAATCTTTTGTACATTCCATGAATACTCACTTCCTTCCAAATAAATTATAATCTATATCTATATTAAAGTTTATTTCTTTATAATTTCTAAAATTAATTCACTAATTTTTAAGCTACCTTGCTTCAATATTTGATTAAATTGCTCTTCATTACTACCATTATTAATATGATCACTTACCACTTTTAGAGCTATTATTGGCTTTTTAAAAATATAAGCTGCTTGATAAAAACCAAAACATTCCATATCAAAAACTGATATAGAATTACTAATTGGAGTTATAATCTGATCAACTTTTTCTTGTGAATTTATAAAAATATCACTTGAGCAAATATCAACTTGTTTAAAACTTTTAAATGAATTTAAAAGTTTTTCATCTGATAAATAATATGCTTTCATTCCAGGGATTTGTCCTAATTGATAGCCAAATCCCCTAGCATCAGCATTACCTAAATATGATTGTTTTATTATAACGGGTTCTAGTAAATTTAAATCGCTTGAAAATGTCCCTACTAAACCAGCATTAATAAAGCAATCAATGGCAAACTTTTGATTAACATATGTAAAGCAACTTGTAGCATTTATTAAACCTACTTTTGAGATGGCAATATAAATATTGTCTTTTTGATAAATTTCAAAGTAATCATCTTTTATTAATTTTGCTGAAAGTTCTTTAATTAAACTTTCAGCTTCATCTTTCATAGCAAATAAAATGGCATATTTTTTCATTAGTTTTTCTCCATAATTCAAAAATTATAAGCTTCAGTTAAACCTTTACCAATAGTTGTTTTAGAGTGTTTTTTAACAGCAATTTCATATTGATTTTTAAGTAACTCTTTAAAACCAGTTAATAAATCTGATTTTACAAGTGCTCTTAATCGCTCAACTCCATCATAGTCTCTTTCTGATGAAATCTTATCTGCACAAAATACAATCATATCAAGTATGCTCATATCTTTTGACCCTACAGTATGATTATAAACTGCTTGAATAATTTCTTTATCACTAAATAGTCAATCATGTTTTAAATGAAATGCCCCTACAAATGAATGTCATGTTGGTTTTGGCTCTTTTAATAATTCTTTATTATACTTTTTAAGATATTCTTTCATTTGAGGCTCACTTCACCTTTTTGCTATGTCATGAAGCGTTCCAGCAATCAAAGCCTTATTTAAGTCATAGTTATTCAATCTTGCTAATTCCATTGCCATTTGACCCACATTTAATGAATGAAAATAACGTTTTTCATCCATTTTATTTTCAACTCTTTCATATAAATACATTAAATTATTATTAACATAATCATTGACTTCTTTAATTTGTAAGTTTAAATCAACAAGATTTCTTATTTTTGTAGAACTTAAAAAGTTATTTTCAAATTCAAAAGTTTGTAAATTATACTTATCAACAATTTTTTGATTAAAATCTTTTTTTCTTAAAAATACTTTAAAATCTATTTCCTTGATTAATTGATTAAAATGGTCTCACTTTTCAAAATTATCTAATTGATCAGAACCCATTACAAAAGAAAAACTAATTTCAGGATATTTTGTTTTGTAATATTTGACTGTATCATAGGTAAAACTTGAAGTTTGCTTTGAAATTTCATAAGTTTTAACTTTAACATAATCAAGATCTTTTACAGCTATTTTTAACATATCCAATCTTTGAGTAACACTTGAAGTTGAAAGTGTTTTAAAAGGATTAACATAAGCTGGCATTATTCAAACTTCATCAAAATTTAAGTTCTCTTTGCAACTCTTTATTATATTTATATGGTCGCTGTGAACTGGGTCAAAACTTCCTCCAAATAATGCAATTCTTTTCATCATATTATCCTTTACTAATTAATTCTTTTAAATATTTTCCTACACCATTATTTTCAATAGTGTCAATAACTTTTCAAGCTGCTTTTTTTAGCTTTTCACTTGCATTTGCAACAGCTAATCCAAATGGCATTTCGCTTACCATTTCAAAATCATTATTATTATCACCAATTACATGAATATCTTTTAAATCAACTTTCATAATCTCTGCTCATTTTTTAATACCTGTTGCCTTATTTATTCCTTTAGGCATAGCATCAATTAGAAATCTTGATTGAATAATAGTTGACGGATAATATAAATTCTTTGATTCAAGATATTTTTTTAAATTATTAGCCTTTTCAAGTTCTTTTGTAAAATCAAGTGAGTACATTACTCTAATAATTTTATGAGTATCTTTTTTAACATCTTCCAAGAGTTGATGATAATTTTGGTACAAAATAAAATCTGGCTGACAGTCATCTGGATAATGACCATAAAGTTTTTTATAAGTTTTAATTCTTTCTGCAACAGTTAATGAACATACGCTTGTTGGTGTATATAAAGAAATATCCAAGTCATGTTCTATTGCATAATTTATTAAATCAACAATGATTTCTTTTTGCATTAAATGTTCATAGTAAACTTCTCAAGTTATTGGATCTAATACAACAGCTCCATTTGAACAAACTACTGGCAATTTAATATTTAATTGTTTAATGTAATATTTGATATTTTGTAAAGATCTTCCAGTTACAACAAAAAGTTTATTTTCTGATAAATTTTGATATTCATTAATATTATTAACTGTTTCATCTAATATTTTAAAGTCACTATTTTTAACAATAGTTCCATCTAAATCGCTTCCAATATAAGGTAATTTCATAACATTATATCCTCCAAAGTAATTTTACAATATTGAGTAAAAATAACCATATTGTTAATGTTAAATAAGTTTATTTTTTATAAATATAACTATTTGTAAAATGCTCCATTGTTGAAATAGAACTTACATAAACATTTACTCCATTAACATCTACTTTAGGAACAGCGTTTAAAATATCATTAACAAATAAAATACCTTCAACTGTAACTTCTTTTTCATCACTAAATTTAAGTTCTAATTTCTTTAATTGTTTTTTTATTTTTTTTAGTTCTTTAAGCACAAAATTTAATGGTTCGCTAAATAAATTTGCGACATAATTTGAATTTTCAGATAAAGTATCTATTGTTCTTTTTTCATTTAATCAATCAATATTTTCTGGTGGATAAAAATTTACTAAGACAACAAAAAGTTTATTTAGTGAAGGATCATAAACAATGCTATTTACTTCAATTTTATTTTGAGTTTTATCATCAGTTGCTTTAAAAATTGAAAGATCATTTGGATTAAATACCTTTAAATTTCGAAATCTTCGTTCAATTTTTTTCAGTTGTTGATTTAACGTTAAAAAATATTCCTCTTTTAACATAGCACAGATTTTTTTAGAAATATTGCTATCAAACAAATTATATTTTTTTTGCATATGATTTGCCATTCAAATAAATTCTGGATAAGCCACTAAAATTTTACTTTGATTTTTATTTAGAAAGGACAACAAAGGTTTTTTATAAATAAGATTATAATATTGTTCAATAGCTTTATAATTAAAATCTATTGCATTCTTATCAAACTCTAAGTTTTTGACTGTTAATTCAACTTCTTCAGATGAATAAATTCTGGGTACTGCAGCTGAATTAGGATTTAAAAGATTTGATGTAATATCATCTAAAGAATAAAAATTTTTTTTCAAAAACATATCTTTTATTATATCTATTAAATTAAAATAATCATTAAAAACAAGTGTCTCTGAAAAATTAAGGGTTTTATAATATTTAATAATTAGATTTTTAATAACATTATCATATTCCTTAATTTTTCATATTTTTAAATCGCTTACTATTTTTTTTCTTATTTCAGCTTCTTCTTGATACTCTTGTTGATCAAAAATATATTCATAATTTAAAGGAGCTAAAACATTTTCTGTTATTTTTGGAAAAAAAGCTTTAAGCTCACTTGCATCATTTTTATATTTAGTTAAATCACAAGAGTTTTTAACGTGTGTATAAAGTCATAAATATAAAATAATATCTTTATATCTTTCCATTGAATACACATTCTTTTTAATATATTCATCCATCCTAGAAAGAATACTTAAATTTTCAATATTGCTATCCATAAAATACATTGCCCAAGCAGTAAGCGTTTCATAGTAACTTTTCAAACTCTTTTTATAATTTTCAAAATTAAAACTCTTATTAGAGCTATTTTCATATTCATAAGCATACTCAGATGATGTAGTTAAAGTAATATATTCTTGTGAAACTAATCTAGCTGCTAAAAAAATAACACTAACAACTAATGCCTTTGAAAGTTTTTTCTCTTCATTTGTTTTATTTTCTACAAATTTATTTTCTATTTTATTAAAAGAATTATTAATATAAAAATTTAATCTAGTAGTAATTTGACTCTCCATCATTCTTTTTAAAGTTAGCATATTATTTTCATACTTTCTTAATACTGAAAATGCATCTTTTAAATCTGTACTATTAATATTAAAATAATCAAAAAAATTTAATTTTTCTTCAAAATCAAAAAAGCCATTATTACCTGATATTTTATTAAAGTTTGTTTTCATAATTTTCCCCATTAAATTTAAATTAATTATACCTTTTTTTACTCAACTTTTCATTGCTTTAATTAATCAACTATAAAAAAATTAAAACGCTATATAAAATAGCGTTTTAAAGTTAAATTTCTCTAGATATACAAACATTTTTATATCAATCATATGATTTTTTAGGAGTTCTATTTTGACTTCCTTTTCCAAAACTATCTTGATCAACATAAATTAAACCATATCGCTTAGTCATTTCACTAGTTCCATGAGAAATAATATCCATTAGACTTCAAGCAGTATAACCAATACATTCAACACCATCTTCAATTGCATTTTGAATTTGCTCCAAGTGATTTTTCATATATTCTATTCTATAATCATCATTTATTTTGCCATTTTCAAGTTTTTCATCAAAGCCAATTCCATTTTCTAAAATAAATAATGGTTTTTGATATCTATCATATAATCTATTCATTAAAATTCTTAAACCAATTGGATCAATTTGTCATCCTCATTCATTAGCTTTTAAGAATTTATTTTTTCCTGTTTTTGAAAGATTTCCCTCAGTAACATCACCTTCAATTTGATTTACCACACCACTCATGTAATAACTAAATCCTAAAAAGTCACATGTATTTTCTTTCAGTAATTTTTTATCTTCATTTGAAATTTTTAAATCAATTGAGAATTTTTTTAATAAATTTAATGAGAATTTTGAATATTCTCCTCTATGCATAACATCAAAAAAGGAATAGATTTTTAATTGTTGATCTTTTTCAGTTTTTAAAACTAACTGAGGATCACAAGATTCAGCATAATTTAATAAAGTTGCAACCATTGACCCAAATAAGAAATTTTTATTAATCTCTTTTCCTATTTTTACTGTTTGTGCATTAGCAAGAAAAATATTGTGTAAAGCATACATTGATAGACCTAAAATATTTGGGTGTTCATCATCTAATAAACCCGCTCCTGCTCAAACACTATAGTTTGCTGCATTAATTTCATTGAAGGGAATTCAATATTTGACTTTGTTTTTGTATCTTTCCATAACTGTTTTTGCAAAATTTGTATAGAACTCAATTAAGATTGGATTTTTTCAACCCCCATATTTTGCAACTAAATTATATGGCATTTCATAATGAGATATTGTGATAATAGGTTCAATTTTATTTTTTACTAACTCATCTATTAAATTATCATAAAATTCTAAACCTTTTAAATTTGGTTCTTTCTCATCTCCATTTGGAAAAATTCTTGTTCAAGCAATTGAAGTTCTAAAGCAATCATTTTTCATATCAGCTATTAATTTTACATCCTCTTTATATCTTTCATAAAAATTTACTCCAATTTTTTTGGGATATACATATTTACCATCGTCATTTAATGCTTCTTGCAATTTTTCTTTTGTCATTTTTCTTTCAGTATTTATATCTTTTCTATCCAAGTTAGGGTTATATCTTCTAAGTTCTGCAATTGAAAGACCTTTTCCATTAACATTGAAAGCCCCTTCTGCTTGATTTGCTGATATAGAACAACCTAACATCAAATCTTTACTAATCTTTTTCATTGTTAACTCCTCTTAATAAATTAATATTTTTTCTATATTCTACTTTTAATTGTTTAATCTTTATTTGATTATCTGCTTTATTTTCTTTTTGATCTAAATATGATTTTAATTGAATTTTATAATCTTGTTTTAACTTCATAATTTCTTCATTAATTTTATAAATATCAAAATCATATTCCTCTTTAAAAATTTTTAAAGTTCTTGTATTAAAGAATTTTATTTTTGAAAGTAACAGTGTTGCAAAGAAACTTACTAATATTGTTGTTAGCATACTAAATGTTCCTCAAAGTATGCTTCCCCCAGCTCAAGTATTTAGCACTATCCCTTCAGGTGGACCTGAAACAAAACCAATAATTCCTAAAAATCCAAATGGTGCAGATGATGTTCATACTCCTGATGCTGTATATAATAAACAACCAAAGTAAGTTCCAATAACAGCTCCTATCATTGGAAAGACATATTTAAGCGTAATTGAATAGATACAAGGTTCTGTTACCCCAGCAATAAATCCTGAAGTTGCATTTGTTCAAGCAATTTGTTTAACTTTTTTATTATTTTTATATCTCAAACCAAAAGCAAATGTAGCAACTGCTGTTGAAACATTAGATAAAATCAATAATCCTAAAATTAAACTTCCTTTAAATTGTGCAACATCTTGCATAATTATTGGTGTAATAGTTCTGTGAATTCCAAATATAACCATTGGAGAATATAAAGCTCCAATTAATGGCGTAAATATATATTTAGTAATATTATTTGTCATTAAATATTTAAAAGCTATTGATAAATAACTTGTAAATAGTAATCCAATTGGAGCAATAATTAAAATAGAAATTAATGATGTACTAACAATAACAATTAATGGTTCTATTAGCATTCTAAAATTTCCAAAATTTGCTTTTGTTAATAGTCTTTGTATACTAACCCCAATAAAAGCAACAAGCACCATTGGAATTACTAATCCTTCAAATGAAATTTTTCATGGGTATATAAAATCTCCAAATATATGTCATCCTGGCATTTGCCCTAGTATTGTTTCACCTTCACCAACTTTTAAATCACTTAATGCAACTAACTTGGGATTACATAAAATTGCTCCAATAACAATACCATAAATTTCATTTCCACCCATAATTTTAAAAGTCGATCAAGCAACTCCTATAACTATAAAATATGTAAGACCCCTTGATATTATTTCTGTAAATTCATTTAAATCCTTTAATCATTCTTTATCACTTGAGTTTGAAGTTAAAAAAATTGGCATACGTAACATTTCTCAAAATCCAATTGCAACCAATACTATTAATAAAGGTGCAAAGACTTGCGATATAAATGTTAAAAATGATTTCTTTTGTTTTTTAACTTCTAAATTAGAATCATTTTTGTTTGGCAAATTTGATTCTAAATTAATTCCATTTTCCTCACAAAATAATTTATAAAATTTACTTACACTAGTACCAATAATAATTTGAAATTCTCCTGAGGAGAAAATAACACCTTGAACAAATTTTAATTCTTTAATAGCTTTAGTATTAAAAAGTTTATCATCTTTTAAAACAAAGCGCAGTCTTGTCATACAATGATAGACTTTTACAATATTCTCAATACCGCCTATTAAGGAAAGTAATTTTTTAATATCTTCTTTTTTATATTCCATAATAACCTCCATATATATTTTTGCAAAATATATATGGAATGAAAAGTTAAATGAACTAGTTTGGTTTTTACAAACTAGTTCATTATAAATTTAATTTAAAGTCTAAATATTTTCAAAGATATATTAATTGAAAATTTCTATCAAGGTATCCCTTACTAAAATGTTCATTGTCAAAATAAATTGATCTTACTTTTTTTGAATTTAAATAATGTTCTCAATTTAAAGAAGCAATTACAATTATATTTGAATTTTTATTATAAACATATTCAAAAAAACCTCGTAATGAATCTGTATCTCTTCCTGAAAGTATAAAAATTGAATTTATTTCATTGTAATTTTTACTTTTAATACTAATTATATCTTTATCTAATTTAATTAATCTAACATTCATATTATTTTTTTCTAAAATATCTTCAAGAAAGTACGTCGAATAATAGGTTTGATAACCTGAAAAAATATGAAATTCATTTTTAGTGTTTCCAGAAAAAAAACTTTCAATTTTTTCAAAATTTGCTATTGCTCATTTTTCTAAATGTTGAATAGTTGTAGAAAATTCTTTTTCTATTTGATTTATATTTGATTTATTTGAATCAAAATTATTTTCATATTCTATTTTTAATCTTATTTGTAATTCCCTATATCCGCTTACTAAAGCTGCTTTTGAAAATGCTGTAATTGTTGCTTTAGAACAATTACAAATATATGCTAAATCATCTTGTGTTCTAAATATACCATTTGAAAAATCTTCTAAAATTTTCTTAGATATTATTCTATATATTGTATTTCTATTTTCTCTACCCAGATTATCTATTCTTGTATATATCGAATTCATTTTTTCTTTTCCTAATAATATAAATATTATAGAATATAAAATTAATATTTAATAAAAATTTGTTAGTTAATTAAAAAGTAGTTATAAATAAAAAAAGGAAATATAATTTCCTTTTAAAATAACTATTTCTTATCCTTTTGGTTTTTTAAATAGATAATTTTTATTAGCATTACTTGTTATTTGTGATATTTTTGTTTGACTATTACTAATTGCATGTAATCTAATATTAAAAAAACCTAAATTTAACTCCAAATCCCTAGTACTAGCTTTTTTATCTTCAAGTTTAATTCCAACTTTATCATAATAAAATTTATGACTATATCTAAATTTAATTGCAAATCTGTTTATATTCGCTTGCTCCAAAATTTTTTCATTTAAATCTGAATCTTGAACTTTACCGCTTAATACTTCAGCTAATTGCTCTGTTGAAAATAATTTTTCTGAAAAATTATCATCAAGATATTTTCAAAAATCAAAATTATCTTTTTCACTTGGATCAAATATTGCCAATGTTGGTCCAGCATTTTCCTCTTTTGAAACATCTTTGAAATTATAATTTTCATGAATAACATTAATAGAATTAAATAAATTATTTGATAATGAACTTAAAGTTTTAGAGTTATTCATTGAATAATCAAATGGCAAACTAAGATCTGGTAGTGCAAAGAAATCATCGTTATATGTAACTGTAAGATTACTAATATTAATAAAACCATAATTCAGTACATTTGTTGATGAAAAATCTTCTGGATTTAAATTTAATTTTTTTATGTACTCTTTGTAAGCACTATTAAATTTGTCAAATTTATTACCTTTATCCAATCAAAATTGAATAACTTTTTGAGCATCAAATACATTATAACCTTCTTGATTTCCTAATAAATAATTTTCTATAAATTTATAATTATCATCATATTTGTCAAATATTATTGAATCAGTAGTTAGAAAATTATCTGTTTCAATATATCTATTATCAGAAGCTAATTTTACATTTTGTCCGCTTAAATTAAATTCTAATTCAGATTGATCTTTAAAGATTGTGTTTAACTCTTTATCAATTATCTCTTTACGTAAAATTCCTTCTTGATTTGTGATATCTAAATATTTTATTAAAGGTTCTTCAGTCGATTTATAACCTTCTTCTGCATTTTCAAAAAGAGATTCATTTGTTAAGTGCAAAGCACTTTCATTACTTTTAAAGATTTCTGCTTGATAATTTTCTAAAAAGTTTGAAACAAGTGAAGCAAATACTTTATCATTTGTTAAAGAAAAAACTAAATTATATCCAGAATATGTTTTTGTTTGATTTTTTCCATCTCTACTATAATTTCACTCAAATTCAATCTCTACTTGAAATTGATAAATTTCATTTTCATCATTATCAGAATTACCATTTAAAATGCTTGTTTTGAATTCATTTTTAATATTCATTTTTTCATATACATTATCAACATTTGCTAAAAAATAAGAATAACCATTATCAATATCTTTTTTTAACTCATTTAAATTTTGACTCAATTCATTTAAGTTTAATACATTTTTTAAGTCTTCTTCAAGAAGTAATTTTTGATCTTCTTGACCTTCAAAAGTTCCATTACCACTATCATCTACTTCTAGTTCTGCTAAACTTTTGTAATTAAGTAATTTATATCCCTTTGGATTATCATTTTTATCTTTAATAACATTAACTAATTTTGAAGAGTTATTTGCTAAATGCTTTGAAAATATATTATTAACTTCATTTTGTAAGTTTTCAAGTATCTTATCATAATCTGGTTCCGGAGGACCTATTTCTGGGTCTGGTTTTTTATTACCACATGCTATTACAGTAACACTTGTTGATGCAACAAGTGTTACTGAACCTAATAAACTTAATAATTTTTTCATATTTTTCTCCTTATATGTATAACATATACATATATCTTAATTAGAAATACTATAAAAAATTTTAAATATTATAAAATGATTTTTGAAATTAGTTAAATCTAAATTTTTGTATATTCTTTTAATAAACAACTTTCACAAATTTCTTTCAATCTATTTAATTGACTTATTAAAATAAAATTAGCTGGATTACCACATTGAATACACAAAGAATTATTATTAGATAATTTTGCTCCTGTATTAGTTATAATGCAATCTTTACAAAAAAATACTATACTATTTACTTGATTAATTTTTTTATAAGTTGCTGGCTTCTTACAATTTTCACATAAATATTTTTCCATTATTTTCACTTCAATTCTTATATCTTAATTATATTTAAAAATGGTTAAATATAAAGTTTTTATTATTAAATTCGAACTTCTTTTTAAAACATAAAATTTTAAAGTTTTAAAAAAAAATTTGATTTTTAAACTTTTTTTTGATATATTTATTAATGTCCTTTGGACAGGGCTATGAACATTAAATTTTGATGTTACAAATTCGTCAATAGTTTGTAAATTTCATTCTTTAATTCAATATAACATCCTTTCTTTCGATTAGGTCACTTTGTTCTCATAGCCTTTTACGTGACCTTTCATTACTCATTCATATCTTTTTAATTATTAGCAAATCAATAATATGCGAAAGCATGATTAATAATAATATATAAAAAAAGCACTTCCCTAAAGTGCTTTTTTTATATATTATTTTAAACAATAATTATTTTCCTTTTCTTAAATTTTTTTCTTCTTTTTTCAATCTTTTTAATTCTTTTTTAGATTTAGGTTCATCAATATTTTGTCTATTTAAATATGCTTTTTCGGCCTCATCTAATTCAACTTGACTTTGTTGTGAAGCAATAATCTTTTCATCAATTTTATTTTTATCCACTTCAGATTCTTCTTTGATAGACTCTTCGTTTTGAGATTTAGATTCTTCTTCCTCATCATCATCGTCAAAGGTTTCGTCTTCTTCCTCTACAGTTTCTTCTTCCTCTAAAATTTCTTCTTCTTCCTCATCATCAGAATTTACAATAATTGATTTTAAAATTTCATTCTCATTTAAAATAGCTGTTTTTTCTTCAATAACTGAGTTAATTTTATTATTAAGATCTTTAAGTTTTTCTTGTAATTCCTTATTTTCCTTACTCATATCTTGAGGAATAGCCATAGTATTATTAACATTATTATGATTCAGATTACATTGTCCATGAGAACAACAATTATATACTCTTCTTACTCTATTCTGACTTTTAGGAATAGGAGTTACAACTGTAGTTGGTGGATTATAAAATTTATTAATATTATTTGGGAACCCAAAATTAATAGTATTTGCTGCTTGAACAAAATTAGTTGCATCTTCTAACTTAATAAATTTAGCCACTAATAAATTAGATAAAGTATTAATTACACAATAACTTCCATTAATAAAATTTATAATATACATTTTCTTAACCCCCATTTGTAGAAAAAATTATCTACTAAATTATTATAACACAAAAAAAACACTTTTTTAAAGTTATATATTATAACCAATAATATTACTAATTACTAGTATTTTAGCAATATTATTTCAAAGATGAATTATAATCAGGATTCTTAGGATTACTTGAAACATATTTCTTTCAATAAGTATTTACTTTATCTTTATATTGATTTGGAATTGCTACCAATGAGTAAAATTCACCATAAAGCCTATTTTCATCTTGTCACCAATTACTTGATTCACTTAAATCCTGATCATATCTTTTTCCATAAATATTTGTTTGACCTGCATAAATATTAAGTTTAAATTCTGATTCTCAAATTGTTTCTATACCCTTTTGAAATATTTCTTCTCTATTGGTTGAATTGCTGTTACTATTTTGATCAGTAATAACAACAGCTACTTCCTGTTCTTTTAACAATTTTGCAAAAGCAATATCATCGTCTGCTTTATTGAAATCACCTTTACCTATTTTTCAATAATCAAGTGAAATATCTGAATTGTGAATTCCAATTTTATTATTTGAATCAAATGAGAATATATCTGATAATTTTTCATTTGCTTTATTGTTTATCAATGCTAATAAGTGATAAATTCTTCATGATTCGTCTGTGATACCAACTGTTGAACCATTTGGATCTAAACTAATAGCTTTTTCCAAAGCTTTAAGCATTTTATTTTCAATAATTTCTTCACTTGGATCAGCAATCGTTTCATCAAAGTCAAAAATATCATAGTTTATAGAAATCTTTTTCTCATATTTTTTTAATAATTCAGCACTTGTATAATCTTTTTCATCATCATGTTTAAAAAATCTATGATGTAAAAATATATTTCTAAATCCCTTATCTGCAATATAATTATCATTTGGTCTATTATTATCAGGAGAATATCATTGTTCTTCTCCTCCCTTAATTGGAGTTGAATTACCTCAATATTGAACTTCAAATTTATATTGATTATCAAAACCAAAGTCTAAATAATCATTTACCAAAGTTAAAGGTATTTGTTTTTGATTATTAGATACAGTTTTAAATAAAGTTGCATTTAAATCTCCATTGTAAAAAGCTTTATGATAACTATATGGATCATTTCTATCTCTTGAATCTTCAATTACTGCTTTCAAAGTTTCTCTGAAACTATTTTTACTAATTGATTTAAAAACACAATCCTCATTTTGAATTGTATCTAACATATTAATTAATGTCTCTACATTTTTTAAATTAGAATTAACTGATGATAATTGACTAATGTCTTCACATAATCTTCTAAGTTTATTTATCATCGATTTAACTATAATTAAAGATTCTTCTTCTTCACCTTCATTTGCCAATAATGGATTACCATCTTTATCTTTTAAATTTTTTCTATCAATTGAGTTCGTCATTAAAATAACATAAATTTGATTTTTTATAACATTTGCAATATGCTCAGGTTTTAAACCCTCACCAATAAAAAATGGATTGTTTAAAAGATAGTCATTTAAAGCATCTTCAATTTCTTGTTTGCTTACTTGTAAAACCTTATTTACAAAGTCTAACATAATAATTTTATTATTGACAAAATCAGTTGCACTAGGCGAATAATTAAAAAAACCTATTGGAATTGAACCAACATTTTCATTTAAAATTTTATCCAATTCAATTAATTCACTTGAATTAGCATAACCTTGATAAATAACTCCCAAATCAGGGTTATTAGGATTTAAAAAGCTATCTTGAGTATTAGCAGTGTCACCACCATAAATTACTTTTTCATTTGATAATTCTCGTTGAACTTTACCATAGTTATTTGCAACAACTCTTCTATTTATATTAATTCTTGCATATTTGGCACGCTCAACACCATTTCATCCAGTTTTATCTTGATTTAAAAAAGTAACAGATAAAGATCATTTAGATTCATCCTCTTTTTCATTTCTTTTATTCATTCATCCACTAACATTATTAAATAGAGATAAATCCTCTTTTGCTAATAAATCCTTAATTGACCATTGTGATTGTCAAGTTAATTTATTTGCAATTCACCCATATCCAGGTACTTTTGAAGATATTTCATTTAATAATTGATTTGACATAATAAAAACTCCTAAACTTTGTTTCAAAAATGAACCATTAGGATTTTTATTAATTAATTCATTTAAGTCCAAAGCCTTTATAATTGCATCAATTTCTTCTGGAGAAACTAAAGTATTGATTTTAACACCATTTTTAACTAAATCTTTGGTTGTTAAATTATAAATAGACATAATTTTTTCTTCATCAGTGTAAGTTAAACTAAGATCAAGTCCACCTTTACAAGCAACGACACTTACAGATGAAAAAACTGCTACACTTAAAGACCCTAAAATAGCACATAATTTTTTCATAATTTAACTTCCTTTCAATTTTATTTTATTATACTATTGTTACTCTTGTTTTTTCTTCTTGTTTGCCTTTATTTCTAATTTTTGAAGTTTTAATTCACGTTTAATTTCTTTTCTTTTATATCTTCAATTGTTAAACATATCAATAAGTCTTTGAAATTGCTTTCCAACTCAAGAAAGTACCATCCAGATTACTCAAAAAATTATAATTGAAGCAAATAAACAACCTATTGAGTAGTATAAGATTCCACATACTCCAGCAATTCTTTCTCCAATATTATCACTAAACCCATTTGAAACAGCTCTATAAGCTTGATGAGGAAGAATACCCCCACCACCAAGATAAGTTAAAAGTCCTGGAATTATTATAAAAACCGTAGCTATTGCTAAGAAATGAATAAAAGTTGACCAATATAAATACTTTTTTTTAGGAACATCAATAAATTTATCACTCAATTTCTCTTGAATTAATCAATTTGTAAAAGTGAAATATAAAAATGGAATAATTGGAATAATTGGAATATAACCAATAATTGATGCTGCAAAAATGAAACCTTGACTAGATTTAGGTTCATGTCTTGATTCTCCCAACAATGAGTATAGTCCCTTAAATCAATAATGAAAGCCCCCATTTGCATGTGGCACTGCATACGAAAGTGATAACATAAAAATTTGAAAAATTAACAATCCTATAATTGTACTTATCATTCAAAACATTTTATATAACCTTTTATATGGCCTTAATCTTATTAAAAACTGACTAATTTTTTTCATATTTTTACTCCATAATAATATTTTAAATGAAAAACTCTATTTTAATTTAAGAAAAACAAAAAAATACTTTATTAATTTTACTATTAAATAGATAGTAAAATAAGAAAAGTGAGGTATTTAATGAAAGTCTTAAAAGTAACACCCAGAGGTTTTTGCCTTGGAGTTGTAGTTTCTATAAAAATGGCAAAAGATACAGTAAAAGCTTATCCAGATAAAAAAATATATATGATTGGGCTTTTAGTACATAATAAAATAATTGTAAAAGAGTTAGAAGAACTTGGTATTATAGCTATTGATGATTGAAAAAAATCTCGTTTAGATATTATAAAAACAATACCCAAAGGTAGCGTTGTGATTTTTTCAGCACATGGAACTGATTTAAAAGTATTAAAAGTAGCTGAAGAACAAGGATTAATTATTGTAGATACAAAGTGCGAATGAGTTTTAGAAACAGAAAATATAATAAAAAAATATTTAAATCTTGGTTTTGACATTGTTTTTATAGGAAAGCACGATCATCCAGAGACAATTGCTTTAACAAGTTTAGATAATAAGAAAATTCATTTAGTTACCAATACTCAAGAAGTTGAAAATTTAAGTATAAGTAATAAAGATATTTTTATCACAAATCAAACAACCCTTTCAATAATTGATACTGATTTAATATATAAAAAAATAAAGGAAAAATATGAAAATGCTATTTTTAAAAATGATATTTGTGAAGCTACTCTTGTTAGACAACAAGCAGTATTAGATTTAGATCCCAAAGAAGTTGATCTTTTATATGTTGTTGGAGATGAAAGAAGTAATAACACAATGAAATTAGTGGAATTGGCTTTAAATAAGGGCATAAATTCAATAAGAATAAATCGTAAAGAAGAAATTGAAATTAAGGATTTAAAAAATATTAATACTGTTGCTGTAACTGCTGGTGCTTCAACATCAAGCATAATTCAAAACCAAGTTATAAAATATCTAGAAGAACTAAAAAACGAAACTCAATAGTTTCGTTTTTTAAATACCTCTATAAAATAATAAATGTATTTTTAATATCAAATGCACTTATTTTTACTTCATCACTGAATGTTTTTAATAATTTATTTTCTAAGTCATCAATAAAGTGATTTTCCATATAATGACCTAAAGTTAATAAATCCATTTTATTTTGGTCGGCATAAAGTCATTCATTTCACTTTGCCTCACCTGTTACAAAAAATTCATTTTGTAATTGTAATTCCATCATTGTAGAAGCTCCAGCCCCTGGTGTTAAATAAATATATTCAATTTCTTTTTCCAAATTTGAATTTCTTGTTAAAAGAGCTTGCTGTTTTCCAAAAATAAATTTTAATTTTTCAATTACTTCTTTTAAACTTAATGAGCCCAATAATTTTATTTTATATCCTTCATTAAAGACTCCAACCTTTTCAACATTTTTTACATTTAATTGTGTTTCAATTAAATCAATAATATTTTGTTTTTCACTATTATCATAGTTTGTATGAATGGAAAATACTTGAATTTCATTTTTTATACATAAATCATAGATTTCTTTTTTTGCTAAATTCTTCATCTCTATTTCTAAATCAAAAAATAAAAATGGGTGTCTACTAATAATAAAATTTGATTTATTTGCAATTGCAAACTCCACAACTTCTTTTGTAACATCAAGACAAATAACTATATGAGAAATTTCATCTTGACTTTCTAAGTTATAGACTTCCTCTAATTGTAAACCAATTTTATCTCATTCAGATGCATTCTTTTGAGGAAAGACATCATTTAAATAGTTAATTAAAGCATTTGCTTTTATTTTATTCATTAATTAAAATTCTCCTTCTTAGAAGTTTACTTATAATCTTTTGTTTTTTTAAAGTCTCTTTATACTTTACATCTTTTTTAGGTATATGTTTTAATAAATTTAAAAGTTTTTGTTCTTCTTCTAATCATTTTTGTAAAAATAATTTATTGTTTTTTTCACGTTGTAATAAAGGTCCAAATATAATATCTTTTTTATTTTTAATTTTTGTTCCAGCAAATTTATTAATCTTTATTATTTCATAAATAATTTTATTGTCCTCAATAATTATTTCATTTTCCACAAAATATTTCATTTTTTTCGCTCAACTTCTAATTGGCTCTAAATTAGTATTTGGTGCAATAACATAAGAATAAATATTTTCATTATCATGTTTTAGAATATCTAAAATAGATGTCGAACCCATTCCAGCAATGATACATGAATCGAGTTTTATTTCATTAGAAATAGTTCATTGAATTCCATCTGCAAGTATTGTTTCAACTTTATCTGCAACTCCAAATGAAGCAATATTATTTTTTGCTACATCAAGTGGTTTTTTTGCAACATCAGTTGCATATATTTTTTTGGCCTTACCATCTTTGGCTAAATAAATTGGAAGATATGCATGATCTGTTCCAATATCTGCAACAACTTCTCCTTCTGTAATTAATTTGGCCAATGAAAATAATCTCGGTGTTAGAAAACTCAATTTTATCCTTTAAAGAAATCTCTTAAGACTCTTGCCTTGGGATTTGATGCAGATGGTTTAAATTTTCTAATTGTTTTTGCTTCAATTTGTCTAATTCTTTCTCTTGTAACTTTTAATTCTTTTCCAACTTCTTCTAAAGTTTTTGGTGAATCAAATTTTGAAAGATGCATTTGAATAATTGAACTTTTATATTTTTGAATTCTTTCAATTGATGTGTCATAGTGAATATCTAAATCAGTTATTTCTTGTTTTAAATCTTCAAAACTATCATCATCACATTCCTCAGCTAGTCTAACTAGTGTTCTTAATTTAGTTGGTAGAATCCCAAATCTCATTCTAACAACTTTCTCTTCTCTTGGTGCAAGAATATCACAAAATACTTCATCAATAACTTCTCTTAAAGCTTCTTTTTCAGCATAGTCATCTGGTGATGAGATATCTTTATCTTCAACAAAATCCCCAAAGTGAGTGTCATCTTCATCACCAAATGGTTTTTCTAAACTAACTGGTTCAATTGATAATTTTTTAATTTCTATAACTTTTTGTGGAGTTATTCCTTTACCAAAAGTTTTTGCAATTTCTTTTGAAGTTGGATCTCTTCCCAATTCTTGAGTTAATTGTCTTTCAATTCTTGTAAGTTTGTTAATTGTTTCAACCATATGAACTGGAATACGAATTGTTCTTGCTTGGTCAGCAATAGCTCTAGTTATTGCTTGACGAATTCATCAAGTAGCATAAGTTGAAAATTTAAATCCTTTTTTATAATCAAATTTATCAACAGCTTTCATTAATCCAATATTTCCCTCTTCAATTAAATCAGCAAAGTCAAGTCCTCTATTTAAATGTTTTCTAGCAACAGAAATAACTAATTTAAGGTTTGAAGTAATTAATTTATCTCTACCTTCTTTTGCAATAATTGGATCACTGTCCTCTAACATTTTTGCATATTCAACTTCTTCATCTTTTGTTAAGATTTTTGAAGATCCAATCTGATTAAAGTAAGATTTAATAATATCTTGAATTTTTGTTTCATTGCTTATTCCCCCAACACGATATTTTACTGGCGCATTGTTTTCATTAGCTTTTTTTAAATCTTTTCTTTCTTTATCTCTTTTTCTAAATTCACCTTCAAGTTCATCAGCTTCATCTTCATCTTCATCATCGTCATCATCTAAGTCATCTTCGTCTTCAATAAAATCATCTGTAAATACAACTTCTCTTTTTGCTAGTTCATCAAAAAGTAAACTAATCTCTTCTTCTTCAATATCTTGAAATTTTTTAAAAATAACTTCTTGGATTTCCTCTTGAGCTATCTCATTATCATTTTTATCTAAATAGATTCAAAGATACTCTTTAAATTCTTCCATTGTTTCAAATTTTTTTAAATTTAATGCCATTATATTTTTCTCCTTTTTTCATATATTTTATTTCTAAGTTTTAACAGTTCTTCTCGATGCTCTGCATAATTTATTTTTAATTCATTATCATTTGTAGAATTAATTTTTTGACTATAAAGCATTATTTCATCTTCAATTTTATAAAGTTCAATTGCATCAAAACAATCTTCTAACCCCTTTGGTGATAATGTTTTTTGCAAAGCAGTGAAGTGTCTATTTTTTATTTCAAAAATATATTCACAATAGTTTTTGTTAAGTTTTTTTATTTCATTTGCTATTTGTTCTCAATTATGACCAACATAACTATTTCTTTTATATTGATCAATTATAAAATTAATTGTACGTTTTACATTAATATTTTCAATATTATTTATTTTTTTATCCAAGCTATCAAGCAAGGAATCATTATCCAAAATATTTCAAACTATTGCAGCCTCTGCAAAATTTTTTGAGTGATTCTTTTTGACCTCATTAACATTTGCTTGCACTATTTTATCTTTTTTAATAGTTTCATAACCATATTCTGGAATTTCAAAATGTGAATTTTCATCCTGGACAAAACTATTTAACATTCTGTTTATATAATCCTGTCCAGGATTGAAATCATCTATATTATTTTCTTGAGAGTATAGATTATTTGTAGCACTTACTTTTATTTTACTTACCGCTTTATTTAAAGTTTTAAACAAAGTACTTTTCTCAATTTTGGTAATACTTGCTAGGTTTGCAATAACTGAATCAACAATATTTTCCTTTGATTCATATTTTAAAACTGAGATAACTTTTTCAATAAACTCATTAACTTTTATAGAATTTTGTATATCTAAATCTTTTGAAAAAAATCTAGTTGCAAAGTTTGCTGGATGAGAACTATTTTCAATCATTTGATTAATTAAATTTTTGTCTCCAGCTTTAACAAGTTCATCAGGGTCCTTACCTGTATTATTTTCAATTATTGTTACATCAATTTTTCTTTCAAGTAAGAATTGCGATATTTTTAAAGCTGCATTAACACCAGCTTTATCTCCGTCTAAAAATAATTTATATTTTTTAGCTACTCTTGAAAATAGTTTTAAATGATAATCACTCATTGCAGTTCCCATTATGGCAACCGAATTTTTAATATCAATGGATTCTAAACTTATTACATCCATAAAGCCTTCTAAAATAATTATTTCATTTTTAATTCTAGCTTCTTTTTTTGCTTTATCAAAATTATAAGCTAATTGTGACTTTTTAAAAATTAAATTTTCACTACTATTTTTATATTTAGGTGAGTCGCTTGAGTTAATTACTCTTCCTGAAAACCCAATAATATTTGAGTCCTCATTTGTTATTGGAAAAATTAATCTATTTTCAAAAGTACAATTATAATCTATACCACTTTTATAAACAATTGCTGATTCAAAAATATTTTCTTGAGAAAAACCCAATTTAATTAAATAATCATAGACTTTTACATTTTTTGGACAAAAACCTATTTTAAATCTTTCAATTTCTTGTTCACTAATTTTTCTTTCCTTCAAATAATTTTTAGCTTTTGTTGAAAGTGAAGATATTAACAATCCATTAAAAAAATTTGCTGCAGCTTTATTTATTTCAAATAATATACTTTCTTTTGAATTATATTTTTTCTTATCTTCAAACTCTTTTAAGCCATCTATTTTGATATTTAATTCCTTTGCAATTAAAGCAAGAGCTTTAAAAAAAGTTATATTATTAAATTCTTGTACAAAAGTAATGACATTACCACCAGTTCCACAAACAAAACATTTAAATATTTTTTTATCAGGCGACACATTCATTGAAGGATCTGAATCATCATGAAATGGACAAACTGCTACATAATTTCTTCCTTTTTTTTGAAGGTCAATATATTTGCCAATAACATCAACAATATTAGCTTTTGATAAAACCAAATCAATTTGATTTTGTGATATTGCCAAACTTATCACTCCTTACTTAAAATATTTTTGCTAATAGATACTGTTTTAAATTTTTAATTTCAATTCTTTCTTGATTCATCGTATCTCGATTTCTAACAGTGACACTATTATCTTTTTCAGTATCAAAATCAATAGTTATACAATATGGTGTTCCAATAGCATCTTGTCTTCTATAACGTTTTCCAATATTACCAGTTTCATCAAATGTTGCATCAAAATCCAAAAGTAATTCTTTATAAAGTTCATTTGCCCTTTTATTTTGTTGCTTTTGCAAAGGCATGATTGCTATTGAATATGGAGCCAATTGGTAAGGAAGTTTCATTACAATTCTTTCACCATTATCAATTTTTTCTTCAACATAACTTTGACAAAAAATTGCTAAAAGCAATCTTTCAACTCCCACACTTGGTTCAATTACATTTGCTATATACTTTTCATTTGTTTCTGGATCTAAATAAGATAAGTCTTGTCCAGAATGAGTTTGATGTTGCTTTAAATCAAAATCACTTCTATGAGCAATACCTCATAATTCTCCTCTTCCAAAAGGAAAATCAAATTCAATATCAACTGTTCTTTTTGCATAATGAGCTAATTCATCTTTTTTATGTTCTCTTATTGAATAATTTTTTTTATCAATAAGAATAATTTTTTCTAAAAAGAATTTAACTTTTTTTAATCAATACTCAAATCAATCATTTGTGTCATTTGGTGAAAAGAAAAATTCTAATTCCATTTGTTCAAATTCTCTTGTTCTAAAAATAAAATTCCCTGGAGTAATTTCATTTCTAAAAGATTTACCAATTTGTCCAATACCAAATGGCAGTTTTTTTCTTAAAGCTCTTTGTGAATTCTTATATTGTACAAAAATTCCTTGAGCAGTTTCTGGTCTCAAGTATACTGTTGAAGCTTCATCTTCAACAACACCTTGATTTGTTTTAAACATTAATGTGAACTGTCTAATATTTGTAAAATCATTAGCGTTACATTTTGGACAATTTATTGATTTATCTTTAATAAAATCTTCAATTTTTTGATTAGTTCATCCACCAACATTCATGTCTGAAAATTTTTCTTCAATTAATTTATCAGCTCTAAAACGTGATTTACATTTTTTACAATCAATTAATGGGTCATTAAAATTTCCTAAATGACCTGAAGCTTGTCAAACTTTGGGATTTAATATTATTGATGAATCTAAACCAATATTATATTCATTTCTTCTTACAAAAAAATCCCATCAAAGTTTTTTTAACTTATTTTTAACTTCTGAACCTAAAGGTCCATAATCTCATGAATTTGCAAGTCCACCATAAATTTCTGAGCCAGGAAATACAAATCCCTGTGTTTTTAAATGCGAAATTAGTTTATCTATTTCTATTTTCATTTTTTCTCCTAACAATAAAAAAAGCAAACATCAAGTTTGCACATATCGAGATACTTAGGAATTTTCTTATATTAAAGTTGTCTTGTCAATACATTATAAGTGTTATTTATAATGTTCAGCCACCTTTTCATTTACATTCAATGCCACAGTATCTTTTAATAGATATATTGGCCCTAAATAAAACCCTAAATTATTTTCATAATAGTTTACTACAATATTGTGAATGACAATTAAATCGGTATATTCATATTTTTGTTCAACATTAAAATGAATTGTTTTTTTATGAATATTTACAAGAACTCTTATAAAAGAATCAGGTTGAACAATTTCTCCTGGTCATAAACATCTTGCACAAACAAAACCATTTTCACTATATTCAAATCTTACAATAGGAAAAGTTGTTTTTTTACATCGAATACATCCGTTTAATCTAAAAGGTTGAATTGTTTCTTGAATTAAATGAGTAATAAAAAATAAATAATTTATAAAGGGGTTTTTATTATTACTTATATTTTCTAAAGTAAAAGTTAACATTTTAAAAATCTTATAATTTTTATTACTAATTTGTTCTATTTGATCAAGAATTTTAAACATAATTGAACCATAAACATAATTATTATAGTTTTTGGCAATATTAAAATACTCCTTTTTTAGAACACCCGTTTTTAACTTGCTTACTCTATCTTCTCTTCTCGATTTAAAAATCTCAAAATCACTTCAACTAAAAGTTTGTATTGAATACTTATTTTTTGAAGTTGATTTATTGACACCAGGAGCCATAAAACTTAGTTTACCAAATTGCTTACTAAAAACTTTAACAATTTTGGCATAATCATCAAAATCATTTGATTCAATAACTACTGCATTTATTTTCGTTGCTCCCATTTTCATCACCTAATAGCTATCTTTGTCATATCCTAATTGTTTAATTAAAGACGCTGATTGTCTTCATTTTTCTTTTGTTTTAACAAATAACTCTAAATAAAATTTTTTATTAAATAATGTTTCAAGTTTTTCGCGAGAATTAATACCAATTGATTTAATTTTACTACCTTTATTTCCAATAATAATTCCCTTCTGACTTTGTCTTTCACAAATTATTGAAGCAATTACTTTAATAATATCTTTTTTCTCTTCTAATATATCAATTAAAATAGCTACTGAATGTGGAATTTCTTGTTCTGTTTGTAATAAAATTTCTTCACGAATAACTTCACGAATTAAAAAACGTTCTGGTTGATCTGTAAATGTATCATCGGGATAAAATTTAATTCCTGTTTCAGGTAAGCTCTTTTTAATTTCATCCAATAACATTGCTAAATTACTACCCATTGTTGATGAAACACACAAAATTTTTTCAAATGTAAAATCTTGTTGTTTTCATTCTTCAACTTTTTCATTAAGTTGATTTTCTGAAAGTAAATCACTTTTTGTAATAATTAAAAAAACTGGTACTTCTCTTTCTTTTAAAGCATTTAATATAAATCTATCATTTTCACCAATAAATTCATCACTTGGTGCTAAAAATAAAATAACATCTACTCCTTTTGTTGAAGATAAAGCAACCTTATTCATGTACCTACCTAACTCATGTTGGGCCTTGTGAACTCCTGGAGTATCTACAAAAATATATTGAGCATCTTGGTGAGTTAATATTCCGTTAATACGATTTCTAGTTGTTTGTGCTTTATTAGTAACTATTGAAACCTTTTTACCTAATAAAGTATTTAATAAAGTTGATTTACCAACATTAGGTCTTCCAATAATACTAATAAATCCTGATCTTATTTTTTCCAATTTAATATCTCCTAAACTGTATCTTCTGATTTTTCAATTTGTTGTTTATTATCGCGTTCTTCAATAAATTGTTCAAACGCACTATCACTTTCAAACATATTTAAAACAACTGCTTTAATTTCTTCTCTATCTTTGATTGTTCAAGTATATCTTATAGCTGCTTTTAGTGAAAGTATCCAAGGTATTAATAATAATAAATATAAGTATAGATATCACATTCTTCATTGTCATGCTACATTTTGAACCATATAAAGACCATAAATTGTAAATGCAAATAAAAATGCAAAATTAACTCAATAAAAAATTAAACTTAAACTATTATATGGTACTACATAGGCAGATAAAAAGATAATATAACCTGCAATTAATAAAACATATTTTACTGCATTAAAATGTGTGCTGGCAAATATATCCATTAAGTGAAAAATACTTGCTACAAAAATAAGATATCAACCTGTTGATATCATTAATCTTCTTGCAGATATCTCTCCTGGAGTCACTCAAGTTTTAAAAACAAAACCATTTTCTCTATCTTCGGTTTTTCTATAACGTTCAATTCTTATTCATTCTCTATTTCACATATTTACATCTGCAAAAACAGATTTTAAAGGCAATCAAGAAAAGACTGCAATAAATATTGCTATAACTCACAATCATTGTGTTCTTATTGCCATTAATAACTCTTGTGGATTTGAGAACTTATGAAGTAAACCAACTCAATCAAGAATAAATAAAAAACTGGCATAAAGAAGTGCTTCAGAAATATATAAAATATTAAATATTGCTGTAAAAACACTCGTCCCTCGCGACATTGTCATATTTAACATAACAATTAAAACAGTTACCATTAAAAATAGATGATATGACTGTATTAAAATAAAAGCATTTAAAACATTAATTTGATCTGTGTATAATCACAATTCACTTTCAGGAATTGATGGTGTATTTGCAACATGTTTTTGAACAATAATACGTGCATAAAAGAAAAACCCAATTCAGATTGCTTGAATTGGAATACTGTATATTACTTTACAACATGCTCTAAGTCTAGAAATATAGTCTCCCTCAGAAACCATTTTTACATGTTTTGACTTTAGAAATCTTTTTGTAATGATTTCTCCCAATTTTCCTTTAATAAGTAAATCAGTTTTCTTCATATTTTCACCACCTTTTTTTATAGATATTAATTACATAAATAGAATATTAATTAAAATAAATGAGAAACCAACAAATGGAATTGAACAAGACATTCAATAAATTATTAAATAGTCTTTTCAAACTTTCTCTTTTTTAGTTAAATTAATTTGTCTAACTTCATCATTTATAACTCTTTTTACTTTAAAAAATTCTAGATATTTAATAAAGGCGCTTAAACCCGCTGCACAAAAAAACAATACTCAAATTGAAGCAATCCCTGATGATGAACCCAGTCTTTTCATATCGAATAATCAATAAAAAATATCTAAATATGAGCCCCCAATAATAGTTCCTATTGTTAACAATCAAACTCCAGTATACATTCAAGCTTTCTTCTTAATAGTTTTATGGATGTATATTTTTGCATACATTTCATTAAAATATCAAGTTAATTCTCTTGAATTATATTCCATAGCTCCTCTAAAAATTGTTTTAGCATAGTCAACATCTTTATAAAGTCTTTTTTTATTAATACCAGTTAATTTTGATAATTTAAGATCATACTTAAGTTTTTCAAATAACTTTTCACCATCAATTGTTGTATGCAATCTCTGATTTAAAATTTTTCTTTGAATTGAAGAAAATATTAAGGGAGAAAATACTATTATAAATAATCCAATTGCAGCTAATACATCAGTTACTATTGTATCTAATCTAATCATCTTTTTTTCTCCCTTTAATCTTTTAAAATTATATAAAAAAACTAGGTAAAAACCTAGTTTTATTGAATATATTTTCTTATAGTATTTATTTTTAAAACTCTCTAAGAACTTTTAAATTAAATACTTAGTATACTTAAATTTATTAAATTATATTAAAAATAATAATCCTACTGTAACTCCTGCTAATAAAGGAGCTAGAACAGGAACTCAACTATATTTTCAATCAGATGTTCCTTTATTTTTAATGGGCATTAAAGAGTGAACAAGTCTTGGAGCTAAATCTCTATATGGGTTAATAGCATAACCAGTTGTTCCTCCTAATGATAAACCTATTGCTAAAATTGTTGTTCCAACTAAAATTGGACCATAGAAATTTGGCAAACCACTACCATTTGCAAATTTTCCAAAAGATAATATAGCAACAATTAAAACTGTTGTTCCTAAAAATTCCATTGCAAAATTAAGTAGAGGATTTCTTTCAGTTGGGATTGTTGAGTGCATAGCAAGTACGTTTGCTTGATCTTCAACTTTAACTGATTCTAAAGTTTTTTTAATATGTTTATAGTAAACAAAGTTAACAATTATTTGTCCTAACACTGCTCCTATAAATTGAATTAAAATTACTAAAAACAACATTGCCACTGGCGAAAGTCCTGTATAAGCACCAAACCCTAAATTCTTTGTTTTGTCAGAAATTGCAATTGCAATTGTAACTGCTGGATTAAAATGAGCAACTCCCCCAAAAGCATTTGCAATTAAAGCAGCTGTTAATACTGCCAATGCTCATCCTACTGTTATAGCTAAAAATCCACTATTATTTCCTTTTGTTCCTTTTAAAACGACATTTGCTACAATTCCATTACCTAAAATAATTAGTAAGGCTGTACCAAATAGTTCTGTTAATATTAATACAGATCAATTCATATTTTTCTCCCTTTCTTAGGAATACTTTTTTGCTCTTTAAAGTCTTCTATTTATATTTCTATTCGTTAATATCTTTTAGTCAATTTCTAGTTCTTGAGACAGCTTCTTTTCAGCCTTTAACCAATTTTGTTGTTTCACGTTTTGGTTCAACTTTTTTATCAACTTCTCAATTTTTTCTAATATCTTCAATATCTTTTCAATAACCAACTGCAAGTCCAGCTAAATAAGCAGCTCCCATTGCAGTTGTTTCTACATTTTTAGGTCTAATTAATTCAGATTTTGAAATATCAGATTGAAATTGAATTAAATAATTATTTTTAGAAGCACCACCATCAACTTTAATACTTCTAATATTAATTTTTGAATCTTCTCTCATTGCTTCTAATACGTCATTTGTTTGAAAAGCAATTGATTCCAAAGCTCCTTTAATAATATGTTCTTTTTTAACACCTCTATCTAATCCAAATATTGCTCCTCTTGAATAAGGGTCTCAATAAGGAGAACCTAATCCTGAAAAACTTGGAACGAAATAGACTTGTCTATCATCATTTACTTGTTCTGAATATCATTCACTTAATTGTGTTTTATATATTATTCTTAAATCATCTCTTAATCATTGTAAAGTTGCCCCAGCCATCATAACTGAACCTTCTAGTCCATATATAAATTTATTATTAATTGAATACCCAATAACTGTTAACAACCCATTTTTAGAATCGATTTTTTTATCACCAGTATTCATTACTATAAATGCTCCTGTACCAAAAGTTACTTTGATATCACCTGGTTCCAAACACATTTGACCAAATAAAGCTGACTGTTGATCTCCAATTGAAGATGCAATTGCTATTTGGTGTTTAGAATTTTTAGATAATAACTCAGGAAATGTATAACCATAAATTTCACTATTACCTTTTATTTTTGGAAGCATATTTAATGGAATATCAAATAATTTTAATAGTTCTTCATCTCATTGATGAGTTGAAATATTATAAAGCATTGTTCTTGAAGCATTTGTATGGTCAGTGTAAAATTCTTTTCCACCAGTTAATTTTCAAATAAGTCATGTATTAATATTTCCAAAATATAATTCATTGTTTAAAGCTTTTTGTTTTGCGTCTTTCACATTATCTAAAATTCATTTCACTTTACTTGCTGAAAAATAGGCATCAATTACTAATCCAGTTTTTTGTTTAATTATGTCTTTGTGAGTTTTTGCAAGTTCAAGACAAAAACCATCAGTTCTTCTATCTTGTCAAACAATAGCATTATAAATTGGGTTTCCAGTATTTTTATCTCAAACAACAACTGTCTCTCTTTGATTTGTAATCCCTATTGCTTCAATTTGTTCAGGGGAAATATCTTTTGAATTTAATGCTGATATTAAAGTAGTTCTTTGTGTATTTCAAATTTCAGTTGCATCTTGTTCAACTCAACCTTCTTGAGGATAAATTTGTGAAAATTCTTTTTGATTTGAAGCAATTATCTCTCCCTTTTTATTTACAACTAAACTTCTAGCACTTGTTGTTCCTTCATCTAAAGTTACAATATATTTTTCCATATATTTTTTTTCCTTCCATATATAGTTAAAAAATATTTATATTTATATTAAAATAAGATATTTTTTTCATATTTATCTCATTTTAATTTAAGTTCTAATTTCATTTGTTTTTTAATCATCTCAATTACATAATCTGCAATTGAGGGTGCACATGAAATACCTGGACTTTTTGTTCCAGCAACATTAATAAAATTATTATTAAGTTTTGCATAATGAATATAAAAATCATCAGTTTCTTTAAAAATTGGTCTGGATCCTGCAAATCTTCCTATAATTTTTGTCATATCTAAAGTAGGTATTATTTTTTTACCTATTTCTTTTATTTGATTAAATTTTTCTTCAGTAATTAGATTGATATCTTCTTTTGCTACATTATCTTCTGCAGTTGGTCCTACTAATAAATTACCATTTACTGTTTTAGCTACAATGACTCCTTTACCATGAACAGTTGGCACCATAAACAAAACATTATTTGCTTGATTTTCTTTAGTTCCTTTTAAGACTATATACTCTCCTCTTTTTGTAGATAATTTAAAATCATCATATCCCGCAAGAGAAGATATTTTATCTGCAAAATGCCCTGCACAATTTATAATGATTTTTGCTTTATAATTATTATTCTGAGATGATATTTTAAATAGCTCATTTTCATATTTAATCCCAAGAACTTTTTCATTAAAAAAAACATTCACTCCGTTTTTTTTAGCATTTTTAAGAAGCACACCTGTTAATTCCACAGGATCAATAATAGAAGAACTATTACATAATAAAGCCTTTGTTACTTCTTTACTTATTGATGGTTCAATTTTTTGAAGCTCTTCTTGATTAATTAAAGATATTTCATCTTTAGTACAACCATTTTTAAATCCATTTTCCATTAACATATCAAGATGCTTTTCTTCTTCTCTATTAAAAGCCAAAATCAAAGAATTAACATGTTTGTGATTAAAATCTAATTCCTTAAATCAATTTTCCTTATATCGTTTTCTTCCAAGAAAATTTAGTTTTGCATTTAATTTTCCCGGAGTTGGATCAAATCCACCATGAATTAAACCTGAATTTCCAGTTGTAGTTTCTAAACCAAATGAGGGGTTTGATTCTAAGACAACAATTGTTTGATTATACTTAGCTAATTCCCTTGCAATTGATGCTCCAATAATTCCTGCACCAATTATACAAATATCATAATTATTTTTAGTCATAAGCTATTTTCTTTCTATATAGCATTTTCAATATTTAATTAAAAGCTATGAAAAATATAATTTTAAAACTGAGAAGTTAATTCTTCTAATTCACCTCAACTTTTCATTTCTTAGAAGCATAAAACTTCAAATCTATTTAATCATATAATTTCCAAAATAAATATAAATATTGGAAATTTTTGTAAAAATAAAAAAAATATAAACTACTAAAACTTTTTTAATTTATCAATAGTTTATATTTTTAATGTAATTGCTTAATATTTATAATTTGCTATTCATATTTATGTCTCTCATAATTAGAGAATATATCAATTTTATCTCTGCATAACGCTACAAATTCTCTAAACTCTGCACAATAAGAAAAATTTCTTGAGTTATTTTGTCTTGCATAAATTACTATTTCATCTTTTAGTTCCATAATTCGATCTAATTCAAACTTCTCTTCAAAAACAGCAATTCCATGATTTCTAGAAATCATTGCTGCTTGAAATAATCAAAAGAAGTATAGAAATGTTTTTTTACCAAGAAATTGGTGTGAAGTTAAATCGAAAGCTGCTGCTAATAAATATTCTAGTACTGAATCAAATGTTTCCACAATTGTCAATTTTGAAATTATTTTTTTTAGCTTATTTAGAAAATCTTTACTTTCTGTAGTCTTGCCTTGGAACATATAACTATATTCCTTACTTGGGTCTAAATATTCATAAATTTCAACTAATTCATCAAGAATTAATTCATCAAATCTCTTTGCATATTTTTCTTCAAATTCTCTTACTTTTAAGACCATTTTTCTAATAACTTCTCAAGCTTTTATATGATTTAAAAATTCAATATCAAAGTCTTCTAGCATTTCTTCCTCAGAGTAATCATTTTCAGCTAGTAATTCAAAGATTTCTTCTTTTGAATTATCAATATTTATTAGTTTCAAATAGGACGAAATATATTCGGCTCCCTTTTCATTTCAAAAATCATTATTTCTATAAAACATATTAATACCCTCCCTTATTATTATTTTTTATATAAATATTTTAAAAAAAACTACAACCTTTCTGCAATCTGTAGTGTATATAGTTTTGTGTTCATTAAGTTTAATTAAGATTTTAACCAATATTTTTACTTGTAAATGCATATGGTAAAAAATCTTTTACGTCATACGAATTAATAAATTCCTTTTTATTATAAACCCATATTGGTTGATTTTCTAAAAGTAATTCAAAAAGCGTTTGCCTACAAGTTCCGCAAGGAGAACCAAATCCCTCTGAGTCTGTATAAAGTGCTACTAATTCAACATCATTCTTATTATATCCTTGTGTTATCATTTGTGGCAAAGCAGTTCTTTCTGCACAAATTGATGGATTGTAAGCTGCATTTTCAACATTTACACCTTTTATTTTATTGCCATCTTTTAGATAAATAATGCAAGCCACTCTAAAATTTGAATATGGGACATAGGCATTTTCTCTTAATATTTTTAATTCATTATATACTTCATCTTTTTTTAATTTCATCTTTTTCTCCATTTTTACTTAAATAAATTTTCTATGGTAGTTATTAATGCTGGTAAATATATTAAGAAACCTATAACAACAGATAGTAGTGCATTAATAATACTTGCAGCTGCACAAATATCTTTGATTTTTTTAGCTTGAATATTATATTCAAAACTTAATAAATCAACAAAATTTTCAACTGATGTATTAACAAATTCAAATCCAGTAAGTACTCCAATTGTTAAAATAACAATTGATCATTGAGTTGTATCTAACCCAACTCAAATACCTAATCCTATTGCAAAAATGACAATAATTAAATAAACAATTAATGTCGATTCTTCTCTAAATGCAGTAAAAATACCTCTAGCGGCATTTGAAAACTTATTTTTTACTCTTGTACCAACCTTTGATTTCTTTTTAATATCATTTTTTCTTGACATATTATTACACCTTTTTCTGCCTTATTATTATACTTTACATTAAAAAAAATGCCATTAAAATGGCATTTTATACTTGATATTTTGTTTGTTTAAAATTTGATCTGTTAAATCAAACATTAATTTTTCTTCATTTTCACTTATTTCATGATCATATCCTAGGATATGTAAAAGACCATGAACAAATAATCAAGCCATTTCCTCTTTAATTGTATGATTGTATTTTAACGCTTTATTCTTAGCTTCACTAAATGTTATAAAAATATCTCCTATTTCTTTAAAATCTAATTGATTATATATGCCAAAGTCATCATCAATTGGAAAAGAAATAACATCTCCTACATAGTCTTTTTTTCTATATTCATTATTAAGTTTTCTTGATTTTATTTCATCAATATAGTTAACTGAAAAACTTAAATTTTGATTAATATCTAATACTTCTTTAGCTGATTTTAACAAATTATTAAAAAGTACCTCATATTCTTTTAAATTTTCATCTGTATTATAATTAAATTCTAATATATCTTTCATATTTACTCCTATTTTTAGAAAACATTTGATAATAAATAAGAAAGCAGCGATATTTTTTCTCCAAATATTAAAACATTATTTGAAGGATATTTGATACTTCCTATATTATTTATACTTATCTTGATTAAAGAATCACTATATTCAAGATTGGAAGAATAAACATACATATTTCCTTGATTAGTTTCTAAAATTATATAATCAATTAAGCTTATATTCAAACTTTTGTTACTAATTAAATATAAATCAGCGGTTACAGTTCCATCTTCATCAATATATTCTTGAATAAAAACTGAGCCTGTATAGACTTGCTGTTTTTTTAATAAAATTAAAATAGCTATAAATATTAATAATGTAAATAATAAACAAAAATGAACTGTCAAGTTTTTTTTCATTATATTACCTCCACTCTATTTTCAAAATATCTTGAATATGCAATATCATGATCACACATGATTATTAAGGAGTTCTTTTTTTGCTCCATAAATAATTTAAATAAATAATAAGCAGTGTGTTTATCAACATTACTTAAAGGCTCATCTATTAAATATAAGTCTTTACTAGTAAAAAATAAACTTAGGAAATTAATTATTTGTCTTTGACCTTTACTTAGATTGGCACCATTATCATAAATTTTTTTATTTAAATCTATATTATTTCTTTCTAATATTTCTAATATTTTGAAATCCTCAACTATTTTTAAATCAGTCTTATTTTTGAATTGTTGAATATTATTTCAAACTGTTCCATTAAACAAATAATCATATTGACCAAGATAAATATTTCTTTCTCGATAACTTTTAATATCTACTTTATTTGTATTAATATTTTCATTTATTAATAAAGTTCCCTCATATTTTTTATAATGTCCTGATAAAATTTTTAATAAAGTTGTTTTACCACTCCCACTTTTACCATAAATGAAAGTATTTTTATTAAAGATAAAATTAAAATTATTTAAAGCACACTTATCAGACTTATAACTATATAAATTTTTTGCCTCTATAGTTTTTATTTCTTTGACAATTATTGAACTATCTTTATTTTCACTATTAGCAAAAATAAAACTCAAGGATTTATCTGCAATAATTATTTCTTGTAAATCAAGTATAAAATTAGTTAATTGATTGAAAAAAATATTTATATAAAAACTAATTGATGTATAAAATAAAAGATCTGGTACAGTAAATTTGCTTTGATTTATATAAATTATAGAAATGTAAAATATTAAATAAAAAAAGAATTTATTTAATAATGAAAAAAATAGTTCCGCTTTATTGTTCAAATTAAATATGTGTTTTGTTTCTTTTAAAGTAGCATTAAAGTTTTTATAGTTAACTGATTTAATTTCATCTTCAATATTTTTATATTTTATTTCTTCAAACCCATCAAGTATTTCTCTATAACTATAAGAAAAATTTATTAGTTTTCTCTCTTTCTTTATTTTATATTCTTTTAAAAGATAGAATAAAAAAATTGAAATTGATATAGATATTATATTTTGAATGATAACAATAGTTAATATTAACGGAGAAATTAAAATTAAAAATAGTGACGACATTAAAAAAAGAATTAAGCCCAACGGGAAAGATATTGTTGATTTTACAATAAATTCAGATAGTAGATTAATATGTTCCAATTTTTTCATTCACTCTTCTTTCGAATTTGAATTAAATTTTTCAATTTCTAAATTTATTAATTTCTTTTTATAAAAAAGAAATATAGTTTTACTTACTTTTGACTTAATATTAAAAACTATCTTATTTATAAAATAGGAGACCGCATTTTGGATAATAAACACAATTAAAAAAATTAAAAATAAAAATTTTATGGATTGATTTTCTTTGATGGCAACATTCTCCATATAGATTTTTAAAAAATTGTTTGTAATTAAAATAAGCACATTTAAAATAATGGATATTAAAAATAACATTAATACTTCCGTTTTAAATTTATTAATAAATGTAAATCAATTAAATATTGATTTAGTCTTAAATTTTACTTCCTCAATTTTTTTTGTAATTGATAAAAATCCTTGATAAATACTTTTAAAGTCTTTTTCACTGACCCAAGTTAGGTCTTTTAAATTTGAATCTGCAACTAAAAAAAGATTCTTTCTTTTTTTATAAATAATAATAAAATGTTCATTTCCCTCTTTATTCAATGTATTTAAAACTAACGGATTTGTAATATCCAAATTTTTAAATTCTTCATAATCACATTTATAGGAAGTAAATTCAATATGATAATTATTTAAAAGTTTTTCCATATCATATAAACTTAGCATTTCATCATTAAGAGAATTATCAAATTTAATTTCTTCTATTCCAAAATTTTTATTATGATAATAATTTATTAAAGTCGTTGATACTGCTATTCCACAGTCATTTTCACTTTTTTGTATAGTAAATTTATATTCCAAACTAATCACCATTTAATTAATCGTCAAAAAAATAAAAAAGTTAAATTAAAACTTAACAGCGAATCTTATAAATTCAATATCATCTCATTTTAATTTAACTTTTTTGGGTCTACCTTTAATAAAGAAATTAAATATCAATTCGTCATCTTTAATTTCTGTTAATGTCGCAGAAAATTCTGTAAATATTTCAATTGGTTTTTTTAAAGTAATATAAAAGAAACTGCCAATATTATATTTTAAAATTTCAAATGATTTAACTTTCCTTTCAGCTCCCGCACTTGCAACTTCTAAAATATATGAATCTTCTAAATCATCAATATCATCCAACATATTTGAAATACTTTCATTAGCCTTTATTAATAAATCAAAATCAATATTTTTTTTACTTATATCTCTATTTTCAACTAGAATTTGTAGTACCTTTGAATCAAAATCATTGACAACATTCAATTCATAAAGCAAAAAATCACACTCATTAAGAATATTTTTTATCTTTTCCAAATAGTTGTTTTTAATAATATCTAATGACATATTTACCTCTTTTATAGATTAATTTTATATTATTTTGAGTTAATAAATAAAAAAAGATAATGATTTTCATTTTAGAAATCAAATGAAAGTTGTTCATCATCTTTTAATTTATCTGTAACTTTTAATTTATTAAATATTTCAATTTGAGTTTGGGTTACCTGGGTTCTCATTTTTAAATCATTAACACTTGTAATTTGTCTTTCTTTTCTGGCATTAACAATTGAATTAGCCACAGCAACACCTAAAGAATCAATTACATTAAATGATGGTACTAATATTTTTTTTCCATCATTATTTTTTGTAATAACAAATTTCTCTCCCTCTGAAATATTAAAATCAATATTTGAGATTTCAATCCCTCTTGCAAACATTTCTAAAATAACTTCATAAATTGTTATTAAAGCATTTTCCTTTGCAGTTACAGGTAATTTATTGTTTTGTCGATATTTAATATCTTCAATAGTTTTAACTACTGCATCTTTTCCTTTTAGTACAGTTTCCAAATCAAAGAAATCTGCTCTTGTAGAAAATCAAACAGCATAGTATTCTTCAGGATAATATATTTTATATCAAGCTACACGATATGCCATTAACACATAAGCAGTTGCGTGAGCTTTTGGAAACATATATTTTATTTTTAAGCAACTATTAATGTATCATTCAGGAACATTATTTTCTTTCATAAGATTAATTCATTCTTTTGAAAGACCTTTACCTTTTCTAACACTTTCCATAATATTAAATGAAGATGATGAGTCTAAACCTTTTGACATTAAGTAAACCATAATATCATCACGACAACCAATTACTTGTGAAATATTTGCTACACCTTCTTTAATTAAAGATTGAGCATTTCCAACATAAACATCTGTTCCATGACTTAACCCTGAAATTTGTACTAAGTCTGCAAAATTTTGGGGTTTTGTTTCTTTTAACATATTTCTAACAAATTGAGTTCCAAATTCAGGAAGTCCAATTGCTCCAGTAGTTTCACCAAGAATTGAATCAGCATCAATTTTTAATGCTGATAATTCTGAAAATAAAGAATAAACGGCTTTATCATCTGTTGGAACTTTAATTGGATCAAATCCTGTTAAATCATAAAGCATTCTTAATGCAGTTGGATCAACGTGACCTAAAATATCCATTTTTAATAAATTATCGTGAATTGAGTGAAAGTCAAAATGAGTCGTTTTTCAATCACTTTCATTATCATCAGCTGGATAATTTACTGGAGTAAAATCTTCAATCTCATATTCTTTAGGTAAAATAATAATTCCACCTGGATGTTGTCCTGTTGTTCTTTTAACTCCAGTAGAAAGTGAAGCAAGACGTTCAATTTCAGCCTTTCTAATTAAATCAATATTCTGACTTTGCTTTTCAAAATAACCAAGTGTAAAACCATAGGCTGTTTTTTCTGCAACAGTAGAAATTGTCCCAGCTCTAAAAACATTATTCTCTCCAAAAATTTCTTTTGTGAAGTTATGTGCAATTGGTTGATACTCTCCAGAAAAATTTAAATCAATATCTGGAACTTTATCTCCATCAAAACCCAAAAAAGTTTCAAAAGGAATATCATGGCCATCACCTAATAATTTTGTATTACATTTTGGACATAATTTTTCTGGTAAATCATAACCACATTTAATTTCTTCTGGTGTTTCAAAATCTGAATATTTACATTCAATACATCTATAGTGTGGTTTTAATGGGTTAACTTCTGTAATCAGTGATGCAGTTGCAACAAATGAACTTCCCACAGAGCCACGACTTCCCACTAAATAACCATCATCATTTGATTTTTTAACAAGTAAATGACTAATTCAATAAACAACAGCAAAACCATGTTTAATAATTGAAAGTAATTCTTTTTCCAATCTCTCTTTTACAATTTCTGGTAATAGTTCTCCATAAAGTGATTTTGCATTTTTATAACATTCATCTGTTAAAAGTTTATCAACATTTTCAATATTTGGAGGATAAGATCCAGTTTTAATTGGAACTATATTGGCATCAATTAAATCTGCAATTTTATTTGGATTTTCAATAACAATTTCATTAATTAATTCACTATTTTCTAATCAATTAAATTCTTCTAACATTTCTTTTGTTGTTCTCAAATGTTGATCTGGATTATCTTTAACTCTTTGTTTAAAGTCATAAAGAGGATGATATGCTCCACCTAATCCTTTTGTATTAATATAAATATCTCTAATTTTTTTAAGTTCTGGATCAACATAATGTGCATCACTTGTTGCAACAATTGTTTTATTTAATTTTTTTGCAACTTCAATAATTTTAAGAATAATAGTTTTTAATTCATCCATTGTTAAATCTTCTGTTTGAATTAATTTTTTATAAACACTTAGTGGTTGAATTTCAATATAGTCAAAAAAATCTATAGACTCTTCCAACATTTTAAAGGTACCTGTTCTTGCATTTTCAAATACTAAACCATTAACACAACCACTTCCAACTAAAATATTATTTTTACTTTTAATTTCTAAAATCTTAGATTGAAAAACTTTTGGCGATCCTAAAAAACTTTCTGTATGAGAATAAGAAATTAATTTATATAAATCCTTTAAACCTTGTTGATTTTTTACTAAAACATTAATGTGATATCCTCTTGACCTTTTAAAGTTTTCATTTTCATATTTACTTTTATTAAACTTATTTCAATCGCTGTCAACATCAATTGAAGTTATTTTTTTAGCCTCAGTTCACATATGTTCGTACATATTAGTTAAAACTTCTGCATCGTAATCGGCACGGTGAGCTATTTTTTCATCATAAAGAATTTGATATGCTTTTGCAACAGTTCCTAGTCGATGATTTTTTAATCTTGGTTGTAAAAGTCTTCCTAATGCTAGTGTATCAATAATTGTGTTCTTTAATTCACCATAACCAAGTTTTTTAGCAAAACTTTGTAAGAAGTTAAAGTCGAAATTAGCATTGTGAGCTATTAAAATTCCATCTTCTATAATTTCCATTATATTTTTAAATTCCACTTCAATTGAATTTTTATCTTCTAACATTTCAGTTGTGATACCAGTTAAATCAGTTGTAAATTTTTTTAATGGCTTTTTAGGTTTAATTAAAATATCATATTTTTTTGAAGTACCTTTAGCATAATCATAAACATTAGCTCCAAATTCAATTATTTCATCAAACTCAGGTGATAAACCAGTTGTTTCTAAGTCAAAGACAACAAATTTGGCCTCTCTTAATTTTTTACCAGTTGGGTTTTTTATAATTCATGAGTCATCATTTAACATCACAAGTTCACTACCATAAATTAATTTAAGTTTTTCTTCTTCACTTACACCCTTATTAGCGCTTAATAAAGAATAATATGCATCAGGAAAAGTTTGAACATTTAAATGATCTGTTATTGCAATTGCTTTTCAACCAAATCTTTTTGCACAATCAATATAATCTTTAGCACTACTTACTCCATCCATTACTGACATTTTTGTATGTGTATGAAGTTCGACTCTTTTAACTTTTGATTCATCTTTTCGATAAACTGTTTTGGATTCAATCTTTTTATATTTGCTAATATAAAAAATATAACTCTTATCAAAAGATGAATAATTAAAATTACCATTAAATGAAACTCAATCACCTTTATTTATAATTTGGTTTTCAAAACCAATTAAAGAATTTTTTGTTTCTTCTGTTATCTCATCAAAAAAAGTTGGTTCGTTATTTCTTTGGAAAAAAATACACATTACAGATGAAGTTCCATCTGTAATTGCAATATTATAAACATTTCTTCCTGCTTTTGATTTTCTTACATTTTTGGAAATTACTTGCCCATGAATTGTTACATTTTGTGCGTCTTCTTCAAGATCAACTATTGATTCATAAGTTGCTATATTTAAAATATCATTATTTGATTTATATTTTTGTCTTGAAGGTGATGTATAAGAATTAATATCAGTATTACTTTTTTGAGTATTTGCAATATAATGTGAAGCCTTTTCATATTTTTCTCTAATTGATTCTAAAACATCAGTTTCTAAATTTTCCTTAACTCTAATCTTTAAGTCAAGATTTCTAAAACCATATTTTAATAATTTATTTTTATAATACTCTTTATGTTCTTCTAAAAGAGATTTTTCAGTTTCATTAGATACATTAAAGAATACCATTCTGTGTTCTTTTGAATAGTCAACATTTGAAGGTGTCAAAATTTTAATTGTTCCAGTTTTAACTTCTGCTTTTTGCTCTTTAACATACTCAATATGATTTCAAATTAATTCTTTTGAATATAATTCACTGTCTACTCAAAAATTTAATTTTGTAGAAACTAAAGTATTTGTTAACATAATACTTTCAATTTTATGTAATAAATGAATAGGTAAAAAATCTTTAAGTTTAATAAAGACTCTTAATTTATTTGCACTTTGACTAAACTCAGCTTCTTGATAAAAATGGGCTTCACTAAAATATGATTCTTCTTCTTCGCTTAAAAAAATATTTAAGCTCTCAAACATATCTTTAACTTGTTTATGCATATTTTTCACCCCTTCTTATATTTATACTATGAAATCTTTAATTGTTATCATTATAAATAACAATAAAAATAAAATAGCTCCAGTTGCATTTACAACTACTTTGTATTTTGTTGGTAATTCTTTTCTTAGAATCATTTCTATAAAATTTTCTAATAATCTATATCCATCAAGTGGTGGAATAAAAATTAAATTTAAAATAAATAGATTAGCACTAATTGTAGCTACATAAATAAAGAATTGCTCTGGGCTTGAAAGTAAAGTTGCTGTTTGCTTAGCAACCCCAACTGGACCAACTAAATTTGAAAATTTTCCTGTAAAAATATTTCCAAAAGCTTCTAAAATTGAAATTGAAGCTTTAAAAGTTTCACCTCAACCAGCTCCATAAGCTTGAGCTGTACTTTTGTAAATTCTATTTGGTGCACTTATTCCAATACTACTTGCAGGTTCAATATCAGTTAATGTAGTTAATTCTCCCTTTTTATATGCATCTAAAGCAATTCCAGTATATGGATCTACTTTTTTATATAAAAATTGAATTTGCACTTCTTCTTTGTCTTTTGAACGAGATAAATTATCAATAAAGTTATAAACAGTTTTTTTATAACTTACAGCTTTTTGATTATTAACTTCATTAATTTTTGCATCACATTCCTTTAAATTATTAGGTTCATTACAGATATTGTCAAAAAGAACAACTTCTTTATCATCCTCTTTTGCAATCATTTTTCAACCTCAAATAATATATTCTTGACCAATATAGTTAACATCAATATTATTATCTTTTTCCTTTTTTAAAATAGAAGTTGCAGCAACTTTATTTTGATCATAAATTGCTCCAAAATAAGTCATATCATTTTTTTTAACACCCACTGATGCAAAAATTGTTGTAAATAAAAGCAAAGCAACAAATAAGTTCATAGCAGGTCCTGCTAAGATGAAAAACATTTTTTTTCATCTAGCAATATAATCTAATTTTCTTTCATCAGGAACTTCTTCATCTTCTCTATCTTTTGGTGGGTCAGCTTTGTCTGATGCAATCGAGCAATATCCCCCTAAAGGAAAGGCTCTAACTGAAATTCAAGTCTCCTTACCTTTAATTACAAAAAGTCTTGGTCCAAATCCAATTGAAAATTCATATACATAAGCTTTAGCAATTTTAGCAACAATTAAATGTCCTAATTCATGAATAGTAATTAATAAAAGCATAACTATTATTCCAATAAAGAAAGCTAATACTACCATTCCTCCACTAACTTCATTCATAATTTATCCCTCAATTCTTTTAATTGTTAATTGTCTAATAATTTTGTCATAATTGACTATTTGTTCATAATCTATTAATTCAATGTTTTCGCATTCTTGAAATATTTTTTCAACTATATCAGTAATTTGAAAAAAGTTAATTTTTTTCTTTAAAAAATAATCAACACAAACTTCATTTGCAGCGTTTAAAGCAATTGCTTTTGAGTTTTTTAACTCTAAACATTGTAAAGCAAAAGCAATTGGTTTAAATCTCTTTTGGTCAATTTCTTTTAAATCTAACCTTATTAAATCATTAAAATCAATCTCTTTTTGCTTATAATATGAATTTTTTTTAGGATAATGTAAAAAGTAATTTATAACTTGCTTCATATCAGGTATAGAAAGTTGAGCTTTTATTGATCCATCATTATAACCAACCATTGAGTGAATTATTGATTGAGGATGCAATAAAGTTATAATATTTTTAATTCCAAATAAATGATAAGCTTCTAAAATTTCAAATGCCTTATTAAACATCGTTGAACTATCAACAGTTATTTTTTGACCCATATTTCAATTAGGATGTTTTAAAGCCTGATCTAAAGTAACTTTTTTTGTTTCTTCTAATGTTAAATTTCTAAAGCTGCCCCCTGATGCTGTAATAAATAATGCTTTTGGTATATTTTCTTTTTCTAAACATTGAAAAATAGCACAGTGCTCAGAATCTAAAGGATATATTTTAGTTTTACTTTTTTTTAACATTTCATTTATTAAATTTCCAGCAGTAACAAATGATTCTTTATTTGCATTTAATAAAACTAAGTTACTTTCAATTGCTTTTAAAGTAACTTGTAAACCATAAAAACCGCTTAAAGCATTAATTATAATTTGATCATCTTTGCTTAATATATTTAAAATATCGTCAGATAAAAATTCTACATTTGGATATTTTAGTTTTAAATAATTTAATTCTTTTTTAGAATAGACCTTTTTAATGGTTGGAAAAGAAAGTAAAAAAGATTCAATTTTTGAATCATTTTCTCCTACACTAAGAGCTGTTAAATTAAATTTATCTTTACTTTCTTGCAATAATTCTATACATTGCTGACCAATGCTTCCTGAAGCTCCAAATAATACTATATTTTTCACTGTTCTAAGCAACACTAGAAATAAAGATAAATAAGACAAACAATGAAAATAAAATTGAATCCATTCGGTCTAAAGCTCCACCATGACCAGGAATTAAATTTGAATAATCTTTAATATTTACTTGTCTTTTAACTCATGAAAATAATAAATCTCCAAATAAACCAATTATTGGAAAAACTAATGCTAATAAAATATAAACAATTATTTCAAGTGCCATTGATCGACCACCCAATGATTGCATTGGTTCTTTTAATGGTTGGAAGTCTTGTAATGGTGGTGTAAACTTGAAAATCATTGCAAAAATAATTCCAGAAGTTGCAGCTACTCCAAGACCGATTAAAGCACCTTCTCAAGTTTTTTTAGGACTAATATTTGGGCTTAATTTAGTTTTACCAAATCTCATTCCCCCAATATATTGGAATGAATCACTTAAGATAATCATCATTCAAATTCAAACTATTGTAACAAATGAGAATCTCGCACTTATTTTAATTTCATTAGTTTCTGGATTAACAGTTTCAATTAATCCTAAAGAAGAAATTGAAAAGGCTTTTAATCCCATAATTATAATCATTGTCATAATAAAATTAATTAAAGCACTTTTAATATCAATTCTTTTATCTGCAAATCCAATTATAATTGTCACTATTAAATAACTTGTAACTAACACTGGAAATTGTCATAATTGTAATCAAGTTTCTAAGCTCATCTCAGTATAAAATGAAAAATTATACATATTAAAACTTAAAGGAAAAATGAACATTATTGTTGCAAATGTAATCATTAAAACTTGATAATATCAATTTTTAAAACCCATTGTTTTATTCATCTCAAACATACATATTCCAAGTAAACCTACTGTTAAAATTATTGAAGTATATGATGCAGCGTCTGCATTTAAATCTGTATAAGATTTTAATGATGTATATATTGCCCCTGATACAACAAAACCTAAAAGTAATGCCAACAAGACTATTGTTGAAAGAACTCGCACTTTAAAATTACGTTTAGCAGATGGTAGTTTAAAACGGTTATTGCCAATATCACCATTAATTTCAGGAGAAATTTCAGCTGTTTCAGTTATTTCAAATTCATTTTTATCTTTATTTTTTTTCATCTTTAATAACCCCAAATCTCCTATTTCTATTATTATATTCTTGAATAGCTAATTTTAAATCGCTTTCTTTAAAGTCTGGTCAATATGTATTTATAAAATATAATTCTGCATATGCTAATTGAAGTAACATAAAATTACTTAATCTTTTTTCTCCACCAGTTCTAATTAATAAATCTATTTGTGGAGTATCTTTTGTATATAAATTATTTAAAATTGTATTAATAGAAAAGTTATCAAGTGATAATTTTTTACTATTAATATCATTAAACACTATTTTAAAACAATTTTCTACCTCTTCAAATGAACCATAATCCAAAGCAATATGAAGAGTTATCTGATTTGCATCTTTAGTCTTTGCTTCCATTTCTTCAATAGCTTTGCGAGTCTTCAAAGGTACTTTACTTCTTCTTCCAATTCAAACAACTTTAATACCTTCTTGTAAATATTTTTCTTGTTCTTTTTTTGAAAAAATTTCAGATGGAAATTGCATTAAATAATTAACTTCTTGTAAAGGTCTGTTTCAATTTTCTGTCGAAAAGCAAAACATTGAAATATATTTTATACCATAACTTTTAGCAGCTAAAATTGTTGGATAAATATTTTCCATTCCAATTTTATGGCCATAAGTTCTTTGTTTATTTCTTTCTTTTGCTCATCTTCCATTACCATCAAGAATAAAAGCAATATGTTCTAATTTTTTAATGAATATCCCTCTTTTTTATTTAACTATTTGTAATTCTCTAAAGGGTGTAGTTAAAAATTCATAGCCACTTTTTGTAACTAAAATATCATCTTCAATTCTTACTCCCCCAATTCCAGGAATGTATATTCCTGGTTCAACAGTTACACACATTCCCTCTTGTAGTGTTTTGTCACCAGCAGCTGAATTATATGGTTCTTCATGAATTTCAATACCCAAACCATGACCAGTTCCATGAGTGAAATATTTACCATAACCTTTTGATTCAATATAGTCAAAACAAATTTTATGTACTTCATTTCCACTAATACCTGGTTTAATACTTTCAATTCCCAATTGTTGTGATTGATAAACTATTTCATAGATTTCTTTCAACTTTGCATTATTAGAATTGCCAACAGCAAATGTTCTTGTTTGATCTGAACAATAACCATTATAATAACATCCCATATCTAATGTTACAAAATCACCTTCTGCAATTTTTTTATCAGTTGGTACTGCATGAGGCATACTGCCATTTTCTCCACTAGCTACAATTGTGTCAAAACTTAATTTTTCAGCTCCATTTTTTAAAAATGAATCACTTACAAATCTTGCTAATTCTTTTTCACTAATACCTGGTTTAACAAAATCCAATACTTCTAAAAAAACTTTATGAGTAATATCACAAGCTCCTTTAATTTGATCAATTTCTCATTTATCTTTTACCATTCTGATTGCATCAAAATTATGTGATACAACTTCGGCTTTCAAATTTTTTTGAAAAATTTGAGCTTCCTTTACAAAAACTCAATCACTTTCATAGACAATTGTTTTAACATTATTTTCTTTTATTATATTATTTAATAAATCATATAATTTTCCAAATTCTATTATTTCATCAATATTTGTTAATAGTTTTGAATTTCTAGCAGCTGTAATATATCTACCATCTACAAATAAATAAGACTTATTCTTTGTATATAAAATATACCCAAGTGATGAGTGAAATCTTGAAAATCAATATCTATTTTGAGGTGAATATAATAAAATTGCATCTGCTTCAATTTCTTTTAAAATTTTATTTAATAAGTCTTTTTTCATTGTTAATAACTCCTTATATATAACTATACAAAAAAAGGGATAAAAAACCTTATAAAAAGTATTTTTTTATCCCCTATTTTTTTTGTTTATGAACTTGGTGTGAATTACATTTAAAGCAATGTTTTTTAACTTCAATTTTTTCTTTTCTTTTGTCGTTTTTTGCTATGTAATTTTCTTCTTTACAAGTTGCACAACGTAAAATAACTCCTTCACGCATAGTCTTAAGCCTCCTCTTGATAATCTTTTTTAGATAATAAGCAAATTAATAATACCAAAAAAATATCACTAATTCTTAGTTTTTTTTAAAATTTAATACCTTTTCAGCTGAAATATATTACGCAGACCTTTAAAACTTTTAAAAAAATATTTCAAAAAATTTGAAAATATTGTTGTAATTATAACTATATGTAGTATTATCTATATAGATAGTTATCTATATAGATAATATCTATAAGGAGGAAATATGTTAGGATTTAATTCATTATGTACTTGTGAAGTATGTACTTGTACAAATTGTCAATGTGGAAAATAAAAAAATAGAGTTCTTTTAATTAAGAGCTCTATTTTTTTTCATTGCAATTTGAACAAATTAATAAATTCTTTTCAACTTGAATTTCAGAAACAAACAATTTTAATTCATCAATTATTTGATTATTAATTTTATAACTTTTAGAATTCTTTTCCTTAAGAGAAGTTATTAAACCAACCTTTTCTAACATTTTCATATGATAACTTAATGTTGGTTGTGTTATGTTTAAATTAACCAAAATATTTTGAGCACATTTAGTACAACCACAATCACAAATCATATTAATTATTTGTAATCTTGTTGGATCACCAAGTGTTTTAAATATTTCTGCAAATTCTATGTATTTTTCTTTCATAATTATTCTCCTTAAAAAAATCTTTTAACTAAGATTAACCAAATTATACCAATTTTTAAAAATATTTATCTTTTGCAATTTTTAAATAAATAAAGCAATAATGCTTAAATATGTGTAAAATAATAATAGTAATTTAGGAGTGATAAAAGTGAGAAAATTACTTAATGTAATTTCAGCAACAGCATTAGTTGGAACATCAACTTTAGTTGTTGTTTCATGTAGTTCAAACAAAAAATTTAACGAATTTAAAGGTTGAATTGATAATAAAGAATCATTTATTCTATATATGGGTGCAGATGATTGTCCACATTGTAAGGACTTTGATAATGCTAAAAAAGATTATAGTGATAAATTCAATTCAAAAATGAATGAGTTAAATACTAGTTATGAGCAAAAAGTTATAAGACAAGGAATAAGTTATCCAGATTCTATGACTGCTTATGGTGAAAAACTAAATAATAAAGTAGATTTTAGAGAATTTAAAACAGAAGAAGTTCAAAATAAATTTAATGAAAAGTGAAGTAAAAACATCTTAGATTGAATGATTGAAGAAGTAACTCAAATTTATAAAACTAAGGTTTTTGGAAATACTGAAACTAAAGAAAAAATCGCATACAATGAATCTAAAAAGAAAGTTAAAACTTACTTCAATAATAACAATGGTGTACCAATGTTCATTGTTATTAGAAATGGTAAATTAGTAACTTGAGAAGTTGGATTTGGAAAATCAGAGCAAGGATGAACAGAAAAAATAATTGATGAATTATTTGAACCATTGATTACTGCAATGAACAACAGTGATCAAGAAACAGTATTTATTGATAAAGTTAATAAAGGTCAATCTACTGGTGGAGGAGAAACACCTGACCCTGACCCTGGAACAGATCCAGGTACTGAACCTGGAACAGATAGTAGAAAACAATTATATCAATTTAATTATTCACTTGATAACTTAGAGCTAATTAATAATTATTCAAATAAATAAAAAGAGTAGTCAGAAACAGTAAATTTGTTTCTTGAACTACTTTTTTATTTCAAGATTATAAATTTATAACTTCATTTGGTGTTTTCATATTTAATAAGGCCGAAACTACATTCTCAATTTTTAAAAATTTCATTTTAATTTTTTTATCATCTTCCAGAAATGCTCTTGCTAAAAAATTATCCTCATAAAAGTTTGGTGCAATTAATAAAACAAGTTTGTGCTTATTAAACATTTCATCATCTTTAAGGTGTCTAACAATAGGAAATAATTCTCTTGCAGTTAAATCTGCAGAGCCAGATATTAATGTAACTTCAATAGGAAAATTTATCAGATCGCTTAAAAATACTATATCCGGTCTATTTCCTGTGGCATGGTTAAAAGGTATTCCTTCATCATCACATAAATAATTAGGCATAACACTAGAATCAGGAAATTTCTTTTTAAAAACAACTGAAGTTAAAAATTCTAGTCTTGTCGGTTCCAACATATCTTTTAGTACAAAATTTTCACTTGGAGCTTTTTTCCTCATTTTTTTGAATTCTTCATTTAATTCTTCAAAAGAAAGCTCATTTCCGAATTTAACCAAAAATTCTTGTTTTTTTTCAATAAGATTTTTATCAATTCCTGTTTTTTTACATTCAAAAAGTTCAAGAATTTTATTATCAAGTTTTCCATAAAATTTAAAATAATCTTTTTCATTATTTATAGTATCTTCTGAATCCATACTTAAGATATGATTTATTACATCACGATTGGAACTATTTCAATCTATGAATTTTCCCATACCTCGAAGAGATATAAGTCCTGATTCTCTCATTTTTCTTATATATTCATCAGTTGATTCATTAAAAATCTTTGTAAGTTTTATATAATTTCCCATAGTTTCAAAGTTAGTGTCTAAATATTTTAATATTTCACAATATATATTTTCCTTAGTATATTTATTTTTTGGAATTTCTTTTCTTATTTTAATTATAAAATTAGACAATAACTCCGTATCATCGTCTTTTCAACATAAAAAAATTGGTATTTCTAATCTTGAAATTCCTACAAAATCCTCATTTAAAATTTTTCTCATTTTCTTTATAGTATCTAAAAGTAAAATTAAAGGTTTATTACTGTTTAAATTTTTTCTATATAAGTTATTAGTTTTATATTTTGATAGTATTATAGAATAAGAAGCAAAAATATCAAATTGTTCTTCATTTTCAAAAGCTTTAATAAGAAATTCACCTAATTCAGATATTTCTATTTTTTCTCCAATTTTATAATAAAGTAAACCTCATTCTTTCATTAGTTTATAAAAAGTGTCAAATCTTGAAGGCCAACCTTTATCAAAACCAGCCTCTTTATGATTTTGTGGAGAATTCATTATAATTTCCTCAATTTGTTCTTTATTAAATTTATTTTCACTTTGATAAATTAATTTAAACTTTTCATTTTTACTAATAAAAAAAGGCTTGTATATTTTTTCCTTAATTATATCTTCAAGAATTTCATTGATTACTTCATTAGTTAAAATTTCCCCAGATTTTTTTTTAATAATTTTTAAAAACGACGGAATTCTTTGGGGATTTCTCATTGTCGTAGAAAATGACAATGGCTTATATTTATATGGTTTAATATTTTTCATAATTTGTTACAAATATCTCCTCACTATTTTTTATTGAATTATTGTGCGAGCTAATAAAATTACTTTTTAATATTTTTGAAATATATTTTGACCTTCATTTTTCGAAAAAAATATTTTGCTTACCTTTATGGATTGAAAGATTTGTAATTCCAAACTTATAGCCCTTAGAATTTAGTAAATCTAAAAACTCATATAATTCTTTTTCCTTTCCCTCGTCTCAAAACTTATTGTATTCGCTTTTAGAAATTAAATATGGGGGATCTAAAAATATAAAAACCTCTTCTGATTTGTACTTACTTAATATACTTTCTTCTAAGAAATTTTTATAATCCATACAATAAAATTCAATTTGAGTTTTATTTTCATTTACTCAATCAAAATATCAATTAAGAGCCCTTGCAGTTGTATTGTTAAAATCAACATTTCCAACAGGTAAGTTAAACTGACTTGATGAATTAAATCTTATCATATGATTAAATCCATAAACCAATAATAAATATAACAAATCAATTTTTTTATTTAAATTAAATTTTTCCTTTAACTTAATATAACTTTTTTTATTTAAAACCGAGTAATAAGTTTTAGGAAACTCATCTTTTAAAATTTTTGTTGGCATATTTATATCAAAAAACGATGAAGATAAACCAAATTTTTCAATATCCTTTTTAATTCTTCTAAAAAATTCAATTTTTTTTCCAGAATTTTTAAATAAATATTTGTGAATGTTAATAACATTTTTATCAAAATCATTAAGTATAAAGGAATTTGCAGTTATATTCATTGCAGAACTTCCACCACCCAAAAAAGGCTCAACTCAAACATCAATTTTTTCTGGAATTAAAATCTTTATTTGATCTATTACTTTATATTTATCACCAACATAAAATAATGGGCTTCTTTTTGTATTTTTTACTATCATTATTTAGCCACCTTTACTATAAATAAATACTCAATATGATTTTTAAATTCTGTTTTGCCAGAAGAAAAAAATTTATGAGGAATTTCAAAAATTTTTACTTTACCTTTAGATTTTAATATATCCAAAATTGCTTCATAACTTATTTTATTTTTAGAAGAACTGCTTTTTGGATTAAATGTATTATTATATGTAACTACAATATATTTACATACTGCAATGTCTATTAAATTTTTAAATGCGATGTTAGCTGTACATCTTGAAAATAAACTCATGTTTTCTGGCTTAGGTTTTAGTGCTTCCCCAAAAAGCTCAGGTTTATCTCATTTTGTTATTGTTTCAAGTAAGTGATAAAATCTAGAATATTGTCTTGAGTTATAAGGTGGGTCTATAAATAAAATATCAGCATTTATTTTTTTTATTAATTCATTTGCATCTTCTCTATAAATTTTTATTTTTTTATTTAGAGTTGAACCCTCAGGGCAAATTAAAGAAAACTTAAACTTCTGTTTCAAATTGGGAATATTTTTTTTCAAAAAGGCCTCATAATGCCCTACTGTATTTGCAACTTTATCAAGAGAGAAAATTAAAGATGCAATAAGAATATTTTTTTCTCTTAGGTTTAAGAAATCACTAAGGAATTTTTTTTCTATATCTTCTCTTATTCAACCAATTTTTTTACTATCATTTTTTTCAAAATATTTGTTACCAAAATTTTTTGAAAAAAAATTTTCGGGTAAAGAATTAGAATCCAATTTTTTGTATTCTAATTCTAAGTTTTCAATTTTTTTTGCATCATAATCTTGCTTTCCTCAAAAACCTTCAAAAATTGAATTATTAGAATAAAGAAAATCATTTACAATTATTAAGTCAAACTCTTCTTTTAAAGCATTTGCAACAGAACCTGTTCCAGCAAAAATATCACAAAATATTTTTCCAGAACAATTATTTCTTATGTACTTTTTTATTTCAATAATAAGGCGTTGTTTACTTCCTGTATATCTTCTATTCTCTATTTTAAACATATTTCCTCTTTCATCAAACATATTTTTATTATAAATTAAGTAATACTCTAACTATGTTTTGAAATATAATAAACTTTGGGTTTTTTAATTACTTTTCTGTACCAATATATAAAGCTATTTTTATATTTTTTAAATTTCTATATCCACATTTCAAATTAGTTTAAATAAGTAAACATTTCATCAATCAACTTCTCCTGCTAATAGTCCATATTCTTTCTTATATTCTTCTTGACCATCAATAAAAGTTATTACAAGATATGAACTATCCTTTTGTCCTATTCCAATGCAAGTTCAACCTTTAACTATGCTCTTATCAATTTTATCTACAAGCTTTCCATTATAGTCATAAATTTTTACTATATTTGGATCTTTCTCTCCACAAGATACTACGATAGTGCTTGTAGAAGCTGATAAACCCATAATTGCAAATAAACTTAAAAATTTTTTCATTGGTTTTATACCTCTTTGTTTTAACATATTTATTATAAATGATTAAAAAAGAAAAAAAACACTTAATAAAGTGTTTTTTTAATCAAGTCCGTAATAATGGTCCCCGGGGCCGGACTTGAACCGGCACGACCGCTTAAAGTCGCTGGATTTTAAGTCCAGTGCGTCTACCAATTCCGCCACCCGGGGATTAATAATAAAAATAAATGGTGTCCCGTATAAGACTTGAACTTATGACCCACTGGTTAAAAGCCAGTTGCTCTACCGACTGAGCTAACGAGACGTTAATAATAAAAATAAATGGCTGGGCTAGCAGGATTCGAACCGGCGCATGAGGGAGTCAAAGTCCCTTGCCTTACCGCTTGGCTATAGCCCAATTACTGGTGGGGAGTGACGGATTCGAACCGCCGAACCGTAAGGAGATGGTTTACAGCCACCCGCGTTTAGCCACTTCGCTAACTCCCCATGATATAAAATTGTGGTGCTGACTAAAGGACTTGAACCTTCGACCTATTGATTACTAGTCAATTGCTCTACCAACTGAGCTAAGTCAGCAATTATCCTTTTTTGTAAAAGTAAGAACCTTTTCAATTATACAAAAAAAAAGAATATAAAGTCAATAATTTTTAAAAAAAATAAAAAAAAGCACTCTGGGCGGAGCACTTATTTAAAACTTCTAGAATAGCTAATATTATAAATCTAAATAATTATGTTCATTTGATAGGGCTAAATAAACATTATGGGCTAATGATTTTTAAAACTATTCCAGACATAATTATTATATTTTAAAAATTATTTAATTTCAATGGTTATTAATTGAAAATTTAAAATTATTAGATATCATCAACAGTTAATAGTTTTAAAATTAATTTCTCATTGTGAGCATTATCATTTATTAAAATTAAATCTTGAGCCTTTTGTTGAAATTCTTCAATACTATCTCTATTTGTATATAATGTCATTACAGTTTCGCCTTTTTTAACAAACTCATTTGTAGTTTTATTTAAATAGATTCCTGCTGCAAAATCAATGCTTTCTTCTTTTGTAGCTCTTCCAGCTCCCAAATGCATTGAAAGATAGCCTAATTCATCTGCTGATGAAAAAGCTACATACCCTTCTTTTTTTGCTTTAATTTCAATCACATGCTTAGTTGAGAAATTTTTTTCATAGTCCAAAATGACGCTAAAATCGCCATTTTGGGCTCCTATAAAGTCTCTAAGCAAGTGAGCGGCACTATTATCATTCAAAACCTTGGTTAATTCAATTTTGGCTGTTTTTAGGTCTTTAAAAACTTTATTTTGTACCAATGTTAAACCAGCTGCAGTTATACATAATTCAATTAAGTCTTTTGGTCCCTTTCCGTTTAAAGTATCTCAAGCTTCTTTAACTTCAATAGCATTACCAATAGCTCTTCCTAATGGTTGATCCATATTGGTTATCATTACACTAACATTTCTTTTATGTTCTTTTCCAATTGCTATCATTGCTTTTGATAAAGCAATAGCACTTTTTAGATCTTTCATAAAAGCCCCACTACCCATTTTTACATCTAAAATAATGCTATCTGCAGGGATTACAAGTTTTTTTGACATAATACTTGAAGCTATTAAAGGGATTGAATCTACTGTCCCTGTAACATCTCTTAAGGCATATAATTTTTTATCAGCTGGTACAATATCACTTGATTGACTCATAATTGAAATACCAACAGTATTTAAAATTTCTTTAAATTTCTCTTCACTAATTTCACCAGTTCACCCTGGACAACTTTCAAGTTTATCAATTGTTCCCCCAGTTTGACCTAAACCTCGCCCTGATAATTTAGCTACCTTAACACCAAACTTTGCAACTAGAGGTGAAAAGATTAAACTTGTTTTATCTCCAATTCCACCAGTTGAGTGTTTATCTGCTTTTAAACCCTTAACACCATCTAAATTATAAGTGATTCCAGAGTTAATCATTGCTTGTGTAAAATTGGCAATTTCAGATGAACTCATTCCATTGAATCAAATTGCCATATTAAAGGCCGCCATTTGATAGTCTTTTAATGTGTTATTAACAAAAGAATTAACCACTCAAAAAATTTCTTGAGAAGTTAATTCTTTTTTATTTTTCTTTTTATTTATAATTTCTGCAAAATTCATTCTTATCTCTCCTACTCATATCAATTAATAAAAATTAGTTCTATTTTTTTTATCTACTTTTTTTGGTTTAAGACCTAATTTTTTAGGATCTCAATCTTTATATAAATTAATATTTTTTTCAACTTCTTTTTGTACATTTTTAGTTAGCATTTCAGTTTTCAGTGAAATAAATTTCTCTGGCATCATTGGCTTACCAAAAACTACCTTAATAACAAATCTTCCATGCTTTCTTTTTTGAAATAATTTATATGAATCGATAATTGAAACAGGAACAATTGGTACATATGCCATTTGTGCTAATTTCATACTTGCTGATTGAAACTCTTCTGGTTCTTGCTTTGCACTACGAGTTCCTTCTGGAAAAATAACAACTGTTCTTTTATAATCAGATATTAATTCTTTGGCTTCTTTCATTGCACTTAACGCACTTCTTGGATTGTTTCTATCCAAAGGAATATTATCTGTTAAATTCATAAAATGCTTAAATATTTTAGTTTTTCATAACTCTTGTTTGGCAATAAAAGCAACTGGTTGTTGTAATGAAAAGTCATTAATTGCTAGCATAAGAATTGAATCTAAATTCGATTGATGATTTGGAGCCAATACTATTCCACGATCTAATCAGTTTTCAATTCCTATAACATTAATTTCAACATTAGCTATTTTTAAAACTTTTCTAATCTTCTTTTTAACTCAATTATATCTTCACTCTTCTGAATATAAATTAGGGTCTTGTTTAATTTTTCTTGTAATTTTTTTTGCTTTTGCAGTTACTCTTCAAATACTTCAAGCGTTAGTAAATAATCTTCATTTACTAACATAAGCCATTTCCTTTTTATCCTTATCTTCTTGGGTATTTAATTCTTGCTTTATTTCAATTTCTTGTTTTTTATCTAATTGTTGCATAGTTATTGCCTTTCATAATAATAAGTTGTGAATTCGCTAAAATCCTCTTTATGAGTCATTTTAAATAATAAATTATCTCATTGAGGTGCAAAAACATCTCCTGGATAATTTTGCTTGATAATGCTAATTACTAATTTATCTGCGTAATTTAGTGCACTTTTGTAAATTTGAGAACCGCCAATGATAACAAGTTCTTCTTGACTTAATTGATATTTCTTTAAAATTTCTTCTAAATTATTGGATACTTCTAAATTATTATAACTCTTTTCTAATTCTCTTGAAGTAATTAAAATATTTTTTCTATTAGGCAAGGGTTTTTTTGAAAGTGAATCTCAAGTATTTCTACCCATTAAAATAGTTTTGTTTTTTGTATAATTAATAAAATGTTGCATTTCTTCTTTAATATTTCAAGGTAATTTATTATCTTTGCCAATAATATTGTTTTTGCTTTGTGCTCATATTAAAGAAATCATTAAACTGCAACAGCTCCTTTTATTGTTGGATGACTTTCATAACCTTCTAAAAGAATATCTTCAAATTTAATATCAAAAATAGATTTATTTTTAAAATTAATTTTTAAAGTTGGCAGTTTTTTTGGCTCTCTTGTTAATTGTAATTTTAATTGCTCAATATGATTTGAATAAATATGAGCATCACCAATTGTATGAATAAAATAACGTGCAGTTAAATTACATTCTTTTGCAACTAGTTCCAATAACAAAGAGTAACTTGCAATATTAAAAGGTATTCCTAAAAAAATGTCTCCACTTCTTTGATAAAGTTGTAAATCAATAAAACCATCTTTTGATACATAAAATTGAAATAAGGAATGACATGGTGGTAAAGCCATTTGATTTACCTCAGCAGGGTTTCAAGCAGATATGATATGTCTCCTTGAAAAAGGATTTGTTTTTATATCATTAATTAAATTTTTAAATTGATCTACTCCATTAAAATCTCTTCATTGTTTTCCATAAACAGGACCTAATTGCCCATGTAAATCTGCAAATCTTTTATTTTCTTTAATTTTTTGAACAAATTCTTCTAAACTTTCATTTTGAAAATCCTTAGATTTTTTATAAATTTCATAAGGTCATTCATTTCAAATATTTACTTTATTGTCAACCAAATATTTAATATTAGTATCTCCACTAATAAATCAAAGTATTTCATGAACTATTGCTTTAAAAAATAATTTTTTGGTTGTAACTAAAGGAAAACCATTTCTTAGATCATATCTCGATTGTGTTCCAAATTTTGAAATAGTTCCTGTATTGGTTCTATCATTTCTTCGTTCGCCAGTTTGTAAAACTTCTTCTACTAAATCCAAATATTGTTTCATTTTTTCACCCAATTTATTATATATCAGAATTACAAAAATATATATTAACTATTAATGCATAATACTTTTGAAACTAATTTTATCTAATAAAAAATAAAAAATTCCATACAAATTTAGTATGGAATAATAATTTATAAATTTAAAGCAACTGCTACTGAATAATTTTTTTCATGACTTATTGATAATTCAATATTTTTAAATTTACTATTTTCAATTACTGGTTTACTATTTCGATAAACAATATTTATTTTGTTTACTTCTAATGGTACTTCAAGACATTTAATCAAAGCTTCTTTTGCAGCTCATCTTCCTGAAGCAAATTGCAATTTTGCTTCAGAGCTTTGTAAATCATTTAATAATAATATTTCATCTTGATGTAAAAATTTCTTTAAAAATTTTTCTTCCAAATTTATTCTTTTATTTTCAACAATATCAATTCCAATTTTTGCCATAATTAATTTCAATATCCTTTTGCAAAATTAAAATAATGTTCAATTCAGTAAGTTCCACTATACCCCTTATCATTAACATTTCTTCAAAATTCTTTATCATGATTTATTTTTGCAATATCATTATTTGATGGTTCAACATCTTTTTTAGGACTTTCTGAATCATAAAATTCACCAAGTTTTAATTCACCTGAAGGAGTAATTTCAAATCCCTCAATTAAATAAGTTGCAGTATAAATTGTTGATAAAAAAGGAATTGAGTCTAAATTACTTCTTGTTGTAGCATTAACATAATTAATGTTTTTAAAGAAATTATAATTCTGTTTTGCATTTCTTAAAATTTTTGATAAATATCTTTGATTAGTACTTGTGCCAGAAGCTCCCGATGATGCATCTAATTTATTGGCCAAGGTAATAAATGGATTTGCTTCAATACCATCTTGCTCTGTTTTAACTTGAGCTCACTCATAAAATTTTTCAAACTCTTTCATATCTAATCAACCATCGTGGATTTTTTTGTCATCTTTTCCTGATTCTAGATAATATTGGTCAAAAGCATTTATCAGCTCAACACTTGTAACAGTTGCTTTTTGACTATTTACTCCATTTACAAACATTGTAGAACCCATTAACATCATTTCTGAAGTAAATCTAAATAATGCTCTTGTATCTTGGGGCATAGTTTCAATACATGCAGAAATTGGGAATTGCAATGGATTATTTGTTGCATAACCTTCTGCCATAACATCTTCATACACTAAAAAGAAATTTTTTAAATCCGGTAATGATTGCTTTGAAATTAATTGCATTGCCATAATAGAAAATGGATTAATAACATATTTATTGATACATCCATTTGTATAAGTAAAAGCAAAAACAGGAACTGATGGTAAAGGTGCAGCTATCTTGCGTGATAATGAATACTTTTTATAAGAATTTCCACCAAAAATAGTATCTTTAATTTGTTCTTCTGTCATATTTGAAAAGTTTGTTAACCCGATTTTTTGATTTTCTGTTTGAAATAAAGGAAAAGATAAAAAAAGACTAAAACTCATTGATAATGCCATACCGATGGCAAGACCATTAAAAGTTCCAAGTAAAGTATCAACTTTTCTAACTACTTTCATTTTATTAATTCTTTTCTTAAAAGCTCTATATAAAATTAAACCAATTAGATTGACTATTGTAAAAACAAAAACGCACATAAAAAGATACAGTATTAAACCTGATAATGTCTTTAAAATTTCATATCCTGTTCCTCCAGCACCTACTGGTAATCCAGATTCACTTCCGTTATTTGGTAATAAACCACTGACAAGTTTACCAATTGTATCACCAAAGTAGGAAAAGACATCAACAAGCCTAAGTTTTACCCACAATTGCATTAATAATGGATTCAAAGAGTTTGTTAATAATGCTGGAACAAAAAGTAAGATAATAATAACTATTACTTGTAAAACCAATATATAAAAAGTCACAAAAAAACCTTTTCTCATTCCAAACATAGTACAGCTAATAATAATAGAAAAAGCTAATATATCAAATAGCCATCAAGGTCCTATATTAATCATTTAACTTTCACTCCATTCTTACTAAAATTAATTATACCAATTTTATTATTTTATATTAACCCCTATTTTACTTTATAATTTATCTAGAAAGAGTAAAAAATATGCAAAATTTAAGTTTTAAAAAAGTAACTCAAAAGATATTAAATAAAATTATTGAAGAAAATAAGCAATTTTTAATTCCTTCAAATAATTCAAATATAAAATATTTATTTAAAATTAATGATCTTCTTATTAGTATTTATAATACAAATACATTACTTATTCAAGGAAAAAAAGCTTTAGAATTTAGTTTAAAATATAATTTAAAAGACCATAAAATTAACAAAGTAGTTAATAAATTTATTACATTACCTAATATTGGTTGTGACGAAGTTGGTGTTGGAGACTTTTTTGGTCCTTTAATAACTTGCTGTGCTTATGTTGAAAGGGACTTTGAAATTAAATACCCTACTTTATTAGCAGAAATTACTGATTCAAAAAAAATTACAGATATAAATATCTATAACTTATTTGAAAAAATCAAAGATAAAGTAATTTGAGAGATTTATATTTTGGAAAATAAGAAATATAATCAAGCTTTTGATATTTATAAAAATACTCATATTTTAAAGGCAATCTGTCACAATCAAGCTTTAAAGCGACTTTTTAGAAATAACAATAATCTGAAAGAAATACCTATAATTATGGACCAATTTGCAAGTGAAAAAAATTATTATAATTACTTAATTGATCAAGAAATTATAATTAAAGATATCCACTTTGAAACCAAAGCTGAATCTAAATATCTTTCAGTTGCTTGTGCCAGTATTATTGCAAGATATCACTTTTTAGAAAGCATCAAAGATTTGGAAAAAGAATATAATGTCAAACTGCCTTTAGGAGCTAGTAATAATGTAAAAGAGTATGTTAATAAATATAAAGCTGAGATGAAAGATAAAGTAACAAGTTTTACTAAAATGCATTTCAACAGTAAAAAATAAAAAAACCCTTATTATAGTTAGGGTTTTTTTTATACTCAATGATGGACGCATTGAGTAGGCACTGATAGCGTATTAATAATTTAATACACGAAATACAGAGTGCTAGTAAAACTAACACCTTATTATTATATTCTTAAAAAAAAAAAAAAAATAGAATATAAAATTATTTTTTTAACTTAAAATTATTTTTACTTCTTTTTTAAAAACAAACTCGACTTTTGCTTCATTTAGCATTTTTTTAGCTATTTTATTTTCAATATTTCCCTCATATTTATCAGAAGAATAAACAATTTTTTTGATTCCAGATTGAATAATACTTTTTGTACACTCATTACAAGGAAATAAACTAGTATATATTTCACATCCTCGAACAGATTCTTTTGAAGATAATATTGCGTTCAATTCAGCATGAACTATATATGGATATTTTGTTTTTTCTAATTCGCCTTCTCTTGATCAAGGATAATTATCATCATTTAAACCTCTTGGTAAACCATTATATCCTGTAGAAACAACTTGTTTCAAATCATTAACTATAACACAACCAACTTGAGTTGATGGATCTTTACTTCTCATTGCATTTAGTTGAACCATTGCCAAAAAGTAAGTATCTCAATCTATGTAGTCTTTTCTTTTCTTCATATTTTTAACCTCATTTTGAAATATTACCACTTGCATCAATATATCAATTTCAACCATTTTTTATAATAATTGAGTTTGCTTTTTCAGATGTCATTCAATTTTTCATGACATATAACTGTAATGAACCTACACTATATGGATCATGTGCTGGTGCATAATAACTTATTAAAGAAAATGTAAGTGGCAATAGTAATGAAATAGTTAAAATTATAATTGGTAATATTATTAATTTGTCTAATGTTTCTTTTTTATAAATTAATAGTAAGTAAATACTTGACGAAATTGCAGCTGATGCAATAATCATTATATAAAGGTGAGCTTGAGCTAAAAATAATGGATAAATAACTAAACATAAAATTGGGAAAACCATTCTATTTTTTGAAAATAATTGAATTGGTTCTCTTTTTTTGTCCCAAGTTGTTACTGCCAATACTCCTAAAACACTTGCCATAAAACCTAAACCACCTGAAAAAACTGCTTGTTGAGTTGGAACAGTTGCACTAACAAAGAAACCTACTAATGGATAAGTAATAAATATAGCAATTGCAAACTTAATTGAACCAACTAGACCCTCTGTATATCTTGCTAATTTAATAGCTGATCCAGCTACAAATATTTGAATTAAGGCCATAAAAATACCACTAGAATTTGATGTAAAACCATATGTAAAAATTCTTCATCATTGTTGACCAACAATTGTTAAATTTCTATTTGTTGCTCCAAAAAATAAATCAATTGAAAGCCCGTTTGTTAAAGGAAATCATAATAAACTTAAAACAGCTGTAATTGAAGGCATAATTATGAATATTGCAATTAAAAATATTGATATTGGACTATTTCTATTCATTCTTTGAATTGCTTTTTTGAATTTTAAATTAGAAGATTTTGTTGGATCTTTTAATATTTCAACCATTTCCTCATCAGAAATATAGTCCTCTTTGGTTTCTTTTTCTGGTTCTTCAATAGAATCAATTTTAGAAAAATAAGGTTTTAACTTAATTTTAGTATTTTCTAAATTAGAAACACTAAAAGTTGTTCCTTCCAATTCAATACCAATATCAGAATCACTCAAAGCAATATTTAATATCTCTATTTTTTCTCTTTTTTGTGATTTCAAAGTTTCTTTTATTTCATTTAAGTTTTTATCAGTTGTAACTGGTGAACCCAAAGTTACTCTAATTATTTTAAATTTAGCCTTTGGGTTAATTAAATAAGATACATAATCATTACTATACTTTTCCAAAGCTTTATATTTTTCAACTTTAACAAAATAGTGAACTAAATTCAATTTTAATTGATTAAAATTTATCATAATATACTCACCTATTCTTTAAACATATTGATTTTATCATTAAATTCTTTTGGTAAATCACTTATTAAGTCTAATTTTTCATTAGTTATTGGGTGATTAAATGTCAATCTATAAGCATGAAGATATTGACCAAATTCTTCTTTCATATCTTCTTTAAAAGCATATAAGGGATCTCCTACAACTGGATGCTTAATATATGCCATATGAACTCTAATTTGATGAGTTCGCCCTGTTTCAATAACACAACTTATTTTTGTATGTTTCTCATAACGTTCTAAAACAGTAAAATTTGTAATTGCATGTTTTGAGTTAATATCTGTTGTTGTCATTTTTTTGCGATCACCTTTATGACGACCAATTGGCGCATTAATTTTACCAGCATTTGGTTCAATTACCCCATGAACTAAAGCAATATATTCTTTATGAATTTCATTATTTGCTAACATATTTGTCAGACTTTTATGTGTTTTATCATTTTTGGCAACTATCATCAAACCTGTCGTCATTTTATCAAGTCTATGAACAATCCCTGGTCTTAAAACTCCCCCGATTGAAGATAAGTCTTTTACTTTAAATAATAACCCATTTACTAATGTTCCAGTTGGATTACCAGCTGCTGGGTGGACAACAAGACCATTGGGTTTATTAACTATTAATAAATCTTTGTCTTGATAAACTATTTCAAAATCAATATCTTCTGGTTTTGCTTCCATTTCACTTGGTTCTTTAAAATTCATTTTAATAACATCACCAGATAGTAGATTATGTTTAACACTAACTTCCTGATTATTTACAAGGACATCTTTTGACTCAATTAATTTTTGAACATAACTTCTAGAAAAATCATATTCTTCTTTTAAATACTCAGTTAAGAATTTATCTAATCGTCCTGCATCATGTTCTAATTTAATTTCTAATTGATTCATCAGCTACTCCTTATTTTTATATTCTTTTCATTGTTTTTTAAATTCTTTATTTTTTAATAGGTAATCTTTATATGATAATTTTTCTTCCTTTTTAGTAATTATTTTAGATCAGTATTCTTCAAATAAAATTGTTTTTTTATTATTAATATCACAATAAAATTCATATTTTTCTTGATTTTTTTTCTTCATATTAAATTCAAAAATCTCTAATACTATATATACTATGAAAATTACAACAATAATTCCAACTGCTATTGAAACTCATGCATCAGCTAAATTAAATATAAAACCAGAATCTCATAATTCAAATTCTAAAAAGTCAACAACTCCTCCACTTACTCCATGTTTTGAAATTGGCGCTCAAGCTCTTCCTAATAAATTGGCAATACTTCCTGAAACCATTAAATTAATTGGAATTAGTCAGTATTTATTTTTTATAAAAATAAATACTGCAATTAAAAGTAATGTCACTAGTGCTGCAATTGTAATTGCTAAACTTTTATTATCAGCATTCATACCATAAGCTGCACCAGGATTAATTGTGTAACTAAATCTTATAAAGCCTGGGATAAAATCGACTTTTGTTCCCTCTATTTGCATTTGACTAACAACAATTGCTTTACTAATTCAGTCAAATCCTATTAAAAACACCATTAATGGTAAACACCATATTAATTTAAATTTAAAAATATAATTATAGTTTTTTAAACCTGACTTAATATTAAATAAAAAATCCTTCATTTTTTCTCACCTTAATTTATTACATTAAAACATCTTTGGCAAATATCTTCATTTAATTGATCGAAAATTGCTCAACATCTTTGACATTTTAACCCTTGTTTTAATTCTACACTAACATTAGCTACCTTAGAGTTAATTTTACCTTTTAAATCTGAAAAGTTTATTGAATTAACTATTAAAATTTGATTTAAATCTTTAATTTCTTTAATAAAACTAAATTCTTTGGGAATTTCTAAATTAATAACTGCTTCAAATCCCTTTTTGATTATTTTTTCATTTCTTGCTTTTTCCAATGCTTCATTAACATCATCACGCAAATTTAAGACTGTATTTCACTTTGAAATAAAATCCTCTTTTTGCAAGAAATTTTGTTCTTTTAAATCTAATAAGTGAATTGAATCTTCTTTTTTGAGATTTTCAATATTTTGATATGCTTCTTCAACTGTGTGAATTAGAATTGGTTTTAGCATATCAAGCAATGCTCAAAGTTGTTCATAAATTACAGTTTGTACTTGTCTTCTTCTTTTTGAATTAGCAGCTTCAACATAAATGATATCTTTAATAAAGTCTAAATAGAAAGATGATAAATCATTTGTAACATAATTATTAATTAACTTAAAACCACTATTAAATGAATAAGTCTCCATTGCTTTATAAAACTTATTTTTAGTAACAGATAAATTGTTTAAGGCAAATTTATCAACATCTTCTAGATTTTTTTGATAATCCTTTTTGGGATTGAAATCTACTAAATTAGATAAAATAAATCTAATTGTATTTCTAATTTTTCGATATGACTCTGAAACTTGCTTTAAAATATCTTTACCAATTCTTTGATCATCTGTAAAATCTGTTGAAAATACTCAAAGTCTTAAAATATCTGCTCCTAAATCATTTGCTATTTCTAAAGGGTCAATTGTATTTCCAATTGATTTTGACATTTTTTTACCCTTTTCATCATTTGTCATACCGTGAGTAATTAATTGTTTATATGCAGGTTTGCCATCATAAATTACAGAGTTAATCATTGAAGAATTAAATCAACCTCTGTATTGATCATTTCCCTCTAAATAAACATCAAAAGGTCTTTTTAAATTAAAGTTTTGTTCCATTGCTAAATTTGAACTTCCTGAATCAAATCAAACATCTAAAATATCAGTTTCCTTTTCTCAACCTAAACCTTTAAATTTATCAGGTAAGAAAGTATCTGCTGGTAAATCAAATCAAGCATTAGTACCTTTTTTTTCAATAATGCCAATTGCATACTCTACAATTTCATTCGTTAATTGTGGTTGTTTGTTTTTATCAAAAAATGCAATAATGGGAACTCCTCAAAGTCTTTGACGAGAAATTGTTCAATCATTTCTATCTTTAATAATATTTCTTAATCTTTCTTTTGATCATTCAGGGTTTGTTTGCACATCTTTAACAATAACTTTATCGATTGATTTTTTTACACTTTCTAAACTAACAAATCATTGATGAGTAGCACGATAAATTACTGGTTTTTTAGTTCTTCAATCATGAGGATATGAGTGCTTTACAAATTTAAGTTTTAATAATAAATTTTTTTCTTGCAAAGTTGTACCAATTATTTTATTAGCATCTTCATAAAAAATTCCCTCTAATCTTGAATCATTTATTGTTACATCAAATTTTCCTTGATTATCAATTGGAGCAAAGGCCTTTATTTTATTTTTTGTTACAATTTCAAAGTCATCTTCTCCAAATCCCCCCGCAATATGAACAAGTCCAGTTCCAGCCTCACTTGTAACATGATGACCTAATACTGTAAATCCTGTTTTATTTTCAAATCATGGGTGTTGATAATTAATTTTTAATAAATCAGATCCTTTAAAAATTTCTAAAACTTTAACTTTTTCTCAACCAATTTGTTCTGAAACTGAGTCAATTAAATCTTTTGCAATGATAAATTTTCTATTATCGTTTTCTGGCTTAACTAAAACATATTCTAAATCTTCTCCAAGTGCAATTAATTGATTTGAAGGAATTGTTCATGGAGTTGTTGTTCAAATAACAAAATTAGTATTTTCAAATTTTTTATTATCAATAATTTTACATGCAACAAAAATTGTTGGTGACTTTATTTCAGCATATTCTATTTCAGCTTCAGCAAGTGCAGATTCACTTGATGGAGATCAATAAATTGGCTTCAAATCTCGATAAACTAAATTCTTTTCAACCATTTTTGCAAATAATTTAAGTTCACTTAATTCAAAATCATCAGTTAAAGTAATATATTTGCAATCATAATCTGTAAAAATTCCTAATCTTCTAAACTGCTCTGATTGGTTTTTGACTTGATTAAGAGCATACTCCTTACAAAGATTTCTAAATTCTACTGGTTTTAATGCTTTTCTATCAATACCTGTTTTTGTAATTGCAGTTTCAATTGGAAGACCATGAGTATCTCAACCCATAATATAAGGTGAATAATAACCAGATTGATTTTTTCAACGCACTATAATATCTTTTAAAATCTTATTTAAAGCATGCCCAACATGAATATTTCCATTTGCATATGGTGGCCCATCATGTAAAACAAAACTTGGTTTTTGTTTATTGATTTGCATCTTTTTCTGATATATTTTTTTATCTAATCAATCCTTTTGTAATCTTGGTTCTTTAACTTTTAAATCTGCTTTCATATCAAAACTTGTTTGATTAATAAGTAATGTATCTTTATAATTTTTTTCCATATTTTTTTCCTTTCAAAATAAAAACGCTCCTACAATAGGAGCGTTTTAACGCGGTACCATCCTAATTTAAATAAACACAAAAAATAGATGTTTATTTATCTCAATTGAAATGTTAACGCTTTTCTTGCGAGAAGTTCTACTAAGTAAAATACTTTTCTTCTTCTAAAATAAATAAGTGATAATTTTAGTAATTCTATATTAACTCTCAGCAAATGTTAACTCTCTGTGAATAGATTTTATTAAAATCTTGTCTTATTGTTTCTATCTTTTTCACTATTTTCAATAAATTTTTTCAAATTTATTCCATTATTTCATTTTTTTGGATTTTTGGGTCCAATATTACCACTTTCATCTTCTGGTAAAGGTTCTTTACTACTTGGATTTGATAAAATTTGATCAATATTTATTCCAAAAAAACTAAATCCTAATAAGTTTCTTGTAATAGATTCTCCCAATTCATTTTTATCTTTAGCTAATTTTACCAAAGCAGCTGATCAATTACTTTCACCATTTTCAGGATCTTCTTCATCTTTAATCTTAAATCCACTTGCAGAAGATGAATAAGTACTTGCTACACCTATTTTTACAGGCTTATCACCTAAATAATAGACTTCTGCTTGGTCATTTCATTTTTTATCAATTAAGTTTTTAAGTGTTCCATAAAAATAAGCTGGATCTTCTTCTTTTCCAATTCCATATGTTGATTTTATTTTTTCACCTTTTTTAATAAATGTAGTATTACCATTATACTCAATTGAAATATCTTCTTTTGCTGTCACAAAATTAATATCTCTATAAGCATTATACATTAGTAAGTCAATATTTTCATATCAACCATTTAAATCTTCAATAAATGGAATTGAAGTTGGCTTGTTTGTAGAAACTCCATCTTTAAATAATCATTGAATTTTAGTAGATAATGATAAATAAAAATCCTTGTTATTTAATCAATAAATAACCATTATTTCTTTAATTACTTGGGAAATAGTTGCTTGACTTTCTCTATTGTATAGAGTTTTACCAGCAATTGCTAAACTAATTCCATCCAAACCATATGTGTCAACTAAAAAGTAAATTCGATCTCTAAGTTGGTCTTTTTGCTTCCACTTTCAAATCATTCTATCAGCAGTAGCTCCACCTCAATTAGCAATAATTTTAGTTTCATTTTCTAAAGATTGATTTTCTTTTTTTTGTTTTCTATCAATTAGATACTGAGAATTATCAATATCATAAACTCCTCGGTCAGCAGTTTCTGGTTCTGTAGTAAAATCGTTAATATTTAAACTGTTAATATCTCCTTCACCTTCTTTTGTATATAAAGAAGAAATATTTATGATATCATAAGGGTTTTTTTCAGATTCAATTACTGCTTTAATTTGTGGTTCTCTTCATCCAAGTTGTTCTTTGCCAATAACATTTCCCCAATTTCATCAATATCCCATTAAAGTGGACTGTGATTGTTGAATAGGATTTCTTGCTTTTCTAATTGCTTCTTCACTAGCTTTAAAGTGAATTTCTGCTGTTCCCTTTGCAATCCTTGAATATTCTGATGTTCTAATAGTTGCCACATAATTTTTAATTTTACTTTCATTTTCAGTTTGTCTTGTTAAATTAAAATTACTTGGATAACTTAAATTTCTTTCCTCTTTAATAGAATTTACATCAAATTGAAAATTTGCAATTCTTTCAATATCTTTCTTGCTATCAACAGTTATATTATTAATTTTTGCTATTGCTTTAATAATCTCTTTTTGATTTACCTCTGCCATTTCTCCTAAATCAAAATTATATTTAAAGGATTCTATATCTTTTAAACTAAAAGAACAAGCTACAACTGTTGTGGCTGTAGTTGAGACAAGAAACGAAACAGAAGCTAAAGCAGCTAGTAATTTTTTCATAAAAAAATCTCCTTTTTATGATTATACAATAAAAAACACTAAAGTCTTTTTTGTATTATTTACTATTTTTTATTAAATTTTGCAATAATTTCATCCAAATATTGACTAATATTTGGATCTTTATTTTCAATAAAATACTCATGTTTCTTTAGAAAATCTTGCAAATATTGACTAAATTCTAATGGATTTTTATTAATTTTTTGTAAAGTTAATTCAATTTCTTTTTTAAATTCATATGCTAAATTTATAGCTTTAGAAATTATTATTTCTGAATTTTTTCTAGCAATTTCATAAACATTTTTAGTTCTTTGTAATCCAATTTTTGTATATTCTTCTTTATTTTTATAACTATCTAATTCTTTCTCTAACATTTTTATTTTTAATAATAAATCTGAATTTTCCATTATAATTTTCCCTCAAAATTCCAATTTAAAGAGATCTCTGCAGTCTTTTTAAATTTTTCACGATATTTTTCATTTTTGCTAACAATTATATTAATGATTAAATCGAAAATAATCATTTCTCCTGGAACAGATGAAATTGATGGATATTTTATTTTATCATTGCTAATAGTTTGTGTTTCAATTATATGAATTTTATTGATATCCAAATCCTTTTCTAATTGTTTAGAAGTTATTTCCTTATCAGAAGTTAGAACTAAAATTGGAATATTTTTATTATATGTTCATTTAATTGATTCAACTATTTCTTTGGTTCATCCAGTTCTTGTAATGAAAATAACAAAATCGTTTTCATCAAAGAAAATTGCTCTTTGAACATAGTTATGAATATTGGAAACTGCTTGAGCCATAATATTTATTCTTGATAAATTTAAGACAAAAGAACTTGCACTTATCTGTTGCTGCTCTATTCCAAATATCATTACTCGTTTTGAAGAATAAATTTCTTTTGAGATTAATTCAATTTCTTCATTTTCTATACTATTTAATGTTTCATTAATTGTATAAATTGCAGCTCCCCTAACATTATGAATAATTTCTTCAATTGTATTATCATCACCTAACTTATAATAACTTCCTTGCATACGTGACTTTTCATAAACAAACATTTGTATAGATTTAAAAGACTTAAATCCCAACTTTTGGCAAACCCTTGTCATAGTTGACGGACTTACATTGCTTTTCTTTGATACTTCTTGTATAGAATGACTACAAAAGAATTCCGGATCATTATTTACTAAATTTAATATCGAACTTTCAGTAGAGTTTAATTTCTTATCATTTAAATCAATTATTTTCATCTTTTATTACCTCTTTTTTTTAGTTTTTATTAAAGAGATTTTTTTGATATATTTAGAATTATTTTTTAATTCATCCATATGATTTTCTCTTAATTGTTTTAATTCTACTATATTAGAGCATTTTTTAATATCTCTGATATAATCAGTTGAAAGTTTTAAAACAATACTAGTTCCATAAACATCAACTTTTTTTTGTTTTACTTTAAATATTATAAATGTTATTAAGCAAAAAGATAATATTAAAATTAAACTATAAGTAATAATAAATGGAATTGCTAAATTTTCTCCTAGTCTAAAATCAACTTTATATAGTTGCTCTTCACCTAAACCTTCATATACTAAATTCTTTGCATTTACCCAACCTGCTTGCATTACATTAAGCATATATCTTTGTGGGAGAAAATATAGTATAAAATTTAGTCAATTAATTCTTGCAACTACTTCATAAGGAAAAGCACAACCTAATAAATTATAAGAAAATATATAAATTAAAGAAACATAAATTGAACCAACAACAGTTGATTCTACAAACATAAAAATTGCATAACTGATTAAAACACAAAGTAATCACAAACTTATTGTTCCTCCAAGAAACATAGTTCAGTTAACTGATGAAAATAAAGCTCTCTGCTCTTTAAAAAATAGTAATGTGAGACACATTAATAAAACTATAATACAAAAGTTTATTGTAAAGTTTGCCAAAATATTTGCTCCTGGCTTTATAAAACTATTTAAACCTGTGCTATTAATTCTTTTATCAAAACCACTATTTTTATTATTTGAAAGTGCTCTATGAAAAGTATGTATTCCATTTCTTACAATTAATGCTCCAATAGCTGAAGAGAACAGAAATGGATTATTTCCTTTAAAAAGTAACCATATAAATAATGTAAAAATAACAAGAAAAACTCCAAGAAACATATTTAATGGAGAATAAATAAAAGTTTTTAAAGATAAAATATAAAGATCTTTAAAACTCTTAAAATTATTATTTACTTTTTTATATTTTTTATGAATTTGCATTTTCAATTTTTCCCTTTGCTTTTCTTTTTTTCTTTTTCTCTTCAATAATTAATTTCTTAACTTCCATTATTTCATTTAATTCTTCAATTGAATTTGCCTTTTTAATACTGTAAATAATTGCATTATGTTTTAAATTAGTTGGATACTTTTTAAGAAGATTCTTTTTATAACCAAAAACTCTTTTTAAAAGTAAATAAATTCAAATAGTTAAAATTACTAATATTATAAATGAAATAATATATGGAATTCAAAAGTTACCATTGTAGCCAAACTGATTTGTTTCCATACCAATATCATTTGCTCACCCCGAAGCCATTATATTTAAAAAATATCTCTGAGGAAGAAAGAAACCAATTATAATGATAGGTTTATTTTGCTCTAATAATGTTCATGGAATTCCCAATCCTAATAAGAACATTGGTAAAAAGTAAAAAATATTTGCTATAACAGAAGCTCATTCATAGCTTTTAGAATGAAAAACTATTATTAAAGCAATTAAATTTGATGAAATAGCTAGAAGAAAAAAACCTAAAAATAAAATTGGTCAATTAACATTAACTATCTCTTGTCTTTGGTCTGAAAATAACATACTTATTCCGAACATAAACACAGCTACTAGAAAATTAACTATTTGATTAAATAATATAATAATTGAGAATACAAATGTCTTTGAAATTTTAGTAGAAAAAAGTCGTTCAAGAAACCTAGAGGATTTAAAATCATAAATGGTTTTTACAAGATTAAATAAACAATTTCTAATTACACTAATCCCTATTGCACTAGCAACAATAAAATTATCAACTACTAAGTCCTTATTGCCAGCTCCAGTACCAGCATTTTTAAAGGCTAATCATATGACAAGAGTAATTGTCGTAATTATTCACCCAGAAAAAACTACAAACAAATCTTTTTTATAATTGGATAATTGCATTGAGAAAATTATTTTAAACGTGTTTCAATTACTCTTTTTCATATTTTACCTCCCTTTAATTTTCTTTTTTTCTAATTTTTGTTGTTTTTTAATTGATTTATTTTCAAATTTCATAGCTCTAATTTCTTCTTGTATATATTTTTTCTTTAATGATGATAGTTGTTCCAATTCCTTTTTTGATAACTGAGCTGTAAGCTCAGTTGCATAAACAATATATTTATTGGATTTAAAACTTTTATATAAATCTTCTTCTAAAAAAAGGAAAAACTTTTCTGTTTTTGTAAAAAATAATAAAGCTGATTTTTTATATTTTACTTTTGATTCTAATTTGGTAACTCTTTTTCTAGTCTTTTTAGATATTTTAATAGCCATCTTTGTATGTAATAAAACTTCATCAATATTTTTTCTATTAATAGCAGTTGATAATAAACTAACTAAAACATTTTCTAATTCATTTAAGTGATAATTAATATTTCTAATATATACAATATTTGACTCATGTTCACTGCCAACATTCTTTTCTAAAAATGCATCATAATGCTCTTTAAATATTTTTCTATTATCTTCAAATTTTTTTAAAATTGGTTTAAATAGAGGGTCTGGTTTTACTTTTATTTCTTCTTGACTGATAGCATCCATTATATTTAGAGAGTACTTTTCAAATGTTAAGTTTTTTTGTCAATCACTAACATGGTCATCAGATATTATAAAACCATTATCCAAAACAATAACTCTTTCACAAAGTAATTCGAAAGTTGAATCATCTGGTGAAATTACTACAAACGATGCTTCATATTTTTCTTTATATTCTTTTAAAAATTTTAAAATTTTTATTTTAAAATCTAATCCTATTGAAGATGAAACTTCATCTAAGACAACTAATCTTGGTCTGTTTATTATTGCCAAAGCAATTGAAAATAATTGCAGTCAAGAAGTATTACAAGAGGATAACGTTTTGTTTCATCTTAAATCAATACCAAATACTTCTACAAGATCATCAATTCACTCTTTATCTTGAATATCATTAATATTTTTATATAAACTAAAAACTTCTTTTACAGTAAAACCCTCAGGTCAGGTTGTTTGTCTAAATTGAAATCCAATATTTGCCATAACATTTTCGTCATTAAAATTATATTGAATGATTCCCCCAGATTGCTTTATTTGACTTGCAATTAATCTAGCTAAAACACTTTTTCCAGATTGATTTGGACCAATTATTGCTAATCCTTCACCTTTGTTAATTTTCAAATTAATTTTCTTAATGACTCAATTTGTTTTATTAAATATTTTTGAAACATTCTCTAAAGAAACTGTTACTTCATTGTTTTTCATCTTTTTCTAACCTTTCTATTTATTATTTATAAAATCTTCAACCAACTTTCAATACATAACAGTATGTAAAACTTGAGTTCTTATATGTTCTCCTGTTAAAAAAATATGTAATGCATCTTTAACTTTTAAAACTTTTCTTAAATTATAGAATTTTTCACTATCTTGATAATCTGTTACTTTATCTTTTTTGGAATGTAAATAAAGTACTGGAAAAGAATTTTTGCATAAAGGAATTCTATATGTTATTGTATCTGCTTCAATATCTATTTTATATTTTTCATTATATACTTTATAAACTCCCTGTAATATTTTATCTAAAAAATTACCAATAAGTGTACCTCCAATTGTATTAATAATTCTTTTTAAAACTTTTGTAGTTTCAAAATATGGAGAATCAGCAACAGCAAACTTAATATTATATTTTTTAATGTTATTTGAGATGGCAACTCTATTAACTGTATGAGCTCCCATTGAAAATCCCAATAAAGATATTTCTTTTGTTTTAAAATTAGTTTTAACAAACTCCAAAGCATGTACTAAATCCTTTTCTTCATTAATACCCATTGTAATAAGTGCATCATCTGATTCACCATGATTTCGAAAATCAAATGCGAAAATATTATAACCAAGTTTATTAAAATAATAACTTGCAATTGCCGATGATTCTTTTGAAGATGAAAAACCATGACAAGCTATAATTCATTTTTTTGATTTTTTCTTGTTTAAGTGATAAATACCAACAATATTTTTTGAATCAAAAGATTTAAATTCAACTTTTTTAAATTCTTTGACATTAAGATTTAAAACTTCTTGATCATTTGTTTGTTCAAAAATAGCTTGTTGATATAAACTTAATAAATTTATATATCCATTATTTTTATATAAATCATAATTCTGGCGATTGCGATTGTTAATTAAGCTTATAACTTTTTCAATTAATAAATTGTTCATAATATTTTTCCTTACTAAATAAATAGTATAAAAAAAATCTACATAATTGTAGATTTTTTAAAACTTTTATTATTTTAATCAGTTTGCTCTTTTCAATGAGCACCATGTCTATTTCTATATCAATCTTCTGCAATTATTGTCTTTCAATCTTGATAGGCTTTATAAGCAGCTTTTCATTGCTCTCTTCCTAAAATTTTTGAATTAATTGTAACATTGTAGTATTTATATTGACCAGTACCAAATGCTTCATATGATTTTGTATATGGAGTCAAATAGTTAACTGTTCAAACAGTTGGCATTGCTTTTGTATATAAAGTTAATGTTAAAAAATCTTTATATAATAATTGTGTTTCAGTTTCAGCAAATTCACTAAACCTTTGATTTGATTCTGCAACTTCTAAATCAGTTTTTTGAAAATCATTTGAGTAAGTTTCATAAGCTTTCAATACATCTTTTGTTGCACTATTTTCATCACTTGGATTGTCTAATGATTTTGCATAAAGTCTATCAGTTGTAATATTGTAATCTGAACCTTCAACTTCATTTGTTTCAACTGCAGAAACTTTACTTTTAAATAATCTTGAAGTTCCATTATACGCTCCATAAGGACCTCATAATGTCATTGTTTCTAAAAAACTTGATGGGTCTTTGTAGTCAGGTGATCAACCACTTACAAACAGGTCAGTTGCTCCTCTTGAACCATTTGTTCTATATTCATCTGTTGATGATAAAACTTTAGTTTGTACAAAGATGGGATTATTTTTAATTTCATTAAATTTTTTAAACATCATATTTAAGTAAGGGTTTAATGAGTTGTTATTTGAAGGACTTAAAATAAGTTTTAAAATAACTTTTTCTTCTGATTTACCTTTTACTTTTCTTTTTTTAATATTGTTTAAAGTAATATATTCATTTATATTCTTAATTAATTCATCATTATTTTTGTTAGTTAAATCTTTTGACTTATTGAAATACGGATCTTTACCATCTTTTAAACTTCAATCAGCATCACTAGAAGTAACACTACCACCATTGCTTTTAATTATTTCATCATAACTATCTGATACATATTGTGTATAATCTTTAGCACCATTACTAGCAACTCCATAACCTGTATAAGTATTTCTTAACATTTGTGATGGTTGCCCAACCTCATCAATTGTTTTTGAAAAATATCTTACAAAGTCAGTTCTATCTAATGCTGTTGATAAAAATGTTCTTGCATCAATTGATTGAAGTAGTTTTGAAGCATCCAAAGCTCTATCTCTATCATCAGGTTTTAATGAGTTATCATCAATTTCTGAGTTATAAAAGTTATATACTAATAAAAATGAACCTGAAGCATCTGGAGAAACAATTGGATATGCTCCTTCAAAATTTGGATTTTCATATGCTTCTTTACCTTGACCAATATAGTTTTTTCAACCTTTTAAGTCATCTGATTTTAATTCAAATCCAGTTGTTGAACCTGATTCAAATAAAATTCTTTCTTTTGTAGCTGATGCATCATCAACATAGTTAAATTCTAAAGTATTAATTTTTGTACTATCTTTTAAAACATAATGCTCATTTTTTTGTAAAATAATTTTTCCATTTGGATTTGCTTGAGTAGGATAATAAGAAGCATTATACATTGCTTGTGTAAAATCTTTAATATCACCTTTATCTGCTGTAAAAATTGGTGAAAAAACTGAGTATGTTAATAAACTTTCAAAATATGGAGCTTTTTTTGTTAAATCAAAAGTAAGTAATTCTGGAGTTGTCTCTGAAACAGTAATTCCAAATTCGTCAGAATTGTTACTTCAAATTTTTTCTTTTTCTTCTTTAATAGCAGCATTTAATTTTGCAGTATCTTCAGGTGTTTTCTCACTTTTTTCAAATTCTGCTTGAGCTTTTGAAATATTTTTTTGAATATCAGAAGCACCTTTGATAAATGATGTTCACAATGAAGCAACATCTGAACCATTTTTTGGATTTAAAGCAAATCAAGCTGCTTGTCTAACTCCGTCAATAACAGAAGCTTTTCCCTCTCCTGTTTTAGTTTGGTCAGAAGATACTTTACCATCTTGATCAACTATTTTTCCTTGATAATTAACTCATGTCATTGGTCTTGTTTTATAAGTTCATTGCTGACCTTCATTTTTCATATCACCTACATAAGAATAATTTGAATCAGAAGTATTTTGCTCTTCTCCATACTCACTTTCAACAAGAGAACCATATATTCTTCCATATTGGTCTGTTGATAAAAATGTATCAAAAGAATTAGCTCAAATTCTTGCATCTTCTGCTTGCATTGAATATGCTGTATTTCAACTTGTTACATTTGATGTATAGATAGATTTGAATACATCTGTACTTACTGCTCTATCCATTAGATATTTTAAAGATGTTCCACAAGAGACAACAGAAGATGAAACTAATGTAGTTGTTAAACCTAAACCTAAAAGTCCTAATGTTTTTTTAAATAATATTGACATTTCTTTCTTCCTTTCGTTGTTCTATTTTTTTACTATTTTTTTAATTTCTTTAATTTCTCTTTTATTTGCTCATACAAAATGATCTTTTGTAATTTCTTTAAAATATGGTAAATCAAATATGTAATCGCTATGTTCTTTTTCTGGATCATAAACAACCAATTTAGTTTTCTTAGCAAGCTCTGGTTCTGGAATTGGAATTGCAGAAAGCAACGCTCTTGTATAAGGATGAAGAGGATTTTTAAATAACTCTTCTGCTGGTGCAATTTCAATTATTTGACCATGGTAAATAACAGCAATTCTGTCAGCAATATGGCGAACAACAGATAAGTCGTGAGCCACAAATACATATGTAATTCCCAGTTCCTCTTGGAATTTTTTAAATAAATTTAATACTTGAGCACGTATTGAAACGTCAAGAGCTGAAATTGGTTCATCTGCAACAATAACTTTTGGTTGCATTGCTAAACTTCTTGCAATTCCCACACGTTGTCTTTGCCCCCCAGAAAATTCATGGGGATATCTTGATAAATGTTCAGGTAATAATCCCACTGAATTAACAAGTTTTAAAATAATATGTTTTTTAACAATGGCAGGAGTTGCCTGTTCTAAAGTTATTTTTTCATTTGGATTTTGCTCATTATACTCTGCTACATACAATTCTTTTGCCTCTACACTTTTATAAAGCTCTGGGAAGTTTTCCATTCCCTCAGCTATAATTTCTTCAATAGCCATTCTATCATTTAATGAAGAACTTGGATCTTGAAAAATCATTTGAATATTTTTTCGATTAATTCTTTTTTGTTTTTTAGTTTGATTTTTAAAGAAATAAGAATCTTGAATGATTTCATCAATCGAAGGTAAATCTAAGAAATCAGTTAATTCTACAAAAGATTCAATTTCTTCTGGTGTATAAGTATTTTCAATTCCTTTTCAAGTATAAAAGTTTTCAATTAGTTCTCTATCTTTAATAATATTATTATCAATAATTTTTACAATGTAACTAAACTCTTTTTTTAATTCCTTTAATTTAATATCAGTTATTTTTGATTCATTTGAAACTAAATCCTTTAATTCATTTTCAAAATCAGTATTTTTTAATTTTGAAACTAAAGAATTTATTTTTGGTGTGATATCTTTTTTTTCTGAAAGTAAATTTAAAATTTCTCTACATACAACTACATTTAAATTTTTACGCGATCAAAAATCTGTAATAAAATATTCTAACTTTTTATATTCCTTGTCAGTTGAAGAAACACCATTTGCTTTCATAATTTCAAATTGTTTTTTACACTCTTCAAAGAATTCATTTCTATTTACATAAATTAATTTATTATAATAGTTAATAAATTTTTCTCTTTTTTTCATAGGTGAAGATAATGCGTGCAATTGAAATTGTAATGATTTAGCTCATGAAAGTTTTGATAAAAATTCCTTATGATTATCAGTAATGACTTTTCATAAACCTATTAATTTTTTAAATACTGAATCTAATTTTTCTGGTGGAACATTATCAATTTCGTCTCTATAATTAGAAACCTCTTGAACTGTTAAATAAATTTCATCAGCATTTTCCTTAATTGAAATGATAGTTTCCTTAGTTTCTTTTAATTTTGATAGAATAGATTTTTCAAGTTCCTTTGAAACTTCTGGAATATAAGAATGCAAATTATCTACAAACTTAATCATTCTATCTTCATTTTTAATAATAGAATTTATATATTTTAAATTTTCCAAAATAATTGCTTTTAAATAAGCTAGTTTTGAACTTTTAGTTTGAACTTCAAGATCTTCTTTAGTTAGAACTCTTGGATTATTAGTATAATTTTCATACAATGCTTTTAATCCATCAATTCTGGCTTGAATTTCTCTTGTTGTAATATCCATTTTATATGACATATTTTCAAGTTTTTTAGATATTTCTTTATTTAATTTATATAACCTTGTTGGACTACCAGCTACAATATTATCTTCCATATAGATAGCACCATCTTTTAATGGTTGCACTCCTACAATAGCTCTACCAATTGTGGTTTTACCACTTCCTGATTCTCCTACTAAACCAAATATTTCACCTTTATAGATATCAAAACTAGTTTCTTTAACAGCTCTAAATTTTTTACCTTTAACACGGAATTCAATAACTAAATCCCTAATGTTTAAAAGTACTTCTTTATTTGTTGACATAGTTTTAGCCTACCTTTTCTGATTCTTTTATTGTTTTGCGTAAGTTATTTAAGACATTTGGTTTTTTAACTTTTGGAGAACGTGGATCTAATAGTCAAGTTTTTGCAAAATGAGTTTCACTAACTTTAAACATTGGAGGTTGTTTAATGTAGTCAAGTTCTAAAGCAAATTTATTTCTTGGAGCAAATGCATCACCAATTATTTCATTAAATAATGATGGAGGAGTTCCTTCAATTGAAAATAAGTCATCTCCTTTTTTACCTAATTGTGGCAATGAAGATAATAAAGCTCAAGTGTAAGGATGTTTTGAATCTTCAAATATTTCTTTTGTTGTTCCTACCTCTACAATTTGTCCTGCATACATAACAGCAACTCTATCAGCAATTTTTGCAACTACTCCTAAGTCATGAGTAATAAATACAACTGAAAATTTGTATTCTTCTTGTAACTCTTTAATTAAATCCAAAATTTGAGCTTGAATTGTTACGTCAAGGGCAGTTGTTGGTTCATCACAAATTAATATTTTTGGTCTTGATGCAAGAGCAATTGCAATAACAACTCTTTGGCGCATACCCCCAGAATATCTACCTGGAATATCTTTATAACGTTTTTCTGGATTTGGAATTCCAACTTTTCTTAAAAGTTCTATAGCTTCAGCTTTAGCTTCACTCCTACTTAACCCAACTTGTTTTCTTAAAACCTCAGTTATTTGAAACCCTACTGGTAACAATGGGTTTAATGAAGTCATTGGATCTTGAAATATTGTAGAAATTGTTTTTCCTCTTAATTGTCTAATTTCTTTTAAAGCTTTAACTTTATTAACTAAATCAGAATTTTTAATTCTTTTTCAGTCAATTAAAATATTGTGAAAGTGATCTTTATCTAAAGTTTTTGTTTCAATAACTGATAAACAAATATCTCTTAATTCTTTTTCAAATCTTTTTAAATGATCTTTTGAATAGAAATAATCTAAAATAAATTGTTTTTCTACTTCATTTCATTCAACATTATTTTCAATAAATTTTTCTATCATTGAAGTTATTTTTGAAACTTGATGTCTATTTTTCATATTTAAAGGTTTAACTTTATTTATATCAATTTCCAATTTTAAAATATCTTCAAGTTTTGATTTTATTAATTCATCTCTTAATGAATTATCATTAATAATTTTTATTGTTTCTTCAGCTGCTTTAATTTTTAACTCCAACTTTATTATTTTATTAGCTGTTCTATTATTACCACTAAAACCAATATTTTCTTGAAGTTGATTTAATTGTTTGTTTAATTCTTCTAATAATTGACTTTGTTTATTTTTATTATTTTCTTTAATAACTGAAATTTCATTATCATTTAACAAGTCAGAATTTAATTCTTCTGTTAAATCTTGTAGTTCTTGTTTTGTTCTCAATAAAACTAAGTCATTATGTTCTGATTCAATTTTATTCTCTAATCTTAATTTTTTTAATTCTTGTTTTTCTCTATTTTCTTTATATTTAGGATTTAATTTATATAAATGTTTAATTTCTTTAAACAAATCTTTTATTTTTTCATTATTTATTTTTGTAACATTTTTAATTACATCTTTTGATATTAAAGGGCTTTGCAAGTTAACAATATCAATTGGATCTTTAAAGTATGCTCCTTGATCATCAATTGATTCTTGAGTTGGTCGATAAACAATTGAACCATTACTTACTCAACCATTTGCTTCTAACATTCCTGTAAAAGTTTTTGTAATAACTGATTTACCACTTCCTGATTCACCAACAATTGCCAAAATTTCTTGATCATAAACATCTAAATCAACAGTTCTAATAGCAGTTAAAAAATTACCTCTAACTTGAAATTTAACTTCCATGTCACGAACAGATATAATTCTATTTTCTTTATTCATAATTTTTTTCCTATCTATGTGTTTTAGGATCTAATGAATCAGCAAATACTTTTCCCGCTAAGAAGAATAATAATGATATTCCCCCAACAAAAGCTACTGGAATAATTAATAAGTGAGGAAACACTTCTCAATCCGAACCAGATAATAATTCATTTAGAATTGACCCTAATGATGCTTGATCTAATGTATTTGTTACAAACCCAAAATTATAGTAAGCCAACAGTGAATCAATAGCGATTGCTGATGGAATTGCAAATGTTGAAGTTTGAATAACAATTGGTAAAATTTTTGGCATTACATTTTTTCTAATAATTTTTGAACTTGGTGTTCCTAAAACTCTTGAAGCAATGTTATATTCAGCATTTCTAACAAGCATAATTTGTACTCTAATAACTGAAGCTAAAGCAATTCAACTAGTGATTGAAATACCAAAGATTAAAACTGGAATTGTTGTTGTTCCTCCAAATAAGAAGATAACAATTAGTCATAAAATTAATGATGGTATTAGAGTTAGAAATCTAGTGATTTCAATAAATACTAAGTCCAATTTTGAAAAGAAACCCCAAATTGATCCTAATAAAATTCCTAATAAAATTTGAATTGATGCAACAAAGAAAGTAAATATCAATGTTGTACGTGTTCCAATTCACATTTTAGTTCATAAGTCTTCTCCAAACTTCCCTAACCCGAAAATATGTTGTCAACTTGGAGCTTCAATATCGATTCCTGGTCTTTCTGTGGGAACTGGATCTTTTCCTATTCCAATTGAAAATGCTAGTAAAATAATTGCTACTAATAAAAATAATGATATGATAAAAGTTTTTGATTTAAAAACTCTTGCAAATACTGATTTTCAGTAACTGTAAGGTTTATTAGTGATTCTTTCTGATTCTTCGTGCTTTGCACCGATTACTTTGAAGAGAGAATTATCTATAGATTTCATTTCTTCAATAGTATATTGTTTTTGTTCCATAAAAAATTCCTCTCTATTTTGTTAATTTAATTCTTGGGTCTAATGTTGCAAGAAGTAAATCACCAATTAAACTTGAAAATACTCCAGCTGATGCTGATACGAAAATATATCCTAAAACAACAAATGTATCTTTATTGGCTACACCATTTAAAATAAATTTACTCATTCCATCAATTGACCAATGTCTTTCAACTAAAATACTTGAACCAAACAATGTTAGCACAAATACTTCTGGTAATGTTTTGATTAATCTTATTCCTGCATTTCTAAAGATGTGAACATAAAATACATATTTTTCACTTAACCCTTTAGACAATGCAAATTTTGCATAATCTGCTGTCATTTCATCTAAAACAAATCGTCTAGTGTTTACAATAATCATTGGCATAATTAATAACATTATTCCAATTATTGGTCAAATTTTTGTTCCAAAGGATGAACCTTCATAAGTTCCATTTGCTCCAAAAACATAAATCGACATTTTATATAGTAGTGATATCACTACTAATGCTGGAATTGCACTAATTAATAAACTTGAACCATTAATTGCATTATCTGCTGATTTTTCTTTATTTTTAGCTGCAAGAATACCTAATGGTACTCCAATAAGATATGATAACAACACTCCTATACTTCCTATTTTAAATGAAGTTGGAATTGATCTTTTAAATGCATCTTGAACTAATGATAAAACTTGTCCACCACTAGCTTTATTCATAAATACACCTAAATAAAATCACATTACAGTTGGAGTTCCAGCAATATCTCCATTATCTTGAACGATAGGATTGACTATAATCGTTTTTGGAATAAAGGGAGTAATATTTCTCAAATAAATAAACATTTGATTTATCATTGGCCCTGCAACTCCAAATAATTTCATTCTATTGTTTAATAAATTTTGATAACCTGGAGTCCCATATTGAAAATCTGGACCTAACTTATCAAGGTTTACATCCGATAGATAAACACCATCAGTTGTAACAAGTCTTAACATTACAAATACAACAGCTACTGCGACGTATAGTGTAATGAAAGCATATAAAATTCTTTTAAGAGAATATGAGAATAATGGATTTCTTTGCATGAATTCGCTAAATGTAGAATTTGAACTTCTAAATCCATTTCTAATTTTCTCTCTATGGCTTGTTTTTGTTAACTTTACTTCTTCGGTTAAACTGATTTCATTCAGTAATTCCAAAATCGAGGAGTTAGCATTTTCAGAGCCATTTGCTTTTTTTTCCATAAATTTATATTATCCTTTCTAAATTTTTACTATTTAAAACCTATATAATGTTTATAAAGGTGTTAAATATGAGAGATAAAAATAAAACAAGTAATTTTAAAAAACTAAAAGATTTACATGAGCAAGAAAAATTTGCTCATAAACAACAAATACAAGATAAAGTTAATGAAATTTCTAAAGACCCAATTGGCACTCAAACAAGATATATGGATGCTAAGAAACTTAAATGATACGACTATCTTATAGTATTAATACTAAGTTTTGCATTAATTGGTCTAAGTTTCATTCTTGGTATCTTTGCACTAAAAAGTATTGAGAAAACCGAATGAATCATAACTGCTTTTGCATTAATTAGTCTTTTAGCATTTTTAATTACTAACTGAATAAAAAATAGAAAAGTTGCAAATTACTATAACGATATTACAAGAAGGTATCAAACTACTTTATCAGAAGATGAAGGATTTATAAGAAGGCTTTCTAAAATAATCCTTTTAATCTGCTTGGTATTGTCTATAACTTCAATAATATTAGCTATTACACTTTGAGTGTAATTTTTTTTATATTTCATAAAAAAAAGAGTGTTTTATTAAATAAATAGTTTAGATTTAATCTTCATCCTAACTGTTTATAAAATAAAATCACTCTTTTAAATATTAAATACTCTTAATAAAATTGAATTTTTATGTAACAATATCATTTAAAATTTGTTTAATTCTATAAACATTTACGATCACTCTGCCATGTTTTGTCTTGAAATATTATACATAGCTGTTTTAATAATTAGATTCGCATTGTCTTTAAAAAACATATTTTTAAATGACAATGTAGAAAACGCAAAAAAGGCATTAGGTTTATTGAATTTTTTAGTAGTCAATAATTGGTGCATTTTTTGGTCTCCTTCATCGCCTATTTACATAGTAGCAAAGTGTCTTTAAAAATGCAACTATATAGACTATTAAATTAAAAAAAATAGATATATCATATCTATTAATAAATATTTTATTGAATTAAATCTATAACAATTAATTATCAAAGTGAGAAAATAATTAGTTTTAAGATTATATTCAACATTAGTTTTTTTTAAAATTAATTATATTATCATTTTTTTCTTAAAAATGTTGGAAAATCTCCATCTTCATCATCAACACTTTCTTCAATTTTCTGAGCAACTCTTTCATCAGGGTTTTCAAAATTATTGTTTTGTTTTCATTGCCCTACTCTTTCTTGAGCTTGTCTTCTTTCTTCTTCAGTTTGTTTTACAAAGTCTGGTCTCTTATCATGATTTGTCATAAATGAAGTTCTTTGTTCATATGCAGTTTCTACTGGTTGAGGTTCAGGTTCATAGTTTGAATATAACTCTTGTTGCATAGAAGCATATTGTTCATTTGATAATGAAGGCTTTTTATTATCTATATTTGGAGCTTTATAATCATCATCAAATCCAGTTGCAATAACTGTAACTATTAAATCGTCATCTAAATGTTCATTAATTGCTATACCAAAAATAATATTTACATCTTCTCCACTTGCTTGTTGAACAATATCAACAGCATCATATGCATCATTTAATGAAACAGTTTTCCCACCAGTTACGTTAATAATTGCATCTTTTGCTCCACGAATTGAAGTTTCTAATAAAGAAGAAGTTATAGCTTTATTTGCAGCTTCAATTGCTTTATCTTCTCCAGAACCAATTCCAATTCCAAATAAAGCATTACCCTTACCTTTCATTACAGTTCTAACATCAGCAAAGTCTAAGTTAATTACTGCAGGAACTGCAATTAAATCAGTAATTGTTTGTACTCCTTGTTTTAAAATATTGTCAGCTTCTCTAAATGAATCTTTTACTGGAATACCTCCAATAATTTCTAATAATCTATCATTTGAGATAATAATAATTGAATCAACAAATTTTCTTAATTCATTTAATCCTTGAACAGCATAAGAATTTCTTAATCTTCCTTCAAATCTAAATGGTTTTGTAACAATTGCAATTACTAATGCTCCAGTTTCCATAGCAATTCTTGCTATTTCAGGTGCAGCACCAGTTCCTGTTCCTCCACCCATTCCAGCAGCAACAAAAATTAAATCTGATCCTTTTAATGATCTTCTAATTTCTTCTTCTGATTCTATAGCAGCTTTTTTACCAATTTCTGGATTTGCTCCAGCTCCCAATCCTTTTGATACTTCTTGGCCTAAAACAATTTTTGTTGTAGCTGAACTTGCAGCTAAAACTTGTGCATCAGTATTTGCAACTATAAATTCAACTCCTTGAACATTATCGTCAACCATTCTGTTAACAGCGTTACAGCCACCTCCACCAACTCCAATTACTTTGATTTTGGCATTTTGATTTAAATCTAATTTTGTAGACATGTTATTTTCCTCACTTTTTAATATTTATTTCTTTGCGTATTTATAATACCATTTTTTAAATAGTTTTCATTGTTTTGATAATTTTGTTGATCCACAAAAGATTGTGGAATTTGATTATTTTGTTGCATTAATTGTGTTTTCATTAAAGGCTGAACAAAATCTCCCTGTTGAGCACGCAACTGTTCTGTTCTAAATTGTTGAGCACGCAACTGTTGTTTAAGTGCCAATTGTGCTTGTTGGGCTTGCTGTACTTGAGCTTGAGCATGTTGAGCACGCAACTGTTGTTGAAATGCTTTTTGACCTAAAACTTGTTGTGCTTGTTGCATTTGAGCTAACGCTAACATATTTGGATTTTCATATGTTTCTGTACTTGTTTTTACTTCTCTCAAATTTTTATTTGTCAGATGTGAATGTCTCATCATTCCACATAATGAACTTGTTCAAATTTCACTAGCACCAGTAATTAATGAATAATATATTTCAGAAATATTTTTATAATTACTTCTTAATAATAATTTTTCAAATCCTGCTATTTCTGTACTTTTTCCAGTATGATAAATTTTAAAGTTTTTTATACTTCCAAGTTCTCTTGAGATTAAAAGATCAGTTTTATCAATCACACCATTAATTTCTTCTAATAGCATATATTTAATATCAATTGCTTTAAGCTCATAAGATCTTTTTTCAGCTGAAATATATTTTCTATACATTACAGTGTTATCAAGTGTATTTGATGAAAAATCTAAAAGTTTAAATATATACTTATTTGCTATGTCAAATTTAGAACTCATTTTTTTGGCTAAATTTTCAATGATATCTTTTAAACCAAATTTAATTGAATCCTTTTTAACAAGAGTTTCACGTGAAAAATACCCAATATCAATACTATCTCAATCTCAATTTATTAAAGCAAATGTTTCTCTGAAATTTAATCCATCACTGCATTGTTTTGCCAATGAAAATAATTGACTTGTTGCTGACAGTCTTTCAATTCTTAAAACTTTTAATACTTCTTCAAAAGATTGAACAACATGTTTTTCAGCAGTATAGACTTTAGCATTCATTGACACCATATTTGCTTTAGAGTTTATTGGTGGTTTTGCAAAACTTTGTATACCATTTAACTTAAATTCATATGGTTTAATGTTTGTTACAACTAAGTTATCTTCATAAACTACTCTTTTTGCATCTTTATATAAGCTTTTGATGTGTTCTTCTCTAACAATTTTATCAACACCATCTATAAATATACTTGGATTTGCATCTTTGATTTGCAAAGTACCTGTTGGATAAACAATTGAAGCTCTTCTAATTTTTTCTTTAAAAATCGATTCATATCGATTAATCATTTTTACTAATCGATGAGCAACAATATTTGTATCAATAATATCATTTTTTTCAGTTAATCAATTACTTTTAGATTTTTCTCTTTCTTTAAAAACAACTTTTAAACCAATATTTTGTTTATATTTTCCAACAGCAAATTTAATGTATTTTTTAGTTATTTCAATAACAGCATATGTTTCGTTTTGCATTTAATCACCAACCTTTCTAATTGCTCATAATTTTGCACTATGAGCTCTTCTATTTTGTTCTAGTTCATCTTGCCCTGCTACTACAGGTCTTTTAACTACCAATTCATAATCCTTTTTATTTTCAATAAAAATAGGTAGTTTACTTAAAAATTTATCTTCTTTTGATGTAGTTTTAGATTTAAAAATATCTTTAATTATCTTTTCTTCCAAAGAATGAAAAGAAATTACTACGATAACTCCACCAGTATTTAATAGCTCAAGTGAGTTACTTAAAGACCTTTTTAAAACTTCAAGTTCATTGTTTACATAAATTCTTAAAGCTTGAAACACTTTCTTGGCAGGATGCTTCTTTTGCTTTAATACTTTCTGTGGTAAACAATCTTTGATAATATCTACCAACTCAAAAGTTGTGGAAATTTCTTTGACCTGTCTTTTTACAATTATTTTTTTTGCAATTTCTCATGAAAATTTTTCATCACCATAGTGATAAAAAATATCTGCTAATTGCTTTTCATTAAATGTATTTATGATTTCTTTTGCAGTGATTTTATTATTTTTTTGATCCATTCTCATATCTAATTCCGAATCAAAACGATAACTAAATCCCCTATCTGCTTTATCAAATTGCGGACTTGATACTCCTAAATCGTATAAAATACCATCCACTTTTTTAATATTATTTAATGAAAGCAATACTTTTATATTTGCAAAATTACCTTCCAAAATAGTAAAATTACTTGAAATAGTTTCAAGTTTTTTTCTACTTATAGCAATTGCTTCTTGATCTTGGTCAATTGCATATAAATGTCCACTATCAATTCTTTTTAAAATTTCAGCACTATGACCTGCTCGCCCAAGAGTACAGTCAACATATATTCCGTTATTCTTTATATTTAACAAATCTATTGATTCATTAAGTAAAACAGATGTATGTTCTTGTGCCATTTAGTTTACTCCGCCCAATTTTTCTGCAGCTTCTACAAGCTTATTTTTTGCGTCTTTATCATATACATGATGTTTATCTTTATCTCAAATTTCAACTCATTCACCAGCCCCAGTGATTTGAACAGTTTTAGTTATTCCTACTTCTTCTAATAAATTAGCAGGTAGTTTTATTCTTCCTGAACCATCAATTGAAATTTCATCTGTATTTGAAAAAATCGTTCTAACAACAGTACGTGTAGATGAGGAAAGCGCACTTTGTGACTTTAACTCTTTATATCATTCTTCAAAGTTTTCTGGAGTTCTAATTTCTAAACATAAACCATCAATACTTCTAGTTACGTAAACTAATTCGCCCAATTTATTACGTAATTTTGAAGGGATTGTTAATCTAAATTTATCATCCAAATTATGTTCAAATGTCCCAAATAACACAAAGTCACCCACTTTCTCCCACACATAAACAATTATATACCACTTTTTTACATAATCAACATTTTTTTAAGTTTTTTACCCATTTTTTTATAAGGAAAAAGTGCCCCTTTACAGGCACTTTTAATGAATAATTTTTCTTTCCAAAGACTTAATAATTCGATCAAGTTTTTGTTTTAAGTTTATTTCTCTTGTTATAACTTCATCCAAGTATTCACTATTACTTAATTTTAAAGGTTTAATTAAGTATTTATTTAAATAGATTTTATAATAAAGATAAAAGCTTCTTAATAAATTAATTGAAGTTATTGGGTCAGATTTTTCAACAATTTCATAGAAAGTCCTTTCATCAACTTCATTAATAAAAAAGTTATAACCATTTTCATTTAAGGAATTTAAAGCCGATAAAGGTATTATTTTCTTAGAAATTTCATTAATATTTTTTAACATAAAAGTTCCTCCATAAATACATTAATCGATACTTTTTTATATTTATTTATAAAAAAGTACAAAAAAAGTACTTTTAAAGTACTTTTATTTATTAATCAACTTTTTTAACTTCTTTGTTTTTGTAAAAACCACATTCACGACAAACTCTATGTGGTTTGATCATACTACCACAGTTTGGACATGAAATAATTGCTGAGCTAACTAAAGCCAAGTGACTTCTTCTTTTGTTTTTAGCAGCTTTACTGGTCTTTCTAAATGGTACAGCCATGTTGACACCTCCGTTGTTTTATTTTTTAAAGTTAAATTCTTTTAGTTTATCTCATCTTGAATCTACTTGATTTTCTTGTTCTTGTTGGTATTCATCTTCAGACATAAGTATGTAATCTTTACCGACAAATGAAATTTTATCATAATTCTTAGTTAAATTCATAGGAATATTTAAAACAATTTGTTCAATTGCATACTCTAATATATTAAATTTATCTCCAAAAACAATATTATGTTGGTCATCATTGATATCTTCAAAATAATATTCTTCATTTCAATCATAAATTTGATTTTCTAAAGTAATTTGTGCACCATCTCTTGCATCAATTGCTGTTAGAGATGCTGTAATTTTTGCATTTACAAGCACAGATTTCATTGCATCTTGATAATTTAAAATGCCTTTAATATATACTTTATCAATTGATTTAATTAAATCATGATTTAATTGTAAATTAGTATTAATTGGAAATTCTCTATCTAAATCTACATGCCCCTTTAGTTCAATCTCTTTTTTAAGCACTATCTCACCTCTATTTTAAGTTTTGATAAATTACTTAAGACTTTATTTCACTCTTTTTGAACTTCTTGATCTGTTAATTGGTTAGCAACACTGTTAAATTCAAATGAAACTGAAACAGATTTAGAGTTATTTTCTTTCATTTTATTATCTTGATAAATATCAATTAATTCTACTTTAATTAAATGATCAACTTTTTTAGTAATTTTAGTAATAATTTCTGAGTATTTATCTGATGAATTTAACACAAATGAAACATCTCTAGTTGTTTTTTGGAATTTTGATATTTCTTGAGCTCTAATTACAGAATTTTTAGTATTTTGTAGTTCACTAATGTTTAACTCTAAAACAAAAGTTGCATCTAATTTTTGAGATTGTTCAAATCTAGGATTTAATTTATAAATAAATCCTAATGTTTTTCCTTTTAAACTAATTTTTGCATTAATATAGGGGTGAATTTCATTGATAATATCTTCATTTAACTCAAAAGAAACATCAGTTAAATCAATATTATAAGATTGTATAATTGAATCACAAATACCTTTGATATAAGCATAAGATGCTTTTATTGAAATATCATAACCCTTTTGATTTAAAATATCGCCACTAATAAGAACTGACAAATGTCTTTGTCTTAAATCATTCATATTATAAATATCAGCAAATTCGTATAATTTAACATTTTTATTGCCCTTTGAATAGTTAAATGAAGCTGTCTCTATAATTGATCTTGATAAACTTAATCTAAAAGTTTCTCTAAGTTTACTTAAAGGACTCATTAAGTTTATTGGGTTTTGAATATTAAACAAGTTTCATTTTTTTACATCTTCACTTGAAAGCAATGAGTATGTTTTAATATTTGTAAATCCTAAACCTAATAAATAATTTTCACTTTGTTTTTGTAATCTTAAATCTAATTTTTTAGTCTTATTATCTGAAAGAATCTTAGGAGCAATTGATGTGACATTATTGTAACCATAAATTCTTGTAATTTCTTCAACAATATCTGCACTATGAACAATATCTGTTCTAAACTGATCAACTGTAAATAATAGTTCATCTTTATTGTCTTTTATTTCAAAGTCTAAAACTTTAAATAATGCTTTAATTTCTTTAACAGTTAACTTAATACCCATTAACTTGTGAATATAGTCTAATTTAACACTTACCTGAGTTTGTTTTTCATTTGATTCTTTTAATATTTCAAGTTCACTATTTGATTCATAAATATTATATTGATCTAATCAATACATTACTCTATTTTGAGCTAATGTATATAATTTAGAACTTACTGGTTTCATATATCTTTGTAAATCAATTGTTGAAGTATTAAATTCTTTTTGTTGTTTTCTCATGAAAATTGGATCTAATGATAAATAAACAACTAAAATTTCTTTTGAATCAACAGTTGGTAAATAATCTAAATTAGTTTCTACTCCAAGAGTCGAAATAACTTTTTTATCACAAATTAATTGTAAATTAACGTCATGTTCTTTATTTTTACTATTTTTAATTTCTAGTTGCGAATTAAGTTTTTTTGGATCCAAAAACATTACTGGTTGACCTGTTTCGATTGCAATAGCATTAGCTAAATCTAATCAAAAATTATGGGTTGTTTTTGAATCATTAAATTTAAGTCATAAATCCTGATTTGAATAAATTTTATATTCTTTTTCATCAATACTAATAACTTCTTTTACATTCACCATTTGCACAACAGCACTTCTTACAAATTTATCTATTTCTTTTTGAATTTTAATTGATACAGGTGCTTTTAGTTTATTAATTTTTAGCATATATTCTTTTGATAAATCATCAATATTCTTATCAAAATAGTTAGCCAATTCTTTTGCAAGTTGCATTGCTCCAAGAGCGTCACTTCTGTTCAAAGTTAAATCAACTTCTCATACAGCATCTAAAAAACCGATTTCATCTAAGGCTGCTTCGCTACCAATCATTGAATAAGTGTCTTCTTTTGTAACAATTGGATAAATTCAATCTTTTTCTTTATCTGAAAGAGCTTTAGGATTTAAACCAATTTCTGGTAAAGCACATAACATTCCCTCTGACATTTTCCCTTTGATTTCTCTATTTTCAAGTTTCATTCCATTTGCAAGTTTTTTTCCTGCCTCTGCTAAAATAACATATTGTCCTTCTTTAACATTACTTGCTCCACAAACAATTGGTGAAACTAAATCTTCACCTTTGTCTACAAAACAAAAATTTAAATGAGTTCCTTCAATTGGAGCAACATTACCTAAATGGGCAATTTTTAGCTTATCATTTAAATTTGAATAATCTTTAAATGAGTCTACTTCAAAACCAAGTGAGTTTAATGCAACTGTTATTTGCTCATTTTTAACACCAGTTAAATCAATTAACTTTTCTAATCATTTTCTTGTTAAATACATATTAATCTCACTTTCTAATCTCCAAAGAATTTAAATTGGTCTAAAAATCTAATATCATTTTCATATAAGTCTCTAATATTTTTTAAACCATATTTTAACATTGCTAACCTTTCAATTCCAACTCCAAAAGCAAGGCCAGTTACTTTATTTGGATCTAATCCATTTGATTCTAATACTTCTGGCGCTAACATACCTGAACCTAAAATTTCAATAAAACCAGTATATTTACAAATTGGACAACCCTCACCATTACAGTTAATACATCTTACATCTACTTCAGCTGAAGGTTCGGTAAAAGGAAAGAAACTTGGTCTCATTCTAATTATTGTATCTTCTGAAAATAAACGTTTACACATATATTCCAAAACCCACTTTAAATTAGCAAAACTGATTTTCTCTCCAATTGCAAATACATCCATTTGCATAAATTGATGTGAATGAGTTGCATCATCATCATCACGACGATAAACATTACCATAACTAACAGCTGCCATGTTAATGTTTCCAGTTTTTGAAGCTTGCGTAAGCATTCTAGCTGTCATATTAGTCGCATGAGTTCTTAAAACTGTATGTTTATCTATATAAAATGTATCTTGCATATCTCTTGCAGGATGACCTATGGGCATATTTAATTTTTGAAAACAATATTCATCTGTTTCAAATTCTGTTCCATCGATCATTTCATAACCTAATTCAGTAAAAATTGAAGAAACTTCATCAATTACAAGATTAAGTGGGTGTTTTGTTCCTACTTTTAAATTAACTCCTGTTAAAGATAAATCAATTTTTTCATTTTGCAGTATTTTTTTAAGTTCTTGATTTTCAAATTTCTCACTTAAATTATTTAACTTATCAGAAATTATAACTTTAATTTCATTTGCTTTCATCCCAGCTTCTTTTCTCTCTTCAGGAGAAGCTGATTTCAATTTTTTAAGAATATCTATTAGCGGAGATTCTTTACCTGCAAACTCCTTTTTTAAAAGTTCTAATTCATCTTTTGTTTTAATTTTATTGAATTGTTTATTAAAACTATTTAATATTTCATCTATTTTTTTTAACATAAATTGCACCTTTTCTAAATTTAAAGCAATTTAATTATACTAAATAAATTAATTAAATTATTATTTGATAATTTTTTTGTTTAATATATTAGCTTTTTTATTCATTTTTTGCTAAAAATAGAAAATTAAAAAACAAAATTATCATTAATTTGCTTATTTTTAAAAGATTTAATAAAGATTTCAAAATGATTATTAACATTTTCTTTAAATTCCATTAATTTTAACTTAAAATAGTCATCTGTATCATAAATCACTTGATTATATTCAACAGTAAAATGAATTTTTTCAAAGAATAAATATTTAATTAAACCTTCATTTATAATTTCTTTAATTTCCATATAAATCATATGCATAAGGTTATCTAAGATTGTTATTTGATTTAAATTTATTTTATAATCTTTAATTTCATCTACCATTTGAGTGAGAAATTCTCTGATTTTTATTATTTTTTCTCTTATATCTTGTTCCTGGGTGAAATTATAGCTAATTTTTAGCTGATGTTGCATCATTGTTATGAAATTATTAATATTTAAAATCTGAAAAAAATCTTCAAATTCCCACTTAAAATTAATATCTTCCAAGTTTATTTGCAATATTTTCTTTTTAAATCTTTTTGAAATTTGTTCAACTATCATAAATACCTCTTTTAACTATATTTTACAAAAAAAACCTACTCTTTAGAGTAGGTTTTAAAACTTTAAACTGGCAGCGTCCTATTTTTGCATTATACTATCGTCGGCGTTGCTGATCTTAACTTCTGTGTTCGACATGGGAACAGGTGTGACCTCAGCGCTATGACCACCAGATCTTAAGTTTTTTTGTGTCTGAGAGACTAAGTTCTTTTTCAAAAACTAAATCGTACTCTCAAAACTGAATACTAGATGATTTTATATATCTATACAAGCAATTTTGTTAGGTTTTTCTTTGAAAGTCCTCGATCTATTAGTATTGGTAAGCTAAACACGTCACCGTGCTTACACACCCAACCTATCAACCATGTGGTCTACATGGGATCTTACTTCCGAAGAATGGGAAAACTCATCTTGAAGGAGGCTTCTCGCTTAGATGCCTTCAGCGATTATCCTTTCCGCACATAGCTACCCTGCTGTGCCACTGGCGTGACAACAGGAGCACCAGGGGTGCGTCCATTCCGGTCCTCTCGTACTAGGAACAGCTCTTCTCAATTTTCCTACGCCCACAACAGATAGGGACCAAACTGTCTCACGACGTTCTGAACCCAGCTCGCGTACCGCTTTAATGGGCGAACAGCCCAACCCTTGGAACCGACTACAGCTCCAGGATGCGATGAGCCGACATCGAGGTGCCAAACCTCCCCGTCGATGTGAACTCTTGGGGGAGATCAGCCTGTTATCCCCGGGGTAACTTTTATCCGTTGAGCGACGGCCCTTCCACACGGGACCGCCGGATCACTAAGTCCTGCTTTCGCATCTGTTCGACTTGTAAGTCTCGCAGTTAAGCACCCTTATACCTTTGCGCTCTTCGTACGATTTCCAACCGTACTGAGGGTACCTTTGAGCGCCTCCGTTACATTTTAGGAGGCGACCGCCCCAGTCAAACTACCCACCAAACACTGTCCCTGGCCCGGATAACGGGTCTAGGTTAGAACCTCAATGTAACAAGGGTGGTATTCCAAGGATGACTCCACGATCACTAGCGTGACCGCTTCAAAGTCTCCCACCTATCCTCTACATGTTACACCAAGATTCAATATTAAGTTATAGTAAAGCTCCACGGGGTCTTTCCGTCTAGTTGCGGGTAACCAGCATCTTCACTGGTACTAAAATTTCACCGAGTCTATAGCCGAGACAGCGAAGGGATCATTACGCCTTTCGTGCGGGTCAGAACTTACCTGACAAGGAATTTCGCTACCTTAGGACCGTTATAGTTACGGCCGCCGTTCACCGGGGCTTCAATTCAATGCTTCACCGAAGCTAACATCTCCTCTTAACCTTCCGGCACTGGGCAGGCGTCACCCCCTATACTTCGTCTTACGACTTTGCAGAGAGCTGTGTTTTTGCTAAACAGTTGCCCCTTCCTCTTCACTGCGGCTCACATAAAGTGAGCACCCCTTCTCGCTAACTTACGGGGTGATTTTGCAGAGTTCCTTAGCTATAGTTATCTCGCTTGCCTTAGGATTCTCTCCTTGACCACGTGTGTTCGTTCTAGGTACAGGCACCTAATAAATTAACGCTAGAAGCTTTTCTTGGAAGCGTGGAGTCATGGACTTCGCTACTTGCCGAAGCGTTCACTCCCCATAACACTTCAAGGTTATAGTACGCGGATTTGCCAACGTACACCTCTTTGTGCTTAGACCGGCATAACCAACAGCCGGCATCCACTATCCTTCTCCGTCACTCCATCACTTTATTAGGTGGTACAGGAATATCAACCTGTTGTCCATCGACTACGCCTTTCGGCCTCGCCTTAGGTCCTGACTAACCCTGGGTGGACGAACCTTGCCCAGGAAACCTTGGTCAAACGGCATGGGAGATTCTCACTCCCAAACGTTACTCATGCCGGCATAATCACTTCTAATCGCTCCACCCGTCCTCACGGTCGAACTTCATCGCAATTAGAACGCTCCCCTACCACTTGCATTGCTGCAAATCCAAAACTTCGGTACTACGCTTAAGCCCCGGTACATTTTCGGCGCAGAAGCACTCGACTAGTGAGCTGTTACGCACTCTTTAAATGATGGCTGCTTCTAAGCCAACATCCTAGCTGTCTGTGCACTTCCACATCCTTACACACTTAGCGTAAATTTAGGGACCTTAGTTGTTGATCTGGGCTGTTTCCCTCACGAGCATGGACCTTATCACCCATGTTCTGACTGCCGAGTATGAAATTATGGCATTCGAAGTTTAATTGTGATCAGTACCCCTAGGTGGGGCCATCACACATTCAGAGCTCTACCTCCATAATCCTTTACCTCGACGCTAGCCTTAAAGCTATATCGGGGAGAACTAGCTATCTCCAGGTTCGATTGGAATTTCACCCCTAGCCACAAGTCATCCACGGTCTTTTCAACGAACGTTGGTTCGGTCCTCCATTAGGTTTTACCCTAACTTCAACCTGCTCATGGCTAGATCACCTGGTTTCGTGTCTACGACATCGTACTAAACGCCCTATTAAGGCTCGCTTTCACTACGGCTCCGTGTATTCCACTTAACCTTGCACGATATCGTAACTCGCCGGCTCTTTCTACAAAAAGCACGCCATCACCCATTAACGGGCTCTGACTTCTTGTAAGCATATGGTTTCAGGTACTATTTCACTCCCCTCACGGGGTACTTTTCACCTTTCCCTCACGGTACTGGTTCACTATCGGTAAAATGGTAGTATTTAGGCTTACCCAGTGGTCTGGGTAGATTCCGACAGGGTTTCTCGTGCCCCGCCGTACTCAGGATACTCTCTCGAGATTAGTGCATTTCGCATACGGGACTATCACCCTCTGCGGTGCTGCTTCCCAACAGCTTCTGCTATACACTAATTTTGTAACTCTAACAAGAGTCCTACAACCCCGGCCCGTAGACCGGTTTGGCCTGTTCCGCTTTCGCTCGCCGCTACTGACAGAATCACATTCGTTTTCTTTTCCTCTTGGTACTAAGATGTTTCAGTTCCCAAGGTTCCCTTCACATAACCTATGTATTCAGTTATGGATAACACGAGATTAATCGTGCTGGGTTTCCCCATTCGGACATCGTCGGATCAAAGCTTACTTCCAGCTCCCCGGCGCTTTTCGCAGGTAGTCACGTCCTTCATCGGCTCCATTTTCCAAGGCATTCACCATACGCCCTTACTATACTTTCTAAAGAAAAACCTATTGCATATATAGATAATCTATAAAATTAATGAAATTTTAGTTTTCTTAGTATTAATCTAAATTAAGTTACTAAATACGTTTTATATTGTATATAAACGTAAGAAAAATAAAATGTCTATTTTCATCTAATATTCAGTTTTCAAAGAACGATTTTCTTTTCAGAAATTGCTTTCGGGCCTAATGGCCCTAAAAAACAATCTCTGAAAACTAGATAGAACGAGATATAATCAAAAGCTGTTTTATCGTTTCACTCAGCTTCTTTTTTCTTAATCTACGAATACTCCATAGAAAGGAGGTGATCCATCCGCACGTTCCCGTACGGATACCTTGTTACGACTTCACCCTAATCGCTAATCCTACCTTGGTACGCTCCCTCCTTACGGTTAGGATACGTGCTTCTGGTATTACCAACTCTCATGGTGTGACGGGCGGTGTGTACAAGACCCGAGAACGTATTCACCGCGACATTGCTGATTCGCGATTACTAGTGATTCCGGCTTCATGAAGTCGAGTTGCAGACTTCAATCCGAACTGAGACTGACTTTTTGAGATTAGCTCCCCCTCGCAGGATTGCGACTCTTTGTATCAGCCATTGTAGCACGTGTGTAGCCCAGGACATAAGGGGCATGATGATTTGACGTCATCCCCACCTTCCTCTAGCTTACACTAGCAGTCTCATTAGAGTCCTCAACTTAATGTTAGTAACTAATAATAGGGGTTGCGCTCGTTGCGGGACTTAACCCAACACCTCACGGCACGAGCTGACGACAACCATGCACCACCTGTCTCAATGTTAGCCTCCACTACATCTCTGTAGCTTTGCACTGGATGTCAAGCCCTGGTAAGGTTCTTCGCGTTGCTTCGAATTAAACCACATGCTCCACCACTTGTGCGGGTCCCCGTCAATTCCTTTGAGTTTCACTCTTGCGAGCATACTACTCAGGCGGAGTACTTAATGCGTTAGCTGCAGCACCGACTTAAAGCCGACACTTAGTACTCAACGTTTACGGCGTGGACTACTAGGGTATCTAATCCTATTTGCTCCCCACGCTTTCGTGCCTCAGAGTCAATCACAGGCCAGTAGACCGCCTTCGCCACTGGTGTTCCTTCATATATCTACGCATTCCACCGCTACACATGAAATTCCATCTACCTCTCCTGCATTCTAGTTAGCCAGTTTTCAAGGCGAACCGGAGTTGAGCTCCGGGCTTTAACCTCAAACTTAACTAACCTCCTACGCACCCTATACGCCCAATAAATCCGGATAACGCTTGCCACCTATGTATTACCGCGGCTGCTGGCACATAGTTAGCCGTGGCTTTCTGGTAAGGTACCGTCAAACTAAAAGCATTTCCTCTTCTAGCTGTTCTTCCCTTACAACAGAGCTTTACAATCCGAAGACCGTCATCACTCACGCGGCATTGCTTCATCAGACTTTCGTCCATTGTGAAAAATTCCCTACTGCTGCCTCCCGTAGGAGTCTGGGCCGTATCTCAGTCCCAATGTGGCCGATCAACCTCTCAGTTCGGCTACGTATCATCGCCTAGGTGGGCCTTTACCCCACCTACTAGCTAATACGCCGCATCCTCATCTTCTAGCGGCCCAAACGGGCCTTTTAACATCTTCTCATGCGATAATGATGTCGTATGCGGTATTAGCAGTCGTTTCCAACTGTTATCCCCCACTAAAAGGTAGATTAGATACGTGTTACTCACCCGTTCGCCACTGGGTGCAAGCACCCCGTTCGACTTGCATGTATTAGGCATGCCGCCAGCGTTCATCCTGAGCCAGGATCAAACTCTCATTAAATTTTATTAATGTGAAAATTTTGATTCATGACTATATCTTTATTCTCAAATAATTGAACTTGTATAAATTGTACAAATTAATTGGTTGTTGTTGTTCTATCTAGTTTTCAAAGATCGTTTCACGTCAGTTTTTCAAAACCAACGACATATAAAAATATATATGATTTGAAACCAATAAGCAATACTTTTTTTAAAATTGTTTTAAAATTTACTATTTTTATTTCAATAAAATATTTTTATTAATAAAATCTTAAATTTCTTTAAAAAACCCTTTAAAATGGGCACTCTCATTGACAAGAAAGATAATAACATATTAAATTTTAAAAATCATAAAAAAAATAAAAAAGTTTTAACTTTTTTATTTTATTCATCTCAATCAATTGTTGGTCTTAAATCTACACTACTTTGCTCATTTACTGGGTCTAGAATCTTATCAAGATCGACTTCTATACTCTTTGATTTACTCTTTTTTAGCCCATTTAATGTATTTGCCTTAGGATTTAATGGTGCTACTTTAGCAGCTCTTTGAGGTATTCTTCTTTCTTGATTTTTCATAGCTTCTCAGATTCTATCTGAATCTCCTAAAAAGACTTTTCCTTGATAATTTTCATCAAGTTTAGGAGTTCTTCTAACTTTTCTTTCAACATATAATGGTTTGGCAATATTTCCAATAGGATTATTAAATTCACCTTCTCTTTTTGCAGATCTTCTAGGTACTATTGTTTGCTTATATGGGTCCTTAGGCTCACCAATTGGTGGTAAATCCTCAACCTTAGGTAGATTATTAATTGGTGCAATTTTTTGATTTGGTCGCTTTAATAAGTTATTAAATGAGTCATTTGGCTCTTCAATTTCTTCAATAAATCGCTCATTTTGAGCTATTATAGGTTCATCATTTTGAACTTGAATATTTTCTTTTTCAATTGGATAAATATTTTCAACAGGAACTTCCTGCTCAACTTTTAACTCTTCTTGTTGAGGTTTAGCCTTAACTTTTACTTCATCTATAGGAGTTTCTGTAAAAGAATCTCTAAACTTATTACTGCTAATATCTTCTTTTAAACGTGCCAATTTATCTACCATATTATATGTTTTTTCATTAGGTGTTGAAGTAAAATCAGAGTTAAATTCTTTAATTGCAGCTGTATTTTCTTTTACCATCATAGGTTGCCCTTGATTTGCTGGTGATGAAATTTGTGAATAGCTTGAATTTTGTTTTGGTTTTGATTGATTAACTGTTTGTATTTTAAACATAAACATAGTAATTATAGAACTTAGTGCACAAAATGAAGCAAGTGGCAATAATATAGCATTAGAAATAACACTTGTAATAATATTCTCACTATTAATGATAGTAATTGGTGTAGCAATTTTTGACATTAAAACTGATAAATAAACTAAGTTAATTGCACTTATAAAGACTGCTGCTATTGTATAAATAATTGGTGTTATCTTATTTGGTTTTGTAATAAAGTTAACTATTCCAACTGCAAAAAAAGACCCAATTGATAATAATGAAAGAATTTGCAGTGCATTAAAAATCGCAAACTCTTCTTCAAAGGAAAATACAACAAACATGTTTCATTGCATTAAAAAAATTCCCAAAAAACTAAATAATAAAGCTGTTATTCAAATAAACAAGCTAAAAAATATACTTTTCATAATAGATACCCCTATCTTATATAGCCCTAAAATATACCTTTATTTTAGCACCATTAAATTGTAAAGACAAGTATTTAAAAAAATAAAAAAATAAATGTTTTTGTTAAATTAAAAACAATATAACATTTACCAAGTTAATTTTTTTAGTTTTAAATAACTTTTATACTTTTTATTTTGTTTATAATAATTAAAAATAAGGAGTAAAAAAATGAAAGTACTAATTGTATTAACTAATATTTCTACCTATGGAAATACTAATAAAAAAACTGGTTTGTGACTAGGAGAAGCTACAGAGTTTATTAGAGAGTTACATCCAAACTTTAAAATTGACTTTGCTAGTCCTAATGGAGGAAAAGTTCCAATAGATCCTAGAAGTATTAAAATGGCTGATAAAAAATCTTTGGAAATTCTAAAATCAGAAAATGACTTTTCAAATTCAATATCACAATCATTATCAATTAAAGATGTTATTAAGAAAAAATATGATCTAATTTATTTTACTGGTGGTCATGGGGTGATGTGAGACTTTTACAATAATCCTGTTATAGAAGAACTTATAAGATTTAACTATGAGAATGGTGCTTATATTAGTAGTGTTTGTCATGGTATTGCTGCATTATTTAATGTAAAAACTTCTAATGGTGAATTTTTAATTCATAAGAAAAAAATCACAGGTTTTACAAAGACTGAAGAAATATTAAGTGGTAAAAGAAGAAAAGTTCCATTTTTAAATGAGCAAGCTGCTAAAAATAACGGTGCAGATTTTATTAAAAAGCGTTTTTTTAAATCTCACGTTGTTGTTGATGGTCATATTGTTACTGGACAAAACCCTTACTCTGTAATTGAACTTGCACAAACAATAAATAAATTACTCATTAAAGATTAAAATATTTTAAAAGTAATTAAATAAAAATATATAAATTAAAAGGAACCATTTATTGGTTCCTTTTAATTTATTGTTTTAATAATTAATAACTAATCCCATATATCTTGTCATACTCAACAATGATTCTCTAATTCCTTGAACTCCTTCACCTGAATCTTTAATTCCTAAGAATGGAAAACTATCAGGTCCCCTAGACGGTTTTGAATTAATATTAACTGTTCCTGTTTTAATTTTTTTAGCGGTTTGGATTGCTTTGGAAATATCTTGGCAAAAAATACTTGCTTGTAAACCAAATTGTGAATTATTAGAAATTTCAATCATTTCTTCTATTGAATCAATTCTTATAATTGGCAAGACAGGTCCAAAAGGTTCTTCTCAAGCAACTTTCATATCTAATGTAACATTGTCAATCAATGTTGGTCACATTAAATTTTTCTTTCTTTTATCACCAGTTACTATTTTTGCTCCTTTTTCTTTTGCATCATCTATTAAAGTTTGAATAAAATCAGCTGATTTTTCATCAATTACAGGCGTAATAAATGCATTGTCTTTTGGCATTCCCACACTTAATGACTCCAATTTTGCTTTTAACAATGGCACTAACTTATCTGCAATTTTATTACTTACTAAAACTCGTTTTACAGCAGTACATCTTTGCCCAGAATAGCCAAAAGCTCCATTAATTATTTCATCACAATATTTATCAAGATTTAAATCATCTAAAACTAAAGCAGGATCTTTTCCACCAAGTTCTAAAACTAAATCAGTGGTACTACCATTTTTTCTAATTTGATTTCCAATTCCCACACTTCCTGTAAAAGAAATCATATCAATTTCAGGATTTGAAGTAATAATATCTCCTATTTCTCTCCCTCTTCCTGTAACAATATTAAAAATCCCTTTGGGTAAATTAGATTCAATAACTAACTTAGATAAGAAAGTTCCTACCAAACTCCCTGCAGTTGCTGGCTTAAATACTACAGTATTTCCCATTACTAATGCTGGGATTATTTTAGCTAATGCTAAATTAAATGGATAATTAAAAGGTGAAATAGCTAAAACTACTCCTTTTGCAACCCTTGAAAATATTCCAATTTTATTTTGTGCACCCATACCTTCACCAGTAAATGCTGAAGGTTCAATTCTTTTAGCTTCTTCAAAAGTATAGTCAATAATTTCAATTGTTCTAACAACTTCTGCTAATGATTCTTTTAAATTTTTTGCAATTTCTTCTGAGATTATTTTAGAAATCTCTTGTTTATTTTGATCAATTAAATCTCTAAATTTCTTTAGAGCATTAATTCTATCTAATAAAGTTTTTTCTTCTCAAGCTTTCTGTGCCTTTCTTGCTACTTTAAAAGCATCATTTATATCTTTAGCACTTAGAGCACTAACTTTACCTGCAACAGTTAAAGTTGCTGGATTGATTATTTCTAATCATTGTCCATTATCAATTAATTTATTATTAATCAATGCATTATATTGTCTCATTTTAAATATCTTTCCTTTTCTAAAGTGAATAAATAATATTCATTAATATTGAACCTGCCACTCCTACATTTAAACTATCAAGTTCCTCATTAGTTTTAATTACTATATTCTTATCAATTCTTTGAGAAACTTCTTTTGATATTCCTTGCCCTTCATTGCCAAGAATTAATGCTACTCTTTTATTCTTAATATTTTCAAGTAAATCACTTTTTTGTTTCAATAAAGTTCCTAAAATTATTATATTCTTTTGCTTTAAATTATCTATGAAATTGTTTAAATCTTCATTTAAAAGATTTAAATTAAAATGATTTGATTGTGTTGCTCTTAAAACTTTGGGATTATAAAAACTAACACAATCATTTGAACAGATAATGTTTTTAAAGTCAAAAGCAAAAGCACTTCTTATAAGTGTTCCTAAATTTCCAGGATCTTGAATGCCATCTAAAATAAGATAATTACCTTTTAATTCTTGATTTTTTTGAATACGACAAACTGCATAAATTCCTTGATTAGTTTTAAGATCACTTAATTTCTTAGAAACATTATCTGAAATTTCAATAACATTATTAAAATTCCTATATTTATCAATTAATTTACTTTCAACTAAAAGTAACTCAACAACTTCTTTTTGAAGTGCTAAATCAACCATTTTAAGGCCTTCAATAATGTATTTTTTTTGTTCTTTTTGAATTTTACTTTCTTTATATGATAAAACCTCTTCAATTAAAGAATTACTTACAGATGTTATTTTCATTTTATTCACTATAGGCAAAACCAATTTGATACAATTTATTTTCTGGTTTTACATAGTCCTTCCCTTTATAATTTGGATTAGCAACAGGATAGCCATAAACTAATGAAGCTTTGCGCGGTGGTTGCAATAATTTTTCTTGAATTGTTGAAAGTGCAGGAATCTTTTCTCCTCTTCTTCTTTTTTCTTTATTTTCCTCCATTAAATCTTCAATATCTTTTACTTTTTCTTGTTTTACTAAAATTCAAATTTTATTCTCTTTGTATCATTTTACAATTTTTTTATATTCATTATAACTAAATTGCTTAGGTTCACTACCAGAATAAAAACGATTAGTATCTTTATTTCAGTCAATAACATGATCTTTTCACATTATTCAACCAGTCTTTCCTTTTGTCATCATTGTTTCAGTTTGTTCTAAAGTTTCATTAAAGTTATGAAAACCATAGCCTGTAAAAGAATTACCTGTTCATAGATTCATATAATTCGTAGATTTAGGATCTCATATTTCTTCAAAACAAGTTGCAACTACTCAATATCTTTTATCAGAACCATTTCGATAAATTTCAAAACCATATTTATTATTTTTTAGAACTACTTCTTTTTGAGTAACTTTAACAACTTTAGCTTTAAATTTGTTTAAAACTAATTGAATCTCTTCTTGAGTTAATTTAATTCTTACTTCTCCACGAGACATCTTTATTCTTGCTTTTGTTTCATTTAATTCCTTATAAGATGTCATTCTTTTGTGAGCAAAAGAATTGAGAATATTTAATTCAGATTTCGGGTCAGGAAAAACAAAATCATTAGTAACTAATTCAGGTTCTAATTCTGTTGTCTGAGTAATTTCATTTTGTTTTTTTAGTTTAGAAATAATACTTGAAGCACTTTTTTTGCTATCTTCTAAACCTTCAATTATAACTTCACTTGATTTTTTTTTTGGTTTATCTGATTCAAACACAAGTTCTTGTGTTGGTTCCTTTGTTGATTTGTGTTCGTTTAAGTCAAGAGTTTGTGTTTTTTCATAAGATGATGGAGTTTTTGTTAAAGAGGGCATTTTTGGGTCATGGGGATCTAAAGGTTGATAATTATATATATTTTTAAAATCTTTATTTGCCATTTTTAATACCTCCTTCTCATTTTCTAAAATTAATATCCACTATCTTGTCTATTAAAATTTATTTCATTTTTTTTATTGTAAATATTGATAATTTCATCAGTTGTTATTTTTAAAATATACATTATTGATAAAAATTCATCTAATAAATGATCATAAGATTCAAGATTAAATTTTTCTTCAAATATTAAAGTCTTTCTATAAACATTAATACTTCATGTATCAATATTGCTAGTCTTTATAATTTTATTATTAAATTTTAAAAAGTCAAAATTTACATCAATTCCCAAACTAATAATAAAGTGTAGACAATCAATTAATTCTTCTAATATTACTGATCTTTCACTTGCTGGTTTATTTGACCAATATTTGAATTCTCTATATTCATTAATAAATTCTGAAACCTCAACAAGAAATGCAATTATTTTCTTTTTAATTATTTTCTTATCAACTACTATCTTTTTTGTATCAATAATATACTTATCTAAAAGTATTTGTTTTTCTTTTAAATAAATTAAATTTTCTTTTGTTAACATTTTTTTCTCTCCTATATAAAATAATTTTAGTTTAAAAAAATGATAGTAGCCTATCATTTTTTATTTTTTTTAAAAACCTGGTTTTTTTAGCAATTTAAACATATTTGCCTTATAGACTTCAACTCCTGGTTGATTAAAAGGATTGATTCCTAATAAATATCCACTCATTGCACATGCTTTCATAAATCAATAAGCTGCATAACCAAACATCTCAGCATCCATCTTATCAAATTCTAATATTATATTAGGAACTTCTCCAGTATTTGCGTGGGCATCAATTACACCTTCAAGCGCGACCTTATTAATTTCATGAAATGTTTTACTTGTTAAATAGTTTAAACCATCTAAATCTTCACTATTTTTTGGAATTTTTAAATCAAGATTTGGTTTTTTAACATCTATTATTGTTTCAAATAATATATTTTTTGTACCCTCTTGAATAAATTGTCCTAATGAATGTAAATCTGTTGAAAAAATGCAACTTGTTGGAAATAAACCTTTACCATCTTTACCCTCTGATTCACCAAATAATTGTTTTCATCATTCTGTAAATGTTTGCATTTGTAATTCATAACCTACTAAAGTTTCTGCTTTATAACCTTTTTGAGTATGCAAAATATATCTTGCTATTGCATACTTATAAGCTTCATTATTAATGTTTTTTGTATCTTGCATAGCTTTTTTAGCTCCCTTAAAGATATCATCAACATTAACTCCTGCTACTAATAAAGGAAAAATACCTACTGGTGTAAATACTGAAAATCTTCCACCGATATCATCTGGGATTGTAAATGTTTCATAGCCTTCTGCTGTTGCAAGTTGTTTTAAAGCACCTTTTGCTTTATCAGTTACTGCAACAATTCTTTCCTTTGCATTTTGCTTACCTTTTAGATCAACTAAAAGCTTTTCAAATACTCTAAAAGCTATTCCAGGTTCTGTTGTAGTTCCTGATTTTGATATATTTACAATTCCAAACTCTTTATCTTTAATATAATCAACTACTTGTTGAGTATATGTAGATGATATAGTATTTCCAATATAGATTAACTCTACTTTATCTTTTGTATACAAACCTCTGATCATTTCATCAGCTGCACGTGCTCCTAAATAACTTCCCCCAATTCCTACAACTAGAAGAATGTCAATTTTATTTCTAAGCTCTTGTGCCACTTTTTTCATTTTACTTAATTCATTTTTATTAAATTCAACTGGTCAATTGTTTCATCCTAAAAATTCACAACCTTCACCAGTTTTATTTTCAATCATATCATGTACTTCTTTAATTTTTGTTTCCCTAAATTTATTAATATCATTTTTAATTTTTGATTCATTCAAATTCACTTTTATCATATTGCTAATACTCTCCTTATTGTTACTTTGATTCTACGCTATTTTTTAAATTATCAAAACCACTTTTTGTTTCTGCTATTTTGGTTTCAGATGATTTTAATAACTGCGGTCTATTTGCTTTGTAACTCAATTTAACTTGTTTTTTGTCTTCTAAATATTCAATAACTTCGACTTCATATGATTCATTAATCACTAAGAACTCGTCGATATTTTTAACAAAAAAATCAGATATTTCAGAAATGTGAATTAGTCCTTTAACTATTTCATTCTCATCTTGAATTTCACAAAAAGCACCGTAGTTAACGATTGCTGTAATCTTCGCTTCTACTTTTTGTCCTTTATTCAACATCCTATTGCTCTCCTTACAAAATAATTATAAACTTAAATTATTGTAGAAATAATAATTTTGAAAAAAATTATTAAAAGAAGGTGATTTTTTGGAAAAAAATAATTTAGAAGAAAAAGTTAAAGCAACACTTGAGCAATTGCGAATGTATATTACGCAAGATGGTGGAGATATGGAATTTGTTGCAATAAAGGATAGACTTGTTTACATCAGACTTAAGGGTAATTGTGTTGGATGTGGCCTTACAGAGTTAACTTTTAAAGAAGGTGTTGAGGGAGTTTTAATTGAAGAATTTCCCTATGATATTGATGGTGTTGAACTTGTAATGTAACTTGAAATAAAATGGACTAGGAGACTTATTTTATGATTTTTTTAACATATGGAATGGAAATAACTAATACTATTTTAACAGCCATTTCAACAGTAACTGTTTTTGCAGCATCTTTGTTAATACCTTTTTTAGTAAAAAAATATAATGATAAAAAACAAAAATTAGATATAGCTGAAAAGGCAATTTTGGATGCCTTTGATAAATATTTTTCAGATGAGTATTCAAAAAATGATTTTGAGTGATATCTAGCAGAAGTAAATGCAATTTTGAAACGTTATGAAATAAATTCTTTTTTATGCACAAATTGTAAAAAGAAATGTAACTCAAAAAAATATATGCTTTGATTTGAAAAAGTAGATAAAACAATTCCTGAAATAAATAATTTTTCATTTAAAACAGGAAGAATGAGTTTTAAAATAGAATTAACTACGTTATTTTGCTATAAATGTACTAAGAAAAAAGTAACAAAAAAAGCATTAACTAATTAAAAATATATTTAAAAAACGCTAGCAATAAGCTAGCGTTTTTTTTAGTTAATATTTTTATTTGTTTTATTTGCACTTAAATTTTTTTGAATTGCTACATATTTAATATTAGACATCTTATTGAAAAAAATTGAAATAAAAACTGTTCCAAAATTACCAGCAAGTGTACCTGCTATAAATATTGGATAACCAACTATTGTTGGGTCAATTTGAGGATAAGGAATTAATGGTAATGTCTCATTAGTTTCAATATTCAATTTTAATAACATACTCATTCTTAAAATAATATAAAATGAATAAATACCTACAAATATTAAATTAAATCAACAATATTTTTTAATAAATAATTTATCTTCAACTTTTTCATTTTGATAAATAAAATAAAATGCTAACACAATAATTGGAGTTAGAATATGCTCAATTATTGATTTGGTTTTACCATATCAAGTATCAAAACCAATAATATCTCCCTTTTGAACTATAAATGTAACATTAAATAATATAAAAATTACTATATTTAAAGTCGTAATTGAAGTATGAGCATTTTTGCCCACCATTCATTTAGCCATACTTTTATTGTGAATGTGAATTCAATTTATTAAACCAAAAAAAGATGTCATAATAGCTACTCATACAGAGAAATAAATTGATTGCTCAATAATAGCAACATCAAAGTTACTTTTTTTCGGATCATAAACTGTTCCACAAATAAGATCTAATAGGACTGCAAAAAGTAATGCTAAAGTACATCATACATAGAAAAAATAGTTAAATCATTTCTTAATTTCGTTTTTTTTAGACATAAATATTTCTCCTCTTGATGACTTCTTAACCTACAGAACCTTCCATATCCATTTTTATTAGCTGATTTAATTCAACTGCATATTCTAAAGGTAATTCCTTTGTAAAGGGTTCTAAGAACCCCATAACAATTATTTCTAAAGCTTCTTGTTCATCAAGTCCTCTACTCATTAGGTAAAATAATTGCTCTTCACTTACTTTCGAAACAGTTGCTTCATGTTCAATTTGAGATTGATTATTATGAACCTTATTTTGAGGAATTGTATCTGAGTGTGATTGATTATCTAAAATTAAAGTATCACATTCTACTCTTGCTTTTGAATTTATAGCTTCAGGACCAATATAGGCAAGCCCTCGATAATTTGCAGTTCCTCCTTGGAAAGTAATAGACTTAGACACAATTTTTGATTTAGTTTCTTTCCCTAAATGAATCATTTTACTTCCAGCATCTTGATAAACACCTTTTTTAGCAACTGCAATTGAAATAGTATCTCCCTGAGCTCTATCTCCTTTTAAAATACAAGATGGATATTTCATATTGACTTTTGAGCCAATATTTCCATCAATTCATTCCATTCTACCATCTTCTTCAACAATACTTCTTTTTGTAACTAAATTTAGAACATTATCACTTCAATTTTGAACTGTTGTATATCTAACACTAGATCTTTTCCCAACAAAAATTTCAACAATAGCTGCATGTAAATTATTTTCAGAATAAACTGGTGCAGTACATCCTTCAATGTAATGTAATTCAGCATCATCTTCTACAATAATTAATGTTCTTTCAAACTGTCCTGAAGATTGATAATTAATTCTGAAATAAGCTTGTAAGGGTTTTTCTAATTTAACTCCTTTTGGGACATAAATAAAAGTTCCCCCAGATCAAACAGCTGCATTTAAAGAAGCATATTTATTGTCATCATTTTTAACTAATTGACCAAAATATTTCTTAAAAATTTCAGGATATTTTCTTAAAGCAGTATCACAATCAGTAAAAAGAACTCCTTGTTTAACTAACTCTTCATTCATTCTTTCATAAACTGGACGTGCATCTCATTGTGCATTAATTCCTGCTAAGAAATTTTTTTCAGCTTCAGGAATTCCAAGACGATCAAAAGTTCTTTTGATATTATCTGGAATATCATCTCAAGATCTTACAGTTTTCCCAGCTCCCTCAGTATAGTAATAATAATCATTAAAATCAATTCAATTTAAATCTGGTCCAAAACTTGGTTGAGATTTTTTTTCAAAAACCTTTAAACTTTCTAATCGATAATCTAACATTCACTGTGGCTCATTTTTGTGTTTTGATATTTCTCTCACAACACTCTCATTTAAACCCTTTTGAACTTTATAAGTTGAAACTTCACCTTCATTAAAACCATATTTATAATCTGATATTTGTTTAATTTCTTCTTCTTGTTTTAATTTTTTCATATCCTTACACCTCCTTGTTTAGAATTCACTTTAAGCCATCTGCTCCTAAAAGAGCACAATTAATTCTATTGCCTTGCTTATTTATTTCTCAAAAAGCTATTAATTCATCTAAAATATCTTCATCATAATCATTGCCCGCTATCATATTAAAATAATTGACAAGTTGCTTTTGAGCATCTTGACGAGTTAAATTTAGTAGTTTTGAGCATAAGATATCAGTTGAAGCAGTTGAAATAGCACAAGCATTGCCTTCAAATCTTGCCTCTACAATTTTTTCACCTTCAATTAATAATTGAACATTAATTTCATCAGCACAAGTTGGTGAATCTTGAAATTTAATAATTGATTTATCATTTTTAATAAGGCCTTTAAAATCTGGTTGCGTATAATGCTCCATAATTATTTGCCTTAATTGAATCTTATCATTTTTATCAAACATTACATAATCCCCCTTTTATAAAATTTCATTAACTCAATTATCACAATCTTTTAAAGCTTCAATGAACTTATCAATATCTTCTTTTGTGTTATAAATTGAAAAACTTGCTCTTATTGTAGAACTGACTTTAAAAAGTTCATTTGCTAATCTTGAGCAGTGCTTTCCAACTCTTACTGAGATATTATATTTTTTATTTAGAAACGCTCCAAAATCTTGAGAATTTACATTTTTTAAATTAAACAAAACAATTGGTTGATCATTTTCAAGATTATAAAATTCAAATTTTGAATGGTCAATTTTCTTGACTTTACTTCTAAAATATTTTTTTAATTCCTCTTCATAAGCAATCATTTTATCTATTTTTAAATCTTCTAGCACATCTAAACAAATATTAAAAGCATAAATTGCTGACAAGTTAAGAGTTCCTGCTTCAAACTTTTCAGGAATTGGTGCTAATTTATAATTATTAATACCAATACTTGTATTATTGCCCCCACCATAAAAAATAGGTTTTAAAAATTCTAAAATTTCTTTTCTTGCTCATAAAATACCCAATCCAAAAGGTCCATAAATTTTATGAGCAGAAAATGCAACACAATCAACATCTAAATCTTTAATACTAATTTTATTTTGTTTTATTGATTGTGCTAAATCCAAAACTATTATTATATTCTTATTTAATTTTCTAATTTCTTTAACTATCTTTTTTACATCATTTAATCCAGCAATTGTATTGGAATTCATTGCAAAAGAAATAACTTTAGTTTTTTTAGTTACTTTATTTTTAATTTTAGAAACATCTATCAAAAAATTTTCATTTAATTCTAAATAATCTAACTTCAATTTTTCCTCTTGGGCTAAAACCATCCAAGGCAATAAATTAGATGAATGCTCCAATTTTGTAACTAAAATTTCATCATTTGCTTTTAAATAATTTCTCATACCAAATGCTAATTGATTTAATGAATGAGTTGTTCCACTTGTAAATATAATTTCATTTTTATCTTCAATACCAATAAATTTGGCTATTTTAATTCTAGTATCATTAAGCATTTCATTAGCTTTATAAGCATTATTAAATAAATTATTGTGGGTATTTGCACCAATTTTTAAATCATAGTCGCTTTGAGCTTGTATAACCTTATCAAATTTAATTGATGTTGCTGCTGAATCAAAGTAAATCTCTTGACTATTATTCTTAAAATATGAAAAATTATCTTTAAAATTCATTAAATCATCCCTTTTAATTGTTGTTTTAAGTAATTTAGCAATTGTTCATCTTCAATTTCTTGAAATACAGGCTCAAAATAACCATTAATAATCAGTTCTTGTGCCTGAGTTTCATTTAAACCTCTTGAAAGCAAGTAAAATATTTGATCTGGGTCAAGCATACCAATTGCATTAGCATGACTTGCTACAATATCATTTTCATCAATTAATAAAACTGGATCAGAATCAGCTTTTGCTTTCTTATCTAGAACTAATAACCTTAATTCCTGGTGTGCTTCTGCTTGATTTGAACCCTTTTTAATATCACTAATACATCTAATAAAGCCCTTTGAGGTATCTTTTAAAACTTCATATGTTCTTATATTTGAATATGAATTTCGAGCTTTATGTACTGAATTTATGATTGAATTTTTTTTAAAGTTTTTATTAATAATTGTGGCATTATAAAACTCCACAGCAGTATTTTCTTCATTTAAATTAATAGTGAAATTATCATTACAATCATAATTTGCAATATTTGATATTTTCAAATTTAAAGAAGAGTTTTTACTTAGATTAAAATTCAAATTAAAGTCTTTTTGACTTTTTTCTTTTGAAGGTAAGAATAAAACAATAATGTTAATTTCAATATTTTCTTTGATATTTAAATTAATTGTTCCAAATGTATTTTCTAATAATATAATTTTACTTTTATTATCTTCAAAATTAAAAGTTTTAGGTAGTTTGTTTCTAAAATCTATATATGATTCATTTAATTTTAAATTAACCATTATTTAGATAGTTCCTTTGCTCATGTATAACCTTCTTTGTTAATTTTTTCAACAATCTCTTTTCCACCACTTTTTATTATTTTTCCTTCAATAATAACGTGTGCATGAGTTGGTTTTACTTTTTTAAAGAATCTATCATAGTGAGAAACAATAACCATTGCATTTCTTGATAAATCAACTTTATTTAAGTTTTTTGAAACAACTTCTAAAGCATCAACATCTAATCCTGAATCAATTTCATCAATTAAACTAAAAATTGGATTTAACATTTTTAATTGTAAAATTTCATTTTTCTTTTTCTCTCCACCACTAAAACCATCATTAACAAATCTTTTTAGCATATTTAAGTCAAAATCTAATTCCTTAGCTCCTTGTTTAATATCTTTAAAGATTTCTTGTAACTTTTTCTTTTCATCACTGTGAGCATTCACTATATATTTTAAAAACTCTAAGTTTGAAACCCCTGGAATAGTTTGCGGATTTTGCATTGCTAAAAATATACCAGCTTTACTTCTTTCATTAACATCCATTTCTAAAATTGATTTTCCATCAACTAAGATATCTCCTGATGTAATTTCATACTTGGGGTGACCCATAATTGCCATTAATAAAGTCGACTTTCCATTACCATTTGGCCCCATTAGAGCATGAATTTCTCCTGAATTAACTGTTAAATTAATTCCTTTTAATATTTCTTTGTCCTCTATACTTACATATAGTTCTTTAATTTCTAATTTGTGCATTTCTAAGCTCCTTGCTTTATTATTATAGTTATTATTATAGTAAAAGTTAAGCGAACTTTAAAAGAGCAAAAAGCAAATATTTAACATTAAATTGCAATTTAATGTTATTTTATGTTATTTTTCATTATAATTATTTTGATACAAACCAAGGAGTGAATGGTGTGAAAAAATTATTAACACTGTTAGGAAGTGTTAGTTTAACAGCAACAACAGCAACAATGGCTGTAGCTTGCGGTACAAACTATGACGTTAAAGACGACGGAAACTCAGTTCTTATTCAATTTTTACAATCAATAGATGGAAAAGCAAAAATTACATCTACTGATATTCTATGAAAGTTAATTAATTCTTCAAATGGTCCAAAAAATAGAGAAAAACTTACTTTAGACTTATTGAAAATGATTAATTTATCTATTCTAGCAAATATAGATTCAGAAGAAAACAAATTTACAATAGATGAAGATAACTTATATACAAATTATGATTTAAAAAACACTTTGAAAGAAAGATGAGCAAATGCTATTTCAAATGTTGATAGACAAATTGCAAATGAAAAAGATGTATATAAAAAAGAACACGGTAAAAAATGAGAAAAAGAATGAAATAAAATGCTTGTTGAAAAATACAGCGTTTATCAAGACGACGTCAAGTCAATGAATAAAGACTTCCTAGAAAACAAATACAAAGCAGATATACTGTTAACAGATTCAAATAATAATGCTTCAAAAACATTATTAGATGTTTTAATTAACACTGATCAAACAGGAGTTACTTGAATTAGCTCAAATGACATTATGAAAAAATATAATGCGCTAAAAAAAGTAGTTGAAGAAAATACAAGCAATGATGCAGCAATTGCTAGTTATTTAAAATCAGATTTAGATCAAATAGCTCAAATTAACAACTCATTAACTGATGTTTCAAAAGATTGAAAAGAAACTAAATTGCATTCAGAATCAACTGATGCAGAATTAGTTGCAGCTGCAAAAGAAGCAATTAAAGTAGATGTACAAGAAATTAAGAATGATACACCAGTTAGCATAAACAATTTCACAATAAGTGATACAAATAACTCAAGAGCAGGTTTCTTAAGTAATTCACAGAAATTTTTCTTAGATCGTTTCTACAATACTCAAGCCCCTCTTGCTATAAGTGAAGTTGTTATTCCATTTTCAGAAAATGGTTCATTCGATGATGGAGTTACAGTAGCAGATTTTAAATCATTAGATGGAAATGATCAAGTAAACACTGAAGAACTGTTAACTCAAATATCATCAGATAATGAAACTGGAGATACATGAAGAAGATGAATGGTTGAAGGAAAAACTGATAAACATCCAAAGGCAACTGTTAAAAACTACGATAAACTTATGACTTTAAGTAATTCAGCAGACTTTACTCAAGATATGAGAGCTGTTGTCTATGACTTTATTCTAGGTGAGAACAAAAATGGAAAACCTTACTCTAAAGGTGATTTAGAATCATTAATTAATGAAATTTCAAGAAACGAAAAAGCAGAGAAATTTTATGTTTATGATGAAGATAAAGGAAGAGTTTATTATGTTGATTCAACTGGGTTACATATAGTTCAAATTGATGGCTACAAATACTTTAAAGATTCTAAGGGAGCTCCAAAAGAAGGACTGCGCCAAGAAGGAATTAAAGAAAGCAAAATTAATGAACATACATTAAATGAATTAAATGAATTTAAAAAGTACAATGCTTTACAAGATAATGAAAAAGTAGCTGCTTTACAAACAAACAAAAGCGAAGCTTACGATAATTTAAATAAAACAATAGTAAATCCCTATTTACATTATTTAACAAATTCTTCAATGTTGAAAGGTATTGCAGGTTCTGCTTCAAGCTTTGATGTTATGTCAGAAGTTAAATCATGAGCACAAGTATCTTCTTCAACAGAAGGTGGAGCTTCACATTGAATGACATCAGTATTTGATTACTTTAAAACAATTTCAAAAGTAAAAGATGATAAAAAAGATTCATTTAAACAAGAAGAATTTATTGATAACTACATTAGTTTCAATGTAAGTGAAGAAAAAAGTCAAGAAGAAGAAGTTATTAAAAAAACTCAATCTTGATTCTACGCTGCAGTTAATTCAAAACAAAGTTTAGCAGCAATTGACCCAGCTATCTTATTTATTGAAGCAAGTGAAAAATGAACAGACGAAATTAAAACAAAAACTGATGCTAGTGGTTATCCAAAGAAACTTTTAAAAAATGATGAGTATAAAGAAGATATTGTTTCAAACACAATTGAATCATTTTGAAAACCAAAAGTTAAAGTAAGTGAAGAAATTCCAAGTAATAGAAATTTAAGCAATGATTTAAGTTCAATTGTATTTGACTATAATTTAGTAATAAAAAACATTGAAAGTTCGTATTTAAATTTCAATAAGGGAGGTATTAAATAATGAAAAGATTATTAGGAATACTTAGTGCAGTGTCATTAACTGTATCTACCCCTTCTCTTGTTGTTGCTTGTGGTACAAAAGAAAGAATAACTAGTCCAAAATTAAATAAAGAACTAGCTAAAAAATTATTAGTACAAATTTCAGGTAATAAAGATCTTGCAAATATTGATTTTGGTTCACTATTTACAGATGCTCAAATTGAAACAGTAATTGTTAACATGGTAAACGAATTATTATCATTACAATACAGTTTTGATTCAACAAACAATATGTTTAGAAATTTAGATTTTAAAGAATTTTATACTTCTGATAAAGAAACAGGAATAGAAGAAGCATTTAAAACTAAATATAGTCTTGAATCAAGAACAATAGCTGAAAATAAATTATTTGAAGATTACACAAAGTCAATTGGTACTACAAGACTTGACTATTGAGCTATAAGAAACAATTATAATTTAAATATTCAAAATAATGAAACAAAAGTAAATGATATCAATAGTGAGCAAATTGAGTTAAGCAATGAAAATCCTTATATTTACATATCTGAAAGTGCTCCAACTGATGAAAATAGTATTTGAAAATTTTCAAATGAACAAGGAAAAGAAGGTCCAATTGGGGGAACAAGTAAACTACCTCAAATTGAAGATTTAACAAAAGAATACCAAGAAAACGGTTCATCAATGTTTTGAGTTAAAAATAATGATGGAGAATTTAAACAAATTAGTGCAAAAACAGCATTGTATTTAAGATTTCAAGATTATTTTGAATCAAAACTGTTAGAAGATATCAATGATAATCTTCTAACAAATTCATATTTAAAATCAACAATGTTTGATACTAAAACATTTGGTGATAATCAAAAGGCACCTTTTATAAATCCATCTTCAGCAATGTTTTCAAAAACACAAACATTAAATGAAACTTCAATTAATGAGTATTGAAAATCAAATGTTAAAATGGTTTGAACTTTAAAATTTGATATTACTAAAGCTGAGGCAATTACTAACATAAATAAAGTAATTAACGATAAAAAAGATCTATTAAATATTAGTAGTGGTGCTTTAATAAAAGGTAAATCAATTAAAGATATTGTTGGTATTTTCAATGGTACTGAAAAACCAATTAAAGATAATAAAACTGCTTATGACTCATACTTTGGATTACAAGGTTTCCAAGGATTAACTATTTATGATGGTGAAAATGCAATTGGAGAAAGTCCAATTGCAGGTAAAGCTTATGAATCTAAAGTTAAATCATGAAATAATGGTCCAGGTATTATAAAATCAAGTTCTGAAAACTTCCTAACTATCGATTCAGAAAATAATAACTATGCAGATTTAGTAATTGTTCTTCCAATCTATATGATTGAATTATTAGGTGGATCTGGTACAGTTGATGGTTCAAATGAAGATGCAAATGAAGATCCAACTTATAAAATTGTTGGTAAAGGAAAAGACGAAGAAAGTAAAATAAAATTCAGTAATACTATCGGAAATGATTCTATTTATAAAGAGAGATGAAATAATAAAAATAACTCAACTCTTCATTCAAAAGATGTAGCTGAATTAGCTCAAAATTCTGAAAAACAAAATGCTTTATTAAACCAAATAATGTATGGAATTTCAAAAGATGCTACTTCAAGTGAATTGGCAAAAACAATCATATATACAAAATACTTAGATAAAGATGATGTATATTATGCAGGACTATGAGATAAAATTGGAACATATATTAAAAGTGAAGATGATAAAGACGAATAAAGTTCAAAATAAACCTACACAAGGTTTATTTTTTTTATAAAATATTTAAGAAAAGAGGAATTAAAATATGGATTGTATTTTTTGTAAAATCATTAACAAAGAAATGGAATCTAAGGTATTTTATGAAAATGAACATACCCTAGCCTTTCTAGATATTTTCCCAAACAGTGATGGTCACTCTTTGGTTATCCCAAAAAAGCACTTTGAAAACTATGAGCAAACTGATGATTTCTATCTACAAGAAGTTGCCAAGACTAAAAAAATTGTGGCTAAAATGTTAAGAGAAAAATTGAATGCAAAAGGAATGAATTACGTCTCTAATCAAGGTTCAGAGGCCTTTCAAATGGTATTTCACTATCATGAGCACATTATCCCTAAATTTGTAAAAGAGCAAGGATATGGCTTTAAAATAAACAATAAACCGGAATATTTAAGCGATATTGACAAAATCTATAAAAAATTAAAATAGTTACTATATGTAACTATTTTTTTTATAAAGTTTTTATTGTATTAATTAAATTAATTGTAGTTCTTCAATTTTTATTTTAATTCTTTTGTTCTCATAAACTCTTTAAATCAATGATATGATTTTTTTAAAAATCTATCACCTGTTCCATTATGATAGTCATCATAATCCACATAGACAATTCCATAACGCTTATCAAATTCACTTGTTGAGCCACTTACTAAATCAATTGAAGTTCACATTGTATAACCAAATACATTTACACCATCTTTAATAGCTTCGTTAATTTGAAGAAAATGTTCACGATAATATTCAATACGATAATCATCTTCAACTGTCATATTTTTATCCAATTTTTCAATAGCGCCAATCCCGTTTTCAGAAATAAATAACGGTAATTGATATCGATCTCATAGTTGATTTAACTCATAGCGTAAGCCTACTGGATCAATTTGTCATCCTCATTCAGTTTGTTTTAAATACGGATTTATTCCTCCATCAATTAAGTTCCCTTGGCTTTGACCAACATTTTCAGTAACTGAAGTAGTATGAGTTTGATAATAACTAAATGAAATAAAATCAATTGGGTTATTTTTCAACAGTTCCATATCACCTTCTGCAATAGTAAATTCAATGTTGTTTTCTTTAAAAAAGCGCTTAGAATATCGTGGATATTCACCTCTTACCATTACATCAAAGAAAAATCATTTACGAATTTGCTCTTGTTTTAAATTATTAAGAACATTGATTGGATTACAATCATAAGAATATGTTGTCATATCAGATACCATACACCCAACTTTAATATCAGGATATTTTTTTGCAAATTTAATTATTTCTGCTTGAACAATAAATAAGTGATGTAATCCTTGAAAGGACTTTCTTATAATATCCATATGATTATTGGTTTTTTCACTAAAAAAACCTAATCCTATATGTGTATGCATCAAACAAATATTTAATTCATTAAAAGGTAATCAATATTTGACATATTTCGAAAAACGCTCAATTAATGTTTTAGCATATTTAACAAACATTTCAATAACTTTGCGATTTAATAAACCATTGTACTTTTCAAGAATTGGATAAGGAAAATCAAAGTGACTTAAAGTTACCATAATTTCCATATTTTGTTTGCGACATTCTTTAAAGACACGTTCATAAAAAGCAAGTCCTGCTTCATTTGGAACTTCTTCATCACCATTTGGAAAAATTCTAGCTCATGAAACAGAAAGGCGATAAATATTCATACCAGCATCTTTCATTAATTTGATATCTTCTTTATAGCGATTATAAAAATCATTTCCTAAACGCTTTGGATAAGTTTTAGTGCTATTGGGATTAAGTCCATCCAAAAAATCTTCTTTGCCCAAAGAGCGAATTTCAGAAAGGTCTTTTTTATTTTTTAATTTAATATATGGAATTAAATCAGCTACAGTCAATGATTTACCATCAATGTCATATGCTCCTTCAATTTGAGCTGCTGAACTTGCAGCACCCCATAAAAAATCCTTATCTTCAAATTTCATTATATTTTTTCTCCATTTGTTGCAATTAAATCTTTATATCAATAAAAGCTATCCTTTTTATATCGTTTCATATCTTTTAAATCAAATTCGTTTCGATTTACATAAATAAAACCATAACGCTTTGAAATTCCCTCATGAGTAGAAACTAAGTCAATTGCACTTCAGGGCATGTAACCAATAATATCTACTCCTTCATTAATTGCTTCTAACATTTTTGAAATATGCTTTTGATAGTATTCAATTCGATATGTATCATGAATCTTGCCATCTTTAGTTAACACATCTCTTGCACCTATTCCATTTTCTGTAATCATTATTGGAAGATTATATCGCTCATAAACTTCACGTAAAGTATTCTTAAATCCTTGAGGATCTATTTCTCAACCAAATTGAGTTTTTTCTAAGTTTGTATTTTTTACAGCTGCAGCAAAATTTGGAATAGTATGTCCACTTTGTTGGTCCTGAGCTAATTTAATATTTGTCTCTTCATTGGTCATTTCAACGGTCATTGAAGAATAATAATTAAAGGCAATAAAGTCTGGTTTTGCTCTTTTAATATCTTCCATATCTTTTGGATCAATTAAAAAAACCTCATTATTTTTTTTAACAAATTCTAAAAAAGTTTTACTGTAGTGACCCTTACAAGCAATATCTAAATAGACTCAATTTCGCACAAGATCCATATTTAATTTAGCTGTATAATCAATTGGCTTTGAACTATTTGTATAGATACATCCTAAGTTTGGAGCTGGTCCTATTTTTGCATTTGGTAGCATTTCATGACATAAATTTATAGCACGTGCTTGAGCTACATTTAAGGCGTGTACTATTTGTCATCGATTAATTATTTGATTACTTTTTAATATACCAATTGCTGATGATGCCATTGCAAACATATTTAATTCATTAATTGTTAATCAATATTTAACTTTACTTCCATAAGCTTCAAATAAAACTTTACAGTAATTTTCAAATAACTGTATAAATCTTTTATCTGTAAACTTACCATCTTCAAAAATAAAATTGGGAGCATCAAAGTGATAAATTGTTACAACAGGCTCAATTTTATATTTTATTAATTCATCAATTAAATCACTATAAAATTTAATTCCTTGCTCATTGACATCACCTTTAAGATTTTTCATAATTCTTGGTCAAGAGATTGAAAAGCGATAAGATTTCATTCCCATTTCTGCAAATAATTTTACATCCTCTTTTCAATTCTTATAATGTCCAGAAGCATCACGAAAGTCAGTAATATCTTTTGAATAGTTGTCTCTATTAGCAACATCATCCATTATTGAACTAACTTTACCATCTTCAGATATTGAACCTTCAACTTGATATGCACTAGTCGAAGCTCCTCATAAAAAGTCATTTCTAATTTTACTCATAAATTTTATCTCCATTTTCTAAAATATACATTCCGCCATAACAAGCAGCTTCATTTTTTAATTTAGCAACTTCTACTTTATTTTTGGCATCTAAGTTTTGATAAAGAATACGTCCTTCATAATTAAAGTTTTCAAGTTCATTTAGTTTTGCCTTTATTAAATTAACAAATTTTTCATTATTGCTAATTCCCCCACCCAAAGTAAGTAAGTCATAATCAAGAATAAAATCCAAATTAATAATTAATTTAGTAAGACCAGTAACTAGTTCTTCAAATAACTTAAGCATGATCGGATCTTTTTGTTCATATAAGCTAAAAGCCTTTTTACCATCAATAAACTCTTCTGCTTTAGTTGCCATTTTATATTTAAATAATACTGCACCAACTCCACAGTAAGCTACAATTGGTAAATTTTCTTCAATACTTAAACTGAAAAACCCTTTGCCTATTTCTCCTGCTTTAAGCGTATTTCCTTTATAAATTTTATTATTAATAATCATAGCTACGCCTAATGCAGTTCCAATTGTTAAATGGATCTGCGTTTTAATTTTTGAATCATTGCGATAATAATATTCTCCAATTAAAGCTGCTCTTGCATCATTTTCAATTATAAATTTTTTACAATTTTTATACTGTGAAAAAATTTTTGGAAGATCTAAATTTACATTGCAAATTGCTGAATCGCTTAAAACCTGTTTGTTAACTGAATCTACAATTCCTGGTATTAAAATTGCTAATTCAAAATTATCTTTTTCTAAATTTAATATTTTCTTGATTTCTTCAATAACTGTAATTAATTCTATTTGAAAACTTATTGTATTTCTCATTCTTTCATTTTGCTCAAATTTTATTATCTGAGAATCAATCTTTTTTTGATTATCAAATAAGATAAATTTAATTCCCATACCACCAATATCAAATGTATATCTTCTCATTTTTATCCTCTCAGCATTTTAAATTCTTTTTCAAAGTTTAAAATATTATCATTTTGAACATCTAGTTCATAATTAATACGTAAAGCATTTAAGGCATTATTATAATTATTTTTTACTTGTTCTATCTTATTTTCTCCAATTTTTTGTTTATATTTATTTAGAACTTCTGATACTTCATTTAAATTATTTGATATTAATAAATCTAAAGTTTTAAAATCAATTTCCTTTTCAATTAAAAGCAATTTTTTTTCAAAATCTGAAACATCGTATTTTTCAATTAGTATTTTATATTTTGAAATAAGTTTATTTGCTTTTTCAATTTTATTTTCATTCATAAGTTTTTTACCTTTAAGTAAAATTCTTTCTTTTGCCTTTTCAAGTTTGCTATTTAACATTTGAATTTTGGTTCTAACTAGTACTAAGTTTTGAATTTTAATCTCATATTCCTTAATCATCTTTTCATTCATACTATTTAACATTTTATTTATTTTATAAACCTCTGTTTTAAATTCCAATGAACTTTGTCCGTCTTGTAATTTAACTAATTTCACTAAGTTATTTGTAACTTCTTTTACTAATTTTTTTTCTGATTTACGCTCTTTAAATCAGAAAACACAAATTACTCCTGATAATAAGAATGAACCAAGACAACAAAAAGTATACATTAAACCATTTGCTAAAGGTGAGATGTCGGATGTGCCCCCTAAGATTGGATCAGAATAATATCCAATTAGTTCCAGAAAGCCCCATCCCGTTTTAGCCCTTGTTGTTATACCTAATAGACCAGATAATGTACCAAATACAAAGGCTCCTATGATCCCAGAATATAATGGTCGACGTTTAGGTAAATTAACTTGATATAGAATTGGTTCTGTAACACCAATTACAGCAGCTGTTATAAGTCCTATACTCTGATTTCGCAGTTTAATATTTTTTGTAACAATTATGACAGCAACTAAAGCTCCAAACTGGGCAAATAATGAAATTCCTCCAGCTACACCAATTTCAGTTTGTCCTCCATTAATTATATGGTCAAGAAATTGAACCATTGCTAGAATACTGTGTATACCAAAGATAATAGCAATTTGTCAAAAAGCCACATAAAATCCAATTCCTAAACCGAATGGTATATTTTTAAAATAGAAAACAAAAATGGCCATTAGTGCTTCAATTACGTTCCAAATTGGGCTAAAAATTAAAAATGCAATTGGTAATGTTGTTATAAATATTAAAAAGGGTCTACCAATTAATTCCAATGAAGGAGGCATTCATTCTCCAATTTTATCATCCATTTTTTTAGCCAATAAAATTGTTGGTAAAATTACAAGTGGTTTAGTATTCATCCCATTTAAACGAACTTCGGAAAGTTGTTTTAAAAAAAGAGTTACTGGATTTTTTGGATCAAGTGGTTGATCTCATAATTCAAAAATAACAATATGTTCTCCCATTCCATTTGGTCCACCACTTACAAACAAATATGGTGAACATAGAATTGCACCAATTCCAATTCCTATTACTGGTCTTAGTTTAAAATAATCAGAAGTAGATCATGCAATCATTATTCCTAACATAACAATTGATGTTCTTGCCATTATAAATATCATTGCTCAAATTACAGGAGCATTTAATAAATAAATAGTATCTCCAGTCTCTTTTGTGGGGTCAGTTGTAATATCTGGCATTCAACCCAATTGTTGAAACATAGCTATTGCTGCTTGCAATAAACTTAATCCAACCAAAAATGGCAATATTCTAAGTATAATTGCCATTATTGTTCCAAAGAATAATGAAACTTTTGGTTTATTTGATTTTACTTTTTCTTTTAAAGCAAAACTAACATCACCTGAATCATTTATTTCTCCTATTGCATTTTTTAACTTATATACATCTGGACCAATAATTATTTGTAACTCGTCACTGCTTCATATAACACTTTTAACAATTTCTTGCTCTTTTATTTTTTTTAGATCAACTTTATCTTTATTTTTTATTTTGAATCGTAATCTTGTAGCACAATTATAAAAGTTTGTATAATTTTCTTTTCCTCCTATAAATTCATTAATTTTACGACCTACTGCTATATATTTACTATCTGTTTCAAAAAAAGTATAAGGATCTATACTTTCATTATCTAATTTTTTTTCATCCTCTAAATTAATTTCACAAATTAATTCTCCCTTTTTATAAATTCTTTCTTCAAAATATGGTATTTTTATTTTTGGATCTTCAAACACTATTGGTGTTTCTGTTAAAATATTTAACTTTTCTAATTCAATTATTTCAACAGAAAATAACTTTGTTTTTAAATCAACCTCCTGATTTATTTTTAAATCAGTTTCAAAATATTTACCATTTAAATTCACACTTTCCAGTCCACAATGAAGTAATACATTAAAGCCTTCAACTTCAAATTTATATGCATGCTTTGTATTAAATATCATTTTCACTTTTGCATTAAAAAAAGGTGAAAAAAATATGTTATTTTTAGGAATTATTAAAATTCCATCTCCTAACATTTTATTAGCAAAGGCTTCATCAGAACATTTTTCAACACGTTTAACTTCACAATCAACTGGAGCATAAAGTTTTATACTCATTTATTTACTTCCTCCTCAAATAGATAATAGTCCATTAATAAAAGTAAATAAAAAACTTTCCCTTTCGGAAAGTTTTACTTTGATTCAATCTCTTTTGCAAGTTCGGATATCAAAATATATAAAGCTAAATTTCTATAAATATTTGATTTATTATTACTAAAATAATCCAACTTTAAAGAATTATTGCAATTCAATATTTTTGTATCATAGTTTGTTTCTGAAGCAATTAAAAAATTTTTTGATGGATTTGTTTTATTATTAATTAATTTTAAATATGAATTAAGTGTAAAAATATCTCTACCGTATAAAAAAACAATATTTAAGTCCTCACTATCAATTTCTGGTTCATTAAAAATATTAAAATTTTTATAAATTACTAAGGGGCGCTTATTATAATTTACTAATATGTCTTTTAAGCCCTCTGCAATTCAAACTGTTTGTGCAGAAGCAAAAATATTAATATTTTTAGTTACTTTTATTTCCTCTGCTAAATTTTTAATAAACTCATAATTCACTCTACATCACATTTCAATTAAATGAATAATATTCATTTTTAAATTAGCTTTATTAATTGAATCATATAAAAAATGTTCACTTTTTAGTTTAGAAATAAAGAGCTTATAATTTGGTTCTCCAATATTTTGAATAAATTTTGTGATTTTTGATTCTGAAACAAAACAAATTTTAGCAAGTTGTTTTTGAGTCAATATTTGTTTTTTTCTCATTGCATTTATAACATTAATTGCAATTATTTTATCGCTTGTGTTTTTATATTCTCTTGTTAAATTTTCCAATTTTGAAAAAATTGATTTCATACATAATTGCTCCTTGTATTTTCTCTATAATTTTAAATTAAAAAAATAAAGTTTAACAAAATAACAAATTTATAATATTTCTTTAGTAATATTTAAAAAATAAAAACATAATCTTTAGATTATGTTTTTATTTTTGAAGATTTACTTTTATTTCTTTTCTTAATATGATTTAAATAGCTTCTACCATCTTCAGAAAGAATTCTTGAAGTTCAAGCTCCCTCTTCTACTTTGGATAGTTCATCATTAATTTTATAAATTCTTGCATCTAATGAATCTAAAGAAGAAATAATAACTGCTTCAATTAATAAAGGTTCTACAGGTGAACCATACTCATTTTTACCATGACTTGCTAATATTGCATGTTGTAGCTTTAATACATCTTCATTGTCTTGTAAACCCAGTTGTATTGCCTTGTTTGAGACAAATGTATTACCTATCGAGATATGACCTAATAGTTTACCTTGATCAGTATATTCTGAAGCATTCTTACCTGCCATTTCAAGTACTTTTCCTATATCATGAAGAATTGTGCCACAATATACTAATTCTCAGTCAATATCTGCATATTTATAAACCTCTCTTAGTGCTTTTGCACCCATTAATAAAGAAAAACTATGTCAGAATAAACCACCAACTACATTATGATGAATACTTACAGCAGCTGGAAATGTTTTAAATTCAACTTCGTATTGTTTTAAAATTTCCAAAGTTATTGTTTTATAAGTTTTATTTTCAAGACTGTTTATAAAGTCAACTAATTTAACATAATTAGTCTTAACATTAATTGGAGCACTAATACTAAACATTTCTTCATTTATACTATGCTTTTGATAATCACCTTCATTAATAATTTCATATGAATTAACTTTTAATTGTAATTGTTGTCTATAAACATTTGTAACAGCCTCTATTTTTACAATTAAGCCTGTTTTTAATTCATCTAGATCTTTTTCAGTAGAATTTCAAAGTCTTGCTTCGATTCTTCCAGTCATATCAACTAAATTTAAAATTAAGTAATTAGCTCCATTATTCCCTGTTGATAAAATTGCTTTTTCTATTCTAGCTATTAAAGTAACTATTTTACTATCTGCATTAATTTCATTAATCATTTTTATACTCCTCAAAGATATTCTAATTTTAACAAAAAAACACTATTGTTTAGTGCTTATTTTATTATTAAATTAAGAAACCCGGATTTTTTAAAATACTTATAAATTCTTTTCCAAACATTATTGCATCTTCAGGTTCCAAACTATTTTGATTAAATGCAAAATTTATTTTTACATAATTTGTTAAACTACCATCATCTTTAAACGAACTTGAGATTGATGAGATATAAATTGACAAGATTGAATTTTTATTTAGGCCAAAATTAGCATTATCCAATCCAAAGTTTGAAATATCATATATTGCAACTTTAACTTCTTTATCTTTAACTAGATTATTTTTATGTATTTCTTTTGAAATATCTAAAATGCTTAAATCATCGCTAACTTTAACAACAGTATCTTTTACTGAATAACCATCAGTTTTTACTAATCTTACAAGTGAGTGATTTGAATCTAATTCTTCAAATTTAGTTAAAGCTCTTTTTAATGCTTTAACATAAAAGGCATTAAGTTCTAAATCAATATTTTCTTCTTTTGAAGGTTCAATCATTAATGTTTGTAAACTTATTAAAGCAGTTATATCCAATTTAAATGAAAAGCTACCAATATCTGTTTTATCTACAATAACTTTTTTTTCTATTGTTTTTGATACAAGTTTACTATTTTCTGAAGACATTAATTCAACTTCTTTTAATTTAGATTCAATAGTTTTTGACTTTTCCTCTATTTTTTTTGTTAATGAATTAATTTTTTTATCATTGTTTTCTTTACTTTCTTCTATAAATGATGAAACTGTTTTTTCTAATTCTTTAACTTTATTAGATAATTTTTCATTATTTTTTAGAACCTTTTGGAATCTTTCGTAGTCTAATTCTTTTAATAAAACAGAGTTAGACTCTTCAACTTTATTTTCTTCTTTTATAATATTTTGTTTTTTTTCTTTTACTTCTTTCTCAACTTTAATAACATTTTTTTGTGAATTACTTCTTGAAATTTCTTCTAAAATTTCAGATTGAGAAACTGTTGAAATGTCATCTGAAAACATATCATCATCTTTAAAATTATCAGAATTTTCATAGATAACTTTTTTTGTTATTGTTTCAGAAACAATAACTGGACTTTCTCTTAAATCAAAAGTAGAAGTTTCTCTTGTTATTGTTTTAACAGGAGCAATATCTATTTTTGCATCTGCGATAGGATCTTCTGTAAATTCTTCTTCAATTTGATAGTCAGTATCTATAACTTCATCAATTAAGTACTTTTTATTTTCAAAATCATTAAGAATTTCTAATTCTTCTTCAGTTGCAGTTTTTGTCTTTTTGTCTTTTTTTGATTTTACTTCTTTAATTTCTTCTTCTGGTTCATCTGGCTCACTTATTAACTTTTCTAAGTACCCAAATTCGCTTAATCCATCTTTTAATGTTTCATTCATATTTGATGGTTTTTTCAATAAATTTTTCATTTCTTTATAAGAGAATATATCAAATAAAGTATCTCCATGCGAAACAATTAATGATTCAATTACATAAATGTTTCTAATTACTCCATCTGTTGTAGAACGTATATCAAATTTTTCAAGTTGTGTTGAAATTGTTGCTAATATTTCATTTTTTTTGACTGGTTGGCCTTCTTTAACTAATACTTGTTCTACAATACCCTTATATTTCTTGACATTCTTAAATTTTATTTTTTCCATAAAGAACCCCTTTAGTTAAAGTGCTAATAAAACACTATATTAATATTTTACACTACTTTAATCAACTATTGAAGTTTTTTATATTGACTCAAAGAATAACTTATTATTCTCAGATAAATCGATAATTCTTCTAAGACATACACTAAATAATGGGGTTGTAATATAACTTTTAATTGGTAAATTGCGACATTGAATTGTTAATCTTTTTACTAAATCTCAAATATTAGTTACTTCACCTCTATATGTTGCTAAAATTGGACCAAATTCCTTGTATAAAAGCATTGCATTTATTATTAGATACATAAAAATTGAAGTTATTATACCTAGTGAATTATGAATTGCTAAATAAATATATGAAATTAAAATATCTTCTAAAATTGACTCTAAACTAGATTCTTCAATTAAACAGTTTTCAAAAAATTTAGTCATTTCTTCACTTTTCTCATTGATAAATTTTTCATTTTCAAAAATATTGCCGTTTTCATTCTTTTCATCTAAAAGTAAGTAAATTTCTCTATAATCAGATCAATTAAATGCTCATTTATGATGTGCAGTTTTTATAAAATTATCCTTAGTTTCAATTATTTTAGTTCTAATAATTTCTCAAATTTTTAATAAATTGATTAGATTTTTTCCATAGATTTCTTCTGAATCATCTAAAAGATACTCACCATTTGCAATTAGTTCAAAAATTTCTTCTTCTGATATTTTAAAATCATTATAATACGAAAGACTCGATACTAATCTTGAACCAATTTCAGCTCATACTCGCTTATCTCTATACAAATAAAAAACCTCCATTTACATCATTTTATAATTTAAACTAAATAAAGTCTTTTATTTTATCTAAAGAATTTTTATATATATAAAAATATTTTTCTTCTTTTGAAGAAAAACTTAGAGTTGGGTCAACCTTAATTAAACCCATATTCGATTTCATTGGTTTTAATTTTTTGTGATTGGAATTTGTAATATAGTTTATTAAACTTCCCAAAACAGTATCTTCTGGAAAGGGTATAAATTTACTTTCATTAATAAAACTAATAATTCCTCTGCTTGCAACTAAACCCGAAGCAAAAGACTCAATATAACCTTCTACTCCTGTAATTTGGCCTGCAAAAAAAATATTCTTTTTTCTCATCATTTGTAATTTATTATTAAGTATTTTAGGTGAATTTATAAAGCTATTTTTATGCATAACTCCAAATCTTCTAAAAACAGCTTTTTCAAGTCCTGGAAGTGTTGAAAAAATCTCTTTTTGTTCCTTTCAAGCAATATTTGTTTGAAAACCTACCATATTATACAAATTATCCATTGCATCATCTCTTCTTAATTGAACAGCTGAATAAGGCTTAAAACCATGAATATCTTCCAATCCATTTGGTGACATTGCTGATTTTAATAATATTTTTTTTGAAGTTTTTGCCAATTGTTCTATTGGTTGGCAGCCCCTAAAGAAAATTTCTTGTTCAAAATCTTTAAGTTCCACTGTTTTTGCATTTATTAATTTATTATGAAAAATATCAAATTGTTGCTCATTTAGCGGAATGCAAATATAACTATTATCATTCTTATATCTTGACTTATAATAAACTTTTGAAAAGTCTATTGATTCTTTTTCAATTATAGGAGCAGATGCATCTAAATAAAATAATTTTTGTTTACCAAGTAATTTTTCCAACTCAATTTTAAATTCCTTTGAACATAAAGGACCACTGGCTATTAAAATTATTTCTTGTGTATTTAAGTTCAAAAACTCTTCTTCAAATACTTTGATATTTTTATGATTTCTAATTCTTTCATCAACTAAATTTGAAAAAGCAGTTCTATCAACTGCAAGTGCATCATCAGAAGGAATTTGAGTTTTAAAAGCACAATCTAAAATAAAAGAATTCAAAAGCTCTAATTCCTTTTTTAAAATTCCAACAGCATTTTGAGTTGAAAGACTTCTGAAAGTATTTGAACAAACTAACTCAGCAAAAGTTTCTAAAGTTTGAATTTCATTTTTTTGAATTTTTTTCTTTTCATATAAGTGAACATTAATTCCATTTTCTGCTAGTTGTCAAGCAGCTTCACAACCAGCTAAACCAGCTCCAATTATATTAACTTTCATTAATTTGTCTCCAATAACTCATTTATTCTTTTATCATTAACACTTTCATCTCAACTTTGATTATTTCTTACACATGATCCCACATGAATATTTTTTGATATTTTTTTTAGACTAGAAAAATTTTTTTGATTAACTCCTCCACCAATTAATATTTTAGTATTTAAGTTAAGAGTAGCAAGTTTTTTTATAACTTTTTTACCCTTTTTAATATCTTTTCCACCACTTGTTAAAACATTTGTTATACCTAATTTATCTAAAATTTTAAATGCTTCTATAAAGTCTTTTACTTCATCAAAAGCTTTATGAAAAGTTATTTCTAAGTTTCCTTTATGTTTAATAACTTCGTTTAAAAAATCAACATCAATTGTAAGGTCTTTATTTAAAGCACCTATAACTATTCCATTTGCTTTAGTTGTTTTAATAAATTTAATTTGTTCTATCATATCTTTTTTTTCTTTATCAGTATAAAAAAAATCTCTTGATGTATTTCTAACAATAATATTTATTGGTAACTTTGATAAATCACAAGCATATTTAATATCTTCTAAAGCTGGTGTTAATCCACCAACTTTTAGATCCTCACAAAATTCAATTCTATTAGCATTAGAATTGTTTATAATTCTTATATCTTTAAAATCCTTTGCAATTACTTCTAGTAACATCTTATAAATATTCCTCCAACACTCTTATTTTATCTAACTTTTCTCAACTAAATTCTTTTTTTCCAAAATGCCCATATTTACTTGTTCTGAAATATACTGGTGATTGTAAATTTAGGGTTTTTATAATTGAACTAACTTTAAAATCAAAATTTTCATTTAGAGCCTTATAAAGAATATCCATAGATACTTTATTTGTTCCAAAAGTTTCAATCAATATAGAAATTGGGTCAGGTTTTCCAATCGCATAACTTACTTGAATTTCAACTTTATCTGCCAATTTTGCAGCGACAATATTTTTAGCTGCATATCGGCACATATAAGCTGCACTTCTATCTACTTTACTTGGATCTTTTCCAGAAAAAGCTCCTCCACCATGGCGAGAATATCCTCCATAAGTATCAACAATTATCTTTCTTCCAGTAAGACCAGTATCACCTTTTGGTCCTCCAATAACAAATCTTCCTGTTGGATTAATTAAAACTTTAAAGTCTGTATTTAATCCATATCTTTTTGCAATTACATCCATAATATTACTTTTTATAAATTTTTCAAAAAGCTCTTGATTATAATTTTCATCATGCTGAATTGACATTAAAATTGTATCAATTCTTGGATTTTTTTCATTTGTATAATCTATAGTTACTTGTGATTTCATATCAGGTTGAGCTCATTTAAAAGCACCATTTTTACGCAATTTTGAAGCGATGTGAACTAAATCATGAGCTATTTGAATTGAATAAGGCATATATGTTTGAGTCTCACTATTTGCATAACCAAACATTATTCCTTGGTCTCCTGCACCCATTTCTTTTTTTTCAACACCCATTGCAATATCTGGAGATTGTGTGTTAATTTTAATTACAATCTCACATTTTTCTGGATCAATACCTGTTGCAGCATCTTTATAACCTACTCTTTTTAAAACTCATTTTGCAATGCCAGCATAATCAACAACTGCTTTTGTGGTTATTTCCCCACCTATTAATAAATAATTTTCTGTTACAAAAGTTTCACAAGCAACTTTTGAATTTGAATCTTGTTTTAAACATTCATCAAGTATTGCGTCACTTATTTGATCACAAATTTTATCTGGATGTCCCTCTGAAACAGATTCACTAGTAAATAATTTTTTCATATTTTATTTTCTCCTTTTAAAAAATGAAAACTTCTCCAACAAAAGAGAAGTCTAATAAATCTCATCGTTGGTTTCCCCTTAATTTCAGCACCTAATTTAATAGGTTGCTACTACCTCATTGAGTTGTTTTCTCTCAGTAGTTCTAAATAAGAATAATTTTAAGTTTTACAAAGTAATAATAACAAATTTTTATATATTTTTTACAATTAATTCAAATACTTCTTCTGATTTTTTAGTATTTAATAAGTAATGTTTTTTTTCTTTTATTTTCTCTAAAATATATTTATTTTTATCTAATCTTGATAAATATTTAGCAATTTTTTTTGGGTCACAATAAAAATCGTTGTTTGAAAGAAATAATACAATTTCTATTTCACTGTCATTAATATTTTTAATGGCTTTTCTATTAATTCTTTTTCATAAATAATACTCTCTAACACTCCATAAGTTTTTGGTTATATTTTCATCTTCTAATTTTTTGGCATACTCCTTTTCATCAGTAAAGTCTAACCCATTTATTGGAACAATCAATTTACTTTCTGCTTTAAAAAGTGTCCCCCATCAAAGTTTTATATAAAAACCAAAACTTTTTTTATAAGGATTATTTAATCTTAATGATGAAGAAATTATTTTATATACCTTTTTGTTTTTTGAAAAAAATGAACAAATAGTACCTCCAAAACCTTCTCCTAAAAGAACTATTTTAGAACTTGGATTTGCTTCACTAATGACATCGATAATTTCATTTAGATCAGCAATTGTTGCACCAAAACTAAAATGGCTATTTATTTCATTTTCTCCACAATTTCTTTGGTCAAAAGAAACCAGAGAATACTTATTTTTTTGGTTTTTTCTTAATCAATTCTCTAACTTATCAAAATCTTTTCTATTTCTATAGATATCATGAACTCCAATAATAATATACTCACTTTTAGGATCTATTTCTCCAAATCATCTTAGCTCATAGCCTGAACTAGTTTTAAACATTTTTTTCTTTATAAGTTCACTTTTAACAATTGGAGTAGATTTAAATTTAATTTTATTAAATTTAATTATTCTTGCGCTTAAAGCTAAAAGAAAAATAAAGAGAAAGGTTCCTAACATAATATAAATAATTATGCTAAGTAAGTTTCAAACTGCCACTCAAATTTCCATAAAATCACCTTTTTTAATTATAAATAAAAAGCACTTAAAATAAGTACTTTTTATAAATTCCTTTTTATAAATTTTTTAGTCTTGATGTGATAATTCTAGTGCATAAACATCAAATTGACCCATAAATCAAAAAGCATAAATAACATTTTGTTTTTTAATTAAAAAATCACTATTATCCATAATATTAATTGCTTCATATACGACATTACCTGCATCTTGCTCTAAATTAATTCTCATTGTTTCAAAATTATAAACTGTTGAACGACCATACATTTCATTTTTAAGTTCTACTTCAACTTCACTTAAAACTCTCTTATAAGTTTCATTATATTTTTGAAATGATTTTAGTCTAAATTGAATACTATCACAAACACTTTTTACTTCGTTATCTAAAGCAAATAGGCATTCACGTAAATTTCTAAGTCTGTCCTGTCTTTTCATAATTTTCTCCCTTAAGAATAAATATTTTATATTTTTATTATACACAATTTAAAATACAAAATATTTTCAAGCTCAATACCTTTCTTAAAAAAGAAAAAATTATTTCAATTGTATTCTTTTAATTGATTTTGCTTTATTTTTAGAGTTTAATTTTATTATTACTCCACAAAGAAGTCCAGGGTTTTCTGAGGGAGAAAACTTTGTTGGCAAACCTGTTTTTTCTTTAAAAATAACTTCTTCTGGATTTGCTCCAATTATAGAATCAATGGGCCCTGTCATTCCAACATCAGTTATAAACGCAGTTCCCTTAGGTAAAATCCTTTCATCTGCTGTTTGAACATGTGTGTGTGTGCCAAGTACTGCTGTTAAAATTCCATCATAATTTCAAGCAAATGCTAATTTTTCAGCACTTGCTTCAGCATGAAAATCTACAATATGTACATCAGCTGTATTTTCTTTAATTATTTTATCCATAACTTCATATGGATTATTTACATGTTCCATAAAACTTTTACCCATCATATTAGTGACTCTAATTTTAATTTTTCCAAAATTATATTGATTTGTTCCAATACCAAGATTAAAAGAATTCATATTTGCTGGTCTTAAAAGATCATCTACACTATCAATAAATTCAAAAGTCTCTTTTACTTTAAAAATGTGATTTCCACTAGTTATTACATTTACTCCTAATTTTTTAAGAAAATCATAATGATTTTTATTTATGCCTTTACCATGACTAATATTTTCACCATTAACAATAATAAAGTCAATTTGATTTTTTTCAACAATTGAACTAAGTTGTTTTTCTAAAACATCTCTTCCAGATTTTGAATATACATCTCCTATCATTAAAAAATTCATTATAAAGTTTTCTCCAATTCTATAATTAAATCTGCTTTTGAAATTTTATCAATTTTTGCTTTATCCAAAATTTCTTTAAGCTTATTATTTTTAGATTTTAAATTTAACTTTTTTTCTAAATCATTTAGTAGTAAAGAAGTTTTGTTAATACTATCATAAATTGCATTTCTTGAAACTCCAAATTCTTCAGCAATTTCTTGCAACGTTAAGTCTTCAAAAAAATATAGTTCAAAATAGTGTCCTTGCTTTTCAGTTAATAAATTTTTATAGTAATCATAAAGTTCAGCTAAATTAGCAGTTTTTTGTATATCTTGATTAATCATTTATATTTTCTTCCATAAAATCAGATGTCAACTCTCAAATATAATTATCTACATCAAATTCTTCTATATCATTGACAGTTTCACCTGTTCCAATTAATTTAACAGGAATATTTAAAATATCTTTGATAGCTAAAGCAATTCCACCCTTACTTGTTCCATCCATTTTTGTAAGAACTATCCCAGAAACATTTGTTGTTTCTGAGAATGCTTTTGCTTGACTAATACCATTTTGACCAGTTTGTGCATCAATAACTAATAATCTTTCATGTGGACCATCTGAAACACTTTTCTGAATAATTTTTGTCATTTTTTCTAACTCTTTCATTAAGTGTTCTTTATTTTGAAGTCTTCCAGCTGTATCAATTAATAATAAATCATATTTATCTTCCATTGCTTTTTTAATACCATCAAAAACAACACTTGCAGGGTCTTTAGAATTATTTACAGATTTTATTAAATCAACATTTTTAAGTCTTTTATCACATCACTCTTGAAGTTGTTCAACTGCTCCTGCTCTAAATGTATCTGCTGCTGCAATTAGAACTTTTTTATCCATGTTAGAATAATAGTTTGCAATTTTAGCAATACTTGTTGTTTTTCCAACACCATTAACCCCAACCATTATAAAGATATTTAATCTACCATCTTTATAGTTTAATTTATCATTATATTTACGACCACTATTATATGTTTCATAGATTTCTTCAACAAGGATTTCTTTTATTTGATCAAAAGAATGTTTTGCTTTTGCTTTTTTTCTAACTCTATTTGATATTTCTAAAACCATTTTCATTCCCATATCAGTTCTAATTAAAATATTTTCTAAGTCTTCAAAAAATTCGTTATTTGGTTCTTTATAACGTTTACTTAATTTTTTAATATCAGTTGAAAATGTTAAAGTCTTTTTGTGCTCTTTTTTATGTTTTTTTTGTTCTTTTTTGATTTCCTTTTGCTGTTTTTTAATTTCCCTACGCTCTTTTAAATTGCTCCAAAATCCCATAAAAATTCCTCATTTCTCAATATTAATTGTATAATAAATTTAATATATTATACATATATTAATGTGTGAGGGGATATTATGAAAAAGATGTTATCAGTTTGACTTTCATTAGGTTTGACTGTTTCTACTGGTGTTAGTGTTGTATTGAAAGATGAAAATAAGAATATTAATAAATATTCAAAGTTTTTAACTAGTTTAGATGATTTTCTTTATTTAAAAGTAGAAAAAGAAAAGAGCGTAGACAAATTATCAAATAAACAAATTGAAAAAATATTAAAGGAAGCATTTTCTATCAATGAATTTGGAATTAATTTATATAAAAAAATTGATTATGAAATTTTAAATCAAGAAGATGGAGAATTAAATATATTATTTAAAGATAAGCAAAATTCTAATATTTTAAATGAAAAGATTATTATAAAATTCAATCTTGTTTTGTTTAATTATGACAAAATTAATGATGCAGTCTATATTTTGAATAATTATTTATTTGCTAATCCTTTGATTATAAATAAAAGTAAGTATATTCAAATTGAATTGGAAGATCTTTTGAAAAATAAATTTAAAAGATTATTTGATAGATATATTTCTTCTAATATATTCTTAAAAAGTGTAAATGAATTTTGAGAGTTTCTAGATTTTGAAGAAGTGAAGAACCAAAAAAATGACATTATAAAAGCTAATTTTTTGAATAATACAAATTTAGATTTTAGAATAATGAGAGATGCTTCAAATATAGGAGTTAAAAAAAGTGATAAATATATTACCTATTATTCAGATAAAAAATTAATGAATAAAGAGATATTTAATTGAATTAAAAAATATTCATTTTTTAATGAAGAAATAACAGATTATAATAACATATTTAAAATTGAGTCAAAAGATGAAAAACAAATAACTTTTTCACTTTCAAAAAAGTATTTTAACTATGGCAAATTAATAACATTAGAAATAATAAAAGGAACTTTTTAAAAGTTCCTTTTATTATTTCTTAGTAGTTAAATTATTAATCATTGATTCTTGAAGTTCTTCAAATTTACCAGTTCTAATAAATTGCAATGTCTCTTCAATATTAATTAAGCACTCTCCAGCTCTTTCTAAGTTTTTCAACTGTCTCACAATTGTTATTATTTTTCTAGATTCAGTTGCATTTTTAGAATCTGATATTCTAGTCGCTAGAATATTTGAAAGATTAGAAAATTCAATGCTCAATTGTTCTTCAGCTTTTAAAACTTTTTGATGTTGATCATTGTCATAATTGTCAATTAAAACAGATATTATATTTAGCATTTTATTAACTAAATCAAACATTTTTGAAATATATTCGATTTCAATTGGTTGGGGATTATATTTAATAGTAAAGGCACAAATATGTTTAGCAACGTCAGCAATTCTTTCAATTTCACGACTAATTAAAACTCCTCCAACTGCTAATCTTAAATCACCAGCTACCATTTGTTGTTTTGCAATTTTTCATAAAGCCATTTTTGTGAAACTATTTTGTAAATCATTTATTTTAATATCACCATTAACTACCTCTTGTGCTAATTCAAGATTTTGTGATTTTAAAGATTCAAAAGTATTTGCATACTGAGATTTTGTAGCCTCTACTAATCTTATTAATTCACGTTTAATAGTTTTGATATCACTATCAAGTATTTTGTTATATGACATTTAAATTTCCCTCCCTATCCAAATCTTCCTGAAATATAATCTTCTGTTTTTTGATCTTTTGGATTTGTAAATATTTTTTTTGTTCTATCATATTCAATTAATTCACCATGTAAGAAGAACGCTGTATAATCGCTCACCCTTGTGGCTTGTGCCATTGAATGTGTTACTATTACTATTGTATATTCATTTTTCAATTTTAGTATAAGTTCTTCAACTTTTAGCGTTGCAATCGGATCTAATGCACTTGTTGGTTCATCCATTAATAAAATTTTTGGTCTCATTGCTATCGCTCTTGCAATACATAATCTTTGCTGTTGACCACCACTTAATCCCAGTGCTGAATCTTTTAAATAATCCTTTACATCATCTCATAAAGCTGCTTTTTTCAATGAGTCTTCAACAATTTGATTTAAAATATTTTTATCTGAAATTCCTTGATTTCTAGGACCAAATGCGACATTGTCATAAATTGACATAGGGAATGGATTTGCTTTTTGAAATACCATACCAACTTCAGTTCTTAACTTAACAACATCCATCCCTTTTTCATATATATCTTTAGAGTGAACTACAATTTTTCCATCTACTGCAATATTATCTACAAGGTCATTCATTCGATTGATTGATCTCAATAATGTAGATTTTCCACATCCAGAAGGTCCAATAAATGCAGTAACTGTATTTTCTTTAATTGCCATATTTATATCAAATAAAGCTTGCTTTGAACCAGAATTGTAATAGAAATTAAATCCTTCAATTTCTATTACATTTTGTCTTTGCTTTATTGGAACTTTTTTAGGTTTTTGAAATATTTTTTCCTCTGATAAGATTTCTAAATCTTCTTTTTCCAAATTTTCATTTTCTATGATTTTATCTGAAGCCATCTTTTTAATTCTCACTCTCTTTTATTTCTGTCTTATTTTTACTTTTGGATTTTAATTTGGACTCACTCTTAATTGTTTTTATAACTTTATTTCGAGTTTTAGCATTTTTAATATATATTTTCATCCTTTTAAAATTAAAGAAATTTATTCATTTCTTATACAAGGATATTGTATCTTTTTTTGTTTTTAAAGAAACCTTTTTAATGCTTGTTCAAGTAAACATTCCAATAAATAATTTGAATCGCATTTTTATTGAAATTTTTTTATTAATTGGATTTAACTTAAATCCAATATATTTACTTAAAAAATTCAATCCTAAAACTAAGAATATTGTTACTAGAGCTATTTGATAAGCTACTCCCAAAGTATGAGGATCATTTCCTTCAGATGCCATCATGTAAATTTGAGTTGTTAATGTTGCTCCTGATGAGAAGAATCCCTCTGAAGGCATTCTTACAGCAGTTCCTAATGTTAAATAAACAGGCGCTGATTCTCCAATAATTCTTGCTACAGCTAAAATAGTTGCTGTAACAAGTCCCTTTGTTGAATTGGGTATAATTACTTTTAAAAGAACTCCTGTCTTTGTCATTCCCATACCATAAGCAGCCTCTTTATAAAGTAATGGCACACCAGTAATTGAATCTTCAAAGTTTGTTATCATTGATGGCAAAATAACAATTGTCATAGTTAAACTTGCTGCAAATATTGACATTGGTATTCCCATACCAACAACAAATAAACTTAATCCAAATACCCCAAAAACAATACTTGGTGTAGAGGCAAGAACGTTTATTGAAAACCTTATTACTTTTGCAAACTTGCTATCTTTATGAGCATACTCAGCTAAATATATTGCCACTATTAGAGCTAATGGTATTGCAAATATTATTGTTGCTAAAACTAATAGTATAGTTGTAAATAATAAAGCAAAGATTCCACTTCTTTGTCCTTCAATTTCAACAAAAGCTGCTGAATCAAAACCACCAATTCCCTTAATCATAACTGTCAATAAAATTCAGCTGGTAAATCCAACAATTATTGCAGTTGAAGATATCATAAAGAAATTTAGAATAAAACTATTTACTTTTTTTGCAAATCTTTTTTCAGTGTAAGTATGCACAAGAATATTTAAATTATGATTATCATAACGATAGTTATTTTTAATTGATTTTGTCTTTTTATGTTTTAAATTTTTAATTGATTTTGTCTTTTTATTATTAATATTTCCTACAGCAATTATTAATAAATTTATAAAGATAACTATTACAAATAAAACCATACCAATTGCATAAAGTGCTGACTCATGAGTTGTTCCATGATTTTCTAACATTTCTAAACCAATTGTTCCTGCTAATGTTCTAATTGAAGAAAAAATAAATCCAAAGAAACCATCACCAGTGTTTAATCCTTTTGTTGAATTCCCAGCTATTAAAATAACAGCCATCGTTTCACCAATTATTCTAGCAACACCTGTAATAATTGCTGTAATAATTTTAGGCATTGCTGCAACTAAAACTACACCAAAAGTAGTTTTTTCTTTTGTCATTCCTAAACCTAATGAAGCAAATCTATGTCCCTCAGGCACTGATTCAATTGCATTAACAGATAAACTTATCATTGTTGGCAAAGCCATAAATGCTAATGTAAAACTTGCTGTCATCATATTCCCACTTGTAGGTGCACCCATTGCAACAAAAATTGGTCCAATTTGATCTAAAGCAAATAGTCCAAAAACAACCGATGGTATTCCAGCTAATAGTTGAATCATAGTTATTACAAACTTTTTAGTTCTATTTTTTAAATACTCAGTAATAAAGAGTGAACTAAAAATTGTTAATGGTATTGCAAAAAGTAACGTTAAAAATAACATCATTAACGTTGATAATATTATTTTACCTAATCCATACGACCCATCTTCACCATCTCTTGCTGGTGCTCACATCCCAGAAAATAAGAATTTAAAAAATGAAAATTCTTTAAATACAGGAACAGATTTATATAATATATATCCAACCAAGACTGCTAGTATAACTAAAACAATTGTAGTTATAAAAAAAACTGATATTTTTGTTGATAAATCCATTTTAGAGGTTTTTGCTTTTGGCAAACTCTTTACATTATTCTTAATCATTAGAAGTACCTCCTAAAGACTTATATTTCATGTTTTTCACAAGTCCTTCACTTTTAAATACTTCATTTGAATCATTACTATTCACGAAATTGAAAAGTTCGATTAATTGGTCTAACTTTTTATTGTATGAGTTAAATATTGCAATAAATGGTCTTTTAAAATCATAGACAGTTTTAATAAATTCATCTGTAATTAATCCATTAATAACAGATTCAGAAGATGATGATTCTCAGCTCTTTCATTCTTTATCTTGATCTGACCATTCTAAAGGATTATCATTGTCTATTCCTATTGGTAATTTATAACCATTAAATCCCGCTAATTTTACAATACCACTTTGAGATAATTGACCCAAGAATCCATTTGAAACATAACCTAGACTTGGACTTTTACTCATATTTTCAATCATTGAACCATTTGAGTTAACAACATTTGAAGAAGACATATCTTTTATTTTAGTTAAATCAGAAAATGCTGATCTTGTTCCAGAACCATCTTCTCTTGTAAAAGTTATTAACTTAGTTTTTGATTGACCATTTATTAAATTTATAATTTCATTATAAGCATCTTTATTATTTTCTCACTGGTGTGAATTTACTAACTCAGTTGCTAATTCTTCTCAACTATAATTTCCACTATAAGCTTTTTTCAATAATTCTTTGTCTGCTTCATCTTCTTTTTTAAAATCAAAATTCATAAGATCGTTTAAAGTAATTTCTTTATTTTCCTTTAATTCAATTTTTTGATTTCAATAAGTTGGAGGATTATAGATTACTCCAATTGCATCAATTGCAAACTCTAATGCTATATAAGAGTTATCTTTTTCACCTTTTTCAATTTCTTTTATAACTTCTGGATTAAAGTCACATTCATTCGAATTTTCACATATCTGTAAAAAATTATTTCCTTTAGTTAAAGTTTTATCATTTATATCCTTAGATATGAAACCTGCTGTATACATATCTTTTTCAACACCACCAACTCCAGCTTGACTACCTGTTGAATTATAAACAAAGTCTACCTTTTCTGATTTATTATAATATTCTTTTGTAAGTTTTTGCATAAACGGGTTAACACTAGTGCTTCCACCTAAAATAATTGCCTTTTTAGGAGCAGCTGCACTTCATATTCATAGACATAATATTACTGATAAAAAAGTCAGTAATATTATGCTTATTTTTCTTGTCATATTTCGTCTCCTAGCATTTCTATGCTAATTTGTATTTGATAATTTTTTTGCTTCAATTAACTTAATTTGAACAAGTTTTGTAATACCCTTTTGTTCCATTGTTGCTCCAAATAAAGTGTCACAGTTTTCCATTGTACCCATCCTATGAGTAACAATCATAAATTGTGTACTCTTAGTAAATGTTTTAATGTATTTTGCAAAACGTTCAACGTTTGCAATATCTAGAGGAGCTTCTACCTCATCTAGAATAACTAATGGAATTGGTTTCACTTTTAAGATTGAGAATAAAACAGATAATGCTACCATTGATTTTTCTCCACCACTTAATAAATTTAGATTTGCAATTTTTTTACCTGGTGGAGCAATTTTTAAATCAATACCTGTGTTTAAAATATCATCTGGATTTGTATAAATGATAGACGCAGTTCCCCCCCCAAATAATGTTGCAAATGTATCTGGTAATACTCCATTAACATCTTTGATTATTTTTTTGAATTGGATTATCATTTGTTGATCCATATCACCAATTGCGTCTTTTAAATTTTTTATAGATTCAATAACATCTTGAGTTTGATCAACATATGTTTGATATCTGTCATTTTCTTCTTGATATTCATCAATTGAATCTAAATTAACATTTCCTAATAAATTAATTTCTTTTCTTAAATAGTTAATTCTATCTCTAACTTCACTTTCTGTTTCAACAAGATTAGTATTTAACTCCAAAGCAGCTTCAAAAGTTAAATTATAGTTTTGTGCTAATCTTGCTGTTGCATTTCCTTGTTTTTCTTGCATCAAAGTTGCGTCAGAATTTAAATTTGAGTATTTATCTTTTAATGAAGATAATAAACCTCTATCCTCATTTATTATTGAATTCAAGTTATTTTGTCTTTCATTTGATTTATCTTTTAGAGATCTAATAACATTAATTTGCTGTTGAATTTCATCTTTTAAAGTTTCTTGTGCAGATATTTGAGAAATAATTTTAATTATTTGTTCATCTATTGATTGAAATTCCTGCTGACCACCATCAAGTTCTTTACCAGTGATAATTCTAAATTCATCTTTAACTTCTGTTGCTTCTTTTTCAATTAGTTGAGAAGAGTTTCTTGAAGCTCCAATTGAAGTTTGAATTTCTGCAATTTCTTCTCTAAGAACTTCAATTGTAGAACTTAAGACTTCTACCTCTTTTGAAGTTGCTAGTTCTTTTTCATCAAGTTCTATTTTTCTATTTTCATATTCTTGAATTTGAACTGAATCATTTAAAACTACATTTTTACTTTTTCTACTTCCTCCAATTATTGCACCATGTGGTAAAATTCTTTGACCATCTAAAGTAACAATATTAAATTTTTGATTTGTAATTTTTGAAAGCTCAATTGCATTTTCATACTCATCAACAACTAAATAATTTGATAAAAGATAATCTAGAACTACTTGATATTTTTTATCAATTTTTACAAGTTCATTTCCAAAACCAATAAACCCTTTTGATTTTTGAATAATAAATCTTGTTTCATTATTAATGAAACTTGGTTTTAAATTATCAAGTGGTAAAAATGTTGCATAACCTGCTTTATTATTTTTCAAGAAATCAATTGATAATTTTACATCTGTTGTGGATTTAACAACAATATTTTGTAAACCATTTTGAATTGCAGTTAAAAGTGCAACTTCATAATTTTTATTTACAGTAATTAACTCTTGAACAGTTCCCATAATTCCTGATAGAGTTGATCTATTTTCAAGAATATTTTTAACTCCCTCAAATAAATTATCAAAAGAATTTTTTCTTGCTAATAAAGTTTCTAAACTAGATTCAGTTTTTGCAAGTTGTTTTCTAATTGAGTCTAAGTCTTGATTTAATTTAAAACGTTTTTCACTTGCTTCATCAAGTTTTTCTCTTTTTTCAACTTTGTCTTTTAATAATTTTGAAAGTTTTTGCTCTTCAGCTTCTAATCTAATTTCCAATTCCTTTGATTTATTTTTTAAATCAGAGATTTTAAATTCTTTATCATCAATATCAACTTTATTTTTTTTAGATTCCAAAGTAATTCTTGAAACTTTTAACTCACCGATTTTTTCAACAATTTTAGTAAATCCCTTATTAAGACTTGATAATTCCTTTTCCTTCTCATAATTTGAATTAGCAATAGTATTAAATTCTTCACTTCTTTTACTTATTTGCTTTTCTAAAGAACTAATTTGTAATTTTAATTCAGTTTTTTGTTCATTGATTTCAAGAATTTTTTGTTTGTAAAGTTTTATATCATTTACAAGAACAGAAACCTCAATGTTTTTAAGTTCATCAAAAAACTCTTTATAAGACTCTGCTTTTTTTGATTGTTTTTTTAAAGTTGGTAATTTTCTTTCAATTTCATTTATTATGTCATTTAATCTATCTAAGTTTTCTTGTGACCTTATTAGTTTTCTAATAGCCTCTTCTTTTCTTTTTTTATAACGAGCAACTCCTGCTGCTTCATCAAAAAGTCTTCTTCTATCTTCAGGTTTTGATTCAACAAAGTTACTAATTGAACCTTGAGAAATAATTGCCAAACTTGATTTAGTTAATCCAGTTTCTAAAGCAACATCTTGAATATCTTTCAATCTAACTCTGCTACCATTTATATAATATTCAGATTCTTTTGTTAATTTGAAAAATTTTCTTGTAATTGACACTTCATTATATTCTAATGAACTGAACGCTTTATTACTATTGTCGAATACAAGGGTAATTTCTGCCATGTTTAATGGTTTCTTTTCACTACTTCCTGAAAATACAATATCATCAATTGAATCTCCACGAAGTGATTTATATGACTGTTCTCCAAGAGCTCACATAATAGCATCATTTATATTAGACTTACCGCTACCATTAGGACCTACAATCCCTGTCATTGAAAAATCAAAATTTAAAGTAGTAGGCTCAGCAAAAGACTTGAACCCAAACGCTTCAATTTTTTTTAAGAATATCATTTTTTTTACCTCTTGTAATCGTATATAGCCGTCCTATATAACAAACTCATTATATATATTTTAATGCATTTGTACAATTTTTTTTAAAATTTAACAATTAAAAAAACCCTTTGTTTAAGGGCTTTTTCAGCCTTTATTTAGTTTTTTTAATTTTTGATAAAGCATTTTTTGCAGCTTCTTGTTCTGCTTGCTTTTTATTGCTTCCTTTTCCAGTTCCAAATACCATTCCCTCAAGAACAGCATTAACTATAAATAAAGTTGTATTATTTTCAAGTTTTTCTTGACTAACAACAACATATGATAATTCACTTCTTATCTCCAATTGAATAAGTTCTTGCAATTCAGATTTAAAATCATGAGATTTATCTAGAAATTGATTAATTACATAATCACTAAAAATAGTTTTTTTTAATCATTTATCAAGAATTTTTTCACCTTGATCCAAATATATGGCTGCTGTCATTGATTCATATACATCAGAAAGAATTGAATCTTTTTCATATCCTTTAGAATCTAATTCTCCAATTCCTAATCTAATTAATTTACCAAGATTTATTTTTCTTGATATTTCAGCTAGTGTATCTTTTTTAACAATTGAGCTTCGATATTTTGTTAATAAACCTTCGTTTGATTTTGGGAAAAGCTTATAAATATATTCACTTACCTTCATTTGCAAAATTGCATCTCCAAGAAATTCGAGTCTTTGATAGTTTTTAGCAAGTCTATTTTCATTTGAAAAAGAATTGTGAGTTAATGCTTCATTATAATAAGCTTCATCTTTAATTTCAATTCCAAATTCGCTTAAAAGAAATTTTCTAATTGTCATTATTTCTCTAAAGCCTTTTTAACTTTATTAACAACATCATTTTTGATTGCATTGTAAGTCATTTTTAAAGTAGCATAAAAAGCAATTTTATCACTTGATCCATGAGATTTAAATGCAATACTTTTTGCTCCTAAGATAATTGCTCCAGCATGATTTTTATAATCAAATTTTGCTGAAACTTCTTTAAATGCTTTACGTAATCTTAATGCTGCCAATTTTCTAAATAGATTTTTTGTAAGAGCAAATTTTATTTCTGTTAAAAGTGATTTACCCATTCCCTCTGCTGCTTTTAAAGCAATATTTCCTGTGTATCCATCAGTAACAATAATATCTACTTTACCATTTGCTAAATATCTTGACTCAATATTTCCAACAAAGTTTAATGATTTATTTTCTTCTAATAATTTATAAGCTTTTTGATGTAATTCCAATCCTTTTGATTTTTCTTCCCCAATATTTAATAAAGCAACTTCAGGATTTTCTATACCATTAACAGCTTTAGAATAAGCTGTTGCCATAATAGCAAAATTTACTAAATCCTCAGGATCACATTCTAAATTTGCTCCAACATCTAATAATAGAGTTATTTTTCCTTTAACCAAAGTTGGTATAACTGGCATAAAACCTGGTCTCTCAATACCATCAATTTTTTTTAAAATAAAATGACAACCAGCAACAAATGGAGCTGTTGCACCACCGGTTGTAATGGCATCTGCCTTTCCATCTTTTACTAATTCAAGTGCCTTTACCATACTTGAATCTTTTTTTCTTCTAATATCCATGATTCCATCTGTCATTTCAATTACTTCTGTAGTATTTAATATTTCAACTTGATTTTGGTTATATTTTCTTGATGATAGCTCTTTTTTTAAACTAACTTCATCACCTACAAAAATGATTTTTAAATCTTTTTGCTCACCTAAAAGTTTAATAGCAGCATCAACTGCTGGAATTAAACCATTATCCGAACCCATAACGTCAAAAGCTATTACTTTATAATCCATATTTTAACTCCTGTACAATAGTGATTATATATATAATTAGTATTTAAAGCAAAAAAAAATAAAACATTTTAATGTTTTATTTATTATATTTAACTTTATTTTCTTGTTGTTTTTTAGTACCTTGCAAACAACAAGGGCATTCTTTTGATAAACAAACTTGACAGCCTATACATTTTAAACAACTTTGGCAACCATGAAATGAACCACTACAAACTCTACAAGTATAACAATTGTGAGCTCCTCCAGGACAGCATACGTCACTTGATGATTCACTTTTTTGTCTTGGTAATGGCATTTGTTTGACCCCCTTATTGTTGATATTAAAATTATACCTAATTATTAGCTTACAAGCAATGTAAGCGGACGTTTTTTGATTTGTAGCATAGCTGCTGTTCAACCAATATATAGAATAGCTCCTAGAATAATTGCAGAAACAAATGGTATTCAAGGCAATGATGGTAAAGCAATTAATACTTTAAATTCTTGTCAAACAAAACCTTGAATTATACTTCATACAGCAAGTGAAGCTAAGAATGCAAATATATAACTGACTATTGAACCTGAAACATATTTACCCATAACCATTCAATTAATTTGAGCATTTTTATACCCAAGTGATCTCATTATTGTAATAACATTGATAGAATCTGTAATAATAATATTCATAATTACTATTAATAAAATAATTAATAAGACAACATCAATTAATATATACATTAACATTGCTTTTGTCATTTTACCTAGTACTTGATTTATTACTGATTTTAAAATTGGTAATGTAATAACAGATGAATCCATAAAGAAATTCACAGCTGTTGGTTTCTCTAATGAATTACCATTTATTGACGGTGCTAAAATACTTCCCAGTCAAGGTTTATTTTGTGAAGATGCAATTGTATAAGTATCACGTGAATATCTAAAACTCCTTTGAGATCCAGCAATATCTTTTAAATCAATTGTTCCCTCACTTGCTATTTTTGTACTAATTATTGAATTGAATAATAATTGATCTTTATCAATTGATTGTACTTGATTAATATTTTTAATAAATGTTGAGTAGTCAACATAGATATCTTGAAGTAAAGTATCATTTCCATTTATAGCAGCAATTCTTATATCTACTTTCTTATCTTTGCCTAAAGTAATTTGAAAAATATCACCAACATTTTTATTTAAAATTTTTGATAATCTAAATGATACTACAGCATTAATATAGTTTCCGTTATTTTCTTGTAATTCTTTCATAGCTTTTTCACTTACTGATTCAAGATTAACAACAGCTCTGGTATTTCCCCCAATTATATTTGTTGTATCAATTAATCTTAAAATTGATTTTTCAATATCAACTTCAGTATTATTTTTAATATGGTATGGCAAAATTGTTTGAAGAGCTTCACTATCACCATTAAAAATTACATTGTTAACACTTAATAAAGAATTAACTCCTTCTCGCATTTTTGAAAAGGTTGTTAACAAATTAACTAAAATATTACTCAATTTTATATCAGTTTTTGTTTGACTTCTTGGGATGATGTTATTCATATTATCTATAAAATATTTTTTAACTGATTCAACATCATCGCAACTTCCCTTGTAATTCATCCCTAAAGGAGAAAGACAAGCAAGCTTTCCAATATCATCTAAAAAGATACCCCCCATTTGTTCAGGAGTGACTTTCAATATTGAATACTCTGGAATTTCTTTGGGAATGCTAATTCTATTTGAAAGACCTTGATTTTTAGGAATGTTGATATTTAGTGGTGTTACAAGAGCAGTTATTGTAGCAGCACTAGAAATAATTTCTTTATTTTCTTCTCAATAAGGTGTATTTATAATTTGATCTCTTGCTTTTGAAAGACCAGATATTAATAATGAAAAATTATTAGTAGTTCTATATTTGTCTTCTGCTGAATTTCTAATATAATTTTCAACAGTTTCTTTTTCTATATTTTTATATTTAATACCAAAGTTTTCTTTTGTAACATCTTGAGATATTCCATTTGATTTTACTTTAATAGGAACAACATTTTTGAATGAATAATAATGGTTAACATCTTTAGTATAGATATTGTATGCCCCTTCAATCATATTTTTAATTACAGGCATAGCTCTTAACTGTAATGTAAATAGAAATGAGCTAAATAAGAATAATCCCATAATAAGTGCAAACTTACCTTTTCCTGCAGATACAAAGGCATGCTGCATTCTAAATGTAAATCCTCTATTAGTTTTTCTCAATATTTTTAAAGTAATTCAATTAAATAGAGAATAAATTAGTGCTGGAAAGAATATAATTTTTAATACTAAAACAATTATATCTGCTTTGCTTTTTTTAGGTCCACTAGTCAATAAAGCTAACGCACCTTCATTTAAAAATTTAAATATAATTAAATAACTTAATCCAGCAAATAAGATTGGAACTATTAACATTAAGAAAATTAAAAATATTGGTGAAGCATATATTGTTTGATAGTCAAAAATAACAAACGTGCTAAATTGTTTTGTTGCACTATCTATTTGAAATGGAAATGATAGTAAATATCCTATTCCTATTCCTATAATCATAGTTATAAATGTTTTTAATGAAAATACTCATGTAAGCTCACTTGTTTTATAACCAAGAGATTTAAATACTCCAAGTTGTTTTCTAGTATTGTTAATTTCTTTTTTAAGAACAAAAACTATAAACATAAATCCTAATAAGAATAAAATTGCACCAATCATTACATAAATTCAAGTAATAATATATAAATTAGTTAAAGTTGCAATAACACTATGCTCACTTGGTACTTTAAATATTGTAGTACCAGGAGCTAAAATAGATATATTACTTTCTCTTTTATTACTACTTAATATGTTGCTAGTAAAAATTTCATTCAAATTAAAACTTTTACTATTTTTAGTTACAAAAGTTTCTTCACGATAAGAAAATTGAAATCCAAGATCTGCATTTGCTGTCATATTGTCTGTTGTAAATAACTGGCTAAATGTATAACCTTCTGCATTTTCAATTTCTGTAAAAAAACTATTTTTTAAAAAAACTTGTCCATAATTTTTAATTGAATCTGAAAATGATGAAAAATTAATTGGTGTCAGTGCACTATATTTTAAACCAATTCCTACAATTTTGAATGGTAAAGGTTTTGGAGTAGGAGCTGGATTTTGAAAAGGTATATCAACACCTAATATTATTTCATCCCCGATTTTTTTGTTTTGATTTTTGGCATAGGCATCACTAATAATAATTTCATTATTTTTTTCTGGTAATCTTCCACTTTGTAAAACTACATTATTTACATTGTATTGATCATTGCCACTTAGTGCTTCAACATTTGACATGTTATATATAAAATGTTCTTCAGTTCCCTTTTCCATTCTGATACTTGAATTAATAAAATTCTCATATAAAAATGAATCATTCGATTGATTTTTTAATTGCTCTAAAACAGAGAGAATAACATAATTATTAAAATTTCTATTTTGAAAATCACCATAATTGGCAATTTCTTTTTGACCATCTTCAGTAAAAATCTTACCTACTTCTAATGGTCTTGGACTTTGTTTTGTATTAAATATGTTAATTACATTTTTATTTCCATAGTATGTATAATATCAAATAATTGATTTTAAAGCTGATATTGTTTCTTGTTTTTTTAACTCTTCTTTTTCTTCTTCTAGTGTATATTTAGAACCACTAACTTCATTTACAACATCTTCTACATACTCAACTATTAAATCATAAGTTTCTTTTTGTAATCAACCTTGTTCTGTAGGTTGATTTAATTCAAAATTCATATCATTATACTCAAATATTAAAGTTTCCTCTTCTCAAATATATGAGTAAATAAAATCATCATCTAGTTTTGTGATACCTTGAAATTGTTCTTGTCAAAGATTAGTATTTTTTTTAACAGATGATGCTTTTAATGATAACTGTAAGGGTGTTGCAAGCATCCCGAAGATAAGCATTGTAAAAATCATTAGAAACATAATTGTTCCTAGTGTTTCAACTCAAGCCTTTAAAAAGGCTTTCATATAAGATTTAAATATATTTTTCATTTTTTTCTCCTAACTAATTAAAATAATTTAAATTATAAAATTAGGTGGGCAATCTCCTTTTAACTTTTCTGTTAAAAAACTTCTTTTTTTTACAGAAATTATATTCTTTTGATCAGTATCATAAATATTTAATTTTTTTGTTATATTGACATAAAAAATTAATAAGCCATTTTTTAATTGATGGAATTTAATTGAAATAAAGCTTATTAAGTTTAAAAATGTTAAATATAAATTATGACTAATTTTTTTTATATATGACCATTTAAACTTTGTACATCTAATATATTTTAATATAATAAATATAAATATAACACTTATAAATTCAAAAGTTGAAAAACTTATTATTAATAAAACCATTCTATTTATATAAATAAATTTACTAATTTCTAAATTTCTTGTTATATTATCTTGTGAAAAAATATAAACAAATATCATTGATATTGAAATTGCAATTACTAAATAAGTTTTTGGATTTAATTCTAATTTCATTTTCTTAATTAAATTATTAAAAAGTTCTTTATTTATTTGATCTAATTTAATTTTTTTTAAGTAATTAATCGTATCAATATAATTAACTAATTTTCAAAGATATATAATTGATAAAAGAAAACCAATTATAAAAAGTCCAAATTGTAAAAGTAAATTTGAAATATTTAAATTATTTGTTACAAGGAATTTTACTGAAATTATTAAACAAAATAAAGAAAGTAAAGTAATTATTAAACTAATTATTAAATAAAAAATACTTTTTTTCGGTTTCTGTTTAATACAAAGCATAATAATTTCTCCTTTTATAAAGCATACTTATTATATCTTATTAAATAAAAAAAATGATTCATAAGAACCACTTTTATTCTATACCAATAATAAATGAATAAACTTCTTGTTTACCATCAACAACTTCATATTCAACATCATAATTTTCATCAAGATATTTACGTAAGTCATTAATATCTTTAAAGGAAGCATCTTGACCTGTAAATATTGTTAAAATTTCAGTTTTTGCTGTGATAAATTTTGACAATGATTTATGGAAAACATCCTTCAAAGTTTTTGCAGATATTGTAATTTTTTTATCTGCAATCATCATATATTCTCCTGCTTTGATATTAACACCATCAATCTCCGCATCTCTTGCTGCTTTATTGATTGAAACTGAAACAATATTTTTAAGTGCTTTATTAATATTTGATTCATTTTTTTTAGCAGTGTCTTCGATATCAAGATTTAGATAAGCAGTAATACCTTGTGGAATTGTTTTAGTTTCAATTACTACTACTTTTGACATTTTTTCTAATTCTTTTGCTTGTTTTGCAGCCAATAAGACATTTGAGTCATTAGGGAATATATATACAGTTTTTGCATCAACTGCTTCTATTGCCTTCATAAAATCATTTGTCGAAGGATTCATTTTTGGCCCACCATCAATAACATAATCTACACTTAACTCATTTTTAAAATAATCTTGAATTCCTTTTGACCTTACAACAGCTATTGTAGCAACAGCATTTTTTAATTTACGTTGTTGTTGAGCAGTTATTTTTGCGGCACTTTCTTTTTTATTTGCAACATGTTTATCTGCTTGTAAAGTCATATTTTCAACTTTAATAGTTTTAAATTCTCCAAATTGTTGTAAATAGGATAATATTTGACCTGGCATAAGTGCATGTGTATGAACCTTTAAAATATCACCATCCATAACTGCAACAATAGATGTATTTCCGTATTGCTCAAAAGTATCTCTTACTGTATCAATTTTTAATTTATCAATGAATTCTTCATTTAACATTACAATTGCTTCAGTACAATAACCAAATTCATCTTCAATTGACATTTCAATATTAGAACCTGTATTCTCTTCTAGTTTTTTTAATTTTGATATTGGCTTTAATTTTTTAACAAAATATTGCATTCCTTCAAAAAATTTAACTAAACCATACCCACCACTATCTACAACTCCAACTTCTTTTAAAGCAGGCAATAATTCTGGAGTATTATCTAATGATTTATTTGCAGCTTTAACAAGTCCATCTCAAAAATCATTTGGAGATTGCTCTTTAGTAAGAGCATTTACATAGTCACTAGTTTCACGAATTACAGTTAAAATAGTTCCTTCAACTGGTTTCATAACTGCTGCATATGCAACCTCTTTTGCTTTTGCAAAAGATTCTTTTCAAGTATCTAAATCAAGTTTTTCCTTATCTTTCATCCCATTTGAAAAACCTTTAATGATTTGAGAGAAAATAACACCTGAATTACCTCTTGCGCCCATTATTAGCCCTCTAGAAAATTTGCTCATCAATGAGCCAACATTAGAAAACTCTTCTTTTTCAATTTCAACAAATCCATTGGTACAAGTTAAATTCATATTTGTTCCTGTATCACCATCTGGTACAGGAAAAACATTTAGTTTATCTATATGGGGATAATTATTATATAAATTATTAACCCCACTAGTAATCATACCCTTTAAAATTTGTGTATCTTTCATAGTATTGTCACCCTCTAAACTATATTGTTTTTTTATTATTTAAAATTAAAAAATATTAAAAAATTGCAAATTTTATTTGCCAGCTTATATATTAATATTTGCTTTTAATATAGTAAATAAAATATTGTCTAAACGACAATAAGATCATCTACTGCAATATCAACTATATAATTTCGCACGAACTGAGAAAGCTTTTCTAATTCATACTTTACACGTATTTGAACTTCACTAACAACGTCTCGTATGTTAACTCCATTGATTAAAATAATATGTACTTTTACTCTGTCCATTGTATCAGTTGAAACCATCTCAACTGCTTTTGCAATATCTTCAGTTTTTAACTCAGATTCTGATTTTGCTGCATAATTTGCAAATGAAGCTACACCAGGAACTGTAACAACAGCATTTGATATAGAATCTAAAATGGCTTTATTTATCATTTTGGCCTCCGTAAAAAGATGTACAAGTTTATTATCTAATTCAGGGTAACACTAAAATCATGATGTTACGTTTCAAATTAGTACAAAATTATTTTACACTATTAAAGCAAAATAATAAAATAATAAACTCTAAAAGTAAAAATTTAGTTTAGAATAATTTAAAGATTTTCTTGTATTTTCAATGTAATTATTATATTATTTATAAGTCCGAGGTGAAAATATGGCAAGAAAAGACGGTTTAACAGGTAAAGGTCCTTTGTCAGGTAATTCAAGATCACATGCTATGAATGCCAGCAAAAGAAAATGAAACCTTAATTTACAGAAAGTTCAAGTAATGGATGATAACGGAAAAGTTATGACTTTGAAAGTTTCAGCAAGAACACTTAGAACTTTAAAAAGAAATAATCAATTAGCAAAATAAAAATACAATAAATTGAGAAACTCATCGAAGTTTCTTTTTTTTCATTATATAATAATTATTGGTATTGCCCTCTTGGCGGAATTGGTAGACGCAGCAGACTCAAAATCTGCCGAGAAATCGTATCGGTTCGACTCCGATAGAGGGCACCAGCTAAAAAAATAAAAGCAGATTATTAAAAAATCTGCTTTTTTTTATTTTGTCATAATTACCATAACTTCTTCTTCTAAAACTATTTTAGGGTTAACATATGGTAAAAATTGGTTAGAATATGCAAAAGAGTTAAAAGCTTTTAATTCAACATTTGCTACTTCATATTTCATTCCAATAATAGTAATTTTGTTATCTTTTAGACTAAATAATGAAACATATGTAAAATCTTGATATTTATTAAAATCTATAGTATTTTCACCAGCATTTAATCTAAAAATAATTGATTGCTCGTTAAATATTTTCAAATTATGTTTAAACACATATTCAATAATAGTTAAATTCATATCATATCTTTTTGATGGATTTACTATCATTGTGATATCTTTTATTCCTTTTTCTTTTAAATAAAGAATTGAAGCAATACCATCTAAATAATCCTTTTCCTGATTAAAAGAAATGGTTTTTTTAGCCTTTGACTTAATAATTTGAAATTCTTCTTGTGTAACTTGATCAAAATCAGACATTGCAATATCAATACTAATATCTTTTTTTATTAGATCTAAGCATCCTCTTTCAATACCAACAATTAAGTGAGTTTTTTGAAAATGTTTTAAGTTAATATTAGTTTCTGATATTACAATTAATGCCTTATCCTTCAAGTTTAGTAACCCTTTCCATTAAATTTTCAACATTCGGACCCACAAGGTAACTACCCGCAACAATCATATCAACTCCAGCATTTTGTACAAGTTTATAAGTATCGTCATTTATCCCACCATCAACTTGTATTGAATAAATGTACTTATGCTTATTTTTTAATTCTCTTAATTTTTTTATTTTTTCTAATGAACTGGCAATAAAAGACTGTCCCCCAAAACCTGGATATACACTCATTATTAAAACATTTCCAATTTTAGATAAATACTTTTCAATGCTTTTAACATCAGTATCAGGATTAATTGAAATTGATGGAATTATATTGTTATTGGCACAAAATTTTAAAAAATCTTCAATTTGTTTTTCTGTTAAAGCTTCAAAATGTATCGTAATTTGTTTTACATTTTTTACAAGGAAAGGTTTTAAATATTGCTCTACACTAATATTTTCAATTTTAACCATTAAATGTAAGTCCATTTTAAAATTATAACTAGCAACTATATCTGTTAATATTTTTGGTCCAAAAGATAAATTAGGAACAAAATTATAATCCATCACATCATAATGAATTCACTTAATTTTTACCTTTTCTAACTTATCTAAATCAGATTTTAAATCTAAAAAATTAGCAGTTAAAATACTTGGAGCTACAATAAATTTTGCCATTAATATCTTCTCCTTTGATTTTCTATTTCCAATTGAATTTTTACATAGTCATCATATATAAATTGTGGAAAACTATTATTTTTTACAGCCTCAATTACTTTGCAACCAGGGGTGTTGTTAATATGTAAACAATTGTTAAATTTACATTTGATATCTTTAAAGAAATTAATACTCAAGGCAATTTCTTCCTTAGTAATTTCTTTATATTCAAATGATGAAAAGCCTGGTGTATCACCAATTAATGAATTTTTATAGATAAATAATTCATTTTTTGTAGTTGTATGCTTACCTCTATTCAAGGCCTTTGAAATTTCTTGGGTCTTTTCAGAAACATTTGGAATAATATGATTTAAAGTTGTTGATTTTCCTGCACCCGTTTGTCCAGTAAAAACTGATGTTTTATTTTCTAAACTTTTTAAAAACTCATTTCAATTTTTATCAGTATCAATCATGTTATTTATTAAATATACTTCATAGCCAATAGTTTTATATAATTTAGCTTTTAAAATTTCTTCATCATCTTGATTTGTTAAATCTGCTTTTGTAAAAGCTAAAATTGGTTTTAAATGAAGAGTTTCAAGAAAAAATAAATACTTATTAAGTGTGTAAGTATTCAAAATCGGTTCTCTCAAAGAAGTTATAATAACTACTTGATCTATATTTGCTATTCTTGGTCTATATAATTCATTTTTTCTTTTCAAAATTTCTGTTAAAGAACCCTTAAAGTTTTGTTTATCAGTAATTTCAAAATTAACATAATCCCCTGTTGTTGGTTTTTGATTGCTATGTCTTACTTTACCTGTTGCCTTACATTCGTATAAATTCTTTTCAAACAATACATAAGCATACTCACTTAATATTTTTAAAATAATTCCTTGATTCATTTTATAATACCATTAACAGAACAATAAGGACGATAAGTGAAATAATAACTATTAAAAAACTTGCTACAAATCTAGTCTTGGCAATTGCTGGTAATTTATCCAAAGTATTTCCTACTTGAAGTTTCCTTTTACCATCATTCATAATTAAAGTTACTTTTTTATGATAGATATAGGGCTTTGGATTATCTGATCTTTTAATTCTTAAAAGATCACTTTTAACTTCATCAATATTATTAAACCTATTATCAGGTTCCTTTTCTATCATTTTTAAAATTAAATTTTCAAGACTTTGTGGTATTGAGGGATTTATTAATTTTGGACTTGTTGGTGTTTCTTTTAAGTGTTTAGCTGCAATTTTAGGGGCTTCTTTTGCAGTAAAAGGAGCAACTCCTGTTGCTACTTCATAAAGCATAATACCTAGTGAATAAATATCACTTCTAGGCGATGGGCCTTGAGCTGCAATTATTTCTGGGGGCATATACTTTGGAGTTCCAATTGCTTTATTAACTTCTGAAGATTTACCTTCCATAACGGAAATTCCAAAATCACCTAATTTAACATCACCAGCCTGAGTTAATAAAACATTATCAGGTTTAATATCTCTATGAATAATTCCTAATTTATGTGCCTCTGATAAAGCATCACAAATTCTTGAGAAATAATACTTAATTTCCTTTAATGTCATTGAACCAAAATCTTGAAACTTATCTTTTAAAGTTCCACCCTCAACACATTCTAAAATAATAAATCATTCATCTCCATTTTGGATAATATCAAAAAGTTTTACAACATAGGGATTAGAACCTAATTTTGCAAAAGCTTCTTTTTCAATATCAAATCTTTCTTGTCCAACAGGTTTAACAACAATTTCTGGCGCTACAACTTTTACTGCAACAACATTTCTTGTTATTATATCATATGCTTTAAATACAGAAGCCATACCACCTTTCCCAAGTTGGCTAATAACTTCATATCTTTCATTTATTAATGACCCTGGTTCATACTTATTCATAAAGTTACTCCCTTTTCAATATAATAATAACAAAAAAAGCAGAGTTAGATTACTCTGCTTCAATAATTAATATTGATAAATTATCTGTTGATATATTATCTTTTGCATCTTCTATTATTAAACTTGCTTTATCCTTTAATTTAACTTTTTTATTTGCTAAAGTAGAGGCTACAATTTCTTGATCAATATAATCATGAACACCATCAGTTGTTAACATGTATATACCTTCTTGATTTTCAACAAAATAAGTATCAATTCTTAATGTTTTTTGTGGACCTAAAGCACTTGTTAGAACTTTTCAAAAAGTAACATCATTAGCTTTTTCATAAATTCCTGACATTTGAATATCTCTTCGTTCTGCTTCTGGAGTAGAGTTTCATAAATTTTGGTCTTCTGTTATTTGAAATAAACTATCATTAACTAATTTATAAGTTCTTGAATCTCCAACATTGATTACAAATCCACCCTCTTTTGTAAACAAAATGGCTGTTAATGTTGTTCCCATATCTTTTGTTTCAAATCTATCATTTGAATATTCAACCATTTCAGTTAATATATTATTTACACAGCTTCTCAATCATCTATTTATTTCTTTTTGATTAAGTTTAGAAAAATCATTTTCATTAAAATATTCAATAAATTTTTCAACAGCTAACTTTGATGCTACTTCACCATAAGCGTGACCACCCATTCCATCGCAAACAACTCCTAAAGCTTCTCCTGTTTTTTTTGTTGAAAAATCAAGATAGTCCTGATTAGTTTTTCTATAATTACCAATATCACTTAACATTGCACTTTTAAATTTCATTTTTTATGACACCTTCCCTTTTAGCTCTTAACTGGCCACAAGCCGCGTCAATATCTGCGCCAAATTCTTTTCTTACAATTGCAGTAATATTTTGTTTCTTTAATATCTTGAAAAATTCATCTACTCTAGTTGATTTTCTATATGGGTTTTCTTCAACTTCATTATAAGGAATTAAATTAACATATGCGTTAATCCCTCTAATAATTTTTGCTAATTCTAACGCATGCTCTGGCTTATCATTTAATCCATCAATTAAAATATATTCAAAAGTAACTCTTCTATTTGTTTGATCCACATAGTATCTTACGGAATCTAATAATACTTTAACTGGATATGCTTTATTAATTGGCATTAATTGATTTCTCACATCATCATTTGAAGCATGCAAGGAGATTGCAAGATTTATTTGAGTTTTTAAATCCGCAAATTCTTTAATTTTTGGAACAATTCCACAAGTTGAGATTGTAATATGTCTAGCTCCAATTTCAAAGCCATTTTTATCATTAATTATTTTTATAAATTTCAATACATTTTCATAATTATCAAATGGTTCGCCAATTCCCATAACAACAATATGACTAACTCTAGCCCTTTTATTTTCTGGGTCATTTTTATATTTTTCTTTTAAAAATAAATTCATTGTATATATTTGTCTAACTATCTCATCAGCTGATAAGTTTCTCTCTGTTTTTATTAAACCAGAGGCACAAAATTTACAAGACATTTTACATCCTACTTGTGTTGTAACACAAACTGACTGTCCGTACTTCTGAGGCATAAGAACAGTTTCAATTGATTTTTTATCATCTAACATAAATAAAATTTTTATTGTTCCATCTTTAGACTCTTCAGTAACTAGATCCTTAAGTAAATTAGTTACAAATCTTGCATTAAGAAATTCTCTTAACTCCTTACTTAAATTAGTCATATTATCAAATTTTGTTTCCATTTTAATGTAAATTCAATCATAAACTTGTTTAGCAGAAAATTTTTTAAATCCATTTTCTACAAGAATATCTTCTAATTCTTGAATTGTGTACCTAAATATACTTGTTTGTTCCATAAAAATTTAACTCCAATGTATATTTTATCATACTAATAATTGTTTAATTTAAAGACTTGCTTTTTTAAGTTTTTTTTTCAAAATAAGAAAGATAACTAATGAGACTCCAAAAGTAAGAGGAATTAAGCAAAGAGCCATAATTTTAGTTCAATTATTATTTACTTTACTTTTTTCATTATTTTCTTTATCTTCTTTATCTTCTTTATTATCTTCTTCACTAATATTAGAATGCATTCTAATATTTATATACTCTCCCTTTTTATTTACGATTTCTATAATGCCAATATTGTAATTTTCTTTTAAAGAAAAATTATAGTCTCCATTTAAATCAAGTAAATTAATATTTTTATCATAACTTTTTAATTCATAATCATTTTTATTAATTATTAAATTTTGATCATAATTATCTATTTCCTTAATTGTAAATTTATTAAAACAATATATCTCGAAAATTAAAATTTGATTTCTATATTTTAATTCTATTTTAAATTTTCCTACAGCTCTTGAAATAAAAGTAATTCTTTCTTTTTCTCTAGTAATAAGCAAATCATTTGAAAAACTATTTATAGTTAATTCATTTTCATTAAGTTCATCAAAATTAATTATATTTAAAGTATTTAAAGTATTTACTTCTGTTAAGGAAATATTTTTATCCAACTCAACTAAATTTTTATTATCAATAATTTCAATTTTTATAATTTCACTTTCTTTTGTTATATTGGAAAAAACCTCAATTTCAAATAACCCTAATTCATTTGATTTAATTAAAATCTTATCCTCTTCTAATATTGCAATTATATTTTTGTTCTTATTAACTATAATTAAATTTTCAAAAGAATTTGAATATAAATTAATGGAATCAAATTCTCCTTTTTTAATTGTTATTTCATTTGTTTCCAATTCAAAATATTCATCATCAGGGATTATTTCTATCTCAATAGTTTTTTTATTTTTTGCATCTATTGAATCAATTTCTAAAAAAGTCTTACCAATTTCCAAACCTTTTAATTTTAAAATATTTTTATTTTCAATTTGCACATTTAAATTTTTATTATATTTATAATTTATTTTTCTAAAATTATCTCCATTTAATATAAATAACTCTTTAACTTCATTTCTCTTTAAAGTAATACTTTCAAAAGAAGTAAGTATTTCCTTAAATTCTAATTCATTACCTTGAATGTTACTTTCACTGATTATTGAATAATTATCTAATTGATAATTTTTATTTGTGATTTCAAATTTCATTTCATTTCATTTGCTCATTTCAATATTTTCATCAGACTTATTATTTGTATGTTTTATAGAAACGTTAAAACTTAAAATTTTTCCACTAGGTTTTTTATAATCATATTTGAAAATTGTTGATTTATTAAGTTTAAAATCTTTTATAGCTTTAGAGTTATTAAGACTATCAATATTGAAACTTATTTCATTTTCAGCTAAATTATATTTTTTAGAAATAAAGTATTTAATTTTATGATGATTTTCATTTATATTTTTTAATGAACTTTCAAAATTTAAATCAACATTGTCATAATTTGTGTTTACTTCTAATCCTTTAATAAATACTTTGATATTTTTTTTCAAAATTTGTGAATTATTTTTTAACTCTACAACACCAGTCATTAAATTTGTTTGAAATAAATTACTTGAATTTAGTGATTTTATTTCTATAATGTGACCGGCCTCTTTTTTAATATTTAAATATTTAAAAAATTTATCATCTGAATTTAAAACTTTTTGCAATTTTTCTCGCGAGTATCTATAGTCAGTATTAATATCTGTTAGCACTGTATAATATTTTTCTTCTTTATCCTGAAAATAATTTTTTCTAGATATAAAATTTGTTTTTAAATTTGTTAATAATAAACCACCACTTTCAATTGCTCCAAGATTTGATCCTCATTTTTTATTTTTTAAAGCAATTTTATCTTTAAGAATTTCTTCTTCAATTGTTCCAGAAATTACTAATCCAGATTTAACTTCAAATACTTTTTTAAATTCCAAATTTAATTTTGTATATATAAATGTATCAGTTCACTTATCATGATAACTATATTCTTTTTCTATTGTTTTTGATTCTTGTCTTTTATCTAAATTAATATTTAATTTATAACTTTCAAACTCTAGATTTTCATATTTAATATTTTGACCAGCCTGTAATCCACTGGAATTTCTTTGCACAATATTTTTAAAGTTTAATTCTAAAGATGAGTCAAATCAAAATTCTTGCATGTGTTCTAGTTTAAGTTCTTCTAATGAAATAAATTTATTAATCTTACTTTTAAAAATGGCACTATTATTTTTTCTTATAATTGTACTAATATTTTCTTTTTGGTCATCTAAAAGATAGTATGGTTCTTTTTCTAAATTATGTTCTTCAATTTCAGTACTTGTTTTGAATAAATTTTTAATATTTAATTCCATAATAGGTGATGATATTGTCCCAAAAGGAATTATTGTAAATAACAATTTTAATATTTTTATCATATTGTATTCTCCTTCTTTCTCTTAATCGACCAATATGAAATAAAAAATGAAAAGAATTAAATTCTTTTCATTTTACAAATGTAAAAACCATCATTATCATATTCATTACCAAAAAAAACTTTTTCATATATTTTTTCAATATCTTTATGCTTTAGTAAAAAATTATTAATTTGTTCTTCATTTTCTTTTTTATTAATAGTACAAGTTGAATAAAGAATTTCAGTTCCCTTATTGGTACAATTATATGCTTTCTCTAAAAGTTTTGATTGCAATAAAACAAGCTCTTCATTTTCTTGTTCACTATATTTTTTTAACTTAATTTCAGGCTTTTGCCTTATAACTCCATATCCAGAACAAGGTGCATCTAACAAAATAAAGTCATATTTTTCTTCTTCAATTTCAAGTGCATTTTTGCATTCTAAAATAACATTTTTCACTCCTAGCCTAGAGAGATTTTGTTTTATTAAATGTATTTTGTTTTCTTGCAATTCATACGCATGTATCTTTCCCGTATTTTTCATTATTTGTGCAAGATGAGTTAATTTACCACCAGGAGCACTGCACATATCAAGAACTTTTGAATTTTCTTTTGGAGCTAAAATATATGAGGCATACCCACTCATTTGATCTTGAACTGTTACATAACCTTCCAAAAATATTTCTTGATTAATAATATTTTTATTTGATAAATAAAAATATTCTATCAGTTGAGATTTTTCCAATTTATATTTTTCAAAATATTTTTTTTCAAAATCTTCTAAAGATATTTTTAAAGTATTTAATCTCAACGAAATTTTACTTTCAATATTTGAATGTAAAATAAATTGCTGAGCTTGCTCTTTTGAATAATCATTTTCAATTTTTTTATAAAGTCAAAATGGAAATCCATTTTCTAATGGGAAAACATTTTGCTTATTTTTAATTTTAACTTCTCAAATATTTTCATCTTCTAATATTTTTGAAACTTTATTAACTAAGCCTGAATAATTTTTATTAATTGATTTTGCAATATCAACAGCTTCATTAATTACATAATATGCTTTTGCTTTTAAAAATTTTAATTGATATAAATTCATTCAAAGTAATATTTGAATTTTTAAATCAGTTTTATTTGAATCAATTATTTTATTAACAACGTACTCTAAATAAATTTTGTATTGAATAGTTCCATATACCAATTTAAAAACAAAAGCTATGTCTTCTTTTGACATAGCCGTTGTTTGTTTGAGATTACTAAGTAATTTATTTGAAAATTTATTATTTTTAAATACTTCAAATAAAATCCTTAATGCTTCTTTTCTTGCGCTCATTATTTTTGAAATTCTTTTTGTTCAACACTAAAGAAATTAACATCAATCATAAATTGTTCCACAGTAGCTTCAATAAAACTTGATTTATCAAGATTATTTAAATCTTGACTTGCCAATACATATGCATATGTTTTATCTGTTAATAATCCAACCAAATAATTTTTAAAATCAAAATTCTTATCAATTTGTTCTCCACCAACTTTTTCGACATTTTCTTTTCAATTATTTACAAAATATTCGTATTGTTCAGTAACAATTTCACATACTTTATCTCTTAATTTAAAATACTTACTTTCACTTGGGTCAACACTTAATGTATTTTCTTTTGTTAAAACGTCTTTAACTTTTGCAACAGCATTTTCTACACTATCAATTTCAATAACATATTGATATTTGTGTTTCAAAGGAATTTCTAATAAAGCTTTATCTAACCTTTGTTTAATAATTTCTTCTTTTTCAGTTCCACGTTTTCTTAATCTTTGTTCTAAAGCTTTTAAGCTTGGAGGCATTAAAAATATTGAAACAAGATTTTCTGGTTTCTCTTTTTTTAAAACTTGTGTAGCACCAATTACTTCAATTTCTAAAACTACATTTTCACCTTTTGCAATTTTGTCATAAACTATTTTTCTTGGTGTTCCATAATAATTATTAATAAATTCTGCATATTCAATTAATTCATTGTGTTGTATTGCATCTTTAAAAGTATCTTTATCAACGAAATAATAGTTAACTCCATCAACTTCTTCTGGTCTAGGTGCTCTAGTTGTCATAGAAACAGATTGTACTAAATTTAATGATTTGTCTTGTGCTAATTCTTTATTAATTGTTCCCTTACCAACACCAGATGGTCCTGATAAAATAATTATTTTCCCTTGTTTTTTCTCCATTTATAAATTCTCCTTTTCAAATCTTAAAATATAGAGATGCTTATTTTTAAAATCTTTATATTTTAAAACATTTAGAATTGTAAGTTCGCTAATTTCCAACCTTAACTCTGATTCCATAATTAATATACCATAATTATTAAGCAATTGATTCTCAGAAATATATTTGAAAAAATCCTTATAATACTCTATTTTAGCAAATGGTGGATCAAAGAAAATTAAATCGACTTGTTTTTTCATTGATGTTAAATAATTTAGCATTTTTTTATAATCCAAGTTAAATAATTCATATTCTTCATTGTTTAAACCAATAAAATTTTTCTTAATTATTTCTAAAGCAGGTTTATAATGATCGTTTACATACGCAAACTTAATACCTCGAGATAAAGCTTCAAGTGACAAAGCACCACTCCCACCAAATAAATCTAAACAAGTCTTACCTTCAAAAATAAAATAATTATTTAAAACATTAAACATATCTTCTTTAACTCTAGTAATTGTTGGTCTTGTATTCATTCCTTCCAATGTAACTAGTTTTCTACCTCTAAAACGCCCACTAATAACTTTCATTTTAATTTTTCCTTTGCTTTTTATATTATACAAAAATAATTATTATATAATGGTAATTGAGGTGTTGATTTATGAAATTAGATTTAAAAAAGGACTTATTGCAATCGCAATTGCCAACAAATAAATGATTGTGCAAAGATAATCAACCAGAAATTATTAGAAATAAATCAATTGATGTGGAATTACCATTAAGTAAAGAAAATGAGTTAGTAATGAAAAAATTAATTGATTTTGTAAGATATAGTCAAGATCCTGAATTAAATAAAAAAGAAAATGAAGATTATTTAAGACCTGCTGTTGGTTTGGCAGCTCCTCAAATTGGAAGTAATACTAATATGTTTTTTACAAGATTTGAATGAGATGTTGAAGCTGGTGATGTTGAAGAATATGCAATAATAAATGGAAAAATTACTGCAAAAAGCGATCAAATTAGTTGTTTAAGTGACGGTGAAGGTTGTTTAAGTGTTGATAAGGATCATAAAGGTTTAGTCCCAAGAAGTTATAAAATTCAAATTGAAGGTTATGATTGATTAAATCAAGAATATATTGAGTTAACTCTAAGAGGTTATCATGCAATTGTTTTTCAACATGAATTAGAACACAATCAAGGTGAACTTTACTATGACCGAATTAACAAGCAAAATCCCGATTTTAAAGATGAAAGTTGAATAATAATTTAGAAGTTTAACAAAACTTCTTTTTTTATTTAAATTTACTAAGATTTTTGTATATTTAATTTAGTTTTTTGCTAAAATACTATTAACTATGACTTTTAAATTATTTGGAAACGATAATATATATAATACTTTTACGTATCATTTTACAAATTTTTACATTTTAATATAAGGAGTTGAAAATATGGAAGACAAAAAACAAGAGTCTCTACAACAGGTCAAAAGCGTAGTTGCAAATTTAGAGAAAAAAATTGAAATAAAAAAATTGGCAGATAATACAAATCCGCCAAAGAAAAAATTACAACAAGCACCTTTTCCAACAAAAGTATTTGCTTTAGGTGGTTTGGAAGAAGTTGGGAAAAATACTTATTGTATCGAATATGATAATGAAATTATTATGATTGATGCAGGAGTTAAATTTCCTGATGCTACACAATTAGGTGTTAGTGCTGTAATTCCTGATTTTAGTTATTTAGTAGAAAATAACTCGAAATTAAAAGGATTATTTATTACACATGGTCACGAAGATCATATTGGGGGTATCCCATATCTACTTCAACAAGTTGAAGTACCCGTAATTTATGCACCTGCCTTAGCAGCAGCATTAATTAGAGATAGATTAAAAGAATACAAGTTACAAAATAAAACAGTTGTTAAAGAATATACTGAAAATGATGTTTACGCAACAGTAAATTTCACTATTCAATTCGCAGCAGTAAACCACTCAATACCCGATGCTTTTGGAGTTCACATTCAAACACCTAATGGTGCTGTTTTCTCAACAGGAGATTACAAATTTGACTGGACACCCTTAGGCCATGATGCTAACGTACAAAGATTAGCAACATGAGGAAACGATGGCATTGAATTGCTAATGGCAGATTCAACAAATGCTGAAGTTGAAGGTTATACAATTGGTGAAAGAAAAGTTATTCAAAATATTGATACACTTTTCTTAAAATCAAAAGGAAGAATCATTATTGCTTCTTTTGCTTCAAATGTTCATAGATTGCAACATATTATTGAACTTGCAAATAAATATGGTAGAAGAATTGTTGTTATTGGTCGAAGTATTGAAAGAATTATTAAAATAATTAGACAAATGGGTCATTTAAATATTAATGATAAAATGTTCATTAAACCTAGTGAAATCGAAAACTTCCCTAAAAATCAAATTATGATCTTGTGTACAGGAAGTCAAGGAGAACCAATGGCAGCTCTTTCAAGAATATCTAGAATGGAACATCAAACAATAAAAATAATTCCTGGTGATACTGTAATTATGTCTTCATCACCTATTCCTGGTAATAGAGCTGATGTAGAAAATGTAATTAATAAATTAACAAGAATTGGCGCTAAAGTTATTGAAAACAGTGGATACAATCAAATTCATACTTCTGGTCATGCAAGTCAAGAAGAACAAAAATTATTATTCACTTTATTAAAACCAAGATGCTTTATGCCGATGCATGGTGAATATCGAATGTTAAAAATTCATGGGGAAACAGCTACAAAAGTTAATGTTAAACCCCACAATGTCTTTGTTGTTGCAAATGGAGATCAAATTGAATTACATAATGGAGTTGGTCAACTAGGAAAAAGAGTTCCAGCTGAAGCTGTCTTTATTGATGGAAAAGATATGACAGGAAAAGCAAGTAATGTAATTAGAGAAAGAAATATTTTAAGTAAAGACGGCTTAATGGCTGTAATTATCTCAATTGATTCACAAGTTAATAAGCTTTCAGCACCACCTAGAATTGTTTCTAGAGGTAGTTTCTATGTTAGAGATAGTGGAAATGTTATTTCTGAATCAATAAATATTGTTACAAATGCAGTACAAGAAGTTCTTAAATCACCAAAACCAACATTTGGCGCAATTAAGAATGCAATTAAGGAATCTTTATCACCTTTCATCTTTAGATATAAAAGAAGAAATCCTTTAATTATTCCAGTCATTTTAAATAAAAAAATAGAGGTTAATAAATAATGAAAACAAGAAAAGAACAATTAGGCCTTTTTTCAATAATATGAATCGGCTTTACATTTATTGCTGGAATTACTTTTACAGCAAGCTTTAGTCAAATAGTTCTTGTAGGAGATGGAAAAAATCCAGAACAAGGAATAGGACTTCACATTATATGATTATTTTTAGTTGAAGGTTTAATAGCATTTATGTGTGCTTGGGCCTTTGCTAAATTAGTTAAATATCATCCCCAAGCAAATGGTGGAGGAAGTCAATATGTAAGAACAGCCTTTGGTAAATTCTGAGGGTTATTAATTGGTTTTATTAATTATTCAGTTATTCCAGTAATTGGAATGGCTTTAATAGTTACAATGATTAGAGCAAACTTTGGACCATTAGAAGATGGTCAAAATGGACTATGATTAGTTGGTCAAGATGCTAAAGGGCAATATGGTAAATTTGGTGAATGAGGAAATCTATATTTAGATTTAATCGCTTTTGCACTTTATATCTTTGCAGCAACAATTATATTTTTTGGAATTAAAAAATATAAATATGTTGGATTAATTATTGGTTATATGACATGAGGAATGACACTATTGTTAATGATTTTTGGTATAACAGCTGGATTTATGAATTTAAGTGTAGGTAATAATCCTTTTGATGCATACAAAGATCAAAAACTTACTATGAATGGATTTACAAATGCCTTTACAACTTGTTTCTTTGCATTTTGTGGAATAGAGACATTCATTTCAACTGGTAAAAATATTAAAAATAGAGCAAAAAATATGCCAATTGCAATAATTGTTATAATGATTGCAATCACAATTTTCTACATAGTGTTCTCTACAATTACTATGTTTGCAGTTGGTGGGCCATTTACTGGAAATCCAAATAGTCAGTTATTTCCAGAAAATAACTTTTTAAGAACTTTTGGTCCAACTTTAGTTATTATTTGTACAATACTAATGAGATTTAATTCTTCATTACAAATAACATTATTTGGAGGTTCAACTTTGGAACCCCTATCAAGTCAAGGGTACATTTCACCAATTTTTAGAAAAGAAAATAAAGAAAATGTTCCTGTTGCTGGAGTTTTAGCAACAATGGGATTATTTGTAATTTGTGCAATAATGTTCTTATTTATTCCAGATATTATTGAAGGAGCTACAAAGTCACCTTCTCCACTAAATTATGGAACAATAGCAAGTTGTGCTTCAATTCTACTAATTGCAATTTATGGAATAATTATTCCTGTTGTATTAGTTCAAGGTTTTAAAAAGAAAATAAAAGTTCAAATATGAGAATACATTGCTTGGTTCATTACTTTAGCTTTCCTAATGGTTATATTAGTTTGATACTTCAAAGGATTAGCTGATGTATTTGCAAATCCAAAAGATGAAAATGGTAAATTACTTGTTCAAAATCTAGTAAGCAGTATCTTCCAATTGGTATACTTTGGGGGAATTGTAATATGAGCAGTCTTACAATACTTCTTATATTACAAAAAGAAAATGAAAAAAATGGACCCAAATTCAGAAATGGGAAAAGTTATTTCAGAATATGAAAATTTCTTTAGACTTTTAACTGATAAAGAAATGGCAGATATTAGAGCTGAAGAAATTAAAAATGATCAAGAATATTTACAATACAAATTAAGTTTAAAAGAAGAAAAATTAAAAAATAAAAGTGTTTCAAAATAGTCCATAAAGGACTATTTTTTTATAATATAATTATCTTATTATGGAGGAAAAGATATGAAAAAATTACTAATAATATTAAGTACATCTGCTTTATCAGTTGGTGCAATTGCTCCTGTTGTAAACTTTTCTCTTTATGCTCCTGTTGAAATAATTACTAAAAAAATTAGTTATTCTTATGATTTTAAAAAGTTTAATTGAAATAATTTACAGTTTAAAACTATAAATGGAATTTCTCAAGCAGAACTAACTAATGAAGAATTTACAAAGGCATTAAGAGATTGCGTTGAAAAAATGTTTGAAGAAATTCCTGAAGAAATATCAAATGTTTATTTTATTAACTCTATTACAACAAATTTTAATGGTGATTTAGGATCTAAAAATAGCCAAGCAGAAGAATTTAGCAAAGAGTTTGAAGATGCAAATAAAAATATAAATGCAATGAATATTAAAAACCATACTCTTGTTATTGAAAGATATAATGACCCTACTTTAGGTTATTTATATTTTGCTAATGTTTATGCTTCAATTAATAATCAAAAAATTAGGTTGTTTGGTCTTAACTCTTCAAAACCTTTTCAAACATTAGATGATCTAAAGAATGAATTTGAAAATATTTTTGAATTAGAAATTCACAAAGAGATTCGAATAGATGGTTATGATAAAAACCCTTGGGGATTAAAATTTCCTCAAAATGTACCATTTCCACCTGAATATTATATTATTGGTTGATTTATGAGTGCAAATGAAGAAAGTAAAAAAATGCGAAAAGATGTTCTTAAACATATAAATGAAGTTAAAAAAGTGAAATTAAATGAAATAGATAGACCTGAAACTGTATATCGTGCTATATTCGATAAAGATACAAATACTTATTCTCCTGGAAAAGCATATGAGGATAGTGTAAGAGTTGATGAAGATTATTTCTATATAGGCATCACCAACAAAGAAGGTGCATTTGGAGAATATAAAATTCTTATCAAAAATACTCCAGGTAAAGAAGATAGTAATTAAAATTAACTAAAAAAAAATTCTTTTTTTTAGTGGTACAATTCTAGTAAGGAGGTGGAAAAATGAGAGGAAATAGACAAACTTCAAGTTTAAGAGTGCTACTTTTAATTGGAAATTGATTCGGATTATTTGTAGGTTTATTATCAGCTGTAGTGTTTGGTTTTTATATAGCAGATCCAAATTTTGCAAATGAACTTAGTGATGGAGATGAAACTATAAAAAATCTAGTTCCAATGATTGTTTCATTAGTAGGTTTTGCTATTATAACTAATATATTCTTTTGTTCATTCATCATAAACTTTTTAAGAAAATCTGATGATATTACATTACTAAATAATAGATATATCATTGCATTATTCTCTATTTCAGTTGGTGGTTTATTCACACCATTTGTACTAGCCCAAATGCAAAATATTCCTATTAAATCAACAGTTAGTCCAAAATTCACAATATCTAAAGGATACGGTGGAAATAGTTTAATTGCTGGTTCATTGGCATTAGCACTTTATTTTGGTTATTCATTAATTTCTACAAAACAAATATTTAATGCTGGATTAGCAGATCAAATCGTTGTTGGTATTCTATCAGCAATCGTATGTTGAGGAGCTTTAAACTGTTTGGTGTTTGCAACACCAAATTCAAAAGCAGCATGAGATAAAAAAGGAATTGCCTATAAATTTATGAATTTTATAGCAATTATAAACTTAATCTTTGCTACATTTGTATTGATATGACAATTAATAGCAGCTGTTCTTACAATTTTCTCAATTTTTGCTGATCTATTCAACAAAAAAAGAGGATTCTTTGGAGCACTATTGAGTACAACATTTGCTGCATATAGAATTGCAATTCAATTATTTATTATTTACACAATAAATAGAATTATTAAAGGTATATGAGCTAAAGGTGATACTATTGAATATCAAGATTACTCAAGACTTGCTGAAAAACAAAGAGAGTATGAAGTTAACGAAGCACAAGCTTAAAAATAAAAAAATAAACTTTAATTAAAGTTTATTTTAGTAAGATATTTCCATACAATTTAGTATGGATTTTTTTGTATTTAATTTTCATCTAAATTTAATAAATTAAATTCAATAAATCACTTTTTGTACTGTTTTCAATTTTCTTTGAAAGCAGCAAATTTTCACCTAATAGAATAGCTCTATTTATAAAAGAATTATCAAATAATTCATCCTTATCTGTAAAAATATTGTAAATATTTGTAATATTAAGTTCCTTATAACTTATTAATATATTGTTTTGATTTATATAATATATTTTTTTAAAACCCTGCTTTGTTAAAATATTTTTTTCAAAATTAAAATTTTCATCTAAAACTATTAATTCTTCTTTTGAAGTTTGAATTACATATTTAGTTTTCAATTTAATAATATCTACAATATCATAATTTATTTTTTTAATAGATTTCAGAAAATGATCAGTTAATCAAATCCCATCTTCTTTTTTAATTACTAATCTATTGCCTATTTTTTTAATAATTTGTAACTGTTTGGCTTCTAATTCTGAATTGAGAATATTAGTAAAAACTTGATTATTTTTAATAAAACTTATATACTCAATTCCTTCAATACTTACAAAATTTTGAATATAGTATTTTGAAACTTTTAATACCTCTATATCAGTTTTACTAATATCTTCAAGTGAAGACACTAAAGGACTTGGGTGTGATAAAAATGTTCTTTGTATGTCTGCCTTATTTTTTAAATTTTCATTAAAATTTTCTTTTGAAATATAGCAAAGGAAATTATTGGTTTTATTTGGAAGACTATCTGTAAAATATATATTATTCTCATCTAAGAATATATTTGTAATTCATTCACTATTATCTATTTTTCTTGTTTTTCTATTCAAGTAAATCACCATTTCTAATTATAAATCAAAAAACACGATTATAAATCGTGTTTGTTTTATAATTATTTATTTTGAATTGCTTCAACTCCTGGTAATACTTTACCTTCCATATATTCTAAAGAAGCTCCACCACCAGTTGAAATATGTGTGAATTTTTCTTTAAATCCTAATTGAATTGCTGCTGCTGCTGAATCTCCTCCACCAATTAAAGTAAATGCATTTTTTAAATTTGCAATAGCTTCGCAAACTGCTAATGTTCCTTTATTATAGTGATTGAATTCAAAAACTCCCATTGGGCCATTTCAAGCTACTGTTTTTGCATTTTTTAAAGTATCTTCAAACAACTTAATTGATTTAGGACCAATATCTAACCCCATTACATCATCAGGTAAATCAACACCTGATATTGTTGGTGGTGTATCTTTAAAGTCACTATTATTTGCAGAATCTATTGGTAAAATAATTTTTCCATTAGCTTTATCTAAATATTGTTTTGCTAAAGCCACTTTATCTTCTTCACATAATGACTTTCCAATTTTATGACCTTGTGCTTTGAAGAATGTATATGCCATTCCCCCTCCAATAATAATTTTATCTGCCTTCTCTAATAAATTATCAATAACTCCTATTTTGTCAGAAACCTTAGCTCCACCAATTATTGCAATAAATGGGTGTTCAGGTTTATCAATTCCCTTTGCTAGCATTTCTAATTCTTTTTGAACTAAAAAACCAACACAACTTTCCTTTATATTAGATGCAATTCCAACATTTGAAGCATGAGCTCTATGAGCTGTTCCAAATGCATCATTTACAAATACATCTCCTAAACTAGCTCAGTATTTACCAAGTTCACTGTTATTTTTTGATTCATATTTAACAACCTCTCCATTTTGAACGTCTTCAAAACGTGTGTTTTCAAATAAAATTATTTCTCCAGCTTTTAAAGATTTAATTGCTGATTCCAATTCTTTTCCTCTTGTTTGTGCTATGAATTTTACTGATTTTTTTGATATTTCTTCCAATTTTTTAGCAATCGGTGCCAATGTTTTTTTGGTTTTATCGCTTTCTTCTTTAATTCTACTTAAATGTGAAAATAAAACAATTTTTGCTCCTTTTTCAATTAAGTAATTAATTGTTGGTAAAGCTGCTTTAATACGGTTATCATCAGTTATAACCCCATCTTTTAATGGTACATTAAAATCAACTCTAACAAGAACAGTTTTATCTGCTACTTGAATATCGTTTAGTGTCTTTTTCATTTTTATATTCTCCTATACTTATTTATTTTAAAACATTTTTAACTATAAAATCTATATATTCAAAAAAATTATCGTTGTTTTCCATATGAAAACTTAAAATATCTTGATCAGTAATTAAATAATTTTTACTTGGACTATATATTTTTTTTCATGGTGTTTGTTCATGACAAATCGAAACTATATCCCAATGTTTTAAATTTAATAAAAATTTAATAATCTCATAAGTAATCTTATTTTCAATTTCAAAGTTATTAGATATTTTGAAATCCTTTTCTTTGTCAAAAATTAAAGGAACATTTAATTTAGAATATTTTGTATGATTCTTTCATAATTCATAAATTACTGGACCTCATTTTCAAGTTTCAAATTTTATATCAACTATTTTAGATTTAAAAATTAAAAAGTAGGAATAGATAATATACATTATTTTTTGAATTTGAATTTGAGTAACCTTTTTAAGATTATTATTTAATTTAACCTTTGCAATTACATTAAGTACATACTCAATATATTCTTCTTTTGAATAAAAAAACATATTTTCACCTCAATAATAATATCGTGTAAAAATATGTTAATTGTTTTATTTTAGAAAATTATAAACTTAACATGTAGTTAATTGTACGGATAAACTGTGAAGTAAATGAATTTTCATTGTCATATCATGCAAATACTTTAACTAATTGTTTTCCATCAACTTCCATAACTCTTGTTAAAGTTGCATCAAAGATTGAACCATATGTTGATCCAATTACGTCTTGTGAAACGATTTCTTTTGTACAATATTCTAAAGCTGCTTTCAAGCCAGCATCTTTTGAAATTGCTGTTTTAATTGAGTTATTAATTTCATCAACAGTTGTATTTTTTGCTAATTCAACAGTTAAGTCAACAATTGATCCAGTAATTGTTGGCACACGTAATGCTAAACCATCTAATTTCCCATTTAAGTTTGGTAAAACTTTTCCTACTGCTGCTGCTGCTCCAGTTTTTGATGGAACAATATTTCATGCTGCTGCACGTCCACGACGTAAGTCAACGTGAGGTAAGTCTAATAAGTTTTGGTCATTTGTAACGGCATGAATTGTATTCATTAATCCTTTAACAATTCCAAATTTCTCATCTAAAATTTTTGCTACTGGTGATAAACAGTTTGTTGTACATGAAGCTGCTGAAACTATTGTATCATCAGCTGTAATTGTTTTGTGGTTTACACCAAAAACAACTGTTTTTAAATCTCCTGTTGCTGGAGCTGAAATAATTACTTTTTTAGCTCCTGCATCAATGTGAGCTTGTGACTTTGCTTTATCAGCATAGAATCCAGTACATTCTACTACTAAGTCAATACCCATTTTTCCTCATGGTAAGTTTTTAGCTTCTCTTTCAGCTAAAATTTTAATTTCTTTACCATTAACTACTATTGCATCTTCTTTAGCCTCTATTTTTCCACTCATAAATCTCCCGTGAGCTGAGTCAAATTCTAATAAGTATGCTAATGTTTTTGAGTTTGTTAAATCGTTAATTGCTACAATTTCAACATTTTTTGATAAGAATAATTGTCTAAAAGCTAGACGCCCAATTCTTCCAAAACCGTTAATTGCTATTTTTTTCATATTTGGTCGTTTCCTTTCACGTCTTTATTTTATACCTTAATGACTTAATTTATTAAAAAAAAGCACAAAAATTTATTTCCAATTTTTCCGACTAATTTTTCCAATGTGGAAAAAAATCTATTAATATCTTTTATTAGTTCCAGTTAAATGAAATTCAAATGTTAAACCCTTTAGTCTTTCTGTAAATCTTAAAGTTTTTTGCTTTTCAAATTTTTTTTCTTCAACTCCAGTCACTCTTTTATTTAAATAATAACCCTGTAATTCTGAAATTGAAAAATTTGAAGTAAAATGAGTTACCATTTTATTTTCCAACCTATGATTTAAAATTCCAAATAGTAATTCATCTCTACTTCAGTCACTAACTATCTCTGCTCCAATATCATCAAGTATTAATATATCAACATTTAAGCAATCATCATAAAATTTAGACAATTCATTTCTTTCTTGATTATTAAATGTATCTTTTACTATTTTTACTAATTTATTTACAGTAACAAAAATGACTTTTTTATCTTTTTTTGCATAATAATTTGCCAATCTTTTCATTAAAAAAGTTTTACCAATTCCAGGTTTACCGTGCAGATAAAATCCCTTTCATGAATTATTAGTTAAATTTTCTCTAATCTTAGTAAATAATGTTTTTTGGGTCAAACTAACTTTTGATAAGTCTAAAGCTTCAATATATTCGCCAATAGTTTGAGTATTCTCTTTTAAATCATAATCTGCATATATTATATTTTTTGTAATTTTATAATCTTTGTTTTCAAATACTCAATGTTTACAATTTTTACTTGCAATATAAAAAACATTATTTTTATAAACAAGTTTTTGTTGGACACCTACAATTGGTTGCTTGCAAAACCTCAATTCTTCTTCTTTAGAACAATAGATATAATCACTTAGAAATCTTCTAATAAGTAAAATGTTATTTTCCAATATTTGATCTGTTATACTATATTTTTTAATTAGTTCTTTAAAATCCTTGTGATTTTTAATTTCTTCTAAAGTTAATTGCTTCATCTAAAAATCACCTCATCCTGTTTCATCAAAAACTAAATCATCTTCAATTTTTATTTTATATGTTTCTTTATGTAAAGCCTCATCTCATTTAGAATCCAATTCAATTTTATGCTCTTTTTTAATCTTTCCTTTTGATTTTTGATGAGCAACTTTTAGATATTCAAAAGCTTCAGCAGCAACATTAAATCCATTTTCTGACATTGTTGCTCCAATTTTATAAATATAATTAGGAATGATCTTTCCTTTATTTTTTAAGAAAACAAAATCCAATAAACAATTAATTACTCCATTTCTTAACTTATATTTATTTTGTAAAATTTCAACTATTTCATTATGAATTTTATCCAACTCTATTATATTTGCAGATTTAGAATTTATTAAAGCTAATAAATATTCTTCAGGTTCTATTGTTTCCATTTCTGTTAATTTTTTATTTTTTTGATTTTGAATATTTAATTTAGCGTCAAAGTCAGGAATAGTTTCGCTAAACTCGTCTTTTTTAAAAATAACTTTTGAAGCTTCTTTATAGAATAATTGACTATCAAATGAGCACGTTTCTTTATCATAAATCTTTTTTATTATTTTTTCAATTTCATTTTGAGTTATATTATATGATCCAAAAACTTCCTCTACTGCTTTTTGAACAACTTTATTACTTTCACTAATTATAAAATCTTCTTTTTCTAAAGATTTTATTAATTGCTTATAATCTAATCCGTTTAATAATGCATTTGTTCTTTTTGGTTTTGCCTTAATCATTTTTGCTTCGTTTGCTATGTCTTTTTTAACCTCTCCAAAAACTTCAACAAATTTTGAAGATGTATCTTGATAACCACTTTCTATTGAAACTTCTCCTTCATCTCTAAATGAAAATCTAACCAATTCATAATCGTCTTTGCCAAGCTTAGATATTAATACATTATTGAAAACCTGATTTTCAAAAAAGATTGAAGGTTCTAATGGTGAATAAAGATTAAAGATTATAGTTTTTCGTTCTTTATTTTCTAAAGTTCTTAAGAGTCCTAACGCTTCTAATTTTTTAAAATATTTAGGTAAACTATTTTGTGAAATACCTGTAATTTTTGAAAGTCTATTATCTGACAAATTTATTTTTTTTAGATCATGAAAAATATATGACTCGTTAATTAACGAATAGTATAAAGAAACTGCTTTAGAGCCCATTATTGGCTGGTATAAGTAAGTTATAATCTTAATATTTGAACTATCTATCATATTTTTTAAAATGACTCTGTAATTAAAATTATTCATTGTATACCTCTTACCCTTTTGACTTACTAATAATAAAAAAAAAGAAAAAAAAGGAAATAGATTTAATAATCTTTTAAAAATTGACTATTAATTGTTAATAAAAAAAACTAAAAAACACCTTAAATAAAGGTGTTTTAGAAGTTATCCACAACTTAATATAGAAATTGACATTCTTTACAGAAATAAGTGCCTCTTCCATTTACTTTTATTTTCTCAATAATTCTTCCACATTCATAGCAAGGTTTATTTTTTCTTGTATGTACTTTTAACTCATTTTGAAATTTACCATCTATTCCTTGCTCTGGTTGATAAGTATCTATTGTTGAACCACCAAGATCAATTGAGCGTTTTAATATTTTTTTAGAAGATTTAAGTATTCTTTCATAGTCTTCTAAATTAAGAGCACTAGCTCTTTTTTCAGGGTGAATTTTTGAATCAAACAAGATTTCGTCAGCATAAATATTGCCAATTCCTGATATTTTGGTTTGGTCTAATAAGACTGTTTTAATATGTTTATTTGAACGAGACATTATATCAAGTAAATATTGGCCATTTAAAGCGCTATTAAAGGGTTCTGGACCCACCTTATTTATTGGATTTTGACTTTTAAATGTAGCTTTTTCTTGCAAATGAAATGTTCCAAATTTTCTTGTATCACTGTATACCATCATTTTATTATCACTTAATTCAAAAATTGCTTCAACATGCTTTGTATCATATACAGTTTGTGAATCGAAAACAAATCATTTACCTTCCATTCTTAAATGGCTTATTAAAACAAGATCTTGCAATTCAAAAATTATATGTTTTGCAATTCTTGATATATTATCTATTTTTCTACCTTTAATCTTATTTTCAAAATCTTCAATCGAGATATCTGTTTTAATTAGATTTGGATAAGTTATTTTAACTTTTTTTATTGTAAGATTTTTAACCTTACTATTTAAGGTTCTTACAACGGTTTCAACTTCTGGTAATTCTGGCATAATTTTAAGTCTCCTTATTTAAGATTAAATCAATCATTTGCTTGCGAATAATTTATTTCTAATTCAACAAGTGCTTCTCTATTTTTATTTGCTATTTTTAATAAATCATTATAAGCTTCTTGCATAGTTTTTAAAACCATAGTTTTAACTTCTTCTAATTCTTGCTTTTTAACTAATAGAATAATTTCATCATGAATTTGAGCTATCATCTTTGATTGTAATTTTTGAGATTTTAAGTTTTTAAATACATTAATCATAGCAACTTTTAAGATATCAGCAGCTGTTCCTTGTATTGGAGCATTAACAGCTGCTCTTTCACCAAATTGTTTTACCATATAATTAGTATTACTTAATTCATAAATATATCTTCTACGATTCCCTAATGTTTCAACATAACCTTTTTCATAACCAAGTTTTATAACTTCTTCTTTAAATTTTAAAATTTGAGGAAAAGCTTCATAATAAGTTTTTATATATTCTTTAGCTTGGGGAATAGAAATTTTTAAATCCTTTGCAAGACCAAAGTCACTCAAACCATAAAGAATTCCAAAATTAAATACCTTTGCAACTCTTCTTTGTTCTGAACTAATTTTTTCATCTTGATTTAATTTAAATATACTTCTTGCAGCTTCTGAATGAATATCTCTATTCATTGAAAAAATTTCAACAAGTTTTTTTTCATTAACTATATCTGCTAAAACTCTTAATTCAATTTGAGAGTAGTCAAAACTCAAATATACATTATCTTCTTTAGTTACAAATATTTTTCTAACATTTTTTTGTTCTTCATCTCTTACAGAAATATTTTGAATATTTGGATAACTAGAACTTAGTCTTCCTGTATTTGTAAGGGTTTGATTAAAAATTGTATGTACTTTATTATCTGGATGAATAAATTTTTCAAAACCTTTTAAGTAAGTTGAATGTAATTTATTATATTTTCTAAAAGCAATAATTTTTGAAATTACAGGATGCTTATCTTCTAAATAATCCAAAGTTTCTCTATCGGTACTTCCTTTATTGTAATCAGGTAATTTTAGTTTTTCAAAAAGTAGTTCTTTTAATTGTTTTGGAGAAGCTAAATTAAAATCCTTGTCTATATATTCTTTTAAATCATCTTTTATATCTAATTCCAAATCAACTAGTAATTGTAATATATTTTTTTCTTGTTTTGCAAGTTCATCACGATCAACTTGAATTCCTTCAATTTCCATATCAATTAAAACTTTGGCAAATTCAAATTCAATTTTTTCATACAAGCTCATTTGATTATTATCTTTTAATAACTTCAAAATTTCTTGTTCATCTTTTTTTATTAGTAAAACTTTGTTTACAATATAGTCCATTTTTACTTTTTCATCAATCACTTGAGTTTTTTTAACACCCTTACCAAAAATCTCTTCAAAAGTTTTTGTTTCAATTGAAGGGTCAATCATAATTATATGTTGATCAAAAGTTGATTTAACATTTGAATTGATAACATAGCAAGCAATCATCATATCATAAATAAATAAATCAGGATTTATTTGATAGCCCATTTTCATTAATGCAATAATAGTTTTTTTAACATCATAAGTTTTAAACTTTGAGTTTTTTAAAAATATTTGAAATTGTTCATCAATTACAGAATTATTCCAATTAAAAATATCTACGGTTTCACTTGTATTAAATGAATAATAAAAATTTCCCTTTGAATTTGCTATTGCAATTCCAATTACATCACTTGTGTGATAATTATCATTTAGTGTTTCTAAATATATATAGTTCTCAGAGTCACTATATTTTGGCTCTCATTTATTTAAAACAATATACTCTAATTTTTCTTCCTTGGTTTCCACACTGTTTTTTGAACTATATTTTTTTAAAAGAGAATTCATTTCGTATTTTATAAAAAAATTCTTAAGAGCTTCAAAATTTATTTCAGTTTTATTAAAGTCTATTTTATTCAATTCCATATCTTTATAAATTGTTGCTATTTCTTTTGAAAGGAACGCATCTTCTTTTCCAGAAATTAATTTAGCTTGCTTTGCACCTTTTATTTTTTCAAGATTATTATAAATATTTTCTAATGTATGGAATTCTTGTAATAAGTCCTTTGCAGTTTTTTCTCCAATCCCTGCAACACCCTTGATATTATCTGAAGAATCTCCTCTAAGACCTTTATAATCAATTACTTGCTCAGGAGTTACCCCTCATTTATCAAATAATTTTTCACGATTATAAACTACTAGTTCACTAGTTCCAATTTGAGGTGATAAAACAAATGTTTTATCTGATATCAATTGATACATATCTTGATCACTTGTTAAAATATGAGTTTCTGCTTCTTTATTACTTTCCAAAGTTTTAGTTATTGATCCAATAATATCATCTGCTTCATAATTATCCACTTCAAATCATTCGATATTGGCATTTGTTAAAAATTCCCTAACTATGGGAAATTGTAAAACTAGCTCAGAAGGAGTTTTAGCTCTTCCTGCTTTATAATCTTTTAATTTTTCATGTCTAAAGGTTTTTTTACCTTTGTCAAAAGCTACCTTAACGCAAAAATAATCATTTTTTTCAATAATATTCATAAGCATATTAATAAATGAGAATACAGCATTTGTGGGTATCCCACTTTTTGTTGTTAATGTTGCTCTTCCATAAGAACTATAAAATGCTCTAAAAATTAAAGCATTACCATCAACAAGTAAAAATTTGTTTTTCATATTTTCCACCATTAATTCTATATAACACAAAGAAACTTATCACTCTTTTTATTATAACTCTTTAACTACCTCAAGTAGCACTGCATTTATTTTATTATTGAAGCTTTGCGTTTTAATTTTAATAATTAAATTTTTTCCTAAATTTAATTTAGGTTTCAGATTTTCAAATACTGAAGCAAAAATTGTAACTATCATTGAATCAGTTTCATCAACAATATCGATAAAGCCCATTTCATTTCCATTTTTATCATTTTTTGTAACTATATTTTCAATATTTATAAGTACATCACAAATAATTCCACTATCTTTCAAACTATTTAAAGTTCTTAACTTATTACTGTTGATTATTTTTTGTCTCATTAGGGATAAAGGATGTGAAGATACAAAAAAACCTAAATATTCTTTTTCAAAACTTACTATTTCTTCTGGTTTATCTTTTCTTTTTTGTAAGTCCAATGATATATTTGGATCATTTAATAATGTCGCTGTTTCACTTAAATTGAAAATTTGCTCTCTTCTTAAAATTAAATCTTTTCTTGAAAAACCAAAGCAATCAAATGCTCCAGAATAAACTAATGCAATATATCTTTGTTCAGTTAAACCATTTTCTTTCATATTACCAATAAATAAAAGAATATTTTCAAAAACTTCTTTTTTAGTTTTAAATAGTAGTTTTATATTTTTTAGAAATTCTGGACCAATATATTTAATTATATTCATAGGAATATTTATCATATTATTATGAAAAACATAGATACTATTTGGGTTTTTTATTGTTGGGGGATTAACATTAAATCCCGCCTTTTTAACTTCATTTAAATATTGAGAGGTCTTTGTCTCATTTCTAATTGAACCATTTAATAATGAACAATAAAATGAAGCCTTATAATTAGCTTTTAAATATGCCATTCAATAACTTATTAATGAATATGCAATTGCATGAGATTTATTAAAACCATATAAAGCAAATTTTTCAATGTAAACTCAAATTTCATTTGCTTTATTTTTAGAATAGCCATTCTTGATTGCTTCATTAATGAACTCTTCTTTAAAATCTTGCATTAAAATTTTATCTTTTTTACCAATAGCTCTTCTTACAATGTCTGCTTTACTTAAACTCATATTAGCAACTCTCTGTAGCATTTGCATAATTTGTTCTTGATAAACTATTATTCCAAAAGTAGATTGTAAAATATCTTCAATATTTTTGTCAACTGATAAATCTTTAATTCCATGATTTTTTCTTTCAATAAATAAAGGAATGTTATCCTGCGGACCTGGTCTATACAATGCACTTGTAAGAGCTATATCATCAATTGAGTCTACTTTCATTTTAATTAATACATCTGTCATTCCCACTGATTCTAATTGAAAAATTCCACTAGTATCACCTGATTTTAAAAGATTAAAAGTATTTTTATCATTTAAAGGAATATCTTCTAACTTAATATTTACTTTATTAATCATTTTAATATTTTTAATTATTTCTTGTATTATTGATAAATTTCTTAAACCTAAAATATCAGTTTTAATTAATCCAATATCTTCTAGATAGTTCATAGAAAACTGTGTTTGAGAAATACCATTAATTCCAATTTTGGTTGGAACAACTTTATATAATTCAACATCAGAAAAAACTACACCTGCAGCATGAGTACCTGTTTGTCTTGGTAATCCTATTATTTTTTCACTAATGTCAAAAATTTGAGGATACTTATCTTTATATTTTTTTAAAATCTCACTGTCTCTTAAAGCCAAACTTAAGTCTTTGACATTCTTCTCATTAATCTGTTTGCTCATATGATTAATGTCACTAATTGGTATATCAAAAACTCTGCCACAATCTCTTAATGCATTTTTAATTCCAATAGTTTGAAATGTAGTAATAGTTGCAAAATTATTTTTTCCATATTTGTTAAATAGATATTCCAAAATTTCTTCTCTTCTATCATCTTGAAAATCTAAATCAATATCTGGAAGTGTAACTCTTTCTATATTTAAAAATCTTTCAAAAAGTAATCCTCATTGAATTGGATCTAATTTAGTAATTTTTAATAAAAATGAAACTAAGCTTCCAGCAGCTGATCCTCTTCCTGGTCCATATAAGATTTCTAATCTTATTGCTTCGCAAATCATATCATGAACAATTAAAAAATAGTCTTCAAATCCCATTTTATTAATAATATCTAATTCATATTTTAATCTCTCTTTATATAAATTTTTGTTCAATTCTTTTTTTGATTCCAAATATTCTTCTAGAAACTCTTCACAAATTACTTGTAAATAATTTTGTGAGGGCATTTTTTTACTGTTTGGATATTTTAAAAAATGTTTTTTATAAACAAAGATATTTTCAAAATCAATTTGTGAATATATTTTTAATAGATTATTTTGATGATTTTCAATATTCATATAATTGGCAACTAAGTCCTTTGAAAAATAAAAATTTTTATCGACATTTTCTAACTCTGAAATTAATTTTCCCTCAGATATAGCTTGTAAAGTTTTATATACCGAAAATTCACTCTCACTTAAAAAATTAATAGGATTTGCAAAAACGGTATTACTATTTTTTGAAAAATATTTATAATTTTGCTTATTTATTCCAATATAAAAATTGTTAGCATTTAAGATCTTATTAAATTTATCAATATACTTATCAACATTTTCAATTGAAAAAATTGATATAACAATTAAGTCATCTGAAATTATATTTCAAAAAAAATTCTCTAATTTCTCTAAGTCTAATTTATCATTTTCATTAATAAAAGAGCTTATATGGCTTATTTGTTGATAACCATTATTGTTTTTTGCATAAATTAAAATAGTTCCAAAAGACAAATCAATGTTTAAACCTATAATAGGTTTAATATTTAATTGCTTTGCTTTTTCATAGAATTCGGCTGCACCATACATGGTTTTTTTATCTGCATAAAAACCATAACTCAAATTATTTAATTTTAAGAAATTCAAATAATCTTCAATTTTAATTGTTGAATTTAAGAAATTATAGCAACTATGAATATTAAGTAAATTTAAGTATTCCATCCTAATTAAACCTCACTTACTTTATTTTACATTATTAACAAAAAAACACCATTTATTGAAATAGTGTTTACGCTTTTCTTTTGTTAAAATCTTCAACTATAATATCATATGCATTATTAATCTTTGTCATTTCAGCTTGAGCTTCTAAGTTACCTGGATTTTTATCTGGGTGATATTTTTTAGCTAATTCAATATATTTTTTTTTGACCTCTTTTAAAGTTACCCCTTTTTGTAATCCTAAAGCTTGATAGGCTTGATTAATTTGAGATTCTCCTTTATAAAAATCAGTATATGATTGCGATTGATCAAAACCCTGATCTTTTGTTTCATCATCAAAATAACGACTTTGATTATTATTTCTATTATTTTGATTTGGTCCGCCTCTTCTTTTTTTTCTACTGAATAACATATCAATAAGTAAATAAATAAAAATAAAATTGATTATTCTTCAAAGTAATTTAAATAAATCATCCATCAATTTCTCTCTTCTCTAAGTAATAACAAGCCAAACTATTAGTAAAACTATTATTAATAATATTATTATATATGCTGCAATTTTATAAATTAAATAATTTGTTTTTCTTTTTTTACTTTTAATATTATTTTCTCAGTCTTTTTTATTTAATGGTGAAGTTTTTTCAATTTCAGAAATTGTTAATGAAGAATCTTTATAATTTTCTATTGCAAATTCTTGATCAACTCCCAAAGTTTCACTATTGACTATATTGCCATTGAAAACTCCAAATTTATTTTTTGCTAATTTCTTTTTATTTGTTTTCTTTTTCACATAATTCACCATCTTTTCATATATAAGTTTTTATTAAATTTGTAATTGTATAATCAATTAATTCATCTAAAAGTAAGTTCTCTTCTTGTTTTTGAGCAATAAAAGATTTAGGTTTTGTAACTGGATTTTTTGGGACATACATTGAACAAACGTCATCAAAAGGCAATATAGAGATATTATACGTATCAATTTTTTTTGATATTTCAATAATTTCTTCTTTATCACATGTTAAGACTGGTCTCAAAATTGGCAATTTTGAAACTTCATTAATAACATTAATTGATTCAATAGTTTGACTAGCTACTTGCCCCAATGACTCTCCTGTTATAATTGCATTTGCCTTAATTAACTCACATAATTTATTTGCAATTCTTATAAAGATTCTTCTCATAATTGTTATTCTATAAGATTCTTCTTTTATATGCATTAATTCTTTTAAAATAATTGAAAAATCACAAATATAAAGAGAGAAATTACTCTGATTATATTTTTCTATTTTACTTGTTAATTGAAAAACTTTGTCCAATGCTTCTTTTGAAGTATGAGGTGGAGTCATAAAGTGTAAAAAATCAACTTGCATTCCTCTTTTTAAAGTTAAATAACTTGCCACAGGAGAATCAATTCCTCCACTTAATAAGGATAAGCCTTTGCCACTAACTCCAACTGGTAAGCCTTTTGAGGCTTTTATTCGTGAAGTAAATATAAAAGCACCATTATGCTTTATAATAACAGTTATTTTTAATTGTGGATTGTGCACATCAACAGTAATGTTTTGATTATTTTTAAGTATGCTCACTGCAATTTTTGTTTTTAAATCTTGAGAACTTACTTGAAAACCTTTATCTTTTCTTTCAACTTCAACTTTAAAACTTCCAATATGTTTACTTGCAACTTCCAAACATCTTTTTAATATTAAGTCTACATCTTTTTCTACAATTTCAACTATTGATAAAGAATATATACCAAAAATATTTTGTAATATATGACAAATTTCTTCTAACTTATCTGAATCCTTAATCTCCAAAACTAAACTGTTATGGTCTTTTTTATAAACAATAATATCTTTATATTGTTTTAATTTATATTTTATATTTTGAATTAGTTTACTAATAAAGGCATTTCTATTATTACCCTTTAATGTTAATTCTCCATATCTTATTAAAATGTTTTTCATTTATTACCTCTGTAATTTATCTTCTGTAATTTTCTTTAATTCTTAATAATGTTTTTAAAGAATAACCTATTAATTGATCAAGTTGTCTTGTTTTAAATAACCCTTCACAATCAAATATAATTTTTTCAATTCCTTCAATTTTACCTACATATCTTTCCAAATATATAATAATTTCTTGAGAAATATAGTCTAAAAAAATTGTATCATTTAAATCTCTTGCTATAAATAAAGTTTCCTGATTATATAATTCAACTTCATTTGATACTAATGAACGATCTTCTAAAGTTGATATTTTCTTTAACTTATCTGTAGAGATTTTTTGTAATTTAGCATGTATTTCTTGAATTGGTAAAATAAATTTTTCTAATTCTTTAATTGATTTATATTGATTTATTTTAACATCCAATTGATTTAAAATTGATTGAACAAAAATAATTTGATTTTCTAATGAATCAATATTTGTACTTTTACTTTCAACTGTTTTTGCAGATTTTTCTAAAGCAGTCATATCTTTTAATGATTGGTCCATAAGCTCAAGCATTTGAGATTTAATCTCAGATAAATTAATTTCATTTCCACTATTAGTTCCTAAATCAATTTGTGAAAATAATAAATCAGCTTTTGTTTTTGTTTTTCTAAAAGAAGATTTTGCATTTTCAAATTCATTTCTTTCCTTTGAAATCTGCTTTGAAATTCCTTCAACTTTTGCAAAATCTCTTTCAATATATCTTGATGATTGCTCAATACGGTCAAATTTATTTCTTATTTCTGGAGTTCTAACTTCAAAGAATGACTTTAAATTATCTTCATTTTCAACAGCACTTTTGAATACTGCAATTTGATTAAAGACCTCTTTTAAAGTTCTATTTGCTTTTTTAAATTGCAATTTCTTTAATTCATTATTAATTTTAACTCTTAATTTATCTACTTGATTTTCAAGTTCTGCATATTTCAATGCATTTCTTGGTAATTTTCTTTCAACAGGTCCAAAAGTAATATGTTTATTTTTTAAACTTATCATTAATTCTGGAATCACAGTTGTTATTGTTGAAATCACATATGGAATTGAATCTAAAAGTTCAATTAAAAAAACTAAGGCTTGATCAATTTTTAATAAATAATCTCAACTTTCCTTATATTTACCTTCATCTAATTTTAAATAGAAATCTTCAAATAGCTCATCTATTTGTTCAATAGTGTTCTTTAATTTTTCTTCATCTATGGCAACTTCTTTAAATGTAGTCATTATAACTTCATCTTTTAGTATTCTAAATAATTCTTTTTGAAATGTTATTGAATCTCTTTGAATAAATTCAATTTCAAGATAATTCATAATATCAATAAAAATATCATGAACATTCTTGTTAATATTTGTTACTCTTGAATAAATTGCTTCAAATTTTTTAACATTTTTTAAGTTAGGTAATGTATTCTTTTTATCTTCTAATAATCCAACAAAATCCACAAATATTTTTTGCAGTTCTTTTTCAAATAAAATTTCATATTTTGTTCTTCAAATCATTAGTTCCTTTTCAAAACTACCTGTTTCGTCAAAAATAATTGATATTCTATTTAGCCTATATTTTAAAGGAGATTTTTTTAAGTCATCAATTAAATCAATTGTTTTAGCAGCAACTTGAAGAATTTTTTTATAAATGCTTAATAAAATAAGAATAATGACTGTTGCCACAAGACAAGCTAAAAAAATACATAAAGCAGATATGTATATTGGATTCTTAAATAATTGATCAATATCCCATAATGATTTCATATAATACTTCCTTAGAATTAATTTCATTATATCATATACATAAATCTTGTTGTTTTTTTTCAAATATCTTATTTTTTACTCCTAATTTAAGATATAATTATTTTTGGTTAATCTGCAATTAAACACTGCAAAATAATTAGTCTATAACTTATTAAAAGTAACCCCTGCAGATGAAGGGCGAACTATAGACTTCCTTTGCTGGAGTTTAACTTTAGTTAGGATTTTCCAAAATAATATAATAAAAATAGAAAATTAAGAGGATTTAAAGTATGTCAAGATATACAGGCTCTACATTTAAAAAAGCTAGAAGATATGGATTTTCTATCTTAGAAACAGGAAAAGAGTTCTCAAAAGGTAAAAAAAGAACTACTGCACCTGGACAACATGGAGCAAGAAGAACAAAACTATCAGGTTATGGTCAACAAATGCAAGAAAAGCAAAAAGTTAAATTTATGTATGGTTTAACTGAAAGACAATTTAGAAATACTTATGCAAGAGCTAAAAAAATTAAAGGAATTACAGGTACAATTTTCTTACAACAATTAGAATCAAGATTGGATAATGTAGTTTACAGAATGGGATTATCATTAACAAGACAAGGTGCAAGACAATTAGTGTCTCACGGACATATCTTAGTTAATGGGAAAAAATTAGATATCCCTTCTTATGCAGTTAAAATCGGAGATATTATTTCTGTTAAAGAAAAAATGCAAAAAAATGACAAAATTGTTGAAGCATTAGCATCAAATGTATCAACTGTTGAATTTGTAAAATTTGATAAAGCAAAATTAACTGGGTCATTATTAAGATTGCCAGAAAGAAAAGAATTAAACCAAGAAATTAATGAAGCATTAATTGTTGAATGATACAACCGTTTAATTAAATAATGAGTTAATTTGTAAAAGCATCTGAAATTAAATTAAGATGTTTTTTTTATATAAAGTTTAAGAAGTATTTACATTAAATCTAATTATTAAAAAAATTTCTACTAAATAGAAATTTTTTTATTGTCTAATTATTTCATTTTTGCTAAGATCTATTATTTTTGATGGTTTAGATTTTAACTCACCATCTCAGAAAATCTCACTTATTTTTATATTAAATAAATCTAACTCTTCTTTTTTTGTCAAAAAGTTATTTCCTGAATAATTGACACTTGTAGAAAAAATTAAACCAACTTTATTTATTATCTTTTTTAAATCTTTTCTTTTAACTTTTCTTAAAGCAATTGGTCCATTTTGTCCATCTATAATCTGAGTTAGGGGTTCTTTACTTTTACTATTGCTTTTGAATTCTTTACTAATTTTTGCAATCTTTTTTAGTTGCTTAAATTTTGAAAATAAAACAATCAATTTTTTTGAAGTACTTGATTTTTTTATTTCATTAATCTTTTGTTCATTTAATTCATCATATAGGGCACTAATACCATATATTGTATCTGTGGGTAGAATTACTATTTTATTCTCATTTAGAAGCTGTATAGCTAATTGAATATTTCTTTTACTTAACATTATTTTCTCTTTCTTTGATAATTATAAACAGAGTTTAAAACTATTGATTGAGGTGCTCATTTTGTAAGAGACTTTGCCATTTTATTGCTTCTACCTGTTATAATATAATTTTTTCTTTTAGTTTTTAAACCTGCCAGCAAACTTTTTTTTGCATATGTACTTGTTTTCATAACCTTAATAGTTGATTTATATTTAGCTTCTTTTTGATTGCTACTTCTATTTCAAAATTCAGTTTTTAAAGGCCCAGGACATAAAGTAATCACTCTTACTTTTGATTTAGTCTTTTTAAGTTCTGTATTAATTGCAACTCCTAAACTTCAGACATAAGCTTTTGAAGCATAATAACTTGAAAAAACTGGAGCTGGTGTAAATGCTGCCATAGACCCAATGTTAAATATTCTACCTCTATTTTTCTTTTGAAATTCTTGAACAAATAACTTGGTAAGTATATGTAAAGTCTTAATATTTAGATCTATCATATTTAGTTCTTGTTCTAAATCAGATTCTTCAAAAAATCCCCAAACTCCGTAACCTGCATTATTAATAACAATTTCAATATCAAAGTCTTTAGATTTTTCAAATAGTTTATAAGAGTTTTTAATATCGCTTAAATCTAAGTCTCATGATTCAACTTTTAAATCCAAATATTTGTCTTGTAATTCCTTAAGAGAACTTGTATCTCTTGCAACACCAATAATGTTATAACCTAATTTCAATAACTCTTCACAATAAGCATAACCAAGTCCTTTACTTGCTCCTGTAACTATTGCATATGCTTGTTTATTTTGATTTTTCTTCATCTTTTTTCTCCGTTGAACTATCAAATAAAACTTTTTTATTTGCTTTTATATAAATAAATGCAGAAATAATTGAAAGAATAGTTGTTAAATACATCGGTATTATTACAACTTGATTAACTCAACCATATTCTCCCATACCCTCTCAACATTGAATACCTAAGAAAAATAAAATTGATAAACCTAGCATTTCAGCAGTTGCTCTAATTCTTCCCATTTGATTTGCAGCCATTACCACTGCTGAATTTGCTAATACTTGTCTTACAACATCAATTATAAAGTCTCTACATATTAAAATTACACACATTCAAATTGGAATTATTTTAAAACATGCAAATATAATTAATATGGCATTTGTTAAAAGTTTATCTGCTATTGAGTCAAAAAACTTACCAAAATTTGTAACCATATTGTACTTTCTTGCAACATAACCATCTAACATATCAGTTAAGCTAGCAATGATGAACAGTATTCCTGCTATCAAATATGTTAATGTTAAATTATAATTTCCAATGCTAATAACAGTTAATTTTAATGCTGGCACCCCACTATATATAGGTTCTACAGGGGTTAAAAGTAATAAGATAACTATTAAAGGAATTAAAAGTATCCTTATTAATGTAATTTTATTTGCTAAATTCATAAAGAAGCCTCTTTTCATTCTATCTTATTATAATATAACACTAACAACTAACCTATGAATATTTAAATATTTAGATATTCATATATGATAGAATATAAAAAATGAGGAATTTTATGGGAAATTTCATAGATGAAAAATTGTATATAGCTTTGGACGAAAGTGGAAAATTGAATAAAAATGACATTGCTAATTTTTTTATTGTTGGTGGTTTTTTGTATTCTGATAAAGACCTTGTAAAGACTAAAATACGTTTGATTGAAAATGAAATTAAAAATAAATATAACATTCCTAAGAACTTTGAATTAAAAGGTAATAAATCTGATGAACTTGCTATGGTAGATTTTATTAATAGAATTTTTGATGAAATTGGAGATTGCATTTACCCCATTTTTTCTGTTGTTTCTAGAAAAGAGCTAAGTGAGCACTTTACTGTTAATGAAATGTTGGCATATGATTTCTTTGTTAATAACTTAATACATTTTAATTCTAAATTGTTTTCTTTTGAAGAAAAATGTAAAAGAATTTTTCTCTTAATGGATGAAAGAAACTTAAAGAAAACTGAATATAACCAATTGGAAAATTTGTTGAAAACTAATTATATTGAAAAACCCTATACTATAAATACTTATTATTTATCTAGTAAATTAACTGATGTTATTAGACTAGCTGATATTTTGGATCATGTAGTCTATACTTTTTACAATAATCCAAACTCTGAAAAGAATGAATTATTTCAAACAAAAATAAAAAAGGAATATCTAGAAAGAATTAAAAATGGAACAATTTATTATCCCTTTAAAAAGTCTTACTTTAAAAAAATTAATGAAATGAACAAAAAATAAAAAAACTGATATATTTACATATCAGTTTTTTTATTTATAAATTTAAATTTTTAATCCTGCTTGAGCTATTACATTAGAAAATATCTCAACATTAACTATTAAACCCATATGTTCTGCATTTGCTGATGATAATTTAACAATATCATGAACTCAGCCATATTCATCAATAAGAGCATTATAATCAATAAAATAATCTAGCCTTTTAATTTCATCTTGTTTAATCAAAACTTCTTTTGCCAAAACTACAATCTCATTAATATTTTCACAAGGTATTATTTTTTTAAAACAATTTAAAAGTTCTTCGACTTTTAAATTATCTAAAAATCTTGATGGGAGATTTTCGTACTTATTTAAAACTCTTTGACAATTTGATGTCAGTTTTCTTATAACAAATTTTTCATTTAGATCAATCAATTTTACATCAGATTGAGAATGTTTTAAAAAATTTAGATCAGTAAAAGATTCTTTAACTTTCTTAAAAGCTTCAAAAGCAGATGACAGTAAAATCTCTGTACTTGCATAAAGCTTATGATCAACATTTGATCTTGTTAGCAATTCTTGATTCTCTTGTCTTAATATATTTACTTCCTGAATAATCGAATCAATCATATCTAAATTATCGGTAGTTATTTTTTCTATTAAATCTTCTGAACCTAATTTTATGTTTTTGTTATTTATTTTTAAGTCTTTAAAACACTCTTCATTAAAATAAATTAAAATTTCCCCTAAAGTTTTTTTCAAGATTAAATTAAAATTCATAATTGAATACTCCTATAAAATTTCTATAATAATATATTTTTTCTTACCTTTTTTAACAATAATAAAATTATCTACTGTTGTCATTTTTTCATTAACAATAGTTTTTTCATCAAATTTATTGCTATTGTTAATTCAAATTGCTCCTTCATTAAGAAGTTCTCTAGCTTCTCTTTTTGAACTGGCTATTTTTGACTCCACTAAAAAATCAACCATTTCCTGATTTTTTTTAACTTGCACTTTCTCCATAGAATTAATTATTGATAATAATTCTTCTTTTTTTAAATCAGATATATTACCACTAAATAAAGCTTGAGTTATTTTTTCAGCCTTTTTTAAACCCTCTGGTCCATGAACAAAAGTTGTAATTTCTTGAGCCAATTTTTTTTGCATTAATCTTTTAAAAGGCTCTTTAGCATGTTCAATTTTAACTTTTTCAATTTCTTTTAATGAAACAGTAGTTAAAAATTTAAATAATTTTTCACAGTCTTCATCATCTTGATTAATAAAAAACTGATAAAATTCATATTCACTTGTCTTATTTTTGTCTAACCAAATTGCTCCTGATTCAGTTTTTCCAAATTTCACACCGTCTTTTTTTGTTAAAAGATTCATTGTTATTCCACAAGCTTTTGAATTTTCTCTACCAATTTTACTTGCTATATAATCAATACCACTTGTGATATTACCTCACTGATCTGATCCTCCAATTTGCATTCAGCAATTATGATCTTGATATAACTTGTAGAAATCATATCCTTGAAGCATTGTATAAGAAAATTCTGTAATACTTAATCCCTTTTCAATTCTAGATGAAATATTTTCTTTTGCTAATAAATAAGCTAAATTAAAATCTTTACCAATTTCTCTTAAGAAATCTATTAAAGACATTTTCCCCAATCAATCATTATTATTAACAACTTTAATATCAGGTATTAAAAAATTTAATTGTTTTTTAAGATCTTTAACATTTTCTTCAACTTGTTTTAAAGTTAATAAATTTCTTTCTTCACTTTTAAAACTAGGGTCACCTATCATTCCAGTTCCACCACCAAGTATTGCTATTGGACTAAAACCAAATTCCTTAAACCTTTTTAAGTTAATGATTTGAATTAAGTGACCAACATGAAGTGAATTGGCTGTTGGATCAAATCCACAATATAATCCAGCTCCTTCTTTTTGAGCTTTAATTATTTTTTCTTCATTTGTGTATTGCTTGAGTAACTCTCTTGCTTCTAGTTCTTTTAAAATACTTTGCATTTTACTTCTCCTTTTTAATTTTTGGTTTTGCTTTAACTTTTTTTGAATCGCCATTTTCATAAACATCATCGCTCATGCTTATTGATACATCTTTTACTTTTGAATAAACGTCATCTGCTTTATCAATAATGTCAACAGTTATTAAAGCTAAGTCCTTAGCAATAATTTTTACATTATCAGATTTAGAGATTTCTTGACCAATTTTAACTGTTGCTTGACCAATTTTTTGTAAAGCTTTAAATGCTAATTCCTTTGTTTTGGCTGCATCTAATTCATCACTTGCTTGTCTAATATTTGAAAGTTTCATTTCAACATTAGCAACTATTTCATCACTTTCATTTCCTTGAGATTTTTCTCAAGTTTCTTCAATAGTAGTAATTAATCTTTTTATTTGTGGTCTATATTTTTTTAAATAATCAACAAAGTCAGCTCTAATCTCAACACCTTTTTTTGGAGCTAACATCATTCCAATAAAGACTCATGAGGCAAATCTTATTAACTTAAACATATTTTAAAACCCCCTCATTCTAGTCTTTTGAATTAGCAAATTCTCTTAATTTATCCACTAGTTTATAAACAACATCTTTATTTTTAGTTGCTACTTTAACTCATGATTTAACATTTCTTTTAGCAAAAGCATCAAAAATATCTGCATAATTTGTAACTCTTGCAACAGTATCAACTGTTGCATTTAACATTTCTGATTTATAAGTTAAGTCCTCAAAAAAATAATCAACTTTTTTAGCAGCTATTCCTACTTTTCTTAAAGTGATTATTGTATATAAAGTTAAAATTATTGCTAATGCTAATAGAATAATTATCATAACTGTTTGTGTTTTTTCAACTGCTGTTGCATAAATTAATGTTAAATTCATATATAAAATCTCCTAATAATTATTAAAATTATATAACACTAATGTGCCTTTTCAAAAACAAATTGACATATAAAAATACTTGATAATAAAAATCTATTCATCATCAAGTATTCCCAATCTTTCCATTCAATTTTCACTTTTTCTTATTGAATTTGCTTTAACTTCTTTTTTTATTTGATTTGTTCAAGTAGCTCTATTTTTATTTCTTAATTCAATAAGTCTTCTTGCTCTTTCGGTTTCAGCATTATAGGCTTTACTGTAAATATGTTTTCTTCTATCTCTAAGAGATACATTTTGTTCTCTCAATGCAATGGTATCTATATTATCATGGACTTTATCAAAGGCTTTTAAATATTCTTCTTGTAACTCTACTGTTTTTTCTAATTGTTCTGTATCTTCTTTAAAAATTAAACTGCCAATTTTTCTATTAGTTTTTAAAATTAATCTTGATAATTTTTGTTCTTCTTTTAAAAGTCTTTTTTCAAAAATTTTGCTTGATTTATCAAATTCTCTATACTCTGATTGAATATTTGTAATTGTTTCTTCTATTTCTTTTTGCTGTTCAGGACTAAAAGGAAGGTTCTTTTTCTTTCTTGGTTTTATAATATCTACTTTTTCTAATTGAGAATTTTTAGTCTTTCTTTTTGGAACATAAAAATCATTAGCAGTTGATTGTGAGCTCATTAATATATTACTATTTTTAATTTCTTCAAGTCTTTTTTTTGTCTCATTTGTTTCATAAGTTTTCTTATTTAAAATGAAATCATCATTTTTCTTGTCCATTTAATTTCACCCTATTTCTTTTTACTCTGAGTTCTTCTTGGTTTAATAAGTTCTAATTCAGGTTTTCTATTTTCTTTAGTACTATCTCTAAGTAATTTATCAAATTCTTTAAGCTTTTCATCAAGATATTGGTCCTTTTTACTTTGATCTTTAAATTTTTTTGAATCAATCTCTTGTATAGTTAAATCAATCTCTTCTTCTATATTTCTAAATTTTACTTTTTTAATCTCTAATAATTTATTTTTTAATTCTTGCTCTCTAGTAATTTCTTGAATATGAGAATAAGAATGCAATTTTCGTGGTACTTTAAAAATTCCTTTTACAGTTCGATTATCTTTTTCCACATTTAAATTTTCAATAATTTCATTAGTTTTAAAATTTGAAGATTGTCTTTTTTGTTCTTCTCGTTTACTTTGAACTTCTTGGGATAATCTTCTTACTCTTTCTAATTCACTTTCTACTGGTTTACTTGTATGTTTAGAATAGAACTCCTTTGCTCTATCAGCATAACTAACTGTATTTTTTTTAATTTTTTCAACATCAGTGTATAATTCTTCATCAACACCACCTGTTTTTCTTAAATTTTCTATTTTTAGTAATTTAGCAATTACTGGGTCGTTTTCAAGTACTTGAGTTTGAATGTCTTGCGAGTTTTTTCTAGCACGGTCAATAATTGAACCTAAAACTCCCTCTCTTTTTTGAGGTGTCACTTTTTGAGCGCCAACAATTTTTCTTAGTTCTTCTAACTTATTTCTTACAGAAATATCTACATCACCAGAAACTTCAGTATTATCTAAATTCGAAGATGAAGAGAAATTTTTAGATATTTTGCTAGCGGCAGGATCATCTGAGAATAATGGTTCCATATTCAGCAAAGGGTCATCATTATATGTTCAATGATTTGGAGTTCTTTCCTCTTGCTTTTGATTAGAGTTTTCAATTACTTTGATTTTATCTTTATTTTTAGTTTTTTTATTTTTAAACAAATTCATTAGAAAACCACCTTCTATACAACATTACATATATTTTATACTTTTTATCTTGTTTGAAAAAGTATTTTCTCTACCAAATTTAGATTGCTTTTTTCCATCAATTAATACAATATCACCTGTAAAACCTATTTTATTTTTGGTAATTGCATCTCCTACACCATAAATATCTACAGGAACACTATTTTCTTCAAAATATCTAATCTTATATTCATCAAAACCAGATGAAACAATAATCTTTACATTTTGATGGCCATTCAAATCCAATTTTTCTCTTAACATTTTTACTAAGGTAGGATTTACACCATGTAGTTCATTATCTTTTTCTTTCAATTTTAATAAGGATTTATCAACTAAATTTGGAGAAGTATCCAATCTTACAGCAAAAATTTCATTTTTAAAGTGATTACATACCATTAGAGAGTCATTTATACAATCATTATTATAATCAACAAGTGCAACTAAGTTATTATTAGGAAAAACCTCTTTATAAGCCTTAGTAGCTGCAATTAAGTCACCATTAAATGAAGCAATTAATGCATGAGGCATTGTTCCATTCAATTCCACTTCTTCTTGCAAATATTCAAAAGAAGCATATGTAACTAAATTTTTAATACCACCAACTGTTGATGCATAACCATCAACTTGCTGATTTGTATAATAATCCATTCTATCATTCATATTTAATACTTTTTTGCCATTTGCAGCAATTGAAATTTTTCGAGCATTTGTTGCAACTGTTGAAGCTCTTGAAAGAATACCATCAAAAAGACCTTCAAAATGGGCAAAATCATTGTAATTTCCTGTTATTTTTAAAACCGGTTCTAGTGGTTCTACTATATCACCCTCATCAACTGCTTCAACTTTAAGATTTTTAATTTTTGATAATCTTAAGATTTCTTTTATGATTTCAATACCACAAACTACTGTATTTTCTTTTCTTTGAAATCATTGCATTGTTACTAATTGATTAGGCTTAAATTTACTAAGAATTTCTCTAGTTTTTTTAAAATAATCAGCTGAATAGTAATCTTCAAATATTCTCAAATCAATATTGAATTTATTTTTCATTTAAAACACCCCAAATTGATTTACCAATATATGTATCATCAACTTCTCATTCCATAATTCCATCTTTATTATATTTTTCATCATTAATTTCTAATTCTTTTGCAGAACATAACATTCCAAACGAGTCTAATCCTTTAAGTTTGCCAGCTTTAATTTGACTGCCATCGGGCATTCAAGAATCAATTGTAGCCAAAGTTGTATAGATATCTTTTCTTGCATTTTTTGCTCCACAAATAATTTGAATTTCTTCTTTACCAGTATTAACTTTACATTTTGATAAATGAGTTTCAGGAATTTTTTCACATTCTGTTATTTTTGCAATAATAAACTGTTTTTCAAATTTAATATCTCCAAAATATTGCTTTAAAATAGGCCTAATTTTTTGTTGTAATCTTTTATCTTCCAAATAAAAGTTTTGCTTTGAATTGAAATTAAGAATGTTAAATCCAGCAATTTCTTGATTATGAAATAAAACTGCTAAATTTGAGTCTGTTTTTGTTTCAGTAACTTTTTTATTACTTAAAATAACTGCTATTGTATTAAAGTTTCTAATATATTTTATAAATAATTTCATATCAATTACCTGGCTTTTCTATTGGAATAATATCAAAACAATTATATAATATATTAAGTCTTTTATATAGAGGAGGAATTATGAAAATTGCAATTTTAATTGACTCTTCTTGTGGGATAAAGAATACAAAAGATTATAAAGACTTGTATTTGATTCCATTAATGATCACAAAAGAAGATGGACAGCAAATAGCTGATGATGAAAATTTAAGTACTGATGAGTTTTATAAATTAAATGACTCACAACTTTTAAAAACTTCACAATCTATTCCAGGTGATGTTATGACAAAATGAGATGAATTATTAAAAGATTATGACCAAGTAGTTTGTTTATTACTTTCAAAAGGCCTTTCAGGACAGTTTAATACATTCAGAATGTTTTCTCAAGAAGATAAATATAAAGATAAAATACATGTAATTGACAATAACGGTGTAAGCATTGTTATTAAACGTCAATTAGAATTAGTTCAAAAACTAATTCAACAAGGAAAAAATGGACAAGAAATTAGAGATATCATTGAAACACATTACAATGATATCCACGGTTATATTATTCCTAAATCTCTTGTTCAATTAGTTCGTGGTGGAAGAATAAGCAAAGCTGCCGCAGGACTTGCTAAAATATTAAAAATCACTCCAATATTAAAATATAATGGAGAAATCGATAAACAAGGAAAAACCAGAACTTTTAAAAAGGCTGTAGAAGAAGCATTAAAATTATTAAAAGCTATGTATCCTGAAAATAAAAAAATTGATATTTCACATTCAAGAACTGATGAAGAAACTATCAATCTTGTTAAAAAATTAGTAACAGATGCTGGTTATGAGATTGGATTGTTAGATGATCTAGCAAATACAATTATTTGTCATACTGGTAGAGAAACGTTTGCTTTTATGCCGTTTCAAATATGAGGAGAAGAACTATGAAAATAGCTGTAATTACTGACTCATCGTGTGGAATTAATGATATAAGCAGTATTAAAGACCTGTATTTAGTTCCTTTAATGATTACTAAAGAAGATGGAGAACAAATAGCTGATGATGAATTATTTAAAGCAAATGACTTTTATAATTTAAATGATTCACAACTTTTAAAAACTTCACAATCAATTCCAGGTATTATGATGGAAAAATGAGATGAATTATTAAAAGATTATGACCAAGTTGTTTGTTTATTACTTTCAAAAGGTCTTTCAGGACAATTTAATACTTGCAAAATGTTATCAAATGAAGATAACTACAAGGGAAAAGTATTTGTAGTTGATACAAATGGTGTAAGTATAATCTTAAAAAAACAAGTTCATTGAGTTTTACAATTAATTAAAGAAGGAAAAAATGGACAAGAGATATCTGATATAATTGAAAAAGCAAATAAAGACTTTAGAGTATTTATTATTCCTAAATCATTAACTCAATTAGTTCGTGGTGGAAGAATAAGCAAAGCTGCCGCAGGGCTTGCTAAGTTTTTAAAAATTACTCCAATATTAAAATATAATGGAGAAATCGATAAACATGGAAAAACTAGAACTTTTAAAAAAGCAATTGAAGAATCATTAACAGGACTAAAACACTTTAGTAATAAAGACACAATTGATATTTCATATTCAAGAGTTGATGAAGAAACTCTAAATATGGTAAAAGAAACAGTAATAAAATTTGGATTTAAAATTGGATTTTTAGATGAAATGCCTAATACTATTACTTGTCATACAGGTAGAGAGACATTTGCATTAGGAATTTGACTATAAAAAAATAAGGAGAATATATATGAAAATAGGAATATTAGTAGATAGTTCTACTGGTTTCATTCCAGAAGAACATAATTCAAAACTTATAAGGGTAATACCATTGCATTTAATTGTTAATAATAAAGACGACTATTTGGATACACCAAAAGTTATTAAAGATAACGACTTGATGAAAATTCTTGCAGGAAATAATCGTACTACAACAAGTCAAGCCTCACCTGGTGAGCTAATGGAAAAATATGATGAAATGTTAAAAGAATTTGATCATATAATTCATATGACAATTCCTTCAAATTTATCAGGTATGCATCAAACAGCTGTAATGTTAGCAAATGATGACAATTATAAAGGAAAAGTTACAATTATTAAGCATTTCCTAGCAGCTAATTGTGTACAGTTATTAGCATTAAAGTTTGAAGAAATGATAATGGATGGTATTAATGATATTTCGAAATTTCAAGAAGAAACAGATAAATGAACTAAGGACACTTGAATTGCAATTATACCAAGTGATCTAAAAAAATTTGCCGAAGGTGGTCGTGCTAATTCACTTTTAATAGCAATTCTTAAATTTATGAAGACGAAAGTTTCAATTCAATGATTAGAAAAACCAAAAAAAATTGGTATGGGAAGAACATATAAAGCAGTTTTAGATAAAATGACTACAGCTTTAAAAAAAGAAATGAAAAATGAATATGAGCTACTTCTTGTATCATTAGAAGAAATAAATCATAAAATAATTGAACAAATCAGAAATTATCTATCAGAAAATAAATTGGAATTTAAAGAAGATAAAGTACCTACTGTTTTTCCTTGACATGCAGGTATTGATACAATAGCACTTATAGCAATTAAAAAAACATTACTACCTAAAAAAATAAAATAACTTTATGTACTTAATTAGAAATACATAAAGTTATTTTTTTTTTTTTTTTGGCAAGGGTAGCAGGACTTGAACCCACGACACTCGGATTTGGAGTCCGATGTTCTACCAACTGAACTATACCCCTATTTATAAAAAAATACCCAAAATATTATTTGGGTAAAATTTAGTTTTATATTTGGCAGGGGTAGCAGGACTTGAACCCACGACACTCGGATTTGAAGTCCGATGTTCTACCAACTGAACTATACCCCTATTTAAAAATACATTTTAATTATATCATTAAAAAATATTTTGTTTAAATTCAACATTATTTTATTTACAATTTTTACAAATTCCATGCAGCTCTAATTTAAAATGTTCTAAGCTCATATCTTTATTAGTTAATATCTCAGAAAATCTCAAAAATAATTCACTTGCCAATGAAGGACTTTCTAAATCTTCTAAACTCCCACAATTATCACAAAAAATATGCATAAGTTGTGGTGAAATAGCTTCATAAATTATTTGCTTACCATTAATAGTGTTTGCAAATAATAAATGCAATTCCAAGAATAAGTCTATATTATTATAAATTGACATTACATTAACAGAGCCTAGATCTTTTTCAACCATAGAAATAACCTCATTAATTGTAAAGTGCTTTTTTGAAATTATAATATTTAACATAGATAATCTTACATCTGTAAGCTTAATTTTTTTACTTTTAAAAAGTTTTAAATATTCATTTAATTTATTTTCCATATATTATTTTTTTAATTTCTCAATTATTTCTAATAGGTCACTTACTTTTTTAATATTTAATAAGTCTTCATCTGAAACAGTAATATTTAATTTATCTTCTAAAGTAACAATCATATCCATTAAATCAAGTGAATCTAGACCCATTGATTTGAATTCTGTGTTATTTGTAATTGTACCTTTTGCACCCTTATTTGAAAGTGCCTTTTTAATTTCTTCAAAATAATTCATTTAAATCACCTCTAATAATTATAACTTAAATAAGTTTAAAATTTCAACTATATCTATGATTTACTCCTTGATAATTAACATAAATTTCTTTTGGGAGAGCTAAATTATCTACTCCAAACTTAATTTCAATATTATTATTTTTTGGTCCGAGTTTATTAAACTCAATTATAAAATAATATTTAAATTCATTTAAAATAAAGTATTTTTCCTTTGAAAAATTAATTATAAAAATTTTCTGTTCTAAATTAAAGTTAATTTTTAAATCTTTTTTTACAAAATCACTTTTTTCAACTACTGGTGGTTTATTAACTTCTTCAACTCCATTATTTTCTTCAATAACTGTATTAATTGATTTTATATAATAAAAAATTATAAATCCAAAAGTTGAAATTATTGATAGTAAAAGTATCAATAGGAATAAATACTTATATAATTTTTTGATTTTCATTTATATAATTAATAATACTTTCTTTTTCTTTTCAACCTATTGAATTAATTTCATCTATTTTATAATTTACTAAATAATTTAGTTTATTATTAATTTCTCTATCATAATTTATCTCATATATTCCTTTATTTAAGTTATCACAAATATAGTCTATGGATATTTCTCGTGAATTTAAATCTATGACTCTATTATAAATAATGGGGTTATTATATAAGGGATTTCATAAAATACCCCTTTCTCCATTTTCTGTTTCTTCAACTAAGCTTTTTGGAAAACTATATGAAGTAAAATTATCATTAGTTATTTCATAGTAATTTTCTTGATATGTAACTCTATCTTTAATTTTTTTTATATTATAATAATTTGAAAAATTAGTTACACTTTTTAATTTTGGAGTTGACTCTAATCTATTAGTTCTATTAGCACCTTGTAAAAACATTTCAATAAATAACTTCATTTTTTTTCCTAAAATTGATAATTCCAAATCATTTCATAATGAATAATCACTTTGTATTCTAATTTTAGGATCAATTGTATTTAATGAGTTTTGTTCAATTTTAATTTTCAAGTCATTTTTTATTAAGTCAAAATAGTTTTTTTTATATTTATTATTAAAATCAAAATTCAAATAGCCATAAGCTAAATTTGCAATTGTAACTGTAGAGTTATTAGTCTGATATATATTTTCAGTTAAATTTCTACGATCAATTTCAATAGTTCCATAATTGGTATGAGGTTTTAAATCATAACCTTCTACATTGTAACTAGCACTATAAGAAATAACTAACTGCTGTTGGCCATCCACTAAATTAGCAGGTATATTTAATTGCATAAAGTCAAAATCATTTAAAGTATAAGTTCTAAGTCTTTTACCTATTATCGTATAACTAGGGATGATAAGTAAATCTTCTTTGCCAACTTTTATATTTTCTACTCCTGTTGGTGTCTTTATATAAAATTGAATAGCTCCTGATTTAAAATTTATTTTTGTTTGGTACATTATAGGATTTTTAAAAAAATAGCTTCTAAAATAATCATAACCATTTTTGTTTGATAAACTTGGACGTACAAATAATCTATAATATTCTTTCTTGTTAACAATATATTTTTCATTAAAAAATACAGCATCTAAATTTAAAGTGTTGTTTTTAACTTCACTAACTTTTATAAATTCCTTATCTTGATGTTCATTTGTAAATTTAATTTCGTCTTTAATATTTATATCTAAAATAAAATCACCTCAATTAGGTTATCGCTCATTATTGATAAAAAAAGTCTCTTTTAATTAAAAAGAGACTTTAAATTCTTTAATGGGGCGTATAAAGGGAATTGAACCCTCGAGTGCCGGAACCACAATCCGGAGCGTTAACCACTTCGCCATATACGCCATAAAATATTGCACCTATTTATTATACTAAAAAGAGCAAAAAAAATACAACAATTTTGTTGTATTTTAAGAAACTGTTAATATTTCTGGTTTTTCAAGTATTGATTTAACTTTTGCTAAGAAATTTCCGCTTTCTGCAGCATCAATTATTCTTTGATCAACTGTTAAACTCATATGCATGATTGCTTTTATAGCTAATTTTTCATTATCAACTACTACAGGCTTTTTAACAACCTTTCCTACTCCAATTACAGCTGCATTTGGATAGAAAATTGTTGGAGTTGCTTGAATCGCACCAACAGTTCCATAATTAGAAATTGTAATTGTGCTTCCCTCTGCTTCATAATTTAAAAGTTCTCCTGCACGAAGTCTTGATGTCATTTCTTTAATATCAATTGCAACTTCTTTTATCGATAATCTATCAACAAATTTTAATACAGGAATAATTAAACCTTCACTTGTTTCTGTGGCAAGTCCAATATTGTGATATTTTTTAATAATTACCTCATTTGTTTCTGGGTCGTAACTTGAATTTAATCTTGGATATTCTTCAAGAGCAATTGAAATTGCTTTTGCTATAAATGAAATAGTTGTAAATTTTATATGATTTTGAGTTTGTTTTAACATATGCTTTAATTTTAAAATTGAACTCATATCAATTTCTGTTGAAATTGTTAATGGTGGAATAAAGTTTTGACTTAAAATCATTGATTTAACAGCTGAATTTCTATTTTGATTTATTTTTTCTCTTTCAATAACTTTGTTTTGATCATTAGATTCAAATTGCAAATAGCCAACTGAGTTATCTGGTTTATCCTTTTCAAAATTTATTTCTCTAATATTTTCTTTTTGTCTTTCCAACTTTTTAAAATCAATTTCTTCTTGTATAAGTTGCTCCTCTTCAAGTCTTTCTCTTTCATATTTTTCTCTAAATTCTCTTTCAACTTTTGCAATAATTTCTTGTTCTAAAATTAATCTTTCTTGTTCCTTACGTCTTTCTGCTTCCAATTTTTGTTTCTCTGCTTCTTCTTTAATTTGCTTTTCCTTTAAATCATTTGCAAAAAGACTAATTTCTTCCTTGATAATTGACTTTAAATCACTTGCACTTATATCTCTATTTGTAATTTTATTTTGATTCATATTTTGCATCATATTTTGCATTAACATATACTGCATCATCTGACCGAATGTATCTGGACCAGCATTAAAATTTGATTGTTGATTTAATTTTGAAGTTGCTGCATGTAACTGATTTTGCTCTTTTAAAGTTCTATGTAATTCTCTAATTTCAGATTTTAAAAAATCCAATGTTTCATCAGCAATTTTTTTATCATATACTTTCACAAGTTCATCATCCTTTTTACTTATTTCTGTTTTTATTTCTCTTTGAACAACTTTGGGAGTTTTTTCAGGAATATCATCTTTTTCAAAATCAACTGTACTTGAATTTTCAAGAACAAGAGAATTATCAAATTCATCGTCGTTTGCATTAAACTCCTCAGTTTCCATTGTTCTTAAATTTTCATTTTCTGAAAGTTTTAAGTGAATTTTTTTATATATTCCTTGCTCTTTCTCTTGATCTACATCTTGGTTTTTCTTCTCATTCAAAGCCTGATTATTTTCCTGACCTTTAATTTGCAACTCTTGAGTTCTTTCAATATATCGCTTTTCTGCTTTATACGCTGAATACAAATTTGTAGTTTTTAATCACTTTTCAAATTCAATTCTACCTTTTGGTGTCTCATTATATAATACATATGTTGTAGCTCCAGTTTCAGGGTCTTGATGTAAAACTTCTCTTAAAAATTCTGCTGGTATTCCAATTTCTTTTATTTTTTTACTAAAACTTAAATTGCCCTCAAGTAAACCTTGTTCAACAGCTTCTCTTCTTTTTCTAATAGAAGTAGAACTATCATCATTTTTAATAACACTTCATCTTTTTCTTGTATCATGAAGTTTAGATAATTTTGCTTCTGCATAATTTCAATTAGGTTTATAATTACTTTCCATTTTATTAAATTGATTTGAATTATCTTTACTCATTTTTGCCCCACTGAAATCAATTTCATTATTAGAATCTACTAATGCTGATTTTTCTTCTTTAAAATATGATTGATTTAATACATTATCTTGTTTATTAAGTGTCTGAGAATTATCTCTATTTTGATTTGTAATTTGAGAAGTTTGTTGTAATTGACTATTATTGTCATTCGAATGTTTATCTGGTCTGTCATTATTTTTAACTCTCTGATGGTCTAAAACAGCATTATTTTTGATAGCTATAATGTCTGATTCTAAAACTCTTGGATCTCCCCCTGCACTATTTAATTTTTCAATTCTTGCTTGAATAATATTTCTCATAATTAGTGGGCGACCTTTTTCATCAGTTTTTGACATTGCATTAATTTCAGCTGATGTATCTTTAAATTCTTTAAAGTTTTCCTCTTCAAGTAATTTTTCTTTTCTAGCTTGTACAAGTTGTCTAAATTTACTCATTCCACTAACATTATCTGTTGACAATAAGTTTTTACCATCTTCTCTAACTACTTCTTCTGGGGTAATTTTTAATAATTCTTCTTTTGAAAAATCTCCATTATAATTATTTTGAGGAGCATTTTTAATTGATTCTTTAATATTTGCTCTCATTTGAGCAAATTTATCCATTGATTGATTGTTTGATTCGCTCATATTGTTTTTTTCCTCTTGACTCTCTTGTGTTTTAATTGAAGTACTTTTAAATTCTTCTTTGATATTATTATTATTATTATTTGCTACTGTTGATTTAGTATTTTGATTAGATGATTCTTTTGTTATTTGCTGAGATATTAAATTTTTGTTAATATTACTTTCTTGCAAGTTTTGTTGCTTAGTTGTAGTTTCTTTATCAATGATCTTAGAAACTTCAATTCTTTTAAAACTTTCTCCCTTATATTTTTTAATTTCTTCTTCTCCAATTACAATATTTGCCAAAATACTACCATTTTTAATAGGACTACCTATTTTAATTGTTTTTGCAATAAGACCATTATAATTAGACTTTATCTTAACTTCTTTACCATCTTCTAGTTCAACCAGAGCAAAATCTTCACCAAAAACAATTTCTTCTCCAGAAAATAATCATTTTTTTAAAATAGCTTTAGATTGTAAATTTCTAGCTCTTAGATGTACCATAATATGACTGCCCCTTTAGTATTTTTATATACCACCTATTATTATATAAAAAATAAAGGCAAATTCCTACCTTTATTAGTTAACATATTTAGTTTTAAATATTAATACTCCATTTTTTACAAGTTTTTTATAACGTTCTGCTTCTCTTAAATTATCTTTAACATAGGCTCTGTCTTTATAATTAATTGACAAAATTCATCTTTTAATTTGAATTTTATTGTTTTTTTCAGCTAATTTACTATTTTTAATAGAGGCAATTTTTAACTTACGTTCGAGAAGTTTATTTTTAATATAATCTCTTTTTTTAGCTTTTCTTTCATTTTTCTCTAATACTTTAATTCCTTTTAAAAAGACTTTATATTCAGTTTTTTTGTGAATTAAATTCATTTTAGCTTGATTTTTAATAGTTACTTTTTTTAATTTCTGTTTTTGGATACGATATGCATGTTCTTCTCTAGTGATCAATTTTCCTTCAATATCATGTCATCTATAAAATTTACCATTATTTCATCTTAAATAAATAAATTGTAAACCCACCACTATTAAAGTTATACATAAACAAGCAAATAAAAAAGTAGATATAACCAATCATTGTGGGCCAAAGCTTTCTCTAGCAATAAACTTTTGCCCATCAACTGTATATGATAATTCATATTGGTGGATATTTAAAAATCAATATGGATATCACATTTGCTCAGTAAAGTGTCTTGTTTTATCAATAACACCATTTTCAGGACTTCAAATGTTATTTCAAAAATAATCATAACCAGAAAATGCTGAGCTAATATTGCCACTTGGTGGACTATATATTCTTGAATAAAATTCAGGCGAATAAAAATTATATCTTAATTCTCCTCTTATCATTGTAAAAATCAAATATCCTGTTGGATATAAACAATTCATTGGTAAAGAGAATTTTGAATATTTTCTAGGAGAATAATACTGATCTCCACAAGAAAAAATAAAGTAACCAATCATAATACTTGGAATAAAGATATGTAGAACACTAGTAGAAACTCAACTGGATGGATAATATGCACCCATTTCATCAACAGATGCAAGAAGTCCAAATCAAAAAACAATCATAGTTAAACTTATATATACTGTCATTGCTAATTCTACTGAGAATGGCGGTTTTGTGTTATATATTTTTTTCATAAAAATTGCCATTGCTAAATAGAAAACTACAGCATAATTTGATTGAGTTGTAAAAAATGAATAATATATATTTAATCTTTCTAAAGTAGGAATCCCTTCAAGATTCTTTTTAGGTGAATATATTTGTAAAACAAAATCGAACGCTAAAAAAGCAACTAAAACCATTAGTATCATTACTTTTAAAGAAAATTCAAAATCTTTATTAAATTTCATAATATATCACCTTATTTCTCATTGTAAAAATTATATCTAAATACAATAAAAAAACCAAACTGATATACTACTATTTGTATAAGATATTATTTATAAAAATTTTAGAGTTTGATTACAAATCATTAACTCTTCGTTAGTTCTAACTTTTAAAATTGGCATTTTTGATTTAGCAGATGAAATTACTAAATAATCAGAATATTTTTCATCATTTAAGTTTGAATCAATATTTAAATCAAGTAAACCACATTTTTGAGTTACTTTTTCTCTAATAACTCCAGCATTTTCTCCAACTCCAGCAGTAAATATAATTCCATCAATTTTATCATTTATTTGGTTAGCAAATTTAACTATGAAATCAGCAACTATTTGAGTATATAATTCAACAGCTAATGATGCTTTTTTGTTTCCTTTTTCAGCAGCTGCAATAACATCTCTCATATCACTGCTTACTTCACTAACACCTTGTAAACCAGATTGCTTATTTAAAATATCTGTTATTTCATAAATATCTTTTCCAGTTTCTTTTGAAATATATTGAATAATTGAAGGGTCAATATCTCCACTTCTTGTTCCCATCATTAATCCTGCTAAAGGAGTTAATCCCATAGTTGTATTATATGATTTACCATTTTTAATAGCACAAATACTTCCACCATTTCCTAAATGACAAACAATTAAATTTAATTTATCTTGTTTTTTATTAAAAATTTCTTGAGCTTTATACACAATATATTCATAACTAATTCCATGAAAACCATATTTTCTAACTTTATAATCTGTATATCATTTATATGGGGTTGTATACATATAATTGATTTCTGGCATTGTTTGATGATATGATGTATCAAAACATCCTACAAGTTTAGCATTAGGTAAACTTGCTTGAAAAGCATTTATTGAAGTTAATGCTCCTGGATTGTGTAAAGGTGCTAACCTAATATTGTCTTCAATAGTTTTTTTAATATCATTTGTTAATTCAACTGTTTTAACAATTTTATCACCACCGTGAACTACTCTAAAACCAATTCCTTTAATATCTTCTGGTTTACCAATAACTTTTAATTCAGTAAACTTACTTAAAATTAATTTAACTGCTTCTAAATGATCCTTCATTTCACTTTCAAACACGTGTTTTTCACCATTAATTTCAATTGTTAATTTGCCATCTACTGAAATTCTTTCTGCTAAACCATCTAAAGTTGAAATTGGGTTTTTTATATCTTTTATATTAAATAATTTGAATTTAATTGAACTACTTCCCGCATTTACTACTAAAATCATTATTTATCTCCTCCATTAAACATTGATGTATATATTGTTACAATTGATGTTTGCTTAATATCTTCTAAAGTTGCTCCTCTTGAAAGGTCATTTACAGGTTTATTTAAACCTAATATAAATGGGCCAGCTGCTTGAAAATTACCAAACCTTTGAGCAATTTTATATCCAATGTTTCCAGAGTTTAAATCTGGAAACACATAAACATCTGGGTGTTCTTTTGTAATTTTTGTTGTTGGGTATTTCTTAACTCTTACACTTTTATCAAAGGCAGAATCAAATTGCATTTCTCCATCAAAAATTATTCCTTTTGTTGATTTTGCTTTTAATAAATTAACTGCTTCTTTTACCTTATCTACACTTGGCCCCATTCCTGAACCACTTGTTGAATAACTTAACATTGCAACTTGCACATCTTTTTCATTTAATTGTTGAGCAAAATCAGCTGACATTGAAGCAATATCTGCTAATTGGTTTGCATTTGGGTCAACATTTAACGCGCAATCTGTAAATAAATATATTTCCTTTTCTTTTGACATTAGAAAAACAGATGAAGCTATTGAATACTTCTTGCTTGTTTTAATAATTTGTAAAGCTGGTCTTAATGTATCAGCTGTTGTATATTCTAAACCACAAATCATTGCATCAGCTAAATCTAATTTCATCATCATCACTCCAAAATAAGTTCTTTGATTCATTAGTTTCTTTGCCGTAGGTTCATCAGCCTTATCTTTTCTTACTTCTAAAAAGACTTTAATCATTTCTTGTTTATCATACTCATCAATAATAACAACTTGTATTTTTTCATGTAATTTATTTGGTACTTCACTCTTTGTATTAAAAAGTAATACTGGAATTGCTAAATCATTTTCTACTAAAAATGTTGCATTTTGTTGTATTTTTTCTTGAGTTCCTTCTGGAAAAACAATTGTTTGTTTCTTTTTAATTGCTTTAATTTTATTTTCTATTTCTTTAATTGATCACATAACTATTCCTCGCTTTTGTATTTTTCTATTTCTTTTAATAAAGTTGATGAAATTTTTCTATTTTTATTATCAGATAAAAATAAGATTGTTTCTAACTCATCATAAATACTTTTATTTCCATCATAAAGTTCTATTTCATAATCCAAAGTCTGAGAATCTCTTATTCCCCTTACAATGTATTTTATTTTTCTTTGTTTTGCAAAGTCGGCAGTTAATTTATTTTCATTTATTTCAATTTTTACATTTTTTAAACCCTTAATCATTGATTTTATTTTTTCAATTCTTTGATTCAAATCAGGCTTTTCACTTTTTGAAATATTTTTTGTAATAACAACAATCACTTCATCAAATAGTTTTGCAGCTTTTACTAAAATATTTAAGTGTCCTTCATGAAAAGGATCAAAACTTCCTGGATAAATGGCCTTTTTCATATTAACCCTTCCTTAATACATTTATAATTTTATATTTATTTTAGGCAAAAAAGTGTCTTTATTTTATTTTATGTAATAAAATAAGGACAAAAGGAAGATAATAATGAAAATACTACTAGTTGATATTGGAAATACAACTGCTGATTTCCGTTTGTGAGATAAAAATACTAATAAACTAACAAAACTAATTAGACCAGAAACTAAAGACCCAAAATGAAGAAGAAGTAAAGTACTAAGTAAGTATTTTTTAGATAATAAAATAAAAATTGACAAAATTAGTTATGTCTCTGTTGTGCCAGAATGAAATGATATTATGAGAGCTTTAGCAAATAATGTTGGTGTAGAAATCTCAAATTTAAGAGATGATTTTGATATTCAAAAAGAATTATTTAAAGTTGATAATATTAATAAATTAGGAGCAGATTTTATATCTAATTTTTATGGTGCAATTGAAAATTACAAATTTACAAATGGAGCCATAATTTCTATGGGTACAACTTCCACTATTGCAATAATTAAAGATAAAGAATTGCAAGGAACTATAATTTGTCCAGGATTAAAAAATTCATTAAATTGTTTAATCTCAAGTGCAGTTCTTTTACAAAATAATGATTATCAAAAATCAAATAAAATTTATGGAACAAATACAATTGATGCAATAAATATTGGTGCATTTAATGCCCATTACTTAATGTTAACTTCAATGATTAAAAAACTAAATTTGGATTTTGCTATTTTTACAGGTGGAAATTCAATTCAATTTGAAGAGGATATACTAAAGGATGGCTATATCTTTGATGAATCTTTAATATTCAAAGGGCTTATAAAACTCAATAAATAAAATTATAAAAGTTTTTATTTAAAATTTTTAAATTGCATTTAAAAATTTTAAAGTATCTTGGGCAACTAGTTCTTTATCTATATCAAAAAGTATTTCATGTCTTAAATTTTCATAAATTTTTAAACCTACTTTTAATTTAGCTTTTTTAAATTTCTTATAAGTTTTAATAACTTTTTTACCATATTGACCAACTGGATCATTAGATCCTGATACTAAAATTATTGGCAAATCTTTTCTCATATTTGAAATACTTTTTTTATTTTGGATATATAAAAGTCCTTCAAATAAATCTTTAAAAGCAGAAGTTGTAAAAACTTGTCCGCATAAAGGGTCTTCAATAAATTTTCTAACATTATCTTTATCAATAGACAATCACTCAGAACCAGTATTTCCCTCTTTATTAAACTTCTTATTAAATTTTTTATAACTTAAATTTCATATGAATTGATCAATATTTTTGGCTCCAAATTTTTTTTGTCTTGATTTAGCAACTCTAACTCCAAATTTTAAAGAAAGTTTACTTTCCCAAGCAGTTCCACTTAGAACTAACCCCTCAATTGTTTCTCCATAATCAATTGCATAACTTCTTGCTAAAAAACTTCCCATTGAATGTCCTAACATAACAATTTTTTTATTTGAGTAGTTCTTTTTAATATAATTGTTTATTAGAAATAAATCATCAACTAAAATTTTTCACCCATTCTCATCTGCAAAATAGCCTAATTCTTGTTTTTCTAAATCAGCAGTTTTTCCATGACCTCTATGGTCATTTGAAATTACAATTCAATGGTTATCATTTAAAAATTTAGCAAAGTCATTATATCTTTTAGAGTGCTCACAGCTTCCATGAACAAGTTGCAAGATACCTTTTACTTCTTTAACATCATCTCAAATATAAGTATGAATTTTTTTACCATCTTGAGCAAATAATTCTAATTCTTTCAATTTAAACACGTCCTTCTATTTATATTATATGATACAAAAAAATAAAAACCCTTCAAATTATTTTAAAGGGTTTTAAACTAAGCTATTGCTTTTTTTGCTGTATTGAATACTTCTTTTAACTGCTCACAAGATTTATTAAAAAGAGTTTGTTCTTTGCTTGTTAAATTTCATTTAATTATTTTTTCAATACCATTTCTTCCAATAATACATGGAACACTAGTATAAATATTTTCATTTTCATATTCACCATTTAAATGAGCTCCAACCAATAACATTTTTTGTTCGTTTTTTAGAATTGCTTTTGCAATTGCTGCTAAACAAACTCCTACACCATAATATGTAGCTCTTTTTTTCTCAATAATTTTGTATGCTAAGTGCGTAGCCTCATCTTTTATTTCTGAAAGATCTTTTTCAGAAATAACACCTTCTTTTATATATTCTTGAACAGTTTTGCCCATTACTGTAGCTTTACTTCAAGCAGCAACACTTGAATCTCCATGTTCACCCAATAAGTAAGCTTCAACAGTATTTGGCATTACACCAAGTTTTGCTGCCAACAGTCTTCTTAATCTTGCTGAATCTAAAGTTGTTCCTGAAGAAATAACTTTAGAACTATCATAACCAGTAACTGTTTTGTATACATAAGTTAACACATCAACTGGATTTGAAGCAATTATTGTAATTCCACTAAATCCAGATTTTTTAATTTGCGTTGCAATTTGTTTCATAATTTTTGCATTATCTGCAACCATTTCTAATCTAGTTTCACCAGGTTTTTGTGGTCTTCCTGCAGTAATAACAATAATGTCTGCATCTTTGCAATCCGCATAATCTCCTGCTTTTATTGAATTAAATGATACTGGCAATACTGCTTGAGCATCTGCAATATCCATTTCATTTCCTATTGCTGCATCCTTGAATACATCTATTAAGACATAATCTTGTGCAATTCCTTGGTTCACAGCTGAGTAAATAAAACTTGTTCCTACAGCTCCACAACCAACTAATACTATTTTTTTATTTTTTATCATATTTTTATCGCTCCTACACTTATATATTAATCTAAAGTAAACTTATATCTATATAAATAGAGAATTAATATAAAAATGAAAAAAATTTTTACAAAAAATAAAAAAAATACTCATAAATGAGTATTTTCATATGTACATACGATATTGTAAATTAACGTTTTGAGAATTGTGGTGCTCTACGTGCTCCATAAAGTCCGTATTTTTTACGTTCTTTAACACGAGCATCACGTGTTAATAAACCATTCCCTCTTAATTCTGGTTTGTAATCTTTGCTTGCTTCTAATAAAGCTCTTGCAATCCCTAAACGAGCTGCTCCAGCTTGACCAGTAAATCCTCCACCTTTAACAGTAATTTTGATTGAAAAATCTGATTTTGTACCTGTTGCATCTAAAGGTTGTTCCATATCTTGAACTAATGTTGCATATGGGAAAAACTCTAAAGCTGGTTTTCCATTAACTATAATTTCACCTTGTCCAGGAGTCAGTATTACTTGAGCAACTGAAGATTTTCTTCTTCCTGTTCCTCTATACATAACAACTTCTTTTTTTGCTGCCATTATTTACTATCTCCTTTTTTTGATTGAACTACTAAAATTTCTGGATTTTGTGCTTGGTGTGGATGTTCATTACCTGCATAAACGTGTAATGCACGGTATTGATTCCCTCCTTGAACATTTTTAGGTAACATTAATCTTACTGCACGCTCAATAATTCTTTCAGGGAATAATTTACGTTGTGTGGCAACGTTTCTAGATTTTAATCCCCCTGGGTGCATTGAGTGGTGGTAATAGTTTTTATCATTTTCTTTTTTACCTGATAAAACTATTTTTTCTGCATTAATTACAATTACATGATCACCATTATTAATATGGGGTGTAAATGTTGGTTTATTTTTTCCTCTTAGAACCATAGCAATTTGAGTAGATAATCTACCTAAAGTTGCTCCAGTTGCGTCAACTACATATCATTTTTTAGCAATATCTGCTGTTTTAATAAGTGTAGTTTGTTTCATGTGCTTGTTCTCCTTACCTTCCGGGGCTAGTGAGTAAGCAAATATATTATACATTATTTATTAAAACTGACAAATAAAAAGTTAAAGAAAATAGAAAAAACCATTTGATATGTCTATCAAATGGTTAATTATTAGCTTTTAAATTAAAATAATATATAAAAAATAGCTTAATCAAAGTAACTAAATGTTAATTCGATTCCCTGTTTATCATTTAAATAATGAGCTTTTTTATCATAATCACCATTTTGCTCTTGAGCAGTTTCTGGTAATTGCATTTTTTGATAGTCTTTTGAATAAAATCTAATTTTATATTGATTTGCACTATTTTCAATTGGTAGTGATTCAAAATTATCTAAATCAAGATCATTGACAAATAAAGCTCAATAAGTAGGATTTGATAAATTTTCAATAATAAATTGCATTAAAACTGTATATTTATCTTTTCCTTCTAGTTTGCCAAAACTTATTGTTGGTACTTTATTATTTGATATTTTTACTATTTCAGAAATAGTCATTGGAAAACTTTGACCTTCAATTTCTTCAGCTATAAAAGGAGTTATTTGATAATTTACATCTAAAGACCCATAGTAGCTTTCAGGTCTTTGTTTTGGAACTTCATCTTTAATTCTAATTATAGCTCCCTTATTATTTTGTTTATAGTCAAATTTACTTACATCAGTTAACTCATCTCCTACTTTTGATAATTGATTAACCATATCTATATTATTAAACATTAACGCCATCATTATTGTTCTTGGTCGATTATCATAAATATTGCCAATAGTTGTTACTTTAAAAACATCTTGTAAGTGAACAGAATTTGAGATTTTAATTGATGCAGTAATATTATCATTTGCATTTTCTTTATTACTAATAATAAATTTATATGTACCATTTCTATATAAATCATCTTTCAGACTTATTTCACTGTTATTTTTAAAAACTTGAATTTTTAAATTATCTTCTTTATAGCCCCCTAATTCTAGACTATTAATAATTTGCTTTAATAAATCATCTGTATAATAAATTTTTTCGATATTGATATTATCAAGATTTACCTTTTCAAAACCATTTTTTGTTATAGGCATAATTGGATCTGGTCTAAAAATATCATCATATTTATCACTTGTACATGAAACTACGTTTGCAGTTATACTAGGAATAAAGACAATTGAAGACAATCCAACTAAAACTTTTTTAAATTTACTACTCATTTTTTTAACCTCCTTGAACTGCTAATAACATACTTACTTTTCTAAGTGATGTTCAACTTAATGCATTACTTATTGAATATAATAGTCAAGTTCCTAAAACTCCAGGAATGATATATCAAATTTGGAATGTTAATGGTAAAACTAAACTAACGGAAAGTGTTTTAACAACTAATAGAATTATTGCTCATGCAATTGCAAATCCAACAAATGAACTTATAATTGCTACAGGTATATAAATACCTATAAATAATTTACTAATGTATCATTCTTTATAACCAAGTATTTTCATAACTGCTATAATTTTAGCATTCTCTGAAATTACTAAATTAATTGTTAATAAAATAATAATAGCGCTTAAAAAGATAGTTACAAAAACAACAAAGTAAATAATCATATCAACAGTACTATTAATTCGATTTATTACTTTTAAAGCTTCATCTATTTTTAAAGCATTTTGAATAGAACTAGTTGAATAGCTTGTATAAGAAGTTGTATTATCACTTCCACCATTTAATCCAATCATTGAATAATCTCCATATTTTTGATTAGTTGAAACTCCTTTTGAAATATCAGTAAAACTCTTGTCAAAAGAAGTTTTATAGTTAAATAGTGGGTATTGAGCTTCAAATAGTTTTAAATAGATTTCGTTATTTTTTTGACTCGCAAATTTTTTAAAATCCTTTAATAGAATGGAGTTATCATTTTGATTTTGATTTTCTTTAATTCAATTTACTAGCAAGGCTATCTGACTATTAGGATTTTTAGGATTACTTCATTCTTTGATAAATAATCTAAATAATAATTCCTCTGTTTTATTATAATTTGAAATTATTTTAGCAGTTTCATTGTTAATTCAAGCTTTATTTTCACCATATTGTTCAACAACTCCAGCTATAGTATATTCAAAATCCTTTTCAAAATTTTTTGTTGAAATTTTTCCACTAGCAACATTTTTTGACATAGCATTTGCTCCAACTAAACCTGGACTGCTAAAGTTTATATCTGATTTATAAACTCTTCCATCTTCTTCTTGATTAATTACTTTATTTTTTCATCCTCGTCCATCATCTGATAACATAGAAGTCGTATATAGATTTTTTGAAGAAGTAAAATTATCATCTTTTGATGTAGCTTTCATTGATGATGAATCTCAACTATTTATATCTAATAAATCTTGTTCATAATTTAAAGCAGTAATTATATGATTAATATTTATTTTATCTCCAACTTTCAGTTTTAATCTTTTGGCAAGTGATTGATTAACTAAAATTGAATTTTTATTATTAAACAATTGTGGTTTTAAATCTACAGTTTTGTTATCTTTTAAAATTTGAGTTTTATTATCTTCTTTAATTCCATATAATTTTAGACTTTGATTTTTTACATAACCATTTAAATATATTCCCAAATCTTCTTTCTTTTCATTATAAGGAATTAGTCCAAAAGCAACATTAAAATTTCCCTCTTCTTTTTTATATTCTTCTTCGATAGTTTTTTTAATTAAAACTGGAGCATCATTATAAATTCCTTGTAAAAATGCTTGTTGTAAATTATTAAAGAAGTAAGCTATTATTCAATTATAAATTGGGACAATAGTTGCTAATCTTTTCTCAGTTCAATTTTCTCTATCTACATAATCATAAAGAGATTTTTCAAATGGCTCATCATTTTTCATTTGACCAGTAGAAGTAAGATCTACTTGAATGAATGTAAAACTTCTTCCAAAAGCAGCATAATAATCAGTTTCACTAATCATTGGTTTTCCAGCTTCAACAGGACCACCTCTATTGTCTAATCTTGTTCCATTAGAAATTATATAACCTTTCCTTTTATTTTCTAAGCCAATAGCATTTTTATATTTTAAATAAAACTGTCTTATTTTTTCTAAGTCTTCAATATTTTCTTTTGACTTTGAATCACTTGCTAAAACATCTATTATAGCTTGTTTATTTCAATATTTATCTAAATTAAAGTTTTTTAAATCTGATCAAAGATTAAAAATAACTGTTTTGTAAAAATTATTTTTTTGATCTTGGCCAATATCACCCAGCTCTATTGTTAAATTATCATTTTTTAAATAATCAATATCAATTGATTTATATGTCATATCATTTAATGAACCAACATCAATTGAAGGATTATATATTTTTTCTGATACATTATTTTGTAAAAACATATCAAGAATATTTTTTGAATCATCTAAGTCATCTTTAAAAGTGCTATAAGGATTATATGTTTTATAAAAACTTGTTGGAGAATTATATATTGGGCTTTCATATTCAATTTGATTATCAAAACCATTTATTAAATAAGTTTTATTTTTGTTCTCATGTAAGACATTTGGCATTATAGCACCAATAGTAATTAAACTAGACGAAACTAACATTACTGAAAATACAGAAAGCAATTTTAAAACTGAACCTGATAAGATTGCACCTTTAAATCTTCCATCAAATTTTCTACCTTTTGTTAAAGTTTTTTTAATTGCAAGTTTAAATTTATTTGTAGAGCTTCTACTTTCAAAATTTATCATTTGTAGAGGTGTATATTTATTAAACATATAGAAATAAGTAATTAATGTAATTATTTCCAAAAATACAAACATCCCAAAGACTGTTATTAAAATTGATTCTCATGAAATATTAAATGGTTCAATTTTAATTGAGAAAAATTTATTTGTTAAAGAAATAACTAATTCTTGCATACTCATTCCAATAATATAACCTAATAATCCTCCAGTAATTGAAATAACTAAAGGATATAATCCATTTGCTCAAATTAAAGATGACTTTTTATATCCTAATGATAATAAAACTCCCGATTGACCAAAGGATTTTTTAATTTGGTTATTTAACATTATAACTAGCATTACAATACCAATAGCTAAGGTTATTAACATAATAATATAACTAAAAGTTTTGTAAGACTTAATTGTAAACGCTAGCATTTCAGTTCTGTTGCTATATTTATATTTTATATCTCCTCTATGAATAGCTATTGGTATGTCTTTATTAATTGTGTTTTCATATCCAGCATATAAATCAATTTCTTTTGACTTATTTAAATTAGTTAAATATTGATTAATTGCTGCTGTTGAATTTTTAATATCTTTATTATTTTTAAATTTAAGAACAAAACTTATTTCTTTATCTAAATTTGAAGAAGCAGAAATAATTTCCTCATTTTTTATTTCACTATCTGTATATCATATCCTTTGGCTTTCAAAATCTAAAAGATTAAATTGATTATCAGGATAAATACTTTGATAATAAACATTTTTAATACCTAAATGAGATGGTTCAATATAAACTAAACCTTCTTCTTTTGTATTTGGAAGTGGTTTTGTTTCATCAATTATAGGAGTTGAAAAATCTGCAGTTGATCCAAATCCAACAACCTGAAATCAATTTTGATTTGCATATTCAGTATTATTGATTCATGAGTTAATATCTATTTTTTCATAAAGACTAAAATCTACTTTTTTATTTTCACTATCTTTTACTAAGACACTTGTTCCATAATTATCATCTTGTAATCTAATTATGTCATTTATTTTTATATTATTAGCATTTGCAAATTGTTCATTAACATATACTCATCTTTTTGTATTTATATTTGTTGCTTGACTATATTTTTTTCATAAATCGAGACTCATTCCTTTATTAACAACAAACCTATCAACTTTTTGTTCTGAATTTAGCGCAAAGACTTTTAACGTTTTGTTTGTTGATAAGGTAGCTATACGAGACTCTACTCTATCAAAATCAAATTCCAAACTTGAATGTTTCAATTTATTTTGTAAATAAGTTATTAATAAATTATCTCTTACCTCTGAATTTGAAATATTTTTGCTGAACAAATCTTTTTCAAAGTCATTAATATATGAAGCTTTTGATAAATCTATTACTGCATCATGGATATTACTATTTCTTTGTGAAATAAAATTCTTATATGAATTTTCAACTCTAGTAGTTGAAGAATAGGATAATGTAAATACAAATGCTGTTAAAAATACTAGAACAATAATTGTAATTAATTGAATTTTATTTCTTAATAAGTTTTTAAATGAATTTTTAAAAAATGGTTTTTGATTTTTCATTTTATTAACTTACTTTTACTTTAAAACTATATGTTGTAAATCCATTTACTTTAATACTCATTGTAGGTTCTTTTGAACCAAAAAAACCACCTGTTTTTTTCTTACCAGTAAGCTCTATAGTATATTGATAACTCTCATTTTTAATTAAATTAACTGAAGCGACATTAGAATCACTTGATTGAACTGTAACATTATATTCTTCTTTCATATTTTCTAAATCAAAATTTAAATTAATTGTACTTCCCTGTGAAACTGTTTGAAATTCAATTGGTGATACTAAAGTTTGATTTAAAGCCATTATATTATGTCCTTGATAGAAATTACCACTAGTAGAGCCACCAACAGTAAAGCCTCCCATTCCTGCAGTATATTTTTCTTCAAATTTTTTATTGTCTTCATATTTTTCTAAATTACCTCCACTAGTAGCAACTTCTGCTAAGCCACTTGCATTTATATAACCATTTCATGCTGCTCCATCATGAGCATATAGTTTATCTGATCCAGGTAATACATCAAATTTGAAATCAACTGGAATACTAGTTGAAATTATTCCAGGTGTAATAACTTCATATGTATCAAAAATTATATTTGTAAATTCTATAAAATGATTTAAGCTAATTTCAGTTTTAAAGTTTTGAGATAATTGATTATAAATTTGTTCCTTAGCAGCTTTTTGTGCAAATTTTGATTTATCCATTAATTTATCTACGTCAACAAATACTTTTTTATTTTCTGGTAGTGCTTCAAATAATGTTATTCGATCTTCTGGTACGAATTTATATGTAAACTCAACATTTATTCCCTCTTTAAATATACCTCCAAGAGTTGGCATATTTGTAATTTGGAATGTAGTTGCTGTTGTTTTAGCATTTTGCATAATAGCTTTTCCAGCTTCTCCTAAGTTTTGAATAAAATTTGCTTTGATATATTCTAGTTGAGTATTTTTAGCCCCAACTTGTTCAAAGATAATTGCCCCTAAACTAATAACGTCTTTTGAATTAAGTACTTCAGCAAGTTTATTATAAGCTCCTTCAAATAATCTAATTTCTCCTAAATTTTTGTTTGCAAAATACTCATTGGGGTCAATATTTTGGTTTAGTATTAAAAGAGTTTCACCCTCTACTACTTGACTATTTTCTTTTGCCCTTATAATTACAGAAGTTCCTATACCATTATTACCTTCTGTTGTTCCTTCTCCCTCTCTATCAATTTCTAATTCATCTTTAGAAATATTTGAATTGTTCATTGCATTAAATCCACTAATAATTGCTTCATCTGTTATTGTAAAGCCTTCCTTTCCTACAGCAATACTTGAATCAATTAAACCATTTACCATATTTCCCGCTGCAATATTTACAATTAAGTTTTCTTGAGCTAAGTTAAATTTTGAAGCCTCAATGTTGATTAAAACATCTTGAGAATGACTATTGTCTTTTGAAACAACTGTTAGCTTTAAATTTTTTGCAACTTGTGAGGATGTTTCAATTTTTATTCTTTTATTTGCGCTATCCAAAGATGCTGTTGCAATTCCTTGATTTTCAAATACAAATTTGTCAGGTTTTGAATTTTCTTGTAAAGCATCTCAATTACTAATTTTAATATAATTGGTTGAAGAAGTTTTTACATCTAAAGTGGTTTTTTCTAATTTAAAATTTTCTTCTTGCTCTACTTGTTTAACATTAATTGTTATTTCAACTGAGTGAATTTCAGAAGAAACTGTTACTTTTACAGTTCCAATTTTTTGTGATACAGGTGTAATTACAAGTTGATCTTCTTTAATAGTTTTTGTAATTTGAACTATACCTTCTTGGCTATATTTAAATTTATTTGGTTTTGATTTGCTATTTAAAATTGTTCAGTTGGTTATATTAATATAGCCAACTTCATTGCTATAAATATCAATAGCTTTTTTATCTAATTCAAAATTAGTATTTGGTAAATTATCATTATTTCCATCTTTATCCTTAGTTCAACCACAAGCTATAACTGATAATGATGAAGTTGCAACCATACTTGTAGTTGCCAATATTGTTAATAATTTTTTCATATTTAGTTTTCTCCTTATTTAATATATTTGGGTATTTAAAAAATTACTCTTATATTTTTAAAAATATAATTTGAGTATAATAAAAATTACTATTTAAATAGATTTGCTAATAAATAGCTTTTCAATAAATATATTAAATTAAAGGTGGAGTTGTTGCCTTTTTTGTATTGTTCAAAAATTCAGCTAATTGATGAGTAAATAAAATATCATTTTCTTCATTTTTAGATGCTAAAAAAATATTAATTTCATCTTTTAGTTCAACAAAATAGTTGTTTTGATCAAAATTTATAATATCAAGAAACATTGAGTTAAAGTAAATTGATTCAATTAAAAAGTTATACTCTTTTTCATAAGTATTTATTCATTTTCTTTTTACAACAAAACTATATGCAATGTACATAGTGATTAAAGTAATGATCAATAAAACTGCAGCTGATGCATAACATAAAATTACAATTTCAAATTCTAATACACTTGTTTGTTTTGTAAAAAATTTAACTAAATAAATAAGTGCAAATGGAAAAGTTAAAACTGCTAATTTAAAAAGTGAGACTAAATTATCTCTTTTAACTACTCATTTTAAATTTTTTGTATTTCCTATATTTATTTCAATATAATACATAAATTTACTAAATTCAATTGTTAAAACAAGAAGTAAAATAAACATAAATATTGTATTAATAAAAACATTAAAACTATTAAAAATTATATTTGCTTTATTGCTTAAAAAAATTTCAAACTCAGAGACCGCTGATAAATAAAAATATAAAAGTAAAGATAGTACAAAAATATTTTTTATTAAAGTTTTACTTAATTTTTTTATCTTTAACATCCAACTTATCTCCTATTTTTTCTATTTTAACAACATAAAAAGTCAAATGCAAGTTTTATTTAAATTGATCCATGAAATTCTAAAAAATTAAACTAAAGGGCTTGCATAAAAAAAGTTGTCTTCTAAAACAACTTTCCTAGAAATTATTTATATTAATTTCTATAATAATTTTAATAATTTATTTTGGATTTATATTATTTTTAGGATTTTTTGTAAAATTAAAAGTATATCTTGTACTATTTAATACACCATATCGAGCTCCATATTCACTAGGACTTAAAACCATTATTAAATCAGTTAATTCTCCATATTCCATATCATCTAATTCTCTTTGTGTAAATCTTTTGTTTGTTTTTGCATTAAATAAAAGATTTGGCTGATTTTTAAATATATTTGGTCCAAAAGCTAATGGAGTATATCAACCAAGTTCCAGAGTTCAATAATATTCATAAATTCACCCTATCATTTGACCATTAATACTTTCAAGTGTCTGATGATATCACAAAGAAGGATTTTCAATTGGAAAGCGATTATTAGTTAATTCAGAATCACTTAAATCTAAATAATTATGTTTCATAAAATTAATAAAATCCATTTCGCCTACTAATCCTTTTGCCTACTAATCCTTTTAATTTTCCATTATCTGATGGAGCTACTTTCACTTCAAGAATTCTTGTTCCTGCACCATTTCTTCCATAAATATCTTCATTTATTAATTCTCCATTTTCATCAATATTTCAAACGGATTTAATGCTTATATCATTTAAATCAATATCTTTTGAGTTTCTTGCCTCATTAATTCCTTCAGCTGCAAGATTTTGTAAAGTCATATAAAAATAATTAATATCCATTTGAAAATAAGACATTTTTAAAGAATATGTCACATAATCATTGGCTTCACTTATATGAAAATTTTTATCTATATCTTTATTGACAATATTTGAAGATAATTGAGCAACAGGTACTACACTTGATCCTACAATTACTAAACTACCAATTAAACTAAATAATTTTAACATTTAAAAAATTTTCTTTCTTCCAAACCCCACCCCTGCCACCCAATTTCTACATTTTCCTGTTGCATTCATTTTATGTAAAAAAATCTTTAATTATATAAAATAAAAAATGTAAAAATATTATTTATTAATTTATTAAAAAAATAAAAAAGTGATAATACAAATTTTAATAATAAAAATAATATTATTTTCATTATTATTTGAATATCACTTTATATTTATATAACTAGATTTTTATTTTTTAAAATAATCTGGAATGATTACATTAACATCAATTTTTTCCATTATATTTTTTTCTTTATTAAGATTACTATTTTCAATTTCTTCAATTACTTTTGCCATTGATTTTGTAGCCAAATCTGATGATGACATATGAATTGTTGCAAAAATGTTTTCTGTTGGTTTTTCTTTTCAATTAGCAATTTGTGTAACTGAAATTGAGTCATAGTCATATCCTACAATTACTCCACCAAGTTTTGTAATTTCTCCAGTTTTTTCATCATATTCAGGAGTTAATCATTTTTTGCCTTCTTCACTTTTATTTAAAGCTGCCAATGCACCTCTAGCCATTGAATCTGAATGGGCATAAATTATATCTGCTTTTTTTGTAATTTCAGCTATATTGTCTGAAACTAATTTATTTGCTGTTGTTTCTAAATACATTCCATTAACACCTTCACCATTAATTGGAGGTGTATTATCTCCTTTAAATCATGAGTAATCATAAGATTTAGTTTCTGCAAAACCTTTATGTCTTCCCTGAGCAGTTGGAGTTGAAGGATCTCCTCAAATTTCAAATACTTTTAATTTATCATTTTCAGTTGGTACAACACCATTTTTAGTTAATAAGCTAAAAATTTCTTTTCCCATTTTTGAAGATGCTTCTTCAGCATCTTGATAGACTTGAAAGTTTGGTTTTTCACCCTCTTTTAAATCATTTGCAAATGGAATATTAACAGCTACTAATGGTATATTGTTTTGAACTACATACTTAGCAGCTTCTCTCTGAGTTGGGTTATTTTGTCCCATTATGACTCCCAAAGCTCCTGCATCAACTGCATTTTTTGTATTTGTTAACTCTTTATTTGAATCTTGTTGTGATGATGTTCATTTAACTTTATATTTATTTTTATATTTATCATTTGATGATACATATTTATTTGCTGTATCTAATAAATCCTGTCAAAACGCATTTGGATCTTCTGGAATAATTAATTGAATAACTCCTTTTGAATCTCCACACGCTACAACTGTTAAGGCACTTGAACTTATTAAAAAAGTTGAACCAAATATTGCTAGTAATTTCTTCATATAATGTTTTCCTCCTTATATTTTAAATCTTAGATTTAAATATAGTCTTTCCATTTTTGTTACAATGTTAAATTGTTTATCCGATATTACTGCTACTAAAATAATCATTCCCTTAACAATCATTTGTCAATAACTATCAATACCAATCATATTCATAGCTGTACTTAAAACACATGTTACAAATCAACCAAGCAGAGTTTTTGATATTCCCCCTTTACCTCCTAAAAGCGAAGTACCACCAAGAGCAACACATGCAATTGCATCTAATTCAAGTTGATTTCCTGATGTAGGTGAAATTGAATTTAACTTACTAATATAAATTAATGTACCTCCATAAACTAAGGCACCTGAAAAAACATAAACACTAGTCATTATCATATTTGTTTTAATCCCTGATAAATAGGCAGCTTTTTGATTTCCACCAACTGCATACACATATCTACCATATTGATATCATTTCATTAAAATAAATAGTACTACAAATACAATTATAGCTATAAAAAAACTTCAAGGCATTTTACCAATTGCTGGTTGGGTTATTCATTGTAAAGTTTCTTGGGGTAAAGCAGTTGCTTTTGATTCAAGCAACAAAGCGGTTGCACCTCGCAAAGAAAGCATTAATACTAACGTTACAATAAATGGCTGTAACTTCATAAAACTAATTAAGAATCCAGCAATAAAACCAAATATACACGCTGTAATTAAGCCAATAATAATTGCCAATAAGATAGCAAAATTGGCTTCTAATAGTTTAATCGTTATTGCTCCTGAAAAAGCCAATACTGAACCAACTGAAAGATCTATTGCCCCAGTTAAAATAATTAAAGTCATTCCAAAAGCTACAAGTAATAAATCTAAATTATTTGTTAATAAATTGATTCAAGTTCTTTGTGTAAAAAAATATGGATTTGATAAACCTGCAACAATTGAAATAATTAGTATTAAAAGTAATAACTTTGATTGATTTAAAATATTTATTAAACTATCTTTAGTTTTTTTTCTTCTTAAATAACTATTAAAATTTGTTAATTTTGCAACTTCACTAAATTTTTTGACTTTAAAAGATTTAGTTCTATCAATTTTTTGAATCTTTTCATCCAATTTTGGCTTTAATAAATCCATTTGTTGATTGAATTTAGTTTGACCAATACTTTTATTTTTTAAATCAGAATCAATTTTAACAAAGCTTTTATACTCTTTACTATTTGTTAATTTATTTTGCTTTTTGGAAATCAAAACTTCTTCTATTGCATTTATTCTTGTAATATTTGGTAAAATTAATTTCTTAATTTTTTCTTCTCTTTTTAATTTTAAATTTGCAATCTTTAAATCAATTGATTTACTAAATTCCTTATTTTTTAATTTATATTTTTCCTTTTTTAAGTCAATTATTTTTTCAGTTTTCTCACTATATTTTTTAATCTTATTATTAACTTTTTGAATTTTAAATTGATATTGTATATTAAATTTTTCCAAAGCTTGCTTTTTCAAACTATCAAATTCCTTTTGATTAATTATTTCATCCTCTAACTGTATTTCAAGTTCTTCAATAGTTTCGTTGTGACTTTTATAAAAATTTTTTATTTTATTTTCATAAATTGCAATATTATTTGCAACTATATAAGATATATTAAAAATAATATCCAATCTTCTATTAATTACTTTTTCTTTATGCTCTTCTAAAAATTTTATATCCTTATTATAATTTTGTTCAATATTGATTCTTGCATTTTCTACTAATACTTTTTTAAAAGGATTAATCACATTTTTACTCCTTTACTAAATTGCATATTTTAAAATTTCTTCTTGTGTCAAATTATTATTATCTAATTGTTTTGTAATTGTTCCATTCTTCATTACAATTACAGAATCACAAAGACCTATAATTTCAGGTAAATCATTTGAAATTATAATGACAGCACCTTTAGACTGCATTTTAAATTCTAAAATTAAATCATAAATTTCTTTTCTAGCACCAACGTCAACTCCTCTTGTGGGCTCATCAAAAATAATTATTTTGGGATTGACACTTAAAGCTTTTGCAATCAAGACCTTCTGCTGATTTCCCCCAGAAAGAGTTGAAACATTTCTAAAAATATCTGGAGCTTTTAATAATGTTTTATTCAGAAAATAATTGGAATCATTATTTTGCTTCTTGGTAGAAATATTTTTTATAAATTTGTTTTTATATTTTCTTAATGACGAAATAGTTATATTAAATTTAATATCAAAATTTAAAAATAAACCATCTACTTTTCTATCTTCTGTAACATAATAAAATCCTTTTTTAATTGCATCTGACGGAGTTTTAAAATTAACTTTTTTATTATTTAAAATAATTTCTAATTTGGAATCTTTTAATTGTCCGATAATAGTTTTAAATAATTCAGTTCTTTTAGCTCCAACTAATCCAGCAAAACCTAAAATCTCATTATTATAGATATCAAAACTAACATCTTTAATTAAATTACTTTGTACATTTTTTATTGAACAAATTTTAGATTTGTTCAATAAAATTTTTTTAGGGAACTTTTCTTTTACATTTCTTCCCACCATTTTAGTAATAATTTCATCTTCATTAATTTCGCCAACTTTAAATTCCCCAATAAATTCACCATCACGAATTATTGTCATATCTTCACAAATTACTGGAATCTCTTGTAATCGATGTGAAATATAAATAATTGCTTTATTTTGTTCTTTCATTTTTTTAATAATCTCAAATAATTTAAGTGTTTCATTATTTGATAATGAAGAAGTAGGTTCATCCATAATAATTACATTTGCATTTCTAATAACAGCTTTTGCTATTTCAATTAATTGTTGTTGCGCAATTGAGAGAGTACCAATTTTTACATAAGGATTAATATAAATTTTGAGCTGGTCAAATATTTTATTAATTATTTTTTCCTGTTCTTTAAATTTAATAATTTTAAATTTATTTTTTATTTCAGATCCTAAAAAAATATTATCCATTACTGTCATTTCACTAATAGTATTTAATTCCTGATGAATTATTACTATTCCATTTTTTTCTGCTTCTTTAATGTTTTTGGGTTCATATTTTTTAGAGTTATATATCATATAACCACTAGTTCTTTTATAAACTCCTGAAATTATATTCATTAAAGTAGATTTTCCTGCACCATTTTCACCTAGCACTCCCATACATTTTCCTAAATAGGCATTTAAATTTACACCTTTGAGAGCCACAACATCTCCAAATTTTTTAGTTATATCTTTTAATACAAGTACCTTCTTATTAGATTTATTTGTATTTTTTTGCTCCACAAATTGCATCCTCTCATCAAAGTATTGTTATGATTTTATAAATAAAAATAGTCAATTATAAAAATATATAGAAATTGATATTTTCCTATATTTTGTTAAAAATATTCTTAATTAGTTAGTTTCTCTATAGCTCAATAATATATTCCTCAAATACCAGCATCATTTCCTAACTTCGCTATTCTTAAGTCCAATTTTTTATAAAAACTGGGTAATAAATATTTCCTTAATATGTCTTTAATAATAGTAATTAACTTTTTACCTAATGCAGAAGGTCCTCCTCCAATAACAACAATTTCAAAATCCATTAAATGTAAGGAAACTGCAATATGTTTGGCTAAAGGAGTTAAGCATGTTGTTAAAATATCAATTGTCTTTTTATCTTCACTTTGAAATAAACTATAAATATCTTTTATTTCAATCCACTTTTTTTGAATATTTAATTTTTTTGAAAAATATTCATAATTTTTATTTAGTTCTTTCTCAATTCCTGTGGCACTACTTAAGCCTTCTATACATCCGGGTAAATTGCAATTACATTGATAATTGCTTTGAAATCCACCACTGTGTCCTGGTTCACTTGCCAACTTTGTATTATTGCCAAAATATAATTCATGGTTTAATATAACTCCTCCACCAAGTCCTGTACCAATTGTATATAAAAGCATACTACTTTTTTCTTTTTTGATTCCTTTAACATACTCTCCATATGTAGCAGATTTTGAATCATTTAAAATATAAATATTTTCAATTTGAAATAATTCCTTTAATTTATTAACTACTCCATAATTATTTCATTCTAAGTTTCCTGCTCAAATTGAAATTCCATTTTCATAATCAATTAACCCACAAATTGTAATTCCTATAAAAATAAGATCACTTTGTTTTAATTTGTACTTTTCTAAAAAAGGTAAAATATTAAAATAAATGTTTTCCAAAATTTCACTTTTTTTAGTTTTTATAATAATTTTGTCAATAATTTTTTCTTCATAAATTAAAGCACATTTTGCTGTTGTGCCACCAAGATCAATTGCTAAGGCATAGTTTTTTTTGTTCATATAGAACCCCCTAATAGCAATTAATTATAAAATCCCTCATCTCACTTTTTATTCTCTTTATCAAAAATTCTACTATCATAATTTTCTTGCTTAATCATATTATCAATTTGACTAATTAGTTTATCATTTTTAGCTAAATATTTAGCCTCAATAAATTTTGTAATCATTTCATACATTAAGCCAAGACCAACAATTCTTCCACCAAATCCAACAATATTGGCATTGTATTTTTCCTTTGCATCAACAACTGTTAAAACATCTTTGGCTAAGACAACTCTTGCTCCTTTAACTTTTTGAGCACTATTTGTAATTCCAACCCCAGTTCCACAAATTACAATTCCAAGATCAACTTTTTTTGTCACTACATTGACAGCTACTTTATGACCATATATCGGATAGTGAGTTCTATTAAAATCATTAGTACCACAATCAATTACTTCTATTCCATCAAGTTTTAACATCTCAACTATTTTATCTTTAATGTCAGTAACAATGTGATCACATCCTATTGCGATTTTCATATTATTCTCCCTCCAAAATATTTTCTAACATATTGATTCTTACCATATGTCTTCCCGCTTCAAATGTAGCATTTAAATAAACATTAATTACATCCATCATATTTTCTTTTGCAATAATAGCAAACCCTAAAGATAAAACATTTGAGTTATTGTGTTCAATTGTCATTCTTCCAGAATGATAATCAGAAACTTGAGCAACTACAACTCCTTTTTTTTGAGCCATAATCATAAATGGTAACGTTCCAAAGTCATCAATAACAATTACTCTTTGCAATTCTTTTAAACTTAGCTTATTTGCTAATTCATTTAAGTCACTAAACATATCCTTTTCTTCTTGAAATGTAATAGTAAAGTTTTTTGACTTAATATTTTCCAATAAATATTTTTTATATTCTTTATCAATTTTTTTATTGATATATATTATTATATTTTCCACGTTTAGTTTCCTTTCCACTAAAATACTATCATAAGCTAATAAAAAAATGATAAAAAATTATCATTTTTTATCATTTTTAGACATTTTTAATAGTTGGTGGAATTTTACTTAAAATTTCTTCATCTGGCAATTTATCTACTACTAAGGTATTAATTTTTTCAATATTACATATTAAATTTCCCTTTACCAAATTATTAATTTTACTAGAGTCTATCAAACAAATTGTTTCTTTTGTTACATTAATTAAATTATTAATAAATTCGGCTTCGTCTTCATGATTATTATAAAGATATAAATTTTGATCAACATTAGTAACAGTTATAAATGATTGAGCAAATTTTAATGTTTCTAAAGCTCGATTAGCTATTGGGCCACACATAGCTGTTGATTGAGGTCTTAATCGACCTCCAATTATAACTACATGATGGATATTTGGCGAATTATTGGCAATTCTAGCAATTTCCATTCCATTAGTATATAAAACATTAATATTTTTAGTAATTGCTCTTATAAAAGTTTCACATGTAGTTCCTGGACCTACAAATATTTCAGAAGAGCTAATTAATTCATTTGCCTTAATAGCAATTATTTGTTTCTTTTCTTTATTAGTTTGCAATTTTTCATTTCTAGTAATTTCATAGTCTTTATTCTTAACAAAATTCATTAAGCCCATATCAATTTTTAAATAACCCATTTTTTCTAAAAACTTAACATCCCTTCTAACAGTTATTTCTGGGATATTATAATCGTGTCCTATTTTAATAAAAGATTTCATATTAAGATTTATTTGGTCATTAAGATTTGATAAATAAATATTTACACGTTCAGACTTGTTATGACTTTTCATAAAGCACCTCAAAATAATTCTAACTTAAAATGATAGAAAATTATCACTTTTCTAATTAACAGAATTTAATCTATATAAAAAAAATCTTATATATAAATATATAAGATTTTAATTTTAATCTTTATCCTTTAAAGCTTCTAATGGATTTATTTTTTGAATATTTTTTCATCCAATTGTAAAAGTTACTACATAAATCGTTGCAATAACTCCAAATACACTAAATGGCAATCACAATGAGAAATTTACTGGTAAAACTCATGCTGTATTTAAAGCTAAAAAGTCAGATATTATGACAAAGATATACCAACCTGCTATAAAACCAATAACATACATAATCATAATTGGAGCTATGTACATTCCTAAAATTTGTCTCACAACATATCCATTTGAATATCCTAAAGTTTTCATAGTTGCAATAAATTGTTTATTTTCAAAAATAATTAAACTTGTGGTTAAAAGAATAATTGTTGCTGAAACAATAATTGCTATTGTAATAAACATTATAATTATTAAATTTATAAGATCTGTAACTTGACCTAAAATCTGTCTAGTTTGTTCTTTTGGTAGCATTGTTGAAAGAGTTCCAATTCCATAACCTTGATTAAATTTTTCTGGATCAACAATTGTACATTCATTTTCATCTGCATCAGTTGATTCTACTTCTGAACAAGGGACTTGTTTAGTTTCAAAACTTCCATTTAAACCAACAGAACTGAAGTCACCAATTTTTGAAGATACCGAAAACCCCTGAGTTAAATCAATAATTTCTGGTTCTTCACTATATTTATAGTTAAATATAGGATATAAATTATCATAAAGTTGATTCATATTTCTTCAACTTGAGCCAGGTTTACTTCTTTGCACATTTGCAATGAAATCCTCATAAGTTCTTTTTCCATCATAAACTTCTTGTATAAACTCTTCTAAAGTAACTCCTTGAATTTTTTCCTCATCACCATTTGAGAATTGTTCAAGTTTATATAATGGATTTCCTTGAGGATATTCTCTAGCAAATCAATTTTGGAAATTATATTTTTTAACTTGATCATATTCTAAAATTTGATTTGCCTTCTCATTAGAGATTCAACCTTGTGGTTGACCATATCCATTTTGTACACCTGCAATTACAAATTCTACATTTTCATATTTTGAATTTACTCTCAATGTTCCATCTTTATATTTTTCATAAACATCTATTGGGTTTGTAGCTTTATCAGCATACTTAGCTGCAATATTTATATCTCCAATAGTTGATGAGTCAACACCCCTACCCAATATTGCTGAAGAGTTATCTGCATAAATGCCACCATTTGAATAGTATGCATAAGTTGATTGAGTTCTAAATTCATTATTAAAATTTAGTTTATTATCTTTTACTAAATTATGTCCGTATTTTACATCTTCATTTAAAACTAAATCTTTATTTTCTCCATCCAGTTTAAGTAATTCTCTTAAAACTTTAAGAGAAATAGTTTGTCCAACTTCTTTATTTATTTTTTTGGAAAAACTTTCATTAATAATTAAAGGTACAAAGTCATTTACTTCATTTTTAAATAGAGTACTACTTAATTCTAAACCCCTTGCATTTTTTAAAGAAACAAGTTTTGAATCTTTTTCTACTCCAAATATTTTAGCACTTTCAACTTTCCCATTTTTAGATAAAAAGTTTGAGTTAAGCATTGTTCCAAGTTCATCTTTATTATTATCATAGGGAATTAAATTAAAAGTAATATTATAATTTTCATTATTTTCAATAGCTGATTTTATATATTCTTGAACAAAATAAGGAGACCTTGTATATGTAGTTTGTAATACAGCAGTACCCATTCTTCCATCCAATACAGAACCAAATCATAAAGTAAGTGCTCTATTTAAATCCTTTAATATATTTTCATCAGTTACTGATTCTAAATCACTTTCATTAATTTCCAATGGACTTATAAATTCACCATTTCATTTAAATTTAAAGTCAGCTGTAAAGTCTTCATTAATTTGCATAGTATTTTTTTCATTTTTATTTAAATCTCAATAATTTTTAGTTTTCTTTGTTTTAAAAACTGAATTTAATTTATTTTGTGCTTTTGAAGCGTTAATTAATAATTCTTCTGGGTTACTTCTATCAATCATGCCCTCATTATAAGTAAGTTTTAATCCTTTAATATATTTACTATAAACTTGTAACATTAATCTAGAGTATGTTTTTAAATCTAAAGTAGAAGGTGAAGCAGTTGGGTCCTTCAAATTTTTTATATTATCAGTTAATTTTATGTAATCTGGTCATTGAGCTTGTAACTGAGATAAAGCTATTCCACCAGTAAATCCAGAAACCTCTGCTCTATCTAAATTTTGAAGTAATTTTGTTGACATGTTTTTTCAATTTAAATATGAGAATTCTGTTCAAAAGAATTTATCATCTTTTGCAATATCGTATGTATAGTAATAGGGACTTATATTCCCCTCTAAAAGAGAGCTATATACATTTGCCCAATCGATTTCATGCTTAATTGCATCTGTTGGATTAGATTCAATTTCTTTAACTGGATAAGGAGTTCAACCATCTGTAATTCCTTTATTTCCTTCTTTTCCAGAATTTTTAATTTTTACCATTTTATCTATTTCATATTGTCCCCAACCCTCTTTTTCACTGTTTCAATTTGGGTTATATGTTCTTTGAAATGATCATGGATTATTTGCTATTGGTTGAGTATATTCAACCATATTTTCATAATTCATTCCGTTAAAAGTTGCTGTCATATTATCTTTCATAACTTTTGGAGCAATAATTGTTGTTGTAATTAAAGTTGCACTTAAAAGCATTGTGGCACTAACTCCAGCAAGTTTTCCCATAGAAGTAGTTAATAGAGCTGTTTTTAGCCTTGTGTTAAAACCTCTTTTTTTAAATAAAGATTTAATAGACATTGAAAATTTATTAATTACCTTATCATCTCCACCTTGCAATAAAGTTAGAGCAGGCAACCTAATAGTTCAATAACCAATTATAAATGCCAATAGTGTTAGACCGATTCATAAACCAATAATACTTGTTCCAAAAGAAACAATATTAAATTTAAACCCTAAGAAAGCAATATTAAAGTAATTTGAAAAAATACTTACTACTAGAGTTTCAATAAATATTGAAATAATATATCCTAATAAAGCTCCAAGAATTGAAACAATTAATGGAATAGCAATAAAATTATTAACAATTTCACGTTTTTTATATCCTAAAGATTTTAAACAACCAATTTGTTTACTTTGTAACTCAACTTGTTTTTTTGTTGTTAACACTGTTGTAAAACCTGCAATTGCAACAATAACAATTATTAAAGCAGTTGCCATTGAATTATAACCAGTCATTATAGATTTAAATGTTGTTATTCTTGTAGAAAATTTATAAAGTGAATCATTTGAGTCATAAATATATTTACTATCTAGTTTTATATTCGCTCAAGTTTTATATTCTTTTTCTAAATTATTTAAAAGTTCACTATTACTTCCATTTGCTGCTTTAACAGAGATATAAGTTTCTCTATCATTTTCAGAAGTTACAACAACTTTTGCATTTGAAACAATATATGAAGCCATAGTCTTTTTAACTTCATTTCTTGCTGTTGATCCTTCATTATTTATTTTTGTAAAATTATAAGCTATACTTTCATAACCCATTCATGAAGAATCCATATACATTAATACTTCATTATTAATGTTAGGCATTATTGTAGTTGCATCCATTATTGGAGTTGTAAAATCAGCTGATGTTCCAATTCCTACAACTTCAAATCAAACTTGATTTCTATAAGCATTGCTATCTAGAAATGTTTGAACATTAGTCATTTCTCTTAAATCTTTTTTAAGTTGTTCAACTTCTGGTGAATTACCCTCAGTGTTTTTAACTAATAAATCTTTTCCATATTTATCTGTATTCACTCTAACAATATCACCAACTTTAATACCATTTTGTTTAGCATAAGATTCACCAATTACTACTTCTTTGGCTTCTGCTTTAAAAGTTCTTCCTTTTGATACTACAAGTTTATCTACACCCATATTTATATCAGAGTTAATTTTTGAAATTGCTTTAACTCTAATATCACCTTTTTTACCATATAAACCTGATATCAATCTAGCTTCAGTAAATGATACATCTAAATTATATTTAAGTGCTATTTGGTTCATGATATATTGCTGATACAACATATCATCTTTTGAAAGTACTCCATCTATTTCTCATTCTTTAATATCTTTACCATTTTCATCAGGTTCTAAGATTTTATCTTCCATATTAATATCTACAACATAATCTCTCAAATTTGATTGACTATTTAATTGATTATAAGCCCCTACAACTCTAGTTGATGTTGCACCTAAAACTGATATAACTAAAGATACCAACATAACTAAAAGTGATAAACCAATAATTTGTGATTTATTTTTTCCAGCAGACTTAAAAGCATTCTTTAGTAAAAGTCTAATTCCTTTCATATTTAGTTTTCCTCCTATTAATTGATAACTAATTATTATATATTAAGAAATTATTAAAGGAGGAGTCACTCCTTTTTTAAATATTTTAAGATGGAAACTTTTTTTTCAATTAACAACTTGCTCTACAAAACTATTTTTTTCTGTAATTGTCATAAAATCTAATTTAAATTCTTTTAATAACAATTTTGTAAAATTTAGATATTCTGATGAAATTAAATCTTGTTGTATTATCGTTGAAATACTAAAAAAGATAGTTTGATTAATTTCTGATTTTATTTTATTTCTAATTTTTGCATAAATTATATTTGTTGAAATCATTATAAAAGTAAATAATATTATAACTGTGAAAAAAATTATTAAGAAAATCTCTAAACTTATTAAAGCTTGATTTGAATTTCAGAAATATTCTACTGCTTGAATTTCAGTTGAAATAAATATCGGAAATGTAATCAATATTAATTTGAAAAAATCATTTAAATAAGTAAATCTTTTAAAGGATTTAAAAGATTTAAAATTAATAAAACTCATTTTAAGCTTTTGAATTATCAATAATGATTCAATAACTATTCAAAAAAAGATTGCAGAAATAATCACTGTATTTATTATTCATGTAGTTTGTATTGCAAAGTACAAACTATCTTGTGAATCTTTAAAAAAAGTTGAAATAAAAATTATAGTTAAATGAACTAAAACAAATAACATATATAGTTTTTTAACATTTTTTTTATTGTAACTATTCATGCAAACTCCTCTTAAAAATCTGATAATCAAGTTAATATTAGCATTTTTAAAAAAAATAACAAATTTTAAAAATAACAAATTTCGTAGAAAAATAAATTAAATTGTTATTTATTTTATATACAATGATATTTTAATGGAAAAAAACAACTTTTATGCTTATAAATAAAAAAATACGCCTTTTGCGTATTTTAGTCGGTTTACTGTAAAAGAGATTTATTACATACCTTTTCCTTCTTGTTAAGAAAACTTATTCAAAAAAGATAAACTAATAAATATCTATTACTCATTTTTGGTGTATTTAAGTTCACAATAACCGACCTAAATAAATAATACCTTAAAAAATGATTAATAAGTAATTTTTTTTAAAATAAGTCCTTCAGGATTTGCAATATAGGGCATTTTTGCCTCCCTTAGCTTTAAAACATTAACAATTTTATCTAAAGTAATTTTGCCTAAACTATAAGCTAAGCAAGCTCCTACAATCATTCTTATTTGATATCTTATAAATCCTTTTGCTTTAAAAGTAATAAAAAATATATCATCATTCAATTGACATTCAATAGAATTAATTTTTCTTTTAGTTTTAATTAAATCGATTTCTTCAATTTTAATTCCTGAAAAATTTAAGAAATCATGATTTCCTACAAATAAATTTAAAGCTTCTTTAATTTTTTTAATGTCTAAAAAATTTTTTGCTAAAAAATAATGTCTATTTTCAAAGACATTATTTTTTCCTAAATTTATTCTATATTCATAAGTTTTTTCTTTACAATTTCTAACTCTAAATTCCTTCTTTATAGGATTCATATCTTTTACTTGAATGCCCAAAGGTAGACTTCTATTTAGTGCTTTTAGAAAACCATCAATATTTGGTTTAAAATTTAATTCAACTCAAGCTTTTTGATCTTCTGCATGAACTCCTGAATCAGTTTTTGAAGCTCCTACTAATCTAAATATAGAATTTTTGGCTACTTTTGCTATAGATTTTTCAATTTCACCTTGAATAGTTCTTTGTCTATTTTGTTTAGCTCAACCACAAAAATCAGTTCCATCATATTCAATAGTTAATAAATAATAATACATTTTTTTATTTAATAGGTTGAGAAAATAGAATTGTATCTATTCTAGGGATTTGTACCATTTCTTGAAATGAACTGATATTAATATAACAAATAAGAGTTGCAAAGACACCCATTCCAATAGTAAAGATAATTACATCTAAAAATCTAAATTTTACTTGTCTATATCTTGTTCTTTTAGCATGAGGGTCATAACCTCTTGAATCCATTGCATAAGCTAAATCTTCAGCTTTTTGAAAAGCTGATACTAATAAAGGAATAATTAATGATGTCATTGATTTTGCTTTATCGATTAATTTTCCATTTTTAAAGTCAATTCCCCTTGAAGATTGCGCTTTCATAATTCTTCCTGCTTCATCAATTAAAGTTGGAATCATTCTTAAAGCAATTGAAATAATTGTAGAAAAAATATACACAGGTATTCCAATTAATTTTAATGGTCATAATAAATCTTCAATTGCTAAAGTTAATTCTAATGGTTGTGTTGTTCCTGTTAAAATTGTAGTTAAAGTTATCATTAAAAATATTCTAATTGTCATATATAAAGCTGAATATAAAGCCTTTTCTGAAAAACAAATAGCTTTTCATTTATAAAGATAACCATAGGCATAGGCACCTGTATCATGCGCACCATCAGCTAATTCTTTAAAATTATCTGGTTTTAGCATAAATATATTAATTAATATTAAAACCAAAAATATAAATATAATTGGAAAAAATAATTTTATTAGCATTTTAAAACTTAACTTACTTATCAAATACATCATAAATATTAAACTTGCTGTTAATACAAAACCAGTATAACCAATTGGTAAAAAGACAACAACAATCAATGAAATAATCATAAACAGTTTCAATCGTGGATCCATTTTATGAATTATTGAATTATAGGGCATATATCTACCAAATACCATTCTCATTATCGTATTCTCCTTACCTATTTTCTTTTAGCCTTAACAGCTTCTTTTATTGCTTTTGCAAGCTCTTCAACTGATCTAAATTCAGTCCTTGTAACATCCAAACCTGCTTTTTTTAATTTATGAGCAAGTTTATATAATTTTGGAGGCTCAATTTCAATTTGCTCTAATAACTTATTATTAGAGAAAATTTCAAATGGAGTTCCTTTTGAAATAACTTTACCTTTATGCATAACAATTACTTGATCTGCAATTTGTAGAACATGGTCCATATTGTGAGTTACAATAATAATTCTTTTATTTTTTTCTTTATTTAATTTATTAAATAAATTCATAAAGTCTTCTTCACCTTGAGGGTCTAAGCCCCCTGTTGGTTCATCAAGAACAAGTGTATTACCATCCATTGCAATAATTCCTGCAATAGCAACTCTACGCTTTTGACCCCCACTTAAATCAAATGGGCTTCTTTTTGCATAATCTATTGGTAAGTCCACCATTTTTAATAAATCAGGAACTTTTTCAAAACTTTCCTTTTTATTTGCTCCTAAATTAATTGGCCCAAAAGAAATGTCTTTTTCTATTGTATCTTGAAATAATTGATATTCTGGAAATTGGAATACCAAACCAACTTCTCTTCTTAGTTCCTTAACTTGTTTAATTTTTTTAGTAGAAGCAGGAATTTGAAAATCACCAATTTTGGTTCTTCCTGTTTCAGTTACTAATAAACCATTTGTTAACTGAATTAAAGTTGATTTACCACTACCTGTCATACCAATTACTGCTGTAATTTTTTTCTCTTCAATTATTAAATCTGTACCATTTAATGCTCTAAATTCAAATGGTGAATTTTTACTGTATGTATAGGCAACTGATTCAAATTTAATTTCACCATTAAAATCTCATTTAGGTTGACTTACAATTTTAAGCTTTCTTTTAAATTCCTTTTTGATTAAAGAGTCTTTTTTTGACTGATTTGCATATCAATCTTTAACTTCCTTAATTCTTTCAGGCATGAATTCTTTATCTTTTTTAATATTAGCTTTAATTTCCTTTTGGTATTCCTTTTGATTTTTTCTGTCAGCTTTAATTAAATTTTTTACTTCTTTATGTCTTTTTTTTCTACTCTTATTATCATGTTTTTGTTTAACACTTAATTCTTTTAAATGAATTTTATACTCAACTTTATGTTCTTTTTTTTCTGCTACAGCCTTTGCTTTTTGCTCTGGTGACATTCTCTTTATTTTTGACATATATTTTTCACCAACTCTTCCAAATTTGCACTTCCAGAGATTTTAAGACCCTCATTTTGTAGTGCTTCTTCAATTTGAGCAACAAATGGAATATCTAAATGAATAGATCTTAAGAATTCTTTTTCAGATAAGATTTCCTTTGGTGAACCAAATTTAACTAACTCACCTTTATTCATTACCATAACTTTATCTGCATTTAAAATTTCATCCATATCATGAGTAATAGAAAAAATTGTTTTTTCTCTCGTATTTTTTAATTCAACCATAATCTCTTTGACTTCATTTTTACCTTTTGGATCTAGCATACTTGTTGCTTCATCAAAAATTAAAATGTCTGGAGAAAGAGCCAAAGCAGAAGCAATTGCTACTCTTTGTTTTTGACCACCACTTAGCATTAATGGTTCATGATCTAAGAATTCTTCCATTCTTACTTTTTTAGCAGATTTCACAATAATATCTGCCATTTTAGATGGAGCAATTCTTCTATTTTCTAATCCAAATGCAATATCATCTCGTACAGTTGATCCAATAAATTGATTATCTGGATTTTGAAATACAATTCCTAAAAATTTACGAATCATATTTATATTATTTCTAGTTACTTTATTACCATATACTTCAATTGATCCATTTGTTGGTTGCAAAACTCCAATAATTATTTTTGAAAGCGTTGATTTACCACTACCATTATGTCCAATAATTGCTATATAATCACCGTGTTTAATTTCAACACTTACACCATTTACTGCAAAAGGATGACCTTCTCTATATCGAAATTTAATTTTATCAAGTTTCAAAGCTGTTTGAGATAGCTTTGAAAGCAATCCACCGTGGCCTCTATCTTTAATTGCTACCTTTGATTCTTTATATAAAAATACTGCTAATTTATATTCTTCAAATAATTTTCAATACTCCTTTGAATTTTTTGAAGCTTTTTTTAATTCTTCTTTAGCCTTTTTAACATTTTCAAAAAAGAAGCTATTATCAGAAACTTCTTTAAAATCTTTTTTGATTATTTTATATTCATTTTCAGCTGATTTAACAAAATCAATTTCAACTTCACGTCTTGAAAATTTACTTCTTGCAATAATCATTTTTTGACTTGCACGAATTAACTTATCATTATGTTCATTTAATTTAAGCCTAAATTCATTTAATTTTTCAGTTGCATTTAAATTGGTGCTTGACATAGTATTACCTCTCATACATTTATTATTATATCAAATATAAATATTTAAATAATACTAAATTATACTTTTTATAATTTAGTATTATTTAAATAAGCAAAGATTATTATTTAATTGGTTTAGAGTATTTATCTGCTTGTTCAAGACATTTTTTTATGATTTGTTCAAAATCATTATCTTCTAGAACTTTTTGTCCTTGAATTGTTGAACCATTAGGAACACATATACTTGCAATCATATCTTTTAATTCAATTCCTGAATTTGATGCATTTTCAATGCTTCCTATTATTGATTGTTCCACAATTCTGAATACTTTTTCTTTTTCAATTCCATTTTGAATTCCATAATCTGTAATTGCTTTAAAGAAAGTAAATACATATGCTGGTAAACAACCAGAAATTGCTGTAAAAGTAGCAAAGTTTTTTTCTTCAATTAATTCTACAATACCACAACTTTCAAACATTTTTATAACAAAATCTAATTCTTCCTTTGCAACATTACTATGTGCAATAGCTGTTACTGATTTTTGTATAGAAGCATTCATATTTGGCATTATTCTTATAATTTTTAAATTTTGATGTTGTTTAAATTTTGATTTAAGATCTTCTATTTCTATAGCATTAACCATTGAAATTATAGTTTTATTAGTCAAATCCAACTTATTTAAATTATCACATAATTCATCAAAATCTATTGGTCTAACAGCAAAAATAATATAATTAATATCTATTGAAATAATTTCTTCTAAGTTATTTAAAGTTTTTGCTCTATCAACAGAATTTATTACTTTATCTTGTAACTCTTTAAAAGTATCATATCCATAAAATACAGCTTCAATTTTTTTATTTTTAAGAATTCCTTTAAACAAAGAAGAACCCATATGACCTAAACCAATAAACAAAACCTTTCGCATAGAACTTGCCTCCTCATATATTATAAATCTTTTTTGATAAAAGTTTATTTAAAGACAAGCAAATTAATAAAAAAAGTTCCTATTGGAACTTTTTTTATTAATAATTAAACTAACTCTATGATACACATTGGTGCATTATCACCACGACGGTTATCCAATTTAAGAATTCTTGTATAACCACCTTCTCTTGTTTTAAACCTTTTTGCAATTGTTGAAAACAATTTTTGTAATGCAGTTTCCTTTTCAGAAGCATCCACATGTCTTAATCAAGCAGCAGCTTGTCTACGAGCATGTAAGTCACCTCTTTTACCAAGTGTAACCATTTTGTCAAAGTGTTGTCTTAATTCTTTAGCTCTAGTTTCAGTAATTTCCAATCTTTCTGAAATTATTAGCTCAGTAGTCAAGTTTCTCATTAAAGCAACTCTTCAAGCAGTGTTTTTACCTCTTTTTTGAATATATGACATATAACTACACCTTCCTTCTAATCTTGTTTGAAAGTTAGTCCTAATTGAACAACTTTATCCTTAATTTCTTTTAATGATTTTCTACCTAAGTTTCTGATTTCTTGAATATCATCTTCAGTACGAGAAACTAAGTCACGTAATGAATTGATACTTGCTCTTTTTAAACAATTTAAACTTCTTTGTGTGAAATCTAAATCTTCAATTAAACGATCTAATTCTTTCTCATCTTCTTCATTTGTAGCTCCAATAACATTTAAATCATTGATTTCATCATTTAGATTTACAAAGAATTGTAAGTGTTCAACTAATATTTTTGCAGCTGTTGCAACTGCGTCACTTGCAGTAACTGTTCCGTCAGTTTCAACTTCTAAAATAAGTTTTTCTAAGTCTACTGATTTTCCAATTTTTGTTGCATCTACATGGTAAGCAACTCTAACAATTGGAGAATAATTTGAATCGATTGTAATTGCATCAGCAACCAATTTCTCTTTTTTGTTATCTTTAAATGATCTATACCCTCTTGAGTTTTTTGCAAATAAAGTTAAATCTAAAACTCCACCATCAGCAATTGTACAAAGATGTAATTCTGGATTCATAACTTCAACTCCAGTAGGTAAACTGATATCTCCTGCAGTTATTTTTCCAACTCTTGTAGAACTTACTTTTAATTCAACAAATTCTTCATCATCAAATATTTTTGAATCAATTTTTAAAGCTAATTTTTTTAGATTTAAAATAATTCTACTTACATTTTCAACAATTCCATTTATTGATGTAAATTCGTGAGCTGCACCTACAATTTTAATTGCATAAACAGCTGCACCTGGAGTTGAAGAAATTAATGTTCTTCTAATTGCGTTACCAAGTGTTGTTCCAAATCCTCTTTCAAGAGGTTCTACTTTAAATTCCCCATAATTTCTGTTTTTTTCCTCTTTTAATAATTTAAATTCTGGTCTTGAAAATTGTTTCATACTTTTTATTAACCTCTCGGGCGTTTTCTTGGACGCACTCCATTGTGGGGAATTGGTGTTGTATCTTTAATTGAAGTTATTTCTAATCCGATACCTTGTAAACTTCTAACAGCAGCATCTCTTCCTGGACCTGGACCTTTTACTTCAACAGCAATAGTTTTTACACCATTGTCCATAGCCCCTTTTCCTGCAGCTTCAGCTATTAATTGAGCTGCATAAGGTGTTGATTTTTTACTTCCTCTAAATCCCATTACTCCGGCACTTGATCAAGCTATAACATTACCTTTTTCATCTGAAACAGTTACGATTGTATTATTGAATGTTGAGTGAACGTGAGCTATACCTTTAGCAATATTCTTTTTAACTTTTTTCTTGTTGTTTTGTTTATTATTTGCCATAGTTTATACCTCTCTAACTATTTTTTCTTATTAGCTACAGTTTTTCGAGGGCCTTTTCTTGTACGTGCATTTGTCTTAGTTGACTGTCCACGAACAGTAAGTCCTTTTCTGTGTCTCATTCCTCTGTAACATCCAATTTCCATTAAACGTTTAATGTTTAATGCTGTTTCTCTTCTTAAATCTCCTTCAGTTTTTACTTTAGAAATTTCTTGGGAGATTAATTTAATATTCTCTTCTGATAAGTCTTTAACTCTTGTATCTTCGCTTACTTTTGTAGCCTCAAGGATTTTTTGTGAAGTTGTTAAACCAATACCATAAATATAAGTTAGAGCAATAACTACTCTTTTTTCATTAGGTATTTCTACCCCATTTATACGAGCCATTATTAATTTCCTTTCTAATAAGATTAACCAATTTTTGCTTTATTAATAAACATTAATAAATAATTAACCTTGTCGTTGTTTATGTTTTGGTTGTTCACAAATAATCATTACACGGCCTTTACGTCTAATTACACGACACTTGTCGCAAATTTTTTTGACAGATGATCTTACTTTCATCTTTTCTAACCTCCTGATTTTGTGTACTTAATTTATATTTACATTGTTGATTAAAATTACTTATTTACCATTTTTAAAACGGTATGTAATTCTTCCACGTGTTGGATCATATGGTGAAATTGCAACAGTGACTTTATCTCCTGGTAAGATGCGAATGTAATTCATTCGGATTTTACCAGACACGTGGGCGTCTATAACTATTTCATTTTCTAATTTCACCTTAAATGTAGCATTTGGTAGTACCTCTAAAACGGTACCATCCACTTCTAAATAATCTTCTTTTGCCATTATTCTGTTTCCTCCTTGGTTTTAAATAAAGTTAATACCTCTGGATCTCCTTCAGTGATCAAAATAGTATGTTCAAAGTGGGCAGTCATACTACCATCTTTTGATGACACTGTTCAGTCATCATCAGCAACAATAGTTTTATTTGTTCCTATCTGAACCATTGGTTCAATACAAATAGCCATTCCTGGAACTAATCTCATTCCAGTATTTTCTACTCCTACATTAGGAACAAAGGGATCTTCATGCATTTCCAATCCAATACCATGTCCTGAATAATCTGTTGGCAAATGATAACCATTTTCTTCAATAAATTTTTGAACAGTAGAAGAAATAGTCCCGATGCGCACACCGGCTCTTACCTGCTCAATTGCCAAGTATAGTGACTTTTCAGACAACTCTATTAGTTTATCATACTTTTTATCTTTTGAGTTACCACAAATTACAGTAAATGCTGCATCTGCGTGATACTTTTCAAAAACACAACCTGCATCAATTGATACAATATCACCATCTTCTAATATCCTATTTCTAGGTATTCCATGAATTAATTGTTCATTAATTGATATACAGATATGTGCAGGAAATCCACCATAACCTTTAAAATTACTTGTACATCCCTTTTGGGTAATAAAATCTATAAAAAACTTATCCAAATCCAAGCAATTAACACCTGGTTTAATCATTTTTTTTAGTTCCTGTAAGGCTTCTCCAAGAACTTGTCCAGCATATCTCATTTTCTCAATTTGTTCAGCATTTTTAATTGTTATTGCCATATAGTTAAGAACCTAAAATTTTTTCTACTCTATTATAAAGTTCTACAGGCGAACAATTAGCATCAACTTTAATTATTTTATCTTTATAAAACTTAATTAAAGGTGCTGTTTGATTATGATATGCTTCTAATCTTATTTTAATTTTATCTTCTTGATCATCTGGTCGTACAACTAAAGTCCCATTATCAAAATCACAAATTCCTTCTTTTAAAGGTTTTCTATTTATCTTATGATAACTTCTTTTACAAATTTGACAAATCATTCTTCCAGTTAAGCGACCCATCAAAGTACTTTCGTCAATATCTAAATAAACAACTTGATCAATTTTTTCTTTTAAATTCTTTAACATATCATCTAATGCTAATGCTTGATCATCTGTTCTTGGAAAACCATCAAATATTAAGTCCTTTTTTTTATTATTAAGATACATTTCAACCATTGAGTTTGTAACTGAATCTGGAACTAATTTTCCCTTATTAATAAATTCTTGTGCTCTTAAACCCAAATCAGTTTTATTAGAAATATTATCTCTAAATAAATCACCTGTTGAAAGTTGTGTAAAAGTCTTTTTCTCACAAAGAAACTCTGAAAGAGTTCCTTTACCACTACCTGGAGCTCCAAGTAAAATTATATTCATAAATCTTATTTCTCCTTATTATCAAATATGTGAATTATATGCTGTTTCATCTTCACTAAATTTGTCTTGTTTTTTATCTAAGAATGACTGTTGAATCAATCTACCTTTTAGTTGTTGAACTGTTTGAATTGCAACTGAAATTACAATTATTAAACCAGTTCCTCCAATAGCTAAGTGAGAAGGTAAAGCTGTTATTTTAGAAATTATATAAGGAAGAACTGCAATTCCAGCAAGGAATAAAGCTCCAATAATACTTAATCGATTAATTACTCCAGATAAGAATTTTTCAGTTTCTTTTCCAGGTTTAACTCCTGGAATAAATGTTCCAGATTTTTTAAAGTTCTCTGTAATTTTTTCAGGATTAATTTGAACTTGTGCATAAAGGAAAGTAAATAGAACTGTTAAAATTCCATAAATTGCAATTCCTCATCAAGTTCCAAATGATAAATAATTTTGTGTAAATAATACAAATCCATTATTTGGGTTTGTAGCTGCAATAATTTGAGCTACTGTCATTGGTGTTGAAATTATAGCTGATGCAAAAATAACTGGTATAACCCCTGCATTGTTTAATTTTAATGGCAGATACGGTGTGTGATCTTTTGTATCAACTAATCCCGCTCCAGTTTGTTGAATTGGAATTTTTCTTTCAGCTTCGTTCATTAGAACAACAACAAAAATAACTAATAAGAATGAAATAATATATATTAAGAATTTTAATAGTCCATCAAATAGAATTGTTGATTCACCTTTAACTTCAACTCAAAATTTAAATGTATTTGTAAAGTTATTTGGCATTTGAGAAACAATACCTGTAAAGATTATTATTGAAACTCCATTACCAATACCTTTAATTGTTATTTGATCTGAAATTCATAACATTAAGAATGTTCCACCAAGCATAACTGTTGGCACTAATATGTAATAAAATCATGCAGGCCCAGTTCCAGTGGCATTTGTTCCTCATTTTGCTTCAATTAATCCTTGACTTGTCAATGTAAAGATTGTAGCTACAGATTGCATTAAGGCAAATGGAATAGCCAATACTTTAGTTAACCTATCTAATTTTCTTCTTCCTCTTTCACCAGATTTACTTCATCTTGTTAAAACAGGAATAACATCAGTTGAAAGTAACTGAACAATAATTGATGCTGTAATATAGGGCGAAACACCCAAAGCCAATATTGAGAATTGTCCAATACTTCCTCCCCCTAAAGTTGATAGCAATTGGAAAAAGTCTTGATTTCCAACTGATTCTTTAAAATTTGGTGATATTTGAACACCAGGAACTGTTAATAAAGTTCCCATTCTAATTATTATTAAGACTATTAAAGTAAAAACGATTCGTTTTACAAGGTCTTTGTTTCTAACAAAGAAGCCACCTTTAGCGAATTCGTTTTTGTATTTAGTTACTTTAGCCTTTTTAGTTTTATTAACTTTAGCAGCCACCTAAATCACCTCTATAGTACCACCAGCAGCTTTAATTAACTCTTCAGCGCTTTTTGATACTTTATTTACTTTAACTTTTATTGACTTAGTAATTTTACCATTTCCTAGCACTTTTACTAATGTTTTTTCATTTTTAATAATTTTTTTCTCCATTAAAGTTTTGTGATTTACTTCAGTTAACCCTAATGTTTCTAACTTATCTAAGTTAATTAATACAAACTCTTTTCTATTTAAGCTTGTAAAACCAATTTTAGGTAATCTTCTGAATAAAGGAGTTTGTCCCCCTTCAAATCCAGGTCTTACCCCTCCACCAGAACGTGAATTTTGACCTTTGTGTCCTCTAGTTGATGTCTTACCTTTACCAGAAGCCATACCACGACCAACACGTGTTGAGTCTTTTTTACTTCCTGGTGTAGATTTTAATTCATGTAATTTCATAAAATAATTACTCCTTCTTAAGCTGTTGTAGCTTCTTTAGTTTCTTTTTTAACTTCAACTTGATTTCCACGTAGTCTTGCAATTTGTTCTGGTGTTTGCATTTGTTGTAAACCTTCTAATGTAGCTCTTATCATATTGATAGGTGTATTTGATCCCAATGATTTTGTATAGATATCTGAAATTCCAGCTAATTCGACAACAGCACGAACTGGACCACCAGCAATAACTCCTGTACCTTTTCTTGCAGGTTTAATCATAACTTTCCCAGCACCGTAATGTCCCATAACATCATGTGGTACTGTAGAACCTGCTAAAGGAATTCTAATTAAAGATTTTCTTGCTTCTTTAATAGCTTTCTTAATTGCATCTGGTACTTCGTTTGCTTTTCCTGTTCCTAACCCAACTCTACCTTTTTTATCACCAATAACTACAACTGCTGCAAATCTGAATCTACGTCCACCTTTTGTAACTTTTGTAACACGGTTAATAGTAACAACTCTTTCTTCATAAGGGTTGTCTTCTCTGTTTCTGTTGAATTTTGGATCTCTTCTTTGTCCGTTAGGTCTATTGTTATTGTTTGGTCTAGTGTCTTTTTTGTCTTGGTTGTTTGAATCTACTTTTGGAGCTGATTCAGTTTTAACAACTTTTGTTTCTTCTGCCATTTTTTCTTAATCTCCTTCTAGAATTTCATACCATTTTCTTTTGCAGATTCTGCAAAAGCTTTTACTTTACCATGGAATAAATATCCACCTCTATCAAATACTACATTAGTTATTTTTTTACTTTTTGCTTTTTCAGCAATGTCTTTTCCTACAGCTTTAGCTGCATCAATATTACGTCCGTTTTTAAATCCCATTTTTATTGAAGATGATGATACTAATGTAACACCACTTGCGTCATCAATTATTTGAGCATAGAAGTATGAGTTTGATTTAAATACATTTAATCTTGGTTTAGCACTAGTTCCAGACACTTTATTTCTTACTCTATAATGTCTTCTTTTTCTAGCTTCTGCTTTAGTGTATTTCATATTTACTTCTCCTTAGCAACAGCCTACTTACCAGCTGCTTTACCTTCTTTTCTAATGATTTTTTCATCTTTGTATTTAACACCCTTACCTTTATAAGGTTCTGGTCTTCTATATGCTCTAATATTTGCTGCTACTTCTCCAACTAATTGTTTATCAATTCCTGATATTTTAATTTCTGTTGGTTTTGGGATTTCTACTAAAATTCCTTTAGGAACTTCGTATTCTACTGGGTGTGAAAACCCTAATGATAAGTTGATTTTATTACCAGCTAATGCAGCACGGTAACCAACCCCAACAATTTCAAGTTCCTTTACAAATCCTTCACTAACTCCAGTTAACATTCCTTTAATTAATGAGTTTGTAGTTCCATGTAATTGTTTTGTATGTTTTTGTTCGTTTTTTCTTAGAGTTTGTAATTCACTACCATCAACTTTAATTTCAATTAAAGGGCTGAAAGTTTGAATTAATTCTCCTTTTGATCCTTTTATAGTTACAACGTTATTTGTTTCAACTTTAACCTCTACTCCGGCAGGAATTGTTAATACTCTGTTTCCTATACGTGACATATATTAATTCCTCTCCTTATCAAACAAATGCTAGGACCTCTCCACCAACATTATGGTGACGAGCTTCCTTATCTGTCATTATTCCGTTTGAAGTTGAAACTATTGCAATACCCAAACCGTTTAATACTTGAGGTAAGTCATGAGAATTTGAGTAAACTCTTAATCCTGGTTTTGAAATTCTTTTTAATCCTTTAATAACTCTAATTTTTCCCTTGTACTTTAAGCTTATAGTAATGTCTTTCTTAAAGTCATCTGCAACTTTGAAGTCTTCAATGAAACCTTCTTTTTTAAGAATGTTTGCTATTTCTAATTTTACTTTGCTTCCTGGAATTAGAACGTCTTTGTGAAAACGTTGGTTTGCATTTCTAATTCTAGTAAGCATATCTGCGATTACATCTGTTGTCATAATTTCTTTTTCCTTTCACTATCATGAAGCTTTCTTAATACCAGGGATTTGACCTTTGTATGCTAAATCTCTGAAGCATACACGGCATAGATTAAATTTTTTCAAAACTGAATGTGGTCTACCACAATTTCCACAACGTGTGTATTCTCTAACTTTGAATTTTTGGACTTTTGCTTGTTTTACTTTTAATGATTTTTTTGCCATTTTATCCTATTCTCCTCAATTACTTAACGAAAGGCATTCCTATTTTTTGTAATAATGAAAATGCATCGTCCTTTTGGTTTGCTGTTGTAACTATTGTGATATCCATCCCACGAACTTTTTTAACTTTATCATAGTCAATTTCGGGGAAAATGATTTGCTCTTTGATACCCATTGTGTAGTTTCCTTGTTTATCAAAACTAGTTTTAGGTACCCCTCTAAAGTCACGCACACGTGGTAACGCAACTGAAATTAATTTATCTAAAAATTCATACATTCTTTTTCCTCTAAGAGTAACTTTTGCACCAATTGGCATACCTTCACGCAATTTGAATACAGCTAAAGATTTTTTAGCTTTAGTTACAAGAGGTTTTTGTCCTGTAATTTGTTGTAATTCGATTACTGCATCATCTAATTTCTTAGTATCTTGTACAGCATCTCCAATACCCATATTGATAACAATTTTTGCGATTTTTGGAACTTGCATGATTGATTTATATTGCTTTTCTTTAAATAATTCTGGGACGATTTTTTCTTTATATTTTTGTTCTAATCTATTAACATTTGCTTTTGCCATATTAACTTATCCCTTTCCTATTTAACTTCTACGCCAGATTTTTTAGCAATTCTAACTTTTTTTCCATCTGCAATTTTGTATCCAATTTTTGTAAATCCATTTTTATTTTTTGGGTCAACTAATGAAACATTTGAAATATCTACTGATGTAGGTATTTCTTTCATTCCACCTTCTTGATCTGTTTGTGAAGGTTTAGCATGCTTAATTGCCACAATTCCCTCAACATAAACTCTTTTTTTATCTTTTGATACTTTAACTACTGGTCCAATTTTTCCTTTGTGATTTCCGGCGATAACTTTTACGACATCTCCTCTTAAGATTTTTGATTTATTCATAAAAGTTCTCCTTCTATAGCACTTCGGGAGCTAGAGAGGCAATTTTTGCAAATCCAGCATCCTTTACTTCACGTGCGATTGGACCAAAGATACGAGTACCTCTTGGTGTTTTATCATCTTTGATGATTACTGCAGCGTTTTCAGAAAACTTAATGTATGTACCATCAGCTCTTCTTAAACCTCTTACAGTTCTAACAATAACAGCTTTTATAACTTGACCTTTTTTAACAGTTCCACCAGGAGCTGCAGATTTAACAGTAGCAACAACAATATCACCAATATTTGTAAATTTTCTAACACTTCCACCTAAATTACGAATAACTAATATTTCTTTAGCACCTGAGTTATCAGCGACTTTTAATCTTGATTCATTTTGTATCATTCTGTCGTACCTCTTTTAAATTAGATAATTGCTTTTTCAACAACTCTAACAAGTCTAAAGTTTTTAGTTTTACTCATTGGGCGAGTTTCCATAATTTCAACTCTATCTCCCATTTGAGCACTCGAATTTTCATCGTGTGCCTTGTATTTCTTTGAATACTTAACACGTTTCTTGTAAATTGGGTGGTTTTTGTATGTTTCAACTAATACGGTAATAGTTTTATCCATTTTGTCTGAAACTACTCTACCAATATAAGTTTTTCTTAAATTTCTCTCCATGGTTATTTAGCTCCTTTGATTGATGATTTTGCTGCTTGTTGTCTTGCTGCTTTTCTTTCAGCCATTTTTTTATTAGCTTCTTCAATTTGTCTTTTTGCTTCTGCTACATTTGATCCAAATGTATAAGTTTTAGCACCCTTAGGTTTTTTTGAAAGTTTCAAATCAATTCCTTCAATACGTTCACCTTTTGCTACACCAACTTTAACATTTTTAACAGCTATTTCTTTTAGTTTTTCTTTCCCTTTTCCAGTTGCTTTTGCTTCACCTGCAGGAACTACTTTACTACTTGCTTTTGGAATAACTGGTTTTTTAACTTCAGCTATTGTTTTACCTGTCTTAATTGCAGGTTTCGGTTTAGCAACTACTTCTTTTTTAGGAGCAGGAGCTGGTTTTGATTTAGCAACTACTTCTTTTTTAGGAGCAGGAGCTGGTTTTGATTTAGCAACTACTTCTTTTTTAGGAGCAGGAGCTGGTTTTGATTTAGCAACTACTTCTTTTTTAGGAGCAGGAGCCGGTTTCGGTTTAGCAACTACTTCTTTTTTAGGAGCAGGAGCTGGTTTCGGTTTAGCAACTACTTCTTTTTTAGGAGCAGGAGCCGGTTTCGGTTTAGCAACCACTTCTTTTTTAGGAGCAGGAGCCGGTTTCGGTTTAGCAACCACTTCTTTTTTAGGAGCAGGAGCCGGTTTCGGTTTCTCAACAACCACTTCTTTTTTAGGAGCAGGAGCCGGTTTCGGTTTCTCAACAACCACTTCTTTTACAGGAGCAGGAGCCGGTTTCGGTTTCTCAACAACCACTTCTTTTACAGGAGCAGGAGCCGGTTTCGGTTCCTCAACAACCACTTCTTTTACAGGAGCAGGAGCCGGTTTCGGTTCCTCAACAACCACTTCTTTTACAGGAGCAGGAGCCGGTTTTTCCTCAACAACCACTTCTTTTACAGGAGCAGGAGCCGGTTTTTCCTCTTTAACTTCTATTTCAATTGGTTCTTTTGGTTCCTCAGTTGCTTTTTGCATTGCTGCCAAAATTGCATCTTCTGAAACTTGTTCTTGTTCTCCAGTTCCAAATTGTTCTTTTTGAAGTTTTTCTATCATGTCCTTATGTTTTTTACGTACTTGCTTACCAGCTTTTTCAGCTTCAACAACTGCTTTTGAATAATCTGCTTTAATAGTTTTATTTACTTCTTCTCCAGCTAATCTTCTTTCACCTAATAACATTTCAATTCTTGCAATGTCTTTTCTTAGTGAAGGAATTCTGTGAGTCTGTTCTAAACTACCTACAGCAGCTTGGAATTTAAGAGCGAATAATTCAGCACGACGATCTTCACCAAGTTTGATTAAATCTTCAACTGATTTTGTTCTTAATTCTATCATGAAGTCTACTGCTTTAGACATTATTCATCACCTCTCTTAACGATTTTGCAACGCACTGGTAATTTATGCATTGCTAAACGTAAGGCTTCACGAGCAACTTCTTCTGAAACTCCACCAACTTCAAACATGAATTGGCCAGTTTTAACAACTGCTACTCATTCTTCAGGAGATCCTTTCCCTGAACCCATACGTACTTCTAATGGCTTTTTAGTTATTGCCATATGAGGGAATATTCTAATTCAAACTTTACCAAAACGTTTCATATAACGTGTCATAGCAATACGAGCTGCCTCTATTTGTCTTGAAGTAATTCAATTACCATCTAATGACATTAAGCCATACTCACCAAATGCAATAAACTTTCCACCTTTTGCTTTTCCTTCATAACTCACTCTGTGAGGACGACGGAATTTAACTCTTTTGGGCATTAACATAACTATTTAACCTCCCTTGGTGTTCTTTGAGGTTTTTTATCCTCAATCACTTTCGAATTGTTTTGGTTTTGTTTTCCTATAATTTCCCCGTGGTTAATTCAAACTTTAACCCCGATTTGTCCATATGTAGTTCTTGCTTCATATAGAGCATAATCAATATCACTTCTTAAAGTTGATAATGGTACTGAACCTTCAAGGTAACCTTCAGTACGAGCCATTTCAACTCCTCCAAGTCTTCCTGAAACTGCAGTTTTAATTCCCTTAGCTCCAGCTTTTAAAGCTTTTCTAATAGCTAATTTTTGTACAGTTCTAAATGATGCACGGTTTGTAATTTGCTCTCCAATAAATTGTGCAACTAATTTTGCATCAACATCTGGATTTTTGATTTCAATTACTTTAACTTTTACATCAGCTTTTCTATCTTTAATTGTTTTTCTTACTGTTAAAACTATATTTTCAACGTTTTTACCTTCTTGTCCAAGAACTATAGCTGGACGTGCAGAACGAATTACTAGAGTGATTTCTTTTTTTGTTCTTTCGATTTCAATTTTTGAAACAGCTGCATTTTTTAATTGCTTTTCAACAGCTTTTCTAATTTTGATATCTTGATGTAATCACTTAACATATTCACCTTTTTCAGCATATCAACGGTTATCTCAACCTCTAATAATACCTATACGTAAAACATTTGGAGATACTTTTTGTCCCATACTCTATAATTCCCTTCTATCTTTCGTCACTAACCACTATTGTAATATGGCTAGTTCTTTTCAAAATTTCATAAGCTCTTCCGTGAGCTCTTGGTCTAAAACGCTTTAATGTTGGTCCTTCATTTACGAAGATTGTTTTAACAAATAATTGATCAGCTTCCATACCGTTGTTGTTAACAGCATTTGCTACAGCTGAGTTTAATAATTTTAATACTGGTTCTGAAGATCTTTTGTCTTGGTTTTGAAGAATTGCTACAGCTTCTGATATTCTTTTACTTCTGATAGTGTCAGCTACTAGTCTAACTTTTCTTGGTGAGATTCTAATCATTGTTAATTTTGCTTTTGCTTCCATATTTTGAAACTCCTATTTCCTAATGATTATTTTTTCTTTTTCTTATCATCACCATGACCACCAAACTTACGTGTTGGTGAAAATTCTCCTAATTTGTGACCTACCATATCTTCTGTAACATAAACTGTGATGAATTCTTTACCGTTGTAAACTCCAAATGTGTGACCAACAAAGCTTGGAAAGATTGTTGAACGACGTGATCAAGTTTTAATAATTTCTTTTTTTTCACCTAATGCTTCAACTTTTTTAATTAAATAGTCATCTGCAAAGGGACCTTTTTTTAATGATCTTGACATTTCATAATCCTCCTATTTGTTATCATTTCTTCTTCTTACTATTAATTTAGTAGAAGCTTTCTTTTTATCACGTGTTTTTACACCAAGAGCTTTTTTACCTCATGGTGTTAATGGAGCTTTACGTCCGATTGGAGCACGACCTTCTCCCCCTCCGTGAGGGTGATCTATTGGGTTCATAACAGAACCACGAACAGTTGGTCTAATTCCTCTTCAACGATTTCTTCCAGCTTTTCCTCAGTTTACTAAATTGTATTCTTCATTTCCAACCTCACCAATTGTTGCATAACATTCGGCAAGTACTTTTCTAACTTCTCCTGAACCTAAACGTAAAGTGATGTATTTTCCATCTTCATCTTTACCTAAAATTTGTACTGAACTTCCTGCACTACGTGCAATTTGTCCACCTTTCCCTGGTCTTAACTCAACATTGTGAATTAATGTTCCTTCAGGAATGTTTTTTAGTGGTGCTGCATTACCAATTTTGATATCTGCATGTTCACTAGAAATAACTTCTTGTCCTACTTGCATTCCTTTTGCAAATAAGATGTATCTTTTTTCACCATCAATATAATGTACTAAACAAATAAATGAATTTCTGTTTGGATCATATTCAATAGTTGCGATTTTTCCAGCAATATCTAATTTATTACGTTTAAAATCAATGATACGATATTTTCTTTTATGTCCTCCACCTTTATGGCGAGTTGTTATTTGACCGTGATTATTTCTTCCAGCCTTTTCATTAAGTTTTGAAACTAATGAACCTTCCGGCTTTGAAGTTGTAAGGATACTATAATCTAAGCTAGTCATGTTTCTACGACCATTGGTCGTAGGCTTATATTTTTTGATTGGCATAATATATCCTCCTGTTTTCGCCTAATCTTTTACAATTCTTATTAATTAATTTCTTAATTTTATAAGTCTGATAAGATATCTAATGTTTCTCCATCTTTTAACACTATTACAGCTTTTTTAAAAGATGATTTTGTTCCAACATATTTACCCATTCTTTTTTCTTTACCGTCATAGTTCATAGTTCTTACGTCTTTAACTTTAACTTTAAATATTTCTTCGAATGTTTTTTTAATTAATGTTTTGTTAGCTTTTTTATCAACAATAAATGTGTACGCACCATTTTGTTGACCTAAGTAAGTCTTTTCAGTTAACAAAGGTTTTTTAATAACTTGTGTTAAATGCATTATGCATACACCTCCTCGATTTTATTAACAGTATCTTCAGTAACAACTAATTTTGTTGCATTTAATAAATCAAAGATATTCATTTTTTGGAAGTCTAATGTTTTAACTCCCGGAATATTACCTGCTGATTTAACAACGATTTCTTCGTGTTCTTTAGTTACTATTAATGTTTTTTGATCTTCAATTTTAATGTTTTTCATTACGCTTAACATTTCTTTTGTTGAAGGTTTTGAGAATGCAAACTTATCTAAAATTACTAAGTTTGCTTCTTTTGCTTTAATACTTAAAGCACTTCTAATTGCTAATTGTCTAACTTTTTTATTAACTGCTTTTTTATAATTAATGTTTGGTGTAGGACCAAATACTACTCCCCCACCTCTTCATTGTGGAGATCTAATTGATCCTTGACGGGCACGTCCTGTACCTTTTTGTCTTCAAGGTTTTCTACCTCCACCACGAACTTCTGCTCTAGTTTTTGTTTTTCTTGTTCCTTGTCTTAATGCAGCTTGTTGTGAAACAACTGTATCAAAAATAGCTTGTTGATGAGGTTCTACACCTCAAACTTTATCGTTTAATGTAATTTCTTTAAGAGATGTTCCCTTAACATCTAAAACTTTTGCTTTCATGTTAATTTCTTTCCCCCTAATTATTCAGCTGCAGGAGCTGTTTCTTCAACTACTGGTGCTGGAGTTGGTTCAACCACAGCTTTAGTAGCAGTTTTTCTTGATAACAATGAAACAGCCTCTTGCGCTTTTCTACCTTTAACGTTTTGTTTAATCACAACAAAGCCTTTTCTTGGACCAGGAACAGATCCTTTAACTAAAACTAAATTTTTTTCAACATCGATTTTTACTATTTCTAAATTTTGGATTGTCACTTGTTCATGTCCCATGTGACCTGCCATTTTTTTAGATTTGAAGATTCTGTTAATAATTGCTCCCATTGACCCGATACCTCTGTGATATCCTGATCCGTGACCCATTGGTCCTCTTGAGTAATTATGTCTTTTAATAGCTCCAGCAAATCCTTTACCTTTTGATATACCTGTAACGTCCACAAATTCACCAGCGTTGAATACGTCGGCTGCATTAATTACTGCACCAGTTTCGTATCCTTCCATATCTCTGATTTCTTTTACGAAGCGCTTAGGTTCTGAGTTAACTTTTTTAAATTGACCCATATCTGGTTTATTAAATAAGTTAGCTCTTTTATCGATTGTTCCCAATTTTAGTGCTTGGTATCCGTCTTTTTCAACTGATTTCACTTGTAAAACTGTGTTTTGTTCCACTGCAATAACAGTGACTGGAATTAATTTACCGTTTTCACTAAAGATTTGAGTCATCTCTAACTTACGTCCTAAGATTCCTTTCATGATATTTCCTCCTGTTTTTATGATTTTCATGTATATCTTGATCGTCTACTATAATTTAATTTCGATGTTAACACCAGTTGGCAATTGAACTCTTGTTAATGAATCCATTGTTTTTGGTGTTGGTTCAACTATCTCAAGTATTCTTTTATGTGTTCTCATTTCGAACTGCTCTCTACTATCTTTATATTTATGAGTAGCTCTTAATATTGTTATAATTTGCTTTTCTGTTGGTAATGGAATTGGTCCACGAACTTTAGCTCCAGTTGATTCAGCTGCTTCAATAATTTTAGCAATTGATTGATCAACAATAGCATGGTCGTAACCTTTTAATTTAATTTTAATTTTTTGTTGAGCCATTAGGTCCTCCTTCAACATTGACAACCCTTTCCAGTGTGTTGTCTAAATGAACATAAAATATACATGCTTTCCAATTATCACACAACATCATTAGAAAAGCAATAAGAAATTTAAAAAAGATTAAATTAATTAAAATAAGTTAATATATTTTTATATATCAGTTTTTTTAATTCTTAAAATGCAAAAAATCGACTTAAGTCGATTTTTTCATTATTCATTTCCTATCAATGAAGCTAATTTAACTCTTTTAATAGATAACATTATTACTGTATATCCTAATAGGAAAATTGATAACCCTACAAAGAATACCACAGGCATAATAGTTCATCCCATTATCATAGGTACTGCTATATCAAGAGAAAGCAATATTTGAGGGAATAAATAACTTATTAAGAGTCAAACAATTGTTATTCCAAAGGCTACTCCAATTGCAGCTACAGGTAAGAATATTCACATGATAATTGAATTAATTTCTTTCATTGAATAACCTTGAATTCTCATATAACTCATAAATCGCTTATATCTTCCTATAAACATTTCAGTAATTAAGTAAATTATAATAATTGCTGTAATTAATGATAGCGAAACAAAGATAACGGAAATAGATATTACTGATGTTATCAAGTTACTCATAGCCATTTTCTTCATTTGAATATAGTCAGTATAACCAATAGATTGGTCCATATATTTTGCAAAACCTTCAGTTGAATTATTTGCATTAAATGGTGCTAATAAAATTCTTTGCATTTGATCTGCATTTTGGATATTTGAACTCATTTTAGCATTACTTCAGATATTAATAGAAGTTCCATTTTCAAACTCTTTTCTACTATCAAAACCTGTTGTAACTCCCATTAACTGATTTGCATATAACTGGTCCATATATAATTTATTTCCATCGTATAATTCCTCAACTCCAACAACTTTTGCTTTTCTTGGATTTGAATCAACTAATTTATTGACTAATAGACCTTTCTTTAATGCAATATTTAATCAGTTATTTGTACCACCTAATAATGTTTCTATTCCAATTTCAATTGGCTCTCCACTTTCATATTTGTAGATATCAAAAGGTTTAACAATATAGCTATCTCCCGCATCTCTATAAATTAATTCTTTATTAGAATATTCTTGATATTCTTCATTTACTTCCTTAAATAAATCCTTATTTAATGATTTTTTTTGTAGAGATAGCTCAATATCTGCCATATTATAATATTGTTCATATTTATTATCTTTTTTAAAGTAAAAATCCTCTTTATTTGAATAAGTGAATTTATCTAAATCCATTGTAAATAAATCTTTTTCTTTATAACTTCATTGATCAGATTTCTTATAACTTCATTGATCAGATTTCAATTCATATGCTAAATTATCATCATCAACAGTTGCTAATAAACTTTCAGAAGTTTGTAAATTAAATTCACTGCCAATTTTTAATCCCTCTAACTCTCCCTTTTTATTTATTAATACTGGAATATAGTCTAGAGAATTATTGTATTTAATTTTTTCTTGATTTTTTATTAATAAATTTTTTGATGCTTTTTGTTCTAAATCAATTCCATAAACTGTATATTTATCTTGTTTTTTATTATTGATAATTGAATCAACTCTTGTATACATTTGATCTAATTCTTTATCAACTGAAACAGCTGAGAAATTAAATGAGAAGTTTTTAAACTCTTGATTATCTTTATCTCAAAGTTCTTTTATAGTTGAAGGAAGAATATTGTTTGAAACACTTTTTATACATTCATTATAATCATTTACTTCACTAATAGCCCCTTGACCAAATAGTGTTGGAATAATTTGACAAGAAACATTGTTAAATCTATTCCTTACTATTTTATTCTCCTTGATAATCTGTGATTCTACTTTTACTAATTCATCCATTACTCCTGTTGATAAAACTCCACCTTTAAAAGTTATTAAATTATTAAATAATATACTTTCAAAGTGTTGTTTAAAGGATCCTTCATTACCATTTTTTCAATAATCTACTTCAAAAAGTGTTTTGTAGTCATTTTCTCCTTTTTTTATTGATGTATTAAATAAAGAAGCTTCTAAATTGCTTTTAGCTTTATTATCTTCATCCATTTGATAGAATGAATATCTTGTTAAAGGATTATTTACAATGACATTTGAATAACTAAAATCATTATTATATTTAATATTTTTATAAAATTCCTTTGACATGTTTTTCATTGTATTTGGTGCAACTGATGCTAATGTTATTACCGAACTTGAAAATAATAATATTGAAAAGAAAACTACTAAATCCTTTATTGCACTTGACAATATTACAAGTCTTAACTTTGAAGTAAAACTTATACCTTTTATTTTTGAAAAACTTCTTGATAAAAACATATTAGGTTTATGACTTTTACTTGGAGATAATAAAATTAAAGGTGATTGTTTTACAGTAAAGTAACTTGTAAAAAATACCATTGAACTTACAATTCCTAAAAAGGCAGATAATTCCACTAATAATAATTTTCAATCAATTGAAAACTTTGAAGGAATATTAAAATATCTTTCAAAAATACCCATTAGAGAGCCTTGTAAAAATAAACTAATAAATCAACCTATTGGAACAAGTATTAATATAGGAAAAGTCATATATAGAATATAGTTAAATATAATTTTTGAATTTGAAACTCCAAGAGACTTTAAATTTCCTATTTGACTTCTTTGAGAAACCAAAACTTTTTTAAAGATGTTATATACAACAAAAGCTAAAGCACTTGCAAATATTATACAAAATATGATAGCTAATAAATAAAATCCTTTAACAACTCCCGGAAATAAACTACTTCTCATATTTATTAATTTTGTATCTTTATAAGATTCAATATTTGCTCTTGCTAAATTTTCTGAATAATCTTGCTTTTCAATATTTTCAACAACTTGACCTAAATTTAAGACGTTATCTGCAAAGTAAGTTTGAAACATTCTCATATCAGCTTCAATATTTTTCTTATCAGTTTTTTTGTAAGTTAAATAAGATCGACTAACATCTTGATAACTATCTTCTCCTGCTTCTTTGTTGAATTCTTGTTCAAAAGCAGAATTACTTATATAAAAAATTGCTTCATTTTCTTGATTTGTTAATAAATCCTCTTCATATATTGTTGGGTAAACATTAAGTGAATCTACACCAATTCCATCCATTACATATGACCCTTTATTGTTTTTAAGATTTATATCATAACTTTTTCCTAAATCCATTTTGTTATATTTGGCATAACCATTTGAAACTATAAAAGAATTTGAAGTAAAACTATCTTCTCTATAAGTTCTTTTGTATAAATTAAATATATCTTCATTATAAAAATGAACATTATAGGCATCACTATCTTTTTTTATAGTATTATAAAACGCTGAAATATATCTAAATTTTTTTCCACTAGAATCTCATTTTACAGCTTCATTAGTTGACCTCACCTTAAAATTTGATAAGTCTCCTAATAAACTAAAATAATTTGTAAATCAATCTCTATGTGTAATGTTATTACTTAAAATTTGATATCCATTTATATTAAAATTAGTTTTAAATAAAGTTCTTGAATCAAATTTTTTAATATAGAAGCTTGCTCTTTCTTTAAAAAGCTTATTCTCTTGAATATCATTTTCTCCATTTAATTTTGGTTCACTTGAAGAAAATTTATAATTCCCATTATCATCAATAAATCCGATTCCTTTATTAATGACTTTTTCAATTTCTTCTTTTTTCTTTTCTGTATTTTCATAAATATCAATAATATCTTTTTTTATAATATCAGTTATAACAGAATTATTTAAATAAAACATATACTGAAAAATATTCAATGCAGTTTTTTTTGCTTCTGGTGTTAATTGTTTATCTTCAAAATAATTATGTTTTTTATACAATTTTCCAATTAGTGAAGTTTCAAAACTTTTTGCATCTTTATTAAATTTATATAAATCCCCAAACTCAGCTTTTCTAACTATTTCTATTTTTTGTTCAACTGAAAAATTAGATATAGCTTGACTTTCAGTAGGTAAATATTTTTTATCAATACTATTACTATCAAAATTTGATTCTACATCACCAAAATGAAAATTTATGTAATTTTTATTTTTATCTTGAAAGATAGAAGACTCATAACATTGCTTTTGATTATTTGCACAACCATCAATAAATTCATATTTTTTTAATATCTCATTTTCACCAAGATCATTTTCACCAAAACGAAGTGTTGGGAAAAAATTACCTTTAGTGTCTTCAACTAATTGCGTATTAAATGAAAATCATGGAGTAAATGTTTGAGTATCATTAGATTTATAAGCACTAGATGTGTATCTAAATGAGTAATCAAACTTTTCAAAATTTCTATTTATATTATTATTTGTACTAATTAAATTTGAAGAAACAATACCAAAAGTAGAAGTAAATATAACAGCTATTGTAATAAGTACCAAATATATCCCAAATTGGACATAATCTTTTAATAATTTCCTTAAACCATTTTTAAATAAAAGCATTTTTATTAATAAATATTATAGAATTCTTCTCCATCAGCATTAAATGACTTTAGTGAAGTAATCACTCAATAAGGTGATTCTTGATTTTTAGAGATATTTTCTCAAACTATTTTATATGAATTTTTTACTGGTTTGTAATCTTGATAGTTTCCAAGACCATCATACTTTGCAAGATCATCTTTTGTAATAATTTTTTGCTCTAAACCTAAAATTTTTCCAGAATTTTTAAGTTTTTCTTCATCCAATTTATCTAATTTTTTAAGTTCTTCAATTTCTTTTTGTTGATGTTTTTCAAGAGTTTGATATGGATTAAATTTTTGTCCAACTTCTACTTTTTTAGTTTGTTTACTTGCATTAGAAGTTACATCACCTATACCATTATAATCAAGAGTGAATTCCATTTTTCCAGATAATTGTGTGTTACTTGTTGTACTAATTTTAAAATTATTAACTTTTCAATATTTGTCATCGTTAATATATTGTAAAACTGGCTCATGTACTTTTGCCATTGCATTTGCAACAGAATCTTTAAATCCAGCAAAGAAATCTGCAAAGTCTTTTTGTCCTATCACCTTTTCATTAGTAAACCCATTATATAATCTTGCACCTAAAGAACCTTCTTCATATCCATCTTCTGATCATCCAATAAGTTCTAAGAATTTATTTTTTTGCACATTTGTTAAGTCTCTAAAGTTTTTTTCATCTTTAAACTCATTTATAATTAATTCAAATTCTTGCATAATTTCACTATTTGAAAATATGTTATAAGCTCCCCTCGCAAAGTTTAAAAGGTTAATTCCACCATTATCATTTTTACCTTGCATAGAAATTATTCAATTTTCTTCACCAATATATTCCATTATTGAACTATATGCTTTATAAAATGGTGATGATTTTTCTATAAAAAACTTTTGATTAAATTCTTCTTTATTTTCTGTATTTTCATAAATTTTAATTAATTCATCAATTATTTCTACAATAAACTTTGCATTTTTACCTTGTTCCATTTTATCATTATTTGCAGTTTTGTACATCTCTTCTAATTTGGAATAATGAGCTAGTCCAAATTTTGTAGGAGCATCGTTTAAATTATCAATTTTTTCAATTAAGTCTGGATAATTACTAATTAAACTACTGTCAATATTTTTAATTCCCCTTCAAACATTTGATATTAAAGACATACCAACACCTTGCATCATTGTTTGTGTTTCTGGAACTGGGTTTCATACGCTAAAATCCTGAGTAATCATTGGAAATAAAATATTCATAAATTCTGCCATAATAAAGGCTCCATTTTTTGTATCAGATAAATTTTCTAACATTGACCCAAATAAACTAATAAAACCATTGACATTTTGTTCACCAGCAACTTTAGTAATTAGAGCACCTGTAGAATTAAACTTATTTCCATTAATTGTTGATTGATTTTCATCATTTGCTACTATATAATTTTCTTCTTTAAGTTTATTGTTAGAAATTAAACTTTTATCATTTTTAAAATCAACAGACTGTGTAGCTTTTCCACTCATCAAAATTGAATTATATCAAGCATATCCTGATCCATTTGTTCCACCTTTTTTACCCTCTGCTGACGCTGTTTTTACTCCTGCTGTTCCATTTGTATCTGTTGGATTAGCTCCATCAAAGCCTAAATTCAATAAATAATTTGATAATGCACCAGTATCTTGAATACCTCAAGCTAAATTTCTTCTATCTTCATTTTTTGATAAGTTAATGTCATTCCCTAATCCCGCAGCATACCCCATAGCATTGTTACCATTTTTGTTGTACCCTTGATTTCCCTTTTTTGAAAAAGTATCTCTAAAATAATAAGCTCCATCTACACCATTTATAATTTCATCATAAAATTCATTGTCATACATTCCCATAATGTAACTTGCAAACATACCTGCATAATAATCACCATTATAATAATTTAATGAAGGTGCTAGATAATTTTTAAATTTGTTAATATTAGTTGCCATATTTATGCTTTCACCTTTATATTTGTATGAAACAGGCATATTCATAGCTGTTGGAGTTGGTGTTAAAAAAATTGATAATATTTCATTAATATTGTAATTTAAGTTTTCATGTCTACCTGCAACTATAAGCCTAGAGATAAATTCTGACCCTTTTAACATTTCCTTTTGTAAACTTGATAGATCTGGTTCTTTACCTCCTCCACCATTTCCACATGCTGCAACTGAAGTAGCAGCTGAGCCGATTAAGGTTACTGAAGTTAATATATTTAATAATTTTTTCATAATTAATTTTCTCCTTTTTTCTTTCAATATATAAGTACTCAATTATTGTTATTTTTTAAGTACCTAACTTTTGCAATACTCATCTTTAATCCATATTTAAATTATTTACCCCTAATTGTTTTGAGTTATTGTGCTATTAAATGTTATTTTCTAACAATTAAATTTACTTTTTCACTCTGTATTTTCTTTTAGAATTTTGTCCATTTTTAATAATATCTAAAAGCTTATTTTTGGAAACACTAAAAACTTTAATTACAAATATAGCGGAGGAGTTGTTGCCTTTTTAAAAGTTTTCAATTCCTCTGATTTAATATTGCTAATTAAAATTATTATTTCTTTTCAGCTATTTTTAATTTTTTTAGAGCTTAGTTTAATAAAAATTAAATACTTAATAAACATTTTTAAAAATAAATTTAATTTAGTAGATTTTTTATAAATAAGATTATTTAAATCCTCATTTGATTTTGAAACAATTTTTATTACTGAATAAATAAAAGAAAAGAAAACAATATAGAAAAATGAATATAGTAAAAGTGAACTTATTAAAAGAAATTGAGTAAAGAATAAAATATTTATGTAATCTAAATTTATAATTTTATGAAATTTATAATTCGTTCATCAATAAACCTCCATTGATATTATTGTTGTTCTTTCAATTGATATGTAAGTTTGCGTTATTGAAAAAATAAAAAATAAAAATGTAACTAACATTGTTATATAAAACTTATAATTATTATTCAATAAACTCATACTTATTAAGTTTTTCTTTGACACTTCGTCATTATATTTTTCAATATATCTTAATAGATTTGAAATAAAAACAGTTATAAAATATAGAGAAATTATTATTAAAGTTATATTAACAAATAAAGATAAAATAATTATATTAGTTTTTTGATTTAAAATATTCTGAATTGGAAATGTTAAAAAAAGCAAAATAAATATAACTATTAAATTTAAATTATTCTTTATCTTCTTCATTATTTTCCTCACTTTTTAATTATAGTTGATAAAAAAAAAAAAAAAACAATAACTTTTAAAAAAAATTTCATAAAAACTTTTTTAAATATACTATTATTGTTTTTTTCTTTATATAAGTAAAGTTAAATAATTTTACCTTGGGCAAAGGTACTATTTCCTCCACCCTTTACTTTAAATTTTTTATTATTATTAAATAATTCAATTGCACTATTATCCTTTGCAATTGCTTCATTTACTGATACTACTAAAACCTTTTCTTTTATATTTCAAAGCATAATAATTAAGTTGTCAAATTTATTTTGCAATTTATCTGAAAGAGATTTCATTTCCTTCATTTCAAGGTTATTAGTTTCTAATTCAATTCAATTAATATTGTCTTTTTTAATTGGACTAATATCTGAATACTGTGATAATTTCTCTTCAATTAATAATTCTTCAATTTCTCTTTGATATATTTTAAATAAGTTTTTCAAATCATTTACTTTTTGTTTTATAACTATTACATTTTCTTTATTCACTTTTAAGGACATAATCTCATTAATTTGAGTTTCAATTGTCTTATTTTTTACTTTTAATTTAAAATTATTAAATTTATCAATTAAAGTTTGAATTTCTAATTTTTGTTTAGTGAACTGCTCGTTTAAATAGTTCACTACTTCTTTATGACTAGTTACTGCGTGATATCTAAATACACCACTACCTTTAGATTCTACATTAGTAATTAATAAGTCTTCTATATCTTTTGTATTGGCAACATGAGTCCCCCCACAAAGTTCACAAGAAAATGATCCAAATTTAATTACTCTAACATTTTCACCATATTTTTCTGTAAATAATGCTAAAGCTTTATGTTTATCTATGGCTTCTTTTAAAGAACAATAGATAATTTCTCTAGGAATTTTATTATTTATTTCTCTTGCTATAACTGAATGAATTTTTGCAAGTTCATCTACAGTTGGCAATCTGTTATAAGAAATATCAATTCTTAAACCATTTTCATCATTATAACTACCATTTTGTAACGCTTCTTTGCCAAGTATTTCTTGAATTGCTGCTTGTAAAATATGTGTTCCTGAGTGATTTTTCATTGTATAAAAGCGCTTTTCACTATCAATTGAGGCTTTCACAATATCTCCAATTTTTAAAGTTCCATTTACTTGAACTTTATGTATATGTTGTCCATTAGGACCATTTTTTACATCCATTACTAAGTGACGATTTTCTTGCTTATCAATTAAATAACCATTGTCTGCAGCTTGACCACCTTTTTCAGCATAAAATGGTGTCTTTGTTAAAGTTATAAATACAACTTGATTTGTTGCTGATTGTAATTTTGATTCATCTTCAAAAATAAAATTAATTTTTGAATCACACTCTTCTAAATCATAACCCACAAATTCACTTTCTTCTTTTAACCCTGTCAATATTGCTGATTGTTTGTTCCAAGCTTTATCATCTTTTCTTGAACTTCTTGCTAATTCTTTTGTTTCTTCTAAAAGTTTCTCATAGCCTTTTAAATCAATTTTAACATTTGCCTGAGTTGCTATTTCTGTAGTCAATTCAATTGGAAAACCAAATGATTCAAAAAGTAATAAAGCATTTTTACCACTTACTTTTTTTTCTGTTTTTATAATAGATTCTAAGTGCTCATAACCTTTTGAAAGTGTTTTTAAAAATCTTAATTCTTCTTGTTTAATCACTTCTTTAACAATATCTTTTTTTTCAATTAAATAAGGATAAAAGTTTTTCATAGCTTCTATTACTTTATCTACTAATTTATATAAAAATGCTTCTTTAATGCCTAGTTTTCTTCCATAAACAGAACTTCTTCTTATAAGTCTTCTTATAATATAACCTCTATCTTTATTGCCAGGAAAAACTCCATCACTTATTGCAAAAACAACTGCTCTTACATGATCTGCAATTACTTTAAAACCTGTATTAATTTTTGTTTGCTCTTTATTTTCATTATAATAATTATCAATAGAATATTTAAATTCTTTACTACACATTTTTTCTACTTGTTTAATTGTTGGGAAAAAGATATCAGTTTCAAAATTTGTTGGGGCATCTTGAAAGATTGAAACTAATCTTTCAAATCCTGCTCCCGTATCAATATTTTTTCGTGGTAATTCAGTGTAATTATTATTACCATCATTATTAAATTGTGAAAATACAATATTTCAAATTTCAATATAACGATCATTTTCAATATCATCTTTTAAAAGTTTTGAACCGATTTTTTTGGGATCTCATTTTTCACCACGATCAAAAAATATTTCTGTATTTGGTCCACATGGCCCTTGGCCTACATCTCAAAAGTTTGTTTCTCTTGTTCCTTTAAAAATATGGTCTTCTTTAATTTTAATAATTTTTGTCCATACATCATATGCTTCTTTATCTTCATTAAAAACTGTTATATATAATAGTTCTGGATCTATATCAAATCATTTTGGAGAAGTTAAAAGTTCTCATGCAAATTCAATAGCTTCTTTTTTAAAGTAATCTCCAATTGAAAAATTACCTAACATTTCAAACATTGTTTGGTGACGTGCTGTAACTCCAACATTTTCAATATCATTTGTTCTAATAGATTTTTGAGAGTTTGTTAATCTTGGTGATGGTGGATTCATTCTTCCATCAAAATATGGTTTCAAAGTAGCAACTCCAGAATTTATTCACAATAAGCTTGGATCTTCAACTGGAACTAAACTAACAGGTTCTAAAAAATAATGGTTTTTTGATTTAAAAAAATCCAATCACATTTTTCTAATTTCATTTGCAGAAAGTTTCTTCATTTTTTTCTCTCCTTAGGGATAACAAAATAATTTTAGCATAGAACTATTAAAATTATTTTATAAAGCAATCCTTATGAACTGCCATTGTAATACCACTAAATTCAACTAAATTATAATTATCATTATTATAAAATTTAATATTTCAAGGTTGCTTAGCATCTTTTTTTGAATAATGTTCATTATAATCCATAATTTCCAAACAAACTAAACAAATTCTATGAATATCTAAATTATCTTTTTCGTGACCACATTGGCAAAGTAATGCATTACTTCAAGCATTTTTGGCAATATCATCTAATTCAATTTTTTTCATAAATAAATTCTCATTTCTATTTAACTTGCAAAATAAAAGGCTCATATATTGAACCAACTTTACTTATTATAGTTTGGAGCTTCTTTTGTAAGTTCCACATCATGAGGGTGACTCTCTTTTAAACTAGCATTTGTAATTTTAACAAATTTAGTTTCTAAACGAAGTTCTTCAATACCTTTGCTTCCAGTGTAACCCATTCCACTTTTTAAACCACCCATTAATTGGAAAACCACTTCTCTCATTTTTCCTTTAAAAGGTACTCTTGCTTCAATACCTTCGGGTACTAATTTTTTTGCTCCTTTTTGGAAATATCGATCACTACTTCCTCTTTTCATAGCGACAAGTGAACCCATACCAACATAAGTTTTGTATTTTTTACCATTGGCAATAATTTCTTCTCCTGGTGATTCTTCAGTTCCTGCAAAAATACTTCCCATCATAACACTATGTGCACCTGCTGCAAGTGCTTTTACAATGTCTCCTGAGTATTTTACTCCTCCATCAGCAATAATTGTTATATCTTTATCTTTTGCTCAATTAAAAACATCATTAATTGCAGTTATTTGGGGAACTCCAACTCCTGCTACAACTCTTGTTGTACAAATACTTCCAGGACCAACTCCAACTTTTATTCCATTTGCTCCTGCTTTATAAAGTGCTTCTGCACCTTGGGCAGTACAAACATTTCCTGCAATTATTTCTAAATCTTTATACTTAGTTCTAATTGCTTTAATTACATCAATAATTCCTTTACTGTGACCGTGTGCTGAATCAATTACTATAACATCTGCTTGGGCTTTTACAAGTTCATCAACTCTATGCATATAGTCTTCACCAACTCCAACAGCTGCACCAACTCTTAATCTTCCCTTTTCATCTTTACATGCATTTGGATGATCAATTGCTTTATCAATATCTTTTGTTGTAATTAAACCAACTAATGTATTATTTGCATCAACAATTGGCAATTTTTCAATTCTATTTTTTAATAGAACTGCTTTTGCTTGTTCTAAAGTAGTTGAGGGATTACCTGTAATTAAATTTTCCTTTGTCATAATAACATCTACTTTTGCTTGAAAATCTTCAAAATATTTTAAATCTCTATTGGTTAAAATTCCAATTAGTTTTCCATCATTATCTACAACAGGTAAACCAGAGATTTTGTAAGTAGCCATAATCTCGTTGGCTTCTTGAACAATTGTTTCTTTTGTAATTGTAATTGGGTCAGTTATAAACCCTGATTCATTTCTTTTAACTTTTTGAACTTCTAAAGATTGTTCTTCTATTGATAAATTTTTATGAATAATTCCAATACCACCACATCTTGCCATTTCAATTGCAAGTTTTGATTCAGTGACAGTATCCATAGCTGAACTTATTATCGGAATATTAAGTTCTATATTTTTTGTTAATTTTGTTTTTAAACAAACATCATTAGGCAATACTTCAGAGTATCTTGGTACTAATAAAACATCATCAAAAGTAATTCCTTCACTAATTATTTTTCCATTCAAATCATTTTTATTCATATAAATTTTCCTCTACTCTCATTCTATTGTTCCAGGTGGTTTTGAAGTTATATCATAAACAACTCGATTAACTCCATCAACTTTATTAATAATTTCATTAACAACTTTATCTAAAAATTCCCAAGGTAAATGTGTACTAGAAGCTGTCATAAAGTCAATTGTATTAACACTTCTTAAAGCAACTACATAATCATAAGTTCTATTATCACCCATTACACCAACCGTTTTTACTGGCAATAATGTTACAAAAGCTTGAGATACTTCATTATATAAATTTGCTTCAATTAAGTTATTAATAAAAATATCATCAGCCTCTTTTAAGATTTCACATTTTTCTTTTGTAACTTCTCCAATAACTCTAACTCCAAGACCAGGTCCAGGAAAGGGATGACGATTAATCATAAGGTCAGGAATTCCCAATTCTTTTCCAACTGCTCTAACTTCATCTTTGAATAATTCTCTTAGTGGTTCTAATAATTCAAATTTTAAGTCATCTGGCAGTCCTCCCACATTATGATGTGATTTAATAGTTTTTGAAACATGGCCATTGCTTGATGACTCAATTACGTCTGGGTAAATTGTTCCTTGAGCAAGAAATTTTGCTCCTTGCATTTGTCTTGCCTGTTCACTAAACACTTCAATAAATTTTTTACCAATAGTTTTTCTTTTATCTTCTGGGTCAACTTGACCCTTTAATGCTTTATAAAATTCATTGCTAGCATCAACTAACTTAATATCCATTTCAAATTCTTTATTATATAAATCCATTACTTTTTTTGCTTCATCTTTTCTTAACAAACCAGTATCAACTAAAATACATTTTAATTGCTTTCCAATTGCTTTAGAGATTAATGCAGCTGCCACTGAAGAGTCAACTCCTCCAGATAAACCTAAAATAACTTGCTCTTTTCCAACAATTTCTTTTATTGATTTTATTTTATTTTCAATAAATTCTTTCATTTCTCAATCAGCTTTACATTTTGAAATATCAAAAATAAAGTTTTTTAACATTTGAATTCCTTGTTCAGAGTGAGTCACTTCTGCGTGAAATTGAATCCCATAAACTTTTAATTTTTCATTTGAAATCCCCGCAACTGATGAATCAGAATGAGCAATTTGTTTAAAGCCTTCAGGCATTTTTGTTAAGTGATCTGCGTGACTCATTCATACTTGTGAATTTTGACTAACTTTTTTAAACAATAAACTTTTGACATCGTCAATATATAATTTAGCTTTACCAAATTCTTGTGAATCAGCTAGCTCAACTTTTCCACCAAACATTTCTGTAATTAATTGCATTCCATAGCAAACACCCAATATTGGAACCCCAAGATTAAATATTTCCTTATCAATTTTATAAGCTTCATTCAGATATACACTATTGGGACCACCAGAAAGTATAATTGCTTTTAAATTATGATATTTTTCTAAATCGGCTTTTGTTTTATCAAAAGGAATTACTTCAGCATAAACATTTAAATTTCTAACTCTTCTTGCTAGTAATTGAGTATATTGACTTCCAAAATCTAAAATAAGTATTTGCGTATTTAACATTTTCTTAACCTCTAACTATTTTAATAAAACACTTCAAGTTTTCCTTTTATTATACATCAAAAAAACACCATTATATTTTCTAGTAATACTAGTTTATATAATGGTGTTTTAATATTTATTAAATTTTTAAAAGTTAATTGGTTTTCCTGATTCTAATGCTTCAGCTGCTTCACCAATAGCTTCACTCAATGATGGGTGAGGATGAATAGCTCTTGCAATTTCACTAATTGTAGCTTCAGATTCCATAACAGTTGTAATTTCTGAAATCATATCTGTTGCTGTATTTGAAATAATATGACATCCTAAAACTTGTTTATATTTAGGTTCACAAATTAATTTAACAAACCCTCCTGTATTACCATCAGCAAGTGCTTTACCAATAGCTGCAAATGGGAATTTATAAACTTTGTAGTCTGTTCCAGATTTTTTTAATTCATCTTCTGTTTTACCAACACAAGCTACTTCTGGATAAGTATAAATACAACTTGGAACTCTATCAAAGTTCATAGTTAAATCTTCAGCATGTTCGTTGCCTAATCTTTTTGCAATTCTATTTGCTGCAATAATACCTTGATGAGAAGCCACATGAGCTAACATCATTTTTCCTGTAACATCTCCAATTGAATAAACTCCATCAATGTTTGTTTCACAATATTCATTAACATTAATGTGGCCTCTTTCGTTCATTTCTAAACCTATTTTTTCAAAACCTTCTGTTACAACTTTACGCCCCACTGATTGTAAACAATAATCTGCTTTAATTTTATATTCTTTACCATCTTTTTCATAAACAACTTCTTTTTTACCAAAAGATTTTGTATTAACTCCATAAATTATTTCTAAGTTTCCTCTAGATAATAATTCTTTTGTCATTTCTTTTGAAACATCACTGTCTAACATTTCTAATATTGTTGGTAAGAATTGTAATACTGTAACTTTTGTTCCCAATCTTTTGTAAACACAAGCAAATTCAATCCCAATAACTCCTCCACCAATAATAACTAATTCTTTTGGAATTTTAGGAAGTGCTAATGCTCCTGTTGAATCAATTAATCAACCTGATTCAATTGCTTCTTTTGCTCCTGGTAAATTAAAGTGATTTGGTACACTTCCAGTTGCAACAATTAAATTATCACAAGTATATTTTTTACCATTTACACTTACAGTATTTTTATCAATTGCTTTAGCTGAACCTTCAATAGCTGTAACTTTATTTTTTTTCAAAAGACCTTTAACTCCAGTTGTTAATTTATTAACAACATCATCTTTTCTAGCTTGAATTGCTTTTCAGTCAGCTTTAACTCCAGTCAAATCAACTTTAATTCCATACTTATCAGCACGTTTTGTAATTTGCTCATATAAATATGCTGATTTTAATAATGTCTTAGTTGGTATACAACCAATATTTAAACAAACTCCACCATAATTACCTTTTTCAATAATTAATGTTTTTAATCCTAGTTGAGCACATTTAATTGCTGCAACATAACCTCCAACTCCAGCTCCAATTACTATTACTTCATAGTGATTTTCTGGTTTTGTTGAATTAAATTTAGGAGCAGGTTTTAAAGGTCCACCTTTGCCTTGAGTTAATCCTGACATATTAACATTATTTACAGCATTTACAATAGTTTCTACAGCTGATCTTTTTGGTGGAACCGTTCTTGCTCTCCCTCTTGAAAGAAGATCATTTGAAACTGGTGTTGCACCAACAACTGATGCATTTTCTTCAACTGGTTCTGATTTTGCTTTTGTTGCTTCTTTTGGAGCATCACCTTTACCATCATCAATTTCAACAACAACTTGTCCAACTTTAATTTCTTGATTTGCAGCAATTAAGATTGTTGCAACTTTACCATCAACTGGTGCATAAATATCTGAAGTTACTTTATCAGTTTCAACATTAAAAAGAGCATCTCCCATTTTAACTTGATCTCCAACTTTTACAAGAACTTCAGTAACTGTACCTTCTGTTAAACCTTCTCCAATATCTGCGAATTTTACTTTAAACATATTTCTAGTCTCCTAAACTAACAGAGTTGCAGGATTTTGTAAGTAGTATGCTACTCTTGTTAAAAATCTTCCTGCATCTGCTCCATCAATTACTTTGTGATCTGCAGTTATTGAAAAAGGCATATAGTCTCTAATTTCAATTTCTTCTTTAATTACTCCAGGTGCTCTTGTAATTGTACCAACACCTAAAATAGCTGCTTCTGGGAAGTTAACAATTGGTGTAGCATAATCTAATCCAACAGCTCCAAAATTGGTTACTGTGAATGTTGCTCCACTCATTTCACTTGCTGAAAGCTTTTTATTTCTTGCTTTAATGGCTAAGTCATTTATTTTTACAGCAATTTGTAAAACACTTAATTTATCAGCTCCACGAATAACAGGAACCATTAAACCATCAGGTGTATCACAAGCCATACCAATATTAATTTGTTGCGCAAATTTTATTGCTTTATTTTCTTCATCAATTCTTACATTTAAATTTGGCATATCTCTTAGTGCATTAGCGCTTGCTTTAATAATAAAAGCTAAATAAGTTAATTTAACTCTAAGTGAATCTGCATGACCTTTAAGTTGTTTTCTAATATTTACTAATTCAGTAACATCTAAGTTTCTCAATCCTGTAAATCCAGCAACTTTTTCATGAGCTGTTGTCATTGCTTTAACAGTTGCTTTTCTAATTGGATTTCATGGTTTTGATTCAAAAGTTAATGGTTCATTAATTTCAGGAACTGAAATTAATGGATTTGAGTAATCTATTGCTGCACCTTTTGGGCCTGGACCAGCTGATTGTATTGCAGGTGAAGCCATTTGTGGATTTGCAGCAAAACCTTCAACATCAGAAACTAAAATTCTATTATTAGGTCCAGATGGACTAACTTTAGAAAGATCAACACCCATAACAGCTGCAACTTTTCTTGCTAATGGTGATGCTTTAACATCAACATTACTATTATCAATAATACTTGCTTGAGAAACAATATTTGCTTTTGGTGCAACTTCTCTAGCTTTTCTTGAAATAACTTCATTTGAAACTGGTGTTGCACCAACAACTGATGCATTTTCTTCAGCAGGTTCTGCTTTTGCTTTTGTTGCTTCTTTTGGAGCATCACCTTTACCATCATCAATTTCAACAACAACTTGTCCAACTTTAATTTCTTGATTTGCAGCAATTAAGATTGTTGCAACTTTACCATCAACTGGTGCATAAATATCTGAAGTCACTTTATCAGTTTCAACATTAAAAAGAGCATCTCCCATTTTAACTTGATCTCCAACTTTTACAAGAACTTCAGTAACTGTACCTTCTGTTAAACCTTCTCCAATATCTGCGAATTTTACTTTAAACATATTTCTAATTCTCCTATTAGTCTCTAAAATTTGTAATTTAAGATTTCTTCCATTTTAACAAGTATTTTTTTTGGATGAGGTTGGTGGTAAGCTTCACCTGAATCAAAAGGTATAACAATGTCATATCCTGTACATCTCATTGATGGAGCTTTTAAATATTCGAAACATTCTTCATTTACTGAAGCAATAATTTCTGCTGAAACTGAAAATGATCTGATTGCTTCATGGACAACTAACAATCTTCCTGTTTTTTTAACTGATTCAAAAATCATTTCTTTATCTCATGGTTGAATTGAACGTAAATCAATTAATTCAATTGTAACATCGGGATTTTTTTCTTCCAATTCATCAATTGCCTTTTGACAATCAACTGTTTGAGCTCCATATGTAACAACAGTTAAGTCATTTCCTTCTTGAATTTTAAACGCTTTACCTATTTCAACAGTATAGAATCCCTCAGGAACTTCTTGTTTAAAGGCTCTATATAATTTTGTTGGTTCAAAAACAATAACTGGATCTGGTGATTCAATTGCTGCTAAAATTAAACCTTTTGTATCATAAGGTGTTGAAGGACAAACTACTTTAATACCTGGAGTATGTGCATACATTGCTTCCATAGCTTCAGAGTGTAATTCAAGAGCTCTAATTCCACCACCCATTGGCATTCTTATAACAACTGGTGTTGGGTATTTCCCTCTTGTTCTATTTCTCATTCTTCCCATATGTCCTAAAATATTTTGTAATGATGGTCAACCTAGACCTTCAAATTGTAATTCTACAACTGGTTTCATTTTATTTACTGCCATACCAATAGCTACACCAGCAAAGACAGCTTCAGAAATTGGAGCATCAAAACATCTTTTTTCTCCAAACTTAGCTTGAAGCCCTTCTGTTGCTCTAAAAACTCCACCTTCATAACCAGCATCTTCTCCATAAACAACAACGTCATCTCATTTTTCCATCGCAACTTCAAGTGCTTCTGAAACTGCTTTAACATTATTTAAAACCTTCATTAGTGGTGTCCTCCCTTAGCTACTTCTGGATATTTAGCAAAAAATTCTTTTGCTTCTTTATATTGTTTTTCTAAATCTGGAGTTTTTTCAGCAAATTGGAAGTTGAAAACATCTTCTAATTCATATGATTTATTTGCTTCAGCTCAGTCAAACTCAGCTCTAATAAATTCATCTTGTTTTTTATCTAAAGCTTCTTGTTTTTTATCGGTTCAGATTTTTTTATCAATTAAGTATTTTTTCATTCTTATTAGTGGATCTGATTTAAGTGCTTCTTCAAATTCAGCTTTTGGTCTATAAATATCTGGATTATCTGAAGATGAGTGAGCTCCTAATCTATATGTATCACATTCAATAAATACAGGACCTTTACCACTTCTTGCATGTTCAACTGCTTCTTTTGCAACAGCATAAACTGCAAGTAAATCATTTCCATCAACTTTAATTGAAGGCATTCCTGTTGCAATACCTTTTACAGCAATATTTAATGACTTTGTAGATTTTTTATATGGTGTAGAAATAGCTCATTTATTATTTTCACAAATGAAAATAACTGGTAGTTCATGAATTTTTGCAAAGTTCATTGCTTCATAAGTTTCACCTTCACTCATTCCACCATCACCTGTTGTTGTTACAGCAACTCCACCTGTTCCTCTATATTTTTCAGCAAAAGCAATTCCTGTTGCATGTGAAAATTGAGAACCAATAATAATATTTGGTGGTAAAGAATTAACACCTTTTGGTGATTGCCCACCATATTCATTTCCCATTCAATAAAGCATGATATTTCTCATTGGCATTCCAACACTTAATCATGCAGCATTATTTCTATATCCTGATGAGAATCAATCTTTTCCTTTAATTAAGGGCAAAGTATATCCTATTTCAGATGCTTCTTGCCCTGTTGAAGAAAGAAATGATAATAATCTTCCTTGTCTTTGTGCTTTATTTTGGAAGTCATCTTGTCTTCTTGAAAGATTCATTAATGAATATGCATCTATTAGCTCTTTGTCTGTCATTTTTGGCACTAATTTTTCATCAATAATTTTTCCGTTCTTATCCATAATACGAACTACTTCGTCTTTTAATGGATCAAATTTTCCTATAAATTTCATTTTTCCTCCTATTGTATTAATAAGTCTAGTATATCCTTACTTGTGAAGTTTTCTCCAAAAATATTTTTGATATCTGACTTATTTAACACATCTTCTAAAACAAACGTTTCATATTTTAAATTTACTAATTTATTTTCAAGTTCTTCAGTTCCTTGAAAACCTAAAAAATCTCCATAGAATTTTGCATCTTTAATGATTCCCTTTTCAATTCTTAAAAGAGCTTCAATAGATCCTTTTCCTTCTAATCTTTGTTTATTTCTATAATCAAAATCAGCATTCTTTGCATAATTTCAATCTGAATTTTTAAATTTCTCTTTGCTAAGATTAGTTATTTCCTTTATTTCATCTTCGCTTAAATTAATTGTTTTGATTTCATCTGACTTTTTATAAGTCTCAATTAATTTATTCATAAAAGCTTCAATATCAATTTTATTTTTTACTTCAGAATTTATGTTTGTAACCCTTGCTGCAATAGATTGAATATTCTTTGAAAGAATTTTGGCTCTATCAACAGTTAAATAATTAGTCAACTTATCTAAATTTGCATTAAATAATATTGTTCCATGTTGCAAAAATCTATCTTCATACTTTCACATAGCATTTCCAGATATCTTTTTACCATTTAGTTCAATATCATTTCTTCCAGAAAACTTTGCAGGAACACCTAACTCATTAAGAGTTTTAATTACAGGTTCTAGCATTGTTGAAAATAAAGAAACACCTTTATTTTCTAAATCTGTATAAATAATGCTAAAATTCATATTTCCTAAGTCATGAAAAACTGTACCCCCACCACTATTTCTTCTAACAATATTAACAGAATCTTTTTGAGCGTTTTGAAGATTAATTTCTCAAGCAGCATTTTGATTTCTTCCAACCACAATTGTGTTATCATTTTGTCATAAAAAAAGAATTGGTTCTGAGTATTTTCTAGTTTTTACAAAGTATTCTTCTGTTGCTAAATTAAACGCTGGGTCAACACAAGAAGTTTTATATATAAACATTTTGATACTTCCCTTCTATACAACTATATTCTAAGGCATTTATCCTCATTTTGAGGAAATTTTTTAAATAAAGAAAATTATTTTCTAAATTTTTCCATTCTTAATTCCCTTGATTTATCAAAGGAAATCAATTAAAAAAAGATATAATTAATAGGTAAAGGAGGCAATTATGCAATTACAACACTTATCAAAAAAGAGATTAATTTTAATAGATTTAGACGGTACAACTTTAATGTCTAATGGTGAAGAAATTCATCCAATTACAAAAAAAGCATTAATTAATGCAACAAAAAATGACCATAAGGTTTGTATAATAACAGGAAGGCCTCATAGAGCAAGTATTCGTTTTTTTAATGAACTAGGATTAACTACCCTTTTAACAAATTTTGATGGAGCTCATATTCATGACCCAGTATCAATGAAATTTAAAAGAATTGTTTTTCCTATTAGTGAAGATGTTGTTAAAGAAATAATGTTACACCCTATTATTAAATCAAGTACTTCAAACATACTAATTGAGTCATATAATAAAGCAATGGTAAAAGAAAAGAATGAATTTATTGAAAACTTTTTTCATCTAGACGATGTTGATGACGATGAATATAAAATTATTGACCCATATAAACATTGAGAGGGTTCTGCTACAAACGTTGTTTTATTTATAGATACTGAAGATAATAAAGATAATGTTTTAAGAGTATTAGAAAAATTTAAAAACACAATAAAAATTCAATCTGGTAATGTCTATGGTAATTTAAGTAAATCATCAAAGTTAATGGTTACTCTAACAAACAAAATTGTAAATAAAGGTTTTGTTGCCGATATTCTAGCACAATACTATAATAAAGATATTAGAGATGTCATTGCTTTTGGAGATCAAATGAATGACTATGAAATGGTTCAAAAAGTAGGTTATGGTGTGGCTATGAAAAACGGAAATACGGCTTTAAAAAATATTGCAGCGGGAATTACTAATCTTACAAACGATGAAGGTGGGCTTGGTGAATATCTTGAAAAACTTTTAAGAGGAATGGAAGTTTAAAAAAACTGGTTATCCAGTTTTTTATTTTGTAATTTTTTCTAATTCTTTTATAAGATTATTAATTTCTTCTATTAAAGGTTTATATGTATTCTCATTTAAAAAATCAACACCAACTTCTTTTAAAATTTCTAATGGTGGTTTTGAACCCCCTAATTTTAAGAAATCAGTTATTATTTCACTATTACCATTTTTAAAATCCTTGTATAATTTAAAACTAGCAACTAAATCAAGTGCATATTTATATACATAAAATGGTGATTGAAAAAAGTGAGATATATAGGGTCAAGAATAATTTGGTTCATCTTTATCATCAAATTGATCATAACCAAATTCATTTTGTTTTTGTAAAAATAAATCCTTTAAACTCTCTGTTGTAATTGGTTTTCCATCTTCAATTAATTTATGAGCACTATATTCAAAATCTGCAAACTGAATTTGTCTATAAAATGTCGAGATTAAATCAAAAATTCTTTGTTGAAGTAAGTATTTTTTTTCTTCAATATCTTTTGCTGAAGAAAATAAGTAATCAAATAATAAATGCTCATTAAAAGTTGAAGCAACCTCAGCTAATATTATTGGATAATTATTTAATGGATATTTTTGAAACTGATCTGCAAATAAGGTATGAACAGAATGACCAACTTCATGAACTAAAGTACTAATTGACCCCAATTTATAATCTCAATTCATTAATATTATTGGTTCAACACCATTACCCCCTGAGGAATATGCCCCATCGGATTTATTCTCATCTTCATAATAATCTATTAAAGAATCTTTTAAAGCAATATTTAATTTACTTTGATAATCATTTCCTAAAACTTTTAAGCAATTTATTACAATTTCTTTTGCCTCATCAACACTAAATTCCCTTTTATAGTCCTTTGATATTTTTAATAGTCTATCTGTCGAGTAGAACTTATCAAAATTATATATACTTTTAATTAATTTATTATATTTTTTAAAGCAATTGATTGTGCTCTTTCCAACTTTAATTAAATTCAAATATATTTCTTCACTAACTTGGTCATCAAATAAATTCATTTCCAAAATAGAATTATAACTTCTAACATTTTTATCTTCATTTTGTACTTGAATAATTGCTTCATAGATTTTTGCAAAACTATGCTTTCTTGAAGAGTAATTTTTAAAATATAAATCATTAGCTTCTCTTCTTTTTTCTTGATCTTTGATTGGATCAGAATTTTCCATTATTTCTTTATACAAAGATAAGCTCAATTCTAGTTGTTTACCATTTCATTCAATTACTGAGTTTTGTTTATCAGCATAGGATAAAGAATCATATAGATTACCAACAGCATTTCTACTTCTTGAAACTTTACTCATTAATTCTTCATCTGTTTTTGATAATATAAATTTGGAAGATTTAAAAAAGGTTTTAAAATAATAATTATATTCCTCTTTATTTTCTTCATTAAGTCATTGAAGAATTTTTAATTCTCCTATTTCTTTTAATTCATTTAATACAAAGGCTTTTTTAATATTTAAATCTTGATAAAAATTATCCAACAAAGCGCTTACATGTTGATTTTCATTATTAGTTTGATCGATATCAATTAAATGAGAATATTGATTTAATTTAGATAAAATTAAATCAATATCTTTTTCAAAACCTAAATACTCTAAAAAATAAGTTTTGTTTTCTAATTTTCCTTTTAAATTAAAAATTTTATCAGATAGTAATTTAGCTCTATCTAAGTCTATCTTTCAATTATCAAAATTTTTATATAAATGGGAAAAATCTCATTTATATTTTTCATTTGCTTCTTTTCTTTTCATATTTTTATTATATAGAATAAAAAGCAAAACTTATATTTCATATTTGATAATATTTTTTTAATAAATAAAAAACAGAGAAATTAATTTATTCTCTGTTTTTTACTTCTTATTTCTTTAGTAATTCAAACATTGTTTTTAACATCGGTGCTCTACCACGTTTATTTGCATCTGCTGTTGCAGCTATATCCAAGTGAATATATTCTTTTCCCTCAGCAAAAGAATCTAAAAAGGCTGCAGCTGTTGATGAACCTGCTTCTCTACCTGGTTCTGAATTTGCTAAATCTGCTATTTTTGAACATTGCATTGCTTTTAAGTGATCACCAATTACAGGTTGTCTTCAAATTGGTTCTTGACTTTTTTTAGAAGCATTTTCAAATTCAGTATGGAATTCATCAAATTTTGAAAAAGTTCCAGTAAATCATCTTCCTAATGCAATTGCAATAGCTCCAGTTAAAGTTGCCACAGTAATTGCTCTATCAGCTTTTGCTTGTCTTACTGCATAAGTAATTCCATCAGCTAATACTAATCTACCTTCTGCATCGGTATTAGTTATCTCAACTGTTTTACCATTCATTGATTTTATTACTGATTCAGTTAAAGTTGCTTTTCCACCAATTCTGTTATCTGTTAGTAATCCAATAGATACAACATTACATTTTGCTTTTGCTTTTGCAAGTGCCATAACAGTTGAAGAAACAATTGCTGCTCCTGACATATCAAATTTCATATTATCTAAAAAGTTTGAAGGTTTTAAATTATATCCCCCTGTATCAAAAGTAATTCCTTTACCAACTAAAGCTGTTTTCTTTTGCGAAGAGTCTGAATTATATTCCAATACAACTACTCTTGGATCTATACTACTTCCAGCATTAACTGAAAGTAATAAACCCATTCCCATTGATTCGATTTGCTTTTTGTCATAAACTGTTACTTTTATTTCTTTTATTTCTTTTGCTTTTGCAGCTATTCTATTTGCAATTTCTACTGAAGTACCAACATTTGGAGGTAAGTCTTGTAAATCTCTTGCAAAATTTAAGTATTCCATTTTAATTGCTGAAGTTTCATAAATTGCATTAAATTTTTTATCAAATAAGAAATTTATTGATTTTGGTTCTGCTTGTTTTTCTTTCATTTCAAATTCTTTGTGTGCAGCAAACATAATTGTTTCTACAACTTTTTGAAAAGCAGCTTCTTCACTTTTAAATTTTGATGCAAATGACTCTACATTAACATTTAAGTCATATTTATTTGATTTAATAATTGCTTCTAATGAATCTCCCAATTCTCTAAGACAAGGCTTGTCATTTAAAAAATAATATAAAGTTTTGTCTTCACTAATTAATGAAGTAACTCCATTTTCTTTTACAACTAACTCATTTAATTTATCTTTTGAGTTAACTGCCTTTAAAGTTAATGTAAATTCTTTTTTGTTGCTTGTTATCATTTTAATTCTCCTTTTTAATTTACAAGATTATAATAACATCTTTAACACTACTTTATTACAAAGGTTTCCTTACATTTTTTATTAGTACATTTTCCATAAATTACTAATTTTAATTTTTCAATATTTTTTTCATAATTTAAAAAACTTTTAACCATACCATGACCTTTTGGGCATTTCATTTTTCTATTAACCAATTTAGTATTCAGAGAATAAAACTTTGATTTTGTTGAATAAATATAATAAGTTTCTTTAATCAATCTCTCATTTTGATCATCTATTTGATCTAATATTAAAAAACTAATATCTTCAATATCATTTACCTTAGTTCTAAGTTTAGAATAAAATCTTTCTTTACTAGTTTTAAATCCATTAACATGTTGTTTAAATCTACTAATTATATTTCTAGATTCACCAACATAACAAAAATTTAATTTATTATTTACTATTGAATACATAAGATAAGTTCCTGAAACTTTGTATTTAGTTTGATTTAATTCCAAAGTATTAAAATTTGATCTAGTCATTAATAAATTATTAATAAAGTGCAGTAAATAATTTTCTGATAAAGGCTTATATTTTAAATCTCTAGAATTTTTAATATTAGTTATCATTTTAAATTGTTCTTTTAAGTCCATAAAAATCACCCTTAAATATTATTATAAATTAAAAAAATTCCCCTTAGGGAAAGTTTTATTATTAATTAAATTATTGAACGATTGAAACAACTGTTCCAGCACCAATAGTTCTTCCACCCTCACGGATTGAGAATTTTGTACCTTGTTCAACAGCAATTGGTTTAATTAATTCAATAACTAATTCAACGTTATCTCCAGGCATAACCATGTCTGTTCCACTTGGTAAGTGAACTTCTCCAGTAACGTCTGTAGTTCTAAAGTAGAATTGTGGACGGTATTTGTTAAAGAATGGTTTGTGTCTTCCACCTTCTTCTTGTGTTAAAGCATAAACTGATGCATTTAATTTTGTATGTGGTTTAATTGTTCCTGGTTTTGCAAGAACTTGTCCACGTTCAATATTATCTCTATCAACACCTCTTAATAGTGCTCCAACATTATCTCCAGCTTCAGCAAAGTCTAGTAATTTTCTAAACATTTCTAATCCTGTAACAACAACTTTTTTACTATCTTCTACTAATCCAACAATTTCGATTTCGTCGTTAACTTTAACAACTCCTCTTTCAACTCTTCCAGTTGCAACTGTTCCACGTCCTGTAATTGTAAATACATCTTCTACAGGCATTAAGAAAGTTTTTTCTTTATCACGAGTTGGTGTTGGAATATATGCATCAACAGCATCCATTAATTCTTCAACTTTAGCAACTCATTTTGCATCACCATTTAATGCTCCTAAAGCTGATCCACGAATAACTGGTGCTCCATCTCCATCAAAGTCGTATGCAGATAATAAATCTCTAACTTCCATTTCAACTAAATCAATTAATTCTTCGTCATCTACCATATCACATTTATTTAAGAATACTGCAATAGCTGGTACTCCAACTTGTCTTGATAATAAGATATGTTCTCTTGTTTGAGGCATTGGTCCGTCAGTTGCAGCAACAACAAGGATTCCACCATCCATTTGTGCAGCTCCTGTAATCATGTTTTTAACATAATCGGCGTGACCAGGACAGTCAACGTGAGCGTAGTGTCTTTTTTCTGTTTTATATTCAACGTGAGAAGTATTAATTGTAATACCTCTTTCTCTTTCTTCTGGTGCATTATCAATATTTGCGTAATCTTTGAATTCTGCTCCACCTTTTGCTGCTAATACTTTTGTGATTGCAGCTGTTAATGTAGTTTTACCGTGGTCAACGTGTCCGATTGTTCCAATGTTAACGTGAGGTAAACTACGGTCAAATGCTTCTTTTGCCATGTTTTTTCATTCCTTCCATTTGGTTCTAATTTATATTTATTGTGACCAAGTGTCCTAATAATTATAAATACATTTTGTTTAAAGTACAATACTTTTTTTATTTGATAATAAGGTACTATTTACCTTGTTTTTTAATAATTTCTTCAGCAATGTTTTTTGGTGCTTCATTATAATGACTGAAAATCATTGTATAATTTCCACGCCCTTGTGTAAATGAACGCAATTCAGTTGCATAACCAAACATTTCTGAAAGAGGAACTTTTGATTTAATTGTTTGTGCATTTCCTCTTTGTTCTGAACCTTCAATTAATCCACGTTTTGATGAAATGTTACCCATAACATCTCCGTAATATTCATCTGGTACAGTAACTTCAACTGACATAATTGGTTCTAAAAGAACTGGATTAACTTTTTTCGCAGCCTCTTTTAATGCTAATGATGCAGCAATTTTATATGCCATCTCATTTGAATCGACATCATGATATGATCCATCAACTATTGTTGCCTTTACATCTATCATTGGGAATCCAGCAATAACCCCATTTTGTAACGCATTTTCTAGTCCCACTCTTGCAGCATTGATATATTCTTTTGAGATTTTACCCCCAACAATTTTATCAATTCATTCAAACCCTTTGTCATGATTTGGTTCAAACTCAATCACAACGTGACCATATTGCCCACGTCCTCCTGATTGTTTAACATATTTACCTTCAACTTTTGCTGAACCTTTAATTGTTTCACGATATGAAACTTGAGGTGCTCCAACGTTTGTTTCAACTTTGAATTCTCTTTTCAAACGATCAACAATAATATCAAGGTGTAATTCACCCATTCCAGCAATAATTGTTTGTCCAGTTTCTTCATCAGTAAAAGTTCTAAAAGTTGGATCTTCTTCTGACAATTTATTTAATGATAATCCTAATTTTTCTTGATCAGCTTTAGTTTTTGGTTCCAATGCTAAGTGAATAACTGGTTCTGGGAATATCATTGATTCTAAGATAATCTCATTTTTTTCATCTGTTAATGTATCTCCAGTTGTTGTATCTTTCAATCCAACAGCTGCAGCAATATCTCCAGCATAAACTTCATCAATTTCTTCACGATTATTTGCATGCATTTTTAATAAACGTCCTACACGCTCTTTTTTATCTTTAGTTGCGTTTAATACATAACTACCTTTTGTTAAAACCCCTGAGTAAACTCTAAAGAATGTTAACTTTCCAACAAATGGATCAGTCATAATTTTAAAAGCTAACGCAGCAAATGGTTGGTCATCTGCAGCTTTTCTTTCAGCTTCTGTTCCATTTGGTAAGATTCCCTTAATTGAAGGAACATCTAATGGTGATGGTAAGTAATCAACAACAGCATCTAATAATAATTTAACACCTTTGTTTTTAAATGCTGATCCAGCTAATACTGGGAAAAATTCAGCAGATATTACTCCTTTACGAATTGCTGATTTTAATTCTGGAATTGTAATTTCTCCACCATCCAAAAATTTAACCATCAAGTCTTCATCATATTCAACAGCCATTTCAACTAATTGTGCTCTTAGTTGAACTGCACTATCTTTTAAATCAGCTGGTATTTCAATTTCTTTAGCAATTTCTTCAGCTGCTCCATCAAAACCTCAAGCTTTCATTTCAACTAAATCAATAATTCCACTGAATTGATCTTCTGCTCCAATTGGTAATTGAATTGGTGCAGCTTTTGCTCCCAATCTATCTCCAATTGTTTTTACTGAGTATAAAAAATCAGCTCCAGTTTTATCCATTTTGTTAACAAAAACAACTCTTGGTACTTTGTATGTTGTTGCTTGTCTTCAAACAGTTTCAGTTTGTGGTTCAACACCACTTTGACCGTCTAAAACAGCTACAGCTCCATCAAGAACTCTTAATGATCTTTCAACTTCAACTGTGAAGTCAACGTGACCAGGAGTATCAATGATATTAAATCTGTGATCTGCTCAAAATGCTGTTGTTGCAGCAGATGTAATTGTAATACCACGTTCTTGTTCCTGAGCCATTCAATCCATTTGTGATTCACCTTCGTGAGTTTCACCAATTTTATGAATTCTACCTGTATGGAATAAAATACGTTCTGTAGTTGTAGTCTTACCAGCATCAATATGAGCCATAATACCAAAGTTACGAATCATATTTAAACTATATTCTCTTGGCATATTCTTTTCTCCTTATTTTCTATTATCAACGATAATGTGCAAATGCTTTATTAGCTTCAGCCATTTTGTGAGTATCTTCACGTTTTTTAACTGATCCACCTACACCATTTGATGCATCAATAATTTCATTTGCTAATCTATCAATCATTTCTTTTTCATTTCTTAATCTTGAATAATTAATTAATCATCTTAAAGCTAAAGTAACTTTTCTTTCTGTTGAAACTTCAACAGGAACTTGATAGTTTGCTCCACCAATACGACGAACCTTTAATTCTAAATGTGGTTTAATATTTTCAATTGCTTTATCAAAAACTTCGATTGGAGTAGTTCCAGTCTTTTCTTTTATTTTTTCAAAAGCCTTGTATAAAATGTGTTGAGCTGTTCCTCTTTTACCATCTAACATAATTTTGTTAACTGCTCTACTTACTAGTTTTGAGTTATAAATTGGATCTGGTAATACGTCTCTCTTTTCTGCTTGATGTTTACGCATGTTATAATCTCCTTTCTCTTTTATTTATAAAATGTGAATTACACTCTACTATTTTTTCTCTTTAGGTCTTTTTGTTCCATATAAAGAACGAGATTGCATTCTTCCGTTAACTCCAGTTGTATCTAAAGTACCACGAATTATATGATAACGAACCCCAGGTAAGTCTTTTACCCTTCCCCCACGAATAAGCACAACACTATGTTCTTGTAAGTTGTGTCCTTCTCCTGGAATATAAGCTGTTACCTCCATACCGTTAGTCAATCTAACCCTTGCATACTTACGTAAAGCTGAGTTAGGTTTTTTAGGAGTCATAGTTGCAACCCTTGTACAAACACCTCTTTTTTGTGGTGCTGAAACTCTAGTAACTTTTTTTAATAAAGTATTAACTCCTCTGTTTAAAGCAGGAGCTTTAGTTTTTCATGTTTTTGCTTTTCTTGGTTTTCTAACTAATTGATTAATTGTTGCCATTTAAGGTTCCTCCTTTCCACAATACCGAGTGTATTGTAATCACACAATCTATATTATATATTAAAAAAGAACTAATTCTTACATTTTTAACTCTTTTTTTATTTTTTTTAAAAATTAAAATAAATTAATATTTGGCATTATATTATCAAATACTTTTTGATTCATCATTCCTTCTTGCAATGGATAAATTAAAACAAGCTCTAATAAATAAATCATTAAATAATAGGCATTCATATAATCCATAAAAATTTCAATTCTTTTTGTTGATAATTGATCTTCTTGAATCATAGATAATCTCTTATATGTATTTGTATAATTTTGATTAAATTCTAAAATGTTTTCCATTAATTTTGAAAATGCAGATTGAGCATCTAGTTCTGAAACTATTTTTAAAAAATCATTCATTGGTTTAAAAGTATTATTTGAATCTTCTTGTAAATTTAGCTTTGAGTATTTTTCAAGCAATTCATTTGTTTTAACTCCAAAAGCTTGAACAGCTGTTGCTACTATAATATCAATTCCTCTTGAATCAGTAACAATTTCCTTTTCTAATTTTTCTTTTTCTAAATTAACATCAATTGAAATTAAAACAATAATAGAATTTTGAAAAATAGACATTAAATGATTTAGAATAATTAGCTTATCTGAATTATTATCTAAGGCTTTTCAATCACCAAAAGTTTTATCAAATTCTTTACCAAATAATTCAACTTCTTCTCTTGTATTAATTTGACTATTTTTATTTAAAAAATCTTCTATATTATTTGGTATTTTAAACTCTTTAGAAATGTTTTGCTTTAAATTTTGATAGACACTGTTAACTCTTTTAATAATAATTTTTTCATAATTAATAGGTTTAATTGCTTTCATAAAAGTCCTTTTCTATATTTATATCTAAGATAATCATACTACATTTGATATTATTAATAATAAGGAGAATACAATAATGATATGAGGAGAATCAAATTCAAGAGACTTTTTAGATTGAGCTGATTTTTGTAGAAATAATGTTATTAAACAAAAGGGAATTAGTTCAACAAGTGGTCCAAACTTTGCAAATGATAAAAGTTCAGCAAGTTATATTTCAGTTAAAAATACATTGATAAATCTTATTGCAAATAATAAAAGCATTAGTGTCCAACAACTTTATAATATTTTACCTACAGAACTTTTAGTTAATCCTACAATTAAAAATGTATTGTTACAGTTATATCTTGAAGACAATTTAAAAATTCAAGGTCAGCAAAAAAATAATGATGAGCGTGAATCAAACTTCATTTTAGTTTTTGTTAAAAAACCTGCTCCTAAAGTAGCAGTTAAAGTTGAAAGAAGACAATCTAATATTGAAGAATTAATTGATAATAATTGACAAGCAACAGGAAGAAAACTAGACTTTGAAAAAATTGAACGCGAAGATAAAAGTAAATTAAATATAAATTTAAAAAGAACAAATCCTACTCCAACTAATAAAGCTGCTGATAAGCCCAATATTGATGTTAGAGATCATTTAAAACAAAAAGAAATACCAAAGGATATAGTAAAAGCAGAACCAAAAAAAGAAATACCAGAACCAAAAAATTCAAATATAACTTATATTCAAATACCAAAAGCAGAACCAAAAATTGAAAAAGAAGAAGTTGCACCAGCTGTAAAAGTGAATCTTGAATATAGACCGATGCCAAAGAAAAAGGAAGTTATTATTGAAGATAATGTATTTAATGGTTTATCAGCTTTTGACTTATATTATTTAGAAAGTTTTTTAAGTGATGCTGCAATTAAAGAAAAAGACAAACAACATGAAATCAAAATTACAAGAGATATTTTAAAAGTGAGAGGTAATATAAAATATTCTCAAGAAAAGCAAACTTCAACAATTAAGGTAATTTTTAGTTTTATTGGATGTTTAACAATAATTGGTATTCCAATTGTAATCGCTTCAAACTCTAATAAAATTAGAAAAAAAGCTAGAAAAATATATAAAGAAAATTTAAAAAATAGAAGTTATGAAAATTTAAAAAGTGACTTAAAAACACAAAATCCAAGAATTATTGAATTTTAAAAAAAGAACCCTTAAGGGTTCTTTTTTACATTTCTTGTTTTTTATAACTACTTTTTAATATTTTTGCTTCACTTTTAATATTTTTTAATTCTCTTTTTTTAATTTTTATTTCCAATTTTGCTTGTTTCATAGTTTCTTTACATTTTTCAATTTCAGTTTCTTTGTCTTCTTTTTCAACTTTAAACGCTGCTAATTTTTCTTTTAATGCTTCTTTTGTCATTTTTATTTTCTCCTTATAGAATTAATCTACTAATAGTTATAATCATAGTTTAAAAATAAACTATTGTCAAATTAATAAAATATAAGTGTTTAGAATTTGAAGTAAATACTGATAATTATCACTTAAAAGTTTAAAAATAATTTAATATGACTTTTAATAAATTCCATCTAAAAAAGTTAAAGCTTCTAGTGCATTATTAATGTCACTAATGACTTTTTTAGCAAAACCCTTTATTATTTTTGAAGTTGAAAAACTTGCTTCTTTATCAAATATACAAATTTCTGTTCATATATTATTTTTACTAACATACTGATGTCCTACTATAAAGTCAGTTACTATGGCAATCCCGCTTAGATTTTTTGTATTTTTCATAGTTAAATTATCAATATATTTTGGTCTAAGAAATTTAGGGCCTCTTAAATCTGTATTTGATACATTAATATTATATTTCTCATTAAATTGCATTGATTCTGTATTGTAATTATCCTTTTTTGATTTTCCTGGAAGAATAACTATTCCATTATAAGATGTGTCAAATTTCTTATTTTCAACTCTAAGAATAGTTGTTGCAACAAAATTATGAACATAAATAGTTTTAGTACCATTTTTTGTTTTTCTCTTTTTTTCTTCTACAGTTCTAACAGTTTGATTAAATTGATAATTTACTAACTTATCTTCAAAAGAAAAGTTCAAACAATTTCGCTTTTCATTTGCTCTAAAAAAAGTATAATTTGCTAAAAAACTTCATGGGCTTCCATAATATTTTTTAAAAAGTGAATTAATATAAGTTCTTTCTAAATTTATAAATTTCACTTTTTTAATAAATGGATTTGCTATTTCTTTTACTAAAGCCTCAAAAGATTCATTATAAATATCTTGTCATTCTATTTGGTTTATATAATCAAAAACTGATTTTCTAATTCGCTTTGATTTAGAAAAAAATTTCACTCCTAAAATAACTGCAATTAAATCAATAGCTGATAAAATTAGAAAAACTATTAACCCCATTTCAAATTCTATATTTGAAAATAACAAAATAATTAATCCAAACCCTACAATTGCAATCAAACATAAAATAATACCGATTGTAAAATATTTTTTTCTTTTGTTAAGAAGAGAATCTAACTTACTTTTATCCAAATGTTTTTCAATAAAGCCTTCAATAGTTTCTTCTAAGTAATTTAGTTCTTGCATTACTTATTAAAATCCAATTTTAACATCAGCTCTATCTTCTTCTGTAATTTCAAAGAAATATTTAATTTTTGCCTTTATTGATGAACCTGCGACATTTAATGGTCACACTTGAATACTTTGATTAAAAGTACTTACATTGCTATTATAAATTCTTCTTGAAGCTGCTATATCTTCTTCAATTTCATTAATTGATCTAGACATTGATTGGAATAATTCAGTTGATTTTAAATTTGGGTAATTTTCAACTTGTATCATAATACTTCTTGATACTTGATCAAGAATTTTATTATTTTCCATCATTGTTTTTGCTCCACCACCCATTCTCATATTTGTAACTTGTTCTAAAGTGCTTTTCTCAAAATTAATACTTCCTTTTACAGTATCCATTAATTTGATTAAAGTATCTCTTCTTCTTTTTAACTGAACATCAATACCAGATTCTGCTTCTAATACTTTTGTATCCATTTTTTTCAACTTATTTACATTACCAATGTGAATAAATAAGGGAATAATCAATATAAATGTTAAATATCAAAAAAACTTCCCAAAAGCTGAAACTTTTGGTGAAGTATCTGCATCCCTATTTAAATCTTGTTTCTTATTTGGTGCTATCATATCTTTTCTCTTTCCTTTTGTACATAAATGTACTTATTTTCATTTTATCACTTTTAGATATTTTTTTAATAAGTATTTTTGAGTTATGAATTACTTATGAAAAAAAGAGAATATGTGCTGTAAATTAATAAATTCCATCTAAAAAGGTTAAAGCCTCTAATGCAAAATTAATATCCTTTAAGACTTTAATTGCAAATACTTTTAAAATTTTCTCTCTAGAAAGTTTTCTAGTTTTATAAAATATACAAATTTCTTGTTTAGGTTCCATTGAAGTAACATATTCATGGCCTATTATAATATCTGAAGAGAAAAAAATACCACTTAAATTTTGAGTATCTTTTTTAGTTAAATTATCAATATATTTAGGCCTAAGTACTTTAGGACCCCTTAAATCTGTATTTGATACATTAATGCCATATTTCTCATTGAATTGCATTGACTCTGTTTTATAGTTATTTTCACTTGATTTTCCTGGGAAAATAAGTATTCCATTATAAGATTGATCAAATTTCTTATTTTCAACTTTAAGAATACTAGTTGCAACAAAATGATAAACATAAGTAACCCTAGTACCATTTTTTGTTTGTCTTACTCTTTGCTCTACTGTTCTAATAGTTTGATTAAATTGATAATTTACTAGCTTATCTTCAAAAGAAAAATTCAAGCAATTTCTCTTTTGATTTGTTTTATAAAATATATAACTAGATAATCAACTTCTTGGACTTCCACGATAATCTTTAAGTGGAGCCTTATTATAATTTCTCTCTAAATTAAGAAACTTTACTTTTTTCAGAAAAGGAGTTTCAAATTGTTTAATATATTTATCAAAACTTTTTATGTAAATATCTTCTCATTCTATTTGGTTTATATAATTAAAGGCATCAATTCTTTGATAGCTTGATTTAACTAAATATGTTATTGCTAATACAAATAAAGTAATATCAAAAACTCAAAAAAAGCCAATAATAGAAAGGAAAATTAATGATTGATTAATTGCACAAAGAAAAATAGTAATTGGAAAAGCTATAAATAAAAGTATTCATGAAACAATACTTATTATAAAATTTCTTTTTCTTATTTTAAGAAGTGAGTCTAGTTTTTGTTTATCTAAATGTTCCTCAATAAAGCTTATTGCATTTTCTAATAAAGTTTTTTCTTCCATTATTTATTAAAATCCTATTTTAACGTCTGCTCTATCTTCCTCTGTAATTTCAAAAAAATATTTAATTTTTGCCTTTATTGATGAACCTGCCACATTTAATGGTCACACTTGAATACTTTGATTAAAAGTACTTACATTGCTATTATAAATTCTTCTTGAAGCTGCTATATCTTCTTCAATTTCATTAATTGATCTAGACATTGATTGGAATAATTCAGTTGATTTTATATCTGGGTATTTTTCAACTTGCAACATAATATTTCTTGATACTTGATCAAGAACTTTATTATTTTCCATCATTGTTTTTGCTCCTCCACCCATTCTCATATTTGTAACTTGTTCTAAAGTGCTTTTCTCAAAGTTAATACTTCCTTTTACAGTATCCATTAATTTGATTAAAGTATCTCTTCTTCTTTTTAATTGAACATCAATACCAGATTCTGATTCTAATACTTTTGTATCCATTTTTTTCAACTTATTTACATTACCAATATGAATGAATAAAGGAATAATCAATATAAATGTTAAATATCAAAAGAATTTTCCAAAAGCTGAAACTTTTGGAGAGGTATCTGCATTTTTGTTTAAGTCTTGTCTTTTATTTGGTGCTATCATATCTAATACTTCTCCTTTTTTTATTATGTAATTAATAAAATTCTATCATTATTAATTGTTATTTACATTATTTTTATATTTTTAATAGAAGAGATTATTCTTGTCTGTTCTTTTTTTGAAATTGGTACATACTCCATAAAAACTCTATCTTCTCTTGGATTCAAAATAAAACAATTCTCTACAATTTTTTTTGAAGCATTTTCAAAAATTTTTTTATATAAAAATAATTGAGCATTATACTTATCAACAAAATTTGACCTACTTGTTTTTATATCCATTATGTAGTAAGTATCTTTGGATTTTAAAATTATATCGATAGTTCCAAGATAGTTACAATCATATCCTAAATATAAGTAAGTTCTTTCTGAATAAATTTGATCAATATTATATTTATATATAAAAGAGTTCAATTCAGTAATTATTCTTTTTGCTATATTTATGTGATTTGTATTTTTACAATCTAATATATTTAAGTTTAATTTAAAATCATTTCTTTCTTTAATAGATTGTGAAATCATATTATGAACACATATACCTTGTTTTATTGAGTTTTCAACTATTTCTTTCTTTACAAATTTATTATGTAAATATGGGTAATTGTGCTCTAGTATAACACTTACAAAAGGCAAATTGATTTTATTATCTTCTACTATGAAGTTTTTTAAATTAATCGGTACCTCTATATCATTTTTAATTACATAATTGTAATTTTCATCTCTTAAAACTATATCTGTTAAATCGTATATCATTTTAGTTCTCCTATCTATACAATAACAAAAAAATAATGGCTAACCATTATTTTTATTAGATTCATATCTTGTAGTTAATGAGTTAAGAACATTTCTTGGGCTATGGTTTTTTAACTCATTTACAACTTTTGAAATAGATTCTAATTGATAAGTCATATTTGTAAAATCGTGTATCATAGTATCTTTTACAATTCTATTATCTAAACTCTCTAATAAATTTTCGAGTCTAATAATTCTTTTTTCAATAGAACTTATTTTTTGTTTTTCAAATTCAATCATCTTTGAATTGCAGCTCTCAGCTAAATTTTGTTGTTCAATAATTAATTGTCTTTTAATTTCTTCAATTTGATCTTTATGACTATAATTTTTTAATAACTCCAAATCATCATTTTGCTTTGATTTATCTTTAATAAGAACTAACTTGTCATTATAATTATTTTCAACTTTTGGAGCAATTTCTTCATATGTTTCAATTACAGTTTCCTTTTTAAATTCATCTTCATTTAATAAAATATCATTTTTAATTTCTGATTTTTCAACTTTTAAATCTTCTAAATTATCCATCTCTTTTTGTTCTTGTTCTTTTTCCTCATTAATAAATTCCAAAGTCATTTTTGGTGGTAAAGTAACATAAGTCTTTGAAGAGCTATCAAGATTATTTGAATGATTTTCATTATTTTCTATAACTTCCATATTAATATCTGAAGGCTTAAAATTAAAGTCAGAATATATTAAATCTATATTAGTATTCATATTTTCAGAATCACTTAATTGATTAATATCAACATTAACAGCTCTTGCAAGTTTTTCAGTAAAACTTGCATCTCCTAAAATGTTTGATTTTAAAGTTATCTCTTCTTTATTTTCATCATTAATTGCTTTCATTTCCTCAGAATTAATTTTATTAAAATCTAATTCTGTAGACGTTTTTGAAGGTAGATTAATCTCAATAAGTTCTTCTATAGACATGTTTACTGCTTTTTCTCTTTGATCTCCATCAAAATTTTGGTTGAATTCACTGAATTCTAATTTTGGAAGATCTATCATATCTAAATCTTCTTGCTTTTTAATTTCTTTTGAATTATTAAAAGTATCAAAATCGCTATTGTTATTATCAATTAACTCTTTATTATCTATATTTTTAACTTCATTCAAAATAGCTTGTTCGCTTATTTTAGACTCTTCAAAATTAAAATCATTATATATAGAGTCACTAGTTGTACTAATTGGAGACTCTATTTCTTTAAGTTCTTCAAAAGACATATTAACAGCCTTTGCTTTTTGCTCTTCAACAAAATTTTTATCCAAAACACTTTCATTTAAATTATTTTGATTTTTCTCTACAATATTTTCTTTAAATATCATTGCAGTTTGTGGATAGTTATCTTCAACTAATTTATTTAAATCTAAATGTAATACTTGGAAATCATTTGGTATTTTTAATTTTCTACCAAGTTTATTTAATCGCATTACATTAAAATTAAATTTACTAACAACTTCAGCTTTTTTGTTTTCTTCAAGAGAATAAAAAGTATTTTGAATTTCTAATCTTTTGATTTCTAATTTTGTTTTATACTCTTTTCATTTAAAATAATATTTTTTATTTTTTTCATTTCTAAAAAAATTATCTAATTGAGTTTCATTTAAAATAGGCAACGCAGAATTATCATTTCTTTTGTTTTGGTCGTTTTCTTTTTGAGAATCCTTTTTTTGGTTTCTCAATTCCACGTTGCCAATTAACTTTCCCTCTTTAGTTACCTCTTTTTCGAATTTTTTTTCTTCTCGGTAAATTGATATCAAGTTTCTTTCCTCAGCATAATTATTTAATGCCACTGAGTCAAATAATACAATTTCTAATAATATTAATGTTGCAAGAATTATCATTGAAACAATAAAGAATATTAATTGTCCTGTTAATAATACTATTATACAAATAGTTAATAAAACTATTTTAACAAATGGTTTTGAAAGTCTTTGGTGCTTTCTTAATCTAACAAATTCGGTAATTGATAATGTCATTAATAAAATTGCAAATGCTATTGATATAGAAATTCAGATTATAACTGGTATCTCGTTAAATTCTGGTTTTCCAACATTTGAAAAATTAGCTTTTCCTCCTGAACCAAATATTGATTCAAATAGTGGTTCTGTAAAAATTTTTAAAACATTTTTGATAATTTCTGGTGGGTTTGGTGATGTAATTAACATTATAATGGCAAACGCTGCAAATGCTATTAAAGCTACAGATGCTACTAATGTTAATGACCACGCAAATATAATAAATATAGCGAACATGATTTTTCCTCCTAATTTTTTAATTTATTTCAGCTTCCAGGAACTGAAATATTTTTTGTATCTCTTTGTTGATTAATTTTATTGTTAACTGTATCTTCAATATTAATTGGTCTTCTATTTAATAAGTTCAAATTCTCATCAATTTCTTTATTAGGCCTTTGTTGTATCTCAATACCCTCTTCTCTTTTTAAAAATGGATTTTGAAAACCACTTCTTCCCTCAGATGGAGTAATACTTCTATCAATAACTATTTCCTTTTTTGAAAGAATTGACGGATTAAATCCGTTAGGAATTTTTCTTTTGATTATTTCTTGTTCTTCAAGTTTTTTTCTTTCTAATATTTCACTTCTTTGCTTTTCAATAAATTTATCAATATTAATTCTTAAACTTGAATCAATTCCAGGATCATAGTCCTCCTCAGAATTTATATCTTCTATTTCACTACTTAATTTTTTATAAATTTTATTTGAAAGTTCTTCTTTAAAGAAATGATCTATGTTTCCTGTATTTTGATTTTCCTCTTTTTTAATTTTTGTAAAATTTTGTTGATTGTCATATAATTTATTTTTTTCTAAATTTTCTGCTATATTATTTTTATTTACATATAATTCTTCATAAAGAGTTAAATCATCTAAAATAATATAATCAAAGTTTTCAGCTATTTCATCAATTCTACTAATATCAATAACTTTTGAATCAACATTCATTCTACAAGATAAGCCTGGTATTTTTACTAAAGATTTAGATATAAATTCATTAATTAATAAAATCTTATTTAAATCAACTTCATCTGCATTAGTTATTACTATATTCATTTTTTCATTAAAATTATAAGAATCTAATAAATTGATAAATTCATTAATGAACATTTTTTCTGGGTCATTTGTTATATTTAAGTCTTCTAAAATGTCATCAATTTCAGAGGTAGTTTTGCCCCAATCTGTGGCAGCTAATAGAACAGATGTTCTTTCTCATAAGGTTTTTTTATCTTCTAAACTAATTTTTTCAGGTAAATTATTGATAAATTTTTTTAAAAAGAATAAACAAGGTGACGAATAAATTACAACTTGTTTTAAGTTAATGTAAATCAAATTATCATTATTCATGTCATTTAATAATTCAGGATGATTTACCATTAATGTATTTTTTGAAAATAATTCCTTTTTATTTTTCAAAGTAACATATTGATCTTTTGAGATTATCTTATTGTTAGCTATTTTTATTTTTTCAACTTTAATTTCTTGATTTTCTATATTTGAATTTATTATCGAGTCATTTTCACTTTCAAATATCTCATTTAACTTATGTATTTTTTGACTATTATCAACACTTTCTTGTTGAATAATATTTTCTTTACTTTTATTGTAAACTTGTGGTTCAAATAGAATGTCTTGTCTTTTAAACTCAATTTTAGGAGATGAATAATTTACAAAATGCTTTTCTTCAAAATCTTCAAATTCTTCAAAATTATTTTCAAAACCATTTTTTATTTTATTTCTATTATATAAGGAAGTCTCGTCTTCTTGATCAAATTCATAATATTCATTATCATTATTATATGTTTGGTAGGTATTAATTTTTGAAGGATTTTTAATATGCGATTCAGAGTTTTGATATTGATTTATAAAACCCATTTGTGTTTCGAGTCTTGCTAATCTTTCCTGCTCTTTTTTGTCTTCTAGACGTTTTCTTTCATCTTCCTCGCGTTGCTTTTTCATCCTTTCAAACGGATTTAAGTACATATTAGATACCTCCTAATGATAATTTTATTATACCATAATTTTTAAAATTTTTATGTCATTTTATTGCAATGTAATAAATAGTTTGATATGATATATACATTTTTTTATTATTATTTTTAAAAAAATAAAAAGAAGAAGTTTTCATTAAGCTAATAAATTTAATCTAGAAACTCCATCTTTTTCTTTATTTAATTTTATAAATATATTATAGCATAATTTAAGCCTCAGTCCCCTATGATCTATTCATAAAACTATGTTAATAATTAAAAAATCCTTTATAAGGATCCTTTGATTATATTTTTTTCTGCAACTTTTTATATTTTATAAAAAGAATTGTATAAATAGTTGATAAGAAACTAAGACTTATTATTGTTTGAGATATATATTTTAAACCACTCATTCAAGGTTCTGAAATTTGATTATTTTTATCAAATGGAAATCCATATGTCTCTTTTAAATAGCTATATTTTAAAGCAATTGGACTAATTTCAAAAGTACCATTATTTCATAAATTAGTTATTCTTTGTGCTTCATGACTAGAATATGTAATTGCAACTAAAACAGATAATATTTCAACTAATAAAATAATAAATTGAAAAGTGAATGTTGATTTTGAAGTATTTCAATTTTTAACATAAGCTGTAATAAAAATAAAAATGCTTGCCATTAAAAATCCCGAAATAATAATTGGTAAAAACTTAATAGCAAAATAAGAATTTTCTAAATTAATTTCTTCTATAGAAATACCATTATAAGAAACTGATTTATATAGATCTTTAACAATAAAAGTTCAATTAAGCATTGAATTCATTTTTGTACTAAAAATACTCATATTAACAATATATGCTAATGGTGGTAAAAAAACTAAAGCTGTAGCAATTATTAATCAAAATGAAATATTTTTACTATTATTTAATGAGAATTTTTTTACTAGCGCATTAAATTTAGACCCCTGACTTTCCTTAAAGTTATAACCAGTTATTTTTAATTTATTAGATTGAGGGCCTTTAAATCAGATAGTGAAAGAAAAAATTACAGCAATTATTTTAATAACTGCTAATCATCATGTAATACTATCAGATGCTCATTTATACTTATTGCCACTATTTTTAATTGACATATTATAAAATACTTCTTGCATTTTTTTTACAGATTCTGATTCAAAAATTGTATTATCTTTTTGAGATAAAAAATCAAATAGATTATAAAATTTTGAATATGAATACTCCGATATTGCTTCAAAAACTATAGACAGAACTGCAAATATTGCTATAACCATGATATATAGAACTTTATAATAATTTGAAAATTTGCTCTTTAAAAATAAATTTAAAAATCCAATAGAAAGAAAACCAACAAGTAAAAAGGACATTGAAATTCACATTAAAACTTCAATTTCAAATTTATTAACAAATAAGTTTTTGCCAAAATTTTCTTTAACTACATCTAAATTATTTAAGTAATATTTAAGAGAATAATTAATATTTATAATAACAAGAAATGTTACAGCTTGAATAGATAAAATTAAAAATAGCAATAAAAATTTAAACATTAATTTATTACTAACTTTAAAATTGTCTATTTTAAATTTATCAGTATTACTTTTCATAAATCTCCTTAGAAGTAATTACAAAATATCTTCAATTATTTGAATAATCCTTTTTGAAATCTATATTATATTTTACTATCATTCCTGAAAAAATATTTCTCAATTGTTCTTTTTGTTCAAAACCAAATTCACAAATAATTAATAGATTTTTATTTAACTGAAATAGAAAATCAAGTCTTTTTGCTAAAATTTTATAAAAATATAATCCTTCTTCCTTTGCAAAAAGAGCCAGATGTGGTTCAAACTTTTTTACATTATTTTCAATATTTAAATCTAAAGAATTGATATATGGAGGATTAATTGTAATATAATCTGGAACAATATTAATTTGATCGAAAATATTTAGAAAATCAGATACAAAAGTTTTAGCTTTTATTTTATATTTTTTTAAATTTAAATTTGCAACTTCAATTGCTTTTGGTGAAATATCACTCATATATAAATTAAGCTTTGGTTGCAAATTTTTTAATGTAATACCTATACAACCACTACCACAACAAATATCAAATAGATTTTTATTATTAAGATCATATTTCATAATTTCTTCAACAATACATTCTGTTTCTTGTCGGGGGATTAAAACATCTTCATTAACATAAAAATCATATTTATAAAAATACTTGTTGTTTAATATATATGCAAGTGGCATATTTGTTTTTAAAAAAATATCAACTATTTGAAAAAACAAATCCAATTCTTTTTCTGATAAATAAATATCATTTAAAAAGTTGAAATCAGAATTATGTGTTATATAAATTATTATTTCATTAAATTCATTTGATGTAAAAACTAAAGGAACATACTTTTGTTTTAATTTAGTTAAGTTCATAACTAACCTTGTATATGTTGAGTAATCATATTTTTTTGTTCATCATTAATTAATTCAACAATGATTTCATCTAAATTACCTTCCATAACTTGATCTAACTTATTTAAAGTTAAATTTACTCTATGATCAGTAACTCTGTTTTGAGCATAATTATAAGTTCTTATTTTTTCACTTCTAGCTCCAGTCCCTACAGCATTTTTTCTCATACTAGCAGCTTCACTTTGTTGTTTTTCAAGTTCTGCTTCATAAATTCTTGCTCTTAATAAAGTCATTGCTTTATCTTTATTATCATGTTGACTTCTTCCATCTTGTGAAGCTGCAACTATTCCAGTTGGAATATGCGTAATTCTAACAGCAGAATCTGTTGTATTAATATGTTGCCCACCTGCTCCAGATGCTCTGTAAGTATCAATTCTTAAATCTACTGCCTTAATTTCAACTTCAACATCACTAACTTCAGGGAGAACAGCAACTGTTGCTGTTGAAGTTTGTATTCTACCTTTTGATTCTGTTTTGGGAACCCTTTGAACTCTATGACTTCCAGATTCAAATTTCATTTTTGAATATACTTTATCTCCCTTTAACATAAATGAAATTTGACTAAATCCACCTACAGCTGATTCGTTTGCATCAATAACATCTATTTTCCAATTATTTTTTTCAGCATACTTTGTATATAGTCTAAATAAGTCCCCTGCAAAAATATTTGCTTCATCTCCACCAGCAGCTCCTCTAATTTCAAAAATAACATTTTTGTCATCATTAGGGTCTTTAGGTAATAACAATAATTCTAAATCCTTTTCAATAATTTCAATTGCAGCTTGCTCTTCTTCTAACTGAAGTTTTGCAAGAGTTCTCATTTCCTCTTCTTTTTCTGTCTCCAAAATTAATTTTGCTTCTTCAATATCTTTATTAACTTTTTTATATTCTTGATATTTTTGAACAATTTCATCTAAGGTTGCTCTTTCTTTATTTAATTCTGTTAGAAGTTTAATATCTTTTAAAGTTTCTTCCTTTTGAATTGTTTCATCAATTGAATTAACTCTATTTTCCATTACATCTAAAGCTTCTAAAGTTTTTTTATTCATCATGTTCTCCTATTCTGGCCTAATGTAACAATGTCTACATCTTGCCTCATACTTTTCATTTGCAGAAATAACAATTATTGGTTCATTTGCTTTTGCAGGCTTACCATCAATGATTCTTTGAGTTCTATTTGCATTACCCCCACAAGAGTGACATATTGCACTTAGTTTATCAACATATTCAGCTTCAACTAATAATCTATCAACATTTTTAAACGGATTATTTTTGAAATCTTTGTCTAAACCATTAACAATAGTAATTATGCCTTGATCTGCAATTTTAGATATTACATCTACAATTTTTGTATCTAAAAATTGAACTTCATCAATACCTATTATATCAATTTTTTGCTTAGCATTTTGCTCTATAAAAATTTTATAAAGTTCTTCACTATCTTTAACAGGAATAGATTCAATTCTCATTCCTGAGTGTGAAAAAATATCATCTTTTGAATATCTTGTATCAATTAATGGTTTGAAAACTAAAACATTTTGTTGAGCATGTTTATATCTTTTTAATCTTCTAATAAACTCTTCTGTTTTACCAGAAAACATGCACCCTGTTATTAATTCAACTCAACCTCTTTTACTATTTAAATTCATTCTATAATTCATAACATTTAATTTCCCTTCGACTTAATTAAATTAGATAAATCTTCAATTAATTTATCTAATTGTTTTCAGCTATCAAGTTTAGCACCTGAAGCTAATTTATGACCTCCACCATTGTAATTTTTAGCAACTGAATTTATATCAAAGTCTCTACTTCTAATTGAAACTTTTACTTTTTTATTATCTGGTGTTTGATATGCCATTAATCAGATTTTTATTTCTTCAATTCCCGCTAAAACACTTAAAGCACTTTTTATTTCTTCTTCTCCAAGTTTAAGTTTTTTGAAAAATTTTTCTTCAACTTTTATTAAAGCAATTGAATTATTATTTAAAAAACTAGCATTTGCAAAAGCTTCATGATGTCATTTTGCTAATTCAAATTTTTTTAAAAATAAGTCGGAATAGATATCTGTAATTTTAATTCCGGTTTCTGAAAGAATCTTTGCACTTTGAAAAGTATCTCCATTTGTTTTATCAAAAAGAAATCTTCCAGAGTCAGTTATTAATCCATAATATAAAAAAGTTGCAGCTCTTTGAGAAATACTTAATTTACTTTTATGAGCTCATAAAGTTAAAACCTGGGTGCAAGCAATTGCACTTGAATCAACAAGTTTATTATGACCAAAATCATCAGTTTCTAAATGGTGATCAATTTTAAATATTTCTTTGACAATATCTTTAAATATAAAATCTACTCTTTCAAAATTTGCAACATCAACTGTTATTAAAATAGATTGGTTAATTATCTCTTCACTTAATATATCTTCGTCATCTTCTCTTAAACTTAAATTTAGTTTTTCACCTACTACATAAACATTTTTATTTTTAAAATTATCTAAGATAATTTCTCTAAGCCCATATGCACTTCCCTGAGTATCTCAATCAGGAGAAACATGTTTAGCAATTATTATATTTTTATATGCTTTTATTTTTTTAATTAAAATATTTTTCATTTTTCTCCTTAAACTACTTTTAGTATCGATTCATCGCTAATATATAATTTTACTTTTTCATTAATATTATATTTTTTTATAGAGTAAAAGTATAACTTTAAATCATTTTCTTTTGTTATAACTTCATACATGTTTGCATCTAAAAATTCCCTATTAGAATTAATTATTGCATTTAATTCTAAAATTAAATTTCCATTTTCTTTTTTATTTGTTGCTACCTTCATTGGATTTATTATAATTTGTCCAGATTCTTTGAAGTTATTGCTTTGAATTTTTAAACTTTCATTCATTGTATACAATTTTTTGCCATCATATTTGTAATTAAATCTATTATTTTTAGCAAAAAATTCTCCTCCATAAGTTGTTCAATTTTTTTCTAAAACTTTTTCAAAACTTGTTTCTACAATATCATTTTCAGTAATTAAATAGATATTTTTACTTAAGTCTGGTATTTCATAGATACTTTCTTCAACAAATATAATTGAAAATTTAGAATCAATAATTACTAAGTTATTAATTACTTTCAATAATTCATTTCTTTCATTTTGATTTAGCTTTGAAAAAACATTATAAAAAATAATATTATATTTTTTTAAATATATTGCAGTTAATAGTTGAAATCAAATTTCTTCCATTCTATTAAATTTTAAAGATAAAATACTAAATTCAAACCCTAGTTCTTTGGCAGTTTCATCAATAAATAATAGAGATTGTTTATATATGCTAACTTTTTGTTTTTTCAGTACAGCTTTTTTTTCTTTGAATTCTTCCAAATTACCTTTTTCACATTCATCATTTAAAACTTTTTTATGATACCTATGCATCACTTCAACTATTTTACCTCTAAGAGTATTTGCTTCATCTGATAAACCTTCAAAAAACATTTTTTCTTGCTTAATTTTAAATTCAAATCTTTGATCTTCGGATGCTTTTCTTCAATTAAATAACTCTTCTAAGTTTTTTACTTTTTTAGTTTGAAACTCTGATTTATCCAATTCAAAAAGAATTTGCTTCTTAAGATTTTTAATAATAAAATTGGTCTTTGATATTTTTCTCTTAATATCATTTACTTTTAAATCGAGAATTTTTAACTGTTTTCTTGTAACAAAATTTGTCTGTCTAAAATTTAGTTCCTTTGCCAATTTTCTTTTTTTTCTATCTTTAACTTTTTTTGTATTATACTCACAAGTACAAAGTGAAGATAATTCCATAAATGAGTAGACTTTATCTCATAAAGTTTGTAAGAAAGTTTGAATTAATTCGAGATTTTGATTTTTTTCAATTAATAGATAATAATCTCTAATAATAATCTTTATATGATCTTCTAAATTTCCAAAACTTTTTTCTAAATTTTTATTATTAAAAGTAACAATTTGTTCTAAAAATTCAGATAATCACTGTTCTTCAACATCTACTGAATTATTAATAAACTTAGAAATCATACTTTCGACTTTGTCTCGCATTTCTAAATCAGTTTTATTATTTTTAGATGTAGAAAAAGATAAGTATGAATATTTTTTATCAATATAATTTATTTTAGCCTTACTAAGAAATTTTCTATTTAGCAATAATGATGTATACAATCAAAATTTTTCAGGTCATTTTCTAAAAAATTTATTTACTCCAATAGTTGCTACTTTCTTTTTAGTCCATTGCTTATTAACCATATCATATTGATTAATTTTAAAAATTCCTGATTTAACAAGATATTTACCCTCTAATACATTTTTAAAGTTTTTTCTTAAATATCTCTCTTGAGAAATTACAGTTACTAATTCAGAATCTTTACATTTAAAATTAACTGTTTTTGGTAACAATTTTTTGTTAAAAAACTTAACATTTGAAAGTGTGAAACTCATATAAAGACCCCCATAACTTTATAATTGTATAACATTTTGAATAAAAATAATAAAACTAGACTAATTGATAGTCTAGTTTTTTGTATTAAATTATTTTTTAGCTTCTTTTGCTTTTTTTTCATTTTCTGCTTTTTGAGCTAATGAAGCTTTTTCCGCTTCAGCTAATTTAGCATCTTTTTTAACAAATTTTTCTTTGAATTTCTCAACACGTCCCTCTGCATTTGCAAAGTTTTGTTTTCCAGTGTAATAAGGATGACAATTTGAACAAGTATCTATTCTTACTTCTTCTCCTTTTGTTGATCCTGACATGAATTCATTGCTACAAGTTGTACAAACAATTTTAGCTTCAAAATATTGTGGATGTATGTTTGCTTTTGGCATGTTTTCACCGTCCTTTATATAAAGTCTTTCTAATACAAAATAAATAATACCATATTTTTAATAAAACTTATTTTTTTTAAGTATTTATTAGATAAAAAATTAATTTTTAAAGCTAGAAAATATTATTAAAATATTATAAATTATTAAGTAACTACCTTTTCTTCTTTTAAACTAGTCATTTTTTTATAGTCAAATAATTTATTTAAGATATTTAATACTTGATTAACTAAGGGACCTACAAGAAATGTAAAACAAATAGTACCAAGACCAAAATTAGTTAATAAGAAGTCTAACTTAGTAGCACCCTCTCCTCTAACAAATGGAAAAAATACAAAAGCTATTACTAATATTGCAATATCAATAATCAATCTTCCATTTGAGTAATTCATTTTTGTTAATCTTAGAAACTGCTCACATATATTATTAAAGGGTCCTAATAATCAACCTGATTTAACTCAAAGAGCAATTCCCATTACAAAACATAGAAAGCCACCAATAAAAATTAAATTTCTAGCTCCAGGGATCAATTCACTAATACCCATTTGACTTAATGGTGCAATAAATAATCCTACAATTTGAGGAACAATAAAAGTTATAATTATATCTGCTAAAATAAATCAAGAAAATTTAAATCAAGCTTTTTTACTTTTTGTTTTCTTATATTCATCAATAGTTGGTTTGATTGAAAAACATATAGCAAAAAGAATTAGAACTACATAAAGAGTTGTTAAACTTATTGCATAATTATCATAAACACCTTGACCAACTTTCCCTTCCTCTATAAAAGGTATTGAAATCGAAAGAACATTATAAATTAATCAATCTATTTGACTGCCACCAACTGATGGTTGCTGATATAAAGCCAATCCAAAAGATGTTAATAGAATACCCAATATAAGTAAAACAATTTTAACGCTAATAACTTTTCAATTATTAGAAAAATTTTTTAATTGATCATTTCATAATTTTTTCATCTTTAATATTTCCTTTTTTAATAAAAAAGTAGGCTAAAAAACCTACTTTTCATATTTTGTTTTTAGTGCTTCTTCTCCGCCTTTTTCATATTTTTTAACTCAATTTCTTAAAGAAACTACACTAACATTTCTTGTTGGCGCAAACTGAGTAGCTGTAACACCACTATTTTTAAAATCTCTAATAATCTTAATCTTCTCTTCAACTGTCAAATGCATAATGTAATCCTCCATTATTTCATTATTAATATTATTTAGCTTTTCCTTGACATCCAAATACTTTTGTTAAGTCTAAGAATGTTTGTTTTATTGCTTTAAATCCTGGAGCTAATAATTTACGTGGATCAAATCCTTTAGCTTCATCATCTAAATCTTTTTTAGCTTCAACATATTCTCTTGTTGCGTCTCTAAAAGCTAATTGTAATTCTGTATTAACATTAATTTTTGAAATTCCAAGTTTGATTGCTTTTTCTACTTGATCTTGAGGAATTCCTGAACCTCCATGTAATACCATAGGTAATTTACATGCTTTTTGTAATTCTTGTAATGTATCAAATGATAATGATTTTCATCATTCTGGATATTTCCCATGTATATTTCCAATACCTGCTGCTAGCATTGAAATCCCTGTAGTTGCCATTTCAGCTGCTTGTTTAGGATCACCTAATTCACCTTCACCAACTACACCATCTTCTTCTCCACCAATTGAACCAATTTCTGCTTCAACTGAAATTTCATGTTTATTTGCAAAGTCCATTAATTCTCTAACTTTTGCAATATTTTCTTCGTATGGTAAATGAGAACCATCAAACATTACTGATGAATAACCAGCTTCTATACATTTTTTAGCCATTTCAATTGATTGACCATGATCTAAATGTAAAGCAACAGGAACAGTTATATTTAATGAGTCTAGTAAACCATTAACCATTCCTACTACCACATTTGCTCCACCCATATATTTTAATGCTCCTTCTGAAGTAGCAATAATTACTGGTGTTTTAGATTCTTGTGCTGCTTCTAAAATAGCTTTAGTTCACTCTAAATTATTAATGTTAAAATGCCCAATTGCATATTTTTTTGCATGTGCTTCTTTAATCATTTCTGTAGAATTAACTAGTTTTGAATGATAAATTCTTGACATATTTTTTCCTCCTGAATTTTTATTATACTTAATGATTATACTCCTTATTTTAGATTGACGAGATTTTTTTAAGTATATTGAATCTTGTTTTTTAACCTGATATCTATAATAAAAAGATTTAGTAACTATTTGGTCTAAGTTAATTTTTCTGAAATAAAGATATAAAATTAAAGCTAATATTGTATTTGTAAAATATTGCATTGCATCTGTTAATAATTCTACAATTGCTAATGAAAAATCAAATAATAAATAGCTATATATTACATACATAAAAATTCAAAGATAACTAATAAAGATATTTAAATAGTTTGGAGTTACTTTTGTTAGCAAAATAAAAGTAACTCCAATTAATAATTTAACAATAATTGTTATTGGAATAAAAATTATTCCTCCACCAAATAAATCAGTTAAAATTCCTGCCATAATTGCAGATAAAATTGAAGTAAATGGATTTATAAATGCTAAAAGAGCAATATATAAAAAATCTGATACTTGAAAAATACTTTTACCTGTTCCAATTGAAATTAAATTAGTTAATATTCCTATAATGAACATTACCGAGGTTAATAGTCCACAAATTGCAATTTCTTTTGAATTTATTTTTTTCATAACCTCACCTTAATTTAATTTTAGATAAAAAAAACAAAAAATATACTAATATTTTTTGTTTACGGCATTAACAAACCCCATAAATAAAGGATTTGGTTTATTTGGTCTTGATGTAAACTCTGGATGATATTGAGCTGCAATAAAGAAGTCATTTTTAGGATACTCTATTATTTCAACTAAATCTTTTTCTAAATATAAACCAGAAAAAACCATACCATTTTTTTCAAAATCACTTCTAAAGACATTATTAAATTCATATCTATGTCTATGTCTTTCAACAGCTTCATTTGATTTATAAAGTTTTTGTGCTAATGTATTTTCTTTAAGAGAAGTTAGATATCTTCCTAATCTTAAAGTACCTCCAATATTTTCTCTATTTTTACCTTTTAAAATATCTATTATTGGATATTTTGTATTTGGATTAATTTCAGTAGTATTGGCTTCTTTTAATTTTAAAACATTTCTTGCAAAATCAATACAAGCAACTTGCATACCAAGACATATCCCTAAATAAGGAATATTATTTTCTCTTGCAAATTTTGCAGCCAATATTTTGCCCTCAATACCCTCTTCACCAAAACCACCAGGAACTAGAATTCCTTTTGCATCTTTAAGTTCATCTTGCGTATTTTCTGCTGTTAGTGTTCTGGCATTTATTCAATTAAATTTTATTTTTTTACTAATTTCATATCCCGAAAATTTTAATGATTCCATAACTGATAAATAGGCATCACTTAATTCAACATACTTACCAACTATATGAATTGTTAAAACTTCCTTTGAATTTTCAATATTATTTACAAATTTCTTTCAATCTTTTAAATTAGTTGTCTTTAATTTTAAACCTAATTGTTTTGCAGTTATTTTATGTAAATTTCCCTCTTCAACTACTAAAGGTACTTTATAAATTGAATCACTATCAGGACAAGCAATTACATTTTCTACTGGAATACTACACAATAAAGAAATTTTATCTTTAAGTTTTTTATCAAACTCTAATTCACTTCTTGCAACAATTACATCTGGTTGAATTCCTAAATTTAATAATTCTTTAACTGAATGTTGAATTGGTTTTGTTTTAAATTCTCCAGATACTTTTAAATAAGGCAATAACGCAACGTGTATAAACATTACGTTTTCTTTACCGTTTTCCATTCTAATTTGTCTTAAAGCTTCTAAAAAGGGTTGAGATTCAATATCTCCAACTGTTCCACCAATTTCAGTAATAACAACATCAGCTTTACTTTCAATTTCGGCAGCATAAATTCTTTGTTTAATTTCATTAGTAATATGGGGAATAACTTGAACAGTTTTCCCCTCATATTTACCGTTTCTTTCTTTTTCTAAAGCCTCATAATATATTCTTCCAGCTGAAGTTGAAGATATTTTAGAAAGATTTACATCAATGAATCTCTCATAATGACCTAAATCTAAATCAGTTTCTCCACCATCATCTGTAACATAAACTTCTCCATGTTCAATAGGATTAATAGTTCCTGGATCAATATTTAAATAAGGATCAAATTTTTGCATAAATATTTTTAGTCCACTATTTTTTAAAAGTACACCAAGTGAGCTACCAGTTATTCCTTTTCCTAAACCGGAAACAACTCCCCCAGTAATAAATATGTGTTTTACCATAATATAATTCCCCCAAAAATAAAAAGTAGTCAATTAAACTACTTGTGATTAAATTCTATTAATAGTCATCGTCTTCATCGTCATCGTCGAAATCATCGTCATCGTCGAAATCATCATCCAAACTTATATCTATAGAATCATCATTACCTTTATGATTTAATAATTTTTTAATTTTGCCAACATTTTCACCTGTATCGTCATCAAATGTATCAATTCCAAGAATTGAATCTGTATCAAAATCTTCAAATTCTTCTGTAGTTTCAAATTTATCAACATATTCATATTGTTTTTTAACATCATCAAATTTAAGATATTCTCTTAAACCTCATTTACCATCTGATGTTAATGCAAATCTATTATCAAGAACTAAATCACTGTAAAGCTCAGCTATGATCTCATTTTTGATATCGTTATCTCCGTGAATTTCTTTTGAAATAGTATTTCAAATGTCTTCAAAAGAAGCGTCATCTTTACATTTACTTAGGTAATCATAGGCCAAATTAATTGGTGATACTTTACTCATAAGATTTTCCCCCATAAATTCTATTCTACATTATACATTGGAAAAATATATATTTTTTTTATATTATTGTTCCAATCAACGTTTATTATCTCTGATAAATCCTTTAAATTGCTTAATTCATCATTATTTAATATATATATATTTTCTTCCTTTTTTTCAGAATTTTGATTATAAATTGAATTATTTCTGATTGTGGCAACATCAAAATAATATGTGTGATTACCTTTAAAATCAAGTTTCATTTTTTCAATTGTTTCTAATGAAATATCTGAAGATACTTTTAAGAATTTTCTATTTATTAGTCTATTTGATAAATCTTTAACAATTGGATCATCTTCATCTCTTATTATTTTAAATATTTCAAACATTGTATAATCATCTAAATTTGTATACTTTTCAAGTGGCATAATTTTATTCTCAAATACTTCCTTAAAAATTTCAATTACTTTTAATGCCTTAAATTTATATTTGCTAATATACAAATCCTTTAATCTCTTAAATCACATTTTAAATGTATTATCAAAGGCAATAGAAATCTTATGTTCATATACTTGTTTAAACATATGATATCTTCCTAATAAAAAGTTTTCAATTGCATTTATAGCTTTATTTGTAAAAACAAGTTGCTTTTGATGTATTCTAGCATTTCTTATAATTCAATCGATATCTGGCTTTGAATAACTAACTCCAGCTCCCTTTGAATCTCTTAATAGATAATCTAACCTATCTGCATCTAATTGACTAGATACTAAGGAGTTAACTATTTTATTTTTATGTTTACCTTCAATAACTGAAACCACTTCCTGAGGATCAATTCCATTATTAATTAAGACTTTATTAATTTGAGTATTGCCTCTTATAATTTCGACAGTATATTGTTCATGATGTACTGTTGAAATTAATTCAAAAGTGTGTGAAAAAGGACCGTGACCTATATCATGAAGTAAGCCTGCAATTTTTACTACTTTCTTATCTTTAGATGAAATTCCTTTATTAATAATTTCATTTTCTAAAAACTTACAGATCACATGATAGACACCAATACAATGAGAGAATCTTGTATGATTGGCACTTGGAAAAACAAATTGGCCACCACCCAATTGAATAATTCTTCTTAATCTTTGAAATTCATCAGTATCAATTAATTCAGAAAAAACTTTGTCATCTAAATAAATTTCTCCATGAACATTATCTCTTATAAACTTTTCCATAATAAACCTCTTACTTAATACTTGTTATATTAAGTATAACTTTTTCTTTTCCTATAAGCGAAATGGTTTTTGCCAATTCTGGTCCATGTTCACTTAAAGTTGTAAATATTCTGACAGGCATAAATAGCTCTCTACCTTTTTTTTCAAATTTTTTACCTATAGTATTTATTAAAGTTTTAATATTTTCTTCACTAAAATTCTCCATATTTTTTAACTCTTCAACTAGAAAATTTACTAAATTTTTTTCAATTTTAAATTCCTTTAAAACAGTTTTTGTTTTTTCATCAATTATCTTATTGAAGAAAATATCCAAATGATCATTTATTTGAATTCCATATTCTAATTCTTTTTTAAATAACAATAAAACTGAATTAATTCAAGCCTTATCTTTACCTTTAATATCAAATCTATTTTTATCAATGAAATTAGTTACAAATTTTATATAATCTTGTTCATTCATTTTTTTAATTCATTGACTATTAATTCATTTCATTTTAATCATATCAAAAGTACTTGGCGATTTAGAAAATCTGTTTTCATCAAATGCTTTTACTAACTCTTCTTTAGTGAAAATTTCTTGTTCACTATTTGGGCTTCATCCCAATAATGAAATGTAATTAAAAATTGCTTCAGGAAGATATCCTTGTTCTTTATATTGTGAGATAAAGAACATTGCATTTCCACTTCTCTTAGAGAGTTTTTTCTTTGTTTCATCAACTATTAACGTTAAATGACAAAATTTCGGTTCTTCTCAACCAAAAGCTTCATATATCATGCATTGTCTTGGAGTATTTGATATATGTTCTTCTCCTCTTACTACATGAGTAATTTTCATATCATAATCATCAATAACAACAGCAAAATTATAAGTTGCAATTCCATTTGATTTTAAAATTACAAAATCTCCAATTTCTTTTGAGTTAAACTCAACATTACCACGAACAACATCATTAATTTTATATAACTTATTTTCTGGAACTTTAAATCTAATATTAAATGGTTTGTTATCATCATTAATTTTATTAGATAAACATTTTCTATTATATTGAGGGGCAATAATTCCTTTTGCTAATTGCTGCTCTCTATCTTTTTCAAGTTCTTCTGAAGTACAAAAACATTTATAAGCCTTATTTTCTTTTAATAATTTATTTGCATAATCTTTATACACTTCAAATTTTTCAGATTGCATATATTTTCCAAAACCTTTTTTGGGATTTCTAAATGACTCATCTGGTAAAATGCCAAGTCAATCCATATTATCAAATTGAGATTCTATAGCTCCCTCAACATTTCTTTCAATATCTGTATCTTCAATTCTTAAAATAAAATCTCCGTTATAATGTTTTGCAAAAAGATAGTTCATTAAAGCAGTTCTTGTATTTCCTATATGCAAATAACCCGTTGGTGATGGTGCATATCTTAATCTAATTTTTTTCATTATTTTTTTCCTCACTTTTATAAATTAATATATTACAATAACTTGTAATTATATTTTTAAAGTTTCCTTCTGTTGTTGTAGCCTTTATTGAAATTTGATCTAAGTTAATTTTTAAAATTTGTGAAAGATTTTTTTTAATACTACTCTTAAATGTAGTTAAGTTTGGCGAATCAAGTTCTATCAATATATCTACATTTGATATTTGATATTCCCTCTCTTCTAATATTTTCATAGCATCTTGAACCATAATTATTGATTCAAAATTTTTACTCATATTTTTTGAATTATAATTTTGACCGAGATCTTCTTCACCAAGTGAACCAAAAATTGCTTCAGCTAAGCTATGGAAAAGAACATCACCGTTACTATATGCTTCAACTTTTGAATTTGAGGGTATCTTAATTCCCCCCAATAAAATGAAATTGCCAGTTATTAAGTTATGTCTATCTTTGGAAAATCCCACTTTAAATATCATATTAAACCCTCTTAACAAAATGATTATAAAATAAAAAATGATTTATAACTAATTAAAGTTATAAATCCTTAATACTATTTATTAAATTTGAAAAAACAAACATCTCCATCTTGTACAATATAATTTTTTCCTTCTAGTTTTATTTTTCCACTATTTTTTAAACTTTGTTCATCACCAAGTTCAAAAATATCTTCACATTTATAAACATCAGCTTTAATAAAACCTTTTTCAAAATCTGTATGAATAATACCTGCACATTGTGGAGCTGTAAAACCATCTTTAAACTGTCAACCTCTTGCTTCTTGTGGTCCACAAGTGAAATATGTTTTTAAACCAAGTGTAGAATAAGCTGCTTTAATTAACTGTTCAAGGCCTGAAGTTTCAATTCCAGCATCTTGTAGAAAAACCTCTTTATCTTGTTTATCAAGTTCACTTAAATCCTCTTCAATTTTTGCAGATATTTTTACAACTTGAGAATTACATGACTTTGCATAATCTCTAACAAGCTTTACATAATTATTATCTTGTCTAATTTCATCTTCACCAACATTTGCTACATAAATAAATTTTTTTGTTGTTAAAAGTTGAAATGATTTTAGAGCAAATTTTTCTTCTTCATTAAACTCAAGTTTATTTAAGAGTTTACCATCAGAAAGTTGTGCTTCTAATTTTTTAAGTAAATTATATTCAAAAATTATTTCTTTATCTTTAGTTGATTTAAATTTTGGTTCAACTTTTGCAAGTCTCTTTTTAACAGTTGCTTCATCAGATAAAATTAGTTCTAACTCTATTATTTCAATATCTCTAATCGGGTCAACACTTCCCTCAACATGAGTAATTTCTTTTGAATCAAAACATCTTATAACTTCACAGATAGCGTCTGTTTCTCTAATATTGGCTAAAAAAGCATTACCCAATCCTTCACCTTTACTTGCTCCTGCAATTAAACCAGCAATATCAACAAATTCAATTGTTGTATAAATTGTTTTCTTTGATTTAAATATATTTGCCAATTTATCTAATCTATCATCTGGTACTTCCACAACTCCAACATTTGGTTCTATTGTTGCAAATGGATAATTAGCTGCTTCAACTTTTGAATTTGTTATTGCATTAAATAAAGTAGATTTACCAACATTTGGTAGTCCAACTATTCCGACTTGTAATCCCATATTATTCTCTACTTTCTACTTTTTTTATTTTTTTTAAAAGATCATCTTTTGAAAACTCTAATATCAATTTTTCATCAATATTAGATTGCAATTTATAAATAGTTCCCACCCTAATAATTATTCAAAAAATTGTTTTACTTGGATGTGCTTTTTTTAAATATATTTTATCTCCAAGATTAATCTTCATCAGTCAATCCTAAAATATCTAAAACTCGATTCAAATCCGATTCATCTGAATATCTAATAATTAATTTTCCATTTTCAATAATAACTTTTGTACCAAGTCTTCTCATCATTTTATTTTCCATATGAACTAATGAAGCACTTTTTACATTTTGTTTTATTTCATTTTTTGGTGAATTATTATTTTTTATTAATTGTTCAACTTCTCTTGCTGTCAAATCTTTTTCTAAAATTTGCTTAAATATTGAGTCTAATAATTTTTCATTATTAACAATTGCCAATAATGGCTTTGCTTGACCCATTGAAACTTTTTTTTGTAACATTGCATCTTGAACTTTTTCAGGTAAATTTAAAAGTCTCATAATATTTGCTATATGTGATCTTGATTTACCAACTCTTGTTGCAATATCTTCTTGCTTAAGTTTAAGATTATCTGAAAGTTTTTTATAGGCTACAGCTTCTTCAATATCCAATAAATCAACTCTTTGAATATTTTCAATTATAGCAAACTCTTCCATTTGACTTTCACTTAATTCTAAAACAATAGCTGGAATTTTTTTAAGACCAGCTAACTTAGCAGCTCTTGTTCTTCTTTCACCAGCAATAATTTGCTTTTTACTATTTATTATAATTGGTTGAATTATTCCATGAGTTTTTATTGAACTTGCAAGTTCTTCTAATTCTTCTTTTTCAAAATTTTTTCTTGGTTGATATGGATTTGCAGTTAATGATTTTATATCAACTAATGTTTTATTGTCTTCAACTTTCTTTTTATCACTTTCAATAACACCAATGATATCTGAAACTGATTCTCCAAATATATCATCTAGTCCCTTAAAGTTATATTTTCCTTTAGATTTGGCCATTTTCTTTTAGCACCTCTTTTACAAACTCAATATATGCAATTGAGCCAGCTCCGTTTTTATCATATTCATAAATTGATTTACCTTCCATTGAAGATTCAGATATTCTAACATTCCTTGGTATAACTGATTTATAAACCTTTGGTCCAAATGTTTTCATTATTTCTTCTAAAACATCATGGGCCAACTTTGTTCTTGAATCAAACATTGTTACTAAAACACCTTCAATTGTAAGGTTTGGGTTTAAAGTTTCTTTTACTTTTTTAATTGTTCTCAATAATTGAGCAACCCCGTGCATAGCATAATGTTCTGCTTGTATTGGAATTAACACAGTATCAGAAATTGCAAGACCATTTCTATTAATTAGTCCAAGACTTGGAGGACAGTCAATAATAACGAAATCATAATTATCGCCGATTTTATTAATTTCCTCTCTTAACACATTTTGATTATTATTTTTTTGTTCTAAAAGAATCAAGTCAACTGCTGCAACGTCGATTGAACTTGGTGCTAAATCAATATTTTTTTTAATATTTTTCACAACTACTTCTGCTAGACTTTTTTCTCCAATAAACACGTGATACATACTTAAGGTATTACTATCTATTTCAAAGCCAACCCCTGTTGTTGCATTAAATTGTGGGTCCATATCTATAAGTAGTACCCTTTTATTTGCCAGAGCAAGACCACATGCTAAGTTTACAGACGTTGTTGTTTTTCCAACGCCACCCTTTTGATTTGAAACTGAAATTACTTTTGCCATATAATACCTCTCATAATAATTATTATATCTTAAATATTTATTATTTTCCCAAAGGTCTTTTTCTAATTTGACTATAGTGTCTTGGAAACTCTAAGGGTGTCTGATTTTCTTTTGAATAAAATAAATTATTTCTTTCACCCAAAACCTCATCGTAAAGTTCTTGCTTTAAAAATAACTTTAATCCTAATTTTTTTTCTTGGCTATTTAAATCTTGCAATTCTGTATTCACATTTTTTGATTTCAAGCATATGAAGGTCCCATTAAGTTTTAAACTTTGAACTCCAACTTCCAATAAAATATTAAGAGGAGCCATTGCTCTAGAAATAATCACATCAAATTTTTCTTTATTTTCAATACTATATTCTTCTGCTCTAGCATTCAAAGTTCAAATATTTTTTAAATCTAATTCTAAAATTACTTTTTTTAAGAAATCTATTTTTTTACCATTTGATTCTAAAAGATAGATTTTTGTATTTGGATAAAGTATCTTAATCACAATTCCTGGAAAGCCAGCTCCAGTACCAATATCAAGAATTTCCAAATTCTCTGGATTAAAAACTTTTGTAAATAATAAACTATCAAAAAAATGTTTATCTAATATTTCTTGATCTTTTATTATGGCAGTAAGATTATGAATTTTATTTTCTTCTTGAAGAAGATTTTTATACTTAAGCAATTGATTTTTTTTAAAATCATTTAAATCAATATTTAATTCTTTAAACCTATCTCAATTCATATAACTTTCCTCCAAAAAAAATAAAAAAGACATTATCTTTTTTATTTTACATTAGTTTTACTTTTAAATTTTTTGATTTCTAACTCTTTATTATATTTAAATCAATTATTTGGCTTAATTCTTAAAATAAAATCGTTATTATCAATATTATTTTTTGAAATTAAACATTCATTGACTATTCAAACAATTGCAAGCACTAAGGCAAAAAATATTAATAAAATTGGATCAATCATTGTTTTAAAGTCATTTGATAGGAATTTTCCAATCATAAAATTATAATATGCATAGCCCATTATTATTGAAAGTATTGTACAAGTTATTATTCCAATAACAAAACCACCTTTTACTTTTAAAGTTTCAACTTTTTTTGTTCTTCTATTGTGTAATACATAGATCATTAATATTAAATAAACAATAAAACCAAACATAACTGTACTATTTGAGGAATAATCTGCAACCAAAAAGTAATTAATTTCTGGGCTATTTCAATCTATTGCAATTGAAATAGTAAGAAATAATACATAAATTGAAATTGTGATTGCCATACCAATGAATCCAGATTTTACATAGCTAATATTATCTTTGCCTTCTTTTGAATAAATAAATTTTTCTTGAACTCCTGATTGAACTGTTTTTGGAATTAAAGTTGTATAACCATTGACAGTAGTTAAAATTGTACCAGCTATAATTAATTTAAAAAGTAAAGCAACCCAAGGTGATTTTTTAAATAAATTATCAAATAATTTAAATACATCACCATCACTTGCTCCAAAAAATATTGAAATTGTAATTATTATATAAAAAAATGTTACTGCAATAATTGCTGAAAGCATGGCCGGAGCAACTACTTCTTTATGTTCACAATCTTTTTGTAGGGTTGCTGCATAAATAAAACCATCAAATGCAAATAGTATTGGGATCATTGTTCCAAAAAAAGTATTAACTTGTCAAGGTTCATAACCTGTAGATGGATTAAATGAATTATTACCTTTTGGATTAATAATGAAAAGTGAAAAACCACCGATAACTATAGTTATTAAAGGTAGAAATTTAACAATTGTAAAAATACTTTGTATAAATTTACTTGGTTTATGAGTAAATATGTTCATTAATGAAAAACCAATTAAAACTATTGTTGAAAAAAATAACTCTAATGACATTCATTGAACTTTACCTATCTTTAGAATCAAACTTTCTTCATTCATTGCAAAATAAAATGTATTAATTCCGCTAAAGACAGTTTTTACAGTGAATAAAGCTCCTAGTCCTGCTAAAATAGGAAGATACATACAAATATATAAAATAGAAAATAAAGAAGCTGTTCTTCTATTTATAAATTTATTTGCTCAACTTTGAGCTGTTGAGTGCCCATCATTTTTTGTAGCAGAGGCTGCTTCTATAAATGTTAACATTACTAGTGAACATAAAACCCCTATAAATAATCATACAGTAAGTGCTAATCAGGGGTTTCTTCCAGCTTCATGTAAAACTCCACCAGCTTCAACTTTATTTTTTAAATAAATTCCACTACCTACTACAATTCCAAAAACCATTGAAAATATAGTTAAAAATTCAAAAGACTTATTCTTTGCTTTGTTTGCTTTGTTTACCTTTATCATTTTTTAAAACCTTTCTAGCATTAAAAATTTCTAAACATTTTTGTTTATCATAGTTAAATCAATTTTTAGGATTTATTCTGAAATAAAAGTCATTTATTTCTATATTATTTTTTGAAATAATTGCTTCATTAATAATTCAAGAAACTAATAATATTATAATAAATACAAATCACATTATTGGAGATATAAGCTGTCCATCTATTAATGATTTTATAATATTTAAATAATAAATGTAAGCTAAAGTCAAAATTAACATTGAAGATGAAAATATTGCAGCACAATATGCTCCTTTAACTTTTCTAACTTCAATTTTTTTTGTTTTTCTATTTATAAGCATTTGTATAATTAGTGGAACATGCAATAAATAAACAATAATAATTGTAGAGTCTGAAGATAAATATGCTGTATAGAGATAAGAATCATCTCCAGTTACACTTTTAGGAAGTAATAAGCTTGAACCTACAAAACCTACAAAAAATATAAAAACAATTAAAATTGATATTCAACTTGATTTTATTTTAGAAAGTTGTCCCTCATTGTTTTTGGAATAGACAAATTTTTCTTCAATTGAAGCTCTTATAACTATTGGATAAATTACACTATAAGCATTAACCATTGTAAGCAAAGTTAAAGTAATAATTAAATTGAAAGTAAAATGTATTCTTGGATCAATATTATCTCTTTTGAAAATATTTAATATATTCCCATCAGTGGCTCCCATAAAAATAGCTACACTAATTATTATGTAAAAGATTGAAACAGCAACAATCCCTGTCATCATTGCCGGAGCAACTACCTCTTTGTGTTCACAATCTTTTTGAATTGCAGCTGAATCTAAAAAACCATCAAATGCAAACATAATTGGTACCATTGTTAAAAATATATTATTTATTTTAAATTCCCCTACTTTTTCAGGGTCAAAAGAACTTTCCTTGCCAAGTGAGAAAAAAGTAATTCCTGCTATTAATACTGTTAATAAAGGAAGAAACTTCAGAAAAGAAAGTACAGTTTGCAAAATCTTACCTGGTTTGGTTGTATAAGTATTTACAATTTGAAATAGAATTAATATAAAAGCTGCTACAAAAATTTCAACAGTTATTTTTGTAGTTCCTGTTAATAAACTTTCTTTGCCTGTGGAAAATTCATAAATAATATTAATAGATTGAAAAAAACTACTTGTTGTAAATAATGCACCTATAATAATTAAAACTGGAAGATAAATAATGGCATATAATATTGTTACTAATGATCCATATCTTCTCCCAAGAAATCTTCCAGCTCAAGCTGTTAAAGTATTATGTTCCCCTTTCTTAGTTGAACTTGATAATTCTATGAAAGACAACATCATTGCGCAACAAAAAAATGCCATGAGTGTTCAAACAGCTATTGCTAAGTATGGATTATTTCCAGCTTTTACAAGTACACCATTATCTCCAGCATTTTTTAAATAAATTCCACTTCCAACTACTATACCAAAAGTCATTGAGAAAACAGATAAAAATTCAAAAATTTTATTTTTAGTTTTATTTTTCTTATTAACCTTAATCATGAATTATACCTCATTATATTTCTTTTTTAAGTGAAACAATAACATTTGAATATCTGCAGGGTTTACACCTGTTATTCTTGAAGCTTGTCCAATTGAAGTTGGTTTTACTTTTTCTAACTTCTGTCTTGCTTCAACAGCTATATTTTCAACTTTTGAATAATCAACATCTATTGGTATTTTTTTACTCTCCAGTTTTACAAATTTTTCAATTGTCTCATTTTCTTTTTTAATGTAACCTTCAAATCTTATTAAGATTAATAAAGTTTGTAACTGTTGTTTTGATAATTTATTTAATTCTTTAATATATTTTTTAAAAATATTAATATCAACTTTAGGTTGTTTTAGTATTTCATATGCACTAAACCCTTGAGTTAAAATTGCTTGACCAGCTTTTTTTAATTCAATTGCTAATTCTGTTTTCGGGCTAAATCTTATTTCCTTTAGTAGTTCTATATTTTCAAAAATTTCTTTTTCAAATTTTTCATGTAACTTTCATTCTTCTTTTGAAACTAAACCAATTTCATAACCATATTTTTTTAATCTCATTTCAGAATTATCATTTCTTAAAGTTAATCTATTTTCTGCTCTACTTGTCAGTAATCTATATGGCTCAATTACTCCCTTATTAATTAAATCATCAATCATAACTCCAATGTATGATTCATTTCTTTTTAAAATTAAAGGGTTTAAATTATCAATTTTTCGTACTGCATTTATTCCAGCAATTAACCCCTGACCAGCAGCTTCTTCATAGCCACTTGTTCCATTAATTTGACCTGCTAAAAATAAATTACCAACTAATTTTAATTCTAAAGATAATTTTAACTGTTGAGGGTCAATACAATCATATTCAATTGCGTAAGCTCATTTATCTACAATAACATTTTCAAATCCTGGTAAACTTCTAAGCATCTTATCTTGTATTTCAATGGGCATTGAAGTTGAAAATCCTTGAACATAAAAAGTATCTAAAGATTTTGATTCAGGCTCTAAAAAAATTTGATGAGTCTCTTTTGTACTAAATCTTACAATTTTATCTTCAAAACTTGGACAATATCTTGGTCCTACTGATTCAATTTCACCAGAATACATTGCTGACCTATGCAAGTTTTCTTCAATAATTTTTTTGGTTTTTGAAGTTGAATGAATTAAATAACAAACTTCTTGTTTTTCATATGGTAAAAAATTACTTGTAGAAAAAGAAAATGCCAAGTCTTCATTTGTTCCAGGTTCAATTAATGCTTTTGATAAATCTATAGAATTAATTTTAACTCTTGGAGGTGTACCTGTTTTAAATCTAAAAGTTCTAAGGCCAAGTTTAACTAAAGTTTGACTTAATGACTTTGTTGTAATTTCATCATTTGGTCCGCCTTCATATTTTTCTTCACCACGATATATTAATGAAGAAAGATAAGTTCCAGTAGTTAAAACAACTGCTTTACAATGAATTTCAGTTTTATCTTCTAATATAACTGATTTAACATTATTATTAGAATCTAAAGTTATATCTTTAACTACACCAATAACTAATTCCAAATTTTTTTGATTTTCAACAACTCTTTGCATATACTTTGAGTATTCAATCTTATCTGATTGAGCACGTAAAGCTCAAATTCCAGGTCCTCTTGAAGAATTAAGTAATTTCATTTGCAATGCAGTTGCATCTGCAGCTTTACCCATTTCTCCTCCAAGTGAATCAATTTCTCTTACAACTATACCTTTTGCTGGTCCTCCAATTGATGGATTACAAGGCATAGTTGCAATTTTATCTCTATATAAATTAACTAAAATTGTTTTCTTTCCTAATCTTGCAGAAGCTAATGCCGCTTCTACTCCAGCGTGCCCTGCTCCAACTACAACTATTTCAGCTTGCATGTGCACGCCTCCTTTTCTTTTATTTTATTCTTTCAAATAAAACTAATTTATTAATTATTTTCTTAAACTTGAAATCTTTCTCTAAATTTTTAAAATTAATATCTTTTGGATCTAATCCCATTTGATTTATCATATTCGGATATGAATTAACAAGAATTGGTTTTAATAAGTAAGAAATAATAACAATATTTTTTTGTAAAACAGAAAGTACTTCTAATAGTTCCTCAAGTTTATTTTCTTTTTCTAAAGTTCAAGGTTTTGAATCTTCAATAAATTTGTTGCATTCTTGTGCAAGTTTTAAAACTATTTGAGTTGCTTCAGACATATTATAGCTATCCATTTTCTCTTTATAATTTTTAATTGTATCAAAAGCATTTTTAACTAATCAATGGTTTGAAACTTTTTTAATTGGCAATAGTCCATCAAAATATTTAATAATCATATTTGATACTCTTGAAATTAAATTACCAATATTATTTGCTAAATTATTATTAAATGATTCTATAAATAATTCATTTGTAAAACTTCCATCTTTATCCGTAGGCAAATTATTTATTATATAAAATCTTAAAGCATCACTTGAATATGTATTAATTATTTCAATTGGATCTAAAACATTTCCAATAGATTTAGACATTTTTTTATCACCGCTTAAAATTCAACCATGTGATAATAATTTATCTGGAGTTTTTAAGCCAAGCGAATTTAAAATTACTGGTCAATAAATTGAATGAAACCTTGTAATTTCTTTTCCAATAATTTGCAAAATTTCAGTATCCTTTGATCAAAATTTTTTTAAAAGTTCATTATTTTTTGATTTATAGCCTAAAGCCGTAATGTAATTTGAAAGTGCATCTAATCATACATAGATTACATGTTTTGGATTTTCCTTTATTTGAATTCCTCAATTAAAACTTACACGTGTAACTGAGAGATCTTCTAAATCATTGTTAATAAAATTATTTAACATTTCTTTTTTTCTTGATTCAGGTTCTAAAAAATCTGTAGAAAATAACTCTTGAAGGTATTTTTTAAAACTTGAAACTTTTAACATGTATGTTTCTTCTTCAAAATTTTTAGCTTCTTTGCCACAAACAAAATGATGAAATGTTTCATCCATTTGTTCTTTTGTTAAAAACTCTTCGCAACTAATACAATATTTTCCTTTATAAGTTGAAGGATAAATTAATTTTTTTTCTAATAAATCACTAAAAATTTCTTTAACAGCAACAACATGGTCTTCATCAGTAGTTCTGATAAAACGAGTATAATCTATATTTAATAGTTTTCATAAATTTAAAAAACCTTTTACAATTTCATCAACATATTCTTTTGGTTTTAAATTTTGCTCTTTTGCTTTTTCTTCAATTTTTTGTCCATGTTCATCTGAACCTGTCAAAAAGAAAACTTCAAATCCGTCTTCTTTTTTATATCTTGAAATAACATCTGCTAATGTTGTTGTATAAGCATGTCCTATGTGTAAATTTCCACTTGGATAATATATAGGTGTTGTTACAAAAAAATATTTTTTCATAACTATTCTTCTATTGAAAGACTATATATTCCCTTTAGCCCTCTATAACTTTCTTTATAAGTTAAACCATAACCAACAACAAATACATCTTCTAATTTAAATAAAGATGCACTTTCTAATTCCATTTTTCTTTCTTTAATATTTTTTTCAATTAAGTTTAAAATTTGAATATTTGCAGGTTTTTCTTTTTTAACAAGACTATGTAATTTTTGTAATCTGTTTCCTTTATTTAAAACATCATTTACAATTAATACATTTTTATCTGTTAAAGTATTTTTTAAACCAAGGTCTATTAATAAATCTTCATTTTCCTTTGGTGTTGTTACAAACTGAATTGTTACATCAATTGGTAATTCTCTAATTAAATCAGCAATAAAAATAAATGAACTTGATAGATCAGCTACAATAACTAGTTGTTGATTTTCATAAGTTTTTCCTAAATCGGTTCCTATTTTGGCAATTGCTGCTTTGATTTCTTCTTCTGTTATTAAAGTTACTAATTTTTGATTATCCATGATTATTCATCACCCTTCTAAACATTTTTTCAACATTTCTGGTGAAAAAATTAATATCAAAAAGCTCATTTAGTTCATTCTTTGATGAAATATATTTCATGATTCCATTTTTAATTAAAATTTCTTTAAAACTTTTTTTTGAAGTTTGGCACTCTAAAGTACACTTCTGAATAAAATCATAAATTTCTTCTCTTGAAAATTGATACTTCATTAAAATATAGGTTAATACTCTTTGACTAAAAAATATTCCCTTTTGGTCATTAATATGTGAGGCAATTAAATCATAATTAATTACCAAATCATTAATTGTATTTGTCATTCTCTTTGATACATAAATAATTATATTATAAATATCTGGAAAAACTAATCTTTCGTTTGAACTATGTGAAATATCTCTTTCGTGTCATAAAACGTTATTTTCAAATGCAGTGTTTACAAAAGATCTTGCATATCTTGAAAGACCACATATATTTTCTGAACTTATTGGGTTTTTTTTGTGAGGCATTGAGCTTGAACCTTTTTGTTCTAAACCAAATCCTTCACATATTTCTTGAACCTCACTTCTTTGAAAATGTCTTATTTCAGTTGCAATTTTTTCAAAAGTTGATGCTATATTTGCAATTACAGATATTAAAAATGCATGTCTATCTCTTTGAGTAACTTGAGTTGAAATTTTATCTAAATTTAAACTCATTGCTTTTGCAACATATTCTTCAACTTCAAGTTCTAAATTAGCATAATTACCCATTGAACCAGAAATTTTTGCAACTTCAATTTGATGTCTTGCTAATCTCAATCTTACAATTTGTCTTTGTATTTCATCAAATCATAAAAGAAATTTTAAACCCAAAGATGTTGGTTCTCCATACATACCATGTGTTCTTCCCATTATGATTATTTTTTTTGTCTCTTCTGCTTTTTGTTTTAAGATTTTACTTAAATTATTTAAAGATTCTTCTAATAAAATATTTGATTGTTGAATCATTTTATTTTGAGCAGTGTCTACAACATCAGTAGAGGTTAAACCAATATGAACTCATTTTTTTTCTGAACCTAATTGTTCTGAGATCATTCTTGTGAATGCTACAACATCATGTTTTGTTTTTTGTTCAATTTCAAGCATTCTGTTAATGTCAACTTTTGCTATTTCTTTAATTTTTTTTGCATCATCAAGTGGAACAAATCCCAATTGTGCCCAAGCATTTACAACATTTATTTCAACTTGTAATCAAATATTAAGCTTATTATTATCCGCTCAAATTTTTTCAACTTCTTTTACAGCATAGCGTTGTATCATTTTTTAATTCACCTCCATTAAAAAATATTTTCCAGTATTATTGTTTGCTCTCTATCTGGACCAACAGAAAATCCTGAAATTTTTATTTCACATACTTTTTCAATCATTTTTAAATAATTTTTAGCAGCATGTGGTAATTGATCAAACGAAGTTACTTTTGTTATATCTTCTTTTCATCCAGGATTTGATAAATAAATTGGTTGACATCTTTCATATTTTTGATTTACACTTGGCAAATTATTAATTTCTTTTCCATCTAATTCATATTTTACACAAATATTAATTTCATCTACTCCTGATAAAACATCAAGTAATGTAATAAAAATTGAATCAATTCCAGAAGTTCTAATTGCATGCTTTAAAGCCACTGCATCTAGTCAACCAATTCTTCTTGGTCTCTTTGTATTTGAACCATATTCATTACCACGTTCTCTAATTCCATCACCAATTTTATTATTTAATTCTGTAGGAAAAGCTCCTGCTCCAACTCTTGTTGAATATGCTTTAACAACCCCCATAGTTGAATTAATTAATTTGTGACTTATTCCACTTCCTGTTGAAGCGTTATTTGCAGATGTATTAGAACTGGTTACATAAGGATATGTTCCATGATCTATATCTAATAAAGCTCCTTGAGCACCTTCAAATAAAACTTTTTTACCTTCTTTGATAGCAGATTCAATAAATGAATCAGTATCAATAACTCTTTCTTTTATTTTAGTATAGGCTTCAATTAAATCTTTATAAGTATCTTCAAAATTTAAAGATTTAATATTAAACATATTTTTTAAAAATTTCATTTGATAATCAAAAACTAATTTAAATCTTTGTTTAAAATTTTCTTCACCTAATTCACCAAGTCTTATCCCTAATCTAGAAACTTTATCTTGATAAGCTGGTCCTATTCCTCTTTTTGTAGTACCAATTTTATTATCACCACGTTCATTTTCTTGTGCTTCATCAATTAATATATGATAGGGCAAAATTAATTGAACTCTATCTGAGATTAAAAGATTTCCATAATCCACTCCACTTTGTTTGATAATTTCAAACTCTTTAACTAAGTTTATTAAATTTACAACACAACCATTTCCAATTATATTTGTTACCCTTTTATTAAAAATTCCTGAGGGGATTATTGTAACTTTATGTTTTTGACCATTGAAATTAATAACATGGCCAGCATTATCTCCTCCTGCAAATCTAACAACCATATTTGCTTTTTGAGCAAAATAATCTGTCATTTTACCTTTTCCTTCATCACCCCATTGGGCTCCAACAACAACTAATGAATTATATTTTTCCATTTTTCTCCTTAATTAAATTTATTCATAATATTTTTAAAATCTTCTTGTGAAATAAATTCTTCTACAAAAGACGATATATTTAAAATCTGTTTTTTTATTAAAACTATTTCTTCTTCTGTCATTTTTGACAATACTCAATCAACAATTTTATATTGGCCTGGATTACCAATACCTATTTTTAATCTATTAAAATTTTCAGTTTTTAAATGACTTATAATATTTTTAATTCCATTATGACCACCAGCACTTCCAGAGTTTCTGAACCTAGTTTTAGACAATTCTAAATCCTTATCGTCATGTAAAACTATAAAGTCTTTGATATCTATTTTATAATATTGCAATATTGATATAATAGCTTCTCCAGATAAATTCATAAAAGTTTGTGGTTTTACAAATAAAATTTTTTCTCCTTTAATATTTGAAAAAAATATTTGAGCATTGAAATTTTCAATACTTTTTTGAAAACCATATTTTTCTAATAATACATCAATGGCAATAAAACCCGCGTTGTGCCTTGTATTAACATAATTTTGTCCAGGATTACCTAAACCAACAATTAATTTTGACATTTTATTTTTTATATCCTTTTATGTATGCATTAACTCGTTTTACTATTTTATCTTGCTCTTCATTGTAAACTCCTGTTAAAGAAGATTTTTCATATGAGCTTTTTATCATTCTTGCTAATAATTTTGCAACTGAGATTATTTTTAAACCTTTAAACTTACGCTCTTGAGGAATTTGAATTGTATCAGTTACAACAACACTATTGACAGTTTTGTCATCAATAACTGCCTGCATTTTTGAAACTGCTTCACCATTAAATAATCCATGACAAGCAATTATATGGATTTCTTTTGCACCTTGTTCTCTTAAAGCTTGTGCTCCTTTTATAATTGTTCCACCAGTATCGATCATGTCATCAATAATAAAACAAGTTTTATCCTTGACATCTCCCAAGATAAACTCTACTTCAGCTTTATTTGGTTCTGGTCTTCTTTTTGCAATAACAGCTATCCCGTTTGTTATATTACCTGTATATTTTGCAACTCCATGTACTCTTGATAAACCACCGTGGTCTGGTGAAACAAGTATACACTGTGATGGATCTAATTTGTTTTTTGAAATTGTATCAATAATTTCTGAAGCTACTATTTGAGCAGTTGAAAAATTATCTGTTGGAATATTAAAAAATCCCATAATCTGAGCAGAGTGCAAATCTACAGTTATTACTCTGTGTGCTCCTGCTGTTTCAATAAGATTAGCAACTAATCTCGAAGTAATTGGTTGCCTACCTTTTGCTTTTCTATCTTGTCGCGCATAACCAAAATATGGAATTACAACATTTATTTTAGCTGCATTTGCTCTTTTAAAAGCATCTACTGCAATTAAAAGCTCCATTAAATTATCATTCACTGGTTGATTTGTTGATTGAACAATATATATCTCTTGTCCTCTAACTGAGTCAAGTGATTGAACAATCATTTCTCCATCCAAAAATTTAGATGTATTAGCTTGTGATTCTTCAACATCTAATATTTCACATATCCTTTTTGTTAAATTTTTGTTTGATGATAAACCAAAAATTTTAATATCTTGTTTGTTCATAAATATAAGTCTCCTTAAATATAATATCAAATTTTCACCTACCTTTTGTCATTTGCTAAATTAAAAAACCTTAAATATAAGAAGAAATAACTAGCAAAGTATAAGAAAAATAATAATCTTTAAGCCTTCTAGGCAATGTTTTTAAAATAAAAAACTATTATCTTTCATAAAAAGTACAAATATTAAGTGAAAATAATTAAATAATAGAAAATAATATATAATCAAATAGGAGTTAATAAAAACTTCTATACTTGTTTGTTATAAGTCTTAAGGACTTTTTTTATTGCAATAATGATGGAGGAAACAAAATGGGATTAGTTTTTTTAGATAATTTAACACACGCAAATGGTGGTAAAAAATTGTATGACAATACAAGTTTTAGGCTAAATAGAGGTGAACATATTGCTTTAATTGGACCAAATGGAACTGGTAAAACAACTTTGTTAAATATAATTGCTGGTAAAATGTTATGTGATAAAGGTGAATTAAAGATTCATCCAAAAACAAAAATTGGTTATTTGGATCAACATCAAGATGTAGATTTAGAAGAAACTGTTGATTCATATTTAAAAGGTGCTTTCGCAGAACTTTTTGAATTAGAAGCAAGAATGAATAAAATTTATGAAGATATGGCTATTGAATATAAAGAAGAAGATCTTGTAAAAGCACTTGGCTATCAAGATACTTTAAATTTAAATGATTTCGATTCAATTGATAAAAAAATTGGGAACTTAGTTACAGGTTTAGGTATTGGTCTAGAGAAACTTCAAACTTCAATGGGCGAATTAAGTGGAGGTCAAAGAGGTAAAGTAATTCTTGCAAAACTACTATTAAGTGGTGATGATTTTTTATTACTTGATGAACCAACAAACTTTTTAGATTTAGAACAAGTAAAATGACTTGCTAAATTTTTACAAACTTTTGAAAAGGCTTTCATAATGGTTTCCCATGATAATGATTTTATTAATAAGACTTGTGGGATAATTTATGCACTTGATAATTTAAAATTAACAAGATATGTTGGAAATTACGATAAATATTTAGAAGAAGCTGAAATACAAAAAGAGCAATATGATAAGGCTTTTGTGGCACAACAAAGAGAAATAAAAAAACTTGAAACTTATGTTGCAAAAAATAAAGCAAGAGCTTCCACTGCAAAATCAGCTCAATCAAGACAAAAACAACTTGAAAAGATTGATGTAATACAAGAACGAAGAGATTTAACAAAACCTAAGTTTTCCTTTTCTTATAAAAGACCAAGTACAAATGTAATTGTCAAAGCTCATAGTTTAGTTATTGGTTATGATTCGCCTCTATTACATGAACTTAACTTTGAATTAAGAGAAGGAGAAAAATGTATTATTAGTGGTAGAAATGGTATTGGTAAAACTACATTTTTAAAAACTATGTCTACAGAAATTCCCGCTTTTAAAGGTGAAGTTGAACTTGGACATGCTGTTGAATATGCATATTTTAAGCAAATTGAAGATGTTAGAGGAATTAGTCCTATAAAATATTTAATGGATAGATTTGATAATATTACTGAATCAGAGGCAAGATCAAAAATAGCCCAATTTGGTGTTAAAAGTGGTTTAATGATGCAACCTATGGAAAAGTTATCTGGTGGAGAACAAACAAGAATTAGGTTAGCTGCTCTAAGTATGATTCCTTGTAGTTTATTGGTTCTTGACGAACCTACTAATCATATTGATGTTTTAGCAAAAGAAGCATTATTAGAAGCAATAGAGAATTTTAAGGGAACAGTTATTCTTACAACTCACGATATTAATTTTTCAACAAACTGAGCAAATAGAACATTAGATTTTTCAGATTTAGTGTAGAATAATTTTATAACTGGGAGGTTTATATAATGAAAAATGAATTTGATCCATCATGTTTTAAATGTGTTGAAGAAATGAAAAAAACAAATAAGGGTGGAGCTGCAGCAAGTGTATTAGCAATGAAAATGCAACAAAATGTAGCTAATCAAGATTTGGATAACATAAAAGTTTGTGAAAGACATGCTTAAAAAAACTAGTTTATTTCAATAAACTAGTTTTTTTTATAAATGTTGAGCCTGACCCACTAAGTTGACCAAGTTCCTTATATTTAATTAAAGTTGGATACAATTCTAATGCTGGAATTTCCAACATATTCTTTTCACATTTATTTTTTCAGCCTTTGATTTCATCAAATTTTTCGTAAACCTTTTTTGTATCACATTTAACTTTTGTAAAAATTAAATCTTCAAATTTTATTTGAATCTTATCTGGAATTTTTTTAACTTTATTGCCATAACTTTTGACTCTAGCAGTACTAAAATTCCAGATAAAAAAATAACAATCTGTGCCAATAGTTTTTGAGATTTTTTTTAATATTTTAATATTATTTGTAAAGTATTTAGCCACTGCAATGGCATTACTACTTCCTCCACCAAGACCTGAACCAATAGGAATATTTTTAAAAATTTTAATATTATAATAGGAAGTAATAATTTTTTTATCTCGTAAATAATTTAAAACGGTATAAATAAAATTCTTCTTTTCTAATTCCTTAAAATTACAAGTTATTAGGTCCTGTGTTTCATTTGATTCAACAATTTCTATTTCGTCATAGAGATCAGGTACTATTGTAAAAATTGAATTAATCTTATGTAGATTTTTCTTTTTTTTACTTACTTTTAAATTTAAATTTACTTTTGCATAACTTTTTATTAACATTTTTTTACCTCATTATAAATTTTTATATACTCATCTAAGTTTATATTTTCAGGTCTTAGACTTTCTTTTATGTTAACTTCATTAAGAATTTTTAAAGCATCTTCTTTATTATTTGTAAAAGAAGCTAAATTATTTAATATAGTTTTTCTTTTATTGTTAAATAACTTTCTAACAAAAGATACAAACTTTAAATCATCATCATTTAATTTTTTCAAATTAGTATCATTAAACTTTAAAGATATAATTGATGAGTCAACTTTTGGAATAGGTTTAAACATATTTTTGTTAACAGTAAATTCATATTTTATTTCAGAATAAAGTTGAACAGCAATAGATAAATTATTGTAATTATTTTCATTGGCCTTTGCGCAAATTCTTTGAGCAACTTCTTTTTGAACCATAAATATTGCTTTATCTAGTTTCTTAGATATATTTAAAGTTCTAAATATTATTTCACTTGTAATATAATATGGAGTATTTGAAATAATTGAAACTTTTTTAAAACTATTATTTTCAATTAATTCATTGAAATCAACTTCTAAACAATCTTTAATTATTAACTCAAGCTTTGTAGAGTTTACTTCTGATTTTAAAATGTCTTCCATATCTCTATCGATCTCTATTGCAATAACTTTTTTATACCTATTAACTAACTCTTTTGTTAGAGCTCCCTTTCCTGGACCAATTTCAATTACTAATTGATTAGATTCTTGATCTAAAATATCAATTATTTTTTTAATTAAATTTTTATCTGATATAAAATTTTGACCAAATTTTTTCTTTGCATATTGCATTATTATTCTCCTACTATTTTTTTAAGATCTTGAATATCTAAATTAACAAAATTAACTCATTTAAATAAAGTTTTAGAATTTATCTTTTCACTTCAATTATATTTCTCTGCTATTTTTTTTCTTGCTTTTGGTTTATAGAAATCATTTTTTAAAAAATCCTCTCAAGTTATACTTAGGTTTTGGGGATCAAATGAAATTAGACTTGATAAAGCTTCTTTTATATCTTCATCTTTAGCTTCTGCAATACCAATTTTTTTTGAATTATTTATGCTTTTTTTGTTGATAAATGCATTAAAACATTTAAAATTAAGATAGATATTAATTGTGTCACGAATTTTTAAACCAGGCCCATCAGGGTCTGTTAAAATAATTACACCACGTGTCCTGTTAACATCAGAAATAAAATTTAAAGTATTTTTAGATAAAGCAAGACCATTTGTTTCAATGGTGTCAACATTATCATTTCCAAATATTTTTTTAAGTTTGGCAGTGTCTGTTACTCCTTCAACAATTATAACTTGCTTTATCTTCATAAACTTAACATTACCTTTCTCGTGTATATTACTAGTATTTAAAATACTTTTATAGTATAATTATACACGAAGGGTTTTTTTCTTATAAAGGAGGAAATAAATATGGCATCATGAGATCGTAAAAGAGAATTCGTTGCTTTAGATTTAGGAACAGCTAACATTGTTGCTTATCTAGGTGGACAAGGTATCATTTATAATGAACCTTCAACAATGGCATACGACGTTCATACAAATACTGTTATTGCTTCAGGAGAAGCTGCATACGAAATGATCGGAAAAACAAACGATGATATTAGAATGGTAGTTCCATTAGTTGATGGAGTTATAGCAGACCTTGACGCAGCTAAAGATTTAATTAAAATAATCTTTTCACGTATTAAATTATCAGACATCTTAAAAAATGCATTAGTAGTTCTTGCCTGCCCTTCAGGAGTTACTGAATTAGAGAGAAGTGCATTAAAACAAGTTGTTGCAGATATGGGAGCAAGACACGTTCTTGTTGAAGAAGAAGTTAAATTATCAGCAATCGGAGCTGGAATAAATATTTCTATCGCAAGTGGACACTTAGTTGTTGACATCGGTGGAGGAACTACTGATATAGCAATTATTTCAGCAGGTGATATTATTATTTCAAGATCAATTAAAGTTGCTGGAAATCATTTAGATGAAGAAATAAGAAAATATATTCGTGCTGAATATAATGTATTAATCGGAATTAAAACTGCTGAAAAAATTAAAGTTGAAATTGGAGCATTAACAAAAATAGATAATGGACGTACATTCCGTGCATTCGGACGTGACGTTATATCTGGTTTACCAAGAGAAGTTGTTATCTCACCAGATGAAGTTAAAAATGCTTTATTAGCACCATTTTCAAAAATAACAGACCTAATTGTTGAAGTTATGGAAAACACACCAGCTGAATTAGCTGGAGATATCATTAGAAATGGTATTACTATATGTGGAGGAGGAGCTTTAATTAGAGGAATTGATACTTACTTTGAATCAATTTTCCAATTAAAAGTAACTAAAGCTCAAGATCCATTACTAACAGTTATTGAAGGTACTAAAGAATACGAAAAACAAGCAGAAAAATGATTAGAAATCATCGAAATACGTGATTCAAGAGAATATAACATAAAATAATAAATAAGGAAGAGAATGAATCTTCCTTTTTTATTTGTTTTTTTATTTAATAAATACTAGATTATTTAAAAAAAAATGTTTAAACTAAATATATAGTTAAAGTGAGGTAACACTGTGGCAAGAGCAAGTTTAAGAACAAAAAGACATATTGCAATAGACATTGGAACAAGTAAAACTAGAATTTTTATAGAAAAATTAGGAATGGTTTTTAATGAAGCAAGTTTAATAGCTATTGATTATAAAACCAAAAAAGTTATCTCTGTTGGAGATGCTACAAAAAAGTTTGTAGGTAAATTAAGTGGAACAATGCAAATTAAAAGTCTTTTAAAAAGAGGAATTTTAACAGATATGAATTTACTAAAAAAATTTTTATCAACTATTCTTTCAAAATATGAAGAAGAAGTAAAAAGCTCTGTTGTTACATTAGCTTGTCCAATAAGCATGAGTGATATCGAAAGAAGAGCATTAATTGAATCAATTAAATCTCTTGGAGTTTCTCATGTAGTTATTGAAGATGATATTAAATTAGCATTACTAGGTGCCGGATATAATATATATGGATCTGATTCATATATGTGTTTAGAACTTGGTGCTGGTAAAGCAACAATTGGATTAGTAAATAATGGAGAAACAATAAATTATAAATGAACAAAAGCTTGTGGTGAAGCAATTGACCAAGAAATTATAAAAGTGTTAAAAACAAAAGAAGGAATTTTAATTGGAGATGTAACTGCAGAAGCAATTAAAATTGCTGTTGGATCAGTGTTAAAGAATAAAGAGCCTTTAAAAACAAAAGCTTACGGTTATGATTTAAATTCATCAAGACCAAGAGAGATTGAAGTTGAAGATAAAGATATATCAAAACTTATTTTGTCAGTATTTGGAAATATAACTAATACAATAACTGCACTTCTTGAAGAAACTCAAAGTGAAATTGCAGGAGATATAATAAAGAATGGTTTAATTATTACAGGAGGACTTGCAAGAATTCCTGGTGTTAAGTTATTCTTTGAAAACTTCTTTGAAATTCCTGTAATAGTTGCAAAAAATTCTTCAACAGCAACTATTGAAGGAGCCATAATGCATAAGGAAAAAACATTTGATATTATAGAAGCAATGGGTTAGTAATAATATTTTTTATTAATAAGACAAAGTCTTATTTTTTTTTATAAAATAAGACTATAGAACTTAGGGGAAATTATGAATATATTAATAGATAAAATTAGAATTGTTATGGAAAAAGCAATTAAAAAACTTAATTTAAAAGGAGATATTTTAATTGAGAGACCAAAATTAATTCAGAATGCCGATTTTGCAACAAATTTTGCTTTGATTAATTCAAAACTAAATACAAAAAATCCTATAGAATTAGCAGAATTAATTGTAAATGAAATTAAAAATAATGAGATTTTTGAAAATGTTGAATTTATAAAACCAGGTTTCATAAATTTTAGAATAAATAATTCTCTTTTAAACCAAGTAGTTGAAAAAATAATAAATGAAAAAGATAACTTTGGTAAATCAAAAAAGAAAAATAAAAAATATAATTTAGAAATAGTTTCTGCAAACCCTACTGGGTATTTACACGTTGGTCACGCAAGAAATGGTGCTATTGGTGACTCTGTTGCAAGAACATTAAGATTTGCTGGATATGATGTAGAAACAGAATATTATGTTAACGATGCTGGTAATCAAATTAATGTATCTGCTGCTACTCTTTTTTATCATTACAAAAAGATGCAAGGATTAAATGTTGATAAGCCAGAAGAAATGTATGGTGGAGAAATGTATAAAGAAGTAGCCACACTTTTTATAGAGGAATACAAAGATAAATTTAAAGATATCTCAATAGTAAATAATAAAATTAATAATGAAGAGGTAAATAATTTATTTAAGCAAAAATCAATTATCTTTTTTATGAATGAAATTAAAAATCAAATGAGCAATTTGGGAGTTACTATTCAACACTATTCTAGTGAAGCAAAAATGTATGAAAATGATTCAATTAATAAAATTATAAAAAAATATAAGGAACTTGGAGCAACTTATGAAAAAGATGATGCCTTGTGACTTAAAACAACAGAATTTGGTGATGATAAAGATAGAGTTCTTAAAAAAACTGATGGAAGTTTTACATATATAACTCCTGATATTGCATCACATAGTAATAGAATAGATAGAACAAAAGCAGATAAATATATTAACTTTTGAGGTGGAGATCACCATGGTTATATAACAAGATTAAAGGCTGGTCTTGCCTTATTAGGATATGATTTTAATTTAATTGATATAGACATGATTCAAATGGTTCGTCTAATGAAAGATGGACAAGAGTTCAAAATGTCAAAACGTAAAGGTACAGCTGTTTGATTAATAGACCTATTGGAAATGGTTGGAAAAGATTGTATTAGATACATGTTAGTTTCTAAAACTCCATCAAGTCATATGGACTTTGACTTAGACCTTGCATTAGAAAAAAATTCAACTAACCCTGTTTATTATGCTCAGTATGCAACAGCAAGATCTAATAAAATAATTTCTAGTTTTAAAAAATTAAAACTAGAAATTAATAACTCAATTCTTTTTGAAAGTCAAAAAGAAAAGGAAATTATAATATTGTTAGATAGTTTTAATTCAATAGTTGAATACTCAGCAAGTTCTAGACTGCCTAATATTATTTGTGATTTTATACAAACATTAGCAAAATCATTTCATTCTTATTATGCAGAAACAAAAATATTAGATGAGCAAAATATTAATTTAACTAACCAAAGAGTTTTATTAATAAAATCAATTTATCAAGTATTATCAAATGCTTTTAATTTAATAGGAATTGATGTTAAAGATGATATGTAAAAAACATCCAGTATTTTTTAAAAAAATACTGGATGTTTTCTTTCATTTTTAAGTTTTTATCATTTCTTGAACAATATCTGCGACGTGCTCAACATCCGTACCGATTATTAATTGAAGTCCTTGATTACCAAGTCGTTTAATGCCATATATACCAAGGGCCTTTAACTCTTTGTCATCAATTCCAACTTTGTTATCTTTAACAGTTAACCTTAATCTAGTACTACAGTTTTCTACTTTTACAATATTTTCTACTTTTACAATATCAATAATACCTTTAGCCATCATTTCATATTTTTGGTTGGCATTATTTTTTTTATTTTTTTGAAGTGTAGGTACTGCTTCACCTTCTTCTTCACGTCCAGGAGTTTTAATATCAAGTTTTTTGATTAATATACTGAATGTGAAGTAGTATGCGGGAAACGCAAGACCAGCTAATACAAACATTCAAAGGGGATTTGAAATTACTCCATAACCTTTACCATTTACCATACCTTCATATTTACTCATTCCTCATGCATTTGGGAAGGAAATTATATAGTCAATAAATCCACCACTAAATCCAAACCCAATATGCATATGCATTGCAATAGCAATAGCTGCAAAAATTGAAGTATATACAGCATTAACCATTCAAAGAATTGGTCCAACAAAGATAAATGAGAATACTAAGGGTTCATCAATTCCTGTTAAAGCTGCTACAAATGCAACCCCAGCTAAGAAAGTTGTTACCTCTTTTCTTTTTTCTTTTTTAGAACACATTATCATAGCTAATGCTGCACCAGGTAAGCCTCCTCAAAACATTGGGAAGAACCCGGTTTGGAAATTACCAGAAACCATAGATTTTTGGAAAGCATTAATATCTCCAAATATAGTAAAACTTGTAATTCCATCAACGTTATTCATTAAGACTCCATCAGGTAATCCAGACATTTTAATATTAAAGAACTCTTTGAAGTTTTCATTTGAAATGATAACTCCCCCTAAATAGTAATTTGATATTGGTTGTAAAATTGTCTCAATTGCTTTTGGATCTAACATTCCATTTTCTCCAATTAATGGAGATTCATTCATGTTGTTAAATAAAACAATACTTCCTGAAAAGTCAACAATTTGACCTTCAATTGGCATTTGGAACCACAAGAAGGTATTTACAATATGGTGTAATCCTGTTGGTTGAACAATTCTATTTAGAAGTGCATATAAGAACGCTCCTGGAACTGCTCAAGAATCACCAGAGGAAACTAATTTCCCAAATGATACTAAACCATATTGAAACCATGGTCAAAGTATTGCAAATAGAAATGCAACTGGTAGAGATGCTACCATTATAACCATTGGTACAAATCTTCTTCCACCAAAGAATGAAAGAGCTTGTGGTAATTTAATACTTTTAAATTTATTGTATGATCAAGCTGATAAGCAACCCGCTACTATCCCACCTAATACACCAATATTTAAAATATAAGTTCCACCAATAATTTCTAGTTTTTGATTAATCATTCCATATTTTGGCACATAGAATAAACCCGAAAGTGCTCCAGCTAATTCCTTGTTGCCATCTGTTTCTTTATAAAAATCAAATGTTACTACTTTATCATAAAATAGTTTTGGCAATCCACCTTCAGCAAGAAATGCTACTAATATAAGATAAAATGCCGCTCCAACTAGTGCTGCCTCACCACGTTGATCTTTTGATAGACCAAAAGCGGTTCCTATAGCAAATAATAATGGTAGCTGATCAAAAATTGTTGCACCAGGTTTTTGTATAATAAACCCTATTCACCAACCTGCATTATATTGAGTATCACTATTCAATTCCATAGCTAAAGAGCCAAATCGATTAAGTAATGCTGCAAATGGTAACAATGCAATTGGATACATCAAAGATTTACCAAGACCTTGTAGTTTTATCAATAAATTACTAAAAAAGTTATTTTTCTTAGTTTTATCAAAATTTTTTTCTTTCTTTATTTTTGTTTCTTTTGAAACTGTATTCATTTTTTTCTTTTCCTTTCTCATTAATATTTTCTACATAAAATAAAAGAAAGAACTTTTTAAATGAAAAAAATGCAAGTTTTTTGGAATATTTTGAAATAATATTCCATTATTTAGTCATTTCAACTATAAACATTGAAAAGCAAAATAAAAATACAAGAGCTAGGAAAAAAATACAAAAAATAATCATTCACCATTTAAATAACTCAAACATTTCCCTTTTTGGTTTTACTTTTAACTGTATACTTCTTTTTTTATAAAATAAAATTAAATATATTATTACTACTATAATTAAAATTAAAGATATTATTGTTCCAACAAGTAAAGCTATATTTGTTAAATTCACTAATTAATGTAACTCATGAATTATTACACCCTTAACAACTCTATTAACTTCACCTGAGGGACACGGATTATCTGGATTAATATTTAGTTTTATAGATGTAATCAATGATAAAATTTGTGCGAATAATATATAATTTAAACCAATAAAAATTTCATTTAAATTTTGATTTTCAAAATTTAAATATATACTTGCGTATTTTTTAACTTCACTACATTCCGTATTATCTAGAACTACTAAATTTTTAACAACTTTTTCTAAAGCAATTTCTTTCAGCAAATCAATTTCATATTTTCTTGAGTAATTATCTTTACTCATAAAAATAATTACTGTAGTATTTTTATTTAATATTGATTTTGGGCCATGTCTAAAAGCAAGCACTCCATTATAAAAGCAAGGTATTTTTCCCTGTGTTAATTCTAATAATTTTAAGCTTGCTTCATTTGAAAACCCTTTAAATTCTGAACTTCCTAAATAGACAACTCTATCATTCTCTTGTAGTTCTATCTTTTCAATATTTTCTTCGATAAGTTTTAAACTTTTATCAAAATCATTACATAATTTTTCTATTGAAGATTTATTATTATTTTTTAATAATAAATCCAATATTAAAAACGCACTGAAAGTCATTCCAGAATAACTTGAAGTCATAGCAAAGCCCTTATCATTTGCTTCATTTGGTAATAAAAATATCTGTGTGTTTTTATTAGTACTTGCAAGTTTTACAAGTTGACCATCTTTATTACAAGTTATAATTAAATGATAAACTTGATCAATTAATTTATTAGCAATATTAAAAGTTGCAATTGATTCTGGTGAATTACCACTTCTTGCAAATGAAATAATTACTGTTTTCTCTTCTTTTTTTAAAAAATTTAAAGGGTTAGCAACAATATCTGTTGTGGCAATTGAAAAAACATTCAAGCCCTTTTTATAAAAATATGGCGCCAATGCTTGTCCAATAAATTCACTTGTTCCAGCTCCACTAAAGATTATTTTATAATCCTTAAATGACTCTAAATGAGACATCAAATTTTTTATATTTTTATCAATATTTTTTTCTATTTTTTTTCATATTACAGATTGTTGTAAAATTTCTTTTACTGTATTAAATTTTTCTTTACTGAATGTTTTATTCATTTTTTTCTCCATTAGAATAAATTATATTTACATTTGGAAATCTAGTTCCAATTTTTTCTTTACTCTTTTCATCAGTTATTACAATATCAATTTCCTTTATATTTGTAACTTTCTCAATTCCTTCATCTTTTATTTTTGAAGAATCAACTAATAAGATTTTCTCTTTTGAAATTTTCAAAGCATCTCTTAATGTATCAACTTCAGGTACAAAATCATCATAAATATTTCCTTCATAATCTAATGATAGACAACTAAAAAAAAGTTTAGAAAATTTAATCCCCTCAAGATATTTTTTAGTATTTCGATTATAAAAAACTTGAGACTTTTCTTTAAAAATTCCACCAAGCAAAAATACATCTACTATTTTATTATTTTTTCAAGCTTCTAAAAAAACTGGGAATGAATTTGTAACTAGCAATTTAACTTTTGTTTTTATTTCTCTTACAAATCTTTCAATAGTTGTTCCCGGAGAACAAAAAATAATTTCATCATCTTTAATAAATTTTATAGCTTCTCTTGCCATAATATTTTTTTCAAAATTTTTATGTTGAACTTTTTCTGATCTATCTGTTTCATATATATTTTCTACTCTTGAAGTAATACCTCCAAAAGTTAAACTAATTTTTTCTTCATCTTGTAACTCTTTTAAATCTCTTCTAGCAGTTGTTTTATTAATGCCAATACTAAAAGCATAATCAAATAAATCCTTTGAAGAAATAAAATTTTTTTCTATAATTTTGTTTAATATAACATCTTTTCTTTCTAATTTGTGCATATAACCTCCACAAAATCATTATATCAATATCTGGTAAAATTTGAAATAATTTGAAATAATTTGAATAAAAAATAAGTTTTGTTTTCCTAACTATTGTTGTGTCTTTATTATCAACAAGATAACGTGAGTTATCTATTGAGAATATTTAAAAAAACAGTTATAATATATATAGAAATTATTTAAATCATATCAACTAATGAGTGCAGTATAATAAGTGTTGTGTTTGCAAGTTTACTTTTTTTATGGTAGAATTGTTAAAGATTATATATTCTAGTTTTGAATAGAAATATATAATTCATTTATTTAGAAATATTAAAGGAGAAAACGGTATGGCAAATAAAAAACCAACATTCGTTTCTATGGACCTTGGAACAGCTAATACATTAGTATACATTGCTGGACAAGGAATCGTTTATAACGAACCATCAATAGTTGCTTACAGAATTAAAGAAAACAAAATTATCGCTGTAGGTGAAGAAGCATACAAAATGATAGGTAAAGGAAATAAAACTATTCGTGTCGTAAGACCAATGGTTGATGGAGTTATTACTGACATTAGAGCTACTGAAGCTCAATTAAGATATATATTTTCAAAACTAAGAATTACAAAACAATTAAAACACTCAATAATGCTATTAGCATGTCCTTCAGTTATTACTGAATTGGAAAAAACAGCTCTTAAAAAAATTGCTGTAAACCTAGGAGCATCTCAAGTATTTGTTGAAGAAGAAGTAAAAATGGCAGCTTTAGGTGGAGGAGTTAATATATATGCTCCTACTGGAAACCTAATAGTTGATATGGGTGGAGGAACTACTGATATAGCTGTTTTAGCATCAGGAGATATAGTTCTTTCAAAATCAGTTAAAGTTGCAGGAAACTATTTAAACGATGAATGTCAAAAATTCATTCGTTCACAATATGGACTAGAAGTTGGATCAAAAACTGCTGAATCAATTAAAGTTAACGTTGGTTCATTAGCTAAATTCCCAGATGAAAGACGTATGAAAGTTTATGGACGTGATGTTGTTTCTGGATTACCAAGAGAAATCGAAATTACTCCAGAAGAAGTGCGTGAGGTATTAAAAGTACCTGTATCAAGAATTATTGACTTAACAGTACAAGTTTTAGAAGATACACCACCAGAATTAGCTGGAGATATCTTTAGAAATGGTATTACAATTTGTGGAGGTGGAGCCTTAATTAAAGGTATCGACAAATACTTCGCAGATACATTACAATTACCAACAAAAATTGGTGAACAACCATTATTAGCAGTTATTAACGGAACTAAAAAATTCGAAAGTGAAATTTGAGAAATTATTAAAGCCGAAAAATGACACGAAGATATACTAAGTAGATAATTATTAAGTATATAAAATAAAAAAATATTTCCCTATTAATGACTATCCACACAGTCATTGTAAATGGGAAATTTTTTTATAAATAAATTTATTGTGATTTATTATTAAAAGAATTTTATTATATAGTATGTCATAATTTATTTTGAATGAGGTTCTATATGGAAAAAGAAATTATAAATATTAAAGAAGATCATGAAACTTATGAATTAATTTCTGAAGTTATATTTAAGTTTTTTACAAAAAAAGGTAAAAGCATTCTTACAGGAAGTGACAATAGAATTAATGAAACTACTAGAGTTTGATTCATTAACTTCGTTGAAACTAAAAAGAAAGAGGAAATAATGCAATTAGAAAAATATGCTATATTTCCTTCAGATGATCTTAAAAAAATAACTTTATACAACAATACAGGTTCAGAAGAATTAATTGCAAAAAGATATGAAAAGATCAAAAATGAAAAAAATGAAATAATAGTTTTTGCTAAATTTAAAGATAGTTTAAAATATAAAGGATATAAATTTTTAGGACTTTTTGAATTTGATGATTCGCTTACTAATGAGAAAAATACTTTAATTTTTACAAAAACAAAGAGTTCTATTAAATTGGATGTTTAAACAACTGTACCTATTGTTTTATATGATAAAAATAGGTATAATAGTAATAGAGACTTTATTACATAGGAGGTAATTATGAAAATAGAGGAACGTACATTTATTGCTTTAGACTTAGGAACAAGCAATATATTAGCTTATGTAGGAAGACAAGGAATTGTTTACGACGAACCATCAATTATGGCATATGACAATATTACTAATACATTAGTTGCATTAGGTCAAGATGCTTATGAATTAATTGGTAAAACTAATGAAAACATTAGAATGGAAATACCAATTAAAGATGGTGTTATTACAGATTTAGATGCTGCAAGAGATATGTTAAAACATGTTTTCAGTAAGCTAAAAATGTTAAACGAATGAAAAAATTCAATTATTTTATTAGCTTGTCCAAGTGAGGTAACAGAATTAGAGAGAGAAGCTCTAAAACAAGTTGCTTATGATATGGGTGCTGAAATTGTCATTGTTGAAGAAGAAGTAAAAATGGCAGCTTTAGGAGCAGGAATTAATATTGAAATTCCAAAAGGTAATATAGTAATTGATATTGGTGGAGGAACTACTGATATTGCTATTATTTCAGCTGGAGATATAATTATTTCAAGATCAATTAAAGTTGCAGGAAATGCATTTAATGAAGAAGTAAAAAAATATATTAGATCAGAATATAACGTTACTATTGGTGATAAAACTGCTGAAGAAGTAAAAAAAGAATTAGGTTCATTAGCTAAATATAAAGGTGAAAGAACTATGTCTGTTTTTGGAAGAGATATTATTTCTGGATTACCAAAAGAAGCAATTATTAGTTCAGAAGAGATTAGAAACGTTTTAGTTAATGCTTTTAGTAGAATTACTGATTTATTAATTGAATTAATGGAAAACACACCTCCAGAATTGGCTGGGGATATAATCACTAACGGATTTATGATCTGTGGTGGTGGTTCAAAAATAAGAGGTATTAAAGAATACTTTAATGGGATTTTCTCAGTTCCTTGTCATTTAACAGCAAACCCGCTAACTGGTGTAATAGAGGGTTCAAAGGTATGACAAAAAACAATTAATCAAAGAATTGATAATGATTACTATGGAAAAAATGCAAAAAGCGTTAAAAAGGGAAGTCAAACTTCATATTTATAATAAAAAAAATGGTTTTAAAACCATTTTTTTTATGATATTTTAAATATTTTCATCGCATTACTTGTTGTTGCTTCAATAACATCAGCTTTATTAATTTTTTTAATATTTGCTATTTTTTCGATAGTGTAAGCAATATTTTTAGACATATTTAATTTACCTCTTTTTGGTTCAGGAGTTAAATATGGAGCATCTGTTTCAACAATCATTTCATTTAAAGAAAGCTTTTCAACAGTTTCATGCAATTTAGTCGCATTCTTGAATGTAACAACTCCTGGTATTGAAATTAAATAACCTCTTTTAGTAAATTTTCTTGCAAGTTCAATTCCTCTAGTATAACAATGAACAATTGCTTTTTTAACTTGAAGTTTATCTAAAATTTCTAAGGCATCTAAATATGCTTGATCAGATTCATCTTTATCTCTAATATGCATCATAACGACTAAATCATTATTCTTTGCTATTTTTATTTGTTCTTTAAAAAATTCCTTTTGAATTTCTTTGTGTTGATCTGTATAAAAATAGTCAAGTCCTACCTCTCCAATAGCAACTACTTTATCACTGTGGGCCATTTCTTCAATTTCTAACAAGTCTTGTTTATTAAACTTATATACATCATTTGGGTGAATACCAATAGCTGCATATACATTTGGGTATTTCAATGCATATTTACATGCTTCTTTAGAAGATTTAATGTCAAAGCCAACACAGCAAAAATGAGATACTCCATTTACTTTGGCATCTTTTATCATTTCAGAAACTTCAATTTCTTGTTCCTTATAAACAACATCATTAAAATGTGTATGTGTATCAAATATACCTGCCATAATTTAAACCTACTTTCCTAAACAATACTTTCTAAAAATATTGTCAATTACTTCTTCATCTGCGTCATAAATTCCTAAAAGATTATTTAGAATTTTTAAAATTTCATAAAGATCTACATTTATTAAATCAGTTGTAAAACCTTCTTTAATATTGTTTAAGCTATTTTCTAATAATACTAATATATTTTTGAACATCTCTATATGAAATACATTGGATAAAATAGGAAGATCACTTTCAAGAATATCACCATTATTAAACTCTAATTCTATTTTATTTAAAAGTTCTTTTATATCTCCATTAATAGCAGAAACCACAACTAAATCTTGAAATTCTTTTTTGATTTTATCGATATCACTTTTTTTAAGCAATTCAGATTTATTTAAAACAACGAGATGTTTTTTATTTTTAATTTTTTCATATATCTCATAATTAATTTTACCTTTATTTATAACAAATAGAATAAGATTTGAAGTATTGATTAAAGAAATACTCTTATCTATTCCAATTTTTTCAACCTTATTTTTAGTTTCTCTAATTCCTGCACTATCAATTAAATTAAGTGTAAAATTTGCAAAATTCAATTCACCTTCAACAATATCTCTAGTTGTACCTTCTATCTCTGTTACAATAGCTTTTTCTTCAGATATTAATGTATTTAAAAGTGATGATTTACCAACATTTGTTTCACCAAGTATTAGGGTATTTATTCCAGATTTTAAAAAATTGAATCTTTTACTTACATCTAATATTTTTATAGTATCTTCTTTCAAAGAACTAAGCTCAAAACTAATTTCTTCAGGACTTGAACCTTCAACATCATCATAATCTGGATAATCTATTGAGGTTTGAATTTTTGATATTAGATCTATTAATTTCTCTTTCATGTTTATTAGAGCTTTATTATTTTTACCTTCTAAATTTAATGCGCTAATTTTTAATGAAAGTTCATTTTTAGAGTCAATTAAATTATTAATGCTTTCAGCTTGAATTAGATTAATTTTTCCATTAAGATATGCTCTTTGAGAAAACTCTCCTGGTAGGGCTGGTCTTGCTCCATTTGATATTAATAGAGACAAAATGTGATTTGTTAGCAAAATTCCACCATGACATTGTATTTCAACAACATTTTCTCCTGTAAAAGAATTACCATTTGCAAAAGTTAGAATTAAAGCTTCATCAATAATATCTTTTTTATCAAATAATTTTCTAATTTGAATTCTTGTATTATTACTTAACTTTTCTTTTAATAGCTTATTTGTAATATTAAAGGCATTATCCCCTGATATTCTAATAATAGATATTGCCTGTTTGGCTATTTTTGTAGCACAAGCAACTATTGTATCATTTATATTTAGTTTCATTTTACCAACTTCCCAATCTTGATTATAACAAAAGAAAATCAGAATATTAATTTTCTGACTTGTATATTATTCTAATTTTTCTTTCTCCAATTTGTCCTGAGGTTTTTGCTTTAAGATTATTATATTTAGAAATTAATCTGTTAATCTCTCTTCTTAAGGGTTTCGGATATGCTGGTAATATTTCCTCTTCCTTTGAAGATAAAACCCTATTTATAATTCTACTTAATTCTGTTTTACTAAACTTTTTCTTATTTTTATTTGAAATATTAAAATTTATTATTTCAAAGTCAAATAGCATATTAAATTTAATTTTTAATACATTTTTAATAAATCTTCATAGACTTAATTTTGTATCCCTAGTAAGTTCTATTGGTGCATCATAGGCAATTATATTTTTTGATTTTGATTCAATTCTAAAAATTGAAATTATTTTAATTTTAGAAATTTTAGATAGCTGCTCATTTAAAAATTTCATTATTTCAATTCTTTTTTTATTTGAAATAAATAAAATCACTTCATTAATATTTTCATAAAAAACAAGATTAGTTTCAGGTTTTTTAGTTATTAGGAAGTGATTTATTTTATTATTTTTTATTTTTAGAATCATTTGAAACTTTTGCAGCTAATGTTTTGTTTTTAATATTTAATTTTTCTCTTTTTTTCTTCATTCTTGATACTCTAGTTTCTTTTAAGTAATGGAAACCTAAAGTTTGAAGTATTTGGAATGTAGAAGAGAATATTCAATATATAGCAACCCCAGAAGCTATATTAAATACAACGAATAAGAATACAACCATAAATACTATTTGCATAATTAATTGTTTTTTTCTAGCTTTTTTTTGTTGCTCAGATTCCAATTTTGGTTTCTTTTTGAACATTTGCAATATCATTGGAAGTAACATTGAAATAATTTGTAATGGTAAGTAAATAACAATTAAAGTTAAATATATTCAATTTCCTTGTTTAATTTGCTCAAATGGCACTTCAACTAAAGTAATTTTTCCAACAGTCGCAACTTTTAAAGCATGTGTTGCTCTAACAACAGAGAACATAGCAAACAAGAAAGGCATTGATAAGAATGAGGTTGCAAGTGAACTCATTGGGCTTATACCTTCCTTTTTATATAATCCCATTAACTCTAATTGTTGTTTTTGTTTTGCACTTGGATCTGATGAATTTTTATACTTTTCTTGAATTTCTGCTTGTTTTGATTGCAAGCCCTGCATTTTTTCTTGATTAATTTGTGTTTTTCAAGTAAATGCAAGCGTTATTCCTCTGATTATTAATGAAGTAAAGAATATTGCAAATATTGCTGAAACCCCATATGATGCAGAGCTAGGATCTAATCCCTTATTGTTATGAGTTGAAAATAAACTTATAAATGAAACTAAAACTCACGCAATTGGATAAACAAAGAATCCATAGAATGGCGAGGAAGTTACTGTAAAGGCTTGACCTCAAGAAGATATTGGATTAAAGGCATATTCCACCATATTTCCATTACTATCAACGCTAAACCAGTGATTTTTTGAACTTCAGTCACCTAATGATTTAATAATGATTTCGAAAGATACACCAGGAGAAAAGACTTTATTTCCAGACATATCTTTTACTGTACTAACTGTATACTTTGGTTGATACATCTGTACACAACCCCAAAGCATTGAAACAATAATAAATACAAATAATATCAATTTTGTTCAAACTCAGATAATCTTTAATTTATCTTTAGTAGTTTTCTTCTTATTATTATTGTTATTATTTAGATATTTAGAATAGTCCTGTTTATACAAGATATTCACCTCTCTTTTATTTTATTTGTAATAAAGACTTCCTTAGATCCTCTAAATTGAAACTATAATCTTTATTTAAAAATAAATTTCTAGCTATTAAAATAATGTCAAAACTTTTATCTTTCTGATCATCTAACAATTCATAAATCATTGACCTTAACTGTCTTTTAATTTTATTTCTAAATACTGCATTACCCATTTTTTTACCAACAGATATTCCGTATCTAAATCTTTTTAAAGTATTTTTTTTAAAATAAATTACAAATCCCTTTGATTTAATAAATCTTTTAGAACCTATAATACTTTGGAATTCATGATTCTTTTTAATTATATTTTTGTTTTTCATATTTATTATTATGCAGTAAGTTTAGCTCTACCTTTAGCTCTTCTTGCTTTAATAACTTTTCTACCATTTTTAGTTGCCATTCTTGCTCTAAAACCATGAGTTCTAGCATGCTTGATTTTACTTGGCTGTCAAGTTCTTTTCATAAAATACCTCCTTTTTTTTAAACAAAACTTCACTAAATATTATAACTTAAAAGATAGAAATTTTGATACTAATTATTGTATTTTGTGTAACTTCTAATAAGATATTAATAGAATTTGTATGTGGATAACTACGATATAACCCTTTATTTAAAGGATTTTCTAAAAATTTTTATCCCCAATTTATGTATTTTTTAATGTATTTTTAAAGTTATGCACATTAAAAGTATGTGGATAACTTATAATTTAAATGTTGTATTCGAGGTAAATAAAA