##gff-version 3
sequence1	MetaGeneAnnotator	CDS	208	405	.	+	0	ID=MGA_1;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKDTTIVFLSKEEYKKEKKINEIITNKKKNNNGKEFIFDSFISGKSNSEAYNASKAVINNLGNK;locus_tag=LOCUS_00010;note=MGA_1
sequence1	MetaGeneAnnotator	CDS	451	1332	.	+	0	ID=MGA_2;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKAISNELSNINSDLIVKYYASNDFRREILDSLLGGFKEIEQTKSEMTEIDVLLIDDIQFLANSGKTNEIFFNIFNTFIEEGKQIVISSDKFPELLNGFDKRLVSRFNQGLSVKIETPDLDTALKIIEYKMQVANLKLGEDSKKYIASHFGSDVRKIEGIINKIEFKLIQEKETINEIIELDTIQKLLEDYSYAPGGEITVQKIKNVVAQNYGVNVKSIDAKNKVSSVVLARHVSMYLTNELMKKNYSEVGILFGGKDHTTVINACNKIKKIVAEDKIFKATINKIKKEITS;locus_tag=LOCUS_00020;note=WP_039275826.1 chromosomal replication initiator protein DnaA (Mycoplasma mycoides) [pid:41.3%25%2C q_cov:99.3%25%2C s_cov:64.7%25%2C Eval:2.0e-59%2C partial hit],internal stop codon at [403:405](+),MGA_2
sequence1	MetaGeneAnnotator	CDS	1465	1923	.	+	0	ID=MGA_3;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFSINRLVFIEEINKCNRIIDAKTPTPSLSGILLEVEADKVSLISSNTSMSIKTIIDIGTSDLLIKETGSILIRGKYFIEILRRMDDETINISSVEDNLVFLSGEKSEFSLNILNYTDYPLIAFREKGNTVVVNNMDLKKSLNQTIISVNE;locus_tag=LOCUS_00030;note=WP_011166213.1 DNA polymerase III subunit beta (Mycoplasma mycoides) [pid:43.4%25%2C q_cov:100.0%25%2C s_cov:40.5%25%2C Eval:7.5e-33%2C partial hit],internal stop codon at [1921:1923](+),MGA_3
sequence1	MetaGeneAnnotator	CDS	1972	2589	.	+	0	ID=MGA_4;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFYITGTDGFRVSRKRTNILDKIPEKFETNIPHKSILEIIKLLPEKGECKIVSTESHVTFIINNTIFQTIILEGQFPNVNAVFPTDFNTTLYMENKKFFKLISRADIPSEDNASTVVNLILNNDSIFIKSNIHQIGSFEEVFKDFELKGLDEQNICFNSKYLIDSLKTFETKNIEINLIDSKKPIVISSSEDINLSQIILPMFSN;locus_tag=LOCUS_00040;note=WP_011182899.1 DNA polymerase III subunit beta (Mesoplasma florum) [pid:29.3%25%2C q_cov:96.6%25%2C s_cov:53.1%25%2C Eval:2.0e-29%2C partial hit],internal stop codon at [1921:1923](+),MGA_4
sequence1	MetaGeneAnnotator	CDS	2657	2779	.	+	0	ID=MGA_5;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENNKYGAGQIQVLEGLEAVRKRPGMYIGNTNKAGLHHMI;locus_tag=LOCUS_00050;note=WP_001831817.1 DNA topoisomerase (ATP-hydrolyzing) subunit B (Staphylococcus) [pid:78.4%25%2C q_cov:92.5%25%2C s_cov:5.8%25%2C Eval:2.1e-11%2C partial hit],internal stop codon at [2777:2779](+),MGA_5
sequence1	MetaGeneAnnotator	CDS	3038	3589	.	+	0	ID=MGA_6;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYVEAMILRDGKIYYQKFSEGGTKATEIEVIGISDSNGSIIKFKPDPEIFKETTEFDFKVVQGKIRQLAFLNKKLKLNLYDQRTDKYISYIFEDGIKDYIKEINSGKEKVHDEIFYVSSSSNDIEVEVSIQYNETYDENVFSFCNNIFTSEGGSHEEGFKSSLIKSINSYVNDSKSFKGNKFT;locus_tag=LOCUS_00060;note=WP_011182903.1 DNA topoisomerase (ATP-hydrolyzing) subunit B (Mesoplasma florum) [pid:49.7%25%2C q_cov:98.9%25%2C s_cov:28.2%25%2C Eval:2.6e-48%2C partial hit],internal stop codon at [2777:2779](+)%2C[3587:3589](+),MGA_6
sequence1	MetaGeneAnnotator	CDS	3917	4399	.	+	0	ID=MGA_7;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVEGDSAGGSAKTGRNRKTQAILSLRGKVLNVEKVKQSKVFDNNEIQSIIAAVGIGVKKDINLKKLRYGKIIIMTDADVDGAHIRVLLLTFFYRYMKELILNGNVYIAQPPLYKIDAGKNNMDYAYNDMELEQLKVEKYKDLKYTIQRYKGLGEMDPIQL;locus_tag=LOCUS_00070;note=WP_011182903.1 DNA topoisomerase (ATP-hydrolyzing) subunit B (Mesoplasma florum) [pid:73.8%25%2C q_cov:100.0%25%2C s_cov:25.0%25%2C Eval:2.5e-64%2C partial hit],internal stop codon at [4397:4399](+),MGA_7
sequence1	MetaGeneAnnotator	CDS	4409	4561	.	+	0	ID=MGA_8;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDPNRRTMIQIKVEDAFLANEVFSSLMGENVDLRKQFITENAQFVENIDI;locus_tag=LOCUS_00080;note=WP_011182903.1 DNA topoisomerase (ATP-hydrolyzing) subunit B (Mesoplasma florum) [pid:69.4%25%2C q_cov:98.0%25%2C s_cov:7.7%25%2C Eval:1.0e-13%2C partial hit],internal stop codon at [4397:4399](+),MGA_8
sequence1	MetaGeneAnnotator	CDS	4588	7005	.	+	0	ID=MGA_9;product=DNA gyrase subunit A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166218.1;translation=MSDIKHGRILEMDIKNEVEKDFLEYSMSVIVSRALPDLKDGLKPVHRRIIYAMNDLKITSDTPHKKSARIVGEVIGKYHPHGDTSVYEAMVRMSQDFSYRYPLVEGHGNFGSIDGDGAAAMRYTEARLAKIASVLLKDIDMDTVPFVDNYDASEKEPKYLTGYFPNLLVNGATGIAVGMATNIPPHNLREVIQAIVAYIKDDQITIDDILKYIKGPDFPTGALMTNGKSMIDGYKTGRGNLIIRSKIDIEETNKGQRIVISEIPYQTNKLKIVEKIAELYKNKLISGISDIRDESNYEGIRIVVELQKNSNPQLIIKKLYKYTNLQSSFAINMLSLNNGIPVVLNIKDIIKFYVKYQIEIIVKRSIFEKNKLNARLHILNAIRITLDNIDKIIKIIKESKTTEIAHQRLFEEFGFDEKQSKAILDMRLQRLVGLEREKIELDIKNIEIRISELEEILASKEKQNNLLIEQLEDIAQKFGDERRTKIIEEDETQIDEEELIQDSQMLITLSEQGYIRRLSNEEFKTQKRGGKGIIINNNQDDNLVIAKIGKTKDDVLFFTDEGKIYRIKGYNITQFSRNARGVPVINFIGINSSEKVTSILSLKDKKNVYKYLLFVTQNGVAKKVEINEFSRINNFGKIAINLDEGDKLVSVIPTVGETEILIASQNGKIVKINENVFRPMSRSSRGVKGMGLDKNDIVVSACSNYKNECIATISEKGIVKKTLISDYNIFGRGTKGVVGMKLSNKTGKFKSILPIRETDEILMVSSKGKIIKIGAQDINLQSRNSTGVIGFSLEHDEKITAATLE;locus_tag=LOCUS_00090;gene=gyrA;EC_number=5.6.2.2;note=WP_011166218.1 DNA gyrase subunit A (Mycoplasma mycoides) [pid:60.5%25%2C q_cov:99.8%25%2C s_cov:96.5%25%2C Eval:1.5e-282],MGA_9
sequence1	MetaGeneAnnotator	CDS	7022	7411	.	+	0	ID=MGA_10;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLDINKIENDFEKICLDLSKRNKNFKKEMDEILKLNQLRKKITFEVEELKSQKNKISKDIGVFIKDNNQKEVEKLKNTISEISIKIEKLDANLKEVKDDLNLKLSYIPNIPNENIPLGKDDEENVEIKK;locus_tag=LOCUS_00100;note=WP_011182914.1 serine--tRNA ligase (Mesoplasma florum) [pid:45.0%25%2C q_cov:100.0%25%2C s_cov:30.6%25%2C Eval:1.0e-26%2C partial hit],internal stop codon at [7409:7411](+)%2C[7607:7609](+),MGA_10
sequence1	MetaGeneAnnotator	CDS	7637	8038	.	+	0	ID=MGA_11;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYGTGQLPKFEEDAYKIEEQYLIPTSEVPLTNTVRDKILDKKDLPLYLTSFTQCFRKEAGSAGRDTKGMIRLHQFNKVEMVKITDSNSSYEELEKMLLDAENCLQLFNLPYRVVELCGGDIGFSSAKTYDLEV;locus_tag=LOCUS_00110;note=WP_011166277.1 serine--tRNA ligase (Mycoplasma mycoides) [pid:73.7%25%2C q_cov:100.0%25%2C s_cov:31.5%25%2C Eval:2.3e-50%2C partial hit],internal stop codon at [7409:7411](+)%2C[7607:7609](+)%2C[8036:8038](+),MGA_11
sequence1	MetaGeneAnnotator	CDS	8111	8287	.	+	0	ID=MGA_12;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MARYKTDEGKNEYVHTLNGSGLAVDRLFAAIIENYYDGEKLIIPDILRPYFNNLEFIK;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:1.2e-16%2C partial hit],internal stop codon at [8036:8038](+),MGA_12
sequence1	MetaGeneAnnotator	CDS	8510	8935	.	+	0	ID=MGA_13;product=deaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183575.1;translation=MELIFNTLLKELKKCSKSQDVPVSALLIDKNNKIVTKCFNSRQKKYNFTNHAEIRVLNKMFKKTKNKNLSDYTLVTTLKPCLMCITVIEQSNITKVLYYLENIKCNYSRLETDLNFKKIGSDDEARTFEKELKDFFSNLRK;locus_tag=LOCUS_00130;note=WP_011183575.1 deaminase (Mesoplasma florum) [pid:41.7%25%2C q_cov:95.7%25%2C s_cov:97.2%25%2C Eval:1.3e-24],MGA_13
sequence1	MetaGeneAnnotator	CDS	8969	10681	.	+	0	ID=MGA_14;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENKKSLYREYRPKNFDQVAGHEGIKEILISQINSNSFGHALLFSGQRGTGKTSVAKIFSKIVNCQNLNGYNPCDECLSCNEFNNNSHADIFEIDAASNNGVEEIRNIKANVSLMPNFSKYKVYIIDEVHMLSNSAFNALLKTLEEPPKHVIFVLATTEFSKIPSTIISRCQLFNFKKIDQKSLENKIEEICNKEGKKITKEALDEIYYMSDGSLRDALNYLEQSLIISGDEVSTEIIKKIFYIATKNEKISIIKNVIDGNSKEIIDYFETSNNQGIDFQTMTLSLLDILKEIIEVKLTDDYQFLLNLTQKDFEYFKDKDIKILFELSDNIADSYTKSKNSNISFQYILINILKTISKNKLISVEKQIGELSINQLKNQVNYAEKLQNNENINTTEKINHIEEANHIEEANHIEEANHIEEANHIEEANHIEEANHIEEANHIEEANHIEEANHIEEANHIEEANHIEEFFSSEDESKFLKLQMKLLISESILYKKNINFSNDQIINVLVGANKQIRSYYDEKLSLILSKESINQNSDLIKNFIMFFGSKITAASNDSIILVCEERTISK;locus_tag=LOCUS_00140;note=WP_020862454.1 DNA polymerase III subunit gamma/tau (Mycoplasma mycoides) [pid:54.7%25%2C q_cov:65.4%25%2C s_cov:56.1%25%2C Eval:3.1e-114%2C partial hit],MGA_14
sequence1	MetaGeneAnnotator	CDS	10799	10957	.	+	0	ID=MGA_15;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MERKQNNKLEPYKEINVNDFYNNLILEIDEKENEYLKRAKELLGSKNIKVVN;locus_tag=LOCUS_00150;note=MGA_15
sequence1	MetaGeneAnnotator	CDS	10957	11529	.	+	0	ID=MGA_16;product=recombination mediator RecR;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_020862453.1;translation=MEKIIEELKKINGISKKAAEKIVFDLIIDKEKINSLEELLEQIKNTYTECEKCFFFKENNKCGFCDNKNRNANIICVVSTKMDAIKILDSSYNGLIHILNGEINLNKNIGPEKLKLSELFVRINKEIELLLALNLTFEGEVTSNYIATKAKSITEKISRIARGIPLGGVIDYIDQETLNDAILNRKKLES;locus_tag=LOCUS_00160;gene=recR;note=WP_020862453.1 recombination mediator RecR (Mycoplasma mycoides) [pid:47.1%25%2C q_cov:97.9%25%2C s_cov:95.4%25%2C Eval:2.2e-45],MGA_16
sequence1	MetaGeneAnnotator	CDS	11542	11724	.	+	0	ID=MGA_17;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFISLEGIDGSGKTTIAKMIKDNLIQKGYDVLLTREPGGEPLAEEIRRIILDEKNKINP;locus_tag=LOCUS_00170;note=WP_011166257.1 dTMP kinase (Mycoplasma mycoides) [pid:58.9%25%2C q_cov:93.3%25%2C s_cov:26.3%25%2C Eval:6.6e-13%2C partial hit],internal stop codon at [11722:11724](+),MGA_17
sequence1	MetaGeneAnnotator	CDS	11779	12171	.	+	0	ID=MGA_18;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPALKEGTIVICDRFMDSTSAYQGYARNIGMADVTELQNIVLGSTKPDLTIFFDITPKESQIRLMNRKRSADRIEQENQKFHEAVYEAYQILISENSDRIKVVDSRKPISEVLQQVDFLIENAINERIKK;locus_tag=LOCUS_00180;note=WP_011166257.1 dTMP kinase (Mycoplasma mycoides) [pid:43.8%25%2C q_cov:99.2%25%2C s_cov:61.0%25%2C Eval:6.3e-24%2C partial hit],internal stop codon at [11722:11724](+),MGA_18
sequence1	MetaGeneAnnotator	CDS	12171	12344	.	+	0	ID=MGA_19;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKEVFKIVNEMIKNNNFYHSIIISSENQKDLENVSLEIVRQIYCSNKSIENDKCN;locus_tag=LOCUS_00190;note=MGA_19
sequence1	MetaGeneAnnotator	CDS	12603	12917	.	+	0	ID=MGA_20;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPTIRSRCKLFSLENEIFEESEESKILNLISKKDRNGLFEYLIEFKKMNKIDILKTLNSTFEKSVKLDLKYLQEIILDTINEIKISNYINLILENLFIKIYEVI;locus_tag=LOCUS_00200;note=WP_011183571.1 DNA polymerase III subunit delta' (Mesoplasma florum) [pid:31.7%25%2C q_cov:100.0%25%2C s_cov:41.7%25%2C Eval:6.3e-08%2C partial hit],internal stop codon at [12342:12344](+),MGA_20
sequence1	MetaGeneAnnotator	CDS	13082	13639	.	+	0	ID=MGA_21;product=tRNA1(Val) (adenine(37)-N6)-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183570.1;translation=MLLSKYTKAKIVGVEIQNEACEIAIKNIELNKLSDQIQIINDDIKNFAKNKNNEFDLLFCNPPFFKVAKNSNLNKRSELLTPARHEVFIKLEEIIESAKIALKNGGRLLMIHLSERLDEIIYILKKNNFAIKRMQFVYSKKNQDAKRVLIEAINDGNDGMKILTPLYIHNSDGSYKKDILEKFGD;locus_tag=LOCUS_00210;note=WP_011183570.1 tRNA1(Val) (adenine(37)-N6)-methyltransferase (Mesoplasma florum) [pid:54.1%25%2C q_cov:100.0%25%2C s_cov:77.1%25%2C Eval:3.3e-51],internal stop codon at [13019:13021](+),MGA_21
sequence1	MetaGeneAnnotator	CDS	13632	13889	.	+	0	ID=MGA_22;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKLLEQNKKYILGLSGGPDSVFLFYYLLDRGIKNFIACHVNYNFRTDSNKDLALVKKMCEKNNIKLIFKNINQNYSELNQNFES;locus_tag=LOCUS_00220;note=WP_011166253.1 tRNA lysidine(34) synthetase TilS (Mycoplasma mycoides) [pid:48.8%25%2C q_cov:95.3%25%2C s_cov:20.4%25%2C Eval:9.8e-17%2C partial hit],internal stop codon at [13887:13889](+),MGA_22
sequence1	MetaGeneAnnotator	CDS	13968	14336	.	+	0	ID=MGA_23;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDHIETYLMQTQNNKKVSFYGIRAESIYENKKIIRPIISYKKSFILKYLKSQNISYIIDSTNSDIKYERNKIRKNLSEKSFDNFIKEIDLKNEKIKEYNIKIDLLLNSKELDLLNLNNNEE;locus_tag=LOCUS_00230;note=WP_011166253.1 tRNA lysidine(34) synthetase TilS (Mycoplasma mycoides) [pid:44.2%25%2C q_cov:85.2%25%2C s_cov:25.9%25%2C Eval:1.1e-20%2C partial hit],internal stop codon at [13887:13889](+)%2C[14334:14336](+),MGA_23
sequence1	MetaGeneAnnotator	CDS	14484	14630	.	+	0	ID=MGA_24;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDYNKFKIINKKEINIFELSDFEDENFKKFLIDNNINENSNIIITNN;locus_tag=LOCUS_00240;note=MGA_24
sequence1	MetaGeneAnnotator	CDS	14943	15092	.	+	0	ID=MGA_25;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINNNRIEASKTSEKIYNSLHVISGVYTNSQGNSRKFIITLNSTQYNDL;locus_tag=LOCUS_00250;note=MGA_25
sequence1	MetaGeneAnnotator	CDS	15231	15893	.	+	0	ID=MGA_26;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKGGMGGGMFGPGKSTRPREIKSDVKFTDVAGINEEKTELVELVDYLKNPNKYAQMGARVPKGVLMEGPPGTGKTLLAKAVAGEAGVAFFSMAGSEFEEMFVGLGASRVRDLFSDAKKAAPCIIFIDEIDAVGRKRSGGMGSSTNEQTLNQLLVEMDGFGSNSGVIVMAATNRVDVLDSALLRPGRFDRTIQISLPDIREREDILKLHARNKSVSPEIN;locus_tag=LOCUS_00260;note=WP_011166250.1 ATP-dependent zinc metalloprotease FtsH (Mycoplasma mycoides) [pid:78.3%25%2C q_cov:96.4%25%2C s_cov:32.6%25%2C Eval:8.7e-90%2C partial hit],internal stop codon at [15090:15092](+)%2C[15216:15218](+)%2C[15891:15893](+),MGA_26
sequence1	MetaGeneAnnotator	CDS	15990	16736	.	+	0	ID=MGA_27;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITINDIDEAIDRVVGGPAKKSRAMTLQDKQIVSYHEAGHALMGLKLDSASKVQKVTIIPRGNAGGYTIMTPKDESNFSSKEDLFASIAGYLGGRAAEEIMFGKNKVTTGAHDDLDKATNIARRMVTQFGMSSLGLTKYLTMQEESYGQTKGVYSDEVAYKIDTEINIILEQCYETAIEVINKHKDVLELIAESLRVLETLTAEQIDYIDKHNQLPKEVIEEKNRKAIETKKKESGEILEFEPDEEVK;locus_tag=LOCUS_00270;note=WP_011183568.1 ATP-dependent zinc metalloprotease FtsH (Mesoplasma florum) [pid:73.5%25%2C q_cov:98.8%25%2C s_cov:37.7%25%2C Eval:2.6e-99%2C partial hit],internal stop codon at [15891:15893](+),MGA_27
sequence1	MetaGeneAnnotator	CDS	16813	17664	.	+	0	ID=MGA_28;product=Hsp33 family molecular chaperone HslO;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182915.1;translation=MDMQIRALSEKNNVKISIVDITEGFNEIVKLQQTNPLASVALGRTIINNSLLSLSLKDGEKMTSNINGMGLGGTIIAEFQDKNFRGYIQIPNFEVEKIEKDNGSPLSQVIGTQGFLQVSRDNGEKQPYVSRVELVSGEVNLDFMYYLQKSDQIHSLISSTVKVADDGTIEKACGIIIQMLPGFVDENIDFIEEKVGSLDHLVKTLVGTTNYEALIKDICDDAQILNVGELKFQCTCNIEKVMDSIKMLGEEEIKKIIEEGEMVEVVCDFCKKQYNVKSEEISK;locus_tag=LOCUS_00280;note=WP_011182915.1 Hsp33 family molecular chaperone HslO (Mesoplasma florum) [pid:39.9%25%2C q_cov:99.3%25%2C s_cov:98.6%25%2C Eval:9.6e-56],MGA_28
sequence1	MetaGeneAnnotator	CDS	17717	18004	.	+	0	ID=MGA_29;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEDKNLKQPSSKKEKVAKKAKDTASLEKPRLREFEHIQLPVVTEEGVKGLKQKNKIQKQNTAKYSKQILEGKIVSTTGNKPEIEKNVIELYNVKR;locus_tag=LOCUS_00290;note=WP_011166241.1 ABC transporter ATP-binding protein (Mycoplasma mycoides) [pid:43.3%25%2C q_cov:93.7%25%2C s_cov:28.2%25%2C Eval:2.1e-11%2C partial hit],internal stop codon at [18002:18004](+),MGA_29
sequence1	MetaGeneAnnotator	CDS	18020	18676	.	+	0	ID=MGA_30;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTPVLRGVDLKLEKGKFIVILGPSGSGKTTLLNTISGLDKTSEGDVFVLGNNLSLLKDSHLTKFRRENVGFIFQQYNLLSNLTAKENAEVGENLSKSKDNKMSIEEIFKTIGMEEQMNKYPHQMSGGQQQRVSIARALAKNPEILFGDEPTGALDEEMGRKVLEILVDVKEKYNTTVIIVTHNPNISEIGDTVIHVRNGLIDEIKHNAKPKRPSDID;locus_tag=LOCUS_00300;note=WP_011182916.1 ABC transporter ATP-binding protein (Mesoplasma florum) [pid:76.9%25%2C q_cov:99.1%25%2C s_cov:35.8%25%2C Eval:4.4e-94%2C partial hit],internal stop codon at [18002:18004](+),MGA_30
sequence1	MetaGeneAnnotator	CDS	19095	19532	.	+	0	ID=MGA_31;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKNIDIKGQVFLGPMAGTTNAAFRIICKEKGASLVYAEMVSTEGLVHNNQKTKTMIEVSELEHPITLQIFGFDVNSFVEGAKIVEEFSECDVIDINMGCPAPKVALRSQAGANLLKYPERVGEVIKAVVKNTSKPVTVKMRIG;locus_tag=LOCUS_00310;note=WP_011182926.1 tRNA dihydrouridine synthase DusB (Mesoplasma florum) [pid:58.6%25%2C q_cov:100.0%25%2C s_cov:44.6%25%2C Eval:1.8e-46%2C partial hit],internal stop codon at [19530:19532](+)%2C[19647:19649](+)%2C[19653:19655](+)%2C[19794:19796](+),MGA_31
sequence1	MetaGeneAnnotator	CDS	20086	21054	.	+	0	ID=MGA_32;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSTNFERNFSEQENIRRNKLKKLIENNRDPFIENQFNRTHSLIELNEKFSTFSKEELQKQDNKVLIAGRIRLFREAGKKALFLNIQDQNSSIQVYARQDELGETEFEYFRDLDLGDIIGIEGIMMKTDHGELTVRVKNAKLLTKALKPLPDKHSGMTDIEEKYRRRYVDLIVNPESKQVFIDRTKIIRTMQNILDSKGYMEVETPILQSVRGGASAKPFVTHYNALGNDFFLRIATELHLKRCIVGGFDGVYEIGRIFRNEGISTRHNPEFTSVELYVAYKNMDFLMQLCEELFRQCSIAVRNTTKINYAGHDLDLAKPFKR;locus_tag=LOCUS_00320;note=WP_011182927.1 lysine--tRNA ligase (Mesoplasma florum) [pid:67.9%25%2C q_cov:98.4%25%2C s_cov:63.7%25%2C Eval:2.7e-121%2C partial hit],internal stop codon at [21052:21054](+)%2C[21097:21099](+)%2C[21244:21246](+),MGA_32
sequence1	MetaGeneAnnotator	CDS	21106	21246	.	+	0	ID=MGA_33;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSYEEACKIAKEHKIKVEKHHFSVGHIINLFFEEFVEEKIIEPTFI;locus_tag=LOCUS_00330;note=WP_011182927.1 lysine--tRNA ligase (Mesoplasma florum) [pid:63.0%25%2C q_cov:100.0%25%2C s_cov:9.2%25%2C Eval:3.5e-11%2C partial hit],internal stop codon at [21052:21054](+)%2C[21097:21099](+)%2C[21244:21246](+),MGA_33
sequence1	MetaGeneAnnotator	CDS	21442	21594	.	+	0	ID=MGA_34;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDIDFIEALEYGMPPTAGIGIGIDRMVMLLTNSESIKDVLLFPQMKPRAN;locus_tag=LOCUS_00340;note=WP_011166280.1 lysine--tRNA ligase (Mycoplasma mycoides) [pid:93.8%25%2C q_cov:96.0%25%2C s_cov:9.6%25%2C Eval:2.8e-19%2C partial hit],internal stop codon at [21244:21246](+),MGA_34
sequence1	MetaGeneAnnotator	CDS	21594	21848	.	+	0	ID=MGA_35;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYGIGLGYVSKLNFQETIEGIEYIKENIFSSLKKKFNLINISSGLITNKYIWLNDDFQQTKRSIDFDILSQNEYGEIIQANNK;locus_tag=LOCUS_00350;note=MGA_35
sequence1	MetaGeneAnnotator	CDS	21939	22550	.	+	0	ID=MGA_36;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDNVNSLIFEEIGLEILCNEVNMEELNKSLIDIYKIICTIDSKISAQFESLNEFHFSKTLTFITYKKLKELYPFLTFSERLNKFGKDNGSFVIQDYAEKIFNQKNVVQFSEDVFNLKTYSKLYVYNGECEKAISIAYAGFQVDRKTLKNQNLILKENSKINNEYNHLIKSNELPLTLSMGIFTNRVVMTILEKQHIGEVHSSI;locus_tag=LOCUS_00360;note=WP_002212256.1 aspartate--ammonia ligase (Yersinia pseudotuberculosis complex) [pid:25.4%25%2C q_cov:90.6%25%2C s_cov:57.9%25%2C Eval:2.9e-09%2C partial hit],MGA_36
sequence1	MetaGeneAnnotator	CDS	22648	23247	.	+	0	ID=MGA_37;product=2-C-methyl-D-erythritol 4-phosphate cytidylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011860629.1;translation=MVSLIIVANGASQRFGENKMLIKIENDFLINKTIKCFEQIKEIKEIILVSNEEIFNRVKNKKTLFVNGGLTRTESVKKGLEKVSQDFVLIHDGARPYVSKKIIDSIISNLKENDCVVPVLKVTNCLKKITNNKVETVNRDNYVQSQTPQGFKTAIIKKALKNNFSDFYDDCQIIENMEYKIKFIEGDEKNKKITFINDL;locus_tag=LOCUS_00370;gene=ispD;EC_number=2.7.7.60;note=WP_011860629.1 2-C-methyl-D-erythritol 4-phosphate cytidylyltransferase (Clostridioides difficile) [pid:34.7%25%2C q_cov:100.0%25%2C s_cov:90.7%25%2C Eval:1.4e-21],MGA_37
sequence1	MetaGeneAnnotator	CDS	23372	23497	.	+	0	ID=MGA_38;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIRKYEVMYIIDQDTTDVKAVQKKLHDVLIANGGKILESED;locus_tag=LOCUS_00380;note=MGA_38
sequence1	MetaGeneAnnotator	CDS	23552	23839	.	+	0	ID=MGA_39;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVIVETDSANINEFERISRIDKNVVRYQVINTENEKKYIQSTKLSKTDMSKFKEEKKPSRGFDKRMPRREDNNSEETKSTTFKKPAAKKVEEKEA;locus_tag=LOCUS_00390;note=WP_011182977.1 30S ribosomal protein S6 (Mesoplasma florum) [pid:53.2%25%2C q_cov:83.2%25%2C s_cov:27.2%25%2C Eval:3.7e-16%2C partial hit],internal stop codon at [23495:23497](+),MGA_39
sequence1	MetaGeneAnnotator	CDS	23861	24010	.	+	0	ID=MGA_40;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSVNLIGRITKDPELRSSSNSKSFVAFTLAVNEFSGGNQFTQFIPCFA;locus_tag=LOCUS_00400;note=WP_011182978.1 single-stranded DNA-binding protein (Mesoplasma florum) [pid:64.0%25%2C q_cov:100.0%25%2C s_cov:33.1%25%2C Eval:1.8e-10%2C partial hit],internal stop codon at [24008:24010](+),MGA_40
sequence1	MetaGeneAnnotator	CDS	24152	24298	.	+	0	ID=MGA_41;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGGTGNNQTMTNNSFDSTQPKQSTQGPSNNFDFDLIDDAKPNDDDSIL;locus_tag=LOCUS_00410;note=MGA_41
sequence1	MetaGeneAnnotator	CDS	24326	24547	.	+	0	ID=MGA_42;product=30S ribosomal protein S18;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182979.1;translation=MKKFVRRKKVNFFAKNKIDYIDYKDVDLLKKFISANGQILPKRITGTSPKHQRMLAVAIKRARSMGLLPFVIQ;locus_tag=LOCUS_00420;gene=rpsR;note=WP_011182979.1 30S ribosomal protein S18 (Entomoplasmataceae) [pid:83.6%25%2C q_cov:98.6%25%2C s_cov:96.1%25%2C Eval:1.6e-27],MGA_42
sequence1	MetaGeneAnnotator	CDS	24610	25056	.	+	0	ID=MGA_43;product=50S ribosomal protein L9;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182980.1;translation=MKVILLADVKNYGKKDEVVNVSDGYGANYLIPKGLAILATKDDLSHLNVRKRKEEELTNERKEEINSLKEKIESITLNFKIKTMNNKPFGSVSLSQITDRLKKEFSVDIDKRKFEKHENINKLGLFYLKIKLEFKIIATLKVFVEGTE;locus_tag=LOCUS_00430;gene=rplI;note=WP_011182980.1 50S ribosomal protein L9 (Mesoplasma florum) [pid:43.8%25%2C q_cov:98.6%25%2C s_cov:99.3%25%2C Eval:4.3e-27],MGA_43
sequence1	MetaGeneAnnotator	CDS	25056	25646	.	+	0	ID=MGA_44;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDNLDLNTVLIDSEKAILAIAMHSPKASFDILTQLNSEDFSLEKHQIIFEAINEVSQNSQNITITKLAEFLEDKKTLEKIGGVSYLSDVSGYFYTDEGFEDYVEIVFKNSIGRQLDRALIHIKQLRDSKSPIDEVFVIAQQKILNIKTDIKKDDATAVKETIVDVIKKIEALEKNGGLVNGVPSGFSDLDQITNG;locus_tag=LOCUS_00440;note=WP_011182981.1 replicative DNA helicase (Mesoplasma) [pid:39.0%25%2C q_cov:92.9%25%2C s_cov:40.8%25%2C Eval:2.5e-31%2C partial hit],internal stop codon at [25644:25646](+)%2C[25863:25865](+),MGA_44
sequence1	MetaGeneAnnotator	CDS	25686	25865	.	+	0	ID=MGA_45;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKTAFALNLAVNAAERQKGVAFFSLEMPKEQLVQRILSSVSGIDSSSLRNAQGLTTEK;locus_tag=LOCUS_00450;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:6.2e-11%2C partial hit],internal stop codon at [25644:25646](+)%2C[25863:25865](+),MGA_45
sequence1	MetaGeneAnnotator	CDS	25902	26402	.	+	0	ID=MGA_46;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIVIDDTPGINVLQLQSKLRKMKRDFGVEICFIDYLQLISSMTNRFDSRQNEVAAISRHLKKIARELNMPIVCLSQLSRSVEKREEKTPLMSDLRDSGAIEQDADIIIFLYRDAYYKTKEYSVASDDPTDETDIIISKHRNGATGLVKVNFLRSYGKFIDQSKNS;locus_tag=LOCUS_00460;note=WP_011182981.1 replicative DNA helicase (Mesoplasma) [pid:65.0%25%2C q_cov:96.4%25%2C s_cov:36.2%25%2C Eval:1.1e-52%2C partial hit],internal stop codon at [25644:25646](+)%2C[25863:25865](+),MGA_46
sequence1	MetaGeneAnnotator	CDS	26461	26919	.	+	0	ID=MGA_47;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLFSVLGAFAIVTTSISVVTSCSIATTNIEVLVDGNNNFKIGDDKVGIEKVLGNKTVLSVLGYQILDAISFTESKYQNQEKLEKQKSVLGAKGQALSLDNLKKENPNSLGIEFKGDIAKFSNAYDSPTDSRFTQLDFKLGINHEIAKNQI;locus_tag=LOCUS_00470;note=MGA_47
sequence1	MetaGeneAnnotator	CDS	27124	27663	.	+	0	ID=MGA_48;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENDHANSLYDEISRSNNQSDKDTFIKYLSKEEFRILHTQLRTKKEALKNGIVMPGKFDNNFNNQDDTKLEDVIKGGSHDISTGSTFFRAEDKKTLQSQVVGGSNNKQRTFVYGKSDSNAPLEIDFTFVIPASKADGTSEEKYNINLKLNNIVVSYQLTGVVLDKGKEEDKKRTDKAIY;locus_tag=LOCUS_00480;note=MGA_48
sequence1	MetaGeneAnnotator	CDS	27841	28110	.	+	0	ID=MGA_49;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYYIKFENNFYNVIDVNTGQMIASFISDIEANEFVQSLFDMSNDSYGLGKTNPFNPYNNINYQSLTPKMGPPLGPLQNQFDFGQQPQP;locus_tag=LOCUS_00490;note=MGA_49
sequence1	MetaGeneAnnotator	CDS	28321	29700	.	+	0	ID=MGA_50;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYQNQNSYPLENQYDMNLNNPNLTNNLNLQKNKINENVSLDNNRNFLNSGQTNFNPPESHSGGDFTRNSFDNTNNLSSNSGQGQNQRLNENLSNSKNLYQESFNGQNLSVNGNQKQKMYEQNNSNQINSVEPDLHLTNSSNENLSNNLAHNQMLNENQKMYEQNNSNQINSVESDLHLNNSSNESLSNNLDSNLAHNQMLNENQKGYEQNNSNQNNFVQPNSQLHKDLNKDSYNENHSLNSDNKINSSEFQNKDQIINNQNNRLFEESRNSEIEIVEKNIFEEVENDFKFDFNDNTLSVDSSLFEEDKMGAIIYVSKNFINNTDDDSLGEVAAYQDIKHIPRNERQTEEVKEQKIHYSEPLVSDLEYDDFEDSIEEIENKEKTISEIYENDLVSDTYLSPKRDVDVIDLGPINEYDEVYSTPRKDTENDDLENIILSKKEKNILKKARKLEKRSRKKEK;locus_tag=LOCUS_00500;note=MGA_50
sequence1	MetaGeneAnnotator	CDS	29711	30049	.	+	0	ID=MGA_51;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNMIEQLPKEWIELFLQDNIYNEIEVVLKKIENFENIYPLKEDIFKVFKLIKPKDIKVIIIGQDPYHGPNQANGIAFSVSNNVKTPPSLKNIFKELKSDLNIDHFKNNDLSN;locus_tag=LOCUS_00510;note=WP_011183140.1 uracil-DNA glycosylase (Mesoplasma florum) [pid:55.2%25%2C q_cov:92.9%25%2C s_cov:48.6%25%2C Eval:6.1e-27%2C partial hit],internal stop codon at [30047:30049](+)%2C[30128:30130](+),MGA_51
sequence1	MetaGeneAnnotator	CDS	30152	30370	.	+	0	ID=MGA_52;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKINEINKDIIYCLWGNYAKKLYNSLVYKDERKIIYSPHPSPFSFKKGFEDSKPFSKINLMLKNINKKIIN;locus_tag=LOCUS_00520;note=WP_011183140.1 uracil-DNA glycosylase (Mesoplasma florum) [pid:59.3%25%2C q_cov:75.0%25%2C s_cov:24.5%25%2C Eval:3.0e-13%2C partial hit],internal stop codon at [30047:30049](+)%2C[30128:30130](+),MGA_52
sequence1	MetaGeneAnnotator	CDS	30565	30849	.	+	0	ID=MGA_53;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFTAINVSVTVVISLTVPITVFPPIRIAFEGVMVKITGFIFGPIIGVLVALITEVLVMIFVPSFIHPAFIIVIICYGFIAGIGSSFLRLGKGYN;locus_tag=LOCUS_00530;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:4.2e-28%2C partial hit],internal stop codon at [30502:30504](+)%2C[30847:30849](+)%2C[30979:30981](+)%2C[31021:31023](+)%2C[31138:31140](+),MGA_53
sequence1	MetaGeneAnnotator	CDS	31312	31743	.	+	0	ID=MGA_54;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLYDSLTSDFKEIDLSKVRIYTCGPTVYDYIHIGNARPLILTDIIVRYLESMEIKYKYLLNITDIDDKIINKALEKKISEDEYAKKFTKAFLEDIDSLNIKRPSSVIPISTKINEILSFIYDLVDKDYAYEISGNVYFDISK;locus_tag=LOCUS_00540;note=WP_011167108.1 cysteine--tRNA ligase (Mycoplasma mycoides) [pid:53.1%25%2C q_cov:100.0%25%2C s_cov:32.4%25%2C Eval:6.9e-40%2C partial hit],internal stop codon at [31741:31743](+)%2C[31849:31851](+)%2C[31876:31878](+)%2C[31888:31890](+)%2C[31909:31911](+),MGA_54
sequence1	MetaGeneAnnotator	CDS	32059	32241	.	+	0	ID=MGA_55;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHNGHLSLENIKMSKSLKNTILVRDYVKEYGSNSLRFIFLNSNYKQPLNITKELIKHSRE;locus_tag=LOCUS_00550;note=WP_011167108.1 cysteine--tRNA ligase (Mycoplasma mycoides) [pid:60.0%25%2C q_cov:91.7%25%2C s_cov:12.5%25%2C Eval:1.0e-13%2C partial hit],internal stop codon at [31849:31851](+)%2C[31876:31878](+)%2C[31888:31890](+)%2C[31909:31911](+)%2C[32056:32058](+)%2C[32239:32241](+)%2C[32278:32280](+),MGA_55
sequence1	MetaGeneAnnotator	CDS	32422	32565	.	+	0	ID=MGA_56;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKSINKQIKTRMLDRTYSKLIDILKILGFSFNIKNLSDKDIEKIKK;locus_tag=LOCUS_00560;note=MGA_56
sequence1	MetaGeneAnnotator	CDS	32643	32786	.	+	0	ID=MGA_57;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNYIYGKNAVENTIKNFSYEIKQVFILKGHSFDPDVYSLIKKNKIE;locus_tag=LOCUS_00570;note=MGA_57
sequence1	MetaGeneAnnotator	CDS	32883	33362	.	+	0	ID=MGA_58;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDFYNDSKLNQTVLILDKIQDPQNFGSIIRTASLFGVDAIIIQETNQVQVTPAVMKASAGTIYNVPIIKVSNLKSAISNLKDRGFWIYSSYLGEKSISIKDVDFDKKSVVIIGNEGKGIGNKILELSDFMFQIDTNNVIDSLNVSVATGIILFKLFNR;locus_tag=LOCUS_00580;note=WP_011182985.1 23S rRNA (guanosine(2251)-2'-O)-methyltransferase RlmB (Mesoplasma florum) [pid:47.6%25%2C q_cov:91.2%25%2C s_cov:59.9%25%2C Eval:1.1e-32%2C partial hit],internal stop codon at [32784:32786](+),MGA_58
sequence1	MetaGeneAnnotator	CDS	33385	33999	.	+	0	ID=MGA_59;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTIIAEIIKSEFQNEVTPDVLVHLQRSTIKIINTEDQKISYLRLDKEDLITNVYLALKEVKQKYDVDKKVPLVAYANFIIKRRILDYAKFLRRDKRKLTLKMINSYRSNLTEDGQTFLERDIDRYSYENERENNQIKAIRELVIHFLENEATELEAKIIKMLYKGFSQKEIIETLKIKRKDFLQCKEKLKKVFNYFNKDISNI;locus_tag=LOCUS_00590;note=MGA_59
sequence1	MetaGeneAnnotator	CDS	34190	34474	.	+	0	ID=MGA_60;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKNNDIKEQKAQEKLKKIQEKQAQKQNKKLNKQNKKEEFNKLFNEFQGHDGTQEGKLKAAKKKKIKKEKSKIDYKLAFKEAPIKFLKEVNKIQ;locus_tag=LOCUS_00600;note=MGA_60
sequence1	MetaGeneAnnotator	CDS	34970	35242	.	+	0	ID=MGA_61;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLEQSENQQSKNDKTSKGNANQPKKEKVLFTANYDTKDVVLVKDGPFAGTEGQVMEMDFEKGIAIVNIELFGRITPTEFEFSNLEKAYKN;locus_tag=LOCUS_00610;note=WP_011182988.1 transcription termination/antitermination protein NusG (Mesoplasma florum) [pid:52.3%25%2C q_cov:72.2%25%2C s_cov:31.1%25%2C Eval:2.1e-11%2C partial hit],internal stop codon at [34871:34873](+),MGA_61
sequence1	MetaGeneAnnotator	CDS	35333	35578	.	+	0	ID=MGA_62;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTIAIEIILEDERKMRADLYPELAPISVQNFVNLIKKNYYNGLIFHRVIKGFMIQGGGMFSDLSEKETLEPIKGEFSING;locus_tag=LOCUS_00620;note=WP_010943932.1 peptidylprolyl isomerase (Geobacter sulfurreducens) [pid:53.2%25%2C q_cov:76.5%25%2C s_cov:31.3%25%2C Eval:7.6e-14%2C partial hit],internal stop codon at [35576:35578](+),MGA_62
sequence1	MetaGeneAnnotator	CDS	35597	35845	.	+	0	ID=MGA_63;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSHVPGVLSMARTNVMDSATSQFFIVTGEAKFLDGQYASFGKLSDEESLKVALSIENVKTAIKDFYEDVPIDPIIIKTINLI;locus_tag=LOCUS_00630;note=WP_011072524.1 peptidylprolyl isomerase (Shewanella oneidensis) [pid:44.4%25%2C q_cov:100.0%25%2C s_cov:53.7%25%2C Eval:2.4e-10%2C partial hit],internal stop codon at [35576:35578](+),MGA_63
sequence1	MetaGeneAnnotator	CDS	35971	36408	.	+	0	ID=MGA_64;product=50S ribosomal protein L11;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183506.1;translation=MAKRITRIAKLEFMAMQAKPGAELASLGINMPQFTQQFNDATKDRAGEVVPVVITAYDDKSFDFVLKTTPAAFMLKKAAGIQKGSSKSGTEVVATITADEVKKIAEYKMPDLNANTIEAAMRIIEGSARNMGIKVTGMPEKEGQK;locus_tag=LOCUS_00640;gene=rplK;note=WP_011183506.1 50S ribosomal protein L11 (Mesoplasma florum) [pid:80.7%25%2C q_cov:96.6%25%2C s_cov:98.6%25%2C Eval:2.8e-60],MGA_64
sequence1	MetaGeneAnnotator	CDS	36408	36731	.	+	0	ID=MGA_65;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKLSKKLKVANEKVDKTKLYPIAEAIKLAKETSITKFDSTVEIAFNLNVDPRHADQQIRGAIVMPGGTGKTQRVLVLTKTKVKEAEEAKADFIGAEDLIQKIAKEN;locus_tag=LOCUS_00650;note=WP_011167141.1 50S ribosomal protein L1 (Mycoplasma mycoides) [pid:66.4%25%2C q_cov:100.0%25%2C s_cov:47.3%25%2C Eval:5.4e-36%2C partial hit],internal stop codon at [36729:36731](+),MGA_65
sequence1	MetaGeneAnnotator	CDS	36765	37094	.	+	0	ID=MGA_66;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMAELGKIGKVLGPKGLMPNPKTGTVTMDVAKALDEIKKGKVEYRTDKEGNVHSILGKVSFKEDNLMKNYSALLDVIRKAKPAAVKGTYIKNISVSTTMGPGIKVLIEN;locus_tag=LOCUS_00660;note=WP_011167141.1 50S ribosomal protein L1 (Mycoplasma mycoides) [pid:72.4%25%2C q_cov:96.3%25%2C s_cov:46.5%25%2C Eval:1.1e-39%2C partial hit],internal stop codon at [36729:36731](+),MGA_66
sequence1	MetaGeneAnnotator	CDS	37294	37959	.	+	0	ID=MGA_67;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEHEIKPVLQKAQIPYDYMICNNGAVVYEKEYGVIANASIPMESRKEIIELFDTLKEKYILGYCLKDKRMSYSKIEEPEIYTNPFLKKYAPSENNFEQGNEDISNSPDLNLLYFYVPDSKVLQVKEMLNGKIKGCKAVRTHKNVIEIMREDVSKAYGIKVIQQLKGFDTKDIYTSGDGENDIEMLKYTKNSFAMKDHQPNVDKAASYIIKNVFEIEGFEKN;locus_tag=LOCUS_00670;note=WP_029494826.1 HAD family hydrolase (Fusobacterium hwasookii) [pid:27.1%25%2C q_cov:81.0%25%2C s_cov:65.9%25%2C Eval:4.8e-11%2C partial hit],internal stop codon at [37171:37173](+)%2C[37252:37254](+),MGA_67
sequence1	MetaGeneAnnotator	CDS	38037	38405	.	+	0	ID=MGA_68;product=MerR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183148.1;translation=MKKVYMNELANILNINESALRYYDSKGILPKVQRDENNYRFIDFEDLDYPKTVICLKKTGMSLKDIKKYLYYVEQGDSSIKVRYEMILNQEKMVLNKLKNIQEEIEFIEYKKSFYKNKLEKK;locus_tag=LOCUS_00680;note=WP_011183148.1 MerR family transcriptional regulator (Mesoplasma florum) [pid:44.4%25%2C q_cov:95.9%25%2C s_cov:99.2%25%2C Eval:1.0e-26],MGA_68
sequence1	MetaGeneAnnotator	CDS	38418	38612	.	+	0	ID=MGA_69;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKRILGKDLEVSEIGLGCMGLSFSFPPFPTKQEAISFIKKAYEMGVTFFDTAEVYDLLIMKRS;locus_tag=LOCUS_00690;note=WP_011183149.1 aldo/keto reductase (Mesoplasma florum) [pid:78.6%25%2C q_cov:87.5%25%2C s_cov:17.1%25%2C Eval:9.4e-20%2C partial hit],internal stop codon at [38868:38870](+),frameshifted%2C insertion/deletion at around 38588,MGA_69
sequence1	MetaGeneAnnotator	CDS	38990	39214	.	+	0	ID=MGA_70;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQELGIGFVPFSPLGKGFLTGAINLDTSLEPGDFRLTIPRFQNKEYMKENLKLVDFVKELTQRKKTTPAAIALG;locus_tag=LOCUS_00700;note=WP_011183149.1 aldo/keto reductase (Mesoplasma florum) [pid:60.8%25%2C q_cov:100.0%25%2C s_cov:22.6%25%2C Eval:3.2e-20%2C partial hit],internal stop codon at [38867:38869](+)%2C[38957:38959](+)%2C[39212:39214](+)%2C[39233:39235](+),MGA_70
sequence1	MetaGeneAnnotator	CDS	39490	40722	.	+	0	ID=MGA_71;product=serine hydroxymethyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011167047.1;translation=MKMSQVIKDSLEKELKRQQEHIELIASENYVSEAILELNGSILTNKYAEGYPGKRYYGGCKYIDEIESYGIELAKTLFKADHANIQPHSGSQANEAAYRTLIKPGDTVLSMSLDAGGHLTHGYPINFSGQLYNFVFYKVNKETEEMDFEEIRDLALKNKPKLILTGASSYTKIIDFKKFKEIADEVNAYFMVDMAHIAGLVAGGVHPNPCEYADVVTTTTHKTLRGSRGGMVLCKQKFAKELDSAIFPGIQGGPLENQIAGKTQALYEASTPEFKVYAKQIVINAKALANSLKNNGLRLIANGTENHTVIVEVKDSIGITGKQAETILESIGIISNKNMIPFDKEKPVHTSGIRLGTPAMTTRGFKENEFEEVGNIIASVLKNQSEENLKKAKLSVLNLCQKFPIYKNLK;locus_tag=LOCUS_00710;note=WP_011167047.1 serine hydroxymethyltransferase (Mycoplasma mycoides) [pid:72.9%25%2C q_cov:99.8%25%2C s_cov:99.0%25%2C Eval:7.0e-176],MGA_71
sequence1	MetaGeneAnnotator	CDS	40982	41482	.	+	0	ID=MGA_72;product=50S ribosomal protein L10;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183500.1;translation=MSNARPAHAKKNEIVKDIANRIKNCKGMVIAEYKNLTVAQMTELRNKAREQGIFIKVYKDSLVRRAVEELKISGLDAYLIQQNIYIFSDEEALYPAKLVSDFAKINKDLVLKAGIYEGNIMDTAAINEIASLPSKDELYSMFASSLIYPLRQFMLTVKEIAKTKSE;locus_tag=LOCUS_00720;gene=rplJ;note=WP_011183500.1 50S ribosomal protein L10 (Mesoplasma florum) [pid:60.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.0e-52],MGA_72
sequence1	MetaGeneAnnotator	CDS	41544	41909	.	+	0	ID=MGA_73;product=50S ribosomal protein L7/L12;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183499.1;translation=MAITKDDIIKALEEMKLTELNDLVKAIEDHFGVVAAAAVAAPAAGAASAAPTEVSVMLTNPGGNKVSVIKLVKEMTGLGLMDAKKLVDGTLPVAIKENVKVEDAEEMKKQLMEAGASVDLK;locus_tag=LOCUS_00730;gene=rplL;note=WP_011183499.1 50S ribosomal protein L7/L12 (Mesoplasma) [pid:70.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.2e-40],MGA_73
sequence1	MetaGeneAnnotator	CDS	41964	42311	.	+	0	ID=MGA_74;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKSSKIYLLKDYITNEGIEVGEYTYFYSFKNEQGIKEFQNRNVLYHFPKIHKDKLIIGKFCAIADEVKFLMNGANHRIDLVSTFPFAMFDEFKADKKTLFPSKTKGDTVVENDV;locus_tag=LOCUS_00740;note=WP_001181527.1 CatB-related O-acetyltransferase (Leptospira interrogans) [pid:50.4%25%2C q_cov:95.7%25%2C s_cov:49.1%25%2C Eval:2.9e-21%2C partial hit],internal stop codon at [42309:42311](+),MGA_74
sequence1	MetaGeneAnnotator	CDS	42333	42491	.	+	0	ID=MGA_75;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPGVKIGNGSIIAAKAVVTKDVKPYSIVGGNPAKLIRMRFDENKIKELEDLK;locus_tag=LOCUS_00750;note=WP_010939278.1 type B chloramphenicol O-acetyltransferase (Desulfovibrio vulgaris) [pid:61.5%25%2C q_cov:100.0%25%2C s_cov:24.3%25%2C Eval:1.1e-12%2C partial hit],internal stop codon at [42309:42311](+),MGA_75
sequence1	MetaGeneAnnotator	CDS	42716	42904	.	-	0	ID=MGA_76;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDILGSLNSQSVMERTMSPSAETTGKTSSNTSLIPLFLNQSNVSVCNSIRFGNSKSPDTFA;locus_tag=LOCUS_00760;note=MGA_76
sequence1	MetaGeneAnnotator	CDS	42894	43037	.	+	0	ID=MGA_77;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSITKAKEESKIFEAPIYANLSLTIHMEDVEVFKEEISGSMETFLKG;locus_tag=LOCUS_00770;note=MGA_77
sequence1	MetaGeneAnnotator	CDS	43050	43388	.	+	0	ID=MGA_78;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MESTGVDFKDSKGQLYFFEFKGKTGEKDTIQIEIKEEKEEMYLANIDVYKTGEVFFGEFPLMTDRGTFIINGSEKVVVSQLVRSPGSYFKEEMNRKNGEMIYFADIIPSRGT;locus_tag=LOCUS_00780;note=WP_011167152.1 DNA-directed RNA polymerase subunit beta (Mycoplasma mycoides) [pid:60.4%25%2C q_cov:98.2%25%2C s_cov:8.6%25%2C Eval:9.7e-33%2C partial hit],internal stop codon at [42783:42785](+)%2C[42873:42875](+)%2C[43035:43037](+)%2C[43386:43388](+),MGA_78
sequence1	MetaGeneAnnotator	CDS	43875	45173	.	+	0	ID=MGA_79;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLEAGAMVQKINFNKAISSGDEIQKVKVFKDNDLRDETATIIGITKKSNDEFVNLPDIIATISYAINLMDGIGEIDDIDHLGNRRVRTVGELLQNQFRIGMMRIEKNVREKLATSNPFKMKPSSIINNKPLTAIIGEFFNLSQLSQFMDQTNPLAELTNKRRLTALGPGGLSRDRAALEVRDVHPSHYGRICPIETPEGPNIGLINNLSTYAKINEYGFIETPYRKVKNTKVMSGEYEYLTADKEKDYVVAQANINLAEDGTILDDQVIARYRGDDIMVSPQDIDYVDVSPKQIVSIATSCIPFLENDDANRALMGANMQRQAVPLINPESPIVGTGVEHEAARDSGDAVVATESGIVKYVDSKKIVIEQKDGIKTYDLNDFSRSNNGTAITHLPIVKIGDKVKAKDILADGPSMEKGELALGQNVVVAFTT;locus_tag=LOCUS_00790;note=WP_011167152.1 DNA-directed RNA polymerase subunit beta (Mycoplasma mycoides) [pid:68.5%25%2C q_cov:100.0%25%2C s_cov:33.5%25%2C Eval:7.1e-174%2C partial hit],internal stop codon at [45171:45173](+),MGA_79
sequence1	MetaGeneAnnotator	CDS	45453	46118	.	+	0	ID=MGA_80;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLHAIFGEKSRNVKDNSLRVPNGGEGIIKSIKRFSRADGHDLPADILEIIKVYIVQKRKIQEGDKMAGRHGNKGVISKILPIEDMPHMEDGTPVDIMLNPQGVPSRMNIGQVLEIHLGMAAKKLGIKVNTPVFEGVREQELQDIMHEAGMDNYGKVKLIDGRTGEAFDKPISVGVMYMLKLSHMVDDKLHTRNIGPYSLITQQPLGGKAQNGGQRFGEMEV;locus_tag=LOCUS_00800;note=WP_011183496.1 DNA-directed RNA polymerase subunit beta (Mesoplasma florum) [pid:81.9%25%2C q_cov:100.0%25%2C s_cov:17.6%25%2C Eval:7.2e-108%2C partial hit],internal stop codon at [45171:45173](+)%2C[46116:46118](+),MGA_80
sequence1	MetaGeneAnnotator	CDS	46281	46484	.	+	0	ID=MGA_81;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLGFDMHMIDDEGNKVQINAYDDDDEFDIDTEFLDEEAAFNDADIKDYVETSEDDEITFDSESIED;locus_tag=LOCUS_00810;note=MGA_81
sequence1	MetaGeneAnnotator	CDS	46814	47050	.	+	0	ID=MGA_82;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKVAPSRIASILDLKTKEVEEVVYFVSYIVLDPGNSKHLKKGMVLDLGNAKASLKTREKLLKTLEDIRVNIEPDTFA;locus_tag=LOCUS_00820;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:3.7e-16%2C partial hit],internal stop codon at [46565:46567](+)%2C[46811:46813](+)%2C[47048:47050](+)%2C[47324:47326](+),MGA_82
sequence1	MetaGeneAnnotator	CDS	47093	47326	.	+	0	ID=MGA_83;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPFSMDEASTFISRYINAKFGIGASAIEDLLKNINLDKEIERIREDLKDKKGSSEQNKLMKRLEVLDSLKKSKSRPE;locus_tag=LOCUS_00830;note=WP_011183495.1 DNA-directed RNA polymerase subunit beta' (Mesoplasma florum) [pid:55.8%25%2C q_cov:100.0%25%2C s_cov:6.1%25%2C Eval:6.7e-18%2C partial hit],internal stop codon at [46811:46813](+)%2C[47048:47050](+)%2C[47324:47326](+),MGA_83
sequence1	MetaGeneAnnotator	CDS	47327	47845	.	+	0	ID=MGA_84;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVLHVIPVIPPDIRPIIQLDGGRFTTSEINDLYRRIIIRNERLKKVKSMGAPSIIVNNEKRMLQEAVDALLDNERKPRPVTGKDKRPLKSLTSILKGKQGRFRQNLLGKRVDYSGRSVIAIGPDLKMYQAGIPRDMAITLFKPFIIRRLQERDFAENVKVAEKMILTNDSKV;locus_tag=LOCUS_00840;note=WP_011183495.1 DNA-directed RNA polymerase subunit beta' (Mesoplasma florum) [pid:87.8%25%2C q_cov:100.0%25%2C s_cov:13.7%25%2C Eval:9.1e-82%2C partial hit],internal stop codon at [47324:47326](+)%2C[47843:47845](+),MGA_84
sequence1	MetaGeneAnnotator	CDS	48014	48382	.	+	0	ID=MGA_85;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAVHLPISDEAVAEARALMLGSKAILGPKDGKPIVTPTQDMILGNYYITTEEKDVKGQGTLFTSYEEVKIAYETDSVSLNAIVAIPVSELKNKKISDEHKNKFLITTVGKIFFNQMFVEEFP;locus_tag=LOCUS_00850;note=WP_011167153.1 DNA-directed RNA polymerase subunit beta' (Mycoplasma mycoides) [pid:59.7%25%2C q_cov:100.0%25%2C s_cov:9.9%25%2C Eval:4.5e-38%2C partial hit],internal stop codon at [47843:47845](+)%2C[48380:48382](+),MGA_85
sequence1	MetaGeneAnnotator	CDS	48413	48766	.	+	0	ID=MGA_86;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIEKFIVDENTDIRSFIENEYVIQQPIKKKELSLIIERYFKLFGAQKTAQMLDNMKDLGFKFSSKSGTTISAADVVAYTEKFDEFKVADEKVSQITEFYNMGMLTKTEKKRRVINV;locus_tag=LOCUS_00860;note=WP_011167153.1 DNA-directed RNA polymerase subunit beta' (Mycoplasma mycoides) [pid:70.4%25%2C q_cov:98.3%25%2C s_cov:9.1%25%2C Eval:8.9e-39%2C partial hit],internal stop codon at [48380:48382](+)%2C[48764:48766](+),MGA_86
sequence1	MetaGeneAnnotator	CDS	48842	50062	.	+	0	ID=MGA_87;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MADSGARGNVSNFTQLVGMRGLMNDPKGDIKEIPIKSSFREGLTVSEYFISTHGARKGMADVALKTADSGYLTRRLVDISQEIIVTEDDCKTSKGFDVHSIIETKHDNIIVPLKDRLVGRFTFSDVIDSNGNLIVEENSLITLSLADEIINAGIEEVQIRTVLTCDTNRGVCRKCYGVNLATGEVVTIGEPVGVIAAQSIGEPGTQLTMRTFHTGGVAGGADITQGLPRIKELLDVTNPKGSIAIISQIDGVIKEATEEDGIITIVVSSDQDERKYKSQYGAILRVTKGETVTRGQKLTEGAINIKELLEVARIEDVQNYILKEVQKVYRLQGIEISDKYIEIIVKQMLNKVKIIDSGETELLPGEVISSRAFRNEVKNAIVAGKKPPLAKHVIFGIKKAPLESDS;locus_tag=LOCUS_00870;note=WP_011167153.1 DNA-directed RNA polymerase subunit beta' (Mycoplasma mycoides) [pid:70.8%25%2C q_cov:100.0%25%2C s_cov:32.4%25%2C Eval:1.3e-166%2C partial hit],internal stop codon at [48764:48766](+)%2C[50060:50062](+),MGA_87
sequence1	MetaGeneAnnotator	CDS	50063	50251	.	+	0	ID=MGA_88;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSASFQDTARVLVKAVIKGKVDKLEGLKENIMLGNLIPAGTGLTGSADIIKKGKETYNSEY;locus_tag=LOCUS_00880;note=WP_011167153.1 DNA-directed RNA polymerase subunit beta' (Mycoplasma mycoides) [pid:71.0%25%2C q_cov:100.0%25%2C s_cov:4.9%25%2C Eval:3.6e-19%2C partial hit],internal stop codon at [50060:50062](+),MGA_88
sequence1	MetaGeneAnnotator	CDS	50307	50480	.	-	0	ID=MGA_89;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYIMGKKALKNVGTENETAHLTLSIFTLILFNPISGILFIVASSLYEFECDLKNEIK;locus_tag=LOCUS_00890;note=MGA_89
sequence1	MetaGeneAnnotator	CDS	50490	50660	.	-	0	ID=MGA_90;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTRTKLYKVGNILNLIVLILMAVSLAITAIILGIAMRSNFFGFLLFFIVMLIPLA;locus_tag=LOCUS_00900;note=MGA_90
sequence1	MetaGeneAnnotator	CDS	50805	51230	.	+	0	ID=MGA_91;product=ribose 5-phosphate isomerase B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_020862995.1;translation=MKIFIGNDHTATEMKNKIVEYLKTNGHEVVNIGTNSNDSVDYPDFGKEVATKVVEEKAMGIVICGTGIGISISANKVKGARAALCYEDQTAILAREHNDANILALGARMIAIEKAVRLVDIFLNAKFEERHSCRVNKLNNQ;locus_tag=LOCUS_00910;gene=rpiB;EC_number=5.3.1.6;note=WP_020862995.1 ribose 5-phosphate isomerase B (Mycoplasma mycoides) [pid:61.4%25%2C q_cov:97.9%25%2C s_cov:95.2%25%2C Eval:2.5e-39],MGA_91
sequence1	MetaGeneAnnotator	CDS	51245	51688	.	+	0	ID=MGA_92;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAFTIIKHPLILDKLTRMRKEETSSKDFRENLNEIGQLMVYEIFRDVPLAEIDINTPVTKTKGYTIDIPVVLVPIIRAGLGMTEGIQRLVPTSRIAHIGLYRDEETLEPVQYYAKTTKDIETSYVIVVDPMLATGGSASKAIEIAKA;locus_tag=LOCUS_00920;note=WP_015545345.1 uracil phosphoribosyltransferase (Mycoplasma mycoides) [pid:78.1%25%2C q_cov:99.3%25%2C s_cov:70.5%25%2C Eval:2.9e-60%2C partial hit],internal stop codon at [51686:51688](+),MGA_92
sequence1	MetaGeneAnnotator	CDS	52551	52931	.	+	0	ID=MGA_93;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFITKVENMVVTIMGKAHRKLTPYVMYLFMYIMVSSIVAILGIEPLTSSYTVTFSMGMVTFIGIYYYGLRYQKLAFFKRYYNPIEIIGQFVPLVSISFRLFGNILGGSILLGLLYASLIKLQGNIF;locus_tag=LOCUS_00930;note=WP_011167044.1 F0F1 ATP synthase subunit A (Mycoplasma mycoides) [pid:56.6%25%2C q_cov:96.8%25%2C s_cov:42.5%25%2C Eval:2.0e-35%2C partial hit],internal stop codon at [52975:52977](+)%2C[52978:52980](+)%2C[53017:53019](+),frameshifted%2C insertion/deletion at around 52961%2C52925,MGA_93
sequence1	MetaGeneAnnotator	CDS	53172	53501	.	+	0	ID=MGA_94;product=ATP synthase subunit C;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183007.1;translation=MFVETLTTLTTTMGGNIISVMPLYTTLLMFLAEKTTGDGLKLMGAGLTGIGMIGASIGQGLVGYGACIAIGRNPETAPKITSTLIITAGFAESGAIYALVIAILLIFVA;locus_tag=LOCUS_00940;note=WP_011183007.1 ATP synthase subunit C (Mesoplasma florum) [pid:57.0%25%2C q_cov:78.0%25%2C s_cov:82.7%25%2C Eval:3.2e-20],MGA_94
sequence1	MetaGeneAnnotator	CDS	53518	54036	.	+	0	ID=MGA_95;product=F0F1 ATP synthase subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011167042.1;translation=MLLVTAGIPNVIEGLFPNLANFIAHILSTIVILILLTKLVYKPFREMIKERRKKINELLDDAAAKLAKANRNNKEASKFLDSAKEESKQIINSAKLSADNLKLEIIENARNEATNIQTHAKQAIDFERNEMQEQMRQEVIDLAFVAAEKIMKENISKEKNEKMIKDFIKSLD;locus_tag=LOCUS_00950;gene=atpF;EC_number=7.1.2.2;note=WP_011167042.1 F0F1 ATP synthase subunit B (Mycoplasma mycoides) [pid:40.5%25%2C q_cov:97.7%25%2C s_cov:92.8%25%2C Eval:2.1e-33],MGA_95
sequence1	MetaGeneAnnotator	CDS	54089	54346	.	+	0	ID=MGA_96;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIEENKVKSFIETLENLKNIFEENEEAIVFLSNKFVPLKRRINFINEIFKKEIDILLLNCLKLIIERENFSSVNYIFKASIDKL;locus_tag=LOCUS_00960;note=MGA_96
sequence1	MetaGeneAnnotator	CDS	54353	54586	.	+	0	ID=MGA_97;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIEKGIVYSTIEIDKKSISEIEEKIHKKINQQIKLENKIDNSLIAGIRIEVANNIFDYSLKGKVENMKNSILENRK;locus_tag=LOCUS_00970;note=MGA_97
sequence1	MetaGeneAnnotator	CDS	54597	55343	.	+	0	ID=MGA_98;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLKINEISEVIKKQIKEYGKEIIESQEGTVASIGDGVALLFGLDNVMMGELLIFSNNIYGMALNLEDGAVGAVIMGDDSKIRQGDKVIRTEKVVETPVGDQLLGRVLNGIGLPIDGNGPLNNDKFAPVEKMASGVMSRKSVNEPMETGILAIDSIIPIGKGQRELIIGDRQTGKTAIAIDSIINQKGKNVKCIYVAIGQKESTVAQVVEKLKQAGSMEYTTVISASASESAPMQYISPYTGVSIAEE;locus_tag=LOCUS_00980;note=WP_011183010.1 F0F1 ATP synthase subunit alpha (Mesoplasma florum) [pid:70.2%25%2C q_cov:100.0%25%2C s_cov:47.2%25%2C Eval:1.5e-99%2C partial hit],internal stop codon at [55341:55343](+),MGA_98
sequence1	MetaGeneAnnotator	CDS	55344	55937	.	+	0	ID=MGA_99;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKGDDVLIIYDDLSKHAIAYRTLALLLRRPPGREAYPGDVFYLHSRLLERAARVNENYGGGSITALPIIETQAGDISAYIPTNVISITDGQIFLSEQLFNSGIRPAVDTGLSVSRVGSSAQIKAVKQVAGTLKLELAQYYELQSFAKFGSDLDETTKETLNHGQKIVELLKQRQYKPISQIEQSIILLAIKERLIR;locus_tag=LOCUS_00990;note=WP_011167040.1 F0F1 ATP synthase subunit alpha (Mycoplasma mycoides) [pid:78.7%25%2C q_cov:100.0%25%2C s_cov:37.5%25%2C Eval:2.1e-86%2C partial hit],internal stop codon at [55341:55343](+)%2C[55935:55937](+),MGA_99
sequence1	MetaGeneAnnotator	CDS	55944	56171	.	+	0	ID=MGA_100;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEMINFKESIINHFESNKEAKALRKLLATEKDFSNELYEKIKSHVVLVLKDMTSKIKGYEASDFGKEEEFKKLS;locus_tag=LOCUS_01000;note=MGA_100
sequence1	MetaGeneAnnotator	CDS	56173	56406	.	+	0	ID=MGA_101;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPNLSELKNEISNIKDIRKITGAMELVATSKLKKISKRMGNIQTYLDEVYEVFNYIISHSEDSIYLKKPNQKLSSTL;locus_tag=LOCUS_01010;note=MGA_101
sequence1	MetaGeneAnnotator	CDS	56554	57024	.	+	0	ID=MGA_102;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEQFTDIDVDFSNEYSREMSVNLLNYFVQKEFDQIKIVYTKFINNVTFEPKVLDMFPIEKKVDNSDTYEDVILEPDPETVLTTSVSMYLNTILFGTIIESQVSEQASRRMTMEAANKNGKELSESLRVMLNRKRQENITQEISEIIAGVNAQNED;locus_tag=LOCUS_01020;note=WP_011167039.1 ATP synthase F1 subunit gamma (Mycoplasma mycoides) [pid:51.9%25%2C q_cov:98.7%25%2C s_cov:55.0%25%2C Eval:2.7e-41%2C partial hit],internal stop codon at [56404:56406](+),MGA_102
sequence1	MetaGeneAnnotator	CDS	57039	58433	.	+	0	ID=MGA_103;product=F0F1 ATP synthase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183012.1;translation=MEKITQGKVVQVMGPVVDVKFKQEDMPKLYNTIELDNNGVKLVLEVVQHIGDDLVRTIAMGPTEGLVRGILGTNTGGPISVPVGEKVLGRMFNVLGDPIDDKPEVESERMSIHRLAPSYDELATSAEILETGIKVIDLMMPFAKGGKIGLFGGAGVGKTVLVQELINNIAKAHGGISVFAGVGERTREGNDLYYEMIDAGVIDKTSLVFGQMNEPPGARMRVALTGLTIAEYFRDFKNQDVLLFIDNIFRFTQAGSEVSALLGRMPSAVGYQPTLATEMGALQERITSTQKGSITSVQAVYVPADDLTDPAPATTFTHLDARVVLDRTIASLGIYPAIDPLNSSSRMLDPEIVGENHYQIALKVQEILQKYKELQSIIAILGMEELSEEDKIVVNRARKIRNFMSQPFTVGEKFTGRSGKYVPVAETINSFDSILKGDVDNIPEILFMYAGSIQEVIERFKSKK;locus_tag=LOCUS_01030;gene=atpD;EC_number=7.1.2.2;note=WP_011183012.1 F0F1 ATP synthase subunit beta (Mesoplasma florum) [pid:75.5%25%2C q_cov:98.7%25%2C s_cov:95.6%25%2C Eval:1.7e-200],MGA_103
sequence1	MetaGeneAnnotator	CDS	58433	58720	.	+	0	ID=MGA_104;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183013.1;translation=MQLTKLKIITPDGIYINDLEVENVSVRTADGQITIYANHSAIVSTLLIGDMRYEINGTVKYIHLHRGILRVSKEQIKILTQRLYEVDEKGQRLKK;locus_tag=LOCUS_01040;note=WP_011183013.1 hypothetical protein (Mesoplasma) [pid:38.6%25%2C q_cov:92.6%25%2C s_cov:88.9%25%2C Eval:1.6e-14],MGA_104
sequence1	MetaGeneAnnotator	CDS	58849	59361	.	-	0	ID=MGA_105;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFEGDDIMGTIARIAVKLGYQVDIVSNDKDTYQLVSEDVRIVSQQSKKCKQEIITTKEVIEKFGCKPCQIPDIKSLLGDQSDNIKGVRGMHYSTATKLISKYGCIENVYKNLNDFPEEQRKKLEQCKDQVLMNKQIARILKNVEIGRINFKPLKVNYIRFMGFLKREKM;locus_tag=LOCUS_01050;note=WP_011182952.1 5'-3' exonuclease (Mesoplasma florum) [pid:46.7%25%2C q_cov:99.4%25%2C s_cov:53.3%25%2C Eval:2.3e-42%2C partial hit],internal stop codon at [58849:58851](-)%2C[59371:59373](-)%2C[59482:59484](-),MGA_105
sequence1	MetaGeneAnnotator	CDS	59482	59691	.	-	0	ID=MGA_106;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKKVVIIDGYHLLHKGYYGSLKRKKIAINREGYLINAVYVFVANIFQLIQSNEYHTVIVTFDVGKEC;locus_tag=LOCUS_01060;note=WP_011182952.1 5'-3' exonuclease (Mesoplasma florum) [pid:62.7%25%2C q_cov:97.1%25%2C s_cov:21.1%25%2C Eval:3.2e-20%2C partial hit],internal stop codon at [59371:59373](-)%2C[59482:59484](-),MGA_106
sequence1	MetaGeneAnnotator	CDS	59831	60301	.	-	0	ID=MGA_107;product=YigZ family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_164919770.1;translation=MIFLKILNNEKVVESDYTVKKSKFITYISKIKSKEELDIFLKNNRDKSATHNCYAYRYGDEKLTYGYNNDGEPNGTAGEPLLKLIEVNNLTNLIIFVKRYYRGIKLGTGGLQKAYSASAIKMIKEINFKKLEFLYNIEICFNISDIKSINLFLKNI;locus_tag=LOCUS_01070;note=WP_164919770.1 YigZ family protein (Mesoplasma florum) [pid:45.3%25%2C q_cov:96.2%25%2C s_cov:80.6%25%2C Eval:1.2e-33],internal stop codon at [59831:59833](-),MGA_107
sequence1	MetaGeneAnnotator	CDS	60461	62599	.	+	0	ID=MGA_108;product=preprotein translocase subunit SecA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182954.1;translation=MARDKSIIKKHGKIADEIISLESVYEKLSDSDLAKKTQEFRERLEKGETLDDLLVEAFAVVREAAFRVLKLKAYKVQLIGAIILHQGDIAEMRTGEGKTLTGLFPAYLNALSGLGVHVVTVNEYLSQRDSEINGSVYNILGLTVGLNGRDLSKEQKRFAYAQDITYTTNSELGFDYLRDNMVYRLDQKVQRKLNFAIIDEADSILIDEARTPLIISGGSQNRINLYKAADSFAKTLDQKTDIEMDLESKQVYLTESGIKKAHKFFSIENLFDFRNTELFHLIMNALKALFTFKLEVEYTVQDSEIILIDQFTGRTMPGRAYSDGLQQALQAKEGVEIEDETTTLATITYQNFYRLYSKLSGMTGTAKTEEEEFLKIYNTRVIVCPTNKPIIRVDEPDLTFGTINAKLKHLVRDLEEVTQAGRPVLIGTTSVESSEQVAHYLQKANLKFEMINAKNHHREAEIVEKAGQVGSITLATNMAGRGTDIKLSDEAKANGGLFVMGIERNEARRIDNQLRGRAGRQGDPGTSRFYISMEDELMVRFSSPKLRQMFLKLGDDHIKSKLFTRAITNAQKKLEGLNFDQRKNVLDYDNILSQQREAIYAQRDSILEQESLKVVLSRFHYTIAFEIVERNSELVRGERTINIPLLIQEIDGKFVFEGSLTEVDFIGLEKQEIAKKISEKMMEHYLNKSSSVPHEVISEMERRTILQTLDYH;locus_tag=LOCUS_01080;gene=secA;note=WP_011182954.1 preprotein translocase subunit SecA (Mesoplasma florum) [pid:68.9%25%2C q_cov:99.7%25%2C s_cov:75.3%25%2C Eval:4.0e-284],internal stop codon at [62597:62599](+)%2C[62864:62866](+),MGA_108
sequence1	MetaGeneAnnotator	CDS	62714	62866	.	+	0	ID=MGA_109;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVMIAEETIIKLNGSFVREMKMDEDINFVDLQPKTVNITDKDIDDILKE;locus_tag=LOCUS_01090;note=MGA_109
sequence1	MetaGeneAnnotator	CDS	62921	63361	.	+	0	ID=MGA_110;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKQFKKDKDQLEKVNFQFAVLDGLMKKLDEMFAQQNKQAAELSFEAVEKITKKFNLDKTFTKEQVKESFDKLIKEAEKDEEKTSLLIETQILMAIATQFESNQKEFTITDEEGNVKKVFKTNPDGSISEDDIEDTEQVQTKTKLG;locus_tag=LOCUS_01100;note=MGA_110
sequence1	MetaGeneAnnotator	CDS	63513	64139	.	+	0	ID=MGA_111;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENLKQKFELVTDYKPSGDQPNAIIKLIDGLKNNVKNQVLMGATGTGKTFTMANVIKEINKPTLVLAHNKTLAMQLYIELKELFPNNRVEYYVSNFDFYQPEAYIPSRDLYIDKDAKRNNDLEMMRLSAMNALMIRKDTIVVASVACIYATQDPKEYGDVFFELQVGQVLSKKDLLTFLVQTGYTRDENDLAMGYFSAKGDVIRIAPS;locus_tag=LOCUS_01110;note=WP_164919771.1 excinuclease ABC subunit UvrB (Mesoplasma florum) [pid:69.3%25%2C q_cov:97.1%25%2C s_cov:30.3%25%2C Eval:1.0e-76%2C partial hit],internal stop codon at [64137:64139](+)%2C[64338:64340](+),MGA_111
sequence1	MetaGeneAnnotator	CDS	64167	64340	.	+	0	ID=MGA_112;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFGEEIESIEMIDILNNHVLEKLRMFTVYPAAAYVTNFDKMKLVVENIGKELEQRVI;locus_tag=LOCUS_01120;note=MGA_112
sequence1	MetaGeneAnnotator	CDS	64380	65498	.	+	0	ID=MGA_113;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRTKYDMETMSEFGICSGIENYSPHLDFRAPGVPPFTLIDYFGDDFLTIIDESHMMIPQLNAMYNTDRSRKETLIEHGFRLPSAIDNRPLKFEEFVGKLKNVIYTSATPGPYELELTENKVIEQIIRPTGLVDPQIEIRSTINQMNDIVDEINNVVKKGQKVFITAITIRISEDITTYLQSRNIKVAYLHSELKTLERNQVLTDLRKGVYDVIVGVNLLREGLDVPEVSLVCILDADKQGFLRNTRSLIQTIGRAARNSEGRVIFYADSTSQAMKEAIEETDRRRKIQEEYNAVHGITPKTIIKKISDIISDSAIRNKVDELKKLKRKDKEKKKEDFISDLRKQMLTAAKEQNYEKAAELRDLILELQAES;locus_tag=LOCUS_01130;note=WP_164919771.1 excinuclease ABC subunit UvrB (Mesoplasma florum) [pid:62.0%25%2C q_cov:99.5%25%2C s_cov:55.6%25%2C Eval:5.0e-133%2C partial hit],internal stop codon at [64137:64139](+)%2C[64338:64340](+),MGA_113
sequence1	MetaGeneAnnotator	CDS	65510	66484	.	+	0	ID=MGA_114;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKIIVKGAREHNLKNIDIEIPKEKLVVFTGLSGSGKSSLAFNTIYAEGERRYIESLSSFSRQFLKSVEKPDVDEIEGLSPAISIDQKTTSHNPRSTVGTTTEIHDHLRLLFANIGTPFCINGHGPIKTSSLKEIIETIKKETKEDDQIFILAPVVRDKKGTHKDLLLKLKKENFLRVQINGEIKNLEEEIELEQNKRHNIDIVVDRLIYKSEDEDLQSRIYSAIEVGLGYSNGLIKINYPKRNDFTKLFSTKYSCSECGFSIPNLEANLFSFNKKNGACETCSGLGVNLEADPSLIIPDSLLSIREGGILYYKNIIDTTNIE;locus_tag=LOCUS_01140;note=WP_011182956.1 excinuclease ABC subunit UvrA (Mesoplasma florum) [pid:65.2%25%2C q_cov:100.0%25%2C s_cov:34.1%25%2C Eval:5.2e-120%2C partial hit],internal stop codon at [66482:66484](+),MGA_114
sequence1	MetaGeneAnnotator	CDS	66524	67195	.	+	0	ID=MGA_115;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSQINQLNEKQINVILYGSEEPIETKIVTVSGNVLRAFDYIEGVANLIERKYIETKSEENRKYYGKYMMSKICKTCNGKRLNDVALSVKINDLSIAEFVEMTIEEELEFLLNLNLTEQQEKIANLVLNQLVSRISFLNEVGLNYLTLSRSATTLSGGEAQRIRLAKQLGSKLSGVLYVLDEPSIGLHQRDNDKLISTLKKLRDLGNTLIVVEHDEDTMKASD;locus_tag=LOCUS_01150;note=WP_011182956.1 excinuclease ABC subunit UvrA (Mesoplasma florum) [pid:65.0%25%2C q_cov:100.0%25%2C s_cov:23.5%25%2C Eval:1.3e-77%2C partial hit],internal stop codon at [66482:66484](+)%2C[67193:67195](+),MGA_115
sequence1	MetaGeneAnnotator	CDS	67255	67431	.	-	0	ID=MGA_116;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLPKGIVTSIFFKLFSVAPLISIFNPLPPLRFFGVGIDSCFDKYFPVKEFGFLHISS;locus_tag=LOCUS_01160;note=MGA_116
sequence1	MetaGeneAnnotator	CDS	67892	68350	.	+	0	ID=MGA_117;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTVQEAHDFFENIPKIREKLETILAVGLGYIKLGQNATTLSGGEAQRVKLSTFLLKKQTGKTLFLLDEPTTGLHIDDVKRLIEVLNILVNQGNTVLTIEHNLDFIKVSDYVIDLGPEGGSGGGTILATGTPEQIIESKESFTAKYLKEYLND;locus_tag=LOCUS_01170;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:6.5e-61%2C partial hit],internal stop codon at [67751:67753](+)%2C[67877:67879](+),MGA_117
sequence1	MetaGeneAnnotator	CDS	68343	68681	.	+	0	ID=MGA_118;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINVEEELISSDIIFKKNYNLKKLLKDLGNPQNNFNIISIVGTNGKGSTSQFIFSGLKKKFKKVGLFISPAFIYQNERIQFNTEMISDNDLKRLLLENEELIKKYELTFFEI;locus_tag=LOCUS_01180;note=WP_011167091.1 Mur ligase family protein (Mycoplasma mycoides) [pid:51.8%25%2C q_cov:100.0%25%2C s_cov:30.4%25%2C Eval:2.8e-24%2C partial hit],internal stop codon at [68679:68681](+),MGA_118
sequence1	MetaGeneAnnotator	CDS	68868	69296	.	+	0	ID=MGA_119;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIAKENVKIFISADNLKYKEIIDKVNNNAKVYTKQINDPIYFQSFNKGLALELLQYLNISVTHFDISPLGRYTILKKDPLFILDGCHNYDGALKLSKQIKDIDNLIILFGSSEGKDQIEMLKVFKELKKEIFLTEFVHKKA;locus_tag=LOCUS_01190;note=WP_011167091.1 Mur ligase family protein (Mycoplasma mycoides) [pid:40.8%25%2C q_cov:98.6%25%2C s_cov:39.8%25%2C Eval:4.1e-21%2C partial hit],internal stop codon at [68679:68681](+)%2C[69294:69296](+)%2C[69342:69344](+),MGA_119
sequence1	MetaGeneAnnotator	CDS	69450	69635	.	-	0	ID=MGA_120;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFPNIGGILYVSPVNIALHAANKDITVKCFKLIFLNVKFSKARAETKIIIIKIPAPIFVYK;locus_tag=LOCUS_01200;note=MGA_120
sequence1	MetaGeneAnnotator	CDS	69691	69912	.	+	0	ID=MGA_121;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCGVISAICTDTLMAIVLPSNYGYHAGYMFGKCVLAFFGSLVFLTRGEKRILLKVIVLYTVAYILQSLFLNQI;locus_tag=LOCUS_01210;note=MGA_121
sequence1	MetaGeneAnnotator	CDS	70161	71090	.	+	0	ID=MGA_122;product=HPr(Ser) kinase/phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182959.1;translation=MSKLYAKKIIESFKLEVVSGENKLNNIIEVYGINRAGLELTGYFEEGEKSHRVIVMSTKEYSYIMNFEESEREKRYEKLFSRNIPMIILTDKFEDNIAIEVGKKTNSLVVRTNTESTSDFTQNVLEFMDDYFAPLTEVHASCINIFGKGVLLIGESGIGKSEITLDLVKTNHLFVGDDRIVITKKSNELYGKSHEILKNLVEVRGIGIVDVSQTNGYQVILEKTKIDLVIELTQFKKNGIDDSERLGNAFVGYNILGVDVPYIKIPVSSGRNIPNIIEAAVAKLKIKQSGLYQDEAQILSERAMKFNDD;locus_tag=LOCUS_01220;gene=hprK;note=WP_011182959.1 HPr(Ser) kinase/phosphatase (Mesoplasma florum) [pid:49.7%25%2C q_cov:97.7%25%2C s_cov:98.1%25%2C Eval:3.0e-85],MGA_122
sequence1	MetaGeneAnnotator	CDS	71938	72447	.	+	0	ID=MGA_123;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYEPKKALVEAEQVKINNQKSIALKAREKYNNMVSKIKQEINSQKAKLDKNKITKNQFKSAKKDIKNNYKNDIKMLKKQKSPLMNFIKRDSKELYNLNNPNNYNVVHCGVLTSIYICGYTFIRFILDPLRNPYELTVKENSILNYLFLTAFLLFGIVLFICSQFIAPKK;locus_tag=LOCUS_01230;note=MGA_123
sequence1	MetaGeneAnnotator	CDS	72467	73399	.	+	0	ID=MGA_124;product=thioredoxin-disulfide reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182961.1;translation=MKNHINTDYDLIIAGAGPAGLSAAIYAGRAGLNVLVLEKEAPGGKVIKTGEIENYPGFTNIQGPDLAMHFFEQANAMGAKFEFSGLKDFEKKEIFEIELENGKVLTAKALIIATGTKENLLGVPGEIDLYGKGVSYCAVCDGSFYKDMPVAVVGGGYSAIEESLFLTRFASKVYLIHRSQKFRVDQKSLQKAKTNEKIEFILDTIVEKIEGKDKVSSIKIKNTIKNEESELKVNAIFPFIGHYPVTSFIKQIEVLDEEKHIIGDERMRTKIEGLFVAGDVRNTPFRQIATATADGALAGQNAVNYIENKY;locus_tag=LOCUS_01240;gene=trxB;EC_number=1.8.1.9;note=WP_011182961.1 thioredoxin-disulfide reductase (Mesoplasma florum) [pid:50.5%25%2C q_cov:99.0%25%2C s_cov:99.4%25%2C Eval:5.2e-90],MGA_124
sequence1	MetaGeneAnnotator	CDS	74404	74763	.	+	0	ID=MGA_125;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLVRTGVQAGAYFFAWNLVRFILELGRPDDHLFLMYRKELSLVIIGLSMAAGLIVALLAQFVIPYLFRTTGFIYEQEYFYLEDNNKTKNKDKLVISKIEKNKIKEEKIKEKLNKKLGKK;locus_tag=LOCUS_01250;note=WP_011182962.1 prolipoprotein diacylglyceryl transferase (Mesoplasma florum) [pid:59.2%25%2C q_cov:63.9%25%2C s_cov:16.4%25%2C Eval:3.3e-20%2C partial hit],internal stop codon at [74149:74151](+)%2C[74188:74190](+)%2C[74206:74208](+),MGA_125
sequence1	MetaGeneAnnotator	CDS	74773	75720	.	+	0	ID=MGA_126;product=DNA-binding protein WhiA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182963.1;translation=MSFAMEVKEEILNHTFTKEQKIMLLSGFIKYNGELIYTSKGAVLKLTNNSNNVIRNIFSMLKTIYDGNIEISIIQIQKLRKNKIYQLMLTDEVIFFLKRYNIYDINSSTKIIEIDLENYDKKIKQELIRAYISGIFIAIGSVNSPETTNYHLELQFKENESSTYITKILKKYNFTFKTTSKKNKFVCYIKKSIAVSDFLKFMDASISVMKFENTRINRDVSNNINRMINIDIYNQQKSSVTGSRQVEVIELIKKNNLMSELSPKAQLLSQIRLENPDASFSELEQLMNEKNVSITKSGISNLFKIIDKIANTIGD;locus_tag=LOCUS_01260;gene=whiA;note=WP_011182963.1 DNA-binding protein WhiA (Mesoplasma florum) [pid:51.0%25%2C q_cov:98.4%25%2C s_cov:98.4%25%2C Eval:7.0e-82],MGA_126
sequence1	MetaGeneAnnotator	CDS	75724	75945	.	+	0	ID=MGA_127;product=helix-turn-helix transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182964.1;translation=MKKDIIITFSKNMKRIRVNAQLTQEELSFRSQLHRNYISDSERGKRNISLKSVEKIAKALNVEPIEFFREIEE;locus_tag=LOCUS_01270;note=WP_011182964.1 helix-turn-helix transcriptional regulator (Mesoplasma) [pid:45.6%25%2C q_cov:93.2%25%2C s_cov:87.2%25%2C Eval:1.5e-12],MGA_127
sequence1	MetaGeneAnnotator	CDS	76181	76636	.	+	0	ID=MGA_128;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFSLIFFIIFVLSIYFLKTASIENFIIKASLGLLFSLSIGLSFIFLFLDTFYSPNLSKNINKIIHKKEKIELIYSKFLNSRTDLQDITDFKLSIVNFKSEPKRKRKSYANYMSTLLNRETPIKKNNENSLDFKFKNYQASFVIEHPLEFTR;locus_tag=LOCUS_01280;note=MGA_128
sequence1	MetaGeneAnnotator	CDS	76694	77101	.	+	0	ID=MGA_129;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSVLYIENKEFRKMYYNLKIKKSGELSGDYRTESIAFNNKYSTNLESNDLEGAKFLNPTVVNNLVNFNDINFFALGVYKQLYVERYETKRENCQIGIFNFLLLKNRNKVIEYIYDKIVKDIDFLKKSYDYINFIL;locus_tag=LOCUS_01290;note=MGA_129
sequence1	MetaGeneAnnotator	CDS	77995	78873	.	+	0	ID=MGA_130;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNIIDMNNEIIFFLIGMFLFLGFLAFLIASIVVYFKLKNINVRLNKIVNEKLDLELIYFNFFNSSANLKNCSDFKMNIISYYPKIVDIDGSYKVYLAHRKVPIKEDHYNSLEFTYKNRKVTFIIEHPKNFIERHYYTSNGRSGCSRTVTPLSMTVLYVTDDKYVKDFKSLRIERKKGNLKGDYKSESIVFNDRYSTNLTMNNIVAAKFLTPYVLDNLANLNQKDFFSLGVNKDIYVEKATTKYHILPFGIFDFYSYLNEKNLATVICKEMISQLNLVKNSLEYVSFLEKIK;locus_tag=LOCUS_01300;note=MGA_130
sequence1	MetaGeneAnnotator	CDS	78942	79160	.	+	0	ID=MGA_131;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLLAGTASQQTLANQIILGFEILSLIVAILMIIVGLVQNKSSQTGLSALNGGNDELFSNSKERGMDKTTSI;locus_tag=LOCUS_01310;note=WP_011182965.1 preprotein translocase subunit SecG (Mesoplasma) [pid:67.2%25%2C q_cov:80.6%25%2C s_cov:65.9%25%2C Eval:2.2e-16%2C partial hit],internal stop codon at [79158:79160](+),MGA_131
sequence1	MetaGeneAnnotator	CDS	79263	79400	.	+	0	ID=MGA_132;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNTILSRVKEKEKMHLNDLIKSIKSDYESVTTILKEFQEEHLIG;locus_tag=LOCUS_01320;note=MGA_132
sequence1	MetaGeneAnnotator	CDS	79596	80684	.	+	0	ID=MGA_133;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKAMVEDIVLRTKISLVGEIVKSKDGRFLDFVANEPGFKNYRIVMINSKDYSLKEDLILKVKILNVRDKKLFVRIQKIIGDANKAVDRIFSIAYEYEIKPEFNKLTIDNANEVAKPIDYDDPKIKRRLSNSIVNKNLVTIDGSDSKDLDDAIYVEKTSNGYKLIVAIADVSYYVTPFSPLDSTALFRGNSVYLANKVIPMLPEKLSNGVCSLNPDEEKLCMVAEMDFDLQGNVIKKKVYESIMISKARLTYKEVNELYESGKSNRSKEIIDMLRLSKELHDIIDLSRNKKGSIEFDVAEPKIILDADSNVIEIAKRDRGISEKLIENFMVSANECVATIIYEKKLPFIYRNHDVPKEENLIE;locus_tag=LOCUS_01330;note=WP_011183106.1 ribonuclease R (Mesoplasma florum) [pid:54.3%25%2C q_cov:99.4%25%2C s_cov:51.3%25%2C Eval:4.2e-105%2C partial hit],internal stop codon at [79398:79400](+)%2C[80682:80684](+),MGA_133
sequence1	MetaGeneAnnotator	CDS	80730	81359	.	+	0	ID=MGA_134;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKINPKAIKNALLQIEEQIKDPTERDVINVTLLKFMEKAAYELENIGHFGLASECYTHFTSPIRRYSDLIVHRFLKQYLVDKDIREFKLEQNEKFVLKACSIINDTEKQAVSAEREVNKVCMAEYMQSKINQEFEGIIAAVLKFGIFVQLDNCVEGLIHISELPDFSFDEKTSIMVNKQNKIFRLGQKIKIKVKNADVKKRIIDFVLA;locus_tag=LOCUS_01340;note=WP_011167012.1 ribonuclease R (Mycoplasma mycoides) [pid:57.8%25%2C q_cov:98.1%25%2C s_cov:29.3%25%2C Eval:2.1e-66%2C partial hit],internal stop codon at [80682:80684](+),MGA_134
sequence1	MetaGeneAnnotator	CDS	81552	81818	.	+	0	ID=MGA_135;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIKNYEFANHIKHDPTRNRILLLHKNEIKKILKRIQLENLTLIPLKLYLKGNYAKLEIALGKGKRTVDKRETIKQRDIERRLNKIRK;locus_tag=LOCUS_01350;note=WP_011183107.1 SsrA-binding protein SmpB (Mesoplasma florum) [pid:69.5%25%2C q_cov:92.0%25%2C s_cov:55.0%25%2C Eval:3.0e-26%2C partial hit],internal stop codon at [81438:81440](+),MGA_135
sequence1	MetaGeneAnnotator	CDS	81897	82088	.	+	0	ID=MGA_136;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYNINSFMFLNVNTNGLNDSNDIGSKKSIGDGQQHIALGVCNILFMAIPFGIISGILILIPEE;locus_tag=LOCUS_01360;note=MGA_136
sequence1	MetaGeneAnnotator	CDS	82051	82419	.	-	0	ID=MGA_137;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKTSKGLGVAGSIVMIVTTAIASIITILAGFTLIAAGGSTNIAAGTIAVIISIIIMAITLIFPIIILVFLTSKNKSNKKILAAGIISIVIAGLSLLGAFAGSIYLINFFFILLELILKFQI;locus_tag=LOCUS_01370;note=MGA_137
sequence1	MetaGeneAnnotator	CDS	82488	82892	.	-	0	ID=MGA_138;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKTAKSLGLAGAIVSLGLIITLIILAVGNQDANPGARFLIFTMMIILIIGFGVSLGLNIAILVMLSKKDKDNYAGLGVFQIVIGGLSLLFGQLISGGLTLASGIILMSTPVDNQEKEKKDRKVKEIEEDDSEY;locus_tag=LOCUS_01380;note=MGA_138
sequence1	MetaGeneAnnotator	CDS	82981	83229	.	-	0	ID=MGA_139;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKNLNNVFEISDMSKFELKDIKEILDKGQTILMALEKGEHVSNSLAKGFSDYLNAYIELKEEKENCGICGCGKPANILVYI;locus_tag=LOCUS_01390;note=MGA_139
sequence1	Aragorn:1.2.38	tmRNA	83318	83730	.	+	.	ID=Aragorn_1;product=transfer-messenger RNA;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_tm00010;note=Aragorn_1
sequence1	MetaGeneAnnotator	CDS	84920	85720	.	+	0	ID=MGA_140;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEILKEKNQNKKMLSLNEVANLNQFVTLFEPIFSIEQKDFTSYFLNGMIDGIEIDSELFDKKNQLISDMGLSTLFLRYTSFQSLKKLSKQNNLVKEKSIFIDYDSNYLSNENFDTNEFLLKLKNLKIDLSKLILNFNLNKEIDNQKLLEKNIQKLKKHLIRISVSNFGSLKTDFSLISLYKPEFIFLEKEISKKINYIKENENIVLESIKIANKIEAKLIATSVNSYIVYKHLRFLGIKMFTGELIGSSIEPKEIISEELKYLLNK;locus_tag=LOCUS_01400;note=MGA_140
sequence1	MetaGeneAnnotator	CDS	85735	86190	.	+	0	ID=MGA_141;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLEKSENIKHLSEEIERLVIDNDIKKLREFEETHYPQDIAEALEKLDEKIIIIALRLFTNDTSSEIFPHLDADIQEEIINKMSSKQISELFSDLYTDDIVDILEEMPSNIVKKVLRSSTPEARAQINNILKYNDDTAGSIMSVDYTRFKVD;locus_tag=LOCUS_01410;note=WP_011183114.1 magnesium transporter (Mesoplasma florum) [pid:41.0%25%2C q_cov:95.4%25%2C s_cov:30.8%25%2C Eval:4.0e-31%2C partial hit],internal stop codon at [86188:86190](+),MGA_141
sequence1	MetaGeneAnnotator	CDS	86263	86580	.	+	0	ID=MGA_142;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDDLNNLKGTVELKDLVFSKGNLKLSEIMDERVLFAFTKDDQETVIDKFKKYDITTLPVINIQQKLVGIVTVDDVLDVIEEEVTEDIHKMAGISPTDDEYFKTSI;locus_tag=LOCUS_01420;note=WP_004080209.1 magnesium transporter (Thermotoga) [pid:44.7%25%2C q_cov:98.1%25%2C s_cov:23.1%25%2C Eval:6.1e-19%2C partial hit],internal stop codon at [86188:86190](+)%2C[86578:86580](+)%2C[86605:86607](+)%2C[86863:86865](+),MGA_142
sequence1	MetaGeneAnnotator	CDS	86611	86865	.	+	0	ID=MGA_143;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLMISATLSQIIISMFMRIYSVNQTNNGQSSANEISYIITMFLTPLLTVISGTTGNAGSQSSTMIVRALSLKEVETKDFARVL;locus_tag=LOCUS_01430;note=MGA_143
sequence1	MetaGeneAnnotator	CDS	87010	87186	.	+	0	ID=MGA_144;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYLSVIMAKVIGGTLPILAKKLKLDPAVMAAPLLTTIVDALSTAIFFSIGLIFFAQYI;locus_tag=LOCUS_01440;note=WP_005898141.1 magnesium transporter (Fusobacterium nucleatum) [pid:62.3%25%2C q_cov:91.4%25%2C s_cov:12.0%25%2C Eval:1.3e-13%2C partial hit],internal stop codon at [86863:86865](+)%2C[86980:86982](+),MGA_144
sequence1	MetaGeneAnnotator	CDS	87259	87564	.	+	0	ID=MGA_145;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINAEKKINIDKLFKKKQDTYLEIGCGKGKFIIEQAIKNKDKNFIAMEKETTVIGVALKKAITTEDFDLTNLLFLNKYAENLLDLFNLNSLNGIFLNFSDP;locus_tag=LOCUS_01450;note=WP_011183115.1 tRNA (guanosine(46)-N7)-methyltransferase TrmB (Mesoplasma florum) [pid:50.5%25%2C q_cov:96.0%25%2C s_cov:45.3%25%2C Eval:3.2e-20%2C partial hit],internal stop codon at [87223:87225](+)%2C[87562:87564](+)%2C[87622:87624](+),MGA_145
sequence1	MetaGeneAnnotator	CDS	87676	87852	.	+	0	ID=MGA_146;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYEFSLEEIAKSKFKLIYNTNNLYSEKELLKDNIATEYEEKFHNLGKNINKIVIKKEV;locus_tag=LOCUS_01460;note=WP_011183115.1 tRNA (guanosine(46)-N7)-methyltransferase TrmB (Mesoplasma florum) [pid:59.6%25%2C q_cov:79.3%25%2C s_cov:21.1%25%2C Eval:2.1e-08%2C partial hit],internal stop codon at [87562:87564](+)%2C[87622:87624](+),MGA_146
sequence1	MetaGeneAnnotator	CDS	88029	88307	.	-	0	ID=MGA_147;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSIPLSTKEKITLVCQINLNFILIYLVCLTTNLSKTSVSLFYNMEVTTNIETEEKTLKIIKNRFVYTFIILFTVGAFFIELTSGSLINKIS;locus_tag=LOCUS_01470;note=MGA_147
sequence1	MetaGeneAnnotator	CDS	88771	89490	.	+	0	ID=MGA_148;product=purine-nucleoside phosphorylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183561.1;translation=MSNIPTPHIEAKKEDIARIVLMPGDPLRAKKIAETYLEDIKLVNSVRNMFMYTGNYKNIKVTIAGSGMGCPSIGIYSYELFKFYDVDYIIRVGSAGSYSEKINVYDIFNVKEAFGESNYAKIAANIDSNIIQSGEKLFNKIEEVAKKNNIEIHSGRCHSSDVFYRYEDSMKFAKENNLDVVEMESYALFANAIATNKQAACLLTVSDSFITKEVTTSEERQNNFLQMIELALETSLELK;locus_tag=LOCUS_01480;gene=deoD;EC_number=2.4.2.1;note=WP_011183561.1 purine-nucleoside phosphorylase (Mesoplasma florum) [pid:72.4%25%2C q_cov:97.1%25%2C s_cov:98.7%25%2C Eval:1.7e-97],MGA_148
sequence1	MetaGeneAnnotator	CDS	89638	89805	.	+	0	ID=MGA_149;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKILAIESSCDEFSVSIMNNGKILSNIISSQIEEHSKFGGVVPELASRLHVENFH;locus_tag=LOCUS_01490;note=WP_011166293.1 tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex transferase subunit TsaD (Mycoplasma mycoides) [pid:78.2%25%2C q_cov:100.0%25%2C s_cov:17.2%25%2C Eval:1.0e-18%2C partial hit],internal stop codon at [89803:89805](+),MGA_149
sequence1	MetaGeneAnnotator	CDS	89842	90603	.	+	0	ID=MGA_150;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=MKDINYISYTSNPGLIGSLIIGKLVAQTLAMYLNKPLMEMNHIQGHIYAANIEEKILYPALALVISGGHTQIQLLKKALDFKIIGSTQDDAVGECYDKVARVLGLKYPGGPKIDKLAQKGDSTKYILPISKNDDTYDFSFSGLKTASLNLISKLNQKQEKLIIEDFCASFQKTVLETLMLKFEKAVKEFKPKSIAVVGGVSANSAIRSKFCEVGKKYNINKIIIPKMEYCTDNAAMIAELTNEYLKKDNQGGL;locus_tag=LOCUS_01500;gene=tsaD;EC_number=2.3.1.234;note=WP_011166293.1 tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex transferase subunit TsaD (Mycoplasma mycoides) [pid:60.0%25%2C q_cov:98.8%25%2C s_cov:78.4%25%2C Eval:9.4e-89],internal stop codon at [89803:89805](+),MGA_150
sequence1	MetaGeneAnnotator	CDS	90607	90996	.	+	0	ID=MGA_151;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRSFLSKLTTIDDKDLTIKEKKIVEYIKNHLKEIVDTNMKIERMAQEAGTGYSAIYGLLKKLNIKGFRDFAISLANDAENQEINVAKNDENVVSGYINIIKQNYALIEKKSIFETLNIIKNSKRIFFCY;locus_tag=LOCUS_01510;note=WP_011183381.1 MurR/RpiR family transcriptional regulator (Mesoplasma florum) [pid:58.9%25%2C q_cov:100.0%25%2C s_cov:49.6%25%2C Eval:3.7e-40%2C partial hit],internal stop codon at [90994:90996](+)%2C[91009:91011](+),MGA_151
sequence1	MetaGeneAnnotator	CDS	91411	91572	.	+	0	ID=MGA_152;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKKRVKKNKLINAIKKSFKAFYGVMEKPFCAPNFEVSKKIKQFEKTKEDRK;locus_tag=LOCUS_01520;note=MGA_152
sequence1	MetaGeneAnnotator	CDS	91573	91755	.	+	0	ID=MGA_153;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEILTTNRIVRKFYKRSELEIKDLENVSLFSFKSRDNLDLVGLIYEPNKNSNKWVIASH;locus_tag=LOCUS_01530;note=WP_011183380.1 alpha/beta hydrolase (Mesoplasma florum) [pid:37.9%25%2C q_cov:96.7%25%2C s_cov:15.2%25%2C Eval:4.2e-07%2C partial hit],internal stop codon at [91753:91755](+)%2C[91774:91776](+)%2C[91915:91917](+),MGA_153
sequence1	MetaGeneAnnotator	CDS	91792	91917	.	+	0	ID=MGA_154;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFAKMGYNIIAYDFRGHGQSQDYSTTMGGKEHLDLMGAVD;locus_tag=LOCUS_01540;note=MGA_154
sequence1	MetaGeneAnnotator	CDS	92305	92469	.	+	0	ID=MGA_155;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKRNFEEDDYVMFNFSMHTQSIRYHFKNFNYKIAEFISKFEQDNTSFENIVEE;locus_tag=LOCUS_01550;note=MGA_155
sequence1	MetaGeneAnnotator	CDS	92585	93277	.	+	0	ID=MGA_156;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDIKTLFLEFKNTKEITLIARVRSNRQGKVVSFLVLTDGTTVKDVQVVYKSDVKGYKDAVQARVSSIVEVKGIVVLTPDKQQDFEIQAQEIILLDQSIEEYPLQKKEHSPEFLREISHLRARTKTFQSIFKIRSVTAFAIHKFFQEKNYVYINTPIITENDAEGAGEAFIVTTRQDGKYEEDFFGKKANLTVSGQLNAEAYAQAFKNVYTFGPTFRAENSNTSKHAAEF;locus_tag=LOCUS_01560;note=WP_011166290.1 asparagine--tRNA ligase (Mycoplasma mycoides) [pid:74.5%25%2C q_cov:93.9%25%2C s_cov:47.3%25%2C Eval:7.2e-90%2C partial hit],internal stop codon at [93275:93277](+),MGA_156
sequence1	MetaGeneAnnotator	CDS	93278	93802	.	+	0	ID=MGA_157;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEPEMAFCDLKENMQIIEDLVKYSINYVFENAREELEFCNENLEEGLIDKLNNVRNSKFVINKYEEVIKILQKAVLDGHKFEESSIEFGLDLATEHERYICEVVNKCPTFVTDYPKEIKAFYMKQNDDNRTVAATDLLVPGIGELVGGSQREDDYDKITDRCKKMGINIEELS;locus_tag=LOCUS_01570;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:5.1e-72%2C partial hit],internal stop codon at [93275:93277](+)%2C[93800:93802](+),MGA_157
sequence1	MetaGeneAnnotator	CDS	94046	94210	.	+	0	ID=MGA_158;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLVSFVITWQEIEENINATLQSVLDQTDKDYEIILISDKMLEDNDELSILRNYF;locus_tag=LOCUS_01580;note=MGA_158
sequence1	MetaGeneAnnotator	CDS	95219	95494	.	+	0	ID=MGA_159;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLYFILIPYFLKGNTLGKLIFNLRLKKEDESKIKLKDIFFREFYFLYIPLLFQIVVQIIMGIIIFTNSKDTDLNFVLKIINSIGYTFLAM;locus_tag=LOCUS_01590;note=WP_011183465.1 RDD family protein (Mesoplasma florum) [pid:50.0%25%2C q_cov:53.8%25%2C s_cov:18.0%25%2C Eval:1.6e-08%2C partial hit],MGA_159
sequence1	MetaGeneAnnotator	CDS	95697	96224	.	+	0	ID=MGA_160;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKFDNVINKIQEFVEKKYFTGAVLKINQNKENIFSYSFGINDLEKNTLMNEELIFRAYSMTKTITVAAFLTLVDENKISLKDPLSKFYPEFKNMKVLDKKNLNEVVECKNEILMSHLLTMTSGFTYFGNKNKTQKETTVLLSQFAKKQNNKFMNYESFMKELSKIPLEFEPGTN;locus_tag=LOCUS_01600;note=WP_011167029.1 serine hydrolase domain-containing protein (Mycoplasma mycoides) [pid:41.0%25%2C q_cov:98.9%25%2C s_cov:47.2%25%2C Eval:7.3e-26%2C partial hit],internal stop codon at [96222:96224](+)%2C[96384:96386](+),MGA_160
sequence1	MetaGeneAnnotator	CDS	96468	96635	.	+	0	ID=MGA_161;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPMGGAGLFTTAPDYLKFLDFLLDGKDSKKNELLSSKILKEMTKDQLNELRKNFI;locus_tag=LOCUS_01610;note=MGA_161
sequence1	MetaGeneAnnotator	CDS	96780	96899	.	+	0	ID=MGA_162;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCLMLSSKPGHNKLVESEFFEALYKDLKNNEIISNVDKL;locus_tag=LOCUS_01620;note=MGA_162
sequence1	MetaGeneAnnotator	CDS	96912	97358	.	+	0	ID=MGA_163;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIENLLKELNDEQLDSVITTDVPLRIIAGAGSGKTRVITTKVAYLIEKEGMNPSKILAVTFTNKAAQEMKDRVKKILPSLDRNPIITTFHSFCVRVLREDCEYIGLSKDFTIIDNSDQNKIIRDIVKKLDISDDKNKPEKKILSKISN;locus_tag=LOCUS_01630;note=WP_011183464.1 UvrD-helicase domain-containing protein (Mesoplasma florum) [pid:58.4%25%2C q_cov:99.3%25%2C s_cov:20.6%25%2C Eval:1.4e-41%2C partial hit],internal stop codon at [97356:97358](+)%2C[97377:97379](+)%2C[97422:97424](+)%2C[97542:97544](+)%2C[97617:97619](+),MGA_163
sequence1	MetaGeneAnnotator	CDS	97746	97994	.	+	0	ID=MGA_164;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTENYRSTKPILDIANHFIDNNKNREKKDIFTQKKEGEIVHVKEVASRNFEAKFVSKKIKELIETKEYKYSDIYVLYRTNA;locus_tag=LOCUS_01640;note=WP_011183464.1 UvrD-helicase domain-containing protein (Mesoplasma florum) [pid:60.5%25%2C q_cov:98.8%25%2C s_cov:11.1%25%2C Eval:1.9e-20%2C partial hit],internal stop codon at [97542:97544](+)%2C[97617:97619](+)%2C[97680:97682](+)%2C[97992:97994](+),MGA_164
sequence1	MetaGeneAnnotator	CDS	98172	99071	.	+	0	ID=MGA_165;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTASKLKQAAFDLNVSLFDFLTKYKEEVYSISKNLNELINCLIKARELFKENKSLLELTELLVKESGYRDRLDLKDKEDVESLQNLEVYYDQMEKYDFDYNQSENEINRTVNFLQEEALSSDEDNLKEINKVTLLTIHSAKGLENKVVFIVGLNKDVFPSKMSFYSIESLEEERRAFYVAITRAQEKLFISYVSGEYSYISSGELGPSRFIQELNPELYEIEKSIYFHSNNDISSSYRGSAKNLDVKPIKLEAGVIKGDKIKHMIFGKGNVIKVIEKHISVAFDDPKQGVKMIPINSSS;locus_tag=LOCUS_01650;note=WP_011183464.1 UvrD-helicase domain-containing protein (Mesoplasma florum) [pid:42.4%25%2C q_cov:100.0%25%2C s_cov:41.2%25%2C Eval:2.0e-59%2C partial hit],internal stop codon at [97992:97994](+),MGA_165
sequence1	MetaGeneAnnotator	CDS	99164	99427	.	+	0	ID=MGA_166;product=HPr family phosphocarrier protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166936.1;translation=MTSFTAKVIDPVGLHARPASVLTKEASKFASEIKIKCGDKEGNLKSIMNVMALAVKTGAEITIEANGEDEKEAIEAIEKAMKDNSII;locus_tag=LOCUS_01660;note=WP_011166936.1 HPr family phosphocarrier protein (Mycoplasma mycoides) [pid:60.9%25%2C q_cov:100.0%25%2C s_cov:97.8%25%2C Eval:1.8e-23],MGA_166
sequence1	MetaGeneAnnotator	CDS	100194	100373	.	+	0	ID=MGA_167;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLDTIQATVGDVAQVPNSLTDHEQVIYTNFAFMVAVHARSYGTIFSTLCSSEQIEEAHE;locus_tag=LOCUS_01670;note=WP_011183428.1 class 1b ribonucleoside-diphosphate reductase subunit beta (Mesoplasma florum) [pid:96.6%25%2C q_cov:100.0%25%2C s_cov:17.4%25%2C Eval:1.4e-26%2C partial hit],internal stop codon at [100032:100034](+)%2C[100068:100070](+)%2C[100092:100094](+)%2C[100134:100136](+)%2C[100155:100157](+)%2C[100371:100373](+),MGA_167
sequence1	MetaGeneAnnotator	CDS	100428	100952	.	+	0	ID=MGA_168;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGNDPLKSKVAAALMPGFLLYGGFYLPFYLSARGKLPNTSDIIRLILRDKVIHNYYSGYKYQRKVEKLPPKEQAEMKKFVFDLLYELIDLENKFLYELYDGFGIAEDAVRFSLYNAGKFLQNLGYESPFSEEETRIEPEIFTQLSARADENHDFFSGNGSSYVMGVTEETSDED;locus_tag=LOCUS_01680;note=WP_001192437.1 class 1b ribonucleoside-diphosphate reductase subunit beta (Streptococcus) [pid:84.4%25%2C q_cov:99.4%25%2C s_cov:51.5%25%2C Eval:9.8e-84%2C partial hit],internal stop codon at [100155:100157](+)%2C[100371:100373](+)%2C[100950:100952](+),MGA_168
sequence1	MetaGeneAnnotator	CDS	100965	101411	.	+	0	ID=MGA_169;product=class Ib ribonucleoside-diphosphate reductase assembly flavoprotein NrdI;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183427.1;translation=MHEDVIRISKKYIKKPKGEIFVVYFSSISNNTHRFMEKLDVNDSRIPYDLDEELIVEKEYVLITPTYAGGGGDTKGAVPAQVVKFLNKEVNRNLCRGVIASGNTNFGDTFAIAGPIISRKLKVPFLYQFELLGTKHDVNTVRKILNDL;locus_tag=LOCUS_01690;gene=nrdI;note=WP_011183427.1 class Ib ribonucleoside-diphosphate reductase assembly flavoprotein NrdI (Mesoplasma florum) [pid:68.0%25%2C q_cov:99.3%25%2C s_cov:97.4%25%2C Eval:8.3e-55],MGA_169
sequence1	MetaGeneAnnotator	CDS	101425	103068	.	+	0	ID=MGA_170;product=class 1b ribonucleoside-diphosphate reductase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183426.1;translation=MTKDNIKSLSGTNESEEYIKLNARAKLFVPGQDNFKLDIQAADLYMKEHIEPNMMKFSSVKERIDYLIKNEYYDEEVIKKYSLKEIEELTEYAYSFNFKFPSFMGALKFFNAYGLKSFDGKKYLESYEDRVISNSLFLAGGNFQKAKNILKQIILGRFQPATPTFLNAGKKQRGEYVSCYLLRVEDNMESIARAVTTSLQLSKRGGGVALCLTNLREFGAPIKNIENQATGVIPVMKILEDSFSYANQLGQRQGAGAVYLNVHHPDILSFLDTKRENADEKIRIKSLSLGVVVPDITFELAKENKEMALFSPYDVEKVYKKPFSDISITKEYESMLKNTQIKKTYINARKLFQAIAELHFESGYPYLLFDDTVNNRNAHPIAGRIVMSNLCSEIVQVSTPSEFNSDLSFSKVGEDICCNLGSMNIAKTMESGEEFSEVIYNSIVALDHVSRNSDISSAPSIENGNKNNHAVGLGAMNLHGFLATNHIYYNSPEAIDFTNIFFYTMAFHAFKASNKLAKEFGSFSGFKISKFADGSYFDKYTKCEKDK;locus_tag=LOCUS_01700;gene=nrdE;EC_number=1.17.4.1;note=WP_011183426.1 class 1b ribonucleoside-diphosphate reductase subunit alpha (Mesoplasma florum) [pid:74.4%25%2C q_cov:100.0%25%2C s_cov:75.9%25%2C Eval:7.9e-245],internal stop codon at [103066:103068](+)%2C[103138:103140](+),MGA_170
sequence1	MetaGeneAnnotator	CDS	103174	103590	.	+	0	ID=MGA_171;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANSHLMAVAPTGSISYLSSCTPSLQPVVAPVEVRKEGLLGRVYVPAYKIDFDNMGYYSLGAYEVGPNPIIDIAAAAQQHVDQAISLTLFMTDQVTTRDLNKAYIRAFKKGCSSIYYVRVRQEVLENSENYECDACVI;locus_tag=LOCUS_01710;note=WP_011183426.1 class 1b ribonucleoside-diphosphate reductase subunit alpha (Mesoplasma florum) [pid:89.9%25%2C q_cov:100.0%25%2C s_cov:19.1%25%2C Eval:1.2e-67%2C partial hit],internal stop codon at [103066:103068](+)%2C[103138:103140](+),MGA_171
sequence1	MetaGeneAnnotator	CDS	103696	104097	.	+	0	ID=MGA_172;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEIKNISRKLGNFGLENVSFNIEKGSVVAFVGDNGAGKTTTIKALFGELKLDSGEILIDGEDLFKNNNLSKVAFFPDSNNVPLDIKVHEYLHYICAANNMNKERTELSIDNVYRLLELRPYKDKRIKELSSG;locus_tag=LOCUS_01720;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:1.1e-15%2C partial hit],internal stop codon at [104095:104097](+),MGA_172
sequence1	MetaGeneAnnotator	CDS	104113	104442	.	+	0	ID=MGA_173;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MASVLVRSPEYIIFDEPTANVDVESKLYFMDIFKLLSKVGITILITSHIIEELQELANYLVLIKKGQIVYSNNFDKSKEHIMDVYKRHMNEPIKDLHILRDLYSKKDKK;locus_tag=LOCUS_01730;note=WP_002990429.1 ABC transporter ATP-binding protein (Streptococcus pyogenes) [pid:34.1%25%2C q_cov:77.1%25%2C s_cov:27.7%25%2C Eval:1.2e-11%2C partial hit],MGA_173
sequence1	MetaGeneAnnotator	CDS	104442	104792	.	+	0	ID=MGA_174;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKLIKENKIKKENKSKEFKNFSLLYLINLKLSLKNVGSIISGIIFSLITIIFFIIEYTKVIEASSLSSYGVYKYLTFLLGGMALIFHILLNSLYLFKKQVKDGISSIELRAGYKT;locus_tag=LOCUS_01740;note=MGA_174
sequence1	MetaGeneAnnotator	CDS	104985	105173	.	+	0	ID=MGA_175;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVLFKTSLATAFGMLFMVVLTMAPMFASFKYMLGYSVTENYKTNIKMIGAQDFYKTTKSNQE;locus_tag=LOCUS_01750;note=MGA_175
sequence1	MetaGeneAnnotator	CDS	105663	105896	.	+	0	ID=MGA_176;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIDSFSKEMSSLLPQYSIVFDFINDYYNKYKTAIIAESKNNSGSFNSSTAIYHGIMDTPLAYEYNKQNKNKIQFYS;locus_tag=LOCUS_01760;note=MGA_176
sequence1	MetaGeneAnnotator	CDS	105966	106100	.	+	0	ID=MGA_177;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNSREPKNVCDTTSKNIKSNDEMAEVYKKFPELTIINQLIINL;locus_tag=LOCUS_01770;note=MGA_177
sequence1	MetaGeneAnnotator	CDS	106110	106505	.	+	0	ID=MGA_178;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEFSIGDSIEDGLYSYHESTIKSNTLKTDLFRHFAAMSTGLFSPVLLNDSYNTQSSIFYQGQFLNISNIFDFENYSSENKSAKSPMAPVYEKVQIKKRVVFMIPLAYAMYFILITPLAYVGYIFFNKKAKL;locus_tag=LOCUS_01780;note=MGA_178
sequence1	MetaGeneAnnotator	CDS	106523	106924	.	+	0	ID=MGA_179;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEIKNITRDLGGFVINQVSFKIKKGSVVAFVGDNGAGKTTTIKALFGELKLEQGEILMDGKNIFEEENLQRIAFFPDSNSVPLNMKLKDYVSYICAVNNIPKKEAKETADKIFKMLSLEPYINKKIKSLSAG;locus_tag=LOCUS_01790;note=WP_010979801.1 ABC transporter ATP-binding protein (Sulfurisphaera tokodaii) [pid:34.6%25%2C q_cov:100.0%25%2C s_cov:45.6%25%2C Eval:3.6e-16%2C partial hit],internal stop codon at [106922:106924](+),MGA_179
sequence1	MetaGeneAnnotator	CDS	106940	107275	.	+	0	ID=MGA_180;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MASVLVRTPEYIVFDEPTANVDVEAKLSFMNILHELSNIGVTILITSHILEELQEVANYVVLIRDGEVVLEKDFDNKKESIAQIYKDVMAEKNNGEKLLKEIYSLNEGVVS;locus_tag=LOCUS_01800;note=WP_010980558.1 ABC transporter ATP-binding protein (Sulfurisphaera tokodaii) [pid:30.8%25%2C q_cov:95.5%25%2C s_cov:36.6%25%2C Eval:1.2e-09%2C partial hit],internal stop codon at [106922:106924](+),MGA_180
sequence1	MetaGeneAnnotator	CDS	107277	107654	.	+	0	ID=MGA_181;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEQATLKLVKTQKPKKEKKFNGFKTLYLINLKRLIRNKGILATSIISMIITLIFSLTVANTMKSPETAMEIGLIMLSIGFIIQIFFFILFMIIMSTELIKKQMLDGIQNIETRSGMKFKTSFLLR;locus_tag=LOCUS_01810;note=MGA_181
sequence1	MetaGeneAnnotator	CDS	107856	108452	.	+	0	ID=MGA_182;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNIFITLVLVFSGMISSIPMLFSNDQIRNNTMVMNLNLRLEIANSFYNTFKDDENINFIFNDNEMNNQTSKFSAAINSNKSLKTQNINVTDLYYYNLISNDNIKDKRDVQILERSLYGGKPNLKYSYNSEDASVTPKNVLSGTDIFEKILNPIYEEVLKGMKSDNNKPPVSKPAYMGGFINKRETSQGFHDLAPLSK;locus_tag=LOCUS_01820;note=MGA_182
sequence1	MetaGeneAnnotator	CDS	108501	108725	.	+	0	ID=MGA_183;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKIYSNYSFTLTATRPYGSYSSGSGTYEPYIFASKFISNNNQENFDDEINTEANRVYKRYPELMIINDIITET;locus_tag=LOCUS_01830;note=MGA_183
sequence1	MetaGeneAnnotator	CDS	108888	109163	.	+	0	ID=MGA_184;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYGQLFGKAMNKDLIFSNSILAYSGITTGYSNYQDLNKVDIRNRSSQDQNKPLEPIFKDVKLKKKFGFSAPLAYLMYLLVSFAMMYLVYLL;locus_tag=LOCUS_01840;note=MGA_184
sequence1	MetaGeneAnnotator	CDS	109405	110118	.	+	0	ID=MGA_185;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKKLSGIGASNGISFAKVYVLDEKPIIISKEATKNVDSELSIITSSIEKAKNDLIKLQSIAKEKLGEEKAAIFEAHASILEDPAMAEEFTNLVKEKNYNAARAIKEVADKYVSMFEAMDDDYFKERAADVKDVTERLIRYVLNLPVADLATINEEVIIVAEDLTPSQTAQLNPKFVKGFACNIGGRTSHAAIMARSLEIPAVLGLKTIVHDVKENDILALNGETGDVEINPKNKEE;locus_tag=LOCUS_01850;note=WP_011183417.1 phosphoenolpyruvate--protein phosphotransferase (Mesoplasma florum) [pid:56.3%25%2C q_cov:97.5%25%2C s_cov:40.3%25%2C Eval:6.3e-68%2C partial hit],internal stop codon at [110116:110118](+),MGA_185
sequence1	MetaGeneAnnotator	CDS	110215	110898	.	+	0	ID=MGA_186;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEGNIGSPKDVASVLENGGEAIGLFRSEFLYMDNDHFPTEEEQFISYKKVVEEMNGKITVIRTLDIGGDKKLSYFAFPDEMNPFLGYRAIRFTLDRKDIFKDQIRALLRASAFGPVGIMFPMIATVDEFLAAKKFTLDCKAELEKEGQKIGSDLEIGMMVEIPAAAVNAENFAKHADFFSVGTNDLIQYTMAADRMSENVTYLYQPYNPSILRLLKMTIDGAHKHGK;locus_tag=LOCUS_01860;note=WP_011183417.1 phosphoenolpyruvate--protein phosphotransferase (Mesoplasma florum) [pid:74.4%25%2C q_cov:100.0%25%2C s_cov:39.6%25%2C Eval:1.7e-96%2C partial hit],internal stop codon at [110116:110118](+)%2C[110896:110898](+),MGA_186
sequence1	MetaGeneAnnotator	CDS	110905	111123	.	+	0	ID=MGA_187;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCGEMAGEPDAIPLLMGLGLDAYSMSATSILKARSIMSKLTLKETQELANKALECETSDQVLKLVKELMKNK;locus_tag=LOCUS_01870;note=WP_100609812.1 phosphoenolpyruvate--protein phosphotransferase (Entomoplasma freundtii) [pid:75.4%25%2C q_cov:90.3%25%2C s_cov:11.3%25%2C Eval:7.8e-22%2C partial hit],internal stop codon at [110896:110898](+),MGA_187
sequence1	MetaGeneAnnotator	CDS	111799	112275	.	+	0	ID=MGA_188;product=PTS glucose transporter subunit IIA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183084.1;translation=MGLFTKNKSLDVFAPVDGEIIDLSKVEDEVFSEKMLGDGIAFIPENGEFVAPIDGKLVTVFPSGHAYGIANSNGVEILLHIGLDTVSLNGEGFDINVKQGQSVKKGDLLVNVDIKSVFAKVPSMHTPLIFTSDSMNGKNFEILKTGKVKKGDLIAQVK;locus_tag=LOCUS_01880;note=WP_011183084.1 PTS glucose transporter subunit IIA (Mesoplasma) [pid:59.5%25%2C q_cov:99.4%25%2C s_cov:99.4%25%2C Eval:2.4e-48],MGA_188
sequence1	MetaGeneAnnotator	CDS	112474	112635	.	-	0	ID=MGA_189;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIIPIETDIIYKIENAEAREIAELESATSGINSERIKGTIKTDVTKIIPSIL;locus_tag=LOCUS_01890;note=MGA_189
sequence1	MetaGeneAnnotator	CDS	112688	112888	.	+	0	ID=MGA_190;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFILGPQIVSIIIFPLLRVFLKGNVELTNSFASLITMIVTEVIIITLALIYDRKIFKRVKETIKNK;locus_tag=LOCUS_01900;note=MGA_190
sequence1	MetaGeneAnnotator	CDS	112928	113161	.	+	0	ID=MGA_191;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFIFVTFIIQNLIETKLIGVGESNNQGSLVSILKEDKYGLNVKIVYAIMLFILTVIVASFCEELCLRNSFNLNASNR;locus_tag=LOCUS_01910;note=MGA_191
sequence1	MetaGeneAnnotator	CDS	113552	114280	.	+	0	ID=MGA_192;product=RluA family pseudouridine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166934.1;translation=MDDEIKIYDSSQTEKRDQFVEVDFSNLEIIYEDENILIVDKQPNLEVHSPININLDQMVKSYLKDKGEYNPEQENSFVISHVHRIDKLTKGLVIYAKNKVTLDILLKELNNKDKLIKLYLAKTENNNLQIGKINGYIKYDNDNQKARFRVEKFNNTKKVEQINTLIDDKNNIYEIQILTGRKHQIRAVCSFYKSPICKDFRYGAKRSELKEIDLIAYKIIFKNFEGHLAYLNENEYKSKYNF;locus_tag=LOCUS_01920;note=WP_011166934.1 RluA family pseudouridine synthase (Mycoplasma mycoides) [pid:51.0%25%2C q_cov:97.5%25%2C s_cov:78.5%25%2C Eval:3.7e-55],internal stop codon at [113486:113488](+),MGA_192
sequence1	MetaGeneAnnotator	CDS	115121	115294	.	+	0	ID=MGA_193;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNSDIAIVSVILGLNVSSTLSLYLVVALNVRLIMTNFVVSFREFFVTLVAKKGRIN;locus_tag=LOCUS_01930;note=WP_011183460.1 transporter (Mesoplasma florum) [pid:47.5%25%2C q_cov:98.2%25%2C s_cov:8.6%25%2C Eval:6.0e-11%2C partial hit],internal stop codon at [115034:115036](+)%2C[115097:115099](+)%2C[115292:115294](+),MGA_193
sequence1	MetaGeneAnnotator	CDS	115355	115726	.	+	0	ID=MGA_194;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSILSPYFVSALYGENINIKNDIASQKAFEYMFYTPKFSILYAAVTAFTILCDGQMTLIQAKGRYGEVSKFQNIVGIVYIISAPLITFILVTSGVGGINKLIVGIVIMYSIKLLCLIVRYSYL;locus_tag=LOCUS_01940;note=MGA_194
sequence1	MetaGeneAnnotator	CDS	115745	116224	.	+	0	ID=MGA_195;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTYNSNKKYVINNFLILIVPTSIAILLNLLYISKKLNIETATSSEGHIAPLIGMFFGLIFTSIFVLILFSYILNAKAFNGIIKNLPVVQRILLKKSTEARKKRFEEYGIDIDEIVDNSDKISQAMYGIEDSTITTEIIDDLAEIKINPKNDNIYILKGK;locus_tag=LOCUS_01950;note=MGA_195
sequence1	MetaGeneAnnotator	CDS	116315	116593	.	+	0	ID=MGA_196;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTGSLFIAIGISILYLFMFYTSGLIAIELFKFKIKNYFVAIATGFFSYFTFLSVFTFPLQLISVLPYVFFIYYIFAISIIYLLFCFVFMRF;locus_tag=LOCUS_01960;note=MGA_196
sequence1	MetaGeneAnnotator	CDS	116840	117034	.	+	0	ID=MGA_197;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIANVQPYQYKDLLIPLSIILDAFLLSSIFFTFYESFSLKTRNKNKIILFLSSLILFMITRLVF;locus_tag=LOCUS_01970;note=MGA_197
sequence1	MetaGeneAnnotator	CDS	117340	117600	.	-	0	ID=MGA_198;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFLITESQIYKIFRELNLSEIIFSLKAKIKAVDRVIKNIGTNKTVNILLFSKKFSNLITKLYFLFINIEVIIIRKRIAPNTITCI;locus_tag=LOCUS_01980;note=MGA_198
sequence1	MetaGeneAnnotator	CDS	118011	118847	.	+	0	ID=MGA_199;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDNPIVDDSEYDKYLNELIMLETDNPEFKTDDSPTQKVGGQVMDKFEKYKHKLPMLSLSNAFNKDDLETFDEQIFKEIESKKYNFFVEPKIDGLSISLIYKNGNFFKGVTRGDGIYGEDVTSNVKTIKSIPLSISDKSDYVEIRGEVFLSKVEFEKINKQRQNNDEELFANPRNAAAGTLRQLDSSIAASRKLDAFLYYFMNREKFHTHSESLNYLEKMNFKVNKLGKICNDIEEVYNHIKFIELQREKLEYEIDGVVIKINDFDLYEKVGYTAKSPK;locus_tag=LOCUS_01990;note=WP_011183057.1 NAD-dependent DNA ligase LigA (Mesoplasma florum) [pid:57.3%25%2C q_cov:100.0%25%2C s_cov:41.7%25%2C Eval:5.2e-83%2C partial hit],internal stop codon at [117990:117992](+)%2C[118845:118847](+)%2C[119124:119126](+),MGA_199
sequence1	MetaGeneAnnotator	CDS	119262	119612	.	+	0	ID=MGA_200;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIEGLSIKIIEKLFENKFIKNVADIYKLSKFKDELIQLDKMGEKSVSNLLESIEKSKNSSLEKLFFGLGIRHVGKKTAKTLAISFKTMENISKINFEELEQINDVGPIVAKSVCD;locus_tag=LOCUS_02000;note=WP_010989804.1 NAD-dependent DNA ligase LigA (Listeria monocytogenes) [pid:56.1%25%2C q_cov:98.3%25%2C s_cov:16.7%25%2C Eval:1.9e-28%2C partial hit],internal stop codon at [119124:119126](+)%2C[119610:119612](+),MGA_200
sequence1	MetaGeneAnnotator	CDS	119631	119933	.	+	0	ID=MGA_201;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQLINKLKEENINMIYLGNEGSKNNDKITLKSFVITGTLSKPRNYFKDLLEEYGAKVIDTVSKKTDFLLAGKEAGSKLEKAEKLGVKIISEESLLEMIGE;locus_tag=LOCUS_02010;note=WP_011183057.1 NAD-dependent DNA ligase LigA (Mesoplasma florum) [pid:55.6%25%2C q_cov:98.0%25%2C s_cov:14.6%25%2C Eval:3.4e-22%2C partial hit],internal stop codon at [119610:119612](+),MGA_201
sequence1	MetaGeneAnnotator	CDS	119937	120227	.	+	0	ID=MGA_202;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKINLELLEELQEDAMLTLSKKELESILKYENDLLKKFEKVLSVDTNNVEELHYPFDILQTHLREDDKISVLPQSEILKNAPTIDGDFLTITKVVK;locus_tag=LOCUS_02020;note=MGA_202
sequence1	MetaGeneAnnotator	CDS	120229	121698	.	+	0	ID=MGA_203;product=amidase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183059.1;translation=MNFKKTTLKDVHNKLINKEISITDLVEDVLKTSEKEMKSNFLITLCKEEALKKAKELEKNIDKENILYGIPFIHKDNISTKGILTTAGSKILSNYVPSFNATIAEKFLESNSIMIGKAALDELSMGGTGLFSFNGEVRNPYDSNRIVGGSSSGSAYAVAKGIVPFATGGDTGDSIRKPASLNGIVGFKPTYGSISRYGAIPYAPSLDHLGFFTNNVEDLTYLCEATYAKDDKDFTSIDNRDEFVKNINNLDKKIKFGYIKHIEKYLDGQLKKDYEKLYEILKKEGHEVLELDFDKKLLHAVPATYMMISFAEGVSTHYNLDGIKFGLRAEGKDYREIIKNSRTQGFGDTVKRRFIIGSYQLKSKNQEILLAKSKKVRRLIVETLDKLYEQVDILIIPPTFKPAPTVNNVYGVDVEQKDDNEGSFVEDVLILANFNGMPSITIPFTTQDNMPIGINLNAKPKKDLKVLQAAKFLEEIISKNFRQVGDLIE;locus_tag=LOCUS_02030;note=WP_011183059.1 amidase family protein (Mesoplasma florum) [pid:54.3%25%2C q_cov:97.5%25%2C s_cov:98.1%25%2C Eval:2.8e-145],MGA_203
sequence1	MetaGeneAnnotator	CDS	121691	122548	.	+	0	ID=MGA_204;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNFEVIIGIENHVELKTNSKMFGLGPVTYGEIPNSQVSEIDMGYPGTMPSVNKEGVRLALLACNALNMIIDPVLRFDRKNYFYPDLVKGFQITQQFFPIGKEGKLEITLEDGSKKVIEIERLHIEEDTAKQTHKGDLTYIDFNRSGVGLVEIVSKPFIRSANEAVEYVNKLREILLYLGVSDVKMNEGSLRCDVNISLRPYGYSKFGPKVEIKNLNSLNNVKKAIEFEINRQSKILLSGYSVQQETRRFDESTQETVLMRKKDNAIDYKYFREPNIFPIQLNEK;locus_tag=LOCUS_02040;note=WP_015545356.1 Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatB (Mycoplasma mycoides) [pid:73.3%25%2C q_cov:100.0%25%2C s_cov:59.5%25%2C Eval:4.3e-120%2C partial hit],internal stop codon at [122546:122548](+),MGA_204
sequence1	MetaGeneAnnotator	CDS	122771	123139	.	+	0	ID=MGA_205;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSQSKLKPKDISEIIKMLEENLISSKHVKVILPIAFETEKTIKEIVEENNLKLISDVKEIEKMLSKIIEQNSSLIKEQYEQRQERVEKTLMGQLMKETGGNVNPTVATEILIKMIKDYLKKC;locus_tag=LOCUS_02050;note=WP_011183060.1 Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatB (Mesoplasma florum) [pid:50.0%25%2C q_cov:94.3%25%2C s_cov:24.0%25%2C Eval:3.3e-25%2C partial hit],internal stop codon at [122546:122548](+),MGA_205
sequence1	MetaGeneAnnotator	CDS	123156	123851	.	-	0	ID=MGA_206;product=NAD-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183062.1;translation=MARKKSFAIFGANYFGLSVAQTLDEKKQLIKIFDYDEEKLNLHINEFESVEGIVLDATNKNALEKNGIAQYDGVIVCFGGNMESSILTVLNLLDLGVENIIVKARDERHKRILLALGLEEDKVIIPDVITGKMVATKSLFDIESEVQSIDNEYVFTSITVKEEEVIDKSIFDAGLSSNKDFNIIQIKRNGKTLLPDEYTILKEGDILGVYAKNNIVNDLVLKIRGEQEAEE;locus_tag=LOCUS_02060;note=WP_011183062.1 NAD-binding protein (Mesoplasma florum) [pid:55.3%25%2C q_cov:97.4%25%2C s_cov:75.0%25%2C Eval:1.5e-66],MGA_206
sequence1	MetaGeneAnnotator	CDS	124176	124568	.	+	0	ID=MGA_207;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFTASSAISDTGITIVQTNTGYSFIGQLLIIIMCQIGGIGILTIKISLLVMIGRKISLDDQNIASSERGNNSLSNTVEMIKDAFIFLIGLEIVGSIILFFGFYFTPIDINNLDVSKDSITNAYNDFGKSL;locus_tag=LOCUS_02070;note=WP_164919774.1 TrkH family potassium uptake protein (Mesoplasma florum) [pid:44.6%25%2C q_cov:100.0%25%2C s_cov:23.3%25%2C Eval:7.9e-27%2C partial hit],internal stop codon at [124044:124046](+)%2C[124047:124049](+)%2C[124158:124160](+)%2C[124566:124568](+)%2C[124698:124700](+),MGA_207
sequence1	MetaGeneAnnotator	CDS	124713	124865	.	+	0	ID=MGA_208;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGYPTYHDIKKKIKARKQGKTVKFSLFTKLNFITYITLFILGPILVFLTE;locus_tag=LOCUS_02080;note=WP_164919774.1 TrkH family potassium uptake protein (Mesoplasma florum) [pid:58.0%25%2C q_cov:100.0%25%2C s_cov:9.0%25%2C Eval:2.8e-11%2C partial hit],internal stop codon at [124566:124568](+)%2C[124698:124700](+)%2C[124863:124865](+)%2C[124959:124961](+)%2C[124974:124976](+)%2C[124992:124994](+)%2C[125097:125099](+),MGA_208
sequence1	MetaGeneAnnotator	CDS	125100	125588	.	+	0	ID=MGA_209;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFIGAAPSSTAGGIRTTTFAICILAIFSIIRNKKSVEAFKRKIPDETVKRSFAVVFISFFIVITSIFVVYLDSNKMLYGTDTTEHTEATIIKLIMYVCSAFGTVGFQPFPNEQIIQLGVLSKIMLVLTMFIGQLGISNTLLAFVKPKNKQNYGYLEEEVTIG;locus_tag=LOCUS_02090;note=WP_164919774.1 TrkH family potassium uptake protein (Mesoplasma florum) [pid:50.6%25%2C q_cov:100.0%25%2C s_cov:30.5%25%2C Eval:1.4e-41%2C partial hit],internal stop codon at [124863:124865](+)%2C[124959:124961](+)%2C[124974:124976](+)%2C[124992:124994](+)%2C[125097:125099](+),MGA_209
sequence1	MetaGeneAnnotator	CDS	126002	128122	.	+	0	ID=MGA_210;product=calcium-translocating P-type ATPase%2C SERCA-type;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948276.1;translation=MVSIISQKIEVVDITGLVIILVIVLTNSIIATIQEVKSLNQVAHLNENKQTAIVLRSSKKTEIDIEELVPGDIIFVNSGGFVPADTRILDNQLLKIDESALTGENEPVKKISDSIKEKNLMLGDQKNIAFMSTLVIEGKMMGVIFGTGQESEIGKIATKITGHKPEKTPLERKVTRLTTIIGLTSIVLGLILFLISYFLSDRIHDVQPGKADIKNLLLIAVSSAISLIPESLTIIVKICLMVATKKMARKNVIIKNPKSIETLGNVNVICSDKTGTLTQNKMTVDKIFLDFKEDDYNNFDKTKYNDLINCITLCSDAIVEKEKIGSATEIATIEFVKKFNINYKSIRKNNERLDEIPFDSKRKLMTTVNNVDGRKMVYVKGAVDYLLDICTNKLIDGKVTPLTQEEKTKINEQLYSFAKRGLRVLGFSQKDITEEKQRYENNLTFLGCVAIIDPPREEVKASIEEAKSGGIRVIMITGDHKITAFEIATRLGITDENFDGVLTGQDINELSNEQLKERLQRTNVFARVNPEHKALIVDLLQEDNNIVAMTGDGVNDSPSLVKADVGISMGITGTEVAKGVSDVILADDNFKSIISGVNSGRNVYEKIKYSISFLIAANISQILTLLLILAINQDIALNSVNILFHIFIIETIVAVPIGMQKERRGVMKNPPPTHKKESLLKGIRSQIIITTLFNTLFAVLNYEIAV;locus_tag=LOCUS_02100;EC_number=7.2.2.10;note=WP_011948276.1 calcium-translocating P-type ATPase%2C SERCA-type (Clostridium botulinum) [pid:42.9%25%2C q_cov:96.0%25%2C s_cov:78.0%25%2C Eval:4.0e-151],internal stop codon at [125927:125929](+),MGA_210
sequence1	MetaGeneAnnotator	CDS	128806	129105	.	+	0	ID=MGA_211;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIYLSIGIVILYCILSFIYDYLAYIMGRKIEISLRNRALENLVRQDISYYSDKKIGEILTKIVSDTQIVGDQAVQVPLQFGLSFFEIIGAAILMYILS;locus_tag=LOCUS_02110;note=WP_011183322.1 ABC transporter B family permease/ATP-binding protein (Mesoplasma florum) [pid:52.0%25%2C q_cov:99.0%25%2C s_cov:16.0%25%2C Eval:3.6e-24%2C partial hit],internal stop codon at [128638:128640](+)%2C[128788:128790](+)%2C[129103:129105](+)%2C[129376:129378](+),MGA_211
sequence1	MetaGeneAnnotator	CDS	129145	129378	.	+	0	ID=MGA_212;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLMMFCFYATRNKVVKVRESITEINGNVTDRIATVRLIKSSGTENYETERFNEVHKDFYKKSKKVGTRLALMLTTM;locus_tag=LOCUS_02120;note=WP_011183321.1 ABC transporter B family permease/ATP-binding protein (Mesoplasma florum) [pid:47.0%25%2C q_cov:85.7%25%2C s_cov:10.8%25%2C Eval:1.2e-11%2C partial hit],internal stop codon at [129103:129105](+)%2C[129376:129378](+)%2C[129619:129621](+),MGA_212
sequence1	MetaGeneAnnotator	CDS	129421	129621	.	+	0	ID=MGA_213;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIYGNQGAGSDFLKNRFAAYNLAQGLMIGPLFNVMAALFGLAQASVVAQRVDDTIKAKSILNSHY;locus_tag=LOCUS_02130;note=MGA_213
sequence1	MetaGeneAnnotator	CDS	129799	130032	.	+	0	ID=MGA_214;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLRFYDPSKGDVIINGNTNLKDVKLSSYLQHVGYVEQDPQILYGDVFENVKYGSFNATNEEVIEACKKAELHELVMT;locus_tag=LOCUS_02140;note=WP_011183322.1 ABC transporter B family permease/ATP-binding protein (Mesoplasma florum) [pid:76.0%25%2C q_cov:97.4%25%2C s_cov:12.2%25%2C Eval:1.0e-29%2C partial hit],internal stop codon at [129619:129621](+)%2C[130030:130032](+),MGA_214
sequence1	MetaGeneAnnotator	CDS	130114	130389	.	+	0	ID=MGA_215;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLKNPEVLILDEATSALDNIVEKEIQAKLDLLMKGRTTVTIAHRLSTIKNADEIIVLGGNGKGIVQRGKFNELKSQDGHFKRLYQAGLID;locus_tag=LOCUS_02150;note=WP_011183322.1 ABC transporter B family permease/ATP-binding protein (Mesoplasma florum) [pid:76.9%25%2C q_cov:100.0%25%2C s_cov:14.8%25%2C Eval:1.1e-33%2C partial hit],internal stop codon at [130030:130032](+),MGA_215
sequence1	MetaGeneAnnotator	CDS	131358	131945	.	+	0	ID=MGA_216;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLNVLAVMVLVGSSATVVACGTKKSGNDNNEKPNTNELQKEMLQGAEFISRLIIGGRHENLNYNINEILSMFLTPSPSAMNMPISYKNGDKNINLGTNISRFKNYLAPSLTNYNSENYAGMFASYIMGMYDNDFYESMINTGEDGAYYFNDTFSTTGNQGYNKKNGNNAMGYAAGLGKDINLSDNEERRNLA;locus_tag=LOCUS_02160;note=MGA_216
sequence1	MetaGeneAnnotator	CDS	132105	132470	.	+	0	ID=MGA_217;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKGSATRSKDYSGIKIAQSKLKDQQFQAANADKKSKINGKEFNSTGGLITKVAGEQNINGYISLFGSMLDNISDTKNGALVLSEFMNTLFPMINTKKSGLGAIGNSNNVSQAVGLTMTSGV;locus_tag=LOCUS_02170;note=MGA_217
sequence1	MetaGeneAnnotator	CDS	132486	132731	.	+	0	ID=MGA_218;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEENSLITSEALKTKIKSLDKAPTYSFLGMDIPKLSSLYKDAKRDKDKRSTNAKDIVEIIDELIKVYQESSNKKEFNEQFF;locus_tag=LOCUS_02180;note=MGA_218
sequence1	MetaGeneAnnotator	CDS	132807	132992	.	+	0	ID=MGA_219;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIGQNDDGGINLLKLAQSFYKMLTEDKTISQFELIIETFKDSETFRDLSTSEKNKFLKLIG;locus_tag=LOCUS_02190;note=MGA_219
sequence1	MetaGeneAnnotator	CDS	133230	133361	.	+	0	ID=MGA_220;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEFTLDYKGIGDVTSTASEQTEKVTVGKKFNPYQTIAKNQEDK;locus_tag=LOCUS_02200;note=MGA_220
sequence1	MetaGeneAnnotator	CDS	133383	133532	.	+	0	ID=MGA_221;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDPEKVQNSGKILGYGENGPIKNEQDLIKYDGLGNYQDYNNVQNSYKII;locus_tag=LOCUS_02210;note=MGA_221
sequence1	MetaGeneAnnotator	CDS	133635	133868	.	+	0	ID=MGA_222;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLFKNGLRKLLKDYVQFGIYLILITISVVFTSTFGIVSSNLVKKNNEINRNYEKFDYSFRYTSSAYKSNDTQTFTP;locus_tag=LOCUS_02220;note=MGA_222
sequence1	MetaGeneAnnotator	CDS	133947	134492	.	+	0	ID=MGA_223;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNYIFTEGCEKNETQCYESSYIKDGNKEFINFHFGDVESKLSSDKTKPYIPNSEKAVLNYTTEQKIDIVRKAEFGDLFRFNLDSENFKNSLIGKLYEKYNSFRDEKLSKEGEKTALDIFNYMFYLNNSAITDSIKLDLLDFMKTNNNPEDYFKNKTLGEIDQSGNYRFTKNPIKVDGKKA;locus_tag=LOCUS_02230;note=MGA_223
sequence1	MetaGeneAnnotator	CDS	134757	135554	.	+	0	ID=MGA_224;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIGSDKKETHFYNEDILKIYTRTYNENSLTENSFLTSSGYAKYHDMELGKTYNIFPGSDKKYVMDGTAVDSLNIYPTIYEEDLLTNQENEAIYYISSTIFSKQFNQEGEEKSYQDVSRTYLTYNKKPKKHKKHINEMKEDINLFQTYFADNVSNLNKVRDSITSTNKSEKLSRAKFQAYAETKLLNMRNSLFFGVVRFFLYLAIIFCIIFALSLCFVVYNIFKKILISQRSQIGNLKSLGVSNSKIIFNYILYMTFPIIFLVPIG;locus_tag=LOCUS_02240;note=MGA_224
sequence1	MetaGeneAnnotator	CDS	135806	135940	.	-	0	ID=MGA_225;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFNVCGANEAAVITELEKKSIKKNIVKSFTAEDIIINLNFEVK;locus_tag=LOCUS_02250;note=MGA_225
sequence1	MetaGeneAnnotator	CDS	135939	136142	.	+	0	ID=MGA_226;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNEYYRNIKYNNDFNYSGIVVNNPLTRYSFYQMDEKNKAKSNLNASVFNPLIGVDNKYKDLYDYNY;locus_tag=LOCUS_02260;note=MGA_226
sequence1	MetaGeneAnnotator	CDS	136245	136442	.	+	0	ID=MGA_227;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDQMVEISNKIDNSSSKLVQTTFNNFSCTVIPQLFGQSPITEESNYNSCIKSTSNNILPSTIKEL;locus_tag=LOCUS_02270;note=MGA_227
sequence1	MetaGeneAnnotator	CDS	136518	136796	.	+	0	ID=MGA_228;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYTRFNSKVDNLKNTPVTIYGLNLDSNLNNVIIKNKNKIKYDESLEYIPVLINKKTVLEGIKIGDEFNLNTPSQFLSTVDQNNQLNVLNSDS;locus_tag=LOCUS_02280;note=MGA_228
sequence1	MetaGeneAnnotator	CDS	136824	137147	.	+	0	ID=MGA_229;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLSRFTYLSDQRNNLYFKKSDNEYSKYYNMANIELHIRKSLMDDNALFEKVNQEYKEYSNKQNIFTESSDKQSYVVKPFDIYTYEKDGITQKEIGLETLMMGGTNN;locus_tag=LOCUS_02290;note=MGA_229
sequence1	MetaGeneAnnotator	CDS	137367	137693	.	+	0	ID=MGA_230;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNNIQNADQMQRLILNTFNGNNATLGFDKYMDQAIGSADYINIKKIAMNNLITSIVSLSVIFISLSLITAIIIIYLITDMFVGRYKRFMSYMRIQGYSMKEINSIML;locus_tag=LOCUS_02300;note=MGA_230
sequence1	Aragorn:1.2.38	tRNA	138066	138141	.	+	.	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	138149	138224	.	+	.	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	138247	138322	.	+	.	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	138331	138406	.	+	.	ID=Aragorn_5;product=tRNA-Thr;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00040;note=Aragorn_5
sequence1	Aragorn:1.2.38	tRNA	138594	138669	.	+	.	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	138675	138759	.	+	.	ID=Aragorn_7;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00060;note=Aragorn_7
sequence1	MetaGeneAnnotator	CDS	138908	139117	.	+	0	ID=MGA_231;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKYKKYRYNFVKIIITILLLPLIIFKSNKVFSNYKMFCYTYPRFGKYESKNGEYKNLETETNCLDYYY;locus_tag=LOCUS_02310;note=MGA_231
sequence1	MetaGeneAnnotator	CDS	139394	139528	.	+	0	ID=MGA_232;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIINSIINFLKAEDDISVIGLIGNSMGASTSILYSQIGKYKVD;locus_tag=LOCUS_02320;note=MGA_232
sequence1	MetaGeneAnnotator	CDS	139649	139822	.	+	0	ID=MGA_233;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKTNQSKYNLLKKMRENKNIPIFFIHAKGDTFIPFEMSLTMFNKKIKFEKDVISQF;locus_tag=LOCUS_02330;note=WP_164919796.1 alpha/beta hydrolase (Mesoplasma florum) [pid:63.6%25%2C q_cov:96.5%25%2C s_cov:16.4%25%2C Eval:5.8e-14%2C partial hit],internal stop codon at [139526:139528](+)%2C[139607:139609](+)%2C[139820:139822](+),MGA_233
sequence1	MetaGeneAnnotator	CDS	140144	140374	.	-	0	ID=MGA_234;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTCELFLINICVKPITANIAIAKNFIKYILSIFKRAAVILDNAKELVAIADADTKRVKTHPNQKAIIFQLDLFNQL;locus_tag=LOCUS_02340;note=MGA_234
sequence1	MetaGeneAnnotator	CDS	140328	141080	.	+	0	ID=MGA_235;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIGLTQIFIRNSSQVTQFVFLVIKSLPIILILILAVIFGTSDNLLNGKNMTQDLTKIYMSSLMLIPAITLTSFAYSGTEVPTYVAGEIDKPEKTIPKSILIGVAVVIVVYLVYIVAILSIAKNSSELEQSGISGFSAIPNWVKIMFNVLAILLFAGSINSFLLYQSRLVYKMAEEKDLHNVFLKTNKFSSQPYLSMLLLMLVAVFYIVFNQIIELLNYFALTVSLLKVLMITNVINLRKKDESYIKIYKP;locus_tag=LOCUS_02350;note=WP_011183502.1 amino acid permease (Mesoplasma florum) [pid:44.9%25%2C q_cov:97.2%25%2C s_cov:53.5%25%2C Eval:4.3e-54%2C partial hit],internal stop codon at [140061:140063](+)%2C[140151:140153](+)%2C[140169:140171](+)%2C[140187:140189](+)%2C[140196:140198](+)%2C[141078:141080](+)%2C[141087:141089](+)%2C[141189:141191](+),MGA_235
sequence1	MetaGeneAnnotator	CDS	141204	141323	.	+	0	ID=MGA_236;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISIILLIFPVGYLKFYLQNKLANKSKEESENKIEEKKL;locus_tag=LOCUS_02360;note=MGA_236
sequence1	MetaGeneAnnotator	CDS	141656	141844	.	+	0	ID=MGA_237;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFGATVLVPIVISQIAGEEVINISMALFCSGIGTLIYIALTMAKVPIYLGSSFAYMTVLGAG;locus_tag=LOCUS_02370;note=WP_011183554.1 solute carrier family 23 protein (Mesoplasma florum) [pid:75.0%25%2C q_cov:96.8%25%2C s_cov:12.9%25%2C Eval:2.8e-19%2C partial hit],internal stop codon at [141623:141625](+)%2C[141842:141844](+)%2C[141851:141853](+)%2C[141923:141925](+)%2C[141938:141940](+)%2C[142079:142081](+)%2C[142097:142099](+),MGA_237
sequence1	MetaGeneAnnotator	CDS	142382	142588	.	+	0	ID=MGA_238;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVTMVEHLGDHINIGTMTGRDFIKNPGISKTLIADGVAMSFAGLIGGPANATYAENTSVVGLTKVASV;locus_tag=LOCUS_02380;note=WP_011183554.1 solute carrier family 23 protein (Mesoplasma florum) [pid:61.8%25%2C q_cov:100.0%25%2C s_cov:14.7%25%2C Eval:1.9e-20%2C partial hit],internal stop codon at [142097:142099](+)%2C[142295:142297](+)%2C[142301:142303](+)%2C[142325:142327](+)%2C[142586:142588](+),MGA_238
sequence1	MetaGeneAnnotator	CDS	142658	142978	.	+	0	ID=MGA_239;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIPAPVMGGISLMLFGMIASNGIKIMLDAKVDLKNAKNLVVLSVILAIGVGMSIMQKDIELGSFHITGLFLATFLGVTLNLLLPNHDNAGILSIFKRTKKNDKNKE;locus_tag=LOCUS_02390;note=WP_011183554.1 solute carrier family 23 protein (Mesoplasma florum) [pid:43.6%25%2C q_cov:88.7%25%2C s_cov:20.3%25%2C Eval:2.5e-20%2C partial hit],internal stop codon at [142586:142588](+),MGA_239
sequence1	MetaGeneAnnotator	CDS	143127	143384	.	+	0	ID=MGA_240;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLKENVLIFSDLDGTALASNHKFSEETKEIVRKVYKKNYYFIPVTARCTMDTFEQQSIYLELDKLKGIASANNGTHIYDFKENK;locus_tag=LOCUS_02400;note=WP_011166283.1 Cof-type HAD-IIB family hydrolase (Mycoplasma mycoides) [pid:48.8%25%2C q_cov:96.5%25%2C s_cov:28.9%25%2C Eval:1.7e-16%2C partial hit],internal stop codon at [143382:143384](+)%2C[143523:143525](+),MGA_240
sequence1	MetaGeneAnnotator	CDS	143535	143960	.	+	0	ID=MGA_241;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGTEYKVVQNFKDIDKKINHITIILEKNPSDKSIEEFYKDFSSILNALDIIKYTDRVYELAIKDIHKGSVVKEVLNYLGLNESNTTTIGFGDNFNDFELATKVDIFVAMENGLQKLKNIATFTTKTNDENGVANFIEKNIL;locus_tag=LOCUS_02410;note=WP_025015513.1 Cof-type HAD-IIB family hydrolase (Lactobacillus kitasatonis) [pid:33.6%25%2C q_cov:95.0%25%2C s_cov:49.0%25%2C Eval:4.1e-10%2C partial hit],MGA_241
sequence1	MetaGeneAnnotator	CDS	144075	144278	.	+	0	ID=MGA_242;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMAPIFDLTSEEEQSVNFVKVDTDKLPEIAQRYNIMSIPTLILFRRGQVSKQNSGFMSKEILKQFIK;locus_tag=LOCUS_02420;note=WP_011183075.1 thioredoxin (Mesoplasma) [pid:41.8%25%2C q_cov:100.0%25%2C s_cov:65.7%25%2C Eval:4.6e-11%2C partial hit],internal stop codon at [144057:144059](+),MGA_242
sequence1	MetaGeneAnnotator	CDS	144301	144840	.	+	0	ID=MGA_243;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKLITLDVDGTLVKRKNKVSKSNIEAIKEARKQGIKICIATGRNITRTEGVAKSIGIDLAQEYLITLNGGAVYKYDGNSVPNLIEEHLFTLEDFKFIYDKAKENKLSTFSYAKDPKISYVVKKNLFTYVLKKVSHRKLIKYDRNTIKDTSYKIIVYGNSNGIAKLKEEIKDKEYEMFS;locus_tag=LOCUS_02430;note=WP_011183411.1 HAD family hydrolase (Mesoplasma florum) [pid:29.2%25%2C q_cov:100.0%25%2C s_cov:66.3%25%2C Eval:5.0e-17%2C partial hit],internal stop codon at [144838:144840](+)%2C[144991:144993](+),MGA_243
sequence1	MetaGeneAnnotator	CDS	145403	146101	.	+	0	ID=MGA_244;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNNNNILEIRNLTKSYDGKVVLKGVSFNIKEGEFITLLGPSGCGKTTTLNIIGGREKQDSGELLFEGKDLTPIPSNKRQINTIFQNYALFPHYDVYDNIAYGLRIKRMKEDLITKEVMQYIKKFSLEGMENKRVHELSGGQKQRVAIARALILKPKILLLDEPMSALDVQLRKRMQDELKELQEEIGITFILVTHDQEEALTLSDRIVVMNDGQIQQIGSPEEIYNEPENR;locus_tag=LOCUS_02440;note=WP_011166424.1 spermidine/putrescine ABC transporter ATP-binding protein (Mycoplasma mycoides) [pid:74.0%25%2C q_cov:97.8%25%2C s_cov:64.7%25%2C Eval:2.8e-97%2C partial hit],internal stop codon at [146099:146101](+),MGA_244
sequence1	MetaGeneAnnotator	CDS	146264	146416	.	+	0	ID=MGA_245;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPPNKGYFNGTVENIIFKGVHYEITIKTENRFYTVHTTEFHDFDKKVSIK;locus_tag=LOCUS_02450;note=MGA_245
sequence1	MetaGeneAnnotator	CDS	146454	146642	.	+	0	ID=MGA_246;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNLDNEKNIIDQQNNVEVEKELDDIENIESEGTEIEIEVPKIKFKDKVADFKIVKGLKGKV;locus_tag=LOCUS_02460;note=MGA_246
sequence1	MetaGeneAnnotator	CDS	146652	146924	.	+	0	ID=MGA_247;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPFMVVMGFLVVLPLLGIIIFSIVEATGNSIKFKLDFSNFVNLLTSGSILYVLFLSLLYAFVASIICVACAYPIALIMAQLKNKMLAKNV;locus_tag=LOCUS_02470;note=WP_011166425.1 ABC transporter permease (Mycoplasma mycoides) [pid:50.6%25%2C q_cov:98.9%25%2C s_cov:27.0%25%2C Eval:1.9e-20%2C partial hit],internal stop codon at [146640:146642](+)%2C[146922:146924](+)%2C[146946:146948](+)%2C[147159:147161](+),MGA_247
sequence1	MetaGeneAnnotator	CDS	146955	147161	.	+	0	ID=MGA_248;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILKILGLRSLFLLISPSALGTPIAVIIGMVYMFLPFAISPIYNAIENQDRNYYLAALDLKASKSKAF;locus_tag=LOCUS_02480;note=WP_011183408.1 ABC transporter permease (Mesoplasma) [pid:65.4%25%2C q_cov:76.5%25%2C s_cov:15.7%25%2C Eval:9.0e-15%2C partial hit],internal stop codon at [146922:146924](+)%2C[146946:146948](+)%2C[147159:147161](+)%2C[147432:147434](+),MGA_248
sequence1	MetaGeneAnnotator	CDS	147255	147434	.	+	0	ID=MGA_249;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGDGKIKLITSIIENYFFRGTDFTFGATIAIVLALLLFAIMGIMKLISNKFEVKGASKK;locus_tag=LOCUS_02490;note=WP_011166425.1 ABC transporter permease (Mycoplasma mycoides) [pid:54.2%25%2C q_cov:100.0%25%2C s_cov:17.9%25%2C Eval:3.9e-13%2C partial hit],internal stop codon at [147159:147161](+)%2C[147432:147434](+),MGA_249
sequence1	MetaGeneAnnotator	CDS	147773	148162	.	+	0	ID=MGA_250;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLFVLAGVKFGIITLIAAHVSFNVPYVIITVLPFMNRIDKNILEASKDLGGNQRQTFYKVVLPILTPCIITAAAICFAMSFDDFIISYFTGGGQTNVSTFIYTAKRMQPYINAFGTLLVASIVVIILI;locus_tag=LOCUS_02500;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:2.8e-40%2C partial hit],internal stop codon at [147542:147544](+)%2C[147563:147565](+)%2C[147713:147715](+)%2C[148160:148162](+)%2C[148409:148411](+),MGA_250
sequence1	MetaGeneAnnotator	CDS	148823	149152	.	+	0	ID=MGA_251;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKENTEKSDAKYEQYKTVKEKVFKKVSIVELIDKQIELLNKEDVNYEIKLKELQTLRETKLKDAIEKLNSKLTIKEEKLEKVNNYVKAKKDKYFPDVLEENYVPKSNK;locus_tag=LOCUS_02510;note=MGA_251
sequence1	MetaGeneAnnotator	CDS	149873	150286	.	+	0	ID=MGA_252;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYGFQKLYGTVEAKADLKVGNKVISKQQQIDQVSKEIEKLVGYKNVGLYGDELIDKVHDKDFDIAVMYNGDLIYANQDDYESEKESEDDVLAYSDEKKAEDFKFAMISGVPGKLLPQSEDKKVTIDNKVKTNESTNL;locus_tag=LOCUS_02520;note=WP_011183407.1 ABC transporter permease subunit (Mesoplasma florum) [pid:37.5%25%2C q_cov:97.1%25%2C s_cov:11.5%25%2C Eval:8.5e-13%2C partial hit],internal stop codon at [149801:149803](+)%2C[149813:149815](+)%2C[150284:150286](+),MGA_252
sequence1	Aragorn:1.2.38	tRNA	150731	150805	.	+	.	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	150971	151047	.	+	.	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	151091	151167	.	+	.	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	151193	151268	.	+	.	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	151274	151350	.	+	.	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	151376	151452	.	+	.	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	151497	151589	.	+	.	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	151597	151672	.	+	.	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	151676	151752	.	+	.	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	151758	151833	.	+	.	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	151948	152024	.	+	.	ID=Aragorn_18;product=tRNA-Ile;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00170;note=Aragorn_18
sequence1	MetaGeneAnnotator	CDS	152248	152847	.	+	0	ID=MGA_253;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTNKKKLNNNYNNQIAEFVNLDQTQALKKLEVSSFGLSDTEVEAQKNKFGNNSLKEKKFNYILSFFRSLFSPFNLILIVIDTFNFYKYATAKNDDGIRSLEPSDLVAALLVLTMIIISTTIYFVQEIRSFHVIRKMTYENKHTSKVVRNIDFKVKDIDNANSIKLIKEHEQIENSELVPGDLIYVSNGDLIPADVKVI;locus_tag=LOCUS_02530;note=WP_011183394.1 magnesium-translocating P-type ATPase (Mesoplasma florum) [pid:53.4%25%2C q_cov:97.0%25%2C s_cov:20.9%25%2C Eval:3.5e-52%2C partial hit],internal stop codon at [152845:152847](+),MGA_253
sequence1	MetaGeneAnnotator	CDS	152863	153186	.	+	0	ID=MGA_254;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNQSSLTGEAFPVQKKITNEKESYLEYQNICYMGTEVVSGSALCLVTQTGEKTYFSAINDKVTEKRGKNSFEKGVARITLLLISFMLAVTPIVFLVFGLRPGEIDDR;locus_tag=LOCUS_02540;note=WP_011183394.1 magnesium-translocating P-type ATPase (Mesoplasma florum) [pid:62.9%25%2C q_cov:96.3%25%2C s_cov:11.9%25%2C Eval:5.3e-31%2C partial hit],internal stop codon at [152845:152847](+)%2C[153184:153186](+),MGA_254
sequence1	MetaGeneAnnotator	CDS	153199	153561	.	+	0	ID=MGA_255;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFAVSIAVGLTPEMLPIIVTANLSRGYSKIKKENVIVKNLNAVQNMGAIDILCTDKTGTITSGEINLDHVFDIKSQKNEMIEHILYLNSYFQSGFQNPIDQAVLLSKKINAPNIDEYTKE;locus_tag=LOCUS_02550;note=WP_011183394.1 magnesium-translocating P-type ATPase (Mesoplasma florum) [pid:70.2%25%2C q_cov:100.0%25%2C s_cov:13.5%25%2C Eval:3.6e-43%2C partial hit],internal stop codon at [153184:153186](+)%2C[153559:153561](+),MGA_255
sequence1	MetaGeneAnnotator	CDS	153664	154518	.	+	0	ID=MGA_256;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCNRIYINGDIVKITQEHIDKIIKKADEYNNDGFRVIGIAHNHLKDEDVEEELVFYGFGTFFDEPKKTSKKIIKELAQKGIATKVLTGDNEVITRAICGKVDFKIEKLYTGKEIEEMNEHQLHKAVLRGNVFVKLSPIHKSTIIRALKEQGHVVGFMGDGINDAPVLRESDVAISFDEASNIAKEAADIILMEESLLPISHAVHEGRVSLANILKYIKVTIASNFGNVLSVLVALFLTMAEPMQPLHLLTQNLLYDIVMFAFIFDKVDKKFTDKPRPLRTKNII;locus_tag=LOCUS_02560;note=WP_011183394.1 magnesium-translocating P-type ATPase (Mesoplasma florum) [pid:73.6%25%2C q_cov:100.0%25%2C s_cov:32.1%25%2C Eval:1.6e-114%2C partial hit],internal stop codon at [153559:153561](+)%2C[154516:154518](+)%2C[154666:154668](+)%2C[154753:154755](+),MGA_256
sequence1	MetaGeneAnnotator	CDS	154816	154959	.	+	0	ID=MGA_257;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIPAVSEGMGMGVPPLTFLPIALSFVVAYMFLAQGVKMLYIKKFKE;locus_tag=LOCUS_02570;note=MGA_257
sequence1	MetaGeneAnnotator	CDS	155298	155420	.	+	0	ID=MGA_258;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFPYPSGAGLHVGHPKGYTATDVFARMRRMQQYDVLHPIG;locus_tag=LOCUS_02580;note=WP_003246072.1 leucine--tRNA ligase (Bacillus) [pid:82.5%25%2C q_cov:100.0%25%2C s_cov:5.0%25%2C Eval:3.1e-15%2C partial hit],internal stop codon at [155223:155225](+)%2C[155235:155237](+)%2C[155418:155420](+)%2C[155595:155597](+)%2C[155655:155657](+),MGA_258
sequence1	MetaGeneAnnotator	CDS	155973	156161	.	+	0	ID=MGA_259;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAPENNLVLKLTTKENREKIEEYIEITKTKVDVERQDDSKEKTGVFTGSYVINPISKEEIPV;locus_tag=LOCUS_02590;note=WP_011475758.1 leucine--tRNA ligase (Ligilactobacillus salivarius) [pid:54.8%25%2C q_cov:100.0%25%2C s_cov:7.7%25%2C Eval:6.6e-13%2C partial hit],internal stop codon at [155766:155768](+)%2C[155826:155828](+)%2C[155859:155861](+)%2C[156159:156161](+)%2C[156234:156236](+)%2C[156438:156440](+),MGA_259
sequence1	MetaGeneAnnotator	CDS	156441	156608	.	+	0	ID=MGA_260;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFSRQRFYGEPFPVIFLEDGQIALIDEKDLPLELPKTDYIKPSGTGESPLANLTD;locus_tag=LOCUS_02600;note=WP_015545302.1 leucine--tRNA ligase (Mycoplasma mycoides) [pid:66.0%25%2C q_cov:96.4%25%2C s_cov:6.6%25%2C Eval:1.8e-15%2C partial hit],internal stop codon at [156159:156161](+)%2C[156234:156236](+)%2C[156438:156440](+)%2C[156606:156608](+)%2C[156666:156668](+)%2C[156681:156683](+)%2C[156768:156770](+)%2C[156837:156839](+),MGA_260
sequence1	MetaGeneAnnotator	CDS	156909	157052	.	+	0	ID=MGA_261;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILADNGEKMSKSKGNVINPDDIIESHGADTLRLYEVFMGPIEASLP;locus_tag=LOCUS_02610;note=WP_003643180.1 leucine--tRNA ligase (Lactiplantibacillus) [pid:76.6%25%2C q_cov:100.0%25%2C s_cov:5.8%25%2C Eval:3.8e-16%2C partial hit],internal stop codon at [156666:156668](+)%2C[156681:156683](+)%2C[156768:156770](+)%2C[156837:156839](+)%2C[157050:157052](+)%2C[157083:157085](+),MGA_261
sequence1	MetaGeneAnnotator	CDS	157104	157343	.	+	0	ID=MGA_262;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDNLDLTNENNHNLDYVYNDVVKKVTQMIESCKFNTAVSQLMVFVNAVYKEKAPVYKEYILNFIKMLSAYAPHLAEEL;locus_tag=LOCUS_02620;note=WP_015545302.1 leucine--tRNA ligase (Mycoplasma mycoides) [pid:68.8%25%2C q_cov:100.0%25%2C s_cov:10.0%25%2C Eval:1.5e-25%2C partial hit],internal stop codon at [156837:156839](+)%2C[157050:157052](+)%2C[157083:157085](+)%2C[157341:157343](+)%2C[157383:157385](+),MGA_262
sequence1	MetaGeneAnnotator	CDS	157680	158042	.	+	0	ID=MGA_263;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKLILTNLQDYINEHIKMQLNCFNLSKKCDELGYPGFTHFFQVQAQDEFLHQRRIINYLLDRGQNYKIGSVEITTPDLKNIEDILKEYIKCRTHFANITNEFTNNAKEKMDFTTVKFYE;locus_tag=LOCUS_02630;note=MGA_263
sequence1	MetaGeneAnnotator	CDS	158925	159194	.	+	0	ID=MGA_264;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCLAGYLIAFFNTTNKLGELQKPIVLFLFILGIIFIIFDYLIIIPIMTKKFIPLFACFTFPLAITSFASEKLSQFLISDNNKTFSNIVH;locus_tag=LOCUS_02640;note=MGA_264
sequence1	MetaGeneAnnotator	CDS	159691	160119	.	+	0	ID=MGA_265;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKERYLYMLKLLSLIGTLGVSTSAVAPVIMLEQNINDNISIRVEAGIMRVNVNNSKHFDKDGKIIVGTYDYKEVLIKAIEEQRAFNKSNNVTNFVIKNSIVRLPGISFDGTIRVGRTLTEVINAKNYEILNMNVTVDKLDN;locus_tag=LOCUS_02650;note=MGA_265
sequence1	MetaGeneAnnotator	CDS	160168	160614	.	+	0	ID=MGA_266;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIGENLYGYQRLQSLADFQIKPGYNMIFETEYNISESIEHTDTLFNSNIYLPDLGINFLSEQIIDMFNSEKNTLNDQAIKYINSTLKVKLNVVESLNVYKAVSNNNDSFSIGEAYSNQEYVKDQYFYVSFSSKDAIGTFNMLVSNNKK;locus_tag=LOCUS_02660;note=MGA_266
sequence1	MetaGeneAnnotator	CDS	160775	161335	.	+	0	ID=MGA_267;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNIIENNGVKEIILDFSFLQNVQFKDNPATLDQIIEELGIKGISTCLDFQNFLRNSLAKKSFICLLDDKTKQFSKKDKNKTSYNGILRIEFDFKNQSLLSDGTYLGFYVNIDTKNASLTISSIFVTRLKPIAQEFETMIQESQILIIRNQGQIKDDELIRRNVLNSSNILEIGKLLSTFEEERER;locus_tag=LOCUS_02670;note=MGA_267
sequence1	MetaGeneAnnotator	CDS	161963	164071	.	+	0	ID=MGA_268;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDYLSSGYIAYTGIGDDILIERSKQVIKKISEGNTKNPYLVNYLFNTKLVELSELSDDIKINDEEFQFDLNYEQKEAVRKAVNTKDIFILQGPPGTGKTQVICEIITQLSKLNRKVLLSSQNHEALRNVVNRLPLDPNLNKIRLTNQLNLKTQDTNNFSPDRVLYNYYKSIGKKAFDDMSNDEKTIEEFYSYKSDLENLININKSFNQNNKQIKTLQEEIDKLNREIISFKEKKLDTIRIKNSLKEELINIENLIEVLETKDFYSTVKVSEKIEECFKNTIQYELENFIYKNLNFNPKDFQNIYFLIKEVVNEIYYKNELFIEIRNAKNNANKFRRNADFDLAEKEESKILGFQQIINLDNRITELENLFSIFISSLKNLKMEAELDLQDEVNINLFDSDLNQLEIKKNELVISRNNLIENSGGNTKELRDLIKTVNYKFNINLGLDAMDLENQVKGELKKLETKLQQSKKRKENFFQIYTEIIKYLKDNYKIINNFKEELASADFTNQMFKDSQRYIKTVLDNLVNVYSMTLTSTNLFKFNKNNFANKLGLEELNLKNMNVDVVIIDEASKATLLEILMPLIYGKSLILVGDYRQLPPILKLQPNDVEQVNEFFNKDYSYNLMYELLDESAFKKLISAGNKTITTFLKTQYRSHEQIMNVVNKFYEGNLKVDSQVSNQKRHDLKITNSSGKNIIDSRSSVY;locus_tag=LOCUS_02680;note=WP_008363296.1 DUF4011 domain-containing protein (Mycoplasma feriruminatoris) [pid:26.3%25%2C q_cov:75.4%25%2C s_cov:30.7%25%2C Eval:3.0e-21%2C partial hit],MGA_268
sequence1	MetaGeneAnnotator	CDS	164639	165067	.	+	0	ID=MGA_269;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFNKIEILYDKLYLALKIKYSEIRKPTFMEFLILLIIIEYPNKRKTLSEILKQDFNILNQTVFEKALRDLINFKVIEVNKIRLSVDLLNMNIPINNFKIKEQIEQKFKTGDYTISQDNKTQDFKYFFDPITKEIEVLKEIN;locus_tag=LOCUS_02690;note=MGA_269
sequence1	MetaGeneAnnotator	CDS	165518	166288	.	+	0	ID=MGA_270;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTNYNLLLINDQFIKSDTEIIKNKDFTKNIQIIIFYNSKRNTKVTDIVDDKLIFYVDYIDNEVLQSNSFIYLDSQNLMNGFLVANKLVEIINLNIPVFFLYKNPTDPLNLVSLFKSNIKNALEKFEHSLLNSNYKTSMSIYIILERLSLEREVIAILEKFLLDTVNSGSNYIEMRNYLLESENRKLSLTLEKIAKDLIIDISKNKSDEEMFEIIKNYEFKDSKNILDIFNKIDVENNIENIYKMNHYLQENSIDG;locus_tag=LOCUS_02700;note=MGA_270
sequence1	MetaGeneAnnotator	CDS	166445	166753	.	+	0	ID=MGA_271;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNYQFVEDNYSRLLTSLIDLVKNSLDIKKLDTYLINLSESLVDFYKTYYKYKITELQTLLNTSINYKVQLIAGKYINNIEQALNKFLDKSIYNMPIELKLE;locus_tag=LOCUS_02710;note=MGA_271
sequence1	MetaGeneAnnotator	CDS	166912	167829	.	+	0	ID=MGA_272;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSMTAEEILVNCEKQFNFIKKDIDFLIKYINQLIDECKQIDSSGYFKKQIEQILEELTKEQMDLAKNTYEREVSSNTHVAIETYNEIQRYAERKREVIADFKAKVFCFKKDVLEKEQENLLKALDKNVFEDIENLKNSLIAKYSNSEDKLYIKRLFEQNQHTLINKKDNELYDFVLQNLKKYKASNSSIVKEVVSSSIDLYKDDQDIVNSIKQDAKEFMSLINLINLQGNIKDYFLKSSKTAEQEAVRKDNVIKIVKAIREVGYIVNEDNIRKLAEKNLVLIHGEKLSGETADFAVRLDGSFVYN;locus_tag=LOCUS_02720;note=MGA_272
sequence1	MetaGeneAnnotator	CDS	168015	168737	.	+	0	ID=MGA_273;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSVKRELNQLKNLIGIKKAIIIEGNIDDIYEFEGNYINIHEIIMNIFDQKNYLDKFVFDQNSGLKGKKISNLILHSVSENQGDSISNDFEELFSNDNESESSDSLVLKKPIDFFKILNKNINREDEKKVGFIADYTNYVFSDQGLDVDDRSVLTEFSKTLKESNFLISKIDELTNCIIFLTKKINQLPPSLYLDNPEIIILTLPKPSRDERKEFLATIKPRVQVIDIASEFNNIVDATEG;locus_tag=LOCUS_02730;note=MGA_273
sequence1	MetaGeneAnnotator	CDS	168870	169820	.	+	0	ID=MGA_274;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKIKEQLSSKVIGQDEAIEKVAKVIYKAYTGLTGITYSSKRSKPKGTLFFVGPTGTGKTELAKAITTFLFNDEANLIRFDMSEYGQENSDQKLIGAPPGYVGFEGGGQLTNSVKARPFSVILFDEIEKANPKIFDKFLQILEDGRLTDNTGQTVSFSETFIIFTSNIGAADVNPNQNKENVYNEFIKRVQDHFTNELNRPELLGRFGNNIVPFNFISDLSLKSKIIRQKVKPIQIAIYEKYKAELHIDLNDQNLIAIILRNADERRGGRDVLNSLETNLVDPLSEFIFHNLQNIRQGTKILTSHKEGKINFIING;locus_tag=LOCUS_02740;note=WP_010875923.1 ATP-dependent Clp protease ATP-binding subunit (Methanothermobacter thermautotrophicus) [pid:43.7%25%2C q_cov:85.4%25%2C s_cov:47.7%25%2C Eval:4.8e-62%2C partial hit],MGA_274
sequence1	MetaGeneAnnotator	CDS	169954	170409	.	+	0	ID=MGA_275;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFMPNEFIYEKILEAKKKFNIEGITLIGGEPFLQPDGLKELVQWSQKNNLTVICFTGYIYENLLEEHKEILECIDILIDGPFIMKLLDKNRRLIGSKNQRVIKITSVYKDCDYFDKPHSEVEIQIYNNRISMNGDGVVFDNEDGEFNFNIK;locus_tag=LOCUS_02750;note=WP_011948683.1 4Fe-4S single cluster domain-containing protein (Clostridium botulinum) [pid:35.5%25%2C q_cov:87.4%25%2C s_cov:66.0%25%2C Eval:2.1e-16%2C partial hit],internal stop codon at [169885:169887](+),MGA_275
sequence1	MetaGeneAnnotator	CDS	170496	170717	.	+	0	ID=MGA_276;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENKKNIIFDMTISAMLLSVGICLKLTFLALPGFDLTLIIILITGLFFKSNISIISTAGISALSFLISKDIIL;locus_tag=LOCUS_02760;note=MGA_276
sequence1	MetaGeneAnnotator	CDS	170766	171248	.	+	0	ID=MGA_277;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKIILKNNAIAYIILPIFGLMITTFYLIISILVYGKINGYSMYLVHLHEAYIIFFMYCILTPTIFKKIFQVMTHLNYKYSTIFNKSFKKYIETIEDSTYKVSDKKINYNVQLVSMIFSMMLLICYFSFVPYKMVTVLNNINYLATIIIVPLLMLFVTPL;locus_tag=LOCUS_02770;note=MGA_277
sequence1	MetaGeneAnnotator	CDS	171249	171809	.	+	0	ID=MGA_278;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSAKKIGNLNMLKINSVGLLLAIIFTFSSFTSQKYNITLAFSITGLVLFGVFIAGFLPINIETIKSYEYRNKLKNKTSKYNSIFGFLLLPLPFLINYYLGSIYVLIFFMLISILILFLLMLNKNIMLDGNVLNIDRNSFSTLKKKKVFFLEVLVQNYFIGFFKFLDLSLVLFYFIIFDNNKIFIE;locus_tag=LOCUS_02780;note=MGA_278
sequence1	MetaGeneAnnotator	CDS	171840	172331	.	+	0	ID=MGA_279;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVLGFLSKYIAQAIFANIKYNNKNINKIAMLVTIVSVLTFIGFLVLNYFLVTKNVNYYYYSLLTILMFIFGASYSIIEKTKAKTFRSIVSENEFSLAMIIDHVAGNAFFSLIITAIFFTTMLLIKNSLIGLIILLTLFMIIALIMMSIKITLNKRQKNKTISL;locus_tag=LOCUS_02790;note=MGA_279
sequence1	MetaGeneAnnotator	CDS	172648	172974	.	-	0	ID=MGA_280;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLINKSATVTTCNTKTKKIEEVCKKADILISAAGAANLVTKKFVNKNMIVIDVGANFLNGKYSGDVKFDEVSKIVKYITPVPGGVGPMTIACLLQNTFILYKEKENIS;locus_tag=LOCUS_02800;note=WP_010965383.1 bifunctional methylenetetrahydrofolate dehydrogenase/methenyltetrahydrofolate cyclohydrolase (Clostridium) [pid:52.1%25%2C q_cov:88.9%25%2C s_cov:34.5%25%2C Eval:9.6e-25%2C partial hit],internal stop codon at [173050:173052](-),MGA_280
sequence1	MetaGeneAnnotator	CDS	173050	173496	.	-	0	ID=MGA_281;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKIIDGKEYAQILNTNLKNSIEQLKAKRKPKLIIIQIGNNLASNKYIKNKLKACQKVGIIGELKKFDENISEKNLKKEIEKINKDLLVDGLIVQLPLPSHIDEKEITNFISPLKDVDGFNALTLGNIMLNNSKIYPATPLGILKLLE;locus_tag=LOCUS_02810;note=WP_013447977.1 bifunctional methylenetetrahydrofolate dehydrogenase/methenyltetrahydrofolate cyclohydrolase FolD (Mycoplasma leachii) [pid:42.2%25%2C q_cov:98.0%25%2C s_cov:51.0%25%2C Eval:1.1e-27%2C partial hit],internal stop codon at [173050:173052](-),MGA_281
sequence1	MetaGeneAnnotator	CDS	173540	173944	.	+	0	ID=MGA_282;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKILKALSKFKINQNDYEFYGKKIVKIDYEKYMKDNKGKLILMTSINPTPAGEGKTTTAIGLADGLQYIGKNVILALREPSLGPVFGRKGTATGGGESEVIPMDEINLHFTGDFHAITTANNLISAQIDSEVY;locus_tag=LOCUS_02820;note=WP_009888533.1 formate--tetrahydrofolate ligase (Clostridioides difficile) [pid:55.6%25%2C q_cov:99.3%25%2C s_cov:24.2%25%2C Eval:1.5e-38%2C partial hit],internal stop codon at [173942:173944](+)%2C[173981:173983](+),MGA_282
sequence1	MetaGeneAnnotator	CDS	173993	174631	.	+	0	ID=MGA_283;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDVNDRALRRIELKIGSKISRTEEFTITAASNMMTILSLSKNIKDLRERLDNSLIAYNLNGKEVYLRELNITGSLMAILKKAIQPNLVLTKYDTPTLVHCGPFANIATGTNSIISTKLGLSLANYCIVESGFGSDLGFEKYMNVINNDNDLIPDCTVMVVTLRALNLHNDFENNFDHLEKHLKHITQYNLNLIVAINFIQGDSEEQLGILKR;locus_tag=LOCUS_02830;note=WP_000845308.1 formate--tetrahydrofolate ligase (Streptococcus) [pid:42.3%25%2C q_cov:99.5%25%2C s_cov:40.8%25%2C Eval:1.5e-46%2C partial hit],internal stop codon at [173942:173944](+)%2C[173981:173983](+)%2C[174629:174631](+)%2C[174653:174655](+),MGA_283
sequence1	MetaGeneAnnotator	CDS	174659	175102	.	+	0	ID=MGA_284;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKAYTDGAKGAENLAQKVVELCEIKQNFKKLINSNETIEEKIEKVVKNFYYLKTFKITKNAQEKINAIKKTKYSQLPICMVKSSNSIDGNDLKEPNYEMIIKDVNVNTGAKFILVYTNNVMSMPGLNKNPNSKDIDLENGIIVGLK;locus_tag=LOCUS_02840;note=WP_000845298.1 formate--tetrahydrofolate ligase (Streptococcus mitis) [pid:37.4%25%2C q_cov:96.6%25%2C s_cov:26.4%25%2C Eval:1.6e-18%2C partial hit],internal stop codon at [174629:174631](+)%2C[174653:174655](+),MGA_284
sequence1	MetaGeneAnnotator	CDS	175218	175472	.	-	0	ID=MGA_285;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIMCLEKEKIFKYIKALIVGKPQDNNFYFEYKNILNKISEKYNLPIVLNMNFGHSYPRTIIPYNCLMKIDFEKDNISIIENIVN;locus_tag=LOCUS_02850;note=WP_003592702.1 LD-carboxypeptidase (Lacticaseibacillus paracasei) [pid:36.8%25%2C q_cov:90.5%25%2C s_cov:21.2%25%2C Eval:5.9e-14%2C partial hit],internal stop codon at [175572:175574](-)%2C[175758:175760](-),MGA_285
sequence1	MetaGeneAnnotator	CDS	175758	176288	.	-	0	ID=MGA_286;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKPNKLKPGDKIAIVSLSSGILGEDFYSHQLEIGTKRLKQFGLEPVFMNSTLKGSKYIKEHPEQRAKDLKDAFKNSEIKAILCAIGGEDTYKTILFLLDDKDFIESVKKNPKIFIGFSDSTNNHLMFNKLGLNTFYGHSFLSDFAELDQEMLIYSKKAFEVLFSSENNIDIKSSAE;locus_tag=LOCUS_02860;note=WP_003592702.1 LD-carboxypeptidase (Lacticaseibacillus paracasei) [pid:53.4%25%2C q_cov:98.9%25%2C s_cov:48.6%25%2C Eval:4.0e-48%2C partial hit],internal stop codon at [175572:175574](-)%2C[175758:175760](-),MGA_286
sequence1	MetaGeneAnnotator	CDS	176489	177037	.	+	0	ID=MGA_287;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGVLKVKAESENYQDYKILRDSVGGSKNIDSINRCSTRIRIVLLDISKLNVEALDNTVLFKKYVIKENTLQLLISKDIEKITIEFLKVLKISYDSVPNDFDISITRKDKIFKRLTDGISIIMKPIIPLLITLAIVSTLANIFTGIKFGAQTLAELNKPLEVIGNIFLMLQDALNLAFSVLIP;locus_tag=LOCUS_02870;note=WP_011183425.1 PTS transporter subunit EIIB (Mesoplasma florum) [pid:49.4%25%2C q_cov:96.7%25%2C s_cov:34.5%25%2C Eval:2.2e-47%2C partial hit],internal stop codon at [177035:177037](+)%2C[177158:177160](+)%2C[177215:177217](+),MGA_287
sequence1	MetaGeneAnnotator	CDS	177494	177919	.	+	0	ID=MGA_288;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVVTGFIQIFVVVNMQQFTMYKGTTIMPMFTQLNIAVAASVLAVSIINRKNKDVQSVSIPAYSLAFISGSTEPALFGIGLRFLYPVLAASIGAATGIIITTFAGIGCTLGNASLLIFLSITQNSSVLENLNIKTIAGGPYL;locus_tag=LOCUS_02880;note=WP_011183425.1 PTS transporter subunit EIIB (Mesoplasma florum) [pid:60.3%25%2C q_cov:100.0%25%2C s_cov:27.6%25%2C Eval:1.4e-45%2C partial hit],internal stop codon at [177215:177217](+)%2C[177428:177430](+)%2C[177491:177493](+)%2C[177917:177919](+),MGA_288
sequence1	MetaGeneAnnotator	CDS	177920	178057	.	+	0	ID=MGA_289;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIAIIATFIVTFAMTFIFSRIKYFKNINDNVLERDFGGKLNEIK;locus_tag=LOCUS_02890;note=MGA_289
sequence1	MetaGeneAnnotator	CDS	178275	178715	.	+	0	ID=MGA_290;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLKTKDFVNYHDLGVSIVPEIEDEIHGAFSGSAYEDENGDVTIYYTGNIEDGKGTMLREVQIAADFKDEKVVNKKTVVEHDEKLFTAHARDPKIFKYNGKSYLIFGVQCKSDMKGGLAFYKQTEKDKFEFDRILKPSLKDDYGYM;locus_tag=LOCUS_02900;note=WP_011183424.1 glycoside hydrolase family 32 protein (Mesoplasma florum) [pid:64.8%25%2C q_cov:99.3%25%2C s_cov:29.9%25%2C Eval:3.0e-49%2C partial hit],internal stop codon at [178068:178070](+)%2C[178236:178238](+)%2C[178272:178274](+)%2C[178713:178715](+)%2C[178776:178778](+)%2C[178962:178964](+)%2C[179007:179009](+),MGA_290
sequence1	MetaGeneAnnotator	CDS	178821	178964	.	+	0	ID=MGA_291;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVYTLIDDLDFANNKLNEKEPLKMLDYGHDYYAPQTYWANNKLLSIA;locus_tag=LOCUS_02910;note=WP_011183424.1 glycoside hydrolase family 32 protein (Mesoplasma florum) [pid:69.6%25%2C q_cov:97.9%25%2C s_cov:9.6%25%2C Eval:3.0e-13%2C partial hit],internal stop codon at [178713:178715](+)%2C[178776:178778](+)%2C[178962:178964](+)%2C[179007:179009](+),MGA_291
sequence1	MetaGeneAnnotator	CDS	179016	179282	.	+	0	ID=MGA_292;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSIPREINIEKGKLIQKPYSDFKSNVLKNSKEVSVDKLKLNKSLHLEFDLIGQLSLEIVNDQGQKVEVLFNKDEIIIDRTKQTAAPK;locus_tag=LOCUS_02920;note=WP_011183424.1 glycoside hydrolase family 32 protein (Mesoplasma florum) [pid:48.2%25%2C q_cov:96.6%25%2C s_cov:17.7%25%2C Eval:6.7e-18%2C partial hit],internal stop codon at [178776:178778](+)%2C[178962:178964](+)%2C[179007:179009](+)%2C[179280:179282](+),MGA_292
sequence1	MetaGeneAnnotator	CDS	179669	179821	.	-	0	ID=MGA_293;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYMFALGIQKGLTIDELPLVDIFFLPHFNKPYNFITLAGLEVLGLNYFKK;locus_tag=LOCUS_02930;note=WP_011182934.1 FAD-dependent oxidoreductase (Mesoplasma florum) [pid:92.0%25%2C q_cov:100.0%25%2C s_cov:11.1%25%2C Eval:5.0e-21%2C partial hit],internal stop codon at [179885:179887](-)%2C[180020:180022](-),MGA_293
sequence1	MetaGeneAnnotator	CDS	179885	180016	.	-	0	ID=MGA_294;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MASVGISMEACKRFGIDAEEIMFKDSDRPEFMSTYKDVYIKII;locus_tag=LOCUS_02940;note=WP_011182934.1 FAD-dependent oxidoreductase (Mesoplasma florum) [pid:55.8%25%2C q_cov:100.0%25%2C s_cov:9.5%25%2C Eval:2.2e-08%2C partial hit],internal stop codon at [179885:179887](-)%2C[180020:180022](-),MGA_294
sequence1	MetaGeneAnnotator	CDS	180020	180538	.	-	0	ID=MGA_295;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVDAFVKSGKEVSLIDIADRIMPVYYDSEFTQLVETTIKEKGVNLALGQKVVKFEGKDGKVTKVVTDKGTIEVDYVVFSVGVVPQTKLLEGVIDLDERGAIKTNEFMQTSNKDIYAVGDCAQVYNCSLKKDTQIALATTAVRTGILAAANIVKGNALESPGFTGANGIEVFG;locus_tag=LOCUS_02950;note=WP_011166460.1 FAD-dependent oxidoreductase (Mycoplasma mycoides) [pid:63.4%25%2C q_cov:100.0%25%2C s_cov:37.9%25%2C Eval:4.4e-60%2C partial hit],internal stop codon at [179885:179887](-)%2C[180020:180022](-)%2C[180686:180688](-)%2C[180791:180793](-),MGA_295
sequence1	MetaGeneAnnotator	CDS	180887	181027	.	-	0	ID=MGA_296;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTIVIGTNHAGTTAVRTLRRLDSKMDITTYDQNDNISFLGCGIAL;locus_tag=LOCUS_02960;note=WP_011166460.1 FAD-dependent oxidoreductase (Mycoplasma mycoides) [pid:78.3%25%2C q_cov:100.0%25%2C s_cov:10.1%25%2C Eval:8.9e-15%2C partial hit],internal stop codon at [180686:180688](-)%2C[180791:180793](-)%2C[180887:180889](-),MGA_296
sequence1	MetaGeneAnnotator	CDS	181585	181851	.	+	0	ID=MGA_297;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLGKFDCYFSNFNIYLTDNNQKVIKIIKNNSISEAYIETFGVVIITDEAKFLFRGKNRLLTCVLLQRMIPRLNLKLESTEDLYNYFDF;locus_tag=LOCUS_02970;note=MGA_297
sequence1	MetaGeneAnnotator	CDS	181904	182077	.	+	0	ID=MGA_298;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIIKVTDNKEAGKVVSDLILKEVKSKSNIVLGLATGSSPITTYENIISKSKEENID;locus_tag=LOCUS_02980;note=MGA_298
sequence1	MetaGeneAnnotator	CDS	182153	182554	.	+	0	ID=MGA_299;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDKLFNHINIKMENTFVPSGMINSNEEAQKYDELILKHGGIDLQLLGLGINGHVGFNEPGSDFEGLTSIVDLTKSTIEANSRFFDNEKDVPTKAISMGLKSIMNAKKIILIATGEAKALAVKNLIEGPISKD;locus_tag=LOCUS_02990;note=WP_011166981.1 glucosamine-6-phosphate deaminase (Mycoplasma mycoides) [pid:60.6%25%2C q_cov:99.2%25%2C s_cov:53.3%25%2C Eval:7.6e-38%2C partial hit],internal stop codon at [182075:182077](+)%2C[182552:182554](+),MGA_299
sequence1	MetaGeneAnnotator	CDS	183190	183441	.	+	0	ID=MGA_300;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIKKKFRIYKIDKEKFNSIIENEEDEKYKEKICSLIIDEVIKNNNLDKKDSNFVKINKLDNQRKNEEGNFYLLVYKKQSDPN;locus_tag=LOCUS_03000;note=MGA_300
sequence1	MetaGeneAnnotator	CDS	183511	184326	.	+	0	ID=MGA_301;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLKNNKLSFLLLKPVNDDIYASTGGNASSYISQFIVRNFGTEIICKIYDEDDNVFEGIKQTYNKGKRQYNAFYNRRPSNYRSERTFWDKFGGARVRIKNQIACDLGLISQEDLEEMDQKNDSEYIKTRIEAGDSLEIKETMSIEKYFSIMSKIDEIDKLPLKILLSNFIDVNEEGIKNSDLFTKMHDEMSNKLSDLNKRDIIYSKIYINFYLYENFTKFSNYQLLDDKGREILSSRNAIEFNDIFEEFIKNFKKDPDKISRTSIETFFNK;locus_tag=LOCUS_03010;note=WP_011183389.1 TIGR04141 family sporadically distributed protein (Mesoplasma florum) [pid:29.6%25%2C q_cov:97.8%25%2C s_cov:43.3%25%2C Eval:1.4e-24%2C partial hit],internal stop codon at [184324:184326](+)%2C[184447:184449](+),MGA_301
sequence1	MetaGeneAnnotator	CDS	184555	185070	.	+	0	ID=MGA_302;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLENINNESEYNNQFNSIKANELKGIIHSDQVTINKVEICDLIFISESNQMYLICNKSEPSGKGSRDLFSQIKASALLMNSSNQEFKNEYYNTLLQKGKITNNISKERFIELLNNSIYVCSFIKRELTQDTNSIYSKIMFLETKEELDKMLKDLILFSPQIVKSNNDKDE;locus_tag=LOCUS_03020;note=WP_011183389.1 TIGR04141 family sporadically distributed protein (Mesoplasma florum) [pid:47.1%25%2C q_cov:89.5%25%2C s_cov:25.5%25%2C Eval:3.8e-32%2C partial hit],internal stop codon at [184324:184326](+)%2C[184447:184449](+),MGA_302
sequence1	MetaGeneAnnotator	CDS	185262	185648	.	+	0	ID=MGA_303;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKTNSQAVEFIKSVDSKVNKDSNIIAGIAVPSIMLSDVQKVAKNIVISAQNCYFEKEGAFTGEISIPMLQDLNVKYVVIGHSERRDIFGETDEMINNKVKALLLSNITPILCCGESLETYESGKTIE;locus_tag=LOCUS_03030;note=WP_011166983.1 triose-phosphate isomerase (Mycoplasma mycoides) [pid:56.0%25%2C q_cov:97.7%25%2C s_cov:50.0%25%2C Eval:3.6e-35%2C partial hit],internal stop codon at [185256:185258](+)%2C[185646:185648](+)%2C[185730:185732](+),MGA_303
sequence1	MetaGeneAnnotator	CDS	185985	186320	.	+	0	ID=MGA_304;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYKILALDMDGTTFKALDDIVMENVEPINQAIKKGIKVVFVTGRPIHTKINRLELFDFSNDGAIFVAFNGALIYDLKNKQVVDANPIDKQTVLKAFELLKTSEEFKEIEL;locus_tag=LOCUS_03040;note=WP_011166984.1 HAD-IIB family hydrolase (Mycoplasma mycoides) [pid:41.3%25%2C q_cov:93.7%25%2C s_cov:37.1%25%2C Eval:1.4e-18%2C partial hit],internal stop codon at [186318:186320](+)%2C[186525:186527](+),MGA_304
sequence1	MetaGeneAnnotator	CDS	186540	186803	.	+	0	ID=MGA_305;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAGEVTKKGINKKYALEFLSKKFSINKSEILAMGDGANDLPMFEYAGLSIAPANAHQEIKDKATVVSEYTNLEGAVAKAINKYILGE;locus_tag=LOCUS_03050;note=WP_002263635.1 Cof-type HAD-IIB family hydrolase (Streptococcus mutans) [pid:48.8%25%2C q_cov:96.6%25%2C s_cov:30.8%25%2C Eval:2.4e-15%2C partial hit],MGA_305
sequence1	MetaGeneAnnotator	CDS	186983	187642	.	+	0	ID=MGA_306;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGNSEVGHIHLGAGRIKYESLSLINKAISENKFDSNEEIQKAIKNSLDKNSAFHIMGLFSDGGVHSHMKHMFATYESAAKAGVKEIYLHLFTDGRDTKPTVALNYLKELNTLIEKYKVGQVASISGRFYSMDRDKRMERVAEGYKSMVNRNCENSFTDPASYIQSQYDLGKDDEGIIPAYNSNCNNGYVKENDTVVFINFRPDRAIQMASTFTNHDYAA;locus_tag=LOCUS_03060;note=WP_011183400.1 2%2C3-bisphosphoglycerate-independent phosphoglycerate mutase (Mesoplasma florum) [pid:52.0%25%2C q_cov:100.0%25%2C s_cov:41.5%25%2C Eval:4.2e-60%2C partial hit],internal stop codon at [186848:186850](+)%2C[186932:186934](+)%2C[186959:186961](+)%2C[187640:187642](+)%2C[187778:187780](+),MGA_306
sequence1	MetaGeneAnnotator	CDS	187973	188395	.	+	0	ID=MGA_307;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSAVEITDKLVERIASEEFDLIVLNYANCDMVGHTGVLDAAIKGVKTLDEQLKRVYQACEEHGAVMVITADHGNAEIMIDGEGGPNKKHTSQPVPIIITDKSIKLRSKDAAIADVSPTICEILGVEIPEEMTQPSLIEKN;locus_tag=LOCUS_03070;note=WP_011183400.1 2%2C3-bisphosphoglycerate-independent phosphoglycerate mutase (Mesoplasma florum) [pid:69.3%25%2C q_cov:99.3%25%2C s_cov:26.3%25%2C Eval:2.0e-49%2C partial hit],internal stop codon at [187778:187780](+),MGA_307
sequence1	MetaGeneAnnotator	CDS	188730	189236	.	+	0	ID=MGA_308;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVIGLPALALEGFLTDITVKDLINQMGVLAIGFLFYSIMMFTSRYFFLKTNKDIQDTLAMCVALASTTFFGLPIVGVIFGLEGTVSGNIFNVPYRIFLYSLALMIMSKKNLTATLTKEQKLEYKLKFKQLSVEEKQTIRNEKNTKIKNSLKTIFVNPILIATFIGLFI;locus_tag=LOCUS_03080;note=WP_011183277.1 AEC family transporter (Mesoplasma florum) [pid:33.3%25%2C q_cov:97.6%25%2C s_cov:39.9%25%2C Eval:7.9e-19%2C partial hit],internal stop codon at [188616:188618](+)%2C[188625:188627](+)%2C[188703:188705](+)%2C[189234:189236](+)%2C[189438:189440](+),MGA_308
sequence1	MetaGeneAnnotator	CDS	189489	189698	.	+	0	ID=MGA_309;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIAYSSIGKAITGNGILTEANLGALVVMTAAPPASVVVSYAISFDKEKVLASNLAVLSTLMSIVMMPF;locus_tag=LOCUS_03090;note=MGA_309
sequence1	MetaGeneAnnotator	CDS	189755	190753	.	+	0	ID=MGA_310;product=2-hydroxyacid dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016424.1;translation=MTKKIVCYGVRDTEKAIFQKVASKFPYELVLEEKLLTHENVETAKGAYGVMLRANCVADKVNLDKFKEYGIEYVLTRTVGFNHIDLNYAKQLGFKMARVPFYSPNAVSELAVSLALGLMRNTFYMAKKSNEKNFIVDNFMYAKEIRNSTIGIIGTGRIGMETAKVFKGMGANIIGYDLYPNKDNEKILKYVDFETIAKESDAVILHCPLIEGENNEFINKEFFNKMKDNSFLLNLSRGELVNNLDLLEAVKSNKLKGVALDTLSNEGQIFFKDFQNKELPINVYNELLKFSPRVIFTPHIGSYTDEAIKNMVEVSLENLQEFEKYNSCKNAI;locus_tag=LOCUS_03100;note=WP_011016424.1 2-hydroxyacid dehydrogenase (Fusobacterium nucleatum) [pid:48.2%25%2C q_cov:99.1%25%2C s_cov:99.1%25%2C Eval:1.6e-84],MGA_310
sequence1	MetaGeneAnnotator	CDS	191148	191303	.	-	0	ID=MGA_311;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQTSVQGIYASGDCCIYETKIRNLISGVYESMQAVVNIEKIIKDRKAVNNG;locus_tag=LOCUS_03110;note=MGA_311
sequence1	MetaGeneAnnotator	CDS	191622	191753	.	-	0	ID=MGA_312;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGVFKPIQLVDKLYDNIFYSITNMQEFKNQNVTIFGGGDSSLD;locus_tag=LOCUS_03120;note=MGA_312
sequence1	MetaGeneAnnotator	CDS	191817	192068	.	-	0	ID=MGA_313;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAADLKLTGDVVEAKDTYGGQVTTYYPEKYIYNFPAIPKIQGQEAMDAMFKSIKKENDDINLTYNTYVLEIKTIKPEEEKHIN;locus_tag=LOCUS_03130;note=MGA_313
sequence1	MetaGeneAnnotator	CDS	192192	192500	.	+	0	ID=MGA_314;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=MRFEINNLDELNKVVKYILDKLKENVCLILDGQMGAGKTTFTKKVLKEMGLNEIVTSPTFTIMNQYQIKELKINHIDAYRLTLQEDSQMYLEEMMNSLNIVE;locus_tag=LOCUS_03140;gene=tsaE;note=WP_020862622.1 tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex ATPase subunit type 1 TsaE (Mycoplasma mycoides) [pid:45.7%25%2C q_cov:100.0%25%2C s_cov:76.1%25%2C Eval:4.6e-22],internal stop codon at [192498:192500](+),MGA_314
sequence1	MetaGeneAnnotator	CDS	192610	193176	.	+	0	ID=MGA_315;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=MNLFLDTSNNKLILILEKKEEIVDFLFLDNQIRISDIALEELNNFLQRNNLTIHDIKNFYATKGPGSYTGVRVAITIVKTLKTINNNFNVYLISSLAFQASNKKAISILDAKGSKIYLGIYENAKNIIADQVIPLDYLEDFKSQFKDFEVLQDYNNIDFKENYLKTKKMFEKATDISSINPVYIKHFI;locus_tag=LOCUS_03150;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:49.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.7e-48],MGA_315
sequence1	MetaGeneAnnotator	CDS	193747	193896	.	+	0	ID=MGA_316;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSQNQIIGLSIFLIGLLIMAIFGGLIFYFRNKNKNNSIFVAKNQESQTI;locus_tag=LOCUS_03160;note=MGA_316
sequence1	MetaGeneAnnotator	CDS	194041	194466	.	+	0	ID=MGA_317;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNVSSQAEGKSQNKFVSSMKRMGKGIMPTLSKLSKAFLLPIALLPIAGVFLGVGSAIATNSADGSFGFYFGSVLNKMGDVCFGNLPVLFCISVALAYTKDSGIAALTAVVGFLVMNGMQAALLHTQTVDESSVFVYANGA;locus_tag=LOCUS_03170;note=WP_011183111.1 PTS transporter subunit EIIC (Mesoplasma florum) [pid:73.4%25%2C q_cov:96.5%25%2C s_cov:19.5%25%2C Eval:9.5e-47%2C partial hit],internal stop codon at [194464:194466](+)%2C[194500:194502](+)%2C[194647:194649](+)%2C[194749:194751](+),MGA_317
sequence1	MetaGeneAnnotator	CDS	195205	195483	.	+	0	ID=MGA_318;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGDQTIAYKVIANSKVLNFTDLEMLGLNIGRFQSGKFGFMLLGLPMAGLAMWLNVPKENRKSVMGIYFSAAFTCFLTGITEPIEYTFLFLAP;locus_tag=LOCUS_03180;note=WP_011183111.1 PTS transporter subunit EIIC (Mesoplasma florum) [pid:90.2%25%2C q_cov:100.0%25%2C s_cov:13.0%25%2C Eval:1.4e-42%2C partial hit],internal stop codon at [195016:195018](+)%2C[195019:195021](+)%2C[195097:195099](+)%2C[195196:195198](+)%2C[195481:195483](+),MGA_318
sequence1	MetaGeneAnnotator	CDS	195502	196116	.	+	0	ID=MGA_319;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPLASISFLLAGLFKTHVSMTVSGGFIDYIVFGVVPFFGSKAMSAKSCFAVLGVAGIMAPAYFFSFYFAVKYGKVMVPGRDGSAEAKLATKADYKASKGQNLDGSKIEKNKSSAETARIEKATKIIEYLGGEANIEYVDACASRLRVTVKDSSIVDKEGILSLGGANGALIKGSSVQIVYGGEQEAIKPRMIKILGEQRKEKKS;locus_tag=LOCUS_03190;note=WP_011183111.1 PTS transporter subunit EIIC (Mesoplasma florum) [pid:78.1%25%2C q_cov:99.5%25%2C s_cov:29.6%25%2C Eval:4.1e-88%2C partial hit],internal stop codon at [195481:195483](+),MGA_319
sequence1	Aragorn:1.2.38	tRNA	196243	196333	.	+	.	ID=Aragorn_19;product=tRNA-Ser;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00180;note=Aragorn_19
sequence1	MetaGeneAnnotator	CDS	196437	196673	.	+	0	ID=MGA_320;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKTDIKNNLSENKPKKGFFKKIFNSKEGQKKVLSIIKTKKINNLYFYTDVNNVLLILENGIRLLKDQKLRKDEEYTV;locus_tag=LOCUS_03200;note=MGA_320
sequence1	MetaGeneAnnotator	CDS	196836	197021	.	+	0	ID=MGA_321;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDDVKNIVYVYETIPLDAIDFIMIKDKSNLKRIQTYVEANDIQIDVFYGETGNVDTKKERK;locus_tag=LOCUS_03210;note=MGA_321
sequence1	MetaGeneAnnotator	CDS	197547	197804	.	+	0	ID=MGA_322;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTLDILEVYKKIANEILLLPVVAGRKTEREKFAGAQETYTIESLMYDGQSLQSGTSHYFGDNFAKAFNIKFQNKDQKEENAYSSS;locus_tag=LOCUS_03220;note=WP_011166523.1 proline--tRNA ligase (Mycoplasma mycoides) [pid:68.7%25%2C q_cov:97.6%25%2C s_cov:17.5%25%2C Eval:8.5e-29%2C partial hit],internal stop codon at [197436:197438](+)%2C[197454:197456](+)%2C[197499:197501](+)%2C[197802:197804](+),MGA_322
sequence1	MetaGeneAnnotator	CDS	197838	198449	.	+	0	ID=MGA_323;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTHSDDFGLVLPSKVAPIQVSIIAINNSDEVMNVSNDLKTKLSSNYRVQLDKTDKSFGFKISEAEIKGVPIRIEVGPRDLKDGVVTISRRDLRNKVQVKLEEVENYIEKEIIEYDKNLYNKALENRKNKTFKANTLEEYRAIIDKTPGFVLVPFCGDIECENDIKQKTSTNSRCIPENEKQVKSKCFNCNKDSELMVYFARAY;locus_tag=LOCUS_03230;note=WP_011183374.1 proline--tRNA ligase (Mesoplasma florum) [pid:63.1%25%2C q_cov:100.0%25%2C s_cov:42.9%25%2C Eval:3.7e-73%2C partial hit],internal stop codon at [197802:197804](+),MGA_323
sequence1	MetaGeneAnnotator	CDS	199017	199184	.	+	0	ID=MGA_324;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKERGINYYCNLASPYIFEEGTVKYIDYDLDFKVFNDYSYKILDLKEFNRNRMT;locus_tag=LOCUS_03240;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 [198864:198866](+)%2C[198954:198956](+)%2C[198978:198980](+)%2C[198999:199001](+)%2C[199182:199184](+)%2C[199215:199217](+),MGA_324
sequence1	MetaGeneAnnotator	CDS	199404	200183	.	+	0	ID=MGA_325;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKSKIRNFSIIAHIDHGKSTLADRILELTGSVEKRDMQAQLLDSMDIERERGITIKLNSVQLKYKAKDGEEYVFHLIDTPGHVDFTYEVSRSLAACEGALLVVDASQGIEAQTLANVYLALDNDLEIVPVINKVDLPAAEPDRVKEEIEKVIGIDCSNAPMISAKTGLNVEDVLEAIVNFIPSPLEADDSKPLKALIFDSYYDKYRGVMVSVRIMDGTVKVGETIKMMQSGATYEVTELGVKTPFEVKKSSLEAGEVG;locus_tag=LOCUS_03250;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:1.9e-116%2C partial hit],internal stop codon at [200181:200183](+),MGA_325
sequence1	MetaGeneAnnotator	CDS	200292	201206	.	+	0	ID=MGA_326;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVYCGIYPVDTAKYKDLKEALEKISLSDASLVYEPESSQSLGFGFRCGFLGLLHMDVIQERLEREYDLTLIATAPSVVYKVTQTNDEIIEIDNPAFLPDPQKIKFIQEPYVKVTIMTPDQYLGDLMSLCQDKRGNYIDIEYIDDSRRTLVYEMPLNEIVFDFFNKLKSMSKGYASFDYELVGYKTSKLVKMDILLNGDIVDALSTIVHKDFAQGRGRILTEKLKEIIPRQNFEVPIQAAIGGKIIARETIKAMRKNVLAKCYGGDISRKKKLLEKQKEGKKRMKAIGSVDVPQEAFIAVLKLDD;locus_tag=LOCUS_03260;note=WP_003229999.1 translation elongation factor 4 (Bacillus) [pid:67.4%25%2C q_cov:100.0%25%2C s_cov:49.7%25%2C Eval:9.2e-124%2C partial hit],internal stop codon at [200181:200183](+),MGA_326
sequence1	MetaGeneAnnotator	CDS	201209	201415	.	+	0	ID=MGA_327;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMKFLVDFSNVNLVFDQALEIRRKVFCEEQNYPLEEEIDEYDELSFHVVGFYNDKPVSCARIVKKDDE;locus_tag=LOCUS_03270;note=WP_001831666.1 GNAT family N-acetyltransferase (Staphylococcus) [pid:51.0%25%2C q_cov:72.1%25%2C s_cov:35.0%25%2C Eval:9.6e-09%2C partial hit],MGA_327
sequence1	MetaGeneAnnotator	CDS	202016	202555	.	+	0	ID=MGA_328;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPLFCLLSIDSVLSIISVSIKPATAEQKVQTAVQSQQQVQDNSRENSPNINTTEAKDVSELKNKILSMKSGLNKSYEEAVNEIEMTGALNGLDMSELLNESQDEDQNKIIPFSIGEQKNNINSDFNRNKELVSSADENLIIQDPLANFSSDYEDTQPSNLLDKNYKYTSRRKDVDDNKN;locus_tag=LOCUS_03280;note=MGA_328
sequence1	MetaGeneAnnotator	CDS	203148	203510	.	+	0	ID=MGA_329;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISLQCIYAIFVLFGIFSIFEAHMVRKRKLDYSDFFVKNKDQRSLYNQVIEGKIEFGEFDPIQVDKEVKRIKKETIAEERREKFEAIKKAEEERINKKNEKKQKKLKGKKANENEKDIKL;locus_tag=LOCUS_03290;note=MGA_329
sequence1	MetaGeneAnnotator	CDS	203482	203619	.	+	0	ID=MGA_330;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKMKKTLSYKGQKIDYYLTLRDQKFIRLKLEDTNIYVSAPYQVYD;locus_tag=LOCUS_03300;note=MGA_330
sequence1	MetaGeneAnnotator	CDS	203782	203946	.	+	0	ID=MGA_331;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSFKIYEDKEETVKRMYKKLAISQLNYFEEVVNKYKQIMNLDFKNLTIKTMKGK;locus_tag=LOCUS_03310;note=MGA_331
sequence1	MetaGeneAnnotator	CDS	204394	204576	.	+	0	ID=MGA_332;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=METYSAEIEVISINEIFYFYPMASYFKETYNTISNKLGNYEAAIILASLNKFSYYITEKF;locus_tag=LOCUS_03320;note=MGA_332
sequence1	MetaGeneAnnotator	CDS	204646	204789	.	+	0	ID=MGA_333;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQRTSVEAVNGIIEKSLMLIDNKNIDSYKNHLLIEEIIDLGEDFTYH;locus_tag=LOCUS_03330;note=MGA_333
sequence1	MetaGeneAnnotator	CDS	204796	205164	.	+	0	ID=MGA_334;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLEQVVDLTVETFVFQKQYGQANSYSHSSTYSNFFEQVDEDDFEDFFEKTKTIVFNDEVNDAFSYFGISKMAQPSEFKKIYRKKAKEFHPDLNSDPNATLEMKKINVFKEIIEQYYNKYDIS;locus_tag=LOCUS_03340;note=MGA_334
sequence1	MetaGeneAnnotator	CDS	205264	205521	.	+	0	ID=MGA_335;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINSVKKFSEDLVAFSEVYFSNREEFFKFLKSNYNNFYLQATSIVSSADSVSVIMQLNEGANDYLILINLFRQLLVTLDTLTSNY;locus_tag=LOCUS_03350;note=MGA_335
sequence1	MetaGeneAnnotator	CDS	205881	206006	.	+	0	ID=MGA_336;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYIKEYEEYTFIQNDLISKEMFILYSIFGENSKFLKAIQQE;locus_tag=LOCUS_03360;note=MGA_336
sequence1	MetaGeneAnnotator	CDS	206115	206693	.	+	0	ID=MGA_337;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRMMSICDCFYEYEFIYDSTRTLFLESKKEMIDSLKTYEFAFKEFIDLNYNGFIEELDTLEIAKKYSPIVKDIRKVIHRISEINEYSLIIKETYKVNDLLSDLLDILEDDEDNSFEFGSDSEVILYNFAIYHSTKIYFSLLLREYIILEEERIENVVIEESKPLIQEEELRLAETKIISDQSKEIFYKTLKN;locus_tag=LOCUS_03370;note=MGA_337
sequence1	MetaGeneAnnotator	CDS	208157	208396	.	+	0	ID=MGA_338;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKKTTKKIASKASRVLKDGRFSDQSKSVAASALSQVEDNKNTSDELASKASEILRDKGTFSDTSKSIAGSTLSQKEKK;locus_tag=LOCUS_03380;note=MGA_338
sequence1	MetaGeneAnnotator	CDS	208618	208869	.	+	0	ID=MGA_339;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFGLLSLLSTSILGVTSVFVADGQISKNNVELSSNNSTLINENDVFPIVNEITVYIDSKGSMHKTDAKDFLLIDAQEILKMGV;locus_tag=LOCUS_03390;note=MGA_339
sequence1	MetaGeneAnnotator	CDS	208842	209021	.	-	0	ID=MGA_340;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFVTFEVSQYCIPSIFSFSLYQNSFFKDVISFGNTLGISFALQFIIVVPSSQTPIFNIS;locus_tag=LOCUS_03400;note=MGA_340
sequence1	MetaGeneAnnotator	CDS	209842	210060	.	+	0	ID=MGA_341;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYQKLNTKTLYWGFPIVVISSLNDKNKTDITPISSIYNVNDSIMIGLNISSKAYENIKLNKKAIINIVPDSM;locus_tag=LOCUS_03410;note=MGA_341
sequence1	MetaGeneAnnotator	CDS	210202	210423	.	+	0	ID=MGA_342;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLYIVVEYIDELVVNGIANICFNVKEIYVDAELLDENNYILDDKFNILLYQFRKYKKINKESMGKSFRYVKSN;locus_tag=LOCUS_03420;note=MGA_342
sequence1	MetaGeneAnnotator	CDS	210789	211124	.	+	0	ID=MGA_343;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNRKIQKNVELNESLKILNEVNINFQKEIFDINLNISDILSDFQKDYLMSYSFNDEVEVQFEKLNTNVSKKIFKLRLQLSTLFKKLLLDLNKLLPIKKNLIYNYYRNKFV;locus_tag=LOCUS_03430;note=MGA_343
sequence1	MetaGeneAnnotator	CDS	211158	211466	.	+	0	ID=MGA_344;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEVTSEGVIEFNCYKCEEFVNIEENFETLVAKISTLIDNLCNIKNVSKSYTKDLEEIYLEVDSILTELNFGIILSVDRDFYLKDLFYIKHKNCVSKENEDEI;locus_tag=LOCUS_03440;note=MGA_344
sequence1	MetaGeneAnnotator	CDS	212230	212442	.	+	0	ID=MGA_345;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIPDEDIKNIILDVTKSDTLQIFIAYYLKTIFIESRINFLNDPSLPLISTDKNIVIWALQYFSAITYFQ;locus_tag=LOCUS_03450;note=MGA_345
sequence1	MetaGeneAnnotator	CDS	212914	213156	.	+	0	ID=MGA_346;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEIKNIVKKYKKNEVLRGIDLTISDNEAIAILGSNGCGKTSLAEIIAKFIKPTSGEVTYFDQNKKNANKKVGMQFQDGS;locus_tag=LOCUS_03460;note=WP_011183542.1 ABC transporter ATP-binding protein (Mesoplasma florum) [pid:40.5%25%2C q_cov:98.8%25%2C s_cov:32.9%25%2C Eval:3.5e-11%2C partial hit],internal stop codon at [213154:213156](+),MGA_346
sequence1	MetaGeneAnnotator	CDS	213277	213609	.	+	0	ID=MGA_347;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCSLSGGQRQRTNCFLSIINKPDILILDELITGLDLEMQIKLVNFFKKYKEENKIILLIVSHIPEEVESLCERIIILKDGLVYEDEKLKEVQKKYGSLRERMIHYYEVEK;locus_tag=LOCUS_03470;note=WP_011183542.1 ABC transporter ATP-binding protein (Mesoplasma florum) [pid:53.8%25%2C q_cov:96.4%25%2C s_cov:45.3%25%2C Eval:2.7e-27%2C partial hit],internal stop codon at [213154:213156](+),MGA_347
sequence1	MetaGeneAnnotator	CDS	213991	214176	.	-	0	ID=MGA_348;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKPDVVIIKINNDRIIKILITVFEVIEVSAKNKHDIKIVSKIRFKITNNQIIASIFPSKT;locus_tag=LOCUS_03480;note=MGA_348
sequence1	MetaGeneAnnotator	CDS	215374	216261	.	+	0	ID=MGA_349;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFEIIRQFQQKTATSKDEKIKNLELYYYRNDATLAENNGVYSDKEMVKMADANYLTGDNKKTIKMQVNFGELPESSKYFREEHKEYQQNDIFTMVDQGFNNFLYGSFDFKELAYKYDRAKQEYDPSVYAGFSSYLDNGSGIFANEAYNYVKNNSNDEIRNYLFANQVGNLFNDIQFSGTNLFVSSTNKGLSKNELSQKLKSSEFNRNAFIADPRVKLENKGSLQRDVPNSIFDTVYDYKSNNSKTNTNSYGIADLIPEQTVITDQNLLKSDFKTNFSTGNGIKFKTDEYTIEDYP;locus_tag=LOCUS_03490;note=MGA_349
sequence1	MetaGeneAnnotator	CDS	216685	216897	.	+	0	ID=MGA_350;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLSTSETIAGIGLTFKPKKKEFKLNVGEVQIINQSSFYKNLKTENQNINLEVEYAIKRKNLETYNLRLS;locus_tag=LOCUS_03500;note=MGA_350
sequence1	MetaGeneAnnotator	CDS	218366	218533	.	+	0	ID=MGA_351;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILSVLTTFGFVSSSTVSVIACDTKEKPNPKIDQPKKDITKIVQDFEQDVTKI;locus_tag=LOCUS_03510;note=MGA_351
sequence1	MetaGeneAnnotator	CDS	218576	219070	.	+	0	ID=MGA_352;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTASEESNEFINKVNIQKFSKPENKNKLTAENKIQLTNDVQKLFKTKLLEEKLNTLKKVNKYKIILDEVDSVFDSINLLFDNNNFLINSGEINTGLYIGNIVIDYKVVTKYKGLNSIEKFAQYSTLKYTSTDSETFKKVGEEMYKNIAKDVFISKETEEFVNLQ;locus_tag=LOCUS_03520;note=MGA_352
sequence1	MetaGeneAnnotator	CDS	219182	219442	.	+	0	ID=MGA_353;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKENYLEKKFGSLKISYEKSSVYKTEDFAEQNKDYLIINNLYKSDDDIVSFDMSMAKDYQKISKLLLSDKEELTQFLYENQFSPYK;locus_tag=LOCUS_03530;note=MGA_353
sequence1	MetaGeneAnnotator	CDS	219545	219805	.	+	0	ID=MGA_354;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIAMGFVDFIGPVIKISNGKSSYLHELPDFKLAISYSLNGMVDSNYESLVDFFTNLFNIYKTIYNPTFRSDKKYYFNMSFEKNKI;locus_tag=LOCUS_03540;note=MGA_354
sequence1	MetaGeneAnnotator	CDS	219809	219961	.	+	0	ID=MGA_355;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNKNKVELKNSEINNLLKNFNDNYNFSKKMLLDKLKISNKALKEKDIYF;locus_tag=LOCUS_03550;note=MGA_355
sequence1	MetaGeneAnnotator	CDS	220660	220872	.	+	0	ID=MGA_356;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLLAKNNKVGILIASYIIDKLKVFINKLVIIEKGIKKYDLQCDSKNENILPIYKKYTEIKEIKNFEDLY;locus_tag=LOCUS_03560;note=MGA_356
sequence1	MetaGeneAnnotator	CDS	221673	221936	.	-	0	ID=MGA_357;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLKLQILVMEWQKLKQYKDHIYTGTTSVTYKTKLRSIVNEQGNETKNIYVHAYNSTQNDEDTILLTYKPSLGKQKFTEYFKNINFE;locus_tag=LOCUS_03570;note=MGA_357
sequence1	MetaGeneAnnotator	CDS	221842	222144	.	-	0	ID=MGA_358;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITKLLSAMFLTNSTSNVIVESSNINLFSNKAIKDLEYIIPRGTDIGNFEDFTKDMLIQNLEKSYGINTNEIEITDIGYGMAKIKAIQGSYIYRYNISYI;locus_tag=LOCUS_03580;note=MGA_358
sequence1	MetaGeneAnnotator	CDS	223004	223258	.	+	0	ID=MGA_359;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYYIFMNEKNPLSRYVNAEIRNINEVKNVMENSLIFQYLSFFSIKNSESHKKNFKNSFYNKISKSNFYGDEQLNQVLKNFSQEK;locus_tag=LOCUS_03590;note=MGA_359
sequence1	MetaGeneAnnotator	CDS	223325	223453	.	+	0	ID=MGA_360;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVNKYIEKIFFSYTTTFGNTEIYPNDEKGSEVYDFFSDIDY;locus_tag=LOCUS_03600;note=MGA_360
sequence1	MetaGeneAnnotator	CDS	223454	223600	.	+	0	ID=MGA_361;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDNNYLNYSFGSDLYAKILFESLGAPNNKDYPKEGQDNYDNYKYNPFM;locus_tag=LOCUS_03610;note=MGA_361
sequence1	MetaGeneAnnotator	CDS	223610	223852	.	+	0	ID=MGA_362;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFFSGKNDFLTDSQILSTSLLPLGNYRIFALDEENKIVKTKRPFNIYLNYSIFLLFGISCVLISYYGFNKKIYTKAGEE;locus_tag=LOCUS_03620;note=MGA_362
sequence1	MetaGeneAnnotator	CDS	223852	224574	.	+	0	ID=MGA_363;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011387629.1;translation=MLEIKSMSKKFDNEKGIFNFSLELKEGEIIGLVGDNGSGKSTMLKSLFGEYKKDEGEILLNGESLLKNLTSISFFPDQSVYPKDITILNFAIYDGILCGIEKKEVEQRLDILLEKFNLLDYKTKKFNSLSAGMQKKALLAITLISRPKFIFLDEPTANLDVKSRTDFHKILKSLAKNNKVGILITSHIIDELEGFINKLVIIEKGIKKYDSQFDSKKENILPIYKKFTENKEIKNFEDLY;locus_tag=LOCUS_03630;note=WP_011387629.1 ABC transporter ATP-binding protein (Mycoplasma capricolum) [pid:33.0%25%2C q_cov:95.8%25%2C s_cov:98.7%25%2C Eval:1.9e-35],MGA_363
sequence1	MetaGeneAnnotator	CDS	225244	225555	.	+	0	ID=MGA_364;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRLTIFFGILGISTTPVSLIYNSENIKNKQLDTNYDFSNLETRSKIDLNTITTKDLKMDVGPLKGLTEDVIKKSVLLEIVQQNDKNKTINDVIMGAIYQPQF;locus_tag=LOCUS_03640;note=MGA_364
sequence1	MetaGeneAnnotator	CDS	225772	225909	.	+	0	ID=MGA_365;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=METREVQQEIDLSSFGGINLLKENYESIDVTLKGNYFFKKGKNFA;locus_tag=LOCUS_03650;note=MGA_365
sequence1	MetaGeneAnnotator	CDS	226472	226633	.	+	0	ID=MGA_366;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDIYLQGSHKNHTSLGRDSDIDIVVFTDVTFRSNVKCKINSTLKSEKLDINLL;locus_tag=LOCUS_03660;note=MGA_366
sequence1	MetaGeneAnnotator	CDS	227752	227970	.	+	0	ID=MGA_367;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILSLLGGMSLVISSSSTVVSCFNTRPTNDHTFKDEFEIFDLGAISGVEDTPSVETIYNGIAKAHENVVD;locus_tag=LOCUS_03670;note=WP_011183507.1 lipoprotein (Mesoplasma florum) [pid:66.7%25%2C q_cov:100.0%25%2C s_cov:19.9%25%2C Eval:3.0e-21%2C partial hit],internal stop codon at [227968:227970](+)%2C[227974:227976](+)%2C[228214:228216](+)%2C[228220:228222](+),MGA_367
sequence1	MetaGeneAnnotator	CDS	227998	228216	.	+	0	ID=MGA_368;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFVNEPTTESCTIRVVEGHDQPTLTGEVQFTYNYKKIENNEIDFYSSGQNKGIIRRTGTMEEISKFSNLVTN;locus_tag=LOCUS_03680;note=WP_011183507.1 lipoprotein (Mesoplasma florum) [pid:80.3%25%2C q_cov:98.6%25%2C s_cov:19.7%25%2C Eval:1.9e-28%2C partial hit],internal stop codon at [227968:227970](+)%2C[227974:227976](+)%2C[228214:228216](+)%2C[228220:228222](+),MGA_368
sequence1	MetaGeneAnnotator	CDS	228250	228552	.	+	0	ID=MGA_369;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAYTDLSNYGSTGGTGLCEYIALNMLINYSQVFGKYNLYSNSDIKKYFYQLDSRGIYHYASGSGNKDAVPYLMYKKVSDKYGGRWYDIRTGKSIRKIMKT;locus_tag=LOCUS_03690;note=WP_011183507.1 lipoprotein (Mesoplasma florum) [pid:92.0%25%2C q_cov:100.0%25%2C s_cov:27.7%25%2C Eval:7.8e-51%2C partial hit],internal stop codon at [227968:227970](+)%2C[227974:227976](+)%2C[228214:228216](+)%2C[228220:228222](+)%2C[228550:228552](+)%2C[228598:228600](+)%2C[228625:228627](+)%2C[228742:228744](+)%2C[228790:228792](+)%2C[228814:228816](+),MGA_369
sequence1	MetaGeneAnnotator	CDS	229766	229897	.	+	0	ID=MGA_370;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKMLSLLSSITIVSSGSSAFANATNQKIKTEKVINSEKNSVN;locus_tag=LOCUS_03700;note=MGA_370
sequence1	MetaGeneAnnotator	CDS	230021	230371	.	+	0	ID=MGA_371;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNEMINYAQKEANKILASFQESNYQLDTIIDIIKNNYPDFKQEYDRNLNNIISDIKLENQTVHQFNNYQINNFSSQEYSLSSAQQNNKKLVSDLRVAKAALTTGCAAAAIAAAGF;locus_tag=LOCUS_03710;note=MGA_371
sequence1	MetaGeneAnnotator	CDS	230855	231421	.	+	0	ID=MGA_372;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLFKGEKLMFFISYFINFLLLITAYIIYVMLIALPSTNFVLYISLVSLIFLLGILLFCLYIYLTFKKINKFKFYSRTEVELNYSIPKSNEQYKTILLLEGNNKSPYNNVFKFHQNRLKKKLNKDINNKKDNYKNYIIFLRYIRNYSTFIDRIIRSNRNITVISNDLTINIEELEKVLVENFYSLSRV;locus_tag=LOCUS_03720;note=MGA_372
sequence1	MetaGeneAnnotator	CDS	232123	232344	.	+	0	ID=MGA_373;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEFNVDQDLEYKSFAKLLNFESKEKGLYIYGKPGVGKSTFLLKFAKNIKNQKISIDNFLIDKYKVMYLNVNN;locus_tag=LOCUS_03730;note=MGA_373
sequence1	MetaGeneAnnotator	CDS	232462	232704	.	+	0	ID=MGA_374;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPYILDLFESRYEFIKKNQKEVITIITSNYSVEQLKEKYSKNLSDQVALERLFSRIEGVINLNIKFIGKDKRKENSYLER;locus_tag=LOCUS_03740;note=MGA_374
sequence1	MetaGeneAnnotator	CDS	233520	233714	.	+	0	ID=MGA_375;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYLDPPYYLNKGKPYRYKFTVEQFNLFKDVVDKHSKMGVKILISLDDCFEVRELFKDYYIYEAE;locus_tag=LOCUS_03750;note=MGA_375
sequence1	MetaGeneAnnotator	CDS	233902	234210	.	+	0	ID=MGA_376;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDINEFCSKCSKSFKSFNSNNILFFNNVNNYNDDTNILFEDTNTLLNLKSYINGSATKEYSFLYFKSNSVFNLLEDNKFLRIFYNEFEIEIKVYRNNFIEYF;locus_tag=LOCUS_03760;note=MGA_376
sequence1	MetaGeneAnnotator	CDS	234709	234969	.	+	0	ID=MGA_377;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKNFYKKLTRAELKKLDQLTNKYYINNNLFSYKLYLTLIIFISYSGDINKINKEINCLKNLNINFLNNKFLFKNQINKENQKIAL;locus_tag=LOCUS_03770;note=MGA_377
sequence1	MetaGeneAnnotator	CDS	235559	235699	.	+	0	ID=MGA_378;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MARITKYCFKCKKKIKESDKYNSYKTIDVFGNSNYEIVHNNCRTIN;locus_tag=LOCUS_03780;note=MGA_378
sequence1	MetaGeneAnnotator	CDS	236243	236536	.	-	0	ID=MGA_379;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDINGIKNNKYYEEYKVNKNIPICYSCGFNESKFSSLNMCKVKTKKELMGQFYVKSDPNGDIYVNFCSNCILCGFTDGLEKAIEGSKITCRYENSDF;locus_tag=LOCUS_03790;note=MGA_379
sequence1	MetaGeneAnnotator	CDS	236598	236891	.	+	0	ID=MGA_380;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKLVILESPGKIKKVSQFLKEIDNTNNYIVKASIGHIRELANVGKYQIGIDLNNIEPNFIVSKEKRKVVKDLIEVSKNVDEIILATDPDREGEVIS;locus_tag=LOCUS_03800;note=WP_011167080.1 DNA topoisomerase (Mycoplasma mycoides) [pid:44.3%25%2C q_cov:100.0%25%2C s_cov:15.1%25%2C Eval:1.6e-19%2C partial hit],internal stop codon at [236889:236891](+),MGA_380
sequence1	MetaGeneAnnotator	CDS	236937	237182	.	+	0	ID=MGA_381;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRLNSITKDCIKKELNNLDNININYVNSGLSRSYLDKITGYILSRILQDNSIGLSAGRVQSSVLKLLSNREEEIQNFVKEE;locus_tag=LOCUS_03810;note=WP_009892959.1 type I DNA topoisomerase (Clostridioides difficile) [pid:45.1%25%2C q_cov:100.0%25%2C s_cov:11.8%25%2C Eval:3.0e-10%2C partial hit],internal stop codon at [236889:236891](+)%2C[237180:237182](+),MGA_381
sequence1	MetaGeneAnnotator	CDS	237492	237635	.	+	0	ID=MGA_382;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDSETEIKLLQFVSSKFGNHSVGKIHCKSEKVTDQEGHPPITPTHLE;locus_tag=LOCUS_03820;note=MGA_382
sequence1	MetaGeneAnnotator	CDS	237930	238529	.	+	0	ID=MGA_383;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQNSNPKSRFNEATLIKELERLGIGRPSTYKTSVEINQKRKYVETDEKDSMLVTKLGIQVNKFLTKNFSEFINLEFTKNMEKDLDLIACAKLDYKNYIKDYFKKLEEKGKEFMIEQIKCPKCQNGFIRQAKTNTGVDLGFKSCSNYKNCDFKDQPELNLENAKDCPGCNNGKRFMKNYFDKNENSMKQFETCTNYPNCK;locus_tag=LOCUS_03830;note=WP_010874618.1 type I DNA topoisomerase (Mycoplasmoides pneumoniae) [pid:36.4%25%2C q_cov:99.5%25%2C s_cov:29.1%25%2C Eval:1.4e-29%2C partial hit],MGA_383
sequence1	MetaGeneAnnotator	CDS	238678	238914	.	+	0	ID=MGA_384;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSAEFTSKINIISNNEKDIVNFVKKNIELIEAKYTNVLYLKIDTLFEITEENIDLIKENEIYSIKFSGFAFSKNCKIN;locus_tag=LOCUS_03840;note=MGA_384
sequence1	MetaGeneAnnotator	CDS	239129	239425	.	+	0	ID=MGA_385;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKVETNENKKEIIITKRNFDSTRLCRKDFLNDQDYKEYNSFIKKFSNNTKYYFNYKCINCLGKFVTYHWVLKCPHCKKSLNSLNSYKTQMYQNLKGY;locus_tag=LOCUS_03850;note=MGA_385
sequence1	MetaGeneAnnotator	CDS	239505	239777	.	+	0	ID=MGA_386;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIFNQLDFSKEISNLEILENNIVNKNFAKNSILVRCFDVKNETFLEISFAKGKKVNNGNNSLFKIMQGYKSNSNKKSVYNLGVPIHHFF;locus_tag=LOCUS_03860;note=MGA_386
sequence1	MetaGeneAnnotator	CDS	240973	242151	.	+	0	ID=MGA_387;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVVELVGLSIVFICLLLVMINIVTNTFATFFYFILTGFYALTAVFDQGARMKDYSKTIIANNFIICSTMVIFSVYSSLIQISFNSMSKLGMNGFTKMLLQLALACGGGLFVVNGDQYVSRLVGENISGVSSAMQGLGALKAGAMLAAGLGVAAMKMSKKGLIGRKNFSNSLKNDLSSLQGSNDSINNQSNEESSNETVQNGTHQNKMQQAKENFVKNRQQAMSKYQKGGILALAGLGVATAFHGTKTAKNLIGSFVGTKASRMMRREQLKEQTRTLGKGLANVGAKTLGVAGATFGGVAKMTGLDVTRGKILNERGNVYKNAKAEKYNEKLESKFNEKINKFDAMTSNQIINSNGINKSKEIKKAKELLLLKREQRVSLKEFKEDFSIKSKK;locus_tag=LOCUS_03870;note=MGA_387
sequence1	MetaGeneAnnotator	CDS	242333	242626	.	-	0	ID=MGA_388;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKWYILRDVYPFLKFSIVFLSHPHLSLSGIVLLKPFKVSKKYFGSFSQNLFHNTLDLSELDLDNFFIKSIFLINFFASLFASLCHSKSLYCLEFIHF;locus_tag=LOCUS_03880;note=MGA_388
sequence1	MetaGeneAnnotator	CDS	242889	243050	.	+	0	ID=MGA_389;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISKEICHSELKQVNINSNEQVEKQLKLLKRQQEILDRQIELEKLKDRNNNRG;locus_tag=LOCUS_03890;note=MGA_389
sequence1	MetaGeneAnnotator	CDS	243055	243174	.	+	0	ID=MGA_390;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNSIIKKSFIKQFAQKILEKKALVFLGSGINKEVGLPD;locus_tag=LOCUS_03900;note=MGA_390
sequence1	MetaGeneAnnotator	CDS	243184	243384	.	+	0	ID=MGA_391;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQDLYEDLDIKNSEQNYIDYIDLAQFLIHSTNGRHDLITKILKKIDIDKDPGPNLLEICKLPVKEF;locus_tag=LOCUS_03910;note=MGA_391
sequence1	MetaGeneAnnotator	CDS	243418	243591	.	+	0	ID=MGA_392;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKLNKKYKKIVTKNNFAFLEPYLTNIYKMHGDIENENKIIISRKDYDSYANENLFF;locus_tag=LOCUS_03920;note=MGA_392
sequence1	MetaGeneAnnotator	CDS	244168	244461	.	+	0	ID=MGA_393;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILNSNVVIFLFGNKKDKNSEKIIISNGMIDEEFKIAKQLGKKVIPIPITGYAAFKIFEKIEKEIENFPYLKKHIDTLKNTRDIDQIIKIIESVVEF;locus_tag=LOCUS_03930;note=MGA_393
sequence1	MetaGeneAnnotator	CDS	245053	245196	.	-	0	ID=MGA_394;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANKKQTSKSVATKASAALRDGRSNARTKSIAGSALSQTKTNKSKKK;locus_tag=LOCUS_03940;note=MGA_394
sequence1	MetaGeneAnnotator	CDS	246600	246872	.	+	0	ID=MGA_395;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENKIINEYRRADLNAHKIDISKKVNVLNKIVDIDILDDNENNIFKYKDTLDEYFAYDSLENKASYLKIDNNLKISIGSVDHYPGEPDCG;locus_tag=LOCUS_03950;note=MGA_395
sequence1	MetaGeneAnnotator	CDS	246891	247307	.	+	0	ID=MGA_396;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDSPVIINFNKVSDKVFQETLSKARRTAIATANATSKKEILTQRKRQQEIEKLEEFADTIGYGHDELYKFNIYIINKGINNKELNRSIKETKKILKQQKLTLFANPYKQIEAFSGMLPKPHDPLMEINGREVPLYSLV;locus_tag=LOCUS_03960;note=MGA_396
sequence1	MetaGeneAnnotator	CDS	247431	247691	.	+	0	ID=MGA_397;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFVATTGAGKSTTMQRMLKNEILNGNRVYVIDPENEYSRFADYFGEDKIFLGDGIYKINPLQIMPTLSDLQNEEEKEKIEYNKKF;locus_tag=LOCUS_03970;note=MGA_397
sequence1	MetaGeneAnnotator	CDS	248043	248639	.	+	0	ID=MGA_398;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFYNGYTSIDISNRYLTIFDMSSLKDGSDKRLLSMQMFLVIKLLERQVKVNHGKESNVAQRIIVDEAHLLMDKDFPIALDFIFRMVKMIRKRNGGITIITQNAEDFLSNEEIEKKTKAIINNSQYAFIMKSTAKNIDKIESLYSDNDGFTYQEKSHLIDAPNGEGLLITSRTKRFLLKIDVQPDDFKIISGDETDLVK;locus_tag=LOCUS_03980;note=WP_011166393.1 DUF853 family protein (Mycoplasma mycoides) [pid:32.9%25%2C q_cov:85.9%25%2C s_cov:20.6%25%2C Eval:2.3e-24%2C partial hit],MGA_398
sequence1	MetaGeneAnnotator	CDS	248941	249186	.	+	0	ID=MGA_399;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISSTKKVYKSEICNTIFQKTKIKKKYINVIYDEIFKEIKNQLLKEKKLTIKNFASLKIKKYNNSFFKNCLSLRIKKSCNG;locus_tag=LOCUS_03990;note=MGA_399
sequence1	MetaGeneAnnotator	CDS	249179	249586	.	+	0	ID=MGA_400;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGEKMKNKYTQILIRFKTDEEVELLNKFKAIFKTKSESFNKYIKGIIINIIENNLENKEINKTKNKLKDNFSEILEENIIPRFYGMVKTINEKNLIKIELLNRKVNFLIHELGFKRMIDGRPIINDITEKVKEKN;locus_tag=LOCUS_04000;note=MGA_400
sequence1	MetaGeneAnnotator	CDS	250267	250512	.	+	0	ID=MGA_401;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDSKNIILCFSKENYEIKGSMTLDEFKKYMSSLPKEEAIRIGKAMRKDVNEYLSLVPKRERKIIEKPVGPLGPIIDIDQTD;locus_tag=LOCUS_04010;note=MGA_401
sequence1	MetaGeneAnnotator	CDS	250734	250901	.	+	0	ID=MGA_402;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLALVSSITLITAPIIYVTSCKTFDNNGTVNKESGDKKEQEAIKELKQTDTN;locus_tag=LOCUS_04020;note=MGA_402
sequence1	MetaGeneAnnotator	CDS	251280	251411	.	+	0	ID=MGA_403;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGMNSALARYKTAKQAQIDNPSEGVNVTDLQKDMKFIDDLTTF;locus_tag=LOCUS_04030;note=MGA_403
sequence1	MetaGeneAnnotator	CDS	251835	252155	.	+	0	ID=MGA_404;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDTPFSEYKNFKSPVIFKIKPKDKLGKARSDISKRIEYYYSGKAQKNKKTKNRTYLDYITRDDAIYKLNLTNDELIDLDKLRKTNSKEYFKKLEYLKTVKEEVTGV;locus_tag=LOCUS_04040;note=MGA_404
sequence1	MetaGeneAnnotator	CDS	252417	252632	.	+	0	ID=MGA_405;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHLLFFEKEPTRFSKEYEPKYHFDKDLLEDFRFRFATDLILKKQHIEYKDFMKSRGNLVNHFKQSLKEPII;locus_tag=LOCUS_04050;note=MGA_405
sequence1	MetaGeneAnnotator	CDS	252648	253199	.	+	0	ID=MGA_406;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDVKEIYNDLTNDYEKIVYEINKYNYENNRAKFRKVNSLKYNFLNKTEKQRINKIIDHILKNDKNINQEYKTYVKNLEGYQNAVNEINNNKDTKFMYESLYGKDGLYSRIGNRILYAIKRNMDISKKGIIPAKYYPKIRKIRISIIGDLLIKISKLIKVMNNYVSFEANKTEEIFKERERAKN;locus_tag=LOCUS_04060;note=MGA_406
sequence1	MetaGeneAnnotator	CDS	253307	253477	.	+	0	ID=MGA_407;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKAEADEITITVFFRVKTYYRFVLKKKIRLYKLILLILLIIFVILLAISGGVKYA;locus_tag=LOCUS_04070;note=MGA_407
sequence1	MetaGeneAnnotator	CDS	253746	253877	.	+	0	ID=MGA_408;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHNETEISNLNKQEKTLKEFHHYFGCDTKKCCKPKKEIIKKAA;locus_tag=LOCUS_04080;note=MGA_408
sequence1	MetaGeneAnnotator	CDS	254088	254294	.	+	0	ID=MGA_409;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGSTGSGKTQKLIFPGIIRNAFLNNSEQPTMVITDPKGEIYEQTSGILESQGYDVKVLNFRDTTTSYS;locus_tag=LOCUS_04090;note=WP_011222033.1 type IV secretory system conjugative DNA transfer family protein (Lactiplantibacillus plantarum) [pid:45.5%25%2C q_cov:97.1%25%2C s_cov:11.9%25%2C Eval:6.2e-08%2C partial hit],MGA_409
sequence1	MetaGeneAnnotator	CDS	255003	255773	.	+	0	ID=MGA_410;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLCSTQNLINMEEIAYGEKPTILYLIVPDDDKTFHPLVACFVDQLYKTSVKVATNNKVSGRLKEATLSRQIQFYLDEFGNFPKIPTFAQMITVARSRNIFFMLILQDYGQLKTAYGETESQTIKFNCNASIYIRTNDSSTADELSKEYGEKPIVAFNINDKFNRVEKKDYKNKKEKETTNVTTVPLIRGNEILNLDDNFMIVKKSGKNPALVHSIYSYKVKKFKEYMSYKRSFVPSNAINYKKNHYFNFIDNDYEE;locus_tag=LOCUS_04100;note=WP_011244838.1 type IV secretory system conjugative DNA transfer family protein (Bacillus thuringiensis) [pid:39.2%25%2C q_cov:57.8%25%2C s_cov:16.1%25%2C Eval:9.1e-23%2C partial hit],MGA_410
sequence1	MetaGeneAnnotator	CDS	255855	256274	.	+	0	ID=MGA_411;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDFNNSSIEDYHNYNYKSLLEEQNKNIVLQKQNIKSKHLKEIVQQVEENEELDDENEELTSMFYDIEEKFRNKKSMRDQIEKNYFKLEKIKESYYKYCNLLPNEMTTKQKQEYNSLYEQQLKIAEENKKILERCKNSKY;locus_tag=LOCUS_04110;note=MGA_411
sequence1	MetaGeneAnnotator	CDS	256945	257082	.	+	0	ID=MGA_412;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKLDCIIVGEGSKSNGIFSITKDDEETSEFSNNYVKEYGTLGVL;locus_tag=LOCUS_04120;note=MGA_412
sequence1	MetaGeneAnnotator	CDS	257272	258915	.	+	0	ID=MGA_413;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLKFALSNQNRISEVKPTTISRSSKLKSVEFKNKSTIQFSEGLNILIGPRSSGKTFLNTLLNALINNDKEQFKKDDYKDEFSLLGNEAFIKDFNDNKFNKPGSSMLIEQSSMIEKAYDLKTKIIEDFDYNNLDYSNFDELNKKNKDYISNLTEMVSKIYHICNTSKSPFESLEIIDDNIESVEAFKNKIMISINDEINDNFYNEYESLKNNVINNDVHINKLKKNLKADLLKIKDIEIQKNTFKHFNLNIENANFNPVKDEILKQIDVLLEINQKTLISINSNAFFPEFIKIIKSIYTDYDSSKSNNLINKDLKIAELKDLNADYKKFGEIVSKFKNSKLNFQDQINEQAIIKSFGAHSTFIVKQYTKHTYKENLFKNLIYTDFLDIVKKNDSISIEKYKLLLKYSIRYKGKCFKQEKTDKQINVLKKSYESIFSTSISHDGIETESSSPGMRAQIVFLTKIDDFDSNTNKNILFIDQPEDSIDNAYVSKEMVEILKNSSRHKQVFLITHNSNLVVNLDPENIIVPTRESDGSIKYQNGAMESEIY;locus_tag=LOCUS_04130;note=WP_076562306.1 hypothetical protein (Chryseobacterium indoltheticum) [pid:23.7%25%2C q_cov:92.5%25%2C s_cov:61.8%25%2C Eval:7.6e-22%2C partial hit],internal stop codon at [258913:258915](+),MGA_413
sequence1	MetaGeneAnnotator	CDS	259025	259309	.	+	0	ID=MGA_414;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNINISFNEDKFIIKRDTLKYEIESDVKTFTSIDFLAFLYNFDKDDKIINNLSIDSLDNEKKLDINRKYNVLENILKSYLEGILKYYEKQESTS;locus_tag=LOCUS_04140;note=MGA_414
sequence1	MetaGeneAnnotator	CDS	260089	260712	.	+	0	ID=MGA_415;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNYINTPVYSNQLSKKHMNKNNKGFYFLKLNAPETLNSKTIKEKYGNVKAISIIVPDFAVKGSVIAKESDKVYKLDKDKEGKVVDFNPLILDENKKKVDGKHILATVSLKLPEDEKELNDETKVKVVLSVFNEETKTYENKQMTTSYKKLSEDLFKQNTKSVSESIKKYKDSAKDIFNEAELAKEIEKEEKVNNVEYDLIDDAISR;locus_tag=LOCUS_04150;note=MGA_415
sequence1	MetaGeneAnnotator	CDS	260759	261034	.	+	0	ID=MGA_416;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVILSLFLFMNLSYVPIKQFNNSIQQKELKNNLEDISNYSYDPSYPSFNLYSDFYSRTQRLYIDSGKDDSLPNCSNCSDQRRNRVNNGE;locus_tag=LOCUS_04160;note=MGA_416
sequence1	MetaGeneAnnotator	CDS	261407	261643	.	+	0	ID=MGA_417;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSKDSFQFKSNFNQNNLKSKIQSALSKNFTIKSDTSPDVSNNEKNGLPGKPSKSNKELVISEIDKRLRTSFGIDYSA;locus_tag=LOCUS_04170;note=MGA_417
sequence1	MetaGeneAnnotator	CDS	261764	262147	.	+	0	ID=MGA_418;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPVNITLTDLYYQRSAQKRLVINPGKIVNPNSQLNELIIDKPEYDAKNNTFVYHNSIDVTFTAISESEILTVNGQEVPVFNNIYRIKLDNNLNTYKIEVNGIKNLKGITKLNLNINIQSLANKLNYR;locus_tag=LOCUS_04180;note=MGA_418
sequence1	MetaGeneAnnotator	CDS	262259	262525	.	+	0	ID=MGA_419;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRNEYIYIERNMKFPFYQDPLDKFGNIITDYKNINKSIIAEAAVANSGVTLLEKFDKAKIYRVDRLKLDENFKLISKQENVNIKENEQ;locus_tag=LOCUS_04190;note=MGA_419
sequence1	MetaGeneAnnotator	CDS	262853	263380	.	+	0	ID=MGA_420;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSDQISQKIDVPQNPVSYKDLKNLNISSLKMNEINPLEVKNKIINHVKKYVEKFIKNSVYKTDYIICDENENQIEELDFQDFINLSENNKYKKITLFIKALGTSSLLIGRQNFNIINNKEFEESKNFDLSTIKDLKSIRYNFTNADNQIKRNFLNNYIYEYVKKILQIYKPKKID;locus_tag=LOCUS_04200;note=MGA_420
sequence1	MetaGeneAnnotator	CDS	263853	264026	.	+	0	ID=MGA_421;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKYNFTNYEKTAYFNQNIYFQNFEEKLVDKAKKDIQEEFEKIDLRIRYDKKRIACG;locus_tag=LOCUS_04210;note=MGA_421
sequence1	MetaGeneAnnotator	CDS	264324	264638	.	+	0	ID=MGA_422;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRGKKIDVSNKEYIYIETDDTFSNFIKDNKKTNFRIRIATIHTGARRGIHNRKYLENKKIDYMLIEKGKRISTLDYSKRIKVFINNHYKNYENKQLVILGDNAT;locus_tag=LOCUS_04220;note=MGA_422
sequence1	MetaGeneAnnotator	CDS	265050	265187	.	+	0	ID=MGA_423;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKQIHANGYDMCELLEYEIETLQINNLDYIYKEVIEYKTIGLL;locus_tag=LOCUS_04230;note=MGA_423
sequence1	MetaGeneAnnotator	CDS	265542	267269	.	+	0	ID=MGA_424;product=translational GTPase TypA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183367.1;translation=MDKKIINIAVIAHVDAGKSTLVDAFLSQSNVFRANEEVKEQVMDSNDQERERGITIYSKNCAIEYNGYKINIVDTPGHADFSSEVERIMKTVDTVILLVDSAEGPMPQTRFVLSKALELGLRPILLVNKIDKKDQRALEVVDEVLELFMELDANDEQIEFPSLFGTAREGIVQYSMEEKSDNLVPLFETIIKQVGNYPIELAKEPVQLQISSLAYDSFIGRLGIGRLFKGVLKEGQQVAISKNDGSVAKGKVSGLFIYEGLKRVAVKEAQAGEIVVISGISDLTIGDTVCEQDKIDALPPIVIEEPTMSMNFLVNTSPFAGRVGKYVTTRNIKERLDKELEVNVGLRVETLTDSSADGFKVLGRGELHLSVLIETMRREGFELGISRPEVVIKIDEKGNKLEPMEKVIIDVPTEYSGTVINKLNLRKGIMTDMDSDGVRDKVTYHIPTRGLIGFKSEFTNDTRGEGVMVKSSIGYEEYKGKIEGRQNGTLVSMANGVTLPYALNNLEERGILFVGPQVEVYDGMIVGLHSRDNDLNVNPTTGKKLTNTRASGSDDSVKLTPPRKFTLEEALEFIE;locus_tag=LOCUS_04240;gene=typA;note=WP_011183367.1 translational GTPase TypA (Mesoplasma florum) [pid:75.4%25%2C q_cov:99.8%25%2C s_cov:93.8%25%2C Eval:8.3e-253],MGA_424
sequence1	MetaGeneAnnotator	CDS	267480	268022	.	+	0	ID=MGA_425;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKITNIVAREVLDSRGFPTVQVDVTTEFGGFGTAKVPSGASTGSREALELRDGDKKRFNGKGVLKAVANVNSKIANLIIGMEVTDQVAIDTEMCKLDGDDFKKNLGANAILGVSLAVAKAAASELEIPLYRYIGGTNARRLPVPMLNVINGGEHADSAIDFQEFMIMPVGAPTFSEALR;locus_tag=LOCUS_04250;note=WP_011183366.1 phosphopyruvate hydratase (Mesoplasma) [pid:76.7%25%2C q_cov:100.0%25%2C s_cov:39.7%25%2C Eval:1.0e-73%2C partial hit],internal stop codon at [268020:268022](+)%2C[268119:268121](+),MGA_425
sequence1	MetaGeneAnnotator	CDS	268452	268622	.	+	0	ID=MGA_426;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGHKIQIVGDDLFVTNPKITAEGIEKKAANSVLIKLNQIGTLTETIETIQMAQKAG;locus_tag=LOCUS_04260;note=WP_011166450.1 phosphopyruvate hydratase (Mycoplasma mycoides) [pid:73.2%25%2C q_cov:100.0%25%2C s_cov:12.4%25%2C Eval:5.6e-17%2C partial hit],internal stop codon at [268326:268328](+)%2C[268422:268424](+)%2C[268620:268622](+),MGA_426
sequence1	MetaGeneAnnotator	CDS	269787	270209	.	+	0	ID=MGA_427;product=Holliday junction resolvase RuvX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183362.1;translation=MAKYIGLDLGSKTIGIATSEGYFANPKETIRFQENNFLEAVTKLDIFLKKEGFEKIIVGYPKNMDGSTGHRVEMVEEFIAKMVEQKVISSELIERVDERLTTRMAKQVMISADLSRKKQKENKDQIAAKLILETYINSIK;locus_tag=LOCUS_04270;gene=ruvX;EC_number=3.1.21.10;note=WP_011183362.1 Holliday junction resolvase RuvX (Mesoplasma florum) [pid:53.9%25%2C q_cov:100.0%25%2C s_cov:99.3%25%2C Eval:1.4e-34],MGA_427
sequence1	MetaGeneAnnotator	CDS	270252	270698	.	+	0	ID=MGA_428;product=hypoxanthine phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183361.1;translation=MENHPLVKEILFSKEEIEVRTKQLAREIESYYKSRDVKENTVILIGLLKGCIPFMADFIKNFDHECQTEYMVVSSYLGGTKTTGEPKINLDLNISIKDKHILIIEDVIDSGITLEYIKNYLSLKGAKEVKVVTLLDKREGRKVNIEAD;locus_tag=LOCUS_04280;gene=hpt;EC_number=2.4.2.8;note=WP_011183361.1 hypoxanthine phosphoribosyltransferase (Mesoplasma florum) [pid:56.1%25%2C q_cov:100.0%25%2C s_cov:78.3%25%2C Eval:2.4e-46],internal stop codon at [270696:270698](+),MGA_428
sequence1	MetaGeneAnnotator	CDS	270892	271038	.	+	0	ID=MGA_429;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKKIGVLTSGGDAPGMNAAVASVIKTAISKGIEAYIIKDGYKGLINN;locus_tag=LOCUS_04290;note=WP_013447579.1 6-phosphofructokinase (Mycoplasma leachii) [pid:78.7%25%2C q_cov:97.9%25%2C s_cov:14.4%25%2C Eval:4.1e-15%2C partial hit],internal stop codon at [271036:271038](+),MGA_429
sequence1	MetaGeneAnnotator	CDS	271111	271860	.	+	0	ID=MGA_430;product=6-phosphofructokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183071.1;translation=MPEFKEESVRQKAVENLKTIGIEALVVIGGDGSYQGAEKLTKMGINCIGLPGTIDNDIVSSDYTIGFDTALNTVINSLDQIRDTIQSHNRCMVVEIMGNACGDLTLYGATGSGAEVFSTKESYLTEEQIIDQVKELRKKNKRSVIVAVAEKNYDVNELAKKIEKETGYETRATILGHIQRGGKPTGMDRYLAVKSGIFAVEQLIAGKGGLYIGMSNNKLVARDIELTLNMPKVDKTEEYEKLRNINKAV;locus_tag=LOCUS_04300;gene=pfkA;EC_number=2.7.1.11;note=WP_011183071.1 6-phosphofructokinase (Mesoplasma) [pid:69.1%25%2C q_cov:100.0%25%2C s_cov:77.1%25%2C Eval:9.1e-97],internal stop codon at [271036:271038](+),MGA_430
sequence1	MetaGeneAnnotator	CDS	271881	272711	.	+	0	ID=MGA_431;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKEIEFYEPSKIAKKIKRTKIVTTIGPSTHSKDDIRKLFESGMNVVRLNFSHGKQEEQSEKIKSVIELREELDKPISIMLDTKGPEIRIGKVLDGAQEIKAGSDIRVYTTQEEYLKRECKATEMTVSYDMSIDLKPGDTVLVDDGKLTLNVINVESGLVNCKAFNTHTIKTNKRVNLPGVDFSLPFLAQKDIDDIKYGAKMKVDYIAASFVNTADNVKEIRNILKECKAEHIQIISKIESKIGIFNIDSIIEASDGIMVARGDLGLEIPYYEVPY;locus_tag=LOCUS_04310;note=WP_011183072.1 pyruvate kinase (Mesoplasma florum) [pid:66.2%25%2C q_cov:94.2%25%2C s_cov:54.4%25%2C Eval:9.7e-98%2C partial hit],internal stop codon at [272710:272712](+),frameshifted%2C insertion/deletion at around 271929,MGA_431
sequence1	MetaGeneAnnotator	CDS	272721	273167	.	+	0	ID=MGA_432;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIRKCRKAGKVVVVATQMLESMTDNPQPTRAEVTDVYYATELGADATMLSGESAAGIYPFITTETMATINKRAELGFYGKIYYDRALEIARNSSSGKRAEIADELANITRNGKYEFALVLSRTGELLRTISKFRPNVTILGVCDKEEL;locus_tag=LOCUS_04320;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:1.2e-58%2C partial hit],internal stop codon at [272709:272711](+)%2C[273165:273167](+)%2C[273267:273269](+),MGA_432
sequence1	MetaGeneAnnotator	CDS	273428	273601	.	+	0	ID=MGA_433;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKFNLNEKMKRTKVITTIGPSVHSKEAIKELFDKGMTTIRLNFSHADFQEHGERFE;locus_tag=LOCUS_04330;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:7.3e-17%2C partial hit],internal stop codon at [273165:273167](+)%2C[273267:273269](+)%2C[273599:273601](+),MGA_433
sequence1	MetaGeneAnnotator	CDS	273683	274237	.	+	0	ID=MGA_434;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDGKQEVKAGTEITVYTDPKDFSTRECSATEMQMSYDMSQDVKVGDVVLVDDGKLTMHVTSVDKYKVICKAFNTHLVKTNKRVNLPGVEFTLPFLAEKDYNDIHFGIENNIDYIAASFVNSADNVNEIRNILKEKKAEHIQIISKIESQVGCDNIDSIIAASDGIMVARGDLGLEIPYYDVPY;locus_tag=LOCUS_04340;note=WP_011183072.1 pyruvate kinase (Mesoplasma florum) [pid:67.0%25%2C q_cov:98.9%25%2C s_cov:38.1%25%2C Eval:5.3e-65%2C partial hit],internal stop codon at [273599:273601](+)%2C[274235:274237](+),MGA_434
sequence1	MetaGeneAnnotator	CDS	274286	274693	.	+	0	ID=MGA_435;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MATQMLESMTDNPQPTRAEVTDVYYATELGADATMLSGESANGDFPFITVETMSTINKRAEIEFYEKNYYTKQLENARKSSSGKRSEIANQLANTTLGGNYEYAVVVSRTGELLKTISKFRPNVTILGVCDNEKL;locus_tag=LOCUS_04350;note=WP_011166458.1 pyruvate kinase (Mycoplasma mycoides) [pid:75.6%25%2C q_cov:100.0%25%2C s_cov:28.2%25%2C Eval:5.0e-53%2C partial hit],internal stop codon at [274235:274237](+)%2C[274691:274693](+)%2C[274793:274795](+),MGA_435
sequence1	MetaGeneAnnotator	CDS	274982	275791	.	+	0	ID=MGA_436;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKLLDGKIMSFDIPKTVIEIAQEISISLGKKCVGAIINGKEVVPSKATIDKDCKLELITERHELFNSVVNYTAKIITGFALKTLFPQGSLYPESEGYDKSEFFVYYDLPTKLTLEDLKEAEKLANDLISKKIELKFEDVTFTDEKYNELMSSINVKKEYIDIMLEMNKNRYIKFPVASLNGVVYYSRYANLNNTSDLFKIELNEITAFQIEDNKYVYKIHGLTAISEKELEEKKRKIEELKENDHKYIAKNLEIYHLDPLIGQGLPI;locus_tag=LOCUS_04360;note=WP_011183074.1 threonine--tRNA ligase (Mesoplasma florum) [pid:32.7%25%2C q_cov:100.0%25%2C s_cov:41.0%25%2C Eval:5.3e-32%2C partial hit],internal stop codon at [275789:275791](+)%2C[275921:275923](+),MGA_436
sequence1	MetaGeneAnnotator	CDS	275792	275923	.	+	0	ID=MGA_437;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPNGTVLKQEIKKYLMEKEFEYDFIQIETPVIGTSELYKTSGH;locus_tag=LOCUS_04370;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:2.2e-13%2C partial hit],internal stop codon at [275789:275791](+)%2C[275921:275923](+),MGA_437
sequence1	MetaGeneAnnotator	CDS	275942	276310	.	+	0	ID=MGA_438;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFAPMILPKEEMVLKPMSCPHHISVYRYKQRSYRDLPLRFAEHALQHRYESSGSLTGLERVRAMELTDSHIFVRADQVKDEFIRCFNLITEVLKTFDIKIDYLSLSLRDPEDKEKYFNDDKM;locus_tag=LOCUS_04380;note=WP_011183074.1 threonine--tRNA ligase (Mesoplasma florum) [pid:77.9%25%2C q_cov:92.6%25%2C s_cov:17.5%25%2C Eval:1.8e-47%2C partial hit],internal stop codon at [275789:275791](+)%2C[275921:275923](+)%2C[276308:276310](+),MGA_438
sequence1	MetaGeneAnnotator	CDS	276371	276616	.	+	0	ID=MGA_439;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIGEAAFYGPKLDIQAKTALGHEITVSTIQLDFLLPQKFELSYINFEGELERPIMIHRGLVGTYERFISVLLEQTKGVLPL;locus_tag=LOCUS_04390;note=WP_011166459.1 threonine--tRNA ligase (Mycoplasma mycoides) [pid:78.8%25%2C q_cov:98.8%25%2C s_cov:12.5%25%2C Eval:1.5e-30%2C partial hit],internal stop codon at [276308:276310](+)%2C[276614:276616](+),MGA_439
sequence1	MetaGeneAnnotator	CDS	276740	276925	.	+	0	ID=MGA_440;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSYKIRDAQIRKIPYQLVLGDKESENDMVTYRKYGSEEQITVTLKEFIKMIEKKVKEKIYN;locus_tag=LOCUS_04400;note=WP_011166459.1 threonine--tRNA ligase (Mycoplasma mycoides) [pid:56.9%25%2C q_cov:95.1%25%2C s_cov:9.1%25%2C Eval:7.1e-15%2C partial hit],internal stop codon at [276614:276616](+),MGA_440
sequence1	MetaGeneAnnotator	CDS	276952	277422	.	+	0	ID=MGA_441;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKNNNIEEEIRSLKELDYGVLDAQHSFMVDGVLGGFKAAIHKLHYTFIKQILLGIMSGVIIGFGYVACIIAMVSLKGTGFEAFGTILLGFIFPGCIIMITFLGGGLFTSHVFSTIPVFKGCGSKRLYLKGIFGVLLGNFIGTFIFVAIFSGAGGL;locus_tag=LOCUS_04410;note=MGA_441
sequence1	MetaGeneAnnotator	CDS	277462	277710	.	+	0	ID=MGA_442;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHKLYLVNHDLQSNGSIKAVSILATIGIGICSGILCNIMVCSTLPLASTTKNAAAVILLMVFPIAYFAIGGFQHGPANSFFM;locus_tag=LOCUS_04420;note=WP_011183083.1 formate/nitrite transporter family protein (Mesoplasma florum) [pid:39.2%25%2C q_cov:95.1%25%2C s_cov:22.5%25%2C Eval:5.8e-09%2C partial hit],internal stop codon at [277420:277422](+)%2C[277708:277710](+)%2C[277849:277851](+),MGA_442
sequence1	MetaGeneAnnotator	CDS	277711	277851	.	+	0	ID=MGA_443;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLFEAIFNHSQVAITNGSGEVLLRPEFYHFALFIALSTIPTLIGN;locus_tag=LOCUS_04430;note=MGA_443
sequence1	MetaGeneAnnotator	CDS	277867	278064	.	+	0	ID=MGA_444;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLPGVLYFINKEYASILFKKIKLEYLEEKMGSFKEIADKQIKKIDKKLKQKKANIEARESENKSE;locus_tag=LOCUS_04440;note=MGA_444
sequence1	MetaGeneAnnotator	CDS	278197	278418	.	+	0	ID=MGA_445;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKQNFITMPKFEMHLHIEGTMYPEFFVKKAKEKNIKLAFDTPEEYYVDYRTRNTLQKFLMTYYGNMRVLENK;locus_tag=LOCUS_04450;note=WP_003020983.1 adenosine deaminase (Francisella tularensis) [pid:40.0%25%2C q_cov:95.9%25%2C s_cov:22.0%25%2C Eval:3.2e-07%2C partial hit],internal stop codon at [278416:278418](+)%2C[278437:278439](+),MGA_445
sequence1	MetaGeneAnnotator	CDS	278605	278727	.	+	0	ID=MGA_446;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCFLKDLPEYEAEEVLELAKSAIKQNKIIAIGFDSSESPN;locus_tag=LOCUS_04460;note=MGA_446
sequence1	MetaGeneAnnotator	CDS	278892	279092	.	+	0	ID=MGA_447;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTRIKNDNIHITMCPFSSTRGNKFENKKDYPIKKYLNFGIQLNINSDDPAYHGATLTQSFNYVDDM;locus_tag=LOCUS_04470;note=WP_010926108.1 adenosine deaminase (Bordetella) [pid:37.3%25%2C q_cov:89.4%25%2C s_cov:18.6%25%2C Eval:4.1e-07%2C partial hit],internal stop codon at [278725:278727](+)%2C[278821:278823](+)%2C[279091:279093](+)%2C[279112:279114](+),frameshifted%2C insertion/deletion at around 278877,MGA_447
sequence1	MetaGeneAnnotator	CDS	279260	279700	.	-	0	ID=MGA_448;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGANMVIVALRVAADVFIKGLTNIGLIAKLESAMKLTGGSSILLPIILVIFTAFIVLLSGSGTALLFALAPILPSMAQASGISSAAAIVPFQMAGNLFRAMSPVSSVVIIVSQKTNVTTTELIKRTCIPLLSGVILMLILSLIIFI;locus_tag=LOCUS_04480;note=WP_007052501.1 C4-dicarboxylate transporter DcuC (Bifidobacterium) [pid:46.6%25%2C q_cov:88.4%25%2C s_cov:27.5%25%2C Eval:2.0e-24%2C partial hit],internal stop codon at [279707:279709](-)%2C[279758:279760](-),MGA_448
sequence1	MetaGeneAnnotator	CDS	279758	280003	.	-	0	ID=MGA_449;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYCDKRDLKKGIQYNFNEEIHKIVTIESGKTYKIVYTILPMLPIILVIISFILSTFAFNGGLEISVELVTFLSFIIAIFCE;locus_tag=LOCUS_04490;note=MGA_449
sequence1	MetaGeneAnnotator	CDS	280100	280678	.	-	0	ID=MGA_450;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYFDHIKQMINDIFMYIFGALAIGLLIFFLIKKVNIIISLFVLGLFLLIISMCLGKVQINKPIDVFYPLEELTKSFTKGVSGAGFIILLLGGYSAFMGQIGANDVIVATLTKPLVKIKKKYLLIPIVFIFGHILSLTIPSAATLALILMTTLFPVLIKSGISPLSAGGVIATTATIMPTPLGSDNVFIAE;locus_tag=LOCUS_04500;note=WP_007052501.1 C4-dicarboxylate transporter DcuC (Bifidobacterium) [pid:48.4%25%2C q_cov:92.2%25%2C s_cov:38.2%25%2C Eval:3.6e-43%2C partial hit],internal stop codon at [280007:280009](-)%2C[280100:280102](-),MGA_450
sequence1	MetaGeneAnnotator	CDS	281315	281539	.	+	0	ID=MGA_451;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYYSGVTYNKPGKNETDPSVPTVITGIGIVDLFVSIFKGFEDKVEIIVFVLSIGAFIYIVMKSKSLDALTQKIA;locus_tag=LOCUS_04510;note=MGA_451
sequence1	MetaGeneAnnotator	CDS	281615	281824	.	+	0	ID=MGA_452;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAEEALGFHMIVIPLMLVAGFDVFTALITVLLGGGIGPMLATFDPFLIFTAADAANSQAMDGLIFRLIA;locus_tag=LOCUS_04520;note=WP_011182912.1 YfcC family protein (Mesoplasma florum) [pid:50.0%25%2C q_cov:97.1%25%2C s_cov:14.2%25%2C Eval:2.4e-12%2C partial hit],internal stop codon at [281537:281539](+)%2C[281561:281563](+)%2C[281822:281824](+)%2C[281852:281854](+)%2C[282041:282043](+)%2C[282086:282088](+),MGA_452
sequence1	MetaGeneAnnotator	CDS	281890	282225	.	-	0	ID=MGA_453;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVSSPSQFKIATINEPIKKKPATMNISPYPIPGTKPVKKGIYLLTQFPKSFMAVVLNNSSQGNRYAIIIKNITKKITLIVILFLVKATSLICSFKKNFLSSSNVENVYES;locus_tag=LOCUS_04530;note=MGA_453
sequence1	MetaGeneAnnotator	CDS	282254	282472	.	+	0	ID=MGA_454;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIGVAFIISIAGAITYLLKETGIQALMLAGIKNSNIGNMNPFLFIIITFLLFIPMSFALPSTSGFSSAVFPV;locus_tag=LOCUS_04540;note=WP_020862985.1 YfcC family protein (Mycoplasma mycoides) [pid:41.7%25%2C q_cov:100.0%25%2C s_cov:14.1%25%2C Eval:4.7e-11%2C partial hit],internal stop codon at [282041:282043](+)%2C[282086:282088](+)%2C[282203:282205](+)%2C[282470:282472](+)%2C[282650:282652](+),MGA_454
sequence1	MetaGeneAnnotator	CDS	282518	282652	.	+	0	ID=MGA_455;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISGSITAFAYANGMANMVSPASGIVVGAAQIGRTSYGTIIKGT;locus_tag=LOCUS_04550;note=MGA_455
sequence1	MetaGeneAnnotator	CDS	282793	283017	.	+	0	ID=MGA_456;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEKKFKSEKAFSAKKFFDSFKMIGEAIKKNPKTFTGYLIFTIIDAILYSSMTIVVSQMTKNVTSQGLQANHFL;locus_tag=LOCUS_04560;note=MGA_456
sequence1	MetaGeneAnnotator	CDS	283111	283389	.	+	0	ID=MGA_457;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFAKRVEIYLRIKALKKLVDIDISYYSKNQIGLIMTRVINDSQGSGDAFNDFLLNLLFSSISFITMIFFMISIDVTLTLIVIGIFVLLVIII;locus_tag=LOCUS_04570;note=MGA_457
sequence1	MetaGeneAnnotator	CDS	283762	284601	.	+	0	ID=MGA_458;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRGLTRLSNCVMRLNYIYNSNSLLKFIDNPEKIGDIKNITFNKVTFNYPESPKKQILAEISLNFEKNKSYAFVGETGVGKSTIAKLLLRFYDVTTGELLINGKNIQKIDHNDYLDKVGYVEQEPQILYGTVMDNLKYPFFDKTDEQAIEAAKKAKIHNYIKKLPMGYDTILGERGFMLSGGQKQRLVIARIFLKDPQLLILDEATSALDNVVEKEIQLELNKLMLGRTTVVIAHKLSTIINVDEIIVLDKNGIAQKGNFNELKEKEGHFKKLYTLGLMK;locus_tag=LOCUS_04580;note=WP_011183321.1 ABC transporter B family permease/ATP-binding protein (Mesoplasma florum) [pid:62.0%25%2C q_cov:92.5%25%2C s_cov:43.1%25%2C Eval:9.0e-83%2C partial hit],MGA_458
sequence1	MetaGeneAnnotator	CDS	284645	284932	.	+	0	ID=MGA_459;product=PTS lactose/cellobiose transporter subunit IIA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000134124.1;translation=MEMISCIGSSKSNAILAIRAAKEKDFDKSKELIKLAELEMNKAHNLHFDIVAREANGENLDLKLIFLHAEDQMLTTQAIIDLGKEMIEMYKIIYK;locus_tag=LOCUS_04590;note=WP_000134124.1 PTS lactose/cellobiose transporter subunit IIA (Streptococcus) [pid:37.8%25%2C q_cov:94.7%25%2C s_cov:88.2%25%2C Eval:1.9e-12],MGA_459
sequence1	MetaGeneAnnotator	CDS	285018	285668	.	+	0	ID=MGA_460;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILSLFSIMSLTASPIFLSSQVISCNGTWSLAFKDILRKDIESLTDLSYYNIARECVEVKDSECSTTENGQIMSTLSLSINEAIVTNNEGMLKKITDASLELFKEASAYFDKLVPKFDKNNEDGNAYYYYVIDDKGEYGSASTEISYDSEKNLLEYFGDEIIKPEFQVNTARFAVLKNNLEYTKAFYKNNLSILNETDEYMKNVDYMNKYIENG;locus_tag=LOCUS_04600;note=MGA_460
sequence1	MetaGeneAnnotator	CDS	285678	285818	.	+	0	ID=MGA_461;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKIVNKGKAKSHGPTLTKIKFDQRLVDYISVGQLGQEDIRQYEGY;locus_tag=LOCUS_04610;note=MGA_461
sequence1	MetaGeneAnnotator	CDS	286010	286447	.	+	0	ID=MGA_462;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKYEKYPDIFDASNSIKSSKQRIKKVKKEIFELKNELHLKKIKHKEISSTFNKIRKEKEKELSANFNIDLLNAKYKKADINKIYDDYNSNIANLKEEYAQKKELRLQKSENSIQEVKGKIKSLKIELDEIVKQNKESKIQIKIN;locus_tag=LOCUS_04620;note=MGA_462
sequence1	MetaGeneAnnotator	CDS	286771	286956	.	-	0	ID=MGA_463;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFIKINTAPTITRGINEKKPFFIATINFQFDNLPDAQVILSIDVLIVIKSALPALYLINSF;locus_tag=LOCUS_04630;note=MGA_463
sequence1	MetaGeneAnnotator	CDS	286880	287062	.	+	0	ID=MGA_464;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVAIKNGFFSLMPLVIVGAVFILINNIILGAGNGGLFNLFYLTADQLAILEKFKTIGSYI;locus_tag=LOCUS_04640;note=MGA_464
sequence1	MetaGeneAnnotator	CDS	287231	287416	.	+	0	ID=MGA_465;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFTAMLIGIFSTILFGQLSKNQKLKIKMPDSVPDGVAKSFNILIPYAITAIVFGITAFSIT;locus_tag=LOCUS_04650;note=WP_003733949.1 PTS sugar transporter subunit IIC (Listeria) [pid:41.7%25%2C q_cov:98.4%25%2C s_cov:13.5%25%2C Eval:6.8e-10%2C partial hit],internal stop codon at [287060:287062](+)%2C[287144:287146](+)%2C[287198:287200](+)%2C[287414:287416](+)%2C[287561:287563](+)%2C[287573:287575](+),MGA_465
sequence1	MetaGeneAnnotator	CDS	287365	287580	.	-	0	ID=MGA_466;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNHKTCHKKTIEIIPPNPDTAFTRGFCIATVIKPLMSINVTLFFPIFISPTLCPIQVIEKAVIPKTIAVIA;locus_tag=LOCUS_04660;note=MGA_466
sequence1	MetaGeneAnnotator	CDS	287579	287983	.	+	0	ID=MGA_467;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGIHASGILSPIVEPIQLDGLIQNQQALADGTNPQYVFTNPFMNNFLFMGGTGGTIGLIIAIFIFSKRGDYRTMAKVTLIPAIFCINEPLLFGLPIVLNPIFAVPFIFGPLLAGIFAYLATTLGMMPHSSVIVP;locus_tag=LOCUS_04670;note=WP_002287584.1 PTS transporter subunit EIIC (Enterococcus) [pid:41.0%25%2C q_cov:100.0%25%2C s_cov:30.6%25%2C Eval:6.6e-26%2C partial hit],internal stop codon at [287414:287416](+)%2C[287561:287563](+)%2C[287573:287575](+)%2C[287981:287983](+),MGA_467
sequence1	MetaGeneAnnotator	CDS	288011	288208	.	+	0	ID=MGA_468;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTTKSLMGGLVALINLGILITMYSPFVMLANKIEQRELLNKFAQNKNISDENIVKLNSNLKTSPI;locus_tag=LOCUS_04680;note=MGA_468
sequence1	MetaGeneAnnotator	CDS	288232	288381	.	+	0	ID=MGA_469;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKVLLACNAGMSTSILVKNMQNYAFEEDINVEIKAVSTNEAKLNGND;locus_tag=LOCUS_04690;note=WP_000809626.1 PTS sugar transporter subunit IIB (Streptococcus pneumoniae) [pid:59.1%25%2C q_cov:89.8%25%2C s_cov:43.1%25%2C Eval:7.1e-07%2C partial hit],internal stop codon at [288379:288381](+),MGA_469
sequence1	MetaGeneAnnotator	CDS	288671	288913	.	+	0	ID=MGA_470;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MESVLEKLERMTKNIENTSYKIISKEIVSKFFKGIFYNQEDLANSCYVSVSQITKFAKKIGYSGYRELLFNLKNEYSHYG;locus_tag=LOCUS_04700;note=WP_011183208.1 MurR/RpiR family transcriptional regulator (Mesoplasma florum) [pid:44.3%25%2C q_cov:98.8%25%2C s_cov:31.3%25%2C Eval:7.1e-12%2C partial hit],MGA_470
sequence1	MetaGeneAnnotator	CDS	289737	289961	.	-	0	ID=MGA_471;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLQGQNQKEIVQQLLINTKSNRTMICKILNINRTSTYKKNKTLMNFLDDTRIMNLVISEIERNNFLSAYSAKR;locus_tag=LOCUS_04710;note=MGA_471
sequence1	MetaGeneAnnotator	CDS	289958	290188	.	-	0	ID=MGA_472;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNGYSLKEIALKFNSTTGSIGTIINKYKNTDIGDSKTRLPYKIDYSISQKANDLFVGILFDYNKELIKENDILKKQ;locus_tag=LOCUS_04720;note=MGA_472
sequence1	MetaGeneAnnotator	CDS	290279	290665	.	+	0	ID=MGA_473;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKNCCLNGGNIPAKYIVELFSSLDKVVKIISHELRKDMKLNKEEEINLVILCSRDNDSLLAVYEIQNNPKQKSFLITTERQREKIKTFFTDQIIINYEFDNSKKIYRNIGLEMLFLHIFEVVQELSI;locus_tag=LOCUS_04730;note=WP_011183515.1 transcriptional regulator (Mesoplasma florum) [pid:28.9%25%2C q_cov:90.6%25%2C s_cov:48.6%25%2C Eval:4.4e-09%2C partial hit],MGA_473
sequence1	MetaGeneAnnotator	CDS	290746	291438	.	+	0	ID=MGA_474;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEINLYAPVEGEIKNIEQCKDSMFADRMLGDGLVIIPSENNFKGFFDIATVTMIFDTKHAYGFEVEGLQFLIHCGMDTVSLNGEGFETNLKIGSKVTKDDILFSVDIEKIKNKKLSIETPIVFEFNELNEYKIKNLKVGKVKQGDLICTIEYSFEEKENNDLRTIIDPVDFFNTSNKYEKGAIQINKSVGSQSNYGEVYNCMTRLRFTIKNRDLVNVEELKKINLVKGVV;locus_tag=LOCUS_04740;note=WP_011182905.1 glucose PTS transporter subunit IIA (Mesoplasma florum) [pid:54.1%25%2C q_cov:100.0%25%2C s_cov:26.6%25%2C Eval:4.0e-64%2C partial hit],internal stop codon at [291436:291438](+),MGA_474
sequence1	MetaGeneAnnotator	CDS	291538	291756	.	+	0	ID=MGA_475;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGITNKKTPLGRRMLAMFSGIMVKLIPIMVGAGLIQAIIAILIQVGVMPNIVFKITESSGPNDVLLTQAPVG;locus_tag=LOCUS_04750;note=MGA_475
sequence1	MetaGeneAnnotator	CDS	291850	292068	.	+	0	ID=MGA_476;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGVALGVILCCPMFFYDGGAMGLGSDFVLFDLGTIDTGNPMLDGITKIKVNAMNTKIFVIIAAIYTAKLLDT;locus_tag=LOCUS_04760;note=MGA_476
sequence1	MetaGeneAnnotator	CDS	292447	293217	.	+	0	ID=MGA_477;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLPAGFLGITEPILYGINLPKKRPLFSGIAAAFIAGAFANILSVTQRASSGIGVFEAIGFFSEPTLNGVGKISPVLNGSFYLLACAVSIGTAILFSMLTYKERITEKTLLTKTIEKTILLTKLQLNLNTEEMKTLKEVEKEVLNIFTKDFSKNITKNEKNIQKYLATSEKINTILQKEENMKERMIAKGKKYIQRKQFEKSSLLMNEYNALDFSVKIKELEIIKEKEFRSIDFNLLNKNALQIQKDVEKILEKAKY;locus_tag=LOCUS_04770;note=WP_011183516.1 glucose PTS transporter subunit IIA (Mesoplasma florum) [pid:39.1%25%2C q_cov:98.8%25%2C s_cov:28.9%25%2C Eval:2.8e-48%2C partial hit],internal stop codon at [292258:292260](+)%2C[292372:292374](+)%2C[293215:293217](+),frameshifted%2C insertion/deletion at around 293223,MGA_477
sequence1	MetaGeneAnnotator	CDS	293238	293390	.	+	0	ID=MGA_478;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQPIIFNNLNSVQIHYGLLESKNPNINLIDLINERKNELKIEQRKNKVNA;locus_tag=LOCUS_04780;note=MGA_478
sequence1	MetaGeneAnnotator	CDS	293383	294198	.	+	0	ID=MGA_479;product=ROK family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182910.1;translation=MLNITFDVGGTGTKCVIFENNKEFERRYLNYIKEETEEQKLMIQTPLVVVLEEISKVLDSFDKEFNLAISFPGIIDAKNKKILSESAISNIDLDLNKYFKKYKKLNKFIITNDAKAAVLGEYQERIKKNKSIFNMVHLTIGTALGAGIIINKKVIDGKNFQAGELGKMYSSLEKNNPSTVAIDTGLGSLLLKYFMKTGKSISGEMLFKLFNSNDELVVQMMDEFTSHIAKLIINIDFMLDFDLVTIGGGISVNEQFINMIKNKISIHKDFY;locus_tag=LOCUS_04790;note=WP_011182910.1 ROK family protein (Mesoplasma florum) [pid:41.0%25%2C q_cov:98.2%25%2C s_cov:86.2%25%2C Eval:1.4e-53],MGA_479
sequence1	MetaGeneAnnotator	CDS	294509	294790	.	+	0	ID=MGA_480;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMAEMGFKSYRFSISWPRIIKNTKGDINKEGIKFYSDLIDELLKNKIEPVVTMLHFDTPDFIEEIGGLDSHNFSKLFEHYSKVLFENFGSRVK;locus_tag=LOCUS_04800;note=WP_011182908.1 glycoside hydrolase family 1 protein (Mesoplasma florum) [pid:74.2%25%2C q_cov:100.0%25%2C s_cov:20.0%25%2C Eval:5.0e-37%2C partial hit],internal stop codon at [294344:294346](+)%2C[294491:294493](+)%2C[294788:294790](+)%2C[294791:294793](+)%2C[294875:294877](+)%2C[295046:295048](+),MGA_480
sequence1	MetaGeneAnnotator	CDS	294884	295048	.	+	0	ID=MGA_481;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHNLNVAQARAIRLCRKMLPEVKIGPAPNISSVYPASSKPEDYQAKLNFDQIRN;locus_tag=LOCUS_04810;note=WP_011182908.1 glycoside hydrolase family 1 protein (Mesoplasma florum) [pid:72.2%25%2C q_cov:100.0%25%2C s_cov:11.6%25%2C Eval:1.7e-16%2C partial hit],internal stop codon at [294788:294790](+)%2C[294791:294793](+)%2C[294875:294877](+)%2C[295046:295048](+)%2C[295088:295090](+)%2C[295337:295339](+),MGA_481
sequence1	MetaGeneAnnotator	CDS	295202	295339	.	+	0	ID=MGA_482;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTVADVTVEEYKKSLESKSDQQMGMIIPGVGKAVKNPNLDKTQFG;locus_tag=LOCUS_04820;note=MGA_482
sequence1	MetaGeneAnnotator	CDS	295406	295558	.	+	0	ID=MGA_483;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITENGIGSKDVLTNDEKIHDDYRIEYYQKHISSMASAINDGVEMIGYMP;locus_tag=LOCUS_04830;note=WP_011183514.1 glycoside hydrolase family 1 protein (Mesoplasma florum) [pid:76.0%25%2C q_cov:100.0%25%2C s_cov:10.7%25%2C Eval:3.4e-17%2C partial hit],internal stop codon at [295337:295339](+)%2C[295382:295384](+)%2C[295556:295558](+)%2C[295679:295681](+)%2C[295756:295758](+),MGA_483
sequence1	MetaGeneAnnotator	CDS	295831	295980	.	+	0	ID=MGA_484;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIPFIELEDRKDLSKTRNLTTQDFLDSIENKKGLHYPKRFGNDFYHRYK;locus_tag=LOCUS_04840;note=WP_011182909.1 glycoside hydrolase family 1 protein (Mesoplasma florum) [pid:87.8%25%2C q_cov:100.0%25%2C s_cov:10.1%25%2C Eval:1.2e-19%2C partial hit],internal stop codon at [295556:295558](+)%2C[295679:295681](+)%2C[295756:295758](+)%2C[295978:295980](+)%2C[296035:296037](+)%2C[296197:296199](+),MGA_484
sequence1	MetaGeneAnnotator	CDS	296308	296790	.	+	0	ID=MGA_485;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFSALGLEGEVAPKSLRERIASSYQELHHQFIAQAKVVEYSKKFKNIQIGCMVADATTYPLDCNPINVLENQRKEQMKKFFYYDVMIKGEYPSYSKRIFKEMGVEIKMQEGDLELLKNNPVEFITFSYYMSSTIAKQEGEMTEGNLMKMGKNPFLRATE;locus_tag=LOCUS_04850;note=WP_011182909.1 glycoside hydrolase family 1 protein (Mesoplasma florum) [pid:74.4%25%2C q_cov:100.0%25%2C s_cov:33.1%25%2C Eval:3.4e-66%2C partial hit],internal stop codon at [296035:296037](+)%2C[296197:296199](+)%2C[296278:296280](+)%2C[296788:296790](+)%2C[296794:296796](+)%2C[296839:296841](+)%2C[297013:297015](+),MGA_485
sequence1	MetaGeneAnnotator	CDS	297242	297826	.	+	0	ID=MGA_486;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRKIGISIYPEQSTFEKDKQYLDLAKKLGYEVVFTSLLHFVGQKDDKKKAEMVLKSVKYAKEIGFYTIMDVEYKSMELIAINVNDIAKCKQYGIDCLRLDSPSLPFEIANITHNKFDIDIQLNMSNNDSLIDNVMDFKPIRERLSGCHNFYPLEYTALPFEYFKQANQKYLKHNLSTAAFVGSHFGLMTTAVD;locus_tag=LOCUS_04860;note=WP_002360357.1 DUF871 domain-containing protein (Enterococcus) [pid:44.8%25%2C q_cov:93.8%25%2C s_cov:49.6%25%2C Eval:5.2e-37%2C partial hit],internal stop codon at [297824:297826](+),MGA_486
sequence1	MetaGeneAnnotator	CDS	297887	298261	.	+	0	ID=MGA_487;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFYTNEINLVLIGNAYATSEELEELASIDRYEITLNVKPLYKLSKVEKDILKFNHFRRGDITEYFVRSTFSRVEFKNESIEVKNTKKTYNRGDVVIINNNDAKYKGECHIILKDNFEDKQEKYN;locus_tag=LOCUS_04870;note=WP_020862965.1 MupG family TIM beta-alpha barrel fold protein (Mycoplasma mycoides) [pid:48.0%25%2C q_cov:100.0%25%2C s_cov:34.6%25%2C Eval:9.9e-30%2C partial hit],internal stop codon at [297824:297826](+)%2C[298259:298261](+)%2C[298313:298315](+),MGA_487
sequence1	MetaGeneAnnotator	CDS	298842	298982	.	+	0	ID=MGA_488;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLQELGKVLQFPIAVLPFAAILNRFGALGIGYSTDAAGNITNQVGY;locus_tag=LOCUS_04880;note=MGA_488
sequence1	MetaGeneAnnotator	CDS	298989	299207	.	+	0	ID=MGA_489;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIQKPGSIPFDNLPMLFAIGCAFGLAKDHRGEVALVAVIFYLSVSALTGEGTLPNMIYGKTLTFTDKDGIE;locus_tag=LOCUS_04890;note=WP_011166334.1 PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:51.6%25%2C q_cov:88.9%25%2C s_cov:11.5%25%2C Eval:5.6e-12%2C partial hit],internal stop codon at [298824:298826](+)%2C[298980:298982](+)%2C[299205:299207](+)%2C[299445:299447](+)%2C[299451:299453](+),MGA_489
sequence1	MetaGeneAnnotator	CDS	299232	299447	.	+	0	ID=MGA_490;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQDKDVIKGGTYVLSTGVLGGIVTGCLSAYFYNRLKEIKLPTALSFFGGRRFVPMVALAASIPTAFAFAII;locus_tag=LOCUS_04900;note=WP_011166334.1 PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:56.7%25%2C q_cov:84.5%25%2C s_cov:10.8%25%2C Eval:3.5e-14%2C partial hit],internal stop codon at [299205:299207](+)%2C[299445:299447](+)%2C[299451:299453](+)%2C[299598:299600](+),MGA_490
sequence1	MetaGeneAnnotator	CDS	299607	300041	.	+	0	ID=MGA_491;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPVTGNVVSPGFGSNPVIGSETITVMGDINAFSKGISTSGLFQSGFFPIMMGGLPMAAVAMIMTSDKANRKEIAGFLGGVAGVSFLSGITEPLEFSFVFIAPVLLGIHAGLTGIFMAITSAMKVQIGFGFSAGFIDYAASLPQS;locus_tag=LOCUS_04910;note=WP_010918426.1 N-acetylglucosamine-specific PTS transporter subunit IIBC (Caulobacter vibrioides) [pid:55.8%25%2C q_cov:78.5%25%2C s_cov:19.4%25%2C Eval:1.2e-31%2C partial hit],internal stop codon at [299445:299447](+)%2C[299451:299453](+)%2C[299598:299600](+)%2C[300039:300041](+)%2C[300084:300086](+),MGA_491
sequence1	MetaGeneAnnotator	CDS	300153	300500	.	+	0	ID=MGA_492;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLSTPGRNVEVASNNQVNTASKLSTIKENSSKTDKYEVMAEKIVQAIGKENFVSIDNCATRLRLILKDNNKIDDALIKSAGTYGIKRLGNESLQIVIGPDVEHVANSVRKIVEK;locus_tag=LOCUS_04920;note=WP_011166334.1 PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:41.7%25%2C q_cov:98.3%25%2C s_cov:19.6%25%2C Eval:7.2e-20%2C partial hit],internal stop codon at [300039:300041](+)%2C[300084:300086](+),MGA_492
sequence1	MetaGeneAnnotator	CDS	301057	301449	.	+	0	ID=MGA_493;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCRPFENQILSLEEYDNQYITMKEAISKGYHHIGCKHIDLDYFTGTTKIPEKKFSEKEQIEKHKIVLGLYKLENEIRNLKYEYDNVKSSEELNSKISQKSDEIDEYCKNNKINRNLERENPSITDLEKFR;locus_tag=LOCUS_04930;note=MGA_493
sequence1	MetaGeneAnnotator	CDS	301488	301649	.	-	0	ID=MGA_494;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKNFKIVFIIDHDLEIIKKICTRLIYFREGKIVKDTNNLNSIKQSDIDEILT;locus_tag=LOCUS_04940;note=MGA_494
sequence1	MetaGeneAnnotator	CDS	301680	302006	.	-	0	ID=MGA_495;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELLSNTYKSKKAIHLDKEYSYTILKQKSDFVNVSLLNIVELFTSLSKTIKNISLEELLKEYKLINYKKTSYSKLSEEQKQRFKFMLIEFMQTDVLILDETFNFLDNA;locus_tag=LOCUS_04950;note=MGA_495
sequence1	MetaGeneAnnotator	CDS	302205	302510	.	-	0	ID=MGA_496;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSAYSTSISRYGCLNLINDSLFVSITYLFLLVTILFICFRFFHKYKDIVIFLTSSLLIYLAIIAQLTVGPIMQIENNALLIIISLIPILNISIMNSINNFF;locus_tag=LOCUS_04960;note=MGA_496
sequence1	MetaGeneAnnotator	CDS	303117	303647	.	+	0	ID=MGA_497;product=translation initiation factor IF-3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183085.1;translation=MADNRNIKTDFVNREIRAKQVLIINDDGTKNGPLNKFEALKLAEEAGLDLFQVGMQDNSTAIAKILDYGKYKYEQKRKQKENKKNQVKVENKEIRLTVGIGEHDMDTKARKAREFLLAGDRVKISLKFKGREITFQEFGKETLDKFFAKIEDVAKIEKEAKLNTRFLDMYVVPKKG;locus_tag=LOCUS_04970;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:8.9e-56],MGA_497
sequence1	MetaGeneAnnotator	CDS	303667	303861	.	+	0	ID=MGA_498;product=50S ribosomal protein L35;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183086.1;translation=MPKMKTKSSLAKRVKKTGAGKLKRGKAYRSHLAQNKSTKQKRHLKKATFVSAGDMKRLKGLLQN;locus_tag=LOCUS_04980;gene=rpmI;note=WP_011183086.1 50S ribosomal protein L35 (Mesoplasma) [pid:71.4%25%2C q_cov:98.4%25%2C s_cov:98.4%25%2C Eval:1.5e-17],MGA_498
sequence1	MetaGeneAnnotator	CDS	304118	304246	.	+	0	ID=MGA_499;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNGLKIAGIDINRKMLSELAIHEPKQFEAIVTSSKKALESKK;locus_tag=LOCUS_04990;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:7.4e-09%2C partial hit],internal stop codon at [303929:303931](+)%2C[304061:304063](+),MGA_499
sequence1	MetaGeneAnnotator	CDS	304755	304892	.	+	0	ID=MGA_500;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKQTKKILKKALKLRTKKEYIDSNLYLKNIIESDNSAYINYQMA;locus_tag=LOCUS_05000;note=MGA_500
sequence1	MetaGeneAnnotator	CDS	305703	306305	.	-	0	ID=MGA_501;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTQFKDKSTKVKSENGTEYIPTGLLTYPVLMAADILLYDPAFVPVGKDQKQHIELARNIAERMNNKFGEMFTIPGDYTPKVGSKIMDLQDPTKKMSKSAANPKSFIALLDDINEVRKKIKSAVTDSENLIKYDPENKPGVSNLLTIYSALKDVSIEETESFFEGKDYGFLKEEVSNVVVELLEKIQKRFKELSNSDLVDT;locus_tag=LOCUS_05010;note=WP_011166551.1 tryptophan--tRNA ligase (Mycoplasma mycoides) [pid:64.2%25%2C q_cov:99.5%25%2C s_cov:58.9%25%2C Eval:1.1e-66%2C partial hit],internal stop codon at [305703:305705](-)%2C[306345:306347](-),MGA_501
sequence1	MetaGeneAnnotator	CDS	306345	306623	.	-	0	ID=MGA_502;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKRMLSGITTTGQMTLGNYIGAMRNFVALQDEFEMYVFVANLHGITSPIEKETLRQNIKNMVTLYFACGMDPEKSTVFVQSEVLEHTQLA;locus_tag=LOCUS_05020;note=WP_011166551.1 tryptophan--tRNA ligase (Mycoplasma mycoides) [pid:54.9%25%2C q_cov:98.9%25%2C s_cov:27.1%25%2C Eval:3.1e-26%2C partial hit],internal stop codon at [306345:306347](-),MGA_502
sequence1	MetaGeneAnnotator	CDS	307198	307521	.	+	0	ID=MGA_503;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSTGGAVILSKDSQIYQMQELVPVSTNKFRTLNAPLILNNKHVLKFKFEKQSNEIMIIDTVEYPIDEEEIEIKPSKINIKVVADDNSVSKIKILRDIFIKDKESIE;locus_tag=LOCUS_05030;note=WP_011166499.1 NAD(+)/NADH kinase (Mycoplasma mycoides) [pid:45.5%25%2C q_cov:93.5%25%2C s_cov:37.7%25%2C Eval:1.6e-16%2C partial hit],MGA_503
sequence1	MetaGeneAnnotator	CDS	307523	307882	.	+	0	ID=MGA_504;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLIIYILLAIAFTICFISLFAYFSITKFVKNKKTKFGIDAVEKASTIYNKILKEIGTIENIDEIKEEKIIVLSNQLVNIDNLRKLKIKAQLIEKELTLTSKEFSIKLFIKRLREEIKK;locus_tag=LOCUS_05040;note=MGA_504
sequence1	MetaGeneAnnotator	CDS	308377	309453	.	+	0	ID=MGA_505;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MADIKFMALGGQDERGKNIFVISVNDNLYIFDAGIKFPERSVLGIDVIIPNFEYLKANSKKIKGIFLSNPSSNNSGAISYILREIDVPVYCNELTTTILKYRNMKYRIKNRENNFKIINDKDIVSFGDVKIEAFRTTAAFPESFGFAIHTEDGVIVYAGDYIIDGNEQSYFSTDMNHLNQISQKGVLAFISDAEYASRIGYTVPNHRIDKFISAPMKDKKRRLILGMFEEDVFKLFEIIKQAKANERKIAVYGKTITKVVESKVIQESLQISSKDIISIEEFMKSEDGILLLTGAGDLLYTRLAKIAAGNDDKVEFTENDTIILATPPAAGVEKRHAEILDELARTNAKLVSLSDKNI;locus_tag=LOCUS_05050;note=WP_011182989.1 ribonuclease J (Mesoplasma florum) [pid:61.3%25%2C q_cov:100.0%25%2C s_cov:61.5%25%2C Eval:5.6e-134%2C partial hit],internal stop codon at [309451:309453](+),MGA_505
sequence1	MetaGeneAnnotator	CDS	309457	310092	.	+	0	ID=MGA_506;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRASYEDIKLMTRIMKPKSFIPIKGLYKDFLNAERAAIEAGVDKRNIQLINNGQILKISKEGKLVIASDSIKTADVYVDGIGVGDIGAVVLNERKQLATDGAVIIGANVNNKTKELISLIDIQMRGVIYITEENAIFKLMQKQIIDILEKYKNEATSNPNAYDLNVIKKEIVSRIRTTLKQETGKQPIVLVIINELDGSFFEPKSNKIKNS;locus_tag=LOCUS_05060;note=WP_011166497.1 ribonuclease J (Mycoplasma mycoides) [pid:57.0%25%2C q_cov:98.1%25%2C s_cov:35.3%25%2C Eval:6.5e-63%2C partial hit],internal stop codon at [309451:309453](+),MGA_506
sequence1	MetaGeneAnnotator	CDS	310879	313125	.	+	0	ID=MGA_507;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRILSLKNNKINIRDHNYSKPKREKTARGIFNIINVEDDVTFDERQILASVKESDITIELPSFNRYKEKNIYQEVDNDFYNDDFANIDLERYNLNRNYPEEFVQQPNQGMNRVVDFDLDKRREEAKNRAQSLVKEEPTYMPRREKDYEYNIPMPMESKYGQVSTEQAREELAKETNITPFGANGKTQELLRTRNKKEKINDNLNGQITLDHFINETQKEKEEAKRQVEDYGTYTSPMQENLARNILYSSNGYQSRNNYNQTIEVNKNKAVEKKQYVNNSYQLPSIDILKESITNSKDQEETRMIAKEKAERINETFKQFGVKAAVKHMNIGPSVIKFEIQPEPGTKVNSITSLENDLKLALASQNVRIEAPIQGKAAVGIEVPNEKPEMVPMRGVIENTPIVKMSNKLLFAIGKTVTGELLFGELDKMPHLLVAGSTGSGKSVMINGIISSILMRAKPHEVKFLMIDPKKVEMSVYSTIPHLLAPVISDMNIANSALKKVINEMERRYALFTTHGVKNIAGFNAKQSSAANKLPYFVIIIDELADLMMTSNKKDVEDSIMRLTQLSRAAGIHLIVATQRPSTDVITGVIKSNIPVRIAFSVASSIDSRTILDSNGAEKLIGKGDLLYTIPGSTSLVRAQGAYISDEEIERLVQHCSSQQQQIFETDFIKEEEQTYSVNLGAGKDSMFDEIKDYVIRTQKASTSLIQRKFNIGYNRAARIIDELEESGIIGPQNGSKPREVYIKNEDMY;locus_tag=LOCUS_05070;note=WP_011182997.1 DNA translocase FtsK (Mesoplasma florum) [pid:45.7%25%2C q_cov:99.3%25%2C s_cov:74.9%25%2C Eval:8.4e-163%2C partial hit],internal stop codon at [310708:310710](+)%2C[310816:310818](+),MGA_507
sequence1	MetaGeneAnnotator	CDS	313187	314953	.	+	0	ID=MGA_508;product=excinuclease ABC subunit UvrC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182998.1;translation=MENIVKNLPEKPGCYLYKNKDNKIIYVGKAKNLKKRVSSYFNKAHNYKTTKLVRDICDIETIVTENEKESLILEQNLIKKYRPRYNIVLNDDKKYPYIAITKEKDPVYVYTRNYDNKNQISFGPLPDGTSARNILKTLERIYPLRRCKGNLNKPCIHFHIDQCSGACFKEIDQQYYQNQINNVKNFFNRTNDDFKNKLEEKMFIASNNLQFEEAQRIKNIISHLNFSIVEQFVDFNDNLNRDVFNYYQTQEYICFIVLFYRSGKLILKDQIIIKNEIEDINSLFENFIMQIYSKNMLPDYIVIPESLNSSSLKLLFQNKITYALDDSSLKILELAENNAKEYIRQEELYKKQKSISKEELLDTVQKTLKLPKYPYHIEMFDVANILDEFVTGAMVVFKGGQPSFNDFRKYNIIINEKGDFQRMQNMIYRRYQKDLSNSANLPDLIIMDGGKIQVHAAKSQLELLDLNIPVIGLVKNDKHKTEYILNFDEQELYLEKTFEVFKFLELIQNRVHNYAISSFRKKHTKSFSKDDLSQIKGVGEKMIQKINQLYPSRMDFYNLNYDDMKKIVKQDHIVFAIQEIKRKIESKK;locus_tag=LOCUS_05080;gene=uvrC;note=WP_011182998.1 excinuclease ABC subunit UvrC (Mesoplasma florum) [pid:49.1%25%2C q_cov:96.8%25%2C s_cov:96.9%25%2C Eval:7.5e-156],MGA_508
sequence1	MetaGeneAnnotator	CDS	315020	315493	.	+	0	ID=MGA_509;product=transcription elongation factor GreA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182999.1;translation=MTDKDIILTAEGLQELKDELAHLINNVRPQVIEELVEARAQGDLSENADYDAARNRQAEVEARIKEVEAMLSKAKLIEDTNSKNKEVKIGSQVIFANQKTKNEMKVKIVGAIEADPFENKISNESPLAKAMMGKVVGDSVEVRELKEPYKITIKEIK;locus_tag=LOCUS_05090;gene=greA;note=WP_011182999.1 transcription elongation factor GreA (Mesoplasma) [pid:68.6%25%2C q_cov:97.5%25%2C s_cov:98.1%25%2C Eval:3.1e-53],MGA_509
sequence1	MetaGeneAnnotator	CDS	315540	316418	.	+	0	ID=MGA_510;product=16S rRNA (cytidine(1402)-2'-O)-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183000.1;translation=MIKVQSTFKNNLPTIYLVGTPIGNLDDISKRVIDTFQKADVIYCEDTRVSFKLFEKLKINKKLKSLHKFNEHSISESFIEDINKYKNIIIISDAGIPCISDPGAIVVSKVLQSDIQVNITSVNCGPAYIHAIASSGFISRKNLFLGFLDKKNIEKEFDEILNKHKNNEVIISFYESVHRIQSTINQLSLMLNKNTKVVIARELTKINEEFLRGSISEICDYINDNQLTLKGEFCIVIDSNYDLNQESKIDMEKILIEVENLIKENVSKKDAIKTISKKYNIKKNELTKFFYK;locus_tag=LOCUS_05100;gene=rsmI;EC_number=2.1.1.198;note=WP_011183000.1 16S rRNA (cytidine(1402)-2'-O)-methyltransferase (Mesoplasma florum) [pid:47.4%25%2C q_cov:98.6%25%2C s_cov:98.6%25%2C Eval:1.0e-68],MGA_510
sequence1	MetaGeneAnnotator	CDS	316467	316754	.	+	0	ID=MGA_511;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKLTIEQSKKVVGGKAVSGAFLSGIGSIMKGASELFTNFIGAISTTVFGALTINRNDKVELKIGNSTFKVDNTVSNKANAENKVSQMPNVVSLF;locus_tag=LOCUS_05110;note=WP_020862802.1 hypothetical protein (Mycoplasma mycoides) [pid:36.0%25%2C q_cov:77.9%25%2C s_cov:56.4%25%2C Eval:5.7e-09%2C partial hit],MGA_511
sequence1	MetaGeneAnnotator	CDS	316891	317235	.	+	0	ID=MGA_512;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSFLSSIAFTASASSAVASCSNLGDGSSKNIDEIIKNKDLGRVNNVNENILKNALKEKNTKIDVDKLSLTNVDLFEGTATFVPKNRAVNYNGQAIVNFDFGNVRKDSQYL;locus_tag=LOCUS_05120;note=MGA_512
sequence1	MetaGeneAnnotator	CDS	317755	317916	.	+	0	ID=MGA_513;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGNIENTNETSILNALKAKNPNLDIESLTLKETNQYNSILIPKSGTTKYKDQV;locus_tag=LOCUS_05130;note=MGA_513
sequence1	MetaGeneAnnotator	CDS	318004	318774	.	+	0	ID=MGA_514;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAINLNKEQEPTSQQVKDLIYRSNPQLDINQIDINSISQKSTQKNEEGKEYSQYSANVKALENSYNYNGSVEITFYTSYKNQQQKELSTIIKETNLGEISENSDLVILNTLVEKNNAENLNLGELVLSNKNDSSATISAVENSANYKGSVNIAYTVKKENTEQPENIINLSEHIKTSELGELKDAKTITILEELKNKNKDLHVDEVEVKNITSSSAIIKTISNSKHYNQSQVEVKFYLKDNAEKPKPSNEALLVGY;locus_tag=LOCUS_05140;note=WP_164919783.1 glycosyl hydrolase family 18 protein (Mesoplasma florum) [pid:22.5%25%2C q_cov:86.7%25%2C s_cov:19.9%25%2C Eval:2.3e-10%2C partial hit],internal stop codon at [317752:317754](+)%2C[317914:317916](+)%2C[318772:318774](+)%2C[318781:318783](+)%2C[318883:318885](+),MGA_514
sequence1	MetaGeneAnnotator	CDS	318898	319110	.	+	0	ID=MGA_515;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPTFDPFSPQSKSRIIDAIKKLQNAGKKVILSMGGATGGEMRFKSDQVDQLTATFVKYMDEYNFDGIDID;locus_tag=LOCUS_05150;note=WP_164919783.1 glycosyl hydrolase family 18 protein (Mesoplasma florum) [pid:47.1%25%2C q_cov:100.0%25%2C s_cov:6.0%25%2C Eval:1.4e-12%2C partial hit],internal stop codon at [318772:318774](+)%2C[318781:318783](+)%2C[318883:318885](+)%2C[319108:319110](+)%2C[319339:319341](+),MGA_515
sequence1	MetaGeneAnnotator	CDS	319216	319341	.	+	0	ID=MGA_516;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAPELPYLKYNTEAGSQGSYIPFLKGLEGIYDFINPQYYNG;locus_tag=LOCUS_05160;note=WP_003089363.1 glycosyl hydrolase family 18 protein (Pseudomonas) [pid:60.0%25%2C q_cov:97.6%25%2C s_cov:7.0%25%2C Eval:2.4e-07%2C partial hit],internal stop codon at [319108:319110](+)%2C[319339:319341](+),MGA_516
sequence1	MetaGeneAnnotator	CDS	319974	320483	.	+	0	ID=MGA_517;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFAIIKTGGKQIKVSKDDEIYVEKLDIEEGKKVIFDEILMIDGTVGSPLIKGAAVIGTVVKQGKGKKLRVVRYHPKKNVNKVYGHRQPYTKVKIEEISLSGTKAITNTSTESKTAVAVQKTASAPKTASTGTPKAAPKPKTTTGAPKATAAKPKTTSAPKAAPKPKTGE;locus_tag=LOCUS_05170;note=WP_011166743.1 50S ribosomal protein L21 (Mycoplasma mycoides) [pid:71.4%25%2C q_cov:58.0%25%2C s_cov:98.0%25%2C Eval:2.9e-37%2C partial hit],MGA_517
sequence1	MetaGeneAnnotator	CDS	320487	320798	.	+	0	ID=MGA_518;product=ribosomal-processing cysteine protease Prp;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166742.1;translation=MVKAKIVEKNNIINSFVVKGHANFDKFGQDIVCAGITAIVSGSLNALDIKFKNNVELNVNENEISIKVIKNDDLLNHLLEFMIIQLETIEVQYPKNFKIERMI;locus_tag=LOCUS_05180;note=WP_011166742.1 ribosomal-processing cysteine protease Prp (Mycoplasma mycoides) [pid:47.6%25%2C q_cov:99.0%25%2C s_cov:99.0%25%2C Eval:3.6e-19],MGA_518
sequence1	MetaGeneAnnotator	CDS	320800	321090	.	+	0	ID=MGA_519;product=50S ribosomal protein L27;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008362816.1;translation=MRFLLGLQYFASKKGVGSTKNGRDSESKRLGAKKADGQFANAGSIIFRQRGTKIHPGANVGRGGDDTLFALVSGIVKYQKFGKNRTRAVVIPQESK;locus_tag=LOCUS_05190;gene=rpmA;note=WP_008362816.1 50S ribosomal protein L27 (Mycoplasma mycoides group) [pid:89.1%25%2C q_cov:95.8%25%2C s_cov:98.9%25%2C Eval:1.3e-42],MGA_519
sequence1	MetaGeneAnnotator	CDS	321532	321996	.	+	0	ID=MGA_520;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKIYMEFSIEIFNLFKNTFIQEIIPATICKFENKNYKKLKPNMINDFIDEQFMEFCKRMDKIIQIIQSELYGKQNEKYSETQNNFNDDNEQKISKAYKTLEVLPLDSDDKIKKAYLKLAKTYHPDKNNTEYAKQKMVEINNAYDIVQKDRKKD;locus_tag=LOCUS_05200;note=WP_084322466.1 DnaJ domain-containing protein (Mesoplasma) [pid:33.8%25%2C q_cov:95.5%25%2C s_cov:52.0%25%2C Eval:1.8e-13%2C partial hit],MGA_520
sequence1	MetaGeneAnnotator	CDS	322008	322301	.	+	0	ID=MGA_521;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNVEKNVLLGQYFDQALEETKKIVAIPSYRRDLTYGAPVHEDIKKVLEHCINLLKSFNFETFIAPDHRYGYADYGTGDKLFGIICHLDVVPTGNIDE;locus_tag=LOCUS_05210;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:2.6e-22%2C partial hit],internal stop codon at [322299:322301](+)%2C[322476:322478](+)%2C[322569:322571](+),MGA_521
sequence1	MetaGeneAnnotator	CDS	322806	323360	.	+	0	ID=MGA_522;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKAIDANGLKHPLAQFVAKYGHLNFDMKEIFGDLTDETGDLTACNGIVNISKSDFRFTINFRIPCTRDPRKDVVDVLEKFVKDKGLELKLSAIEDRVYFPKDSDVVKNIMEVYKEVTGDLNAEPIAIGGGTFAKSMPNMIAFGAEFDLNESTMHAYNEYVKIDDLKKMMEIYAKSLVKLTKLK;locus_tag=LOCUS_05220;note=WP_011183336.1 M20 family metallopeptidase (Mesoplasma florum) [pid:52.0%25%2C q_cov:97.3%25%2C s_cov:39.8%25%2C Eval:3.7e-50%2C partial hit],internal stop codon at [322569:322571](+)%2C[322695:322697](+)%2C[322803:322805](+),MGA_522
sequence1	MetaGeneAnnotator	CDS	323516	323755	.	-	0	ID=MGA_523;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAYKNKKYLGSILLHSDNGNQYTSLDYISLCNDLQIIRSYSKPGTPHHNGKHESFHGRLKDETIRTCHIENINQCMEIA;locus_tag=LOCUS_05230;note=MGA_523
sequence1	MetaGeneAnnotator	CDS	324092	324316	.	-	0	ID=MGA_524;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLQGQNQKEIVQQLLINTKSNRTMICKILNINRTSTYKKNKTLMNFLDDTRIMNLVISEIERNNFLSAYSAKR;locus_tag=LOCUS_05240;note=MGA_524
sequence1	MetaGeneAnnotator	CDS	324313	324543	.	-	0	ID=MGA_525;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNGYSLKEIALKFNSTTGSIGTIINKYKNTDIGDSKTRLPYKIDYSISQKANDLFVGILFDYNKELIKENDILKKQ;locus_tag=LOCUS_05250;note=MGA_525
sequence1	MetaGeneAnnotator	CDS	324779	324952	.	+	0	ID=MGA_526;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSVLATIGVVSSFATSAVACGTKSEIKKPDKPEEPKNNIAQIIRRFEQDVTKI;locus_tag=LOCUS_05260;note=MGA_526
sequence1	MetaGeneAnnotator	CDS	324995	325381	.	+	0	ID=MGA_527;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEDGETNYKFLNKENIQKFSKPENKDKLTTEEKKQFTNDVEKLFKTELLKKKLNDLKKVNEYKIILDEIDSVFEHVELVFNDNFEINSGEIVPGSYIGNVIVDYKVVTQYKGLKDVEKFKQSETLKYT;locus_tag=LOCUS_05270;note=MGA_527
sequence1	MetaGeneAnnotator	CDS	325589	326143	.	+	0	ID=MGA_528;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLIKNKYFKDAFSSLDISYNQKSIYKSDNFAETNKKYLIVNNFDEQNAIVVNQEKDREKISKILLGEQDVIKDTLKKEVFNSLALQRNRKKYEIAQNKFLNSFLTSIEVENYKLSDSYLLAIAMGYADFIGPIIKIGEKENSYMHKLPDFKLAISYSLNGENDEISESLLNLSLNLFNVYKKV;locus_tag=LOCUS_05280;note=MGA_528
sequence1	MetaGeneAnnotator	CDS	326315	326497	.	+	0	ID=MGA_529;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNALNITKNVFDKENIISYNFGFSFTDSKEIRQTFFTNANASDKFFLKFENFKSDSSGNN;locus_tag=LOCUS_05290;note=MGA_529
sequence1	MetaGeneAnnotator	CDS	327497	327874	.	+	0	ID=MGA_530;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHKLPAAMFVVDPKTDEIAVKEARKLRIPVIAICDTNVDPDMVDFVIPANDDIQESVNIITNFIVDVYADAAGIKMQPSNLKVIAQKKEDKQYDGERKPYTPRNNDSNNERPTYKKPAVKNEETK;locus_tag=LOCUS_05300;note=WP_013729687.1 30S ribosomal protein S2 (Mycoplasma mycoides) [pid:70.7%25%2C q_cov:73.6%25%2C s_cov:31.5%25%2C Eval:9.6e-33%2C partial hit],internal stop codon at [327323:327325](+)%2C[327380:327382](+),MGA_530
sequence1	MetaGeneAnnotator	CDS	328151	328762	.	+	0	ID=MGA_531;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MALIENIGNALLNSKASTLQEALEIKLASGQTISEACIEATATIGEKIELRRIAAVEGGKLSIYNHANKRISVLLAFDGNIGEEDAYNVCMHVAAMAPKYLEESDVPQDFKDQEMHIIKETTDLTGKPENVAEGILKGKLNKKLAEVTLLAQSFVMDEKQTVGNFVKSKGAKLTQMFRFEVGEGIEKATTDFAAEVAAQLAGN;locus_tag=LOCUS_05310;note=WP_011166783.1 translation elongation factor Ts (Mycoplasma mycoides) [pid:59.2%25%2C q_cov:98.5%25%2C s_cov:69.8%25%2C Eval:1.8e-59%2C partial hit],internal stop codon at [328001:328003](+),MGA_531
sequence1	MetaGeneAnnotator	CDS	328927	329073	.	+	0	ID=MGA_532;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSFQIISILTSILVLLSYLGVLVSNDASLSQTLTIVFIVLSVVLSAA;locus_tag=LOCUS_05320;note=MGA_532
sequence1	MetaGeneAnnotator	CDS	329281	329553	.	+	0	ID=MGA_533;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYFLENVEKMGFALEKGTEITYFKEEIAKIRALALENSAKETSKKENSNEIKESDQKQDSNQIKESTKTKKVSKIKEAKNDDNDISKEEK;locus_tag=LOCUS_05330;note=MGA_533
sequence1	MetaGeneAnnotator	CDS	329847	330071	.	+	0	ID=MGA_534;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPIGKNITVSICFSLFFILFVLMNISLILNIIFDSLNVNNKIVIALSIITLNIETMIIYLKKVNFKKISLKMQK;locus_tag=LOCUS_05340;note=MGA_534
sequence1	MetaGeneAnnotator	CDS	330721	330888	.	+	0	ID=MGA_535;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MALKFKRVLLKISGEALKGSGDIYDKEKLDEVAKQVIHLTKQGLQIGIVIGGGNI;locus_tag=LOCUS_05350;note=WP_013729684.1 UMP kinase (Mycoplasma mycoides) [pid:57.8%25%2C q_cov:81.8%25%2C s_cov:19.0%25%2C Eval:2.5e-09%2C partial hit],internal stop codon at [330886:330888](+),MGA_535
sequence1	MetaGeneAnnotator	CDS	330940	331434	.	+	0	ID=MGA_536;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGMLATIMNALAFEATLRKLGFDKVKVYSSLEIKTVTSSYNYRNAREKLDEGYVTIFAGGTGYSYFTTDTGASIRAIEIKADALLMAKNGTKGVYDSDPNTNAEAKFLKNLTHNDLVSKNLKVMDSTAAALSRDGKLEIVVFDMNGKDNIIKIAHGELECTVIK;locus_tag=LOCUS_05360;note=WP_011183454.1 UMP kinase (Mesoplasma florum) [pid:64.0%25%2C q_cov:100.0%25%2C s_cov:68.9%25%2C Eval:2.3e-57%2C partial hit],internal stop codon at [330886:330888](+),MGA_536
sequence1	MetaGeneAnnotator	CDS	331454	332002	.	+	0	ID=MGA_537;product=ribosome recycling factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183453.1;translation=MINEIVQLAELNMQDSIDSFKDYLSKVRTGRANANMLNSVMVDFYGTLTPINQTAQISSPEPQQLVIKPYDRSQVGAVIAGINKADLGLNPIGEADLVRINIPALTQEIRKDLVKKMLKELEQFKVRVRNVRRDANDKIKKDASSPEDIKKDLENQIQKLTDKYIDILDNLAKEKETDLMKI;locus_tag=LOCUS_05370;gene=frr;note=WP_011183453.1 ribosome recycling factor (Mesoplasma) [pid:56.9%25%2C q_cov:99.5%25%2C s_cov:100.0%25%2C Eval:1.1e-54],MGA_537
sequence1	MetaGeneAnnotator	CDS	332193	332636	.	+	0	ID=MGA_538;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKILTMLGSFGLVASNGFILSNVVSCGNNFKLPSEPKDLEEAQKLLEELTKKSDEFQKKLQEEMKSTNIDDRDEKFPDFAKKSTAAQEMYQYQALTFAYTSKISYFKNEDKDKIISFINELQKQFDKHLKPCATDKTYKNIMSILE;locus_tag=LOCUS_05380;note=MGA_538
sequence1	MetaGeneAnnotator	CDS	332906	333247	.	+	0	ID=MGA_539;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKISFFFLSILLLISTTMFTRSCITIDVEQNKYVTQQFSVNYTSESEYTISDWDTYKKNHNSFKIYSMDESILQVTSNIDDNGSFKMIANGIGEATLTLEAYSNSKIPKKVK;locus_tag=LOCUS_05390;note=MGA_539
sequence1	MetaGeneAnnotator	CDS	333365	333706	.	+	0	ID=MGA_540;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEDVKVSSLNENVATAEIDEQGNVQITALNEGKTKISVNAENAIESVSIDVEVLKQKVAVELSANSLSINEKAKNESIYIKNFNKLEGIEVSSTNKNIATANVNELGQIEVFG;locus_tag=LOCUS_05400;note=MGA_540
sequence1	MetaGeneAnnotator	CDS	333962	335581	.	+	0	ID=MGA_541;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEGKTEITINASNAIKPIKIEVIVLKQRFLIEVSSNNLIIDEKTENNSINITNFDNLEGVEVSSLNESIATANINQTGNIKVFGLTEGTTKVVVDAKNSIESVSIAVTVLKQKIAIQISSNTLNIDEDAKDNSIKIKNFEKLENIEVKSVDENIATVTTNELGYIEVTALKQGNTEITINASNAIEPVEINIIVVKQKISIQVSTNSLSMEEKTENRSININNFSELENVTVSSKNQNIATAIVDKSGNIEVSGLMEGATKIIVNASNAIEQVEIDVVVLKQKIAIQISSNNLSIEEKNKDSSIHINNFSEFENIVVNSADENIAKASTDQFGNIEVTALKQGNTKIIVNAENAIELVEIHINVLKQKFAINVSSNFLQIEEESKDNSIRINNFAQLEDIEVNSSNESIATAIVGQNGNIEVSALKEGTTKITVNASNAIEPVEIEISVSQKMFDIKLNKTKVKITLLNGMGGETVKIENYSVLKNVQVTSKSSGIIGVSVKDDIIKINGLLVGKGEITVNADNAKSAVIIKVTVGLLM;locus_tag=LOCUS_05410;note=MGA_541
sequence1	MetaGeneAnnotator	CDS	335702	335833	.	+	0	ID=MGA_542;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSILGTLTLTSMPITSVVSCISPDPGNNFGDSNLQTGNE;locus_tag=LOCUS_05420;note=MGA_542
sequence1	MetaGeneAnnotator	CDS	335912	336142	.	+	0	ID=MGA_543;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYTDYSNFNKTNYSASLSNTEKTSGYKNKLIKEKYLKTEDHLTFNPYADMGIVEDTAEYLMKDKGVGGASRADAEK;locus_tag=LOCUS_05430;note=MGA_543
sequence1	MetaGeneAnnotator	CDS	336638	336784	.	+	0	ID=MGA_544;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MASALKILMESDSGYDITLSLVVSTKDGVAVQKGLESVKQIGDEAYPL;locus_tag=LOCUS_05440;note=MGA_544
sequence1	MetaGeneAnnotator	CDS	337109	337408	.	+	0	ID=MGA_545;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSMFYISRDIPSLFEPNKEVKPGESVYGLADKNALDQNIRSGAGYKAHSFSDILSGKVQINEELKVEAKTKEDIKKNGGIDYKEDIEANKTLIPGTNGG;locus_tag=LOCUS_05450;note=MGA_545
sequence1	MetaGeneAnnotator	CDS	337622	337780	.	+	0	ID=MGA_546;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYEGNDIAGIKNKVSGFDNLTLSFVQQVNSSDNKEIDLSIAGIPNKDANYQY;locus_tag=LOCUS_05460;note=MGA_546
sequence1	MetaGeneAnnotator	CDS	337910	338167	.	+	0	ID=MGA_547;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRMAGASRDSKASDLQISQATGHLEKALIKYQEDLVKVGERYSKKTGLKMPKSIDFDIEGHAQYQEDELKVLGQTMANMKKKDPS;locus_tag=LOCUS_05470;note=MGA_547
sequence1	MetaGeneAnnotator	CDS	338189	338425	.	+	0	ID=MGA_548;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLPTGLTSVGYNVMNIINKEFKAAGLSQNQVPIVNLMLMDYGDPIYVTAKANGETNFDLAKQAIENTRNNLATSLEEN;locus_tag=LOCUS_05480;note=MGA_548
sequence1	MetaGeneAnnotator	CDS	338887	340473	.	+	0	ID=MGA_549;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGFNMGMVVSYNQQNYVIIEIIEKEVTGGFIQFLKLKNLINQEILTVNSQKVNHIQLKGSQKNSEINFENELTDTSYIESLFPEILSDTDSEDMELFDLSGENTFTLDDVIFEEEDIEKFEVQDNLDSLTKESAASSIGLIQNFQTPETNIHLTPRRSTTFEKISPISDTFSNLKMVGELPTETTEIIPRRVLNEQKKQVLFEKQVKPKDSEEQVVKKQIIEQQVNQNNNVKKTENIEIRKEVKIEPLNQVKSNNLQKETINSNINFLKENKVQNEKQDSAKKLEKEAVEKQILEKQDSLNKLERNISNSSKEEQLDTLETEPLNTKAFFENFNKQKKLHEDFNSQFKNNKENTNTIFGSNNKFDQDALKNSRIYKKFKLMSRLLILFLVLALITPIIGIIAKAVVELIKTKTVDLKTLFSFDLSKTSNIAITAVSILMSTVFVIYLVIYLISISDKQYKKIAFYNFQLKNNIEIIDSIQEYNNESSIYLIKVHNEIKKMKKDIKKSNKQYLNQPISNNKQENQKVSH;locus_tag=LOCUS_05490;note=MGA_549
sequence1	MetaGeneAnnotator	CDS	341113	341376	.	+	0	ID=MGA_550;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLVILILMICSGFALSFLSKENKNMVQTFDQEILEDIPKKNNALFLIIYLLAFLLTITSAINNSLFIKLYIALNLKNLNFNNEGIRM;locus_tag=LOCUS_05500;note=MGA_550
sequence1	MetaGeneAnnotator	CDS	341668	342027	.	+	0	ID=MGA_551;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFASYFIVDSVQSTLADLKVGVFKNFSNLDELLNSKFDFQTSLKEFDDISTIIMSISCVMILIAILIFYFMNNKIFADYSNYKIATQNLKILIKKRVITKTKTKLDIKSIEKGIIESNE;locus_tag=LOCUS_05510;note=MGA_551
sequence1	MetaGeneAnnotator	CDS	342350	342691	.	+	0	ID=MGA_552;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLKEEMFSLNIIVKNLENEKMYFSIGHHPGFIFNQNSNLKLLEEQLFTNKFKSGLVETLEKDILIKEINHTNIDFSNNISYMTDKFSGKDIQLNNKSIEFTLKVKNFKNLVL;locus_tag=LOCUS_05520;note=MGA_552
sequence1	MetaGeneAnnotator	CDS	342873	343202	.	-	0	ID=MGA_553;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKRLLNSLGLFHNMVEVIACPTCGRLEFSLREVVKEVEEFVEELQFPLKVAILGCVVNGPGEASQADIGIAGGNKGGIIFKKGKIFKTVKQDELVPELKKLIMEYYEQ;locus_tag=LOCUS_05530;note=WP_010886567.1 flavodoxin-dependent (E)-4-hydroxy-3-methylbut-2-enyl-diphosphate synthase (Bacillus) [pid:44.7%25%2C q_cov:94.5%25%2C s_cov:27.3%25%2C Eval:1.4e-20%2C partial hit],internal stop codon at [343353:343355](-),MGA_553
sequence1	MetaGeneAnnotator	CDS	343353	343481	.	-	0	ID=MGA_554;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVESLREHIEILEKYDFRNIIYSLKATDPLMAIEAYEMASEN;locus_tag=LOCUS_05540;note=MGA_554
sequence1	MetaGeneAnnotator	CDS	343494	343931	.	-	0	ID=MGA_555;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVNRLNTRKVKVGNIEIGGNNEVVIQSMTTSKTHDVKETLKQINSLFKEGCQIVRVAVLGIDDANSLKEIVDNSPVPIVADIHFNYKFALIAADAGCAKIRINPGNIGIEENTIAVVEKCKEKNIPIRIGVNSGSLPKNMVAKYG;locus_tag=LOCUS_05550;note=WP_005902396.1 flavodoxin-dependent (E)-4-hydroxy-3-methylbut-2-enyl-diphosphate synthase (Fusobacterium nucleatum) [pid:57.9%25%2C q_cov:96.6%25%2C s_cov:39.5%25%2C Eval:8.6e-41%2C partial hit],internal stop codon at [343353:343355](-)%2C[343494:343496](-),MGA_555
sequence1	MetaGeneAnnotator	CDS	344060	344710	.	+	0	ID=MGA_556;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKKTTLKDIVQINKILTSKQYNSLEEFDEYSNIIQEYVDDTFFKNNAIVEKLVQYCEKSSRYLDINFKFLSGIELKTEDVHNYLSITKKAIEKAIFVEDSIFEQSIFVEIKSIFKYFLEKSYELEALKNYETLYGINSLEFHQQNESFKYLYTIFDKLTYIARHLNDKYCKRENNLTEALKFSNDFLKDISFLTNNASDFQKLSDIIDQITYSKA;locus_tag=LOCUS_05560;note=MGA_556
sequence1	MetaGeneAnnotator	CDS	344726	344899	.	+	0	ID=MGA_557;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRNSIEHDFVDPSYRYNICFSLQLLFIIIGRIILALNKYIQSESEVRKTLDNLKQQK;locus_tag=LOCUS_05570;note=MGA_557
sequence1	MetaGeneAnnotator	CDS	344977	345666	.	+	0	ID=MGA_558;product=segregation/condensation protein A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183448.1;translation=MLHLIKDKEMDIMDINLFDLSSQYISYIKKYEDLNIEIASEYLVMAAYLIELKSKLLIPKEEVEIDSNYEEQERDELIRRLMEYHKIKEVTDFFKTKQEEFLKTFSKSKSIIKISKIDDDKLPLAENNIDIEKFSNIFLRAIEKNKFKKMEVNTITSVEISPEEVAEDIIIFLNNNNIKEIELGKLIEIKEFSIKMMVATFLAVLDLAAKKFISLSQDQEEVIVKYLDC;locus_tag=LOCUS_05580;note=WP_011183448.1 segregation/condensation protein A (Mesoplasma florum) [pid:31.8%25%2C q_cov:97.8%25%2C s_cov:85.2%25%2C Eval:3.2e-29],MGA_558
sequence1	MetaGeneAnnotator	CDS	345681	346238	.	+	0	ID=MGA_559;product=SMC-Scp complex subunit ScpB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166575.1;translation=MDNKKRMSIIEGLLFVNGDEGTSIEDLQFILGDIKENEISDLIDQLIKKYSKDDSSGLSIQKFAKNRYRMITKKENADFYAKLANVKTESKLSTASIETLSIIAYRGPISKANVEEIRGVNCEAIFYKLKLRNLIKEAGKSDEVGKPMLYKVTQDFLKYFNLNSLDELPKLKETIEEEKEIFTRG;locus_tag=LOCUS_05590;gene=scpB;note=WP_011166575.1 SMC-Scp complex subunit ScpB (Mycoplasma mycoides) [pid:45.0%25%2C q_cov:86.5%25%2C s_cov:76.6%25%2C Eval:9.0e-33],MGA_559
sequence1	MetaGeneAnnotator	CDS	346241	346990	.	+	0	ID=MGA_560;product=pseudouridine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183446.1;translation=MEERLQKIIATRGYCSRRRAEELIVQGKVKVNGKIIKELGSKFDPNVKIDINNKSVEEVKEKVYYLFNKPRLVLTTMYDPKDRKTVAEFFKDSKLRVYPVGRLDYDVSGALIMTNDGEFANFVMHPKYEFRKTYQALCKGKVHKYQIKQLIDGVLIDDNYKTKAIQSRLLKYDEEYDESVIELTIAEGRKHHVKKMLIAADIYLKKLKRTQIEFLTIEELPIGKFRELKSHEIKQFYGIYNSLKVKRGK;locus_tag=LOCUS_05600;note=WP_011183446.1 pseudouridine synthase (Mesoplasma) [pid:67.2%25%2C q_cov:98.0%25%2C s_cov:97.2%25%2C Eval:1.8e-92],MGA_560
sequence1	MetaGeneAnnotator	CDS	346991	347608	.	+	0	ID=MGA_561;product=deoxynucleoside kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183445.1;translation=MRIAIFGTVGAGKSTVSEEISKKLGYKVFPEPIDNNPYFDDYYKDRKANVFKMQIYMLTARSQQLMEAEELKNVIFDRTILEDPIFVATNHDTGAMNDIDYKTYTDFYENVVVPNLSDRGKFDLVIYLKVSTDKAIQRIRERGRYQEFDSPREYWDVLNKNYDNFFEKRKHMFDFLVVDAETDDLEEKMQFIMNKIYEKDSTLKK;locus_tag=LOCUS_05610;note=WP_011183445.1 deoxynucleoside kinase (Mesoplasma florum) [pid:57.3%25%2C q_cov:95.6%25%2C s_cov:96.6%25%2C Eval:4.2e-64],MGA_561
sequence1	MetaGeneAnnotator	CDS	347871	348587	.	+	0	ID=MGA_562;product=YebC/PmpR family DNA-binding transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183444.1;translation=MGRAHEVRKASMEKTAAMKSAIYGRASKEIYMAAKAGSKDPEANLALRSAIDKAKSKQVPADVIQRAIKKAEGGDADNYTSNRYEGYGPGNSMIIVDSLTNNVNRAIAEIRDAFNKNGGKIANSGAVSHSFQATSIFAFENKSVEEILELLMETDCEVNDVLEEEGLTVVYAPFQAFNAIKTALDNVGIKDYKMAETTMLADEMITIVNSEEKAKFDKLMDKLNELEDVQDIYHNVEN;locus_tag=LOCUS_05620;note=WP_011183444.1 YebC/PmpR family DNA-binding transcriptional regulator (Mesoplasma) [pid:59.3%25%2C q_cov:98.7%25%2C s_cov:98.7%25%2C Eval:3.8e-73],MGA_562
sequence1	MetaGeneAnnotator	CDS	348749	348970	.	+	0	ID=MGA_563;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKINLGKTLYTNEKLFKNSNLLTIKFFPNTNNIPLNITLKTYLEYVGFRLGIELKTIEDSKKKSCKMTKMKK;locus_tag=LOCUS_05630;note=MGA_563
sequence1	MetaGeneAnnotator	CDS	349150	349323	.	-	0	ID=MGA_564;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKSTDELKNTRLLIDPHSPEEFRCNGVLINIDDFHEVYNTQPGDEMYLEKEKRIKI;locus_tag=LOCUS_05640;note=WP_011183138.1 M13 family metallopeptidase (Mesoplasma florum) [pid:73.2%25%2C q_cov:98.2%25%2C s_cov:8.9%25%2C Eval:5.4e-20%2C partial hit],internal stop codon at [349324:349326](-)%2C[349537:349539](-)%2C[349540:349542](-),MGA_564
sequence1	MetaGeneAnnotator	CDS	349324	349509	.	-	0	ID=MGA_565;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRTEKLVEQYNKYEINGTNVNGKLTLGENIGDLSGVAAALDICKEQCKEDIKLFFENYAKI;locus_tag=LOCUS_05650;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:2.5e-20%2C partial hit],internal stop codon at [349324:349326](-)%2C[349537:349539](-)%2C[349540:349542](-)%2C[349753:349755](-),MGA_565
sequence1	MetaGeneAnnotator	CDS	349540	349749	.	-	0	ID=MGA_566;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNPQTVNAYYNPSSNEICFPAGILQKPFYDIKEPKARNLGGIGAVIGHEVSHGFDDEGSKFDKNGNFEN;locus_tag=LOCUS_05660;note=WP_011183138.1 M13 family metallopeptidase (Mesoplasma florum) [pid:85.5%25%2C q_cov:100.0%25%2C s_cov:10.9%25%2C Eval:1.2e-30%2C partial hit],internal stop codon at [349324:349326](-)%2C[349537:349539](-)%2C[349540:349542](-)%2C[349753:349755](-)%2C[349966:349968](-),MGA_566
sequence1	MetaGeneAnnotator	CDS	349753	349965	.	-	0	ID=MGA_567;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSQTTKEKAIDKLNSFTIKIGYPDKFEDYSKIEIKSYEQGGSLYQNLVNLSKHFLEKELKEINLPVDKTK;locus_tag=LOCUS_05670;note=WP_011183138.1 M13 family metallopeptidase (Mesoplasma florum) [pid:72.9%25%2C q_cov:100.0%25%2C s_cov:11.1%25%2C Eval:3.6e-24%2C partial hit],internal stop codon at [349537:349539](-)%2C[349540:349542](-)%2C[349753:349755](-)%2C[349966:349968](-),MGA_567
sequence1	MetaGeneAnnotator	CDS	349966	350310	.	-	0	ID=MGA_568;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFEPKFMKKLNEMLNNISLEDLKDFLKIKTLVASSSVLSLDLYEENFKYSSVFSGVKEMKPEIDRAVEFTSSTLGELLGKEYIKKHFSEEAKEDVLKIVKDLIKVYSKRINNLE;locus_tag=LOCUS_05680;note=WP_011183138.1 M13 family metallopeptidase (Mesoplasma florum) [pid:59.8%25%2C q_cov:98.2%25%2C s_cov:17.7%25%2C Eval:1.3e-34%2C partial hit],internal stop codon at [349753:349755](-)%2C[349966:349968](-)%2C[350359:350361](-),MGA_568
sequence1	MetaGeneAnnotator	CDS	350359	350943	.	-	0	ID=MGA_569;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLHKKSIDDIKEMILEFKDNEKKLNSDQEKIINLFKNYLNQEMRNKQGIEPIKDIISKIDSLNKKEDFTSLLIDCFKKFNISFFHSKSVDSDFKNSDVRALMIGSMGLGMTDRDFYDENHPRHKDIKAGYKTYLENVAKISKLKFNTKSIFDLIYNFEKEISQSMLKQEELRSPENIYNVVTLKELTNHCPFIN;locus_tag=LOCUS_05690;note=WP_011183138.1 M13 family metallopeptidase (Mesoplasma florum) [pid:60.8%25%2C q_cov:100.0%25%2C s_cov:30.5%25%2C Eval:3.8e-64%2C partial hit],internal stop codon at [350359:350361](-)%2C[350956:350958](-)%2C[350995:350997](-),MGA_569
sequence1	MetaGeneAnnotator	CDS	351184	351894	.	+	0	ID=MGA_570;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNRDIVLLRTVEVVAIASYKYIGKKDKNLVDKAAVEAFEVMLKNEKGFRLKVVNGEGELDQAPMLFVGQLLGDLEDPSVMTYDVSVDPVEGTHPAAYNFAGSIATIAFSRENTMLQLPEMYMEKLFVSTEFINEIDLKKGIVESIKNMQKKVNRKDLKCIILDKPRHKEIIKKMNDLGIIIRLIQDGDVLAAIDVVNGDADFVYGIGGAPEGSLMAALAISAGCKMQSKLVKYKDI;locus_tag=LOCUS_05700;note=WP_011016951.1 class II fructose-bisphosphatase (Fusobacterium nucleatum) [pid:39.5%25%2C q_cov:97.5%25%2C s_cov:69.9%25%2C Eval:2.0e-42%2C partial hit],internal stop codon at [351892:351894](+)%2C[351940:351942](+),MGA_570
sequence1	MetaGeneAnnotator	CDS	351985	352203	.	+	0	ID=MGA_571;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLVADHRTRFFAAGLTAGGSLKPVDYKNGKFYVNAFMSSHGIVRNFNSVYDVKKVNDLKPEIKFLFDKYKR;locus_tag=LOCUS_05710;note=MGA_571
sequence1	MetaGeneAnnotator	CDS	352245	352529	.	+	0	ID=MGA_572;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDSLTKVLLIALGLSLISLIIIRIFNTFSLNRIAIHEINSADSNISSSKIDSIIQKFKVYLKIEELNISYGETESYYRINQMLNKRKKQITIPK;locus_tag=LOCUS_05720;note=MGA_572
sequence1	MetaGeneAnnotator	CDS	352776	353033	.	+	0	ID=MGA_573;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELISLTVFLSIVILIFSSNILKIRLEEKYENEIIGFVKNECESYKMDISAARIYAKEFNKLDFKIFRINAKTSNLKFVGPFTLL;locus_tag=LOCUS_05730;note=MGA_573
sequence1	MetaGeneAnnotator	CDS	353284	353457	.	-	0	ID=MGA_574;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDAGEIDTKLFGVFADDRRFDAYKTLEDVPQHLKDEIENFFLQYKSLQKKEVKING;locus_tag=LOCUS_05740;note=WP_011183442.1 inorganic diphosphatase (Mesoplasma florum) [pid:84.2%25%2C q_cov:100.0%25%2C s_cov:30.5%25%2C Eval:7.6e-22%2C partial hit],internal stop codon at [353173:353175](-)%2C[353284:353286](-)%2C[353548:353550](-),MGA_574
sequence1	MetaGeneAnnotator	CDS	353548	353709	.	-	0	ID=MGA_575;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENNVIKMIVEIPKGSSNKYEYDINTNEISLDRVLYGANFYPGEYGFVPNTLD;locus_tag=LOCUS_05750;note=WP_011166592.1 inorganic diphosphatase (Mycoplasma mycoides group) [pid:77.4%25%2C q_cov:100.0%25%2C s_cov:28.5%25%2C Eval:3.9e-18%2C partial hit],internal stop codon at [353284:353286](-)%2C[353548:353550](-),MGA_575
sequence1	MetaGeneAnnotator	CDS	354023	354352	.	-	0	ID=MGA_576;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFAFEVLLTIFSKYVLGGLLIMGFYSIEVSFFGILFIYLSSNIVYSAIINILVNSMRIVLPLGSDPIGVVAMTLSDLSFLIAFAVVFFFLKRSLLFRVKENNKMKYYL;locus_tag=LOCUS_05760;note=WP_011167060.1 hypothetical protein (Mycoplasma mycoides) [pid:33.6%25%2C q_cov:98.2%25%2C s_cov:46.0%25%2C Eval:4.6e-11%2C partial hit],internal stop codon at [353939:353941](-)%2C[354023:354025](-),MGA_576
sequence1	MetaGeneAnnotator	CDS	354815	354946	.	+	0	ID=MGA_577;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEDKNHNIPEHDDVKEGKKDHYHDEHHFDALGNHDDIDEGDFH;locus_tag=LOCUS_05770;note=MGA_577
sequence1	MetaGeneAnnotator	CDS	355016	355261	.	+	0	ID=MGA_578;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIAVSAFEMSIEAVLEKIQFQGVPIPFRIFDLIVITLSLSALGPIFSGFIAFVAPFIHLADGFHNPLSVVIDCAGYFVSV;locus_tag=LOCUS_05780;note=MGA_578
sequence1	MetaGeneAnnotator	CDS	355376	355522	.	+	0	ID=MGA_579;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTIVYTLLVFAIMYLNTSFAHSHEEHKEVIANISSLHLEDEHNHDHGH;locus_tag=LOCUS_05790;note=MGA_579
sequence1	MetaGeneAnnotator	CDS	355748	356770	.	+	0	ID=MGA_580;product=cell shape-determining protein Mbl;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003227776.1;translation=MAGKKPTYVSMDLGTAYTLVYIAGQGIVYNEPSIVAYKIRENKIIAVGSEAYKMIGKGNKNLRIVRPMVDGVITDIKATQAQLNYIFARLRLEKTLKGCVMVLACPSVITELEKSALKKIAINLGASNVFIEEEVKMAALGGGVNIYAPSGNLIIDMGGGTTDVAVIASGDIVLSKSVKVAGNYLNEEILKFVRAQYGMEIGVKTAETVKINIGSLAKQADEKSMKVYGRDVVSGLPREITISPEELREVLKIPLSRVIELTVQVLELTPPELAGDIFRNGITLCGGTALIKGIAKYFGDTLQLPTKVGEFPLLAVINGTKKYEAEIYAKLRATKTELDY;locus_tag=LOCUS_05800;gene=mbl;note=WP_003227776.1 cell shape-determining protein Mbl (Bacillus) [pid:41.7%25%2C q_cov:91.8%25%2C s_cov:93.7%25%2C Eval:1.1e-72],MGA_580
sequence1	MetaGeneAnnotator	CDS	357072	357254	.	-	0	ID=MGA_581;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKTWIDKSMCIGCMACVQIDETGTLFMDDDGFAEANENDLELVECQMVCPTGAVKIGDE;locus_tag=LOCUS_05810;note=MGA_581
sequence1	MetaGeneAnnotator	CDS	357359	357916	.	+	0	ID=MGA_582;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MERNKQIHDKVRKEISYKKNIQDEKSVIHSTFEKLKKIDMDFFKEKLAIFDAKHEFEKPYLDRDKSSCLFPEEIKYEMKLEISELKKLGKAEVVNNSKVETEEETFTLKSEKYINLYRSLQANEKNFQKNIDKLKEKQAGLKIIPQDISMTTVQQVRSKDNRSTQQMILEVNDKNEKGQNKVIKT;locus_tag=LOCUS_05820;note=MGA_582
sequence1	MetaGeneAnnotator	CDS	358038	358625	.	+	0	ID=MGA_583;product=(d)CMP kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183095.1;translation=MKNINIAVDGTAGSGKSSVMIKVAEKLKMNFIDTGVMYRAFTKLCINNGVNFSSDNEIQAQIKNFNFKYINENSIIVNGIDLGKNISDYDVAENIKYVAKNNDVRAFMVEAQRKMSESKNNIVIGRDITTVVLPDAELKIYFDCSIESRAKRRYEQNKAKNIVPNVYEDILRQIEQRDDYDKNRAVGALKITKDA;locus_tag=LOCUS_05830;gene=cmk;EC_number=2.7.4.25;note=WP_011183095.1 (d)CMP kinase (Mesoplasma florum) [pid:47.8%25%2C q_cov:92.3%25%2C s_cov:81.7%25%2C Eval:5.6e-39],internal stop codon at [358623:358625](+),MGA_583
sequence1	MetaGeneAnnotator	CDS	358729	358875	.	+	0	ID=MGA_584;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MARKGIVAVVGRPNVGKSTLFNRIIREKKAIVEDKPGVTRDRMYGRAE;locus_tag=LOCUS_05840;note=WP_011183096.1 ribosome biogenesis GTPase Der (Mesoplasma florum) [pid:84.8%25%2C q_cov:95.8%25%2C s_cov:10.6%25%2C Eval:2.9e-16%2C partial hit],internal stop codon at [358873:358875](+),MGA_584
sequence1	MetaGeneAnnotator	CDS	358882	360042	.	+	0	ID=MGA_585;product=ribosome biogenesis GTPase Der;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183096.1;translation=MPFIGVDTGGITLQDSPFSKEIRMQAEIAIKEADVIVFVINFKDGITPEDEMVAKILYKTQKPIILAVNKYDKKEQFDESFTFMTLGFGEPCLISSTHGIGVGDLLDKVIENMPKFNEDHENEELKLAIVGRPNVGKSSLVNALVGEERMIVSDVAGTTIDAVDSKIKYNGNDYIIIDTAGMRKKGKIYENLEKYSYLRSITSINKADIVLLVLDSSEKVADHDTNIGGVAFEENKPIIIIGNKWDLVSNKETNTMKKKEEEIKAYFKYLNYAKVLFLSAKENKRVNKIFDVVDLVQKNIKKRIRTSLLNEIFNKAQLINPAPNHNGGRLKIFYASQVEAYLPTFVLFVNNPEFVHFSYKRFLENQIRSQFDFSGVPITIIFRERK;locus_tag=LOCUS_05850;gene=der;EC_number=3.6.5.-;note=WP_011183096.1 ribosome biogenesis GTPase Der (Mesoplasma florum) [pid:65.6%25%2C q_cov:99.5%25%2C s_cov:88.0%25%2C Eval:1.5e-148],MGA_585
sequence1	MetaGeneAnnotator	CDS	360047	361051	.	+	0	ID=MGA_586;product=NAD(P)H-dependent glycerol-3-phosphate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183097.1;translation=MIKERISIIGTGAYGTVLANVLADNGHDVLMYGIEESQVDDINNNHLNSMFFKDLLINSNIKATTDFAVAMEKANIVILSVPTFALDNAIENIIKYGKHEMHIINVAKGLDEKNLDLLSKKIKKQFEGTGIMKSYGAIYGPSVAIEVIMRKPTCVMSCNEDEEIATYMANIFSNEYFIVKVSTDIVGCEIAAALKNAVAIGVGILHGFSAADNSKASLITIGNAEIYNVAKHFGAKLETFMNFATLGDLILTASSVKSRNFSLGVQIAENDDAKKILTSHKHTVEGVLSCKLAYEISKKYQIDTPMFEILYKILYNNHKPSGLVNDFFKHAKVV;locus_tag=LOCUS_05860;note=WP_011183097.1 NAD(P)H-dependent glycerol-3-phosphate dehydrogenase (Mesoplasma florum) [pid:59.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.4e-106],MGA_586
sequence1	MetaGeneAnnotator	CDS	361071	361346	.	+	0	ID=MGA_587;product=HU family DNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166598.1;translation=MTKKELSEKLSTEFGSTRAEAERMINFVFDEISNALVKKEEVALAGFGKFVTSERAAREGVNPATGAKIKIAATTVAKFKVAKQLKDAVAK;locus_tag=LOCUS_05870;note=WP_011166598.1 HU family DNA-binding protein (Mycoplasma mycoides group) [pid:47.2%25%2C q_cov:97.8%25%2C s_cov:98.9%25%2C Eval:3.3e-17],MGA_587
sequence1	MetaGeneAnnotator	CDS	361401	361940	.	+	0	ID=MGA_588;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFELFKIGLISKKALLILNYSKIKINENQLAILLIIMELSNDDQKNFTPSQIAQHMMISKEEIEKEISELLKNRIIKLEQKGKKTILDLTPLFNRLLVEVEEKHSKLRNDNTYNFIEKIFNYELNKQEIEKIENFIELGISKPKIMSIIDEYKINNINDLFKKLEEQAKKTSVKITMYN;locus_tag=LOCUS_05880;note=MGA_588
sequence1	MetaGeneAnnotator	CDS	361927	362175	.	-	0	ID=MGA_589;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNIKKHQIEKLNLVNKNNGSGFIIVYFHLYEKLFFLHINEIKKMENKKIPYNYFKDNFFEISFSGIKFDFNQIFNHLINYT;locus_tag=LOCUS_05890;note=WP_011183100.1 Holliday junction resolvase RecU (Mesoplasma florum) [pid:38.3%25%2C q_cov:93.9%25%2C s_cov:48.8%25%2C Eval:9.3e-07%2C partial hit],internal stop codon at [362230:362232](-),MGA_589
sequence1	MetaGeneAnnotator	CDS	362230	362412	.	-	0	ID=MGA_590;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIKNKGMYLEMIINNSINSLDPTKGFIYKMPINNNIISVENNIVTARLNKNYFCDYIGL;locus_tag=LOCUS_05900;note=MGA_590
sequence1	MetaGeneAnnotator	CDS	362497	362826	.	+	0	ID=MGA_591;product=cell division regulator GpsB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003225629.1;translation=MADYIKLSKQDILDKDFEVEYKGYKVEEVDSFLDMIAEDYKTFTDREIKKDEKIALLEDEVKRVTNDLKQTIASLKLTENQIDELARKGLNSSDIIKRISNLEKDTYNK;locus_tag=LOCUS_05910;gene=gpsB;note=WP_003225629.1 cell division regulator GpsB (Bacillus) [pid:34.6%25%2C q_cov:98.2%25%2C s_cov:92.9%25%2C Eval:3.9e-10],MGA_591
sequence1	MetaGeneAnnotator	CDS	363240	363695	.	+	0	ID=MGA_592;product=nicotinamide-nucleotide amidohydrolase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013447851.1;translation=MEKLFEYLKLNNLTISSCESFTGGYFANEITNLSGASNYFKGGFVCYTDEFKSQILQIDIEVIKKYGAVSLETLNLMLSKTQELLKTDIVFAFTGFSTPIDDNNVLSGLSYVGFKMKEKIYTYEFKVLEDISRKEYKKRACNFVINKLLEL;locus_tag=LOCUS_05920;note=WP_013447851.1 nicotinamide-nucleotide amidohydrolase family protein (Mycoplasma leachii) [pid:47.0%25%2C q_cov:100.0%25%2C s_cov:96.8%25%2C Eval:4.0e-31],MGA_592
sequence1	MetaGeneAnnotator	CDS	363742	364662	.	+	0	ID=MGA_593;product=recombinase RecA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166605.1;translation=MIEKTLEENKNEVLLNMNNNIYDDPAFKSVLKDIEKTFGKGSIMKLGDSVNSTIDVIPSGSFLLDRAIGVGGYPKGRIIEIYGPESSGKTTLSLHAICEAQKNNGRAAFIDAEHALDPRYAQNIGVDIKNLVVAQPDSGEQALDILEMLVKSNTIDIVVIDSVAALVPKAELDGEMSDQQIGLQARLMSKALRKLNGIVSKTNTTVIFINQLREKVGVIFGNPETTPGGRALRFYSSLRLEVRKGETISVNGEATANKVKIKIVKNKVSPPFKTCQITIAYNKGVEKDIEVIEMATIYNVLTKAGV;locus_tag=LOCUS_05930;gene=recA;note=WP_011166605.1 recombinase RecA (Mycoplasma mycoides group) [pid:65.3%25%2C q_cov:94.1%25%2C s_cov:83.5%25%2C Eval:9.3e-108],internal stop codon at [364660:364662](+)%2C[364714:364716](+),MGA_593
sequence1	MetaGeneAnnotator	CDS	364816	364977	.	-	0	ID=MGA_594;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQENYYPEVILKVRELYPFEGQFKWYKKMQKNEVLKPSVTDEETIGRNDRVEV;locus_tag=LOCUS_05940;note=WP_011183501.1 ABC transporter (Mesoplasma florum) [pid:52.8%25%2C q_cov:100.0%25%2C s_cov:6.2%25%2C Eval:1.5e-09%2C partial hit],internal stop codon at [364984:364986](-),MGA_594
sequence1	MetaGeneAnnotator	CDS	364984	365379	.	-	0	ID=MGA_595;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVSKFLVIIYLVINIAAGSGTFPSFMQFDFFYGISFLSEYRFSIQGIGSIIFGIGENGFNSSDTLYLLKQAGILAIFGVFMFSLGLFLSTQRNKEIRFGSFKGKQVLRAFEELNMKTEAEQFKKQNKKGYN;locus_tag=LOCUS_05950;note=WP_011183501.1 ABC transporter (Mesoplasma florum) [pid:55.6%25%2C q_cov:96.2%25%2C s_cov:14.8%25%2C Eval:1.3e-34%2C partial hit],internal stop codon at [364984:364986](-)%2C[365398:365400](-)%2C[365446:365448](-)%2C[365452:365454](-)%2C[365572:365574](-),MGA_595
sequence1	MetaGeneAnnotator	CDS	365572	365775	.	-	0	ID=MGA_596;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIIKYIYSNSKEELNMINFDQQGARNGIYGIGLGEFFICIGLFVGTFMQTFIYDRGKRNHNLSAKK;locus_tag=LOCUS_05960;note=WP_011183501.1 ABC transporter (Mesoplasma florum) [pid:53.8%25%2C q_cov:97.0%25%2C s_cov:7.6%25%2C Eval:3.4e-14%2C partial hit],internal stop codon at [365398:365400](-)%2C[365446:365448](-)%2C[365452:365454](-)%2C[365572:365574](-)%2C[365968:365970](-),MGA_596
sequence1	MetaGeneAnnotator	CDS	365791	365931	.	-	0	ID=MGA_597;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSMYEYRASIVLKIIDKLFDEKAAESIKNEIKETKNDQRNYLDNT;locus_tag=LOCUS_05970;note=MGA_597
sequence1	MetaGeneAnnotator	CDS	366808	368340	.	+	0	ID=MGA_598;product=ribonuclease Y;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183104.1;translation=MLVTNLKENIFIAFLTILIVFLSIAIGFIVYLVKSRRRKYILQKIKDEAKIIKMNIIAEAKAKADFIKLTAENETKYIQEKILLEEKNLKLKQVKIDEELSSLSKKEEFIIEDRINLNKKRKELEVESKKILLLLENISNLTEEEVKNEIFTLIENKYLSDFTNKIKKQEENLARNAQKKAIKILIEAMQSVHIEVTSEKNTTFFELENESLKGKIIGKEGRNIKTFQSYGGVDIIIDDTPNRITISSFNPIRREIAYLTLQELLKSARIHPAAIEEQLILQEEKLEKHCYDIGINILEDLKIDDFPSEIVIMLGKLKFRHSYGQNVLQHSIEVAIIAKNIAKQLNLDEKIALKSGLLHDIGKAVDFEKEGSHVTLGVNILRKYDMDNIIINAVESHHNDVEKNTYYAEIIAIADAISAARPGARNNDSEDYFIRIKNLEDICLKQKGVLKAYVLKSGREIRVMVNPNAVDDYNMKKLSFKIKEEIQKINKTPGDIYITIIREKRETIKL;locus_tag=LOCUS_05980;gene=rny;note=WP_011183104.1 ribonuclease Y (Mesoplasma florum) [pid:40.4%25%2C q_cov:96.9%25%2C s_cov:98.2%25%2C Eval:5.8e-101],MGA_598
sequence1	MetaGeneAnnotator	CDS	368397	369515	.	+	0	ID=MGA_599;product=signal recognition particle protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183377.1;translation=MGFGDFLANKMKKSIEKNLKKSTLNSENIKEVLREIRLALLEADVNVDVAKRFISNVEKKSEGVFIEQGVRADQQMIKIVHEELVDILGKTNKPLEIDKKPSIIMMVGLQGAGKTTTVGKLSHLITKKNKKKTLMVGLDIYRPGAIDQLVELGQKNNLDVFEQGKQDPIKTAKQAIDYGQKNGYEVIILDTAGRLQIDKELMKELNNIRKAVSPQEIILTVDGMTGQDIINVSQEFNDLLKLTGVIVTKLDGDARGGATLSITDITKLPIKFIGEGEGISALAEFHPKRMADRILGMGDVESLFEKAADVIDQRTMEKTMKRMFAGQFDLEDLKNQMEQVAKMGNLGGIMKMMPGLNGKVSENQINQAQQKL;locus_tag=LOCUS_05990;gene=ffh;note=WP_011183377.1 signal recognition particle protein (Mesoplasma) [pid:71.2%25%2C q_cov:100.0%25%2C s_cov:82.2%25%2C Eval:1.3e-152],internal stop codon at [369513:369515](+),MGA_599
sequence1	MetaGeneAnnotator	CDS	369531	369740	.	+	0	ID=MGA_600;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSMTLKERREPRLLKAITRKQRILKGSGRSEKEFNELLNQFDKGKKQVLEMSKALKSGKIPNMGGLKF;locus_tag=LOCUS_06000;note=WP_011166607.1 signal recognition particle protein (Mycoplasma mycoides) [pid:71.8%25%2C q_cov:100.0%25%2C s_cov:15.9%25%2C Eval:1.8e-23%2C partial hit],internal stop codon at [369513:369515](+),MGA_600
sequence1	MetaGeneAnnotator	CDS	369806	370219	.	+	0	ID=MGA_601;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKLVVITGASSGIGKELAKLFIKDGYPVLLLARRVELLKEFESKNVIIAKVDVTNFDQFEKAVRKAEDKFGLTDLIINNAGVMYLDKIYNLDLKMQNEMFDINVKGVLNGMNIVINDMKNRNAGTIINVGSVAGR;locus_tag=LOCUS_06010;note=WP_003642342.1 SDR family oxidoreductase (Lactiplantibacillus) [pid:55.5%25%2C q_cov:98.5%25%2C s_cov:56.6%25%2C Eval:1.4e-34%2C partial hit],internal stop codon at [370217:370219](+)%2C[370400:370402](+),MGA_601
sequence1	MetaGeneAnnotator	CDS	371191	371475	.	-	0	ID=MGA_602;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAEKKQFQSILDYRPQFENIVDALVPDIQFSYSAILNNSTVQTYFNMISLEHYGYEYYQLLRMNKLEFKLNERTLNLTILEMVYNIISEIVARK;locus_tag=LOCUS_06020;note=MGA_602
sequence1	MetaGeneAnnotator	CDS	371569	372033	.	+	0	ID=MGA_603;product=23S rRNA (pseudouridine(1915)-N(3))-methyltransferase RlmH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166608.1;translation=MKIKLICFNKINKEFKEPYEFYINKIQKHCDLEIIEINEFDHGDIKSNMIKNEQNIHLRLKELKNFEIFLLDINAKQYSSKQIAKLLEENKNYKGGNICLIIGPSDGFSKEFRNLYQNKISFGLITLPYNLVRIVLLEQIYRGFKISKNQKYHK;locus_tag=LOCUS_06030;note=WP_011166608.1 23S rRNA (pseudouridine(1915)-N(3))-methyltransferase RlmH (Mycoplasma mycoides group) [pid:47.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.9e-34],MGA_603
sequence1	MetaGeneAnnotator	CDS	372153	372338	.	+	0	ID=MGA_604;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKSIKEIEEKISIVDLVMEIVDARAPFSTQNPLLRKILNKRPRLIIMTKFDLSDNEITNQ;locus_tag=LOCUS_06040;note=WP_011183436.1 ribosome biogenesis GTPase YlqF (Mesoplasma florum) [pid:51.8%25%2C q_cov:91.8%25%2C s_cov:17.8%25%2C Eval:5.2e-10%2C partial hit],internal stop codon at [372138:372140](+)%2C[372336:372338](+),MGA_604
sequence1	MetaGeneAnnotator	CDS	372432	373067	.	+	0	ID=MGA_605;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTRETQLKQKSRGVENPQLNVLVVGIPNVGKSTVISKLSKGKSLKIGNKPGVTRGMQRITMNDNVTLIDTPGILPAKFENETVACNCAATNSIRLDIVPKERMATKLMRYIYNSYPSLIENTYKINKNVLRPINYDDTFTIFEEIAKRSKFIILDEIPDVERVIELFIHDIINNNLGKISFEKPIEIKEISKQAIDENDLDSTVVSDLTVE;locus_tag=LOCUS_06050;note=WP_011183436.1 ribosome biogenesis GTPase YlqF (Mesoplasma florum) [pid:51.2%25%2C q_cov:98.1%25%2C s_cov:66.3%25%2C Eval:2.7e-53%2C partial hit],internal stop codon at [372138:372140](+)%2C[372336:372338](+),MGA_605
sequence1	MetaGeneAnnotator	CDS	373064	373684	.	+	0	ID=MGA_606;product=ribonuclease HII;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183435.1;translation=MIENIRYLFDQNIREQYKVRLIAGSDEVGRGAMAGPIVVASAILKPDYNNSKIKDSKLLNEKQREELYEEIKENCIAYSICEYDSKFVDQYNPKKTSQIGIIESIKSLKVKPDICLIDGESIELARYKCLQIIKGDNLSISIGAASILAKVYRDRIMNNFHLEYPQYNFIKNKGYCTKEHQEKVKEYGALNIHRFSYKPIKFLKEK;locus_tag=LOCUS_06060;EC_number=3.1.26.4;note=WP_011183435.1 ribonuclease HII (Mesoplasma florum) [pid:57.6%25%2C q_cov:99.5%25%2C s_cov:98.6%25%2C Eval:2.0e-58],MGA_606
sequence1	MetaGeneAnnotator	CDS	373896	374252	.	+	0	ID=MGA_607;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSYAKLLISKYGEELSRGVVIGHDNRRFSKEFSQLAAEILTSFGIKAYLFKNNTMKPTPVVSYATKDLNAIGGIVITASHNPAIYNGYKIYDEFGCQLIDEDTKIIAEYMEEIQDILS;locus_tag=LOCUS_06070;note=WP_011166989.1 phospho-sugar mutase (Mycoplasma mycoides) [pid:70.1%25%2C q_cov:99.2%25%2C s_cov:21.0%25%2C Eval:5.9e-43%2C partial hit],internal stop codon at [373722:373724](+)%2C[374250:374252](+)%2C[374523:374525](+),MGA_607
sequence1	MetaGeneAnnotator	CDS	374319	374525	.	+	0	ID=MGA_608;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISNLQFYKDKPRDGFKMIYSAVNGTGTEFTPPLLRKFGYDVIEVKEHAFEDSTFKNVGNPNPEFEPA;locus_tag=LOCUS_06080;note=WP_011166989.1 phospho-sugar mutase (Mycoplasma mycoides) [pid:67.6%25%2C q_cov:100.0%25%2C s_cov:12.2%25%2C Eval:9.9e-22%2C partial hit],internal stop codon at [374250:374252](+)%2C[374523:374525](+)%2C[374631:374633](+)%2C[374676:374678](+),MGA_608
sequence1	MetaGeneAnnotator	CDS	374691	374822	.	+	0	ID=MGA_609;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFNLTPLNPAMYSSFVTSDLGDRIANETYGVKVIKTLTGFK;locus_tag=LOCUS_06090;note=WP_011183017.1 phospho-sugar mutase (Mesoplasma florum) [pid:72.1%25%2C q_cov:100.0%25%2C s_cov:7.7%25%2C Eval:3.2e-12%2C partial hit],internal stop codon at [374523:374525](+)%2C[374631:374633](+)%2C[374676:374678](+)%2C[374820:374822](+)%2C[374964:374966](+),MGA_609
sequence1	MetaGeneAnnotator	CDS	374823	374966	.	+	0	ID=MGA_610;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGSEILKEPERDLNFVFAYEESYGYVLDSSTRDKDGIQATIMLVEAA;locus_tag=LOCUS_06100;note=WP_011166989.1 phospho-sugar mutase (Mycoplasma mycoides) [pid:76.1%25%2C q_cov:97.9%25%2C s_cov:8.2%25%2C Eval:1.3e-13%2C partial hit],internal stop codon at [374631:374633](+)%2C[374676:374678](+)%2C[374820:374822](+)%2C[374964:374966](+)%2C[375231:375233](+),MGA_610
sequence1	MetaGeneAnnotator	CDS	375099	375233	.	+	0	ID=MGA_611;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLREEEFTTLGGLELSYVEDYINGLFNMPGQNLMKFYFSDGS;locus_tag=LOCUS_06110;note=WP_011183017.1 phospho-sugar mutase (Mesoplasma florum) [pid:54.5%25%2C q_cov:100.0%25%2C s_cov:7.8%25%2C Eval:6.2e-08%2C partial hit],internal stop codon at [374820:374822](+)%2C[374964:374966](+)%2C[375231:375233](+),MGA_611
sequence1	MetaGeneAnnotator	CDS	375481	376701	.	+	0	ID=MGA_612;product=FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183549.1;translation=MKTIIIGGSATGMGVAAKLKRNDPNCEIVVIQDKNYVSLGACGLPYFVVNNFDDENNLIARTKEQFEKQGIKIISNSKVKTVNFKEKKVFFNNEFENYDNLVIAVGAKPIVPNIKGVEGENVFTLTTLEDGIMLKEKMNKDEKIKKVAIIGAGFIGLEMTETLYELKKEVYLLEMESKVMKRTFDEEISNLIQEKLEEKKINNLFGEQLVEIKLENNKVNSILLKSGKEIKVDAVLLSVGFQPNTEFLKDSELKMNERGAIIVNTKGETNIENVYSSGDCAISKNFINNQDIYSPLATVASKFAKIIADNISGKEKYYFGSIQSAILRLFDLEIARTGLTEQMAIANKINVKSVFIKDKDHTNYTPNQKDLYLKLIINGDTKEIIGAQMAGSNNSILRIYALSALI;locus_tag=LOCUS_06120;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:4.9e-97],MGA_612
sequence1	MetaGeneAnnotator	CDS	377162	377356	.	-	0	ID=MGA_613;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSEAKLNPCPTFSNIPIKNVTVNITATLNNNKAIPFAVILPNPVSPGLEVILKIAMNTIGTVNK;locus_tag=LOCUS_06130;note=MGA_613
sequence1	MetaGeneAnnotator	CDS	377568	377765	.	+	0	ID=MGA_614;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSILMTFMKIMPLAVMSMITVSITSRPIGSLVTIGKVIGVGYLGVVIALGLLTLEVFLSGVKIGA;locus_tag=LOCUS_06140;note=WP_011183548.1 dicarboxylate/amino acid:cation symporter (Mesoplasma florum) [pid:66.2%25%2C q_cov:100.0%25%2C s_cov:11.1%25%2C Eval:1.4e-18%2C partial hit],internal stop codon at [377400:377402](+)%2C[377556:377558](+)%2C[377763:377765](+)%2C[377766:377768](+)%2C[377778:377780](+)%2C[377964:377966](+),MGA_614
sequence1	MetaGeneAnnotator	CDS	377826	377966	.	+	0	ID=MGA_615;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPIAMETLTEDMKINGKAANTIQPISTTMGLIACAGVQSGLATSIL;locus_tag=LOCUS_06150;note=WP_011183548.1 dicarboxylate/amino acid:cation symporter (Mesoplasma florum) [pid:52.2%25%2C q_cov:100.0%25%2C s_cov:7.9%25%2C Eval:7.3e-09%2C partial hit],internal stop codon at [377763:377765](+)%2C[377766:377768](+)%2C[377778:377780](+)%2C[377964:377966](+),MGA_615
sequence1	MetaGeneAnnotator	CDS	377997	378524	.	+	0	ID=MGA_616;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLFTFFIIALFVTVVASLGIAGVPGTATVVTVGVLGGMGFGGFAGSVLAVIAPLDGLFDMGRTGANVVGGVATATIVAKSEGLIEEDSDLLNEKGLQTQRRILAKHKAKDDYIQSINSIRSIASKELKNKELSSDNKNKISIKLKEDIKEQQEKYKLAIKSLKEEKNKSKEAKK;locus_tag=LOCUS_06160;note=WP_011167177.1 dicarboxylate/amino acid:cation symporter (Mycoplasma mycoides) [pid:44.6%25%2C q_cov:64.0%25%2C s_cov:21.2%25%2C Eval:4.6e-20%2C partial hit],internal stop codon at [377763:377765](+)%2C[377766:377768](+)%2C[377778:377780](+)%2C[377964:377966](+),MGA_616
sequence1	MetaGeneAnnotator	CDS	378524	379168	.	+	0	ID=MGA_617;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILSILAAVSITGTTSSLVVACSEPETVLKTIEFDKEQDNEIKEFDTLTIKVKNRSKLTGLSITTSGNITATLGGKNNDEISVKAGKYQEPSKNEGNKIDNSKNEASLTLTAKNAYTEIINFTIAKNDEAYKEIKLSEYNPEFKVGEEKEIIIDNYSELVNFKVTANSTKNIAYKLVNNKLKFKAKSEGSISLILSANNAKESKTIELKSTK;locus_tag=LOCUS_06170;note=MGA_617
sequence1	MetaGeneAnnotator	CDS	379241	379546	.	+	0	ID=MGA_618;product=single-stranded DNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183434.1;translation=MNNVTIIGQIEGNPQIVFNSKDGVKKLYKFILKVPRNYKTKSGELIDDFINVKVWSNVLGDEYEYFDQSYIGIEGRLVSFGNTENNNYGNELVASKVILLN;locus_tag=LOCUS_06180;note=WP_011183434.1 single-stranded DNA-binding protein (Mesoplasma florum) [pid:49.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.2e-24],MGA_618
sequence1	MetaGeneAnnotator	CDS	379816	380301	.	+	0	ID=MGA_619;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDEYGIKNIEFFMQDLSLENIVFSTIENDGVNNEVLNNSFKNNYKIIKIIEESMKDYLKRTVDLPEKSNFLAITEVYESEYSINDKFIEYSNRMLCGVSKGIVFVQFKNNDPINKLFNFAVNEGKDVFAIPHALFSKDGTNKLIKNGAKLIENAKDILNEI;locus_tag=LOCUS_06190;note=WP_011183433.1 DNA-processing protein DprA (Mesoplasma florum) [pid:34.3%25%2C q_cov:100.0%25%2C s_cov:65.3%25%2C Eval:1.0e-17%2C partial hit],internal stop codon at [379591:379593](+),MGA_619
sequence1	MetaGeneAnnotator	CDS	380508	380765	.	+	0	ID=MGA_620;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKTKQKDNFQEVIPQNKGSMPEFKTKRSGKSFFAIISHYIKRHPMIGVFLVILTLASSITSVLSPKIIENIMTVLTAPTGLNKD;locus_tag=LOCUS_06200;note=MGA_620
sequence1	MetaGeneAnnotator	CDS	380964	381554	.	+	0	ID=MGA_621;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIFTFASNFLAGIMGKNIEIELRNKALEKLVKQDMSYYSDKKIGEILTKIVSDTQIIGDQAQQVPVTMMSAAFTFFGALIMMFTINVYLTVVVIVTMAIIVTSIFSTFGVVKKAALKTRDSITNINGDVTDRIATVRLIKASGTENYETERFKEIHKDYFKKSSSLIKLQSTVITVLVAGVSSIQMIIVIAAAIK;locus_tag=LOCUS_06210;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:2.4e-45%2C partial hit],internal stop codon at [381552:381554](+),MGA_621
sequence1	MetaGeneAnnotator	CDS	381615	382151	.	+	0	ID=MGA_622;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVGPIMQVARLQAGLIMASTSAVRIEEILGAKSRIDPHYDPSEGIHIENIDKDIIFKDVEFRYPEKPEKVIIPKFSFTFEHGKSYAFVGETGAGKSTIAKLLLRFYDPYKGNVLINEKYDLKEVNLASYLDKVGYVEQEPQILFGDVLDNIKYGRFDATDEEAIEAAKLAELHDLVMT;locus_tag=LOCUS_06220;note=WP_011183321.1 ABC transporter B family permease/ATP-binding protein (Mesoplasma florum) [pid:62.9%25%2C q_cov:100.0%25%2C s_cov:28.9%25%2C Eval:1.2e-58%2C partial hit],internal stop codon at [381552:381554](+)%2C[382149:382151](+),MGA_622
sequence1	MetaGeneAnnotator	CDS	382191	382505	.	+	0	ID=MGA_623;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSGGQKQRLVIARMFLKDPQLLILDEATSALDNIVEKEIQAKLDSLMKGRTTVTIAHRLSTIKNVDQIIVLAPEKGIAQVGTFSELKNKDGHFKKLYDAGLMG;locus_tag=LOCUS_06230;note=WP_011183432.1 ABC transporter ATP-binding protein (Mesoplasma florum) [pid:86.1%25%2C q_cov:97.1%25%2C s_cov:15.3%25%2C Eval:2.3e-42%2C partial hit],internal stop codon at [382149:382151](+),MGA_623
sequence1	MetaGeneAnnotator	CDS	382638	383357	.	+	0	ID=MGA_624;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948430.1;translation=MINDEKIIDNKKPQIDENRALVEIINVSKVYKNKKALDDVSLIINPGDRIGVIGPNGGGKSTLSEIIGGIRKPTTGKVTRQENMTLGLQFQESKYPIGITVLDMIKYYLETFNIPMTEENLNEILKKFQIDSFKKKFLEGLSGGQQQRVNILLSLIHNPDLVIFDEISTGLDIEVRSEIFDAIKENVINKNKAMILVTHMMSEIEELCEKYIYIHNGVIKERGLVKDLVAKYGSVHNFT;locus_tag=LOCUS_06240;note=WP_011948430.1 ABC transporter ATP-binding protein (Clostridium botulinum) [pid:32.9%25%2C q_cov:87.4%25%2C s_cov:88.5%25%2C Eval:4.5e-29],MGA_624
sequence1	MetaGeneAnnotator	CDS	383388	383618	.	+	0	ID=MGA_625;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MESISEVPNKKSKNRLDRIINSEKDKGKNIPLIKLLLKYYYKGFAVPFFLFFFPLILLFLEGFVFKMMPVVEGQAK;locus_tag=LOCUS_06250;note=MGA_625
sequence1	MetaGeneAnnotator	CDS	383655	383819	.	+	0	ID=MGA_626;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQIISVGIFIVPQTILEFKNSVLMKRIGATNIKPIFFILTVVLMGIFFMIIGFL;locus_tag=LOCUS_06260;note=MGA_626
sequence1	MetaGeneAnnotator	CDS	383913	384134	.	+	0	ID=MGA_627;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTLVQSVSLGMLLASIFKSTTTYIAVSNVLYMPIAFLSGSFIPIDLIMASSVLKYATYLNIFKYCMDPFISA;locus_tag=LOCUS_06270;note=MGA_627
sequence1	MetaGeneAnnotator	CDS	384326	385189	.	+	0	ID=MGA_628;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKIVNIIGAGLSGCEAAYQLSKRNIKVKLYEKKSIERNPVQKLDYFAELVCSNTLRSTDLKNAVGTLKDEMRMFDSLIIKAAEFAQIPAGGSLAVDRDKFSKYITDTMKNDNNIEVIEKEYTKINKNEITLIASGPLTSENLQLEIASLIGEDYFYFFDAVAPIITKDSIDMSIAFRKNRYEKGETQDYINCPMNKEQYELFYNELVNAQLAPVHLESEKNLKYFEGCMPIEVMAKRGFDTLTFGPLKPAGLRNLDGSNNFAVVQLRQDNAADNLYNFVGFQTNLT;locus_tag=LOCUS_06280;note=WP_011183430.1 methylenetetrahydrofolate--tRNA-(uracil(54)-C(5))-methyltransferase (FADH(2)-oxidizing) TrmFO (Mesoplasma florum) [pid:69.4%25%2C q_cov:99.0%25%2C s_cov:63.7%25%2C Eval:1.5e-109%2C partial hit],internal stop codon at [385187:385189](+),MGA_628
sequence1	MetaGeneAnnotator	CDS	385259	385531	.	+	0	ID=MGA_629;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHQNNFINSPKLLNEFNQLKSNPNIFFAGQITGVEGYVESTSSGIIAAINIARMLKNKELKKFPKDSVMGALQNYIISTDSKNFQPMKAN;locus_tag=LOCUS_06290;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:1.3e-26%2C partial hit],internal stop codon at [385187:385189](+)%2C[385529:385531](+),MGA_629
sequence1	MetaGeneAnnotator	CDS	386433	387248	.	+	0	ID=MGA_630;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDEISAVTMLDDGEELFDQVKNYLPLFIFEDKIFKKENELKRDLKNSEIKVLSPFANQNINIEVLIPYIETKGERFVNYNKATLVRTSEIIYTVLAKLRLILLIHEYLPSLIDSRIWPKKKLFVDVLNLFEEQKEGKFKRILDVENLLVSDFLITEDNINEVLELKYTNIEDFYNKAFFYKIGKIMSLMLGVESTTASKMNYDLGELFKNIIILMGPHPLDHTVQTNEVIEKLYSNFKNMCFDYEKMFENNIQKSKNYISNLELPLKLLR;locus_tag=LOCUS_06300;note=WP_011166620.1 hypothetical protein (Mycoplasma mycoides) [pid:26.1%25%2C q_cov:88.9%25%2C s_cov:47.3%25%2C Eval:8.3e-09%2C partial hit],internal stop codon at [386265:386267](+)%2C[386328:386330](+)%2C[386364:386366](+),MGA_630
sequence1	Aragorn:1.2.38	tRNA	387313	387389	.	+	.	ID=Aragorn_20;product=tRNA-Arg;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00190;note=Aragorn_20
sequence1	MetaGeneAnnotator	CDS	387482	387658	.	+	0	ID=MGA_631;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLKYNHKISNNNKYDLIATTYLSYFVDPVYNHFNRIKLDNFEILECDNHSNAIVTSN;locus_tag=LOCUS_06310;note=MGA_631
sequence1	MetaGeneAnnotator	CDS	387785	388222	.	+	0	ID=MGA_632;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELNLNKIKRFSNYEIKNTEFLKLENKKELDSFVKIIAEVFSDEVSDSNKFYGIFDEYQQISELFVVKYNNEIVGTGHLTHFDNKCTIVDDIAISEKARGKGIATFLMKSLINWSMEKNQNELYLFGSDDAFNIYKKLGFKEDKF;locus_tag=LOCUS_06320;note=MGA_632
sequence1	MetaGeneAnnotator	CDS	388360	388836	.	+	0	ID=MGA_633;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKTDLMFQLFDPFKLILLGMIFTVIYGAIKNLLFSRFVNLKSYRKNLRNNILFEFENTITYIQGLKKIIDHNDVLEAKKALKHFKTISYKPIYLSDFMEVLANALLMEKDISVYSNSVEVILENINTNFKLERERTLKNQKGMMEIKMSESYFTNSS;locus_tag=LOCUS_06330;note=WP_011166878.1 membrane protein (Mycoplasma mycoides) [pid:31.7%25%2C q_cov:100.0%25%2C s_cov:31.0%25%2C Eval:3.2e-21%2C partial hit],internal stop codon at [388834:388836](+)%2C[388894:388896](+),MGA_633
sequence1	MetaGeneAnnotator	CDS	388936	389124	.	+	0	ID=MGA_634;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFISFMINTLIFAFVGIGMYLNKTAVNNYVFVGFIASLLIIAMVHYNVSIFMSSKKMDINIY;locus_tag=LOCUS_06340;note=MGA_634
sequence1	MetaGeneAnnotator	CDS	389847	390014	.	+	0	ID=MGA_635;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKLRLKRAGKKRAAFYRIVASDARVKRDGEYIELIGTYNPINGEVNVQKEIALK;locus_tag=LOCUS_06350;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:6.5e-13%2C partial hit],internal stop codon at [390012:390014](+),MGA_635
sequence1	MetaGeneAnnotator	CDS	390015	390215	.	+	0	ID=MGA_636;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQQGAQPTDTVRNILSKEGVMTDLHNVKLANKNSQPKKEKVAKKPAAKKATSAAKKPAAKKAVSAE;locus_tag=LOCUS_06360;note=MGA_636
sequence1	MetaGeneAnnotator	CDS	390218	390478	.	+	0	ID=MGA_637;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDIFKILDELLKNIIPVEIKYVFKEKYETDQKYEFILLIEKRDSILFKDKKTENLAESITNICNSQASTFSKKIAIDLEVLESYA;locus_tag=LOCUS_06370;note=MGA_637
sequence1	MetaGeneAnnotator	CDS	390471	390881	.	+	0	ID=MGA_638;product=ribosome maturation factor RimM;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081983.1;translation=MLNNLKKIGKIVGTHGLKGEIKFKLENNFILTGDFLNQQIFLENSLKNLDVFEVKKSYFLNKKHIIALENITSIDSAQKLVNNIVYVKKDSEFIEEAFSYIDFKCFYNNKLYGKVIDEMFNGAQDLIKLKTENKEF;locus_tag=LOCUS_06380;gene=rimM;note=WP_004081983.1 ribosome maturation factor RimM (Thermotoga) [pid:31.2%25%2C q_cov:99.3%25%2C s_cov:80.1%25%2C Eval:4.4e-09],internal stop codon at [390879:390881](+),MGA_638
sequence1	MetaGeneAnnotator	CDS	391142	391696	.	+	0	ID=MGA_639;product=tRNA (guanosine(37)-N1)-methyltransferase TrmD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183438.1;translation=MVLMVEPVVNAIESCKKENSLVILTSPQGKTWNQNLAREYALNKEHIILICGHYEGFDERILEYVDLELSIGDYVLTGGEIASIVILDSITRLIDGVIAKDSHLNDSFENNLLDHPVYTKPIEFRGKIVPEVLTSGHHANIEKYRQEGRLKNTLIKRPDLLKKSKLSKADLEFIEKLRKVKGEN;locus_tag=LOCUS_06390;gene=trmD;EC_number=2.1.1.228;note=WP_011183438.1 tRNA (guanosine(37)-N1)-methyltransferase TrmD (Mesoplasma florum) [pid:65.0%25%2C q_cov:99.5%25%2C s_cov:75.3%25%2C Eval:1.5e-67],MGA_639
sequence1	MetaGeneAnnotator	CDS	391699	392100	.	+	0	ID=MGA_640;product=50S ribosomal protein L19;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183437.1;translation=MNMLTKNTKALIDEQLNNNLPNFTSGDTIKVNVKIKEGEKYRIQAFEGVVIKTQGSGISYSVCVRKNSNGVFVERTFPVHSPIIESIEIIKRGRVRRARIYYIRKLSGKAARIKEVINNKTKDTSSMKKAVKK;locus_tag=LOCUS_06400;gene=rplS;note=WP_011183437.1 50S ribosomal protein L19 (Mesoplasma) [pid:76.7%25%2C q_cov:87.2%25%2C s_cov:90.6%25%2C Eval:7.5e-46],MGA_640
sequence1	MetaGeneAnnotator	CDS	392302	392499	.	+	0	ID=MGA_641;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNYYDETLEKIEEAEEQNNLQEAFRIISEELNAPYIPQDFLEKLQKIEIRLIEKANLNKSNSFN;locus_tag=LOCUS_06410;note=MGA_641
sequence1	MetaGeneAnnotator	CDS	392524	392964	.	+	0	ID=MGA_642;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKKLNQDVQLMAFDALRGLNARLIINDIKEYLQNTEIKPEYKSFLILVLIEQAIDEELIVKKNNQSILINPLKYDLLKAQQVFKDLELKMEQVVYYSNPSLFNICENIANTYFYHVFPIFNLEESNLNDLAMAIIMKASNSLGLE;locus_tag=LOCUS_06420;note=MGA_642
sequence1	MetaGeneAnnotator	CDS	393061	393294	.	+	0	ID=MGA_643;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKTAFTEEDFIKYEDPKNVMMQLFGVTCSVCGIDEIDFIDEKAPKTLGQIAQEILEENPEIDDDDLNEMIEPQIEA;locus_tag=LOCUS_06430;note=MGA_643
sequence1	MetaGeneAnnotator	CDS	393432	394445	.	+	0	ID=MGA_644;product=GTPase ObgE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183420.1;translation=MKFVDLAHFNIKSGKGGDGAVSFRHELYVANGGPNGGDGGKGGDVIFIADEGKSSLLDLKLQKFYSAEDGHKGDIKNMHGKNGKDIYIKVPVGTIIYNADNNELLYDFISDGQEEIIAFGGKGGRGNARFANSRNKAPTIFEAGDPGQEINIKAELKVLADVGFVGLPNAGKSTLLRTISNSKPQVADYPFTTLNPQLGVSRDKQGRTFTVADLPGLIEGASLGKGLGHEFLRHIERCKIICHVIDMSGNYATEDVIKNYELIRKELIEYNYNLEKRVEIIVANKMDIDEAQINVLYFKEKYKDKKIIEVSGLNRMNIDQLLLEIGSTLEKVKDIPL;locus_tag=LOCUS_06440;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:3.2e-128],internal stop codon at [394443:394445](+)%2C[394539:394541](+)%2C[394713:394715](+),MGA_644
sequence1	MetaGeneAnnotator	CDS	394891	395142	.	+	0	ID=MGA_645;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPCKSSELDEKCKEELIRDLDLKNVTVDLSKPFEAISESLNNSGINQSKLALANTKARLRMSSLYSMAQTHNYLVLGTDNADE;locus_tag=LOCUS_06450;note=WP_011183419.1 NAD(+) synthase (Mesoplasma florum) [pid:50.6%25%2C q_cov:100.0%25%2C s_cov:34.0%25%2C Eval:1.5e-17%2C partial hit],internal stop codon at [394762:394764](+)%2C[394888:394890](+)%2C[395140:395142](+)%2C[395287:395289](+),MGA_645
sequence1	MetaGeneAnnotator	CDS	395533	395982	.	+	0	ID=MGA_646;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTEVQANKISEFIDNLPEEIADKMFEEFVANISLYFAIVLFGEEIDKNYEALKLDGKSLEEIAKVVKESEIGEEEIYSALMASLQEESDAELFAEDCVQSIAFSPELPEELLAKLKELDIDINDFAMNLIITLKDEFIDFFVNDLDVEE;locus_tag=LOCUS_06460;note=MGA_646
sequence1	MetaGeneAnnotator	CDS	396130	396411	.	+	0	ID=MGA_647;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFMKTLLFSRTLFKVLDFELSLTVVLIIFTIIAAVALGIYLLILFQKNRKFYFEKEEVSGDEFKRLEKFEEQRNYFELEIAKIKKIQRERKK;locus_tag=LOCUS_06470;note=MGA_647
sequence1	MetaGeneAnnotator	CDS	396447	397541	.	+	0	ID=MGA_648;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSGLFNPFKKDNLNQNDHQQNVGNFDFNQNPHQNPIYQNETAMYQKNLIESKNEGYIRPRQRNFENSYHEQAQNIPQYSRSENNGRNRPELVNNQYLQNNQMQYQNQQMYQKPQQYQPMNNYNNYPNQYNNSLKQEYLDFDNNARIDYGNFRDENQYNRMVYSPNNNMNSIQRNENYNNRPLYENYNVPNNNMYYGYNDFSNNNQFYNQNSPYGYNPEIDYAPVSSNNYNPYDKSTYTQRYKSARMMPKEIGKEVRSEKLRIFLIFLIGVVGIITSSIMLSIFYKAGNDGTYMGVKRDQVMYPFFSITLLIFSLGFFAISLTDFGFIYSNVKKYERDLYYGKESVPYFITRNYRSLISRTVYLN;locus_tag=LOCUS_06480;note=MGA_648
sequence1	MetaGeneAnnotator	CDS	397707	397898	.	+	0	ID=MGA_649;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTLIIHILNIVTTRTRKNNIIGYYGYEIIPQQEIKEIRKRANKICMIIFFTTLAIILFLIVIP;locus_tag=LOCUS_06490;note=WP_011183261.1 hypothetical protein (Mesoplasma florum) [pid:41.3%25%2C q_cov:100.0%25%2C s_cov:21.6%25%2C Eval:3.2e-07%2C partial hit],internal stop codon at [397539:397541](+)%2C[397644:397646](+)%2C[397896:397898](+),MGA_649
sequence1	MetaGeneAnnotator	CDS	397954	398523	.	+	0	ID=MGA_650;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDRKINSLYVHIPFCEHICFYCDFVKVKKPQDPKIIEKYLDRIQEELNSYENRLDDIQSIYIGGGTPSCLNSEQTIRMCVILSKYTNKENFEYSIELNPESVTEEKLEIYKKYNINRVSMGVQTFDNELLKKIGRIHDNSIAIEAYKLIRKVGFKNVSIDLMYNLYDQTRKNIYTDLDYIDKLKPDHIS;locus_tag=LOCUS_06500;note=WP_011016482.1 radical SAM family heme chaperone HemW (Fusobacterium nucleatum) [pid:43.4%25%2C q_cov:98.4%25%2C s_cov:50.4%25%2C Eval:9.8e-38%2C partial hit],internal stop codon at [398521:398523](+)%2C[398554:398556](+)%2C[398704:398706](+),MGA_650
sequence1	MetaGeneAnnotator	CDS	398569	398706	.	+	0	ID=MGA_651;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVPENDELFDEIVNKGLEKLGYIRYEISNYALKQKNKSFHNMTY;locus_tag=LOCUS_06510;note=MGA_651
sequence1	MetaGeneAnnotator	CDS	398860	399048	.	+	0	ID=MGA_652;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMGLRLVEGIDLTLDINKEVYKFYEQKITEKINSNLLEISNNRVKCTERGFNILNEILIDFL;locus_tag=LOCUS_06520;note=MGA_652
sequence1	MetaGeneAnnotator	CDS	399050	399241	.	+	0	ID=MGA_653;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKALIVVDYQYDFADPKGKLYVPEGEDIKKNIEKRIKEYKKNNDLVIFSGDFHPQNHVSFSK;locus_tag=LOCUS_06530;note=WP_011183237.1 isochorismatase family protein (Mesoplasma florum) [pid:55.6%25%2C q_cov:100.0%25%2C s_cov:38.7%25%2C Eval:2.9e-13%2C partial hit],internal stop codon at [399239:399241](+)%2C[399410:399412](+),MGA_653
sequence1	MetaGeneAnnotator	CDS	399616	399846	.	+	0	ID=MGA_654;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKEIINKDENNLVFSKIVNEKEIVNFKDIIYNFLNQPQIKIEQKYDLLFSKAIKKNCFKDLVKELESDFKTNFVL;locus_tag=LOCUS_06540;note=MGA_654
sequence1	MetaGeneAnnotator	CDS	399997	400371	.	+	0	ID=MGA_655;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSPNQTLKIKSKKKETEINYKLLLLMYDFNESEEDFFILLNENQKEILNLVLKSNNIEDFLKLRTKIEIDLFKYLPINMMLLQAQLIKNSSKLNLKEKAKLSYSTFMQLFCIFVEENLSRNKMN;locus_tag=LOCUS_06550;note=MGA_655
sequence1	MetaGeneAnnotator	CDS	400553	401509	.	+	0	ID=MGA_656;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDFTQKPDPLNDPEILSKYTRDLTKDAKEGKIDPIIGRDDEIMRVIRILSRKTKNNPVLIGEPGVGKTAIAEGLAQRINKGDVPSVLKDKKILELDMGSVMAGASFLGDYEARIKGIVNAIQKQEGQVILFIDELHLIVGAGKTGNGGGMDVSNLLKPSLARGGIKVIGATTLKEYREYIEKDAALERRFQKVIVREPTIEETISILRGLKERFETYHGVRIHDNALVAAAQLSDRYISDRFLPDKAIDLVDEASATIKTELASVPTELYQIDRKVMQLEIEKAALSKEKDEKSHERLEQAQKELSLLKEKQTEFNDK;locus_tag=LOCUS_06560;note=WP_011183317.1 AAA family ATPase (Mesoplasma florum) [pid:78.8%25%2C q_cov:98.1%25%2C s_cov:43.5%25%2C Eval:3.5e-137%2C partial hit],internal stop codon at [401507:401509](+)%2C[401744:401746](+),MGA_656
sequence1	MetaGeneAnnotator	CDS	401759	402700	.	+	0	ID=MGA_657;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENLIESEKQKLLGLNTQLKKMVKGQNQAIELVSDAIIRSRSGIKDPNKPIGSFLFLGPTGVGKTEVAKSLARNLFGSEKKMLRFDMSEYMEKHSVSKLLGSPPGYVGYEEGGKLTEAVRRAPYSILLFDEVEKAHPDVFNIFLQILDDGRVTDSLGKTIDFKNTIIIMTSNIGSDYLISTPSELIDQDVLNEKLKQFFRPEFLNRIDNIVNFNPLSKEVVKEIILKTLDELKERVFLTHEYILNFTEQTIQKILDEGYDQLYGARPIKRYIERNIETLIARAIVGGEIEEKRNYVIDVNEGKFIITTSNKLN;locus_tag=LOCUS_06570;note=WP_011166789.1 AAA family ATPase (Mycoplasma mycoides) [pid:66.0%25%2C q_cov:100.0%25%2C s_cov:44.0%25%2C Eval:2.0e-113%2C partial hit],internal stop codon at [401507:401509](+)%2C[401744:401746](+),MGA_657
sequence1	MetaGeneAnnotator	CDS	402763	403554	.	+	0	ID=MGA_658;product=heat-inducible transcriptional repressor HrcA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183316.1;translation=MLTERQELILKSIIEEYIKMALPVGSKRIQEVLTIEVSSATIRNESAFLEEKGFLEKAHTSSGRVPSTKGYRYYVDNLMESNNIDDIKLQIDEIFKKRGSTIDEILEQTSLILSEMTKLATVVATSEQNDELLLSKVELVPISSKTAIVIFIISNGTIQNKTINLESVSLEELKLSIDLFNERLINSKISEIQTKSQAIIPVLKQQVKKYEFILQTLVGALIHTDSNKSKTRGVKYLLENPEFNDPNKIKNIIEFIENASPFA;locus_tag=LOCUS_06580;gene=hrcA;note=WP_011183316.1 heat-inducible transcriptional repressor HrcA (Mesoplasma florum) [pid:49.0%25%2C q_cov:99.6%25%2C s_cov:76.9%25%2C Eval:6.3e-67],internal stop codon at [403552:403554](+),MGA_658
sequence1	MetaGeneAnnotator	CDS	403785	404369	.	+	0	ID=MGA_659;product=nucleotide exchange factor GrpE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183315.1;translation=MEKQKQKEILNLFENVKKELKIKSKHTKESKEEKEEELSAIEKLELEFVALNEEIEQLKEAKLIAIADNQNTVRRFQNESILVRKYGGEKLASELIPAIDMFRGVLKSTPDNPEIKNYLMGFEMIINQIDQGLTNAGVSMINVKSGDDFNPELHSAIEQIKSEEFETGKIVTVVSNGYKLHDRVIKHAAVKVAE;locus_tag=LOCUS_06590;note=WP_011183315.1 nucleotide exchange factor GrpE (Mesoplasma florum) [pid:41.6%25%2C q_cov:79.4%25%2C s_cov:80.7%25%2C Eval:8.8e-29],MGA_659
sequence1	MetaGeneAnnotator	CDS	404401	405033	.	+	0	ID=MGA_660;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKERIIGIDLGTTNSCVAIMEGGQPMVLENPEGQRTTPSVVAFKNSDIIVGGAAKRQSVTNPNTAISIKRDMGTTKKRNLEGKDYTPEQISAEILRYLKKYAEDKIGSKITKAVITVPAYFNDAQRKATKDAGKIAGLEVERIINEPTAAALAYGIDKQDKEMKVLVYDLGGGTFDVSLLELADGTYDVLATSGDNELGGDDFDQKIMD;locus_tag=LOCUS_06600;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:1.5e-96%2C partial hit],internal stop codon at [405031:405033](+),MGA_660
sequence1	MetaGeneAnnotator	CDS	405085	406203	.	+	0	ID=MGA_661;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MALQRFKEEAEKAKINLSSQVETEINLPFIAMNQNGPVNFSTKLSRAEFEKMSKDLVERTRKPVEDALKEAKLKATEIDQVLLVGGSTRIPAVQELVKSLLGKEPNRTINPDEVVAMGAAIQGGVLAGDVTDVLLLDVTPLTLGIETMGGVMTPLIQRNTTIPTEKSQIFSTAVDNQPAVDINVLQGERPMAADNKSLGQFQLTGIKPAPKGTPQIEVTFKIDVNGIVSVTAKDKATNEEKTITISNSGSLSDAEIEKMVKEAEENQEADNKKRKNIELKNKAESYLNIIESSTTEAGASMNEEQKKQSEDMAKEIRELIAKEDYETLEKKMNELEQAMKMASEMAAQQAQQAQSEPKKEDSIEENKDKESK;locus_tag=LOCUS_06610;note=WP_011183314.1 molecular chaperone DnaK (Mesoplasma florum) [pid:75.5%25%2C q_cov:98.7%25%2C s_cov:61.5%25%2C Eval:3.5e-147%2C partial hit],internal stop codon at [405031:405033](+),MGA_661
sequence1	MetaGeneAnnotator	CDS	406258	407385	.	+	0	ID=MGA_662;product=molecular chaperone DnaJ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166785.1;translation=MAKKDYYEILGIAKSASEDEIKKAYRKLAKKYHPDICKEPNAEEKFKEATEAAEVLLDANKRQAYDQFGHEGLSGMGSGFGGFNGGGFGDFFSNMGGASDFFSDIFSNFFGGRGGNSSRKRSSRGKDIVINVSLSLKELLFGVDKEITLDLISKCDDCDGVGAKNKSDIVDCEVCNGHGVVTILQDMGIAKFQTQQPCPKCKGHGKENKNPCKSCRGEGTVIKKEKVTMPIPKGLTPDQQIVLRNAGNYSVEGGERGHLYADVHLKASKNVTIVNDFDIKFKFDISYLDALLANEISIKTLDGDISIKIPKGIKNGEIINVKNHGLYKGIKSSHRGNLLLEVNIVIPKELDKNEKQKIESILKSTDFKVTNNLEE;locus_tag=LOCUS_06620;gene=dnaJ;EC_number=1.8.4.-;note=WP_011166785.1 molecular chaperone DnaJ (Mycoplasma mycoides) [pid:46.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.1e-91],MGA_662
sequence1	MetaGeneAnnotator	CDS	407437	407556	.	+	0	ID=MGA_663;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYNQLVGVSMSEKIKVLKIKKSLQDEIEETTLDFPSKGI;locus_tag=LOCUS_06630;note=MGA_663
sequence1	MetaGeneAnnotator	CDS	407755	408714	.	+	0	ID=MGA_664;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKPKNSNIRKEIINMRILSYEKEQKDKEFLLNKLNVDLKPHNNFKNYNLAKKENNFKYIDSKIVNNSLEAKINNLEKQIFSINKQLLKNSENKNEFEVSKILKQLKNQSSTNSNLNSSSDSKEKFEKKGFNKSVLEPVIKIGSQKTNEPRFNSNYVKTFEKVKEIKSNDKNLINAKEKNQNKELENKEKNINMEKNITVKFNDKSHKQNNDKSLMNQINKKTLYNEMNTEELKTFIKKENNNYSIPVVNNLDYTLANTIDDLEKAIRNLELEKKKIKEIFFDETGETTELLESLQRNAKRNKKSSSLNTSIDFDSFEN;locus_tag=LOCUS_06640;note=MGA_664
sequence1	MetaGeneAnnotator	CDS	409193	409921	.	+	0	ID=MGA_665;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGHYAGVRLNEETKEFELIRGIDENKDQSYFLSELNQNQLSKTLFPLQTYEKSQIREIAKKYKLITAEKKDSTGICFIGERNFTKFLQNYIPNQPGDILDIKTNKKISEHIGVMYYTIGQRKGLNLGGQKEPYYVAEKDIENKILYVAPLSDESYLESKSCIIENFNFISNYKNYFKEDKFECTAKFRYRQRDIKVEVEVLKEDKILITYKEPVRAVTEGQQAVLYLNELCLGGGVIGKIFK;locus_tag=LOCUS_06650;note=WP_011183311.1 tRNA 2-thiouridine(34) synthase MnmA (Mesoplasma florum) [pid:65.5%25%2C q_cov:97.9%25%2C s_cov:63.6%25%2C Eval:1.8e-89%2C partial hit],internal stop codon at [408908:408910](+)%2C[409052:409054](+),MGA_665
sequence1	MetaGeneAnnotator	CDS	409974	410336	.	+	0	ID=MGA_666;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLSSSISTIVIGVVVLVVLVFVIVSSITSKKAQKVEQQKRKKVVKEEIKNYLAKTQNIKNIKVEYEKVYARKGPEYKYRDVFDVVVQMYEPKTNKLISTNAYEVEGITTKSGKNNYVTA;locus_tag=LOCUS_06660;note=WP_011183310.1 membrane protein (Mesoplasma florum) [pid:61.2%25%2C q_cov:81.7%25%2C s_cov:47.8%25%2C Eval:7.2e-28%2C partial hit],internal stop codon at [410334:410336](+),MGA_666
sequence1	MetaGeneAnnotator	CDS	410864	411421	.	+	0	ID=MGA_667;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKSDNELTKSELAQKEILIKQMEDINGFEISGLPAETIVDGNAVGEAAREYFIEELYKENIKNKTNYEYLDFQEKSYQESIEETKEALRDNKIKYLFEPSFEYMNEMLKVRCDILINHGNRHVTIVEFKASTTSKAVHFFDVMYQKKVLEKNGYIIDDVKIGLINKNYVRGIGIDENRSNFSII;locus_tag=LOCUS_06670;note=WP_011183309.1 DUF2779 domain-containing protein (Mesoplasma florum) [pid:41.7%25%2C q_cov:90.8%25%2C s_cov:23.4%25%2C Eval:3.9e-28%2C partial hit],internal stop codon at [410714:410716](+)%2C[410816:410818](+),MGA_667
sequence1	MetaGeneAnnotator	CDS	411533	412063	.	+	0	ID=MGA_668;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=METSKKDVGINEMIIGMEENGFDFDEKILEISKYFQNSENIFSKECEKVAFEYAKKSYKMKKAICHHVVPYYDKEKFNLYELTSFKPKAAIIHSRKSDNVYIENISNFKDELFFDKNKLLFGQDELRILQNVKSYLKNGSLSPAEIIKENSYDTLINLLKDYYKYPVYMYDFETVK;locus_tag=LOCUS_06680;note=MGA_668
sequence1	MetaGeneAnnotator	CDS	412172	412414	.	+	0	ID=MGA_669;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEHLNFIANKQEDPRPEFLFNFVKNCFAYGPGIYVAYNKSFERSVIKNLIYSYPEFSAPLEFIYNNTIDLMEFFKKAKNN;locus_tag=LOCUS_06690;note=WP_011166633.1 DUF2779 domain-containing protein (Mycoplasma mycoides) [pid:48.8%25%2C q_cov:100.0%25%2C s_cov:11.2%25%2C Eval:7.8e-19%2C partial hit],internal stop codon at [412061:412063](+)%2C[412088:412090](+)%2C[412412:412414](+),MGA_669
sequence1	MetaGeneAnnotator	CDS	412484	412732	.	+	0	ID=MGA_670;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSYKDLKINKGDKASQTFRQFLDNVIDQQEYEIILKEDMLKYCDRDTLAMIVVLQRVVDIVKQYNPDFIKDINRLLEEEKNV;locus_tag=LOCUS_06700;note=WP_011183309.1 DUF2779 domain-containing protein (Mesoplasma florum) [pid:57.8%25%2C q_cov:78.0%25%2C s_cov:9.0%25%2C Eval:3.7e-16%2C partial hit],internal stop codon at [412412:412414](+),MGA_670
sequence1	MetaGeneAnnotator	CDS	412725	413357	.	+	0	ID=MGA_671;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKVVFCGTPQISVEILKALEKLNVEIVGVITQPDKQVGRKKEIKFSEVKEYCLIKKYKLFQPYKISDIEEELKILKPDFMLTCAYGQIISDSILKLFKNCINTHASILPKYRGGSPIQFAIMNGEKKTGISLMKMVKKMDAGEVYYQEEIDIDETDDSATLFAKMAVLGKKMIKEKLMDIFDGKIVGQKQDESKVTFAYNLKNEEEKIN;locus_tag=LOCUS_06710;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:1.2e-61%2C partial hit],internal stop codon at [413355:413357](+),MGA_671
sequence1	MetaGeneAnnotator	CDS	414556	414891	.	+	0	ID=MGA_672;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEMLKINEAREAEGKSKYDSIGYYQPPTVDDISKGYKNAKKVGAKTLILPGFHHAGDNLDQASKLIKENNGNAIFLDGSPVDSKGQKISNSVGFLFRADISAFYAGMSSII;locus_tag=LOCUS_06720;note=WP_011183565.1 xylose ABC transporter substrate-binding protein (Mesoplasma florum) [pid:44.2%25%2C q_cov:82.0%25%2C s_cov:19.3%25%2C Eval:3.0e-13%2C partial hit],internal stop codon at [414469:414471](+)%2C[414889:414891](+),MGA_672
sequence1	MetaGeneAnnotator	CDS	414982	415554	.	+	0	ID=MGA_673;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHGYLASIQVYNQLKSEDAGKTTIKNLLRIANSKLTDEEATNKMDAVNVKRANSQSNVNSGSAQTDYFTGTFNAGEGKDISTKLINTDKANVVMGVAGPQTGDLLGVIKANPSQKTMVVGVDSDQVNAYTDSSDKFITSAEKDLVAATIAGAAKTTYLNNTDFGKSAKDYIDKAIINDDQQKEIEANNGS;locus_tag=LOCUS_06730;note=WP_011183565.1 xylose ABC transporter substrate-binding protein (Mesoplasma florum) [pid:34.3%25%2C q_cov:98.4%25%2C s_cov:39.4%25%2C Eval:3.1e-15%2C partial hit],internal stop codon at [414889:414891](+)%2C[415552:415554](+),MGA_673
sequence1	MetaGeneAnnotator	CDS	415867	416163	.	+	0	ID=MGA_674;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKYAVEMENISMIFNNTIIANKDVNFRVKKNEIHALVGENGAGKSTLMSILFGIYEPTAGQIKINGKVEMISNPIKASKLGIGMVHQHFKLVDIFPL;locus_tag=LOCUS_06740;note=WP_011183564.1 ABC transporter ATP-binding protein (Mesoplasma florum) [pid:78.4%25%2C q_cov:99.0%25%2C s_cov:19.0%25%2C Eval:7.6e-38%2C partial hit],internal stop codon at [416161:416163](+),MGA_674
sequence1	MetaGeneAnnotator	CDS	416176	416487	.	+	0	ID=MGA_675;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGSEELLAKTIINSKKIKEDIKEIMEKYNFNVDLNQKASSATVGAQQRTEILKILYRNADILVFDEPTAVLTPDEIDGLLQVMKEFQAAGKTIIFITHKMAEI;locus_tag=LOCUS_06750;note=WP_011183564.1 ABC transporter ATP-binding protein (Mesoplasma florum) [pid:61.2%25%2C q_cov:100.0%25%2C s_cov:20.2%25%2C Eval:3.2e-28%2C partial hit],internal stop codon at [416161:416163](+)%2C[416485:416487](+),MGA_675
sequence1	MetaGeneAnnotator	CDS	416581	417396	.	+	0	ID=MGA_676;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVGRKLVDIKNDYSQPKEEVVLKVDNISVKKSSNHKIMGLKNFSLKIRAGEIVAIAGVEGNGQQELVNAITGLSKLEEGNIFIKDNNISKESIANRYKKYKMSHIPEDRHKHGLVLDQNLLENMVLQDISTKKFSKYGILNFSAIQTYGQKILLNYDVRNAQSGFAIARQLSGGNQQKAIVGREMTRESDLIIIFQPTRGLDVGSIEFIHSQILEAKKEGKAILLVSYELSEVMALADRILVINSGELVGELPGKNVKKEEIGKLMLGKGG;locus_tag=LOCUS_06760;note=WP_011183564.1 ABC transporter ATP-binding protein (Mesoplasma florum) [pid:62.5%25%2C q_cov:98.5%25%2C s_cov:52.3%25%2C Eval:6.2e-97%2C partial hit],internal stop codon at [416485:416487](+),MGA_676
sequence1	MetaGeneAnnotator	CDS	417524	417922	.	+	0	ID=MGA_677;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGAIIVFAQNFNGLSFIFTSFGYSFDSDTIDETLNYFTVFIFMGLGLALGFKVGLFNMGGSGQAILGMALAIAIIGAKAKAEGLTDIKYIDKNFIIVIFLVFILSGVLISTMAGLFKVFFNIHEVVTTVMLN;locus_tag=LOCUS_06770;note=WP_011183563.1 ABC transporter permease (Mesoplasma florum) [pid:38.6%25%2C q_cov:99.2%25%2C s_cov:21.1%25%2C Eval:2.1e-19%2C partial hit],internal stop codon at [417920:417922](+)%2C[417929:417931](+)%2C[417944:417946](+)%2C[417971:417973](+)%2C[418025:418027](+)%2C[418049:418051](+),MGA_677
sequence1	MetaGeneAnnotator	CDS	418067	418252	.	+	0	ID=MGA_678;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLLSVSIIYLLLKFTTFGYKFKVVGKQPQAAMYAGIKNRQYLILTTALQGLFIGLGAVFY;locus_tag=LOCUS_06780;note=WP_011183563.1 ABC transporter permease (Mesoplasma florum) [pid:48.3%25%2C q_cov:95.1%25%2C s_cov:9.5%25%2C Eval:6.8e-10%2C partial hit],internal stop codon at [417920:417922](+)%2C[417929:417931](+)%2C[417944:417946](+)%2C[417971:417973](+)%2C[418025:418027](+)%2C[418049:418051](+)%2C[418250:418252](+)%2C[418376:418378](+),MGA_678
sequence1	MetaGeneAnnotator	CDS	418574	419500	.	+	0	ID=MGA_679;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MESNIKISAIKKEMRTIFSRNDILEIKEQIEKQKSELRSLKEKNKKSLKNETEINSNSKEQILVKEEFIKKLELQLKEEINNYVGIYKSKTKMIKGELLLNRKSLLEEYENNSYKGLNKKVKNELSLKYFSIMDQFVLMQIERNELVKNLKRELKLTKELDSRNNIKEQIKETRVSYDKKAKDIINEYNKLKKSKFEKLKEAQREAKLYLNEINIKFEDVLKNSKLDNKTESLEISKIKDNINIVENKLKSINLDKEQKETLNSELSHLKLDLKSEVYKNSMNNKRNNLKLKIEKYKQELEVVDKYGC;locus_tag=LOCUS_06790;note=MGA_679
sequence1	MetaGeneAnnotator	CDS	419490	420173	.	+	0	ID=MGA_680;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183562.1;translation=MAASLMENFSLYFAVFALAATSGLIAERSGVVNVGIEGFMIIGGLLASLVGSSLEPIAGNGSQIIALLVGALFGGLLSLLHSFASIKLKADQIVSGTAINLLAQGFGLYIATTGSTFINGKYTIIALDSLNIISIYLIITIIITLSAGLYFTFTKPGMRHIAAGENPNALEAAGVNVIKYRVLAVFVSGCIAALAGGIYIITVKGSYFRGTADGFGFLALAIMIVGQ;locus_tag=LOCUS_06800;note=WP_011183562.1 ABC transporter permease (Mesoplasma florum) [pid:44.3%25%2C q_cov:95.2%25%2C s_cov:75.3%25%2C Eval:6.5e-43],internal stop codon at [420171:420173](+)%2C[420261:420263](+)%2C[420339:420341](+),MGA_680
sequence1	MetaGeneAnnotator	CDS	420658	420954	.	+	0	ID=MGA_681;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSVNDLRPGSTFLYDGNIFVVLENSFSKTGRQQGKVTVKVKNLRTGARVEITFTGGEKVEKALIEKKDMQFLYNDGTNCVLMNIETYEQVEIASSKLD;locus_tag=LOCUS_06810;note=WP_011183306.1 elongation factor P (Mesoplasma florum) [pid:74.5%25%2C q_cov:100.0%25%2C s_cov:53.0%25%2C Eval:4.0e-39%2C partial hit],internal stop codon at [420952:420954](+),MGA_681
sequence1	MetaGeneAnnotator	CDS	420982	421215	.	+	0	ID=MGA_682;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKMTEYNGEILGITIPEKIELTIVEAEPAVKGDTTSGAQKKAKVETGLEITVPLFIKEGEKVLINTTDGKYSGRAN;locus_tag=LOCUS_06820;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:1.8e-26%2C partial hit],internal stop codon at [420952:420954](+),MGA_682
sequence1	MetaGeneAnnotator	CDS	421240	421530	.	+	0	ID=MGA_683;product=30S ribosomal protein S20;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183305.1;translation=MYISIERNSRGSLEIDEKLLSKIIEFDVRSNAKGFKDIQASVSIHQETSLFIVVRIYTMEKGLFLMDGVKVTSIINDSIHKTLGIKPKNIAFAFIK;locus_tag=LOCUS_06830;note=WP_011183305.1 30S ribosomal protein S20 (Mesoplasma) [pid:37.8%25%2C q_cov:97.9%25%2C s_cov:98.0%25%2C Eval:1.8e-10],MGA_683
sequence1	MetaGeneAnnotator	CDS	421639	421863	.	+	0	ID=MGA_684;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAAAKKNTTGKETINNKKPATSEYKNQKFGPKALALINKYNLQTDDNYKKLISSYERINLLPKNDPRRPNLVSL;locus_tag=LOCUS_06840;note=MGA_684
sequence1	MetaGeneAnnotator	CDS	421981	423534	.	+	0	ID=MGA_685;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSPDEKRKDLLLKLSPGVISTNRNTKEDILSRAGYVNQNRTDQFNFTAVSKSGQNIYEIENLLSSTVEEKTISQPTSILQNAFTVPPKKEIIEEEISNSASISTPFVDEETEIMTSKVVPDPNLLEFINEGKASSKISTEEIKNLKLEEQQKEEKSLNLKNDSKDDSMEEYVARENMTREEFNRENNIQIDEKQIEMENQNLAPIELGSDFFEKHLVQNLNSKKYTKADKVLAKREYTIKDEGIDPEKRNILSKEGFEINIDEDKTDLSGNRSYEYKNNVSRSKPYHEENPIGYYPMTYDLTKRPIMQELIDSHEREGQVFDEMKEKIEFLRELRNERRHRINMMKIERANSYIVVRARRLAEARELRRLKRREDFNLKSMEKAERLRRLQERQKLIELMKERQLKRSEEKRVAAVLKLERERRLERDAKYRTEIASIDAQIRYEQEMIKRTELKMKAYFTKVHDDELFDKSLKVAKSTTPNYKSIEDKAEIIHQLEEKKRKERVEKITKKFIKNIK;locus_tag=LOCUS_06850;note=MGA_685
sequence1	MetaGeneAnnotator	CDS	423648	423857	.	+	0	ID=MGA_686;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKKNQIKSEQDFQLLSPKVKNRIKSLIEKRLNSQTIMLFAKEYEGYDFEFRETLIEYINYLMKIEREK;locus_tag=LOCUS_06860;note=MGA_686
sequence1	MetaGeneAnnotator	CDS	424011	424556	.	+	0	ID=MGA_687;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKQKKVIQRSEILKSFEVSNLNKAETQEPKIQQKKEVKKEKIINKELKSENIAKKEKKNQKKELSLLDKMLLEAKAREEKEAKEAKELIEKELKAKKLEEEKKLAEERRLAEEKKQEAIRKAELKKQKLLEKEQKIKEQKIKQKDENSKQMKSKTINLADIKPTNIKRDYEKEQAEKEKL;locus_tag=LOCUS_06870;note=MGA_687
sequence1	MetaGeneAnnotator	CDS	425238	425423	.	+	0	ID=MGA_688;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIQECDFEITNFDYKENFSKSFLNSNFKKTRLFLYKKISKKLENKVIKKIKFYTNCLENI;locus_tag=LOCUS_06880;note=MGA_688
sequence1	MetaGeneAnnotator	CDS	425442	425696	.	+	0	ID=MGA_689;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFTNLFNEISGITEAPEYFFYKYYFRFISEIRNKMIEKLCQIIIPSIIANNLTDENIKKEPTSNEYEKNIFITLEKISLFAEEF;locus_tag=LOCUS_06890;note=MGA_689
sequence1	MetaGeneAnnotator	CDS	425805	425990	.	+	0	ID=MGA_690;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKKKMLRENIIILAKKYKIPFDGNVIETIKLLEKYSNSVEKDVINSIKLLIFAYIDEINF;locus_tag=LOCUS_06900;note=MGA_690
sequence1	MetaGeneAnnotator	CDS	426269	426394	.	+	0	ID=MGA_691;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSANMEIPGFRKGKIPKEKIEQYLTPVKYLNAAVQSVIEKA;locus_tag=LOCUS_06910;note=MGA_691
sequence1	MetaGeneAnnotator	CDS	426482	427453	.	+	0	ID=MGA_692;product=trigger factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183304.1;translation=MHFVFDLKPEIKIGNYKGIKSKDLVKEEIKVEKEDLDKAIDQYRERFVMEKEKEKDQKIAKGDSVIFDFEGFIDNVAFKGGKGIDFKLVIGSGQMIPGFEDKMIGKTLGKSSINVTFPEDYTPELSGKKAEFKLDIKEIKERVLPAKDDELVKDLNLPGIKTFKELEASLKKQILEQKLSQTKNIFVNNVIDIIRNDSKIEIPKSAINKEIDNLYKEFEAKVQSQKLTIKEYKKQTGLSDQDIRNELFQDAKKRIESYLITDKVRNTEKFEVSKEDMEEKYNSLAKTFGVEPDFIKNSLIPEVQIKEEIIREKIVDFLYSNNG;locus_tag=LOCUS_06920;gene=tig;EC_number=5.2.1.8;note=WP_011183304.1 trigger factor (Mesoplasma florum) [pid:54.8%25%2C q_cov:100.0%25%2C s_cov:75.1%25%2C Eval:2.6e-95],internal stop codon at [426209:426211](+)%2C[426392:426394](+),MGA_692
sequence1	MetaGeneAnnotator	CDS	427552	427785	.	+	0	ID=MGA_693;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKLPMLITRGSYIYPTFDQVLEIGRDKTTLAVKESVEKYEGKILMVSQKKPLEDEPKIEDLFKFGVLAEIKIKKE;locus_tag=LOCUS_06930;note=MGA_693
sequence1	MetaGeneAnnotator	CDS	427945	428427	.	+	0	ID=MGA_694;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISSQDEFPSEVEEIINSAPKEVDPNFIVDSAANLMPFMPIEKKQAVLEELDPVKRIEIINDFLDEKRQSADIESSISKKIKSRVDEQQREFYLREKLKAIKEELGDMDGEGDDLAKYKKRLETEPFPENIKKRILSEIDKCEGMPAASSEANITRTYID;locus_tag=LOCUS_06940;note=WP_020862721.1 endopeptidase La (Mycoplasma mycoides) [pid:32.2%25%2C q_cov:84.4%25%2C s_cov:18.6%25%2C Eval:4.4e-21%2C partial hit],internal stop codon at [427783:427785](+)%2C[428425:428427](+)%2C[428443:428445](+)%2C[428446:428448](+),MGA_694
sequence1	MetaGeneAnnotator	CDS	428473	429180	.	+	0	ID=MGA_695;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFAKNILDKHHYGLEKVKERIIEYLAVKQNTNKVKGQIITLVGPPGVGKTSLAKSIAESMGREFIKMALGGVKDESEIRGHRKTYIGAMPGRVIQGMKKAGVKNPVFLLDEIDKMASDYRGDPASAMLEVLDPEQNSKFSDHYLEEEYDLSDVVFIATANYPENIPEALYDRMEIIELSSYTEIEKMKIAEEYLIPKVLDDHAVSKDQVIFTKDSINEIIKHYTREAGVRQLER;locus_tag=LOCUS_06950;note=WP_011183303.1 endopeptidase La (Mesoplasma florum) [pid:76.6%25%2C q_cov:100.0%25%2C s_cov:29.9%25%2C Eval:1.4e-104%2C partial hit],internal stop codon at [428425:428427](+)%2C[428443:428445](+)%2C[428446:428448](+)%2C[429178:429180](+),MGA_695
sequence1	MetaGeneAnnotator	CDS	429214	429927	.	+	0	ID=MGA_696;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNKEIETLKVTPKVVNELLKKRIFEHTEKENEAQVGVVTGLAYTQFGGDILPIEVNHFPGKGGLVLTGKLGDVMKESATIAYDFVKSNYKAFGIPKEVFNENDIHIHVPEGAVPKDGPSAGVTITTAIVSALTNKPVPKEIGMTGEITLRGLVFPIGGLREKSISAHRSGLKKILIPFKNTKDIEDIPEEVRKELEVVPVQKYSEVYKNVFGIKLNDLVRELPISTSSKEETKKTH;locus_tag=LOCUS_06960;note=WP_011183303.1 endopeptidase La (Mesoplasma florum) [pid:67.8%25%2C q_cov:90.3%25%2C s_cov:27.2%25%2C Eval:1.3e-81%2C partial hit],internal stop codon at [429178:429180](+),MGA_696
sequence1	MetaGeneAnnotator	CDS	430000	430158	.	+	0	ID=MGA_697;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKGKNNMDQSFSTTNMPLSDANITNPKEDSNEYIPDDKVYKLVKEKNKLKFS;locus_tag=LOCUS_06970;note=MGA_697
sequence1	MetaGeneAnnotator	CDS	430320	430553	.	+	0	ID=MGA_698;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAITASDLVLLYICTYIRNSCSIMLAVRIEVELRNLTIKRLLEQDISYYSDKKIGKLMTKLVGDTNVIGNEISGMIA;locus_tag=LOCUS_06980;note=WP_011183432.1 ABC transporter ATP-binding protein (Mesoplasma florum) [pid:45.3%25%2C q_cov:83.1%25%2C s_cov:9.7%25%2C Eval:1.8e-10%2C partial hit],internal stop codon at [430551:430553](+)%2C[430611:430613](+),MGA_698
sequence1	MetaGeneAnnotator	CDS	430617	431015	.	+	0	ID=MGA_699;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MALIASLCVYSLALLVILFSLRYQKKVKTVREIISDVNGDVIDRIGAIKLVKATGTRRYEESRLNALHEPYIKAFKPISRIDGTLLAMLIASDVLINLIMITVAISFFNNSDMMNVTLPAFISAMVGLTRPL;locus_tag=LOCUS_06990;note=WP_011166618.1 ABC transporter ATP-binding protein (Mycoplasma mycoides) [pid:39.2%25%2C q_cov:71.2%25%2C s_cov:15.6%25%2C Eval:1.0e-13%2C partial hit],internal stop codon at [430551:430553](+)%2C[430611:430613](+)%2C[431013:431015](+),MGA_699
sequence1	MetaGeneAnnotator	CDS	431127	431525	.	+	0	ID=MGA_700;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFDENIVKIEFRQVKFNYPEKPEVNIVPELNITLEKGKSYAFVGETGSGKSTISKLLLRFYDPTEGCVLVNDKNIKDFNLKSYLSHVGYVEQEPSIIFGDVYDNVRYGHFQATDEEVHEACKKAQIDQIINS;locus_tag=LOCUS_07000;note=WP_011183322.1 ABC transporter B family permease/ATP-binding protein (Mesoplasma florum) [pid:65.6%25%2C q_cov:98.5%25%2C s_cov:21.3%25%2C Eval:9.9e-46%2C partial hit],internal stop codon at [431013:431015](+)%2C[431523:431525](+),MGA_700
sequence1	MetaGeneAnnotator	CDS	431562	431876	.	+	0	ID=MGA_701;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLSGGQKQRLVIARILLRNPELLILDEATSALDNIVEKEIQAQLNELMKEKTSVIIAHRLSTIKDVDQIFVLAPGKEIVQQGTYKELIKTAGKFKDLHDAGNA;locus_tag=LOCUS_07010;note=WP_011183432.1 ABC transporter ATP-binding protein (Mesoplasma florum) [pid:75.7%25%2C q_cov:99.0%25%2C s_cov:15.6%25%2C Eval:6.5e-37%2C partial hit],internal stop codon at [431523:431525](+),MGA_701
sequence1	MetaGeneAnnotator	CDS	431935	432696	.	+	0	ID=MGA_702;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKPLSFLLRPNSLKDIVGQSHLINNKYGIISKMVEKKFLTNLIFYGAPGVGKTSMAISIANDLNTKYELFNASNDKKEKLQKLIDSSNHEEQLILIIDEIHRMNRNIQDYLLEYIESKKVIVFLTTTENPYFVINPAIRSRCTILKLKEINSIEMNEGIKRILKNNNISLNIEENAFENLCELANGDLRVALNAVEILTTLYSEQIINREIISSIFDQAVTKGTGEGDEYHDLKSALQKSIRGSDVDAALHY;locus_tag=LOCUS_07020;note=WP_011183302.1 replication-associated recombination protein A (Mesoplasma florum) [pid:52.6%25%2C q_cov:100.0%25%2C s_cov:61.5%25%2C Eval:8.0e-72%2C partial hit],internal stop codon at [432694:432696](+),MGA_702
sequence1	MetaGeneAnnotator	CDS	432706	433056	.	+	0	ID=MGA_703;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQIGDYEVLMRRMTIMAYEDIGLANPTIPLRVFQACQIFRQIGMPEGRIILGLAIIEMALSEKSNSSYMALEKALEDVQQGLAPPIPMYLRDNHYKNAHKLGSGIGYKYPHNYEND;locus_tag=LOCUS_07030;note=WP_011183302.1 replication-associated recombination protein A (Mesoplasma florum) [pid:68.5%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 [432694:432696](+)%2C[433054:433056](+),MGA_703
sequence1	MetaGeneAnnotator	CDS	433381	433800	.	+	0	ID=MGA_704;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVGIVFITTKRTFTLEILDNDTSTQIRYLPFDSYSLQKIQLQFSKNSGGLHYVSLQNDSFGNGVTFATPSREVAQHFVDTLSGRTNGEIEILPESDNPLLAENEKKQVIDEDLNKAKEKVPHKFEEKHEEIKPMKEQDG;locus_tag=LOCUS_07040;note=MGA_704
sequence1	MetaGeneAnnotator	CDS	434102	434548	.	-	0	ID=MGA_705;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIISSSKNGMYLKLDNSTPINENIKGTKAAMYALGTDYDEKGNQKPLFRDKSLLLGLENIFDDQVTIGILDDLTRGFQEIIKINNNISNSIYKKLIENANFETKIISSSNIDTDKEQSITYKTVYTNPFNETKTSYEINLILKINQDS;locus_tag=LOCUS_07050;note=MGA_705
sequence1	MetaGeneAnnotator	CDS	434627	434809	.	-	0	ID=MGA_706;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLYSIFNQNIVLSMKISDIIDLIYKNIASNGNEQKINTDKLKNGLNILSNELVKDNYTL;locus_tag=LOCUS_07060;note=MGA_706
sequence1	MetaGeneAnnotator	CDS	435056	435751	.	-	0	ID=MGA_707;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEELVNKILTQDKSEDVLTGQMIINSSLNRFHNILARVTKQENKVINSSKLYDTLSKNFDKDLGDLMGDFLKGLNLNLKAFDFKALLLSIIKSPENISDILFIISGLLKYVSSLDFSDFIPENDDKLFDYTKSNDNFLKELNNKTLKDNSFKIKMLFKNLSLITNVKTNANGKQLQKLFYMLFNSGKKVTEIDENINLLTLINKLSSPIFGSNSKNNYSSLLYGIGKGIAI;locus_tag=LOCUS_07070;note=MGA_707
sequence1	MetaGeneAnnotator	CDS	435800	436564	.	-	0	ID=MGA_708;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKKVFIKNKNIIVILGDKMKKLLSLFSILSITGSTFTVASCSMVNYKVQSIKNKVNNLVQVSSTLLRGSIIQNASQNSNSGLAYDSNYLNSLILNSKSNNLIPNFKTDAQTTMKNLNETYFGSQDLNRDSINNLNKDFLTNNVKSPTSSLDSFSSNFILFSSVLKTNGGIHPSISGLIQGLLPTLNLKNTLAETLNSESLKSIANLIQKTNEPLSETLGFLQQSNIFYAVLKNFFNSDFENSRKENDTENIEK;locus_tag=LOCUS_07080;note=MGA_708
sequence1	MetaGeneAnnotator	CDS	436711	437175	.	+	0	ID=MGA_709;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKSIFLYLKQGIKGIMKVKIQFIVIIILTFLATFILSATLSSTKRISDDYNNTMSKMESFNYVNQKVVDINSSDDMTTDIIAPMDIMNSQFIYSIDSNDLSSLNNRALEINYNLSFFPESNLSNYNQETFLTKTFKDPKVQEAFLLMILDSEY;locus_tag=LOCUS_07090;note=WP_011166641.1 ABC transporter permease (Mycoplasma mycoides) [pid:35.4%25%2C q_cov:92.2%25%2C s_cov:8.0%25%2C Eval:1.2e-14%2C partial hit],MGA_709
sequence1	MetaGeneAnnotator	CDS	437290	437625	.	+	0	ID=MGA_710;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANQNKKVISTFYTYTIETLKQNYLEDLFLDNEKTPNYIKNTLFYELKNKGFITRENFKMNMAKYEYDQNNENIINISDNGDNDIYNRYLYFSLESYLRQIIRATTEYPAY;locus_tag=LOCUS_07100;note=MGA_710
sequence1	MetaGeneAnnotator	CDS	437989	438312	.	+	0	ID=MGA_711;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRGSLTQLVVTKKNNKVINVDKTFSTNYLKHVEFTSIEKELGDSSNFDDLDYYENYTYDQINRIKGYFIKKELLAKITSFDYKVRAEIEYTDNISEITYRIVDVENQ;locus_tag=LOCUS_07110;note=MGA_711
sequence1	MetaGeneAnnotator	CDS	438646	438804	.	+	0	ID=MGA_712;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENDLNKFKAYSFSNTIEVYNSYSFLSGKTKFNDINIIDNYKVFSSSNLKLN;locus_tag=LOCUS_07120;note=MGA_712
sequence1	MetaGeneAnnotator	CDS	439039	439257	.	+	0	ID=MGA_713;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGSIVQEVIAKVFIEFVGGRSSIVFFSPIAIVISILIFGILLCVVSFLTAFILIKKPTLEIINKLEKNKKNN;locus_tag=LOCUS_07130;note=MGA_713
sequence1	MetaGeneAnnotator	CDS	439366	439557	.	+	0	ID=MGA_714;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYVAGFLVSFGLTIPGLVQNIVGSYYKNVLYSNYYENRELIGNAPLAKTSLSPTKKLENMKKT;locus_tag=LOCUS_07140;note=MGA_714
sequence1	MetaGeneAnnotator	CDS	439557	439697	.	+	0	ID=MGA_715;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDSKSIFGSGINSISKNITDFAPIPDASAIPQILLSENSNQQLSAK;locus_tag=LOCUS_07150;note=MGA_715
sequence1	MetaGeneAnnotator	CDS	440196	440438	.	+	0	ID=MGA_716;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELNITGLQKTQNAYKISDKINDKLFIDDYQAEILEKVLNDKHISSEEELDIKTIYNSQNKEITIPVVANDQTDFILKNN;locus_tag=LOCUS_07160;note=MGA_716
sequence1	MetaGeneAnnotator	CDS	440541	440876	.	+	0	ID=MGA_717;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRYNKIQKKDSENRGYIEIDSLSTSKFTYAPIFDQTGFNLINEQEYGDNIKLMDNSYGFYNLTSVIRENKEELNLEIRPYYSFDNIVMFIPNFYKSDFENLKQNGNVDSSK;locus_tag=LOCUS_07170;note=MGA_717
sequence1	MetaGeneAnnotator	CDS	441243	441458	.	+	0	ID=MGA_718;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSGYNISKYIPFNLQYEDLTKPIDNYTYNDVKINTYDYINPIEYYSRAENLTKNELVYGSNDFEKSIRPNI;locus_tag=LOCUS_07180;note=MGA_718
sequence1	MetaGeneAnnotator	CDS	441579	441782	.	+	0	ID=MGA_719;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIQSTKLLSQQKALINQLSVIILSMTTVAITLLIIIMILTVTLINDLYVNQYKKFMIVMKSLGYSN;locus_tag=LOCUS_07190;note=WP_011166641.1 ABC transporter permease (Mycoplasma mycoides) [pid:46.2%25%2C q_cov:97.0%25%2C s_cov:3.7%25%2C Eval:2.5e-09%2C partial hit],internal stop codon at [441456:441458](+)%2C[441780:441782](+)%2C[441930:441932](+),MGA_719
sequence1	MetaGeneAnnotator	CDS	442341	442562	.	+	0	ID=MGA_720;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNPGIETIKELMYQNYGNSEFKDKTAKELIENGYDFMGITIGHICLKYNKNHFYYDKLHVSIRAVDKILAVNF;locus_tag=LOCUS_07200;note=MGA_720
sequence1	MetaGeneAnnotator	CDS	442711	443142	.	-	0	ID=MGA_721;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILMLSIKEIISFSRIFRKDKNKDIFKENYSSKLIHNQKILDMNIRTIRNPSNKFSSLIFKEKFSSENGFKLVYSKGFNSFGFKEQVDVVFCDIKNKVIETYSNFSPNKMTKYHNKAIAIYVLANNMNKFLNIKQKDILKTIK;locus_tag=LOCUS_07210;note=MGA_721
sequence1	MetaGeneAnnotator	CDS	443202	443360	.	+	0	ID=MGA_722;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANVAIFVANGFEDTEVVATVDVLRRAEKLFNGSFPIVDIVSISDSKQVKGS;locus_tag=LOCUS_07220;note=MGA_722
sequence1	MetaGeneAnnotator	CDS	443478	443777	.	+	0	ID=MGA_723;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSAIEKHAKENKVVAAICAAPQILGKLELVNGIEVTHYPGCTQYLDKAIKKPHMSAIADKNIITGSSIGGALQFALQIVDHFTSTEQMLKLHESLVFNY;locus_tag=LOCUS_07230;note=WP_011183160.1 DJ-1/PfpI family protein (Mesoplasma florum) [pid:41.7%25%2C q_cov:97.0%25%2C s_cov:52.5%25%2C Eval:1.8e-15%2C partial hit],internal stop codon at [443358:443360](+),MGA_723
sequence1	MetaGeneAnnotator	CDS	444226	444702	.	+	0	ID=MGA_724;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNQDQKDDFFANEIEQLHKKGKKVVLSLGGADAHINLYENQKDEFVAEILRLVDRFGFDGVDIDLEQSAIDAADNQNVIPQALIEVKETLAKKNREFIISMAPEFPYLKVNKIGASYITYLEKLEGYYDYINPQFYNQAGDGINVQEEDRQELGLNIY;locus_tag=LOCUS_07240;note=WP_010906225.1 glycosyl hydrolase family 18 protein (Lactococcus) [pid:54.7%25%2C q_cov:88.0%25%2C s_cov:27.6%25%2C Eval:4.5e-39%2C partial hit],internal stop codon at [444061:444063](+)%2C[444700:444702](+)%2C[444811:444813](+)%2C[444928:444930](+)%2C[444940:444942](+),MGA_724
sequence1	MetaGeneAnnotator	CDS	445205	445426	.	+	0	ID=MGA_725;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDGAQLLDAIYEIVQDKKIDKEIILEGIREGFQKAYEKFFDPEAIVRVDIDQNTGQIKVFKELSVVQKIEDE;locus_tag=LOCUS_07250;note=WP_011183189.1 transcription termination factor NusA (Mesoplasma florum) [pid:51.3%25%2C q_cov:100.0%25%2C s_cov:16.1%25%2C Eval:5.8e-17%2C partial hit],internal stop codon at [445424:445426](+)%2C[445700:445702](+),MGA_725
sequence1	MetaGeneAnnotator	CDS	445514	445702	.	+	0	ID=MGA_726;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEFSKLAVMQVGQIIKQKIREGEKNKIYQEFLSKNHEIVGGFVKDITETSYLVDVNGSIIPI;locus_tag=LOCUS_07260;note=MGA_726
sequence1	MetaGeneAnnotator	CDS	445712	446041	.	+	0	ID=MGA_727;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIPGENFEIDQRICFYIEEVSKDNKHSQIQASRIHPEFLSRLMETEVPEILEGIVEVKSVAREPGHRAKIAVFSHEEGIDPIGSCVGALGSRIKNITKELNGEKIDVVL;locus_tag=LOCUS_07270;note=WP_011183189.1 transcription termination factor NusA (Mesoplasma florum) [pid:56.7%25%2C q_cov:95.4%25%2C s_cov:22.1%25%2C Eval:4.9e-29%2C partial hit],internal stop codon at [445424:445426](+)%2C[445700:445702](+)%2C[446039:446041](+)%2C[446270:446272](+),MGA_727
sequence1	MetaGeneAnnotator	CDS	446066	446272	.	+	0	ID=MGA_728;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSLAPVKVISIDINESNNECFIVVPNEQLSLAIGKKGMAARLVANLVNMKINIFSLDSAKEKEIEIL;locus_tag=LOCUS_07280;note=WP_011183189.1 transcription termination factor NusA (Mesoplasma florum) [pid:58.8%25%2C q_cov:100.0%25%2C s_cov:14.0%25%2C Eval:5.8e-14%2C partial hit],internal stop codon at [446039:446041](+)%2C[446270:446272](+),MGA_728
sequence1	MetaGeneAnnotator	CDS	446555	446824	.	+	0	ID=MGA_729;product=YlxR family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166544.1;translation=MAKDINLRKDAASNKMYPKIELIRIVKNKNGEVFIDNTKKANGRGAYIRPTLEAVERVKKTKALERNLKTTLNNEFYEKLIDEVKLNWD;locus_tag=LOCUS_07290;note=WP_011166544.1 YlxR family protein (Mycoplasma mycoides) [pid:47.4%25%2C q_cov:87.6%25%2C s_cov:82.1%25%2C Eval:2.4e-15],MGA_729
sequence1	MetaGeneAnnotator	CDS	446815	447123	.	+	0	ID=MGA_730;product=ribosomal L7Ae/L30e/S12e/Gadd45 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003547810.1;translation=MGLDLDKILGSLGIISSTGKLIYGSKLFDQIKSQKVKIIFTTSDMGKSQLKKINDKANFYNVKIINNLFDSEKLSKAIGKTNIKSVGVSDENFVKLLLNKIE;locus_tag=LOCUS_07300;note=WP_003547810.1 ribosomal L7Ae/L30e/S12e/Gadd45 family protein (Lactobacillus acidophilus) [pid:35.4%25%2C q_cov:93.1%25%2C s_cov:91.3%25%2C Eval:4.9e-08],MGA_730
sequence1	MetaGeneAnnotator	CDS	447140	447346	.	+	0	ID=MGA_731;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKKIKADSNNNKIQAKNKSKAHSANLKNQLKQTTETGLIDGVFVYTEPLSIADFAKKLNKGPAEIVK;locus_tag=LOCUS_07310;note=WP_011183192.1 translation initiation factor IF-2 (Mesoplasma florum) [pid:52.9%25%2C q_cov:100.0%25%2C s_cov:10.8%25%2C Eval:7.6e-14%2C partial hit],internal stop codon at [447344:447346](+),MGA_731
sequence1	MetaGeneAnnotator	CDS	447365	449008	.	+	0	ID=MGA_732;product=translation initiation factor IF-2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166542.1;translation=MVTQNQILSEEQMGELCIEFGYDFKKETSVTKENIFETFNEKDDPKDLKEKPPIVTIMGHVDHGKTTLLDSIRNANVTDGEFGGITQHIGAYQTTIKNNKITFIDTPGHEAFTEMRARGSEVTDIVILVVAADDGVMPQTEEAIDHAKAADVPIIVFVNKTDKPGADPSKVKMELMNYGIVAEEYGGDIPFIEGSAKSKIGLDNLLETILLISELKDLKANPNKFARGTVIEAKLDKNRGPISTILVQEGTLRMRDILIAGGTFGTVKDLENENKTKLKEVLPGQPAVVIGLNEVPKAGDKFIVVVEEKMARDIAKAQFEKQQNEARQKNQTFTLDSIKHKIESGELKSINIILKADTQGTVEAVRNSMLKINIEGVKINVIRATVGAISISDVTLALASDALIYGFNVRPTAQVRQKAEEDGVDIRLHNIIYKLIEEIAEAATGMLDPVFEEKSLGEAEVRQLFKHSQVGTIAGCRVMSGVIPRASKVHVLRDGIVVYTGELSSLKNKKDDIKEAKEGAECGLTIKNFNDLKENDIIEAYRIEEVK;locus_tag=LOCUS_07320;gene=infB;note=WP_011166542.1 translation initiation factor IF-2 (Mycoplasma mycoides) [pid:65.9%25%2C q_cov:100.0%25%2C s_cov:89.0%25%2C Eval:6.3e-210],MGA_732
sequence1	MetaGeneAnnotator	CDS	449011	449355	.	+	0	ID=MGA_733;product=30S ribosome-binding factor RbfA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166531.1;translation=MAKDIKIERNQSTILRELNLILQREFPDCEYLNSLTIHEVRLTNDMSHAKVFYSFLDSSADQKAVQAEINENLKEIRMILASKVEMRNVPELTFEYDKTLENANKIEEILKEIK;locus_tag=LOCUS_07330;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:3.1e-23],MGA_733
sequence1	MetaGeneAnnotator	CDS	449429	449638	.	+	0	ID=MGA_734;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRVNKTIANKSNTIKASQEFINCINPYTVPNSIYILIKLRNAELNGPKINTKSPENIRDKFLFKERSLL;locus_tag=LOCUS_07340;note=MGA_734
sequence1	MetaGeneAnnotator	CDS	449731	450060	.	-	0	ID=MGA_735;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKTDENSQESNLITNFDQIDIDYEISKLNKTNKRARFKSETLKITLVSLLLSMSTAVSMINVIIPLVITGVNVGFVLKYFVIAISFQVVGIYWGMIIGLLDGLLQFLI;locus_tag=LOCUS_07350;note=MGA_735
sequence1	MetaGeneAnnotator	CDS	450161	450418	.	+	0	ID=MGA_736;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSFFLKKINSNVFEIENEDFHHIKNVIKLKINEQIICVYENQKYLCTISDILENSCLAKIISKINFSQKKYKVNLIIGLIREQK;locus_tag=LOCUS_07360;note=WP_011183200.1 16S rRNA (uracil(1498)-N(3))-methyltransferase (Mesoplasma florum) [pid:46.8%25%2C q_cov:91.8%25%2C s_cov:33.2%25%2C Eval:2.5e-12%2C partial hit],internal stop codon at [450416:450418](+)%2C[450533:450535](+)%2C[450656:450658](+),MGA_736
sequence1	MetaGeneAnnotator	CDS	450878	451255	.	+	0	ID=MGA_737;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKENFSKMITSDLKKINNQIQTNSIDKDLKIFINKNINFIKRKLKDLVQIKTHGSYATGQIYKFEKILNIDLLAVKYVKNSTYNLYENEIETENHIDNCLICKTNEKIYNILVELYNISEDVKII;locus_tag=LOCUS_07370;note=MGA_737
sequence1	MetaGeneAnnotator	CDS	451415	451621	.	+	0	ID=MGA_738;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKRSFTLEYLKKFRTLNNLLIKKLQILFYNISKKFRKTLTKKELLILKLFIMSDIQYSLIKNINLQK;locus_tag=LOCUS_07380;note=MGA_738
sequence1	MetaGeneAnnotator	CDS	451676	451873	.	+	0	ID=MGA_739;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDSKNLYYKRPKKISKFYNSFKLKNLKWVFAKSYSSTKDFLSQYLEYSKNFIANKSEYLKENIYF;locus_tag=LOCUS_07390;note=MGA_739
sequence1	MetaGeneAnnotator	CDS	452100	452648	.	+	0	ID=MGA_740;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLTSENKEIFKKINFYFNELKTLFSENRIYLKKVGDFSYNSYKETHNNFNLEICAIKFITKSTFDFNKFNNLILEISKKYKEIPEIHINKNYLNLIFNFRNKTINFRIIPISAKKTKEKLICKVNRNGRIQEDLILNLTSDFKNANKLSSGLLISLKRIINYIMNGEFNYSYDIDYLLLR;locus_tag=LOCUS_07400;note=MGA_740
sequence1	MetaGeneAnnotator	CDS	453126	453374	.	+	0	ID=MGA_741;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSNELYVKLNSDLKSEIKTTKQREAMSELNQIANEWLTKYSLKLKYLQPYFDKKYPFVSNYKIEELVLLIIQTIDKIDSKQ;locus_tag=LOCUS_07410;note=MGA_741
sequence1	MetaGeneAnnotator	CDS	453641	453925	.	-	0	ID=MGA_742;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRIKSDFVKEIEAEFKIILEKENLGGGANPASNLSIKMFYLTKHQFKSYDEFDQAVVTEIANTLQSLEDIIVKKALSYQALAKEAYNENIDPQK;locus_tag=LOCUS_07420;note=MGA_742
sequence1	MetaGeneAnnotator	CDS	454043	454906	.	+	0	ID=MGA_743;product=tRNA pseudouridine(55) synthase TruB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166532.1;translation=MANKSGIFLINKPQNITSNDLIQKIKKKLGIDKIGHAGTLDPLATGLMVILVNQATKISNYLLSSDKSYVVTMKLFVQTDSQDITGNIVEEETYKKISKSLVKEIIKKYNGYIYDQYPPVYSAVKVDGKKLYEYARKNQEVVIKPRKVTIKECELIEFNQKLGTIKLKVRSSKGTYIRSLVSDIAKDLETIATVSQLERVSSGGFLLENAKTIEEIEFSDLINMYDSLMINEHPIVEYHRVRDIKQGKTITLTGINYPIVFIIDDQKTVIAIYKHIAHDLYKCQRGL;locus_tag=LOCUS_07430;gene=truB;EC_number=5.4.99.25;note=WP_011166532.1 tRNA pseudouridine(55) synthase TruB (Mycoplasma mycoides) [pid:51.2%25%2C q_cov:98.6%25%2C s_cov:96.9%25%2C Eval:1.5e-75],MGA_743
sequence1	MetaGeneAnnotator	CDS	454956	455693	.	+	0	ID=MGA_744;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKIKTFLNKEEMFDFNITNNIICIGFFEGIHKMHKKIILETKNISKLEKSTSSIITFSEKISDFLNKKSNNFQSKEHKYNLIEKKYNPDFLFEIQVNNEIIKKSPEEFCDFLKTKLSVKKIVVGSDFRFGFKNEGDINFLQNYFGKSNIIVFERVVGISSTLIRENISLGNIDKVKQILGENLTVSLKKVGKNKYLIQDFNITLAKGVYLIKIQKELRKVKIIENIVHFNYLNEFLEIEILEKL;locus_tag=LOCUS_07440;note=WP_164919780.1 FAD synthetase (Mesoplasma florum) [pid:37.5%25%2C q_cov:62.0%25%2C s_cov:82.2%25%2C Eval:5.9e-24%2C partial hit],MGA_744
sequence1	MetaGeneAnnotator	CDS	455815	456081	.	+	0	ID=MGA_745;product=30S ribosomal protein S15;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_198401953.1;translation=MVSKTQIENIVKEYGSNQNDTGKAEVQIAILTKDIQNLTEHLNIHKKDITSRRSLLKKVAQRRHLLNFLFKKDVERYKTIIEKLKIRK;locus_tag=LOCUS_07450;gene=rpsO;note=WP_198401953.1 30S ribosomal protein S15 (Mesoplasma florum) [pid:65.9%25%2C q_cov:100.0%25%2C s_cov:98.9%25%2C Eval:3.5e-27],MGA_745
sequence1	MetaGeneAnnotator	CDS	456225	456422	.	+	0	ID=MGA_746;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MATATKKPAAKKTTTKKPNKTAVKKAASNKKRAEHIQTRKKPSDPKPERIINKTIKLTDGQEKFI;locus_tag=LOCUS_07460;note=MGA_746
sequence1	MetaGeneAnnotator	CDS	457011	457415	.	+	0	ID=MGA_747;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKIIVIVGPTASGKTDLSIKLAKKFNGECINSDSTQIFKGTDIATNKITEEEMQGIKHHLISIREVNEKYSVADFQKDAREKIDEILKKGKTPIIVGGTGLYVNAVLMNYNFANEDHIENFEKKYDNFSNQEI;locus_tag=LOCUS_07470;note=WP_002366931.1 tRNA (adenosine(37)-N6)-dimethylallyltransferase MiaA (Enterococcus) [pid:53.3%25%2C q_cov:99.3%25%2C s_cov:43.7%25%2C Eval:3.5e-35%2C partial hit],internal stop codon at [457413:457415](+),MGA_747
sequence1	MetaGeneAnnotator	CDS	457638	457832	.	+	0	ID=MGA_748;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKKGLFKEIENAYKANNFNKKAQALKCIGGPEIIRYLEKEITYDECIELMQKNNRHYARRQLT;locus_tag=LOCUS_07480;note=WP_010965140.1 tRNA (adenosine(37)-N6)-dimethylallyltransferase MiaA (Clostridium) [pid:43.8%25%2C q_cov:100.0%25%2C s_cov:20.4%25%2C Eval:3.1e-07%2C partial hit],internal stop codon at [457830:457832](+)%2C[457860:457862](+),MGA_748
sequence1	MetaGeneAnnotator	CDS	458369	458722	.	+	0	ID=MGA_749;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYPAKFLEDVLINIGIQTKIIDMSVNLEVGKHLEFNNELIIILLTGRDTETVVIALDYLLKGNNDIYIITTPSNISELPQIRELKHMLVNFQDNNFFYKYRCYALITLFFALSEKIN;locus_tag=LOCUS_07490;note=MGA_749
sequence1	Aragorn:1.2.38	tRNA	458811	458884	.	+	.	ID=Aragorn_21;product=tRNA-Gly;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00200;note=Aragorn_21
sequence1	MetaGeneAnnotator	CDS	459299	459661	.	+	0	ID=MGA_750;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKFISILLIVVLLTPLFVFITTLVRNNGLKKIEEFEKVYEAYKNGEIIPNNKLLKAQRYQAYLIKKQAKTEELERFKMDLDQKIKEELENQERKLELKKQKIINKLDEKERKQREKQKD;locus_tag=LOCUS_07500;note=WP_011183182.1 hypothetical protein (Mesoplasma florum) [pid:41.7%25%2C q_cov:83.3%25%2C s_cov:43.3%25%2C Eval:1.1e-12%2C partial hit],internal stop codon at [459197:459199](+)%2C[459293:459295](+),MGA_750
sequence1	MetaGeneAnnotator	CDS	459760	460191	.	-	0	ID=MGA_751;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVIDNIIEMHNLNINSDKIKKFEYINFLNSFQNNTINKLEIYDYYINEIKQYESIFNKLNLVLSHNDLVPGNILIKKDKLIFIDYDYVMLNNKFFDLASFITETLNDDENLIRYFINKCIEKKIISSIELDTLNKMIKYQDLL;locus_tag=LOCUS_07510;note=WP_011183275.1 phosphotransferase (Mesoplasma florum) [pid:33.6%25%2C q_cov:99.3%25%2C s_cov:53.8%25%2C Eval:7.4e-10%2C partial hit],internal stop codon at [459751:459753](-)%2C[459760:459762](-)%2C[460279:460281](-)%2C[460282:460284](-),MGA_751
sequence1	MetaGeneAnnotator	CDS	460282	460449	.	-	0	ID=MGA_752;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEFKGYTNYITVKDNILTKESISFHDIYLDKQNEFNFLEQLKSLEQNCLLKPINF;locus_tag=LOCUS_07520;note=MGA_752
sequence1	MetaGeneAnnotator	CDS	460570	460773	.	+	0	ID=MGA_753;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIPEMEVKSLNDLNDTLDIPENEPTFEENARFKAKTLSKIVDGIIIADDSGLSISNLNNFPGIYSAR;locus_tag=LOCUS_07530;note=WP_011166792.1 RdgB/HAM1 family non-canonical purine NTP pyrophosphatase (Mycoplasma mycoides) [pid:44.8%25%2C q_cov:100.0%25%2C s_cov:33.5%25%2C Eval:2.5e-12%2C partial hit],internal stop codon at [460525:460527](+)%2C[460771:460773](+)%2C[460792:460794](+),frameshifted%2C insertion/deletion at around 460872,MGA_753
sequence1	MetaGeneAnnotator	CDS	461129	461323	.	+	0	ID=MGA_754;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKINIILFEPEIADNVGAIMRTCALTNSKLHLIEPFGFIFDKRNFARSSANNFEGCEYFRYDN;locus_tag=LOCUS_07540;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:1.5e-17%2C partial hit],internal stop codon at [461321:461323](+)%2C[461582:461584](+),MGA_754
sequence1	MetaGeneAnnotator	CDS	461366	461584	.	+	0	ID=MGA_755;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTRYGKKPISDFDFAQIKDEIFIMFGKESTGIPKSILKNNIEKCFRIPMVESGRSLNIANSMGIASYEVLRQ;locus_tag=LOCUS_07550;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:6.0e-22%2C partial hit],internal stop codon at [461321:461323](+)%2C[461582:461584](+),MGA_755
sequence1	MetaGeneAnnotator	CDS	461688	462356	.	+	0	ID=MGA_756;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFSDFGFKKFINDALEEISFIYPTKIQEKVIPLIKKHKSVIAQSHTGTGKTHSFLLPILNNINYDENNKIQCLIITPTRELARQIYENTKELLKFNNKGNVALFVGGDDIEKSIQNVKTKQPTIVIGTPTRLKKMYEEGNLFITTAKYVVIDECDMIFDLGFIEEVDLILSKMSKDVNISLFSATINNGLKPFLKKYLSNSIFIENIDSNPTNKNIEHILI;locus_tag=LOCUS_07560;note=WP_011183170.1 DEAD/DEAH box helicase (Mesoplasma florum) [pid:58.6%25%2C q_cov:99.5%25%2C s_cov:48.3%25%2C Eval:1.4e-74%2C partial hit],internal stop codon at [462354:462356](+)%2C[462468:462470](+),MGA_756
sequence1	MetaGeneAnnotator	CDS	462540	463055	.	+	0	ID=MGA_757;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKRIQSGEFKWIVASDVAARGIDIDGVSHIISIDLPKDLDYYIHRSGRTGRNQYSGQSYVLFNSTNQHQIDELKSKGILFTNFKLVNNQLQEVNTVKKKKEFNADLPVNIETKKIIDKYKGKKVKPGYKKRRKAEIDQIKKEIRRKHIKESIAKIKKDKYKKRREELFES;locus_tag=LOCUS_07570;note=WP_011183170.1 DEAD/DEAH box helicase (Mesoplasma florum) [pid:50.6%25%2C q_cov:99.4%25%2C s_cov:36.7%25%2C Eval:1.8e-42%2C partial hit],internal stop codon at [462354:462356](+)%2C[462468:462470](+),MGA_757
sequence1	MetaGeneAnnotator	CDS	463153	463326	.	+	0	ID=MGA_758;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLNLLGAFGLVVSTSTAVIACGTKPTEPGTGSDSDYLKLIEEFKNDLQLLTDNY;locus_tag=LOCUS_07580;note=MGA_758
sequence1	MetaGeneAnnotator	CDS	463672	463863	.	+	0	ID=MGA_759;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSYINLNLNLKFVYKDSNKQETEYILPKRFIFTLTSNQLLIDSIKNLEKNIANDYYLSGGKYS;locus_tag=LOCUS_07590;note=MGA_759
sequence1	MetaGeneAnnotator	CDS	463993	464661	.	+	0	ID=MGA_760;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKENYFRDINGVPLEFQGNIIFDKFLSQDSVKSNSRKDMSLAKADDLKTYNTIFSKMEKNQKAFLFNQETDINQEMYSYLKDEYLKFYDSYSSRNKNSLATIENNSNKKLSSDKQQAFENSIETGQVKLKGLSLNVSSTYVHPINDLSIFVSFAVSNSETKESRNDYRKSELFGAMYHNLQLGIKTFQEVFDIQARNGNDSNLPIARFSGRGISSSGALDNI;locus_tag=LOCUS_07600;note=MGA_760
sequence1	MetaGeneAnnotator	CDS	465036	465359	.	+	0	ID=MGA_761;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILYKSIPFRILLLFNIKNIFSELVFLILNFILLLASSAFGFISSFYNDGSSLVKGFNFYVLFYLSCLLFILILRMVQFFYHNKIEDKTIYITLSNQVSRTKLFLTQ;locus_tag=LOCUS_07610;note=WP_008363812.1 ABC-2 transporter family protein (Mycoplasma feriruminatoris) [pid:47.7%25%2C q_cov:100.0%25%2C s_cov:18.0%25%2C Eval:4.0e-23%2C partial hit],internal stop codon at [465357:465359](+)%2C[465381:465383](+),MGA_761
sequence1	MetaGeneAnnotator	CDS	465390	465851	.	+	0	ID=MGA_762;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIAFILINLLNFSLNGFTLDYLLLRITTTFLIYGILISFFLINFIIFLIFIFSLQTTTIICTLILSFVFISNLPVNFQKSNEKNMTIKFSNNQLLTISDLYEVFDFQKYVNDNHIKYNFLSKYINDNFLEYKFDFNSFNSSEQNINNRINDI;locus_tag=LOCUS_07620;note=WP_008363812.1 ABC-2 transporter family protein (Mycoplasma feriruminatoris) [pid:35.4%25%2C q_cov:93.5%25%2C s_cov:24.5%25%2C Eval:8.8e-21%2C partial hit],internal stop codon at [465357:465359](+)%2C[465381:465383](+)%2C[465849:465851](+)%2C[465951:465953](+),MGA_762
sequence1	MetaGeneAnnotator	CDS	465987	466436	.	+	0	ID=MGA_763;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNTFITFDELKNLIETEQDTTKKQILQDLYNFSLYIEDQYSNMQVEKANLFNEFIFIDDEKSIIKNTTTNSEIKLDKKYLISLYNYELNGTYKEDFTLGNNSNTYELVRNKLNFPLMTSVRILEQYFIKYTSRYILATEKSVILNEGD;locus_tag=LOCUS_07630;note=WP_011183358.1 ABC transporter permease (Mesoplasma florum) [pid:37.5%25%2C q_cov:100.0%25%2C s_cov:26.0%25%2C Eval:3.6e-21%2C partial hit],internal stop codon at [465849:465851](+)%2C[465951:465953](+)%2C[466434:466436](+)%2C[466503:466505](+)%2C[466548:466550](+),MGA_763
sequence1	MetaGeneAnnotator	CDS	466787	467143	.	+	0	ID=MGA_764;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKNIEVINYIKKFKKNKVGKFSFQVTEGKITALLGSSGSGKTVLINSIIGCYKKYSGNILINNKSIKKANGFKENQNIGFYTQIDFSLQNFTLKKYLTNMSLIMGIKRKYVKEKINY;locus_tag=LOCUS_07640;note=WP_011387452.1 ABC transporter ATP-binding protein (Mycoplasma capricolum) [pid:47.8%25%2C q_cov:97.5%25%2C s_cov:18.8%25%2C Eval:6.6e-26%2C partial hit],internal stop codon at [467141:467143](+)%2C[467198:467200](+)%2C[467294:467296](+),MGA_764
sequence1	MetaGeneAnnotator	CDS	467137	467367	.	-	0	ID=MGA_765;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MWAVIIIVLPSFLYLINKFLILFVQYESKLAPGSSKIKILGSFNKHKIRFTRFFIPHEKFLTFLSFESVKSKKSIQ;locus_tag=LOCUS_07650;note=MGA_765
sequence1	MetaGeneAnnotator	CDS	467315	467725	.	+	0	ID=MGA_766;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIKYKKEGKTIIITAHNIDEIAEIIDNYLIIDNGELIFQGSKEELNVFSKYKVFLKSNFDVVKFREFLLTREIQSFRYDEEENSLVIAVKNYKQLNYLFLYLIKNNLLLKNLIKLPINMESIHKALESKKLENEV;locus_tag=LOCUS_07660;note=WP_011387452.1 ABC transporter ATP-binding protein (Mycoplasma capricolum) [pid:36.0%25%2C q_cov:91.9%25%2C s_cov:20.5%25%2C Eval:9.5e-20%2C partial hit],internal stop codon at [467141:467143](+)%2C[467198:467200](+)%2C[467294:467296](+),MGA_766
sequence1	MetaGeneAnnotator	CDS	468233	468568	.	+	0	ID=MGA_767;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDITQRIKKLISAISYQVYEKETIFRLAMLALLGEESIFLLGKPGIAKSLISRRLKFAIKGGSNFEYLMSKFSTPEEIYGPIDLRLLKEGKYVRVVDGYLPSANVGFLDEI;locus_tag=LOCUS_07670;note=WP_011815252.1 ATPase RavA (Yersinia enterocolitica) [pid:55.5%25%2C q_cov:98.2%25%2C s_cov:21.9%25%2C Eval:5.0e-29%2C partial hit],internal stop codon at [468566:468568](+),MGA_767
sequence1	MetaGeneAnnotator	CDS	469169	469342	.	+	0	ID=MGA_768;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNQIDSINSQIGQIEAQYLRLTPYTDPFRGALSGTYYFINFTDGGDTYKYCFISAGD;locus_tag=LOCUS_07680;note=MGA_768
sequence1	MetaGeneAnnotator	CDS	469469	469777	.	+	0	ID=MGA_769;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRENKKYLLQNDNPTEFNDRMSSLADKIIDLEKEYKEISAKMFKEYKKYMNMNCIFFEEIYNEKIAEALDTKTKKQLEKEKEVENVDELISDIDNLEFNMEL;locus_tag=LOCUS_07690;note=MGA_769
sequence1	MetaGeneAnnotator	CDS	469801	470142	.	+	0	ID=MGA_770;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQFDLDKPISEIKQEIEKLRRKDLHNSEFLAFKKQHEYAAEQLDDKINNFYSASNLSVIKQIKLPEPIRKEVIYYNYISEKFDEVSFAQNLNLIQNKLDEFDSPFATYIDTMR;locus_tag=LOCUS_07700;note=MGA_770
sequence1	MetaGeneAnnotator	CDS	470215	471465	.	+	0	ID=MGA_771;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTKRIVDYRMKAVEDLRYNYLVEIYSIVKNYGKYAKIYNTMYDVFGKFANIEDELRNQNIESIARFAEFLYKDPSILMIAEMLGRLNGEDDLMEINITEQVVTYPTQTKLPYNPEEIVGLTVSKDLERLLPMEFANLFDEELEIIFYKKFVESQLQTFLFESNENVIEHEIEEVEYEAPIPLEQGKFIICIDTSSSMEGAGEYIAKALSIAVAKVALKEYRDLIFVNFANQHVEEFTIQGRNVNIQKMLEFLSKSFYGKTNAKPAFEKVIEKMHSEDFKRADLLFISDFMMNSLPNSTRVKIANLKDNYNRFHSLVVGTMPNVETQDVFDNVMYYDPNDPFATNQIVKSLNETLRDLRELKEEEVAYRDEQINKLNSIRDKKRFREIHLDSPKSKKLEKQKQKLKELEQQKKQQA;locus_tag=LOCUS_07710;note=WP_000899954.1 ATPase RavA stimulator ViaA (Vibrio) [pid:31.5%25%2C q_cov:68.5%25%2C s_cov:58.8%25%2C Eval:7.2e-35%2C partial hit],MGA_771
sequence1	MetaGeneAnnotator	CDS	471481	471843	.	+	0	ID=MGA_772;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVREKSNLLVVYLEQGEELEAQIQNIIREYKLIDAKISGYGYLGRMEYGVLSQSDPFFLAKILKEGLLTVTDINGMIDNREPSIMISSVDDKFERHQGRLISGNVVNSFNIILEIYKTE;locus_tag=LOCUS_07720;note=MGA_772
sequence1	MetaGeneAnnotator	CDS	472009	472251	.	+	0	ID=MGA_773;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVPGMGIESLTFINSVEKQIKRIMPKGKYVFDPSHPLYEEMMNNVIKNSFKADAISTINFYNSKDYKDHYDEYIKFSDD;locus_tag=LOCUS_07730;note=WP_011183223.1 hypothetical protein (Mesoplasma florum) [pid:52.6%25%2C q_cov:97.5%25%2C s_cov:25.5%25%2C Eval:3.3e-17%2C partial hit],internal stop codon at [472250:472252](+)%2C[472265:472267](+)%2C[472391:472393](+)%2C[472469:472471](+)%2C[472538:472540](+),frameshifted%2C insertion/deletion at around 471979,MGA_773
sequence1	MetaGeneAnnotator	CDS	472633	472809	.	+	0	ID=MGA_774;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDQNLDKNEEIKYVTVDSLKAPNFTATLIFLRFAIVLWFFNIIIIPLGITAFFILKKR;locus_tag=LOCUS_07740;note=MGA_774
sequence1	MetaGeneAnnotator	CDS	472845	474155	.	+	0	ID=MGA_775;product=SGNH/GDSL hydrolase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183222.1;translation=MKRLLSILATSVFSVATVSSTVSCMPQKPIEDKKSPLNIGLDIDKTKAIDTSVDPLTHKGFTNFFIIGDSLSDVDGLTSYVKDKFIVKTGLEKYVNFNLSIEGSYGYVDDQNVHHNAFSNGPTTAYNIANNFGFKDLKPSNKYSVLKDEKQGYGKNYSIGGATAAKIAPQAGGIILNDVSIEEQARTLVTQQKISSNDFVLFEIGGNDLFSMISSQKAGDNKKVIDYMNESITRLRNALFTLLNNGIKNLFFLGPPIMDNIPSYANKTDEEKKEIIDLGKEYELKMQQVVKEVNSYYSSNFKFSSLYEGENSLTVLQKGYGEHILSNGLIQNIDEYKNNQSFTKNLKIKLNDKEINTSQVKNLKFDENIYKKLTMKSDKVEANVVVELIGKESYSNLKERDQLMSKYFFTDIVHPTKVVHEYVAEILQEKILKEFG;locus_tag=LOCUS_07750;note=WP_011183222.1 SGNH/GDSL hydrolase family protein (Mesoplasma florum) [pid:41.2%25%2C q_cov:97.9%25%2C s_cov:97.0%25%2C Eval:6.9e-76],MGA_775
sequence1	MetaGeneAnnotator	CDS	474157	475554	.	+	0	ID=MGA_776;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILSLLGASLLTISPTVLLVSCSTNKVNFNENSVQTIVEQIGKSIYLSDTKNYDINYQMDEVIKTNRIKNLSRSFTDDENITQYSRFAELYNQYFDENMFSSDLQVQENINVLGNIQPKSLGFAETLLVTIPNLLGTLSDGKIIKFIFNSVLTLPQITNVLKNNYLVGYLDKILSQENTKLLSSAFSSDIYVGFTNQEVMNSAIMGFANSINYMLRETKVIEIPTKDNLTEEKFLESIVTLTKNLTSIRKKEKSIKLDLIRDLPAIAELIRFIRTLIIYTENGVKALSNSKNENYFDDISKYRKAEFNSVDNKFDILTTVNMLINTYNDGSGIRKILSVLFQSYKNPKIKVFITPRFGAIASEEIYSEGITSLLQVTLNSIFPTIVLNNKLIDNSMRALIEIPDKVVISSIICEFINIIISNNSLNDFLSAITYPGLSLIIGNDISDIMKNLSQNEKIKKGKI;locus_tag=LOCUS_07760;note=MGA_776
sequence1	MetaGeneAnnotator	CDS	475924	476121	.	+	0	ID=MGA_777;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIIENYKHQQANLKKEINDNILNLEVTNMKMIGKYSYEINFENKKYEINLKVIDKKKLQVKSIL;locus_tag=LOCUS_07770;note=MGA_777
sequence1	MetaGeneAnnotator	CDS	476361	476876	.	+	0	ID=MGA_778;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVIQHVKYRGKSFIIATIGYGKANAAMAITYLMEEYSGLETVINVDLALSTNDKFDTTDTVMSTKFIYRDADLTVFKDIKYGQIVHEPEAYAFNTEFASQVKNFKLGVSDGIVGTADMLVYNSKQFKEMVDKYGQTIDVIDTEAGALAQIAKKSSLNFITMKIMYNNALSP;locus_tag=LOCUS_07780;note=MGA_778
sequence1	MetaGeneAnnotator	CDS	477017	477271	.	-	0	ID=MGA_779;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFVKNIILRNHFLGAFFHSSSPKITLLGPSSSILDFITSTISIASGVIPFLSTNINDGPKPEISDAVFVLKRDTHASCSISNNS;locus_tag=LOCUS_07790;note=MGA_779
sequence1	MetaGeneAnnotator	CDS	477444	477812	.	+	0	ID=MGA_780;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLVTVDAAISFYITHNLTHEFVESPHHGSKLVLNEFVKYLNQQLADVESPYDKVIVYFKIPTVNSSKLPIFVQTKTKANQPIVFAGYSAKDQKTYTVVDITRNDYDPLKVGSFKVTVRLKNL;locus_tag=LOCUS_07800;note=MGA_780
sequence1	MetaGeneAnnotator	CDS	477890	478132	.	+	0	ID=MGA_781;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MASKKAKNIYKNEVDDNVSLAMEDLLELAMLEFENKETSKDDNLKLRIEYEDDNEEFNPTDLNSIIKHARKIEQQNSQLK;locus_tag=LOCUS_07810;note=MGA_781
sequence1	MetaGeneAnnotator	CDS	478366	478995	.	+	0	ID=MGA_782;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKNRVDITELSNEISDSVDEMLNDKKVEFQSTEEKRTINKLAKELNKGNAIDGDVLLNFENKVMSQREQQLLVKQYFRTKFIKDFFQIVLAAFLIALTFDYFISVTGRAGLFPAGVGAIARFFATLTFPGKNQVDMQSSFYFVYYLIINIPLFIFGYIKLGKKFTFTTFLFVILQIGFDQIFQALPYINPKEFHLIVNFQLISGTPGA;locus_tag=LOCUS_07820;note=WP_011183171.1 YitT family protein (Mesoplasma florum) [pid:38.6%25%2C q_cov:90.0%25%2C s_cov:35.8%25%2C Eval:1.4e-30%2C partial hit],internal stop codon at [478993:478995](+)%2C[479008:479010](+),MGA_782
sequence1	MetaGeneAnnotator	CDS	479161	479301	.	+	0	ID=MGA_783;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLIILACVIVLNTIIIPLELINSDIKIDVLQNGDYINNQKLIESM;locus_tag=LOCUS_07830;note=MGA_783
sequence1	MetaGeneAnnotator	CDS	479416	479712	.	+	0	ID=MGA_784;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPSEFTKDQYNYLVEFVCKNGYGNDLTNIDKGLVAKIKILFVFGPSLFASFTLVMCAGMSTNYFYPKYTVRTYMITTNMPKEINKMLLENGFQNDILT;locus_tag=LOCUS_07840;note=WP_011166655.1 hypothetical protein (Mycoplasma mycoides) [pid:43.1%25%2C q_cov:73.5%25%2C s_cov:28.1%25%2C Eval:1.1e-09%2C partial hit],internal stop codon at [479710:479712](+)%2C[479785:479787](+),MGA_784
sequence1	MetaGeneAnnotator	CDS	479812	480060	.	+	0	ID=MGA_785;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MADPHAKVNAINTKSIKGLFNYEIKKNDDRDIIRTKIETDELEKEKIRQIAIVRAHKENEKLTKKNQKRKTKEKKPDIEKEE;locus_tag=LOCUS_07850;note=MGA_785
sequence1	MetaGeneAnnotator	CDS	480144	480419	.	+	0	ID=MGA_786;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDIYLRNIIYKMLDFKLTEIRKEYKNISFNDLFSYLREVIFKNNKIADLNDLSFFIMNIKVNKIFEYLNISAILDQSSSIEMDLKSILER;locus_tag=LOCUS_07860;note=MGA_786
sequence1	MetaGeneAnnotator	CDS	480605	481249	.	+	0	ID=MGA_787;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDNLNEENNNNGQPNGNSTEGAKALNQRLNPMGNNQIIIEKAGNNFLKVLSPVDAYQNETVFRNQIQKNGGIVLLDAKNYSDLQITTNNNKIERKGINEFFTGAKATSITASNQKHPAISYKLNGDAFKSLLPSSSAEQQTTYADDKALNLFILLDADGFYNDIRNYYNLIKGTAQQRIEEFFRVVVQPLREIYNNSSTSAEVKQILFDLFYGN;locus_tag=LOCUS_07870;note=MGA_787
sequence1	MetaGeneAnnotator	CDS	481867	482034	.	-	0	ID=MGA_788;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFSNNVENISIFNAIRINADIIVSGPTVKLNQLNDNNVIPIIANVIIIANNPKSL;locus_tag=LOCUS_07880;note=MGA_788
sequence1	MetaGeneAnnotator	CDS	481997	482161	.	+	0	ID=MGA_789;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIEIFSTLFENMKESYYLKQRGLKTSFNISIKENIGLAADLVIALLIPSMCMF;locus_tag=LOCUS_07890;note=MGA_789
sequence1	MetaGeneAnnotator	CDS	482186	482860	.	+	0	ID=MGA_790;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIMLAMGSFFTVLFTILISVILFKLILNSPWFTNKSNLFALNTDFANQGKFLLNYKIRRVENKIKKLESKESKNEILINSLKDKLKQLNEKLTLIKEKEISKTDKRQLLAKEKLNKKVDKLKSKISTLDENKKAKKIQKLNFKINELIFIRDDKTQSIIEEEGQIITSTNEKLKIKTVERNIKNGAKMISLFGVFILALSIGFGFLFGLRFDHTFGGRTDYTL;locus_tag=LOCUS_07900;note=MGA_790
sequence1	MetaGeneAnnotator	CDS	482891	483055	.	+	0	ID=MGA_791;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVDQTFEDQDPKTKELEEKRNKLKTEYEEYEKTHSSSEQLSAVRLKQAEVVSEY;locus_tag=LOCUS_07910;note=MGA_791
sequence1	MetaGeneAnnotator	CDS	483427	483555	.	-	0	ID=MGA_792;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVNNKLLTIAIIEAFPNGICRAVIRETDITGATIIATIIAI;locus_tag=LOCUS_07920;note=MGA_792
sequence1	MetaGeneAnnotator	CDS	483566	484060	.	+	0	ID=MGA_793;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFGKSRSLISSKNEKSLIDFFNKEIEIVYDTKTFKKQMNDELFNLKNEMRLNIKTNSLSKEEKKKLKLEFKEIKHNKKIEFKKIKKENKIKINRVGKQNNYLSEVLVKSFKFGLVRCSLLIALYSLVGIVILATMPTILSFGLAIIIGTVVTSLVVLFISLPL;locus_tag=LOCUS_07930;note=MGA_793
sequence1	MetaGeneAnnotator	CDS	484303	484698	.	+	0	ID=MGA_794;product=adenine phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166658.1;translation=MVEYVKEKKANVIVAPEARGFLFASAVAYAANCRFVLVRKPGKLPREVKDIEYELEYGKEHIQMHIGDLKSTDNVVIVDDVLATGGTMKAIVDLIEQEKAKINGIVFLADLSFLHDPELFTNFDSKSLITY;locus_tag=LOCUS_07940;EC_number=2.4.2.7;note=WP_011166658.1 adenine phosphoribosyltransferase (Mycoplasma mycoides) [pid:62.6%25%2C q_cov:100.0%25%2C s_cov:77.1%25%2C Eval:3.5e-43],internal stop codon at [484207:484209](+),MGA_794
sequence1	MetaGeneAnnotator	CDS	484872	485099	.	+	0	ID=MGA_795;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHGQSTSQEQEFNYVECIEVDVLVAEMKKYIKNNKLIEEVKKAYYYAEDKHKDQKRKNGNPFIIHPLSTAYYLAQ;locus_tag=LOCUS_07950;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:1.2e-14%2C partial hit],internal stop codon at [485097:485099](+),MGA_795
sequence1	MetaGeneAnnotator	CDS	485103	485762	.	+	0	ID=MGA_796;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGPKTIIAGLLHDVVEDTPVTFSEIEDIYGVEVADIVEAVTKVSYFTKENREQMKANYLRKLFLSMIRDIRVIIVKIADRMHNLLTLQYMTPEKQKIIAKETLEIYSTIAHRIGMKTAKNILEDYSFEYLNPKEYKRIKNLLEEDKNSRKELIQEIIVEINKKLKSEGIKNAQVFGRSKTIYSIYRKLTHFGKSFSDINDILAIRIITEKQDDCYRILG;locus_tag=LOCUS_07960;note=WP_011166659.1 RelA/SpoT family protein (Mycoplasma mycoides) [pid:60.5%25%2C q_cov:100.0%25%2C s_cov:29.3%25%2C Eval:1.1e-73%2C partial hit],internal stop codon at [485097:485099](+)%2C[485760:485762](+)%2C[485940:485942](+),MGA_796
sequence1	MetaGeneAnnotator	CDS	486012	486359	.	+	0	ID=MGA_797;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFTRLMNLEKLASENLEINYNEESQKIDLSGEVIEETFKSDYLAPMIYILTPDGSVINLPFGSTVLDFAYKIHTEVGNKTVGAKINGVFSPYNTTLNSGEMVEIQTSKDTYPHEK;locus_tag=LOCUS_07970;note=WP_011166659.1 RelA/SpoT family protein (Mycoplasma mycoides) [pid:51.5%25%2C q_cov:88.7%25%2C s_cov:12.9%25%2C Eval:1.8e-23%2C partial hit],internal stop codon at [485760:485762](+)%2C[485940:485942](+)%2C[486357:486359](+)%2C[486519:486521](+),MGA_797
sequence1	MetaGeneAnnotator	CDS	486360	486521	.	+	0	ID=MGA_798;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRFVRTSTARRAIEDFLNEQKEKEAEKEKITNQKIIRNTKREIDRYIIANNLK;locus_tag=LOCUS_07980;note=MGA_798
sequence1	MetaGeneAnnotator	CDS	486690	486908	.	+	0	ID=MGA_799;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTRKYKSTRGRDDLRINGIEKVSCSLAQCCYPIPVEPVTSFMSKTKGIQVHRSECLNITNIKKIKNLLKTE;locus_tag=LOCUS_07990;note=WP_011073302.1 GTP diphosphokinase (Shewanella oneidensis) [pid:34.5%25%2C q_cov:76.4%25%2C s_cov:7.5%25%2C Eval:5.4e-07%2C partial hit],internal stop codon at [486906:486908](+),MGA_799
sequence1	MetaGeneAnnotator	CDS	486954	487193	.	+	0	ID=MGA_800;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTAYDRPGILLDIVSVFAAQRANLTEIKIISQEDDYTGKGSMIITISDLDQLNIILKTLSEVPGMIGVTRATSSENPIS;locus_tag=LOCUS_08000;note=MGA_800
sequence1	MetaGeneAnnotator	CDS	487293	487421	.	+	0	ID=MGA_801;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRGVLMKKEMINLSITEFVQANLDFSIASNRKESEFDFNYTR;locus_tag=LOCUS_08010;note=MGA_801
sequence1	MetaGeneAnnotator	CDS	487863	488021	.	+	0	ID=MGA_802;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQLDSLVNKGVRPEDPYLTIEQAMKIENGANPDIVAREAKKESESKKVINPI;locus_tag=LOCUS_08020;note=MGA_802
sequence1	MetaGeneAnnotator	CDS	488226	488930	.	+	0	ID=MGA_803;product=DeoR/GlpR family DNA-binding transcription regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166993.1;translation=MIREERMQLILDYVNKQDYCTNEQISKHLNIPFTTLRRDLTDLHNESKLKRVHGGAKTIREKSILEAVLDEKLLANVEAKKIIAKKALACIKPFETIFLDAGSTTFFLAEIIKPEFNNKIYTNSIINAQILAKNGVKDINLLPGKLKISTVAICGVETISALSKYNFDLAFLGINAVDKEFNFFTTDEDEAQVKRIAIKNSQFAFGLADKSKNNSKSLVKFSDKSQIALINEEV;locus_tag=LOCUS_08030;note=WP_011166993.1 DeoR/GlpR family DNA-binding transcription regulator (Mycoplasma mycoides) [pid:45.7%25%2C q_cov:99.1%25%2C s_cov:100.0%25%2C Eval:1.3e-49],MGA_803
sequence1	MetaGeneAnnotator	CDS	488937	489815	.	+	0	ID=MGA_804;product=1-phosphofructokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183077.1;translation=MIYTLTLNPAIDHIVLANKKIELGVTNYYNDEYKVVGGKGINAGIILKNLTADVQAIGIMGEENKEIFLNKFKEINLNNNFFLNSGSTRVNYKIKHLESKQETELNGMGFNTKKEVLNQLIQYLENSLKENDIVMLTGSVAMSIEKDIYEQIGKLVNKKKAILICDAANELLKNVLKEKPFLIKPNLEEICSTLGLKFDENISFEETKELIKKLKNLGAQNVLLSMGSKGSLYFDSNNDIYKVGIAKGKLVNSVGAGDSMLAGFVYGKYKNLTIENTLQYAAASGAATAFNE;locus_tag=LOCUS_08040;gene=pfkB;EC_number=2.7.1.56;note=WP_011183077.1 1-phosphofructokinase (Mesoplasma florum) [pid:53.4%25%2C q_cov:100.0%25%2C s_cov:93.2%25%2C Eval:6.7e-84],MGA_804
sequence1	MetaGeneAnnotator	CDS	489887	490153	.	+	0	ID=MGA_805;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELKDLFSKQISFFDVELNSKDEVIEFLSNKLQEEKYIKSVEDFKKAVYKRESEGSTGVGDGIAIPHVLNPTVQKSAIAFAKLKNKVD;locus_tag=LOCUS_08050;note=WP_011183078.1 fructose-specific PTS transporter subunit EIIC (Mesoplasma florum) [pid:54.5%25%2C q_cov:100.0%25%2C s_cov:12.3%25%2C Eval:2.2e-21%2C partial hit],internal stop codon at [490151:490153](+),MGA_805
sequence1	MetaGeneAnnotator	CDS	490184	490897	.	+	0	ID=MGA_806;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFMIMTNGKDGNEHLTALADLSGFLMKADIQAKLRNAKSIKDVQSALTKEDKKVEKVEKPGSYDVIGITACPTGIAHTYMAQEKLEEYAKAKGLTVKIETQGRRGIENKLTQEDIANAKVIILAHDKALEGLSRLNGKKVIDTNTKEAIFKGDQLIEKYQKNEGLTEVKAASDSSEFSEFTMRKFLDVKGNLLGGISRMLPFVVAGGIILGIAFLIEFAAGNGDAGGNFGTVNPAAG;locus_tag=LOCUS_08060;note=WP_011183078.1 fructose-specific PTS transporter subunit EIIC (Mesoplasma florum) [pid:62.1%25%2C q_cov:97.0%25%2C s_cov:32.4%25%2C Eval:1.0e-70%2C partial hit],internal stop codon at [490151:490153](+)%2C[490895:490897](+)%2C[491060:491062](+)%2C[491072:491074](+)%2C[491168:491170](+),MGA_806
sequence1	MetaGeneAnnotator	CDS	490922	491062	.	+	0	ID=MGA_807;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAMMVPILGAFIAFSIVGSQGLMPGMVAGLFSSNIMGFAYSGNESG;locus_tag=LOCUS_08070;note=WP_011166991.1 fructose-specific PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:64.6%25%2C q_cov:100.0%25%2C s_cov:7.1%25%2C Eval:1.5e-09%2C partial hit],internal stop codon at [490895:490897](+)%2C[491060:491062](+)%2C[491072:491074](+)%2C[491168:491170](+),MGA_807
sequence1	MetaGeneAnnotator	CDS	491180	491350	.	+	0	ID=MGA_808;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKFPKGLQGARDIVFIPVLSLLSISLTMFVINIPLGYVMGGISLGIQKLAELNLL;locus_tag=LOCUS_08080;note=WP_011166991.1 fructose-specific PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:64.3%25%2C q_cov:100.0%25%2C s_cov:8.3%25%2C Eval:3.8e-13%2C partial hit],internal stop codon at [490895:490897](+)%2C[491060:491062](+)%2C[491072:491074](+)%2C[491168:491170](+)%2C[491348:491350](+)%2C[491573:491575](+)%2C[491609:491611](+),MGA_808
sequence1	MetaGeneAnnotator	CDS	491375	491575	.	+	0	ID=MGA_809;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMCVDMGGPINKIAYSLGNLAVGGKLVSDASSQGYTDQTIIMASAMLAGMLPPIMIAMSTVIFPKA;locus_tag=LOCUS_08090;note=WP_011183078.1 fructose-specific PTS transporter subunit EIIC (Mesoplasma florum) [pid:54.5%25%2C q_cov:100.0%25%2C s_cov:8.4%25%2C Eval:9.4e-12%2C partial hit],internal stop codon at [491168:491170](+)%2C[491348:491350](+)%2C[491573:491575](+)%2C[491609:491611](+),MGA_809
sequence1	MetaGeneAnnotator	CDS	491615	491905	.	+	0	ID=MGA_810;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGACFVSEGAIPFMVKDPKRVAVSAMIGGALIGGLVGAVKIKLLASHGGIFVFPLLSSSYLENSATMTGGSIALGAGGALVILLGASFLSAMILGI;locus_tag=LOCUS_08100;note=WP_011183078.1 fructose-specific PTS transporter subunit EIIC (Mesoplasma florum) [pid:49.5%25%2C q_cov:99.0%25%2C s_cov:13.6%25%2C Eval:1.8e-15%2C partial hit],internal stop codon at [491348:491350](+)%2C[491573:491575](+)%2C[491609:491611](+)%2C[491903:491905](+),MGA_810
sequence1	MetaGeneAnnotator	CDS	493996	494160	.	+	0	ID=MGA_811;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYGSTLDNKETKYQYSFHESQLFFQSQILKPIENKNKNLTLNIGNVEFTTTFNN;locus_tag=LOCUS_08110;note=MGA_811
sequence1	MetaGeneAnnotator	CDS	494221	494505	.	+	0	ID=MGA_812;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYYVDNNKNKDITQYSDQLKENMASNPNAAKEIMFQNSLQILRKGYEVYDINGKLFFSRKNENEVITELKKQIELSYKYIHKNESINLKDQEKP;locus_tag=LOCUS_08120;note=MGA_812
sequence1	MetaGeneAnnotator	CDS	495083	495241	.	+	0	ID=MGA_813;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPTDVSYEKPFGIELMSSFYIGKNQEEVKKARSKDIDNFVSVYGSEIANDMQ;locus_tag=LOCUS_08130;note=MGA_813
sequence1	MetaGeneAnnotator	CDS	495388	495666	.	-	0	ID=MGA_814;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTFDSKKVSSEPEILQLLTFSYIILSKNLNVELATFNFKCCLLLSLITDSFSLIISSIFKSGDFNWSLYSSKNSLTQLDKLLVIYPIKKST;locus_tag=LOCUS_08140;note=MGA_814
sequence1	MetaGeneAnnotator	CDS	496244	496402	.	+	0	ID=MGA_815;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPTDVSYEKPFGIELMSSFYIGKNQEEVKKARSNDIDNLLSVYGSEMTNDMQ;locus_tag=LOCUS_08150;note=MGA_815
sequence1	MetaGeneAnnotator	CDS	496658	496789	.	+	0	ID=MGA_816;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEEIINEKSSIVSQKDNQHLNLRILNANFKFTDIIQNVNGEKR;locus_tag=LOCUS_08160;note=MGA_816
sequence1	MetaGeneAnnotator	CDS	497408	497653	.	+	0	ID=MGA_817;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPTDVSYEKPFGIELMSAFYIGKSQEEVEETLSKDMDNLVSVYGSEMTNDVQSKLRGKNAFSIYFGLSSPTAEQVFKCSKF;locus_tag=LOCUS_08170;note=MGA_817
sequence1	MetaGeneAnnotator	CDS	498326	499561	.	+	0	ID=MGA_818;product=histidine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166530.1;translation=MIQKPRGTEDLVDLKVREYFALEVIIRQIVDSFNYNEIKTPIFESLELFKRGVGQETDIVSKEMYTFKDRKDRELTLRPEGTAPTVRAILENKMYINENLPLKLFYFGSMFRYERPQAGRNRQFNQFGVEVFGPKTAEIDSEIICLSSTILNTIGLDNHTIHLNYLVNGEQRKKYIEDLKKYLKPKKLCDDCKKRMEVNPLRVLDCKIDSKQFNDVIDMKDYLSDQDKKYFENLILNLKNIGIKPIIDKLLVRGLDYYTGFVYEVKDKNGSTLLGGGRYDELVNQLGNVDLSAAGFGLGMERILIALQEEEIYISQPVSLDAYIIGLSEKAKQFSNILLLALRKSGLKADFDFMSRSMKSAFKQSEKLNAKNIIIIGDNELKENVVIIKNQITKEEKKVTFDKIVDTIMGE;locus_tag=LOCUS_08180;gene=hisS;EC_number=6.1.1.21;note=WP_011166530.1 histidine--tRNA ligase (Mycoplasma mycoides) [pid:46.8%25%2C q_cov:98.5%25%2C s_cov:99.0%25%2C Eval:4.5e-106],MGA_818
sequence1	MetaGeneAnnotator	CDS	499664	500371	.	+	0	ID=MGA_819;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFIDLRDRYGITQLVIDESISLENVKSEYVLEVEGKVIERKSKNLELKTGEIEIKVSKIILINKSELTPFEIKDGIKSQEDTRLTYRYLDLRRAEMQNNLLVRSKMNHTIRNFFIEKDFIEIETPIFGKSTPEGARDFLVPSRLNQGKFYALPQSPQLYKQLFMIAGLDRYFQIVKCFRDEDLRIDRQPEFTQLDMEMSFADANDVMQTIEALVKKVILEIKGIDIKEPIQKIT;locus_tag=LOCUS_08190;note=WP_011166529.1 aspartate--tRNA ligase (Mycoplasma mycoides) [pid:64.1%25%2C q_cov:100.0%25%2C s_cov:41.3%25%2C Eval:1.6e-87%2C partial hit],internal stop codon at [499634:499636](+)%2C[500369:500371](+)%2C[500615:500617](+),MGA_819
sequence1	MetaGeneAnnotator	CDS	500381	500617	.	+	0	ID=MGA_820;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKYGNDKPDLRFGFEIHTLNDIFKSTQIPLFSNLENKSIRAICVDSLLNKKQLEDLSEVAKQNSVNILAFAKYDSNE;locus_tag=LOCUS_08200;note=WP_011183263.1 aspartate--tRNA ligase (Mesoplasma florum) [pid:61.5%25%2C q_cov:97.4%25%2C s_cov:13.5%25%2C Eval:1.3e-18%2C partial hit],internal stop codon at [500369:500371](+)%2C[500615:500617](+)%2C[500810:500812](+),MGA_820
sequence1	MetaGeneAnnotator	CDS	500885	501076	.	+	0	ID=MGA_821;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPADKSLNNFDSNKQDALAKAYDIVLNGFEIGGGSQRITDSLLQKRMFDAVGLSKEQIETNFG;locus_tag=LOCUS_08210;note=WP_011166529.1 aspartate--tRNA ligase (Mycoplasma mycoides) [pid:64.5%25%2C q_cov:98.4%25%2C s_cov:10.8%25%2C Eval:8.8e-18%2C partial hit],internal stop codon at [500615:500617](+)%2C[500810:500812](+)%2C[501074:501076](+),MGA_821
sequence1	MetaGeneAnnotator	CDS	501146	501283	.	+	0	ID=MGA_822;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILTGSENIREVIAFPKNSSGIDPMTNAPDIVANQQLEELNIKLK;locus_tag=LOCUS_08220;note=WP_011166529.1 aspartate--tRNA ligase (Mycoplasma mycoides) [pid:70.5%25%2C q_cov:97.8%25%2C s_cov:7.7%25%2C Eval:4.6e-11%2C partial hit],internal stop codon at [501074:501076](+),MGA_822
sequence1	MetaGeneAnnotator	CDS	501561	501851	.	+	0	ID=MGA_823;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVIKELLENVKAGKTEFPVEIKKQSKLDEICSILQNIFGIYSLSIVEIVEKNEEIILNKTLEICKNHLGTFKVEVERKDKGFAISSQELNSENLFS;locus_tag=LOCUS_08230;note=WP_011166477.1 tRNA 4-thiouridine(8) synthase ThiI (Mycoplasma mycoides) [pid:40.5%25%2C q_cov:85.4%25%2C s_cov:21.3%25%2C Eval:4.1e-07%2C partial hit],MGA_823
sequence1	MetaGeneAnnotator	CDS	502030	502281	.	+	0	ID=MGA_824;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEIRVGVDIGGTHIKYAFIKENEIIYKNKLDTPKKDIIEFIFEQINISLEKENINYDDVLSISLTIPGIIFKTGNATSVNLG;locus_tag=LOCUS_08240;note=MGA_824
sequence1	MetaGeneAnnotator	CDS	502393	502878	.	+	0	ID=MGA_825;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKPNVLMYTIGTGIGSGTIINKQLYLGNNTGMVGEVHGGSFQNKKDCKCGQGGCVEAVSGAQNIERILNERKNELRLKDSELLKKEKVSIKDLKNEILSDNQQIYDIFYENLLPLTDHMATMIHMFDFDVIVIGGGVSKLGDYILKIIEKQIKSKILKPY;locus_tag=LOCUS_08250;note=WP_013729890.1 ROK family protein (Mycoplasma mycoides) [pid:34.4%25%2C q_cov:92.5%25%2C s_cov:47.7%25%2C Eval:1.5e-13%2C partial hit],internal stop codon at [502279:502281](+)%2C[502876:502878](+),MGA_825
sequence1	MetaGeneAnnotator	CDS	503227	503379	.	+	0	ID=MGA_826;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDNFEQCTVNDDAYEFYLNYFKEIKKRKIKLIVNLHHFDIPYEIFKKGG;locus_tag=LOCUS_08260;note=WP_014584605.1 glycoside hydrolase family 1 protein (Mycoplasma leachii) [pid:54.0%25%2C q_cov:100.0%25%2C s_cov:10.8%25%2C Eval:9.2e-07%2C partial hit],internal stop codon at [503083:503085](+)%2C[503173:503175](+)%2C[503218:503220](+)%2C[503377:503379](+)%2C[503458:503460](+),MGA_826
sequence1	MetaGeneAnnotator	CDS	503764	503928	.	+	0	ID=MGA_827;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQDFLKQYDLTPQYFLEELEEIKKAKIDYIALNYYQPSRVKTKESKNQEEKIMP;locus_tag=LOCUS_08270;note=MGA_827
sequence1	MetaGeneAnnotator	CDS	504776	504970	.	+	0	ID=MGA_828;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITITLIVYNGILIPVDGFPTHPFSIFVTLIDHAIVPIAFILYVNLFMRNKEQVNLKEFFFKKF;locus_tag=LOCUS_08280;note=MGA_828
sequence1	MetaGeneAnnotator	CDS	505312	505620	.	+	0	ID=MGA_829;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIAYKLLPLKDLYRKAVETMGFDNNRDNFRRSRNENGSRDSGRSGGSGHGGDRGGRFGGRGRDNGGRSGGQGGNSGRIDNFEKPLLELLKEINEKLDLLIKK;locus_tag=LOCUS_08290;note=MGA_829
sequence1	MetaGeneAnnotator	CDS	505821	506117	.	+	0	ID=MGA_830;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRIIPYELYEYAPDLSLTALRKEFGMHDYCLNLNLKNKAMQPFLDMGRNYFNLLVFKWNQEMLKRNHYINTFHSNYALNTTFTEEKTDYLLILECIIQ;locus_tag=LOCUS_08300;note=MGA_830
sequence1	MetaGeneAnnotator	CDS	506489	507730	.	+	0	ID=MGA_831;product=threonine ammonia-lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166323.1;translation=MEKYNLPKEKIEERYEQIKQHINITPMIYANKLSMISGNQVYVKLENLQKAGSFKIRGALSKMMSISKEELKKGVVAASAGNHSQGVAYASNLLNCPATIVMPETAPLAKINATKNYGVDVILHGNFFDDAQAKASEIVKETKKTLVHAFNDLDVIMGQGTLGIEILEQVKDVDYVLVPVGGGGILSGIATYIKQVNPNCKLIGVESENVPSYFEARKTGKPHTVASKLSIADGIAVKETGDITFNLLNRYVDDVVLVSEQEVAETILFLFENCKVVAEGAGAVTCAAVLFNKLNITNKKVVCLLTGGNIDVTSFINIANRALIAQHRRVILKINAPISKDHLLKITNVFAKRFVQIHRISDSQNDNKLEINREIIKVVCDINTKEELKLIVEDLEEMGYEIMDKKYIEEIIK;locus_tag=LOCUS_08310;gene=ilvA;EC_number=4.3.1.19;note=WP_011166323.1 threonine ammonia-lyase (Mycoplasma mycoides) [pid:50.3%25%2C q_cov:95.4%25%2C s_cov:97.1%25%2C Eval:1.6e-111],MGA_831
sequence1	MetaGeneAnnotator	CDS	507732	508106	.	+	0	ID=MGA_832;product=RidA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166961.1;translation=MKYIKTDKAPKAIGPYSQAVLLDNGTLFVSGQLGLDPQTMELKQNINEQTIQSLKNIENILNEAGYKKNNIAKVTILLKDINDFNTVNEIYNSFFEQHKPARSTFAVKELPKNGLVEIEAIAFK;locus_tag=LOCUS_08320;note=WP_011166961.1 RidA family protein (Mycoplasma mycoides) [pid:62.9%25%2C q_cov:100.0%25%2C s_cov:93.2%25%2C Eval:3.1e-39],MGA_832
sequence1	MetaGeneAnnotator	CDS	508111	509199	.	+	0	ID=MGA_833;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRQEEALGFVQENELYLNKNTDTLYKYSEIKNNINYFYKCELKYLRERYIKKVISKEEYLSIKAKLKEVVKNYNDKINIILDYTYSLSLDAFNKGNELKDKIDYVQLKKQYEDEIDEIKKEIILDSERKQKIKLVKNNYATYKKNISSKVIKLIGIIMVPLFLLSALLLNYLYYFEKANNGKEFDFKDSNHLVAFITVIIGCLLILGFLAFMSIFTIKRLFLDKQENLFVVSTIGGVGSFTDTIGVGSFAVTVALLNATDSVKDIKKLPGTLNMGLAIPNLFAGTLFVSAIEVELATLISLIIAAMFGAFVGAKLVNKVNKAFVAIFVSICLAIAGLLMMLAQLKVIGNVEGSKDLPNGLEG;locus_tag=LOCUS_08330;note=WP_011261880.1 sulfite exporter TauE/SafE family protein (Aliivibrio fischeri) [pid:37.5%25%2C q_cov:39.0%25%2C s_cov:48.8%25%2C Eval:9.3e-20%2C partial hit],internal stop codon at [509197:509199](+)%2C[509368:509370](+),MGA_833
sequence1	MetaGeneAnnotator	CDS	509542	509763	.	+	0	ID=MGA_834;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYYASTMLMLKFIKLIKEKDKEKVVEKTYENFFEQQDSMKKIEYELKEISMIKDINLDNLKKTLESKKIKLHK;locus_tag=LOCUS_08340;note=MGA_834
sequence1	MetaGeneAnnotator	CDS	510103	510468	.	+	0	ID=MGA_835;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSFISTVSLIVSTSNSVISCGVLDGNNNKKISLSSVILNSNLDKIANNSASTILATVKLKNSQFETEHVQLTNITKTTATIVSKNDGYYIGNVTVTFTIKEENIEQIDKVLVGYYYD;locus_tag=LOCUS_08350;note=MGA_835
sequence1	MetaGeneAnnotator	CDS	510568	510771	.	+	0	ID=MGA_836;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPIYQPINAYEVKEGIKLLHSKGKKVLISMGGATGSEMRFRTDQKDQLKNTILSVVNDYGFDGLDID;locus_tag=LOCUS_08360;note=WP_164919783.1 glycosyl hydrolase family 18 protein (Mesoplasma florum) [pid:67.2%25%2C q_cov:100.0%25%2C s_cov:6.0%25%2C Eval:1.9e-20%2C partial hit],internal stop codon at [510466:510468](+)%2C[510769:510771](+)%2C[510961:510963](+)%2C[510988:510990](+),MGA_836
sequence1	MetaGeneAnnotator	CDS	511096	511245	.	+	0	ID=MGA_837;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMTKYMTTTYSSNNDFYLINPERFVLGASTNELAGRGAATEEAIKKSYQ;locus_tag=LOCUS_08370;note=WP_164919783.1 glycosyl hydrolase family 18 protein (Mesoplasma florum) [pid:50.0%25%2C q_cov:93.9%25%2C s_cov:4.2%25%2C Eval:3.2e-07%2C partial hit],internal stop codon at [510961:510963](+)%2C[510988:510990](+)%2C[511243:511245](+)%2C[511285:511287](+),MGA_837
sequence1	MetaGeneAnnotator	CDS	511561	511761	.	+	0	ID=MGA_838;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKYKTSLNTKTGFLGLLRDSIVIESYISKINHFLKLLYVEQKNERLINLESIYSKKMQQFDGKFS;locus_tag=LOCUS_08380;note=MGA_838
sequence1	MetaGeneAnnotator	CDS	511810	512472	.	+	0	ID=MGA_839;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQTDEKLKYYSKSYKDFFKHIKYLLPQRERELISKVSNSSSIIYEMYEIMKFKDNEEKVLDYKDKKYIVNQKLLSDLFSHSDPIKDQELRALCSLKYNENNNIKKHSFAKVFESIIKEEIESAQIIGMKSFKENFFDDDDFSFQDFLNLLSFTSKNSKVFYSYYQIIKDYLKLEKFYGTDSNLELVKVEKRSYSVEDAKNIIRNSLKVLGEEYISNLEYC;locus_tag=LOCUS_08390;note=WP_011166436.1 oligoendopeptidase F (Mycoplasma mycoides) [pid:34.4%25%2C q_cov:95.0%25%2C s_cov:35.1%25%2C Eval:4.0e-34%2C partial hit],internal stop codon at [511759:511761](+)%2C[511807:511809](+)%2C[512470:512472](+),MGA_839
sequence1	MetaGeneAnnotator	CDS	512563	512979	.	+	0	ID=MGA_840;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFTNDIDSISTLAHEIGHAVHNLFAKQNQPRPLNGFSNMIAEVASTFNEHLLFDYLLKNEKNENKKLKLIQNRIEFIFNNFFSAIADAEFEFQCYQESEKGTVLTLDKISEIVKESNRKILGKSIFDKFNPESYKFS;locus_tag=LOCUS_08400;note=WP_011166436.1 oligoendopeptidase F (Mycoplasma mycoides) [pid:40.5%25%2C q_cov:94.9%25%2C s_cov:21.8%25%2C Eval:4.5e-22%2C partial hit],internal stop codon at [512470:512472](+)%2C[512977:512979](+),MGA_840
sequence1	MetaGeneAnnotator	CDS	513270	513548	.	-	0	ID=MGA_841;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYFELFRKEVSKIIKKDEYIDLLSEKVFSSKEVITNIDFVVREIMKYCRMLKKKNKIAEQNLIDINILSIEIIVFSNSITRYYSRFLSNVY;locus_tag=LOCUS_08410;note=MGA_841
sequence1	MetaGeneAnnotator	CDS	513651	513848	.	-	0	ID=MGA_842;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKFNKNLDNFKLEYTTDYNKYIEFFQQIDNYSNFYNQKFKLINSNLRLLSKFHKLIVDYVSLLG;locus_tag=LOCUS_08420;note=MGA_842
sequence1	MetaGeneAnnotator	CDS	514414	514662	.	+	0	ID=MGA_843;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIKDCLNDTKNIITNYYKHLKEAEKDLFFNKKINSVLYLFENSNNFENMEKCAELILETIEEKQINNNKIHNIFEPDSQDY;locus_tag=LOCUS_08430;note=MGA_843
sequence1	MetaGeneAnnotator	CDS	514880	515026	.	+	0	ID=MGA_844;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQVKKIIAKNFLNPGEQTFIFNDEQILTHGVYNDANEVLIINDLINGS;locus_tag=LOCUS_08440;note=MGA_844
sequence1	MetaGeneAnnotator	CDS	515039	515689	.	+	0	ID=MGA_845;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSFEKYYPKFAKKLKGNEMDFQIDALFVLTDEELEQFNKILKGLGVARPHKSKLYYYSIKCIFPFIFPIVTVVPAEFEDEKIIGIGNHYEKFFRANLTKRDILSTMGIFAVGKIREKYFEFKDIEVSEEDKLTYRNFLDVIKAVYQYDEEFIRKFGQAIYSIDDGDIINYADEYEFFLKNKYFNDFLDTIPLFREEPIFRDYFSKLLYDIYLIDIK;locus_tag=LOCUS_08450;note=MGA_845
sequence1	MetaGeneAnnotator	CDS	515870	515992	.	+	0	ID=MGA_846;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKTLIYKDEPKITSIFEKGAVDPKIIRPKEVKTFKKRRR;locus_tag=LOCUS_08460;note=MGA_846
sequence1	MetaGeneAnnotator	CDS	516057	517229	.	+	0	ID=MGA_847;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAEIKETELLSNLVDIQQLYKNARNTKISNEDTQKFIDSIFGNYFLDNDNINFLLKNGYNFFSFDDEELCFCLSGFQFKNCCKLELKNEKNKNYIPFIKAIIKFEKYKDYLEFSSKLFEKVYLKLAKNEKCNLPYCQSSAVENSLYNINFDENDYVSSNKRNIFDNYYQMGLSFFNRVENNQFKFFGFCKEHDNQIKSIKITKDSVDQDILLLNFVTIVYKLFIARVQLQVLKEEFRSYFNSIDEENIKTLFIYNLKKISNHVSSLLEFYSFFIESLKGESMKYEIIKFTLAKTNNFKIFDVIQPQITPENFNVINSINNIFLTEKFATIVMQEDKKNSFVTMVFDKTNKSVKDFFDQYLKIIKRNSKSEEAFISNCALILADNIIYNEK;locus_tag=LOCUS_08470;note=MGA_847
sequence1	MetaGeneAnnotator	CDS	517453	517614	.	-	0	ID=MGA_848;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEQCQNTDCNNDLNFMDKKRIYVYDENINDEVAIFVCDSCYKKNKDEENNID;locus_tag=LOCUS_08480;note=MGA_848
sequence1	MetaGeneAnnotator	CDS	517729	518013	.	-	0	ID=MGA_849;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIGSLFAAHEESPGNNVTIDGELFKEYYGSASEYNKGEKRYVEGKKELIKVRGKLMETYKEMQEDLQSSISYSGGRTLKDIKKVDYVILKTSNF;locus_tag=LOCUS_08490;note=WP_011183067.1 GMP reductase (Mesoplasma florum) [pid:90.4%25%2C q_cov:100.0%25%2C s_cov:29.4%25%2C Eval:1.6e-43%2C partial hit],internal stop codon at [518110:518112](-)%2C[518131:518133](-)%2C[518215:518217](-),MGA_849
sequence1	MetaGeneAnnotator	CDS	518215	518691	.	-	0	ID=MGA_850;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYAFDYEDIQLIPSMCVVNSRSECNTETKLGKYTFKMPVMPANMASVINEEICEMLAKEGHFYVMHRFNVDSFLFTKKMKEKKLISSISVGVKKEDYKLIEKLAKENVIPDYITIDIAHGHSLSVRNMIEHIRKHLENKTFIIAGNVGTPHAVRDLEF;locus_tag=LOCUS_08500;note=WP_011183067.1 GMP reductase (Mesoplasma florum) [pid:73.2%25%2C q_cov:99.4%25%2C s_cov:49.1%25%2C Eval:1.7e-62%2C partial hit],internal stop codon at [518110:518112](-)%2C[518131:518133](-)%2C[518215:518217](-),MGA_850
sequence1	MetaGeneAnnotator	CDS	518942	519367	.	-	0	ID=MGA_851;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKKVLVITGTVSPAEKSFSLALTNRFIKEYKALNPDDEIINLDLNKEEMAHKTLSRENFGVYFNENDALKYINQLKEVDKIVISSPMNNFNVSGLIKNYLDHVLLADQTFSYKYVKKGDAKGLLEHLTVQILTTQGAPFG;locus_tag=LOCUS_08510;note=WP_011182943.1 FMN-dependent NADH-azoreductase (Mesoplasma florum) [pid:56.5%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 [518900:518902](-)%2C[518933:518935](-)%2C[518942:518944](-),MGA_851
sequence1	MetaGeneAnnotator	CDS	519468	520091	.	+	0	ID=MGA_852;product=uridine kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183203.1;translation=MEKVTIIIIAGGSAGGKTTVAQTIANEIFMDKDVVHLSMDSYYKDFSDLSFEEKQTLNFDHPSSLNIELLCQHLDNLKQFKSIDVPVYDFKTHSLKNEFIKINPSNVVILDGILSLHIEEIRKRGDIKLFIRTDDDIRFIRRLLRDVNERGRKLEDVVNQYLNTVKPMHKFFVEPSIDYADLIIPYYEGNNIAIDMVASKISSLLKK;locus_tag=LOCUS_08520;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:4.9e-68],MGA_852
sequence1	MetaGeneAnnotator	CDS	520294	520428	.	+	0	ID=MGA_853;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNENNKDLSYTEDSIQILEGLEAVRKRPGMYIGSTDSRGLHHLV;locus_tag=LOCUS_08530;note=WP_001557340.1 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 [520426:520428](+),MGA_853
sequence1	MetaGeneAnnotator	CDS	520537	521388	.	+	0	ID=MGA_854;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPIGNYKGTTQSTPEIIFSVLHAGGKFGGDGYKTSGGLHGVGSSVVNALSSKFKVTIYRDGVISKIKFANGGKLVQPLKQIGTSKQNGTVVNFLPDETMFSTTKFSFSTISERLKESALLNSGLKLTLKDNRSDKYVEYIYENGLTEFVNELKGGQKSLCSPILLKGSEQNIDVEIALTYTTDFSETVLGFANNVKTSDGGTHVTGFRTGLVKALNEYGKTENILKEKDKRLDSSDIKEGLIAIVTVKVPEDLIQYEGQTKGKLGTSEARTACEKVTEQSISF;locus_tag=LOCUS_08540;note=WP_011183206.1 DNA topoisomerase IV subunit B (Mesoplasma florum) [pid:64.0%25%2C q_cov:100.0%25%2C s_cov:43.6%25%2C Eval:1.4e-102%2C partial hit],internal stop codon at [520426:520428](+)%2C[521386:521388](+),MGA_854
sequence1	MetaGeneAnnotator	CDS	521518	521958	.	+	0	ID=MGA_855;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLGKLTPAQGKNKEDNELFLVEGDSAGGSAKSGRDRKFQAILPLRGKVINAEKTKLIDLLKNEEITTIINAIGAGIGSDFDLSDSNYGKIILMTDADTDGAHIQTLLLTFFYRYMKELIINKNIYIAMPPLFKVTTGSNKKDFIYL;locus_tag=LOCUS_08550;note=WP_011166694.1 DNA topoisomerase IV subunit B (Mycoplasma mycoides) [pid:76.7%25%2C q_cov:100.0%25%2C s_cov:22.4%25%2C Eval:4.9e-60%2C partial hit],internal stop codon at [521386:521388](+)%2C[521956:521958](+)%2C[522055:522057](+)%2C[522175:522177](+),MGA_855
sequence1	MetaGeneAnnotator	CDS	522565	523146	.	+	0	ID=MGA_856;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKAREFSKPNVGILIYDEFTDSYFLNPTTGPILLKSKEILKEISSTRIDIFNIFINLRSIAVEEDRRIEIFGYSKQQIIKSINQSINNIKECSTKIRKIEGIPRYIATLKQEEEKIFYNNYATVNYDLESENLKKVNEVQVEANLEKIEDLEKIYIQIRRDEEINKTMMDLARSLIAKNEPKLYTQNSITGM;locus_tag=LOCUS_08560;note=MGA_856
sequence1	MetaGeneAnnotator	CDS	523255	523545	.	+	0	ID=MGA_857;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAVKDEKGIINFALEELMGDRFGRYAKYIIQERALPDVRDGLKPVQRRILFTMNEINLTHDKAYKKSARVVGDVIGKYHPHGDTSVYDALVRMSQH;locus_tag=LOCUS_08570;note=WP_011183207.1 DNA topoisomerase IV subunit A (Mesoplasma florum) [pid:82.8%25%2C q_cov:96.9%25%2C s_cov:10.2%25%2C Eval:1.5e-41%2C partial hit],internal stop codon at [523543:523545](+),MGA_857
sequence1	MetaGeneAnnotator	CDS	523570	524769	.	+	0	ID=MGA_858;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHGNNGSIDGDSAAAMRYTETRLAKISSIILADLQKNTVLFAPNYDDSEKEPTVLPGYFPNILVNGATGIAAGYATNMPPHNIVEVIDAIIATIKNPQIKLTDILKIVKGPDFPTGGIVMGQEGIESAFETGKGRIILQSKMHREEDNIVIDEIPYEVVKQDLVRKIGDVVDANPQIEVKEVRDETDRTGLRIVIELSPKADYEITRKFLLKNTPLQVSYNYNNVVIVDKQPKQLGIIPIINAYIKHYKEVFTRKTQYDLDKAEKRLEIIDGLIKAISILDEVIQIIRNSSNRSDAIANLIQKYEFSETQAIAIVDLRLYRLTSTDIVKLEEEKKELGQLISEFKSILGDVKVLDLKIIEQLTKTKTEFKVPRRSEVVGEIENIDVEIKKTIVEKDYTI;locus_tag=LOCUS_08580;note=WP_011183207.1 DNA topoisomerase IV subunit A (Mesoplasma florum) [pid:67.2%25%2C q_cov:100.0%25%2C s_cov:43.9%25%2C Eval:6.9e-152%2C partial hit],internal stop codon at [523543:523545](+)%2C[524767:524769](+)%2C[524860:524862](+)%2C[524962:524964](+),MGA_858
sequence1	MetaGeneAnnotator	CDS	524977	525459	.	+	0	ID=MGA_859;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHINKVATISGNEKILAAFVVKKFENAKQEILLATKKGMIKRTPIEDLKTKLFSKPFRIIKLQNEDELVSASLVTSQTRTVTMLTRTGFAVRYDIAEIPSAGPNAKGVKSTVVKDEDIVAGKAFTTGDVLIITNKGNVKKIKQDLVPIMTRPKRGVRLYP;locus_tag=LOCUS_08590;note=WP_011183207.1 DNA topoisomerase IV subunit A (Mesoplasma florum) [pid:49.7%25%2C q_cov:100.0%25%2C s_cov:17.7%25%2C Eval:3.2e-40%2C partial hit],internal stop codon at [524767:524769](+)%2C[524860:524862](+)%2C[524962:524964](+)%2C[525457:525459](+),MGA_859
sequence1	MetaGeneAnnotator	CDS	525610	525960	.	+	0	ID=MGA_860;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPEIITSTLEKSFIIKNGDMPPAPRSGDEEIAKVIEPKKNIVEKEKVEKKKVVKETQEVEKHIEVKKVEKNEVLEKTNETKNIEVKLVNNSKLEKDNSNIEDEDTSELKIDIDDLV;locus_tag=LOCUS_08600;note=MGA_860
sequence1	MetaGeneAnnotator	CDS	526077	526322	.	+	0	ID=MGA_861;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSDNLIIQIIGLYEKDNRNLAKYLSKKYSMIFLDISYFTNNNKKEMIDKYSSFILNNKDFIITGSMSELIYSSFYNRDYLI;locus_tag=LOCUS_08610;note=MGA_861
sequence1	MetaGeneAnnotator	CDS	526323	526520	.	+	0	ID=MGA_862;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKKDEEKINNNIKIHKFNSLYKEFVMAKSFKIIIDSNLNLKDQEKIFLSIMEKNNYDYIQGKNK;locus_tag=LOCUS_08620;note=MGA_862
sequence1	MetaGeneAnnotator	CDS	526492	527142	.	+	0	ID=MGA_863;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITYKGKISRFIYKGENGFAIAIFILFNNEKKSITLTGPISLMKMQIIYEVTGEEVEDIKRNQKNFSVKSFTQVKHFDREGLIKYLSSPAFPTVGKKLAENIVDYFKEDIFKKILENKSELLNINDMTESKAEIIFDVVCSKFGDNKILDIFIENNLKMEFLNSLQREFEDSNIIEDILKNDFYNYANINKLQPFFEVDRVALTFGIEENDEKRIS;locus_tag=LOCUS_08630;note=MGA_863
sequence1	MetaGeneAnnotator	CDS	527266	528702	.	+	0	ID=MGA_864;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFAKNEKILYFKNEKIYTKESYEDEQYIAKELSTLLNKSNSFVKRFDFQEKISEVEKFISLRSGIENFKYNEEQIDAIKKFIDNDISIITGGPGTGKTTVITGIIKIYELIYNDSNFAITAPTGRAAGKIKDDSGYKTSTIHRLLQYSGNDIFEANEEKPIYKNLVVIDECSMIDNHLFASLLKGVKGIKKLLLVGDIEQLPSVNYGNLYQDLIECNQFKTTRLIKNNRQKTNKGELNSIIEISNAIKNETINDFDFENSTNVNFVFSKDYSQVVNILKETYLNLNPSKLEEQLNEIQIIAPMYKDQLGIDNINSIIQNLINPATSKVYKRFDAEFRVNDKVMYIENDPIFELSNGDVGYIKELNFIGDKLKTAKVVFNEREIEMGNSSFQKIKLSYACSIHKTQGSEYRNTILVLDGNNRASNFILNKKMLYTAITRAKEQLIIISDNNLFIKSCYKNAKERLTTLKETIISLNIE;locus_tag=LOCUS_08640;note=WP_014584390.1 AAA family ATPase (Mycoplasma leachii) [pid:42.0%25%2C q_cov:98.5%25%2C s_cov:63.1%25%2C Eval:1.2e-95%2C partial hit],internal stop codon at [527140:527142](+),MGA_864
sequence1	MetaGeneAnnotator	CDS	528741	528887	.	+	0	ID=MGA_865;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKHKNTYTIAIVITVLLVTTFIVAGSIYSSIDVTKILENKLSEKNNDS;locus_tag=LOCUS_08650;note=MGA_865
sequence1	MetaGeneAnnotator	CDS	529080	529334	.	+	0	ID=MGA_866;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIIITLTLIEFIKRDSEVMTLKNVGKYGMYVSFISSFLFALIGIIIFCSIENNLQKNYQGFEKYDSFSIMTFLIHLSKGTIFS;locus_tag=LOCUS_08660;note=MGA_866
sequence1	MetaGeneAnnotator	CDS	529581	529853	.	+	0	ID=MGA_867;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSITFAFTIIIPGFVHPYTNVTQILITLISIIIIPVAFLPMIIGYIMAKKIKRFNYNRLMFIQILLLTLIILLIQLNASIFLKDYMFKFT;locus_tag=LOCUS_08670;note=MGA_867
sequence1	MetaGeneAnnotator	CDS	530151	531152	.	+	0	ID=MGA_868;product=N-acetylglucosamine-6-phosphate deacetylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166715.1;translation=MPGFIDCHVHGGYGVDFESGTIEAFEKFSKNVAIEGITSYVQGSVTNSKENNEKYLHQFAQFMKKEPIGSKCLGLHLEGPFISKEKKGAHEVSLLEKPNIDSLKQLIKYSNDNIRIVTYAADLQDGSFTKYMLENNILPSVGHTNMRFDQCYKDYEIGFRHVTHLFNGMSGVSQYEPGLATFSLYQDDILCEVITDGIHIEKDTLKLIYKIKGPENICIITDAMNAKGLPDGEYKLGNLEVIKKGMKVSLKSSGVLAGAGATYDHNVRTMIEANPEIKMPDLVKMTSINIAKQLKIFSQRGSIEENKFADLVVLNNDLQVLKTIVEGKVIYEK;locus_tag=LOCUS_08680;gene=nagA;EC_number=3.5.1.25;note=WP_011166715.1 N-acetylglucosamine-6-phosphate deacetylase (Mycoplasma mycoides) [pid:55.7%25%2C q_cov:99.7%25%2C s_cov:86.0%25%2C Eval:5.6e-109],MGA_868
sequence1	MetaGeneAnnotator	CDS	531142	531609	.	+	0	ID=MGA_869;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKINPRSFTMIKFLLTLGLIFNYSISLVSVIDVFKSKNNNLLLNTKTYLAVQLLLFISAIISILIFFLVRKDVNKKLSYKYNKKEKKLIYIICFLVALIFLISLVNLLMFLFLFKNIIIMIFTFLIIQLLLGIGVSILESYSRLTEQALVNKL;locus_tag=LOCUS_08690;note=MGA_869
sequence1	MetaGeneAnnotator	CDS	531713	532696	.	+	0	ID=MGA_870;product=Gfo/Idh/MocA family oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183105.1;translation=MIKFGTIGTSLITENFIQSAVKNPNCKIVCCYSRDKTKAQNIIRENKLYAKAVDNFDQMLDEVDAVYIASPNGLHYEQAKYFLTQQKHVLLEKPLTLLFDQAVELFEIAKRNNVFLMEAYKTFHCPQFSHLFEFVKNYQPFIANLNLNKYSSRMEKVKLGQFDSVFDATLGKGSTYDMLIYPVELSIALFGPVVQVKAMGQKLTNGSGMSDCVLLTHESDVLTNIVCSKVSTGRIQNELLSDIATLTFKNVIQLEEINLYNHTNSDEVQLIHKSNNDKDLFEYEISVFLKMIYENDFYLRDYLLDISCEAIRVLNLVEKNQEKLGDN;locus_tag=LOCUS_08700;note=WP_011183105.1 Gfo/Idh/MocA family oxidoreductase (Mesoplasma florum) [pid:38.9%25%2C q_cov:97.6%25%2C s_cov:99.7%25%2C Eval:9.7e-58],MGA_870
sequence1	MetaGeneAnnotator	CDS	532698	533003	.	+	0	ID=MGA_871;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLNRYIDHTLLKADAKKKEIEKLCNEAKEWDFATVCINPCHISYAKELLKGTNVGITTVVGFPLGANTSEVKVFEAKQAIENGATEIDMVINIGAVKDAN;locus_tag=LOCUS_08710;note=WP_011183018.1 deoxyribose-phosphate aldolase (Mesoplasma florum) [pid:71.3%25%2C q_cov:100.0%25%2C s_cov:45.9%25%2C Eval:1.6e-35%2C partial hit],internal stop codon at [533001:533003](+),MGA_871
sequence1	MetaGeneAnnotator	CDS	533022	533360	.	+	0	ID=MGA_872;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKAVKKASPNNCVKVILENCLLTKEEIVKCCELALEAKLEFVKTSTGFSTSGANLEDVVLMKSIVKDKAKVKAAGGVRTFEYAIKMIENGAERLGTSGGVAIVKGEEHKNGY;locus_tag=LOCUS_08720;note=WP_011183018.1 deoxyribose-phosphate aldolase (Mesoplasma florum) [pid:70.5%25%2C q_cov:100.0%25%2C s_cov:50.9%25%2C Eval:3.2e-36%2C partial hit],internal stop codon at [533001:533003](+),MGA_872
sequence1	MetaGeneAnnotator	CDS	533771	534073	.	+	0	ID=MGA_873;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKINVYSEIEPLESVLLHRPGKEIENLTPDLLERLLFDDIPFLKVAQEEHDKFAEVLINNKVQVFYIEKLVQEALDQNPNLKDKFVDQFIDEAKIEKE;locus_tag=LOCUS_08730;note=WP_002681549.1 arginine deiminase (Treponema denticola) [pid:59.4%25%2C q_cov:96.0%25%2C s_cov:23.4%25%2C Eval:7.8e-27%2C partial hit],internal stop codon at [534071:534073](+)%2C[534272:534274](+),MGA_873
sequence1	MetaGeneAnnotator	CDS	534098	534274	.	+	0	ID=MGA_874;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSMSNLDMVNEMIGGTKKIDLDPKDKSDYPFISDPLPNLLFQRDPFASVGNGVFLNKM;locus_tag=LOCUS_08740;note=WP_002288439.1 arginine deiminase (Enterococcus) [pid:42.4%25%2C q_cov:100.0%25%2C s_cov:16.1%25%2C Eval:4.3e-09%2C partial hit],internal stop codon at [534071:534073](+)%2C[534272:534274](+),MGA_874
sequence1	MetaGeneAnnotator	CDS	534314	534769	.	+	0	ID=MGA_875;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKNHKDFKEQIEIYYDRNNEFPIEGGDVLVLNKEILIIGISQRTSIDAVRLLSDKLFKNTTFKKIIAMDLPKSRSYMHLDTVFTNIDYDKFIVHPLIFDDINNFKIIEISQEGEKEIKESLVKFLEDITGKKIQLIKCGGEDSIAAGREQ;locus_tag=LOCUS_08750;note=WP_002485355.1 arginine deiminase (Staphylococcus epidermidis) [pid:44.8%25%2C q_cov:100.0%25%2C s_cov:38.9%25%2C Eval:9.0e-31%2C partial hit],internal stop codon at [534272:534274](+)%2C[534767:534769](+)%2C[534830:534832](+),MGA_875
sequence1	MetaGeneAnnotator	CDS	534981	535553	.	+	0	ID=MGA_876;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINLRGRSLLTVLDFSRREIEYLLDLARDLKRAKYAGNEVQRLKGKNICLLFQKTSTRTRCAFEVAAMDQGAGVTYIGSEGSQMGIKESIADTARVLGRMYDAIEFRCNNHSDVVELAKYAGVPVFNGLSDKFHPTQMIADFMTIIEKFGTLKDKKLVFCGDARNNMGNSLMACCAKLGVSFTAAAPKQL;locus_tag=LOCUS_08760;note=WP_002657012.1 ornithine carbamoyltransferase (Borreliella burgdorferi) [pid:61.6%25%2C q_cov:100.0%25%2C s_cov:58.1%25%2C Eval:5.8e-62%2C partial hit],internal stop codon at [535551:535553](+)%2C[535674:535676](+)%2C[535704:535706](+),MGA_876
sequence1	MetaGeneAnnotator	CDS	535725	535904	.	+	0	ID=MGA_877;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKPYQVTMNLFKLANKDAIFMHCLPSYHDLNTDIGKKINEKYGLSEMEVTNEVFESKKS;locus_tag=LOCUS_08770;note=WP_002682235.1 ornithine carbamoyltransferase (Treponema denticola) [pid:66.1%25%2C q_cov:100.0%25%2C s_cov:17.5%25%2C Eval:1.7e-16%2C partial hit],internal stop codon at [535551:535553](+)%2C[535674:535676](+)%2C[535704:535706](+)%2C[535902:535904](+),MGA_877
sequence1	MetaGeneAnnotator	CDS	536355	536591	.	+	0	ID=MGA_878;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFFSFCGSTYGMAEESLGFYLIIIPLVLSSGYDKFTGLLIVLFGAGAGVLASTVNPFVIAAATDAAGGKISSGEGMA;locus_tag=LOCUS_08780;note=WP_011182912.1 YfcC family protein (Mesoplasma florum) [pid:57.3%25%2C q_cov:98.7%25%2C s_cov:15.7%25%2C Eval:2.1e-19%2C partial hit],internal stop codon at [536106:536108](+)%2C[536118:536120](+)%2C[536337:536339](+)%2C[536589:536591](+)%2C[536595:536597](+)%2C[536604:536606](+)%2C[536643:536645](+)%2C[536823:536825](+),MGA_878
sequence1	MetaGeneAnnotator	CDS	537015	537251	.	+	0	ID=MGA_879;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVGTKDMLGVCLVIATAAGVGVVMEKSGIQLLFVNGLSSVMKDMNKTLFILISFILFLPLSFVIPSTSGFAAAIFPI;locus_tag=LOCUS_08790;note=WP_011182912.1 YfcC family protein (Mesoplasma florum) [pid:52.6%25%2C q_cov:98.7%25%2C s_cov:15.0%25%2C Eval:1.5e-14%2C partial hit],internal stop codon at [536823:536825](+)%2C[536868:536870](+)%2C[536985:536987](+)%2C[537249:537251](+),MGA_879
sequence1	MetaGeneAnnotator	CDS	537258	537410	.	+	0	ID=MGA_880;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAVTIGAGSGSVLAFSFASGIINLFTPTSGVVMGALGIAKMDYGSFLKEA;locus_tag=LOCUS_08800;note=WP_020862985.1 YfcC family protein (Mycoplasma mycoides) [pid:65.0%25%2C q_cov:80.0%25%2C s_cov:7.8%25%2C Eval:2.3e-10%2C partial hit],internal stop codon at [536985:536987](+)%2C[537249:537251](+)%2C[537408:537410](+),MGA_880
sequence1	MetaGeneAnnotator	CDS	537507	537947	.	+	0	ID=MGA_881;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKIVVALGGNALGNTPNEQKEIVKETAKNLVDLISAGHKLVIVHGNGPQVGMINQAFNIANTYDKKSPLVDFPECGSMSQGYIGYHLQNAIKNEFEKRKMNSNNVITLVTQTKVSKEDSAFKNPTKPIGDFYEKQVALELKEKNN;locus_tag=LOCUS_08810;note=WP_011167019.1 carbamate kinase (Mycoplasma mycoides) [pid:64.4%25%2C q_cov:100.0%25%2C s_cov:46.8%25%2C Eval:9.7e-48%2C partial hit],internal stop codon at [537945:537947](+),MGA_881
sequence1	MetaGeneAnnotator	CDS	537951	538439	.	+	0	ID=MGA_882;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEDAGRGYRRVVASPKPVDIVEKDVIKYLLEKNVCVISGGGGGIPVIEENNQLQGVASVIDKDFAAAKIAEIIQADKLIILTAVNKVLINYGKENQTSLDSVTLKELEKYIGEHHFAPGSMLPKVQAAMEFVKNSGNQALIGSLTETKSVIEGKSGTIIKK;locus_tag=LOCUS_08820;note=WP_011167019.1 carbamate kinase (Mycoplasma mycoides) [pid:59.7%25%2C q_cov:97.5%25%2C s_cov:51.3%25%2C Eval:3.3e-48%2C partial hit],internal stop codon at [537945:537947](+),MGA_882
sequence1	MetaGeneAnnotator	CDS	538547	539719	.	+	0	ID=MGA_883;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKHGFEIENYNLSPSIRKRIDDLINLNLNPSTISLITAEFSSISDEIKQNIGKYIARLLEIENFLLEQEYNKSKDANYGLNFKQEINIKNRQTNLLRIQQIFAKKDNENERVNIQNNDQDVNNHSGYLKSYKEAMFIKNENEKSRNAKLEELANKKRRIEMAVLEEQEKIKTAQKQYQRAKLDDDEITQEIKLNIIKFANGRLKEISEAIETYKTVDKIPNEVIDSKIINSKNQQENFENKLSKDSFFNEEDITQTLEIDLETFFDVPGFEEDDNYEYDEYYDYDFDDYNEEEKEIKLSDIDSIKKQTNQHKYNELVSTKQESKQESKQESKQDKKILKEINAEKIIKKIKKKNRAKDKEIERILKEKEQLEKELIKLKEEKKIIELRE;locus_tag=LOCUS_08830;note=MGA_883
sequence1	MetaGeneAnnotator	CDS	539930	540232	.	+	0	ID=MGA_884;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISLEKANVRKVLFEELQSLKENNEEKISFQNKNDISIEVKKQNKFEEDEKRIGYLERKRSLNIISKEELKELETKKKNNNHISSKINLKKYRLVTKHSS;locus_tag=LOCUS_08840;note=MGA_884
sequence1	MetaGeneAnnotator	CDS	540268	540411	.	+	0	ID=MGA_885;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKLVEPKIEYEQKLINAINEFFEVDNIKNDINGSSNITSFDSIQK;locus_tag=LOCUS_08850;note=MGA_885
sequence1	MetaGeneAnnotator	CDS	540448	540636	.	+	0	ID=MGA_886;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVPFNQYLVINETNELIGFVNIRLSLNNYLLNFGGHIGYSVVPSHRQKGYATEILNQALKEC;locus_tag=LOCUS_08860;note=WP_011183543.1 GNAT family N-acetyltransferase (Mesoplasma florum) [pid:69.5%25%2C q_cov:95.2%25%2C s_cov:34.7%25%2C Eval:1.2e-19%2C partial hit],internal stop codon at [540409:540411](+)%2C[540634:540636](+),MGA_886
sequence1	MetaGeneAnnotator	CDS	540912	541064	.	+	0	ID=MGA_887;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSFLKKVGASFGFVIILMPIFGIILSIGNAANVSFLKEIGSILFSNIGI;locus_tag=LOCUS_08870;note=MGA_887
sequence1	MetaGeneAnnotator	CDS	541986	542270	.	+	0	ID=MGA_888;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLMTPKGEKRAKVGIYITAALTAMLVGVTEPVEYLFCFTMPLFYFSIYCPFNGLIAAITSLFKVKVGTSFSTGLFDFTLSGIVPTVNGVNTRI;locus_tag=LOCUS_08880;note=WP_011861632.1 glucose-specific PTS transporter subunit IIBC (Clostridioides difficile) [pid:48.1%25%2C q_cov:81.9%25%2C s_cov:14.5%25%2C Eval:7.8e-14%2C partial hit],MGA_888
sequence1	MetaGeneAnnotator	CDS	542415	542645	.	+	0	ID=MGA_889;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGGFKNIKQYSLKENQLEVVFKNVPDFKSLFNYVNKIEKQEKGLKLSIKPENEEVVLLFDKIYENRKTKKEINKSI;locus_tag=LOCUS_08890;note=MGA_889
sequence1	MetaGeneAnnotator	CDS	542740	543006	.	+	0	ID=MGA_890;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKNLTKFLFIIYAIFASFFIMSVLGLFLVPLFNKNYDLITVFSSIYLESIIGFVIFYFSIGFIFCSIASFFMMKSYEKDKFTKKVI;locus_tag=LOCUS_08900;note=MGA_890
sequence1	MetaGeneAnnotator	CDS	543201	543353	.	-	0	ID=MGA_891;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIVNLANAMESEFNEIKILLAKSKKVIEFEQLKKDKVAFNILKTINDNI;locus_tag=LOCUS_08910;note=MGA_891
sequence1	MetaGeneAnnotator	CDS	543381	543749	.	-	0	ID=MGA_892;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGSELRNILKNNSKYLKTVFGDTLIANNIDKDNIYVKTNNEMLEEMLKDYKKYDVVICSAALYDFEVENYIDKKIEKRSIKDEDLKISLSPSVDVLKELGKQKTHQFLVGFSLANDFNLEKA;locus_tag=LOCUS_08920;note=WP_012047883.1 bifunctional phosphopantothenoylcysteine decarboxylase/phosphopantothenate--cysteine ligase CoaBC (Clostridium botulinum) [pid:31.1%25%2C q_cov:100.0%25%2C s_cov:30.1%25%2C Eval:1.2e-09%2C partial hit],internal stop codon at [543381:543383](-)%2C[543951:543953](-),MGA_892
sequence1	MetaGeneAnnotator	CDS	543951	544376	.	-	0	ID=MGA_893;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRQVNLIITGGIAASKSLKVYNLLKERYEVKIIATKNAKKFVNLNNIDHLEDIFDRDFYDNHHYGDHIKIAFESSLNIVYPASYNYIGKISSGIADDIASLIFAVSNYNTILFPSMNSNMYLNPINQRNKEILISTNKVE;locus_tag=LOCUS_08930;note=WP_011016598.1 bifunctional phosphopantothenoylcysteine decarboxylase/phosphopantothenate--cysteine ligase CoaBC (Fusobacterium nucleatum) [pid:38.6%25%2C q_cov:95.0%25%2C s_cov:34.7%25%2C Eval:1.7e-16%2C partial hit],internal stop codon at [543951:543953](-),MGA_893
sequence1	MetaGeneAnnotator	CDS	544500	544664	.	+	0	ID=MGA_894;product=30S ribosomal protein S21;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183260.1;translation=MASVVVREGEPIEKTLKRFQKVAASNKSEARKREYHLSKKEKRIYKQKQNKKFG;locus_tag=LOCUS_08940;gene=rpsU;note=WP_011183260.1 30S ribosomal protein S21 (Entomoplasmataceae) [pid:83.0%25%2C q_cov:98.1%25%2C s_cov:98.1%25%2C Eval:2.1e-19],MGA_894
sequence1	MetaGeneAnnotator	CDS	544757	545197	.	+	0	ID=MGA_895;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIKNSQSNEVKVLRPDAVSKKNPNLNKFDKKKIIIPEFTSKVELLKQANKVASYKNSKGQNYLNDLPEGVRKSIEEKERINLALNFGKSNEAEEIRKRLSIEKKPIDKKRANELRNEREAFFRANIEKLQMSNSSKKRRTKKASI;locus_tag=LOCUS_08950;note=MGA_895
sequence1	MetaGeneAnnotator	CDS	545267	545818	.	+	0	ID=MGA_896;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYYLKCTIKDISTDLIIIESANIGYKGFKLFNDFVEKEQEINLYVVNYKNEFINELLFFNKKESRDLCEILLNIKNVGITTIKKIFLKMKYEHFIKLCEEQHIDEIILKTKLSETICKKIVQEIRNKIFNEKYNVKQMRVINSLSKLGYKISDIYKSIQQIDFNLTEENILKSAILNLNSYGN;locus_tag=LOCUS_08960;note=MGA_896
sequence1	MetaGeneAnnotator	CDS	545808	546728	.	+	0	ID=MGA_897;product=Holliday junction branch migration DNA helicase RuvB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166725.1;translation=METNIFRPNCLEEFIGQKNVVSNLNVFVQSANKRDKSLDHILIHGPSGLGKTSLGYLVSKIMKKKIYVLNGPSLQKPSDIISPLTSLKENEILFIDEIHSVSKEVFEVLYPVLEDNKLNIIIGKEYNSKVVNIKIPNFTLIGATTELNKLTTPFINRFPISFHFQHYSDFEIFQILKINSKKLNINLNDEIFKYISKFCQNTPRVAINLLKRIYDYIIILDNKNIDINLIKDIFKKLEIYDSGLNSQEVSYLKLLNKYNYLGIETIQQMLGLQQQIIIKNIEPLLIRNFLIEKTTKGRKITAKGKE;locus_tag=LOCUS_08970;gene=ruvB;EC_number=3.6.4.12;note=WP_011166725.1 Holliday junction branch migration DNA helicase RuvB (Mycoplasma mycoides) [pid:51.7%25%2C q_cov:98.0%25%2C s_cov:97.7%25%2C Eval:1.2e-83],MGA_897
sequence1	MetaGeneAnnotator	CDS	546765	547091	.	+	0	ID=MGA_898;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNTYNNLYRKRENNNMKKLLTVLGSAMLTTSTLGASLNTVSCGENYTLADFQKLLSEIENLEENKYTEESLQNLMIVMIETSTNVILGKSVTKNYKKLKNAMNALVLK;locus_tag=LOCUS_08980;note=MGA_898
sequence1	MetaGeneAnnotator	CDS	547307	547450	.	+	0	ID=MGA_899;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIAAFNIIDSVEKNDIGYFENSVEFFKNKGFKVIVPENKMTDNKQE;locus_tag=LOCUS_08990;note=MGA_899
sequence1	MetaGeneAnnotator	CDS	547679	548155	.	+	0	ID=MGA_900;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MESKDDTYVSLIKKISIKHDIEEIQLNNPKFFGKKIVKGNLIGGEITSFLEMYKSGYISKVTKKDILLIDGIFKDKEDIKKIIFILKRYKILNKVKGILVCQSVIDNQEMLKIFLSEMQKIKKTNIAIGLKGMMSDEINILKLNKEIIINFKEFKILQ;locus_tag=LOCUS_09000;note=MGA_900
sequence1	MetaGeneAnnotator	CDS	549047	549214	.	+	0	ID=MGA_901;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENKVYNLKKSSLGKVSFLEGTSFCMIEGKTNNNQKFKELIIVRTVEEAIKKFPQ;locus_tag=LOCUS_09010;note=MGA_901
sequence1	MetaGeneAnnotator	CDS	549326	549520	.	+	0	ID=MGA_902;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYENFAIEEIKNMSPVEFIRSEPEMIALTLVHITVRHTNGFLSVPVNNIEISIRFVKNILTINF;locus_tag=LOCUS_09020;note=MGA_902
sequence1	MetaGeneAnnotator	CDS	549614	550036	.	+	0	ID=MGA_903;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILNLLSSITIISSSILTVTSCGNPISGSSFYNTNYNKAFGIIFSTKAEDKSINFSMLPDLKAIPKPDPGRLKPSTFNYATDKIKKLKLKDNEIKLNCENYVCNQNNSFKGKKLTREEYNTNDEDKIIIQYAIDDLAQ;locus_tag=LOCUS_09030;note=MGA_903
sequence1	MetaGeneAnnotator	CDS	550253	550621	.	+	0	ID=MGA_904;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTTEIIDLILNSKNSKIENIITLPEKNNENKNKRLVINFEDIDKEKETLTKQSVENLFKYYQNNLKFTEKVETEKPESDNSQVVSKKTYKSDNLKSFEIEKAEIKEIVININYKLDVKGESK;locus_tag=LOCUS_09040;note=MGA_904
sequence1	MetaGeneAnnotator	CDS	550621	550821	.	+	0	ID=MGA_905;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILSIFSSIFIIPLASALSVSCEAIVTIASKSYKGKTDEINIFFNGKNIIKPYNLKYLEFINDS;locus_tag=LOCUS_09050;note=MGA_905
sequence1	MetaGeneAnnotator	CDS	551191	551427	.	+	0	ID=MGA_906;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLKVSDNMVKDEKTNEKYYEIQGSLSETQQAQFTSKLISRANAKLSLDLTDKITFDDKQNTLQIDGINYKFVEKSNV;locus_tag=LOCUS_09060;note=MGA_906
sequence1	MetaGeneAnnotator	CDS	551424	551723	.	-	0	ID=MGA_907;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENPKQSDFYKDEMKIVENDPDFEKKREASKIIEHYFENIIGQEINENEIDEISVEKINENSKIIIFNKGIMISEELRGKIELIDQIFKSSKVFKKSNV;locus_tag=LOCUS_09070;note=MGA_907
sequence1	MetaGeneAnnotator	CDS	551727	551993	.	-	0	ID=MGA_908;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNIGADAQLELFEIIQKNPSNIQEKITELIMKMQLNNIIKNLSKSLNIIDSLMSKLGEDTLLAEIEYEDLQYILEANLKKTLKKLEI;locus_tag=LOCUS_09080;note=MGA_908
sequence1	MetaGeneAnnotator	CDS	552340	552780	.	+	0	ID=MGA_909;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRNSIKIIDEGFFLLNENQNFRFDREASKKILENIQFPIIVLDTEFFNHSHDNGNNDNQLYSESNKDLVYVIQYSFAKSLKEISNRDNKKAIKSITIKRNFNDKTYDFFDQYLKMIISFLNMCRNKEIRTIVCAGASNDIKIINQ;locus_tag=LOCUS_09090;note=WP_020862792.1 hypothetical protein (Mycoplasma mycoides) [pid:54.2%25%2C q_cov:98.6%25%2C s_cov:46.7%25%2C Eval:2.0e-37%2C partial hit],internal stop codon at [552778:552780](+)%2C[552937:552939](+)%2C[553015:553017](+),MGA_909
sequence1	MetaGeneAnnotator	CDS	553072	553275	.	+	0	ID=MGA_910;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCCNAYSFFSKSKDAKIDFEEYKQMNRNIKKVIDHCYNDVLKVLEFLSFVYEFTHVSYSKNVYIKKY;locus_tag=LOCUS_09100;note=WP_020862792.1 hypothetical protein (Mycoplasma mycoides) [pid:43.1%25%2C q_cov:97.0%25%2C s_cov:20.3%25%2C Eval:2.3e-10%2C partial hit],internal stop codon at [552937:552939](+)%2C[553015:553017](+),MGA_910
sequence1	MetaGeneAnnotator	CDS	553336	553488	.	+	0	ID=MGA_911;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKKKRTNFLLLNYFKPSIYLESYEKVNLDSLKNSGIKLVMCDMDNTLIG;locus_tag=LOCUS_09110;note=MGA_911
sequence1	MetaGeneAnnotator	CDS	553660	553920	.	+	0	ID=MGA_912;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIVKKLFKYKEEEIILIGDQLVTDVLVANRAHIKSILVSPLSRNKEESKTIQFLEKHILKKLSQKNILHEGFYNEGEIGGNYEIL;locus_tag=LOCUS_09120;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:2.8e-08%2C partial hit],internal stop codon at [553486:553488](+)%2C[553630:553632](+),MGA_912
sequence1	MetaGeneAnnotator	CDS	553907	554338	.	+	0	ID=MGA_913;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFSNKDKVEENDENFKNDQENSLKAEDNSSNKIKQKSKVTLTEATPGIGNTTNFNSKGPKKCIGCGRQLQTTDDRQPGFSLNIEKQDLCLRCFKIKYYNKLVEQEINDQDFINIIDEINSTTKKIRYYYVVDIFDLPGSRMT;locus_tag=LOCUS_09130;note=WP_011166730.1 ribosome biogenesis GTPase YqeH (Mycoplasma mycoides) [pid:51.2%25%2C q_cov:57.3%25%2C s_cov:22.6%25%2C Eval:3.1e-16%2C partial hit],internal stop codon at [554336:554338](+),MGA_913
sequence1	MetaGeneAnnotator	CDS	554561	554767	.	+	0	ID=MGA_914;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGISNAGKSSLINACLKLNKQIPSIVTSKYVNTTLDKIKINFTKNNFVYDTPGLVKHNHIAIATAPNY;locus_tag=LOCUS_09140;note=WP_011183248.1 ribosome biogenesis GTPase YqeH (Mesoplasma florum) [pid:50.8%25%2C q_cov:89.7%25%2C s_cov:16.7%25%2C Eval:1.2e-11%2C partial hit],internal stop codon at [554336:554338](+)%2C[554765:554767](+)%2C[554852:554854](+),MGA_914
sequence1	MetaGeneAnnotator	CDS	554903	555103	.	+	0	ID=MGA_915;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTNFHLYINKQMPLHRTKALNAQVYFKKNRHLLAPRLLSNDITFETKMFEYNDERKIDLHISGLG;locus_tag=LOCUS_09150;note=MGA_915
sequence1	MetaGeneAnnotator	CDS	555358	555714	.	+	0	ID=MGA_916;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLVLAIEIGITSSKVGLVNQYGDLQAKFSVDHDLDNLLPNLYNKIIEGLEAIGINYEKEVEKVGIAMGGYVDHIFGIIKFSANLQLTNYNVKEEAEKLFNKPIFVVNDANASALGEF;locus_tag=LOCUS_09160;note=WP_003976689.1 ROK family glucokinase (Streptomyces) [pid:28.3%25%2C q_cov:100.0%25%2C s_cov:36.0%25%2C Eval:2.4e-07%2C partial hit],internal stop codon at [555712:555714](+),MGA_916
sequence1	MetaGeneAnnotator	CDS	555904	556308	.	+	0	ID=MGA_917;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSTSGIENHFKISFKNKRNHPAAKFFKNKEEITFNEIVEVFKKEEYPVEIKDLLEEALEPIIMHMALMINALDPEAIILSGELTLLGDKLIEIIKTKIKKYIIDMFLEELTIEIAELGDDSTMIGSAYYALND;locus_tag=LOCUS_09170;note=MGA_917
sequence1	MetaGeneAnnotator	CDS	556356	556553	.	+	0	ID=MGA_918;product=DUF896 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183247.1;translation=MEHLLKRINELAAIAKERNLTESELEERTKLRQEYIKLFRKGFEQQLSNVIIVDKNGNEIKKNKK;locus_tag=LOCUS_09180;note=WP_011183247.1 DUF896 domain-containing protein (Mesoplasma florum) [pid:40.6%25%2C q_cov:98.5%25%2C s_cov:76.2%25%2C Eval:2.8e-08],MGA_918
sequence1	MetaGeneAnnotator	CDS	557568	557834	.	+	0	ID=MGA_919;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRQLQEKIKKSEDEEIKNLMVIGYKNYGSLAVDKNGTVSDKESEQIYNNTNQFLNDFYVFPNEVKAFTDAKNIKDKKFDIYNMFNAGA;locus_tag=LOCUS_09190;note=MGA_919
sequence1	MetaGeneAnnotator	CDS	557952	558419	.	+	0	ID=MGA_920;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLQKDYMDPNGKVKFAKADSEYAGAQNSLSLFAGHVPYDLASQDMDKISSEKSMDLDTYGMVAANNYDDILYTGKKKSLANDDIGLAYFPSNKFDDEISKYPHKYSYGVGNIVAEKTTLIDSNKKFITNFSTGQGNRFATLDGSSKYEIKNFP;locus_tag=LOCUS_09200;note=MGA_920
sequence1	MetaGeneAnnotator	CDS	558462	558605	.	+	0	ID=MGA_921;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKNREKQISAFDGISGYYDYYDPYLKGNSIALGSGYDNNGKIKEAS;locus_tag=LOCUS_09210;note=MGA_921
sequence1	MetaGeneAnnotator	CDS	558636	558794	.	+	0	ID=MGA_922;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGSNYLTNENKNVEIIFKAPEEIANTVQLSLKDSNNVKTNTNMSTPTNLGNG;locus_tag=LOCUS_09220;note=MGA_922
sequence1	MetaGeneAnnotator	CDS	558960	559184	.	+	0	ID=MGA_923;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEISRGDIKNLRLNFENLIDESIYSYYEIYKKNANDKLTLIGMSNSDNYFIKNIDKNTNEFYLKTTNNLTKKIE;locus_tag=LOCUS_09230;note=MGA_923
sequence1	MetaGeneAnnotator	CDS	559213	559449	.	+	0	ID=MGA_924;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIQINNVSKSFGKKEVLKNISLEIKDGEVFGLLGSNGSGKTTLMEILVGQLKPNSGEILVDNKKNGYKNIGIQFQEGF;locus_tag=LOCUS_09240;note=WP_010979801.1 ABC transporter ATP-binding protein (Sulfurisphaera tokodaii) [pid:49.4%25%2C q_cov:91.0%25%2C s_cov:25.8%25%2C Eval:2.4e-15%2C partial hit],internal stop codon at [559447:559449](+),MGA_924
sequence1	MetaGeneAnnotator	CDS	559573	559914	.	+	0	ID=MGA_925;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSLSGGQKQRLNTLLAVINDPKYICLDEMITGLDLKMQFKLINYFEKMKEQGKTIVIISHIPEEVEKLCDRFVILKDGELFYYAEVKKAVKEFGSIRNLMMIYYNEELKKNV;locus_tag=LOCUS_09250;note=WP_011183542.1 ABC transporter ATP-binding protein (Mesoplasma florum) [pid:45.9%25%2C q_cov:97.3%25%2C s_cov:47.4%25%2C Eval:7.2e-28%2C partial hit],internal stop codon at [559447:559449](+),MGA_925
sequence1	MetaGeneAnnotator	CDS	560411	560626	.	+	0	ID=MGA_926;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSLIFTLLISIFLGTVISGVFKSVALSQTITTFFILFSIVFSDNFLSPEVMGTVKGLVGVSYLVPYKHSI;locus_tag=LOCUS_09260;note=MGA_926
sequence1	MetaGeneAnnotator	CDS	561047	561292	.	+	0	ID=MGA_927;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSKNIILCFSKENYEIKGSMTLDEFKRYMNLLPKEEAIKIGKAMRKDVNEYLSLVPKRERKIIEKSVGQLNPIIDIEQND;locus_tag=LOCUS_09270;note=MGA_927
sequence1	MetaGeneAnnotator	CDS	561829	562038	.	+	0	ID=MGA_928;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYACLETHSSLDISNVERTWSDPEIIVFLISSNSLGIFLSVCSLKCIFFKYFSLKPIQIIIAEDCVTPT;locus_tag=LOCUS_09280;note=MGA_928
sequence1	MetaGeneAnnotator	CDS	562044	562238	.	-	0	ID=MGA_929;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKSLEFLNNRISAKRYVEDFKLTDEQKVELLESIRLAPSSFGMEPFRAILIENQKIKEEIKPA;locus_tag=LOCUS_09290;note=MGA_929
sequence1	MetaGeneAnnotator	CDS	562667	562882	.	+	0	ID=MGA_930;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MADFAAKELDIALPVICSNGASVINPKTFEYVAKNHFSKEEIKELLEHFLDTNIDICISNDFRTHYIKEDD;locus_tag=LOCUS_09300;note=MGA_930
sequence1	MetaGeneAnnotator	CDS	562895	563155	.	+	0	ID=MGA_931;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGNQSSIDFSHFPNAQVLFKYDNLEHLIKTGLDHDESFPVIVANTQTEQELKMVLELVKKYNLLALEFPKEGSCRVEIFKNGVTKS;locus_tag=LOCUS_09310;note=MGA_931
sequence1	MetaGeneAnnotator	CDS	563237	563377	.	+	0	ID=MGA_932;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKDFPNCYAIGNAIEGIKDLAKEVIDTVQNAGVGKKLNEMIEEFQ;locus_tag=LOCUS_09320;note=MGA_932
sequence1	MetaGeneAnnotator	CDS	563397	563618	.	+	0	ID=MGA_933;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLNDKFFLIENKQSRNRIVLAPMDSQVAIDGFVNDIHIQHYGARAYGGVGTIIVEGSAVTSEGRYREKSLGI;locus_tag=LOCUS_09330;note=WP_166335752.1 FAD-dependent monooxygenase (Flavobacterium lotistagni) [pid:45.5%25%2C q_cov:90.4%25%2C s_cov:8.6%25%2C Eval:2.0e-09%2C partial hit],internal stop codon at [563616:563618](+),MGA_933
sequence1	MetaGeneAnnotator	CDS	563640	564392	.	+	0	ID=MGA_934;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRLVNIAHSGGSVIGIQLFHGGAKSQLKEQTKSINNYFDFLNQRNLKILDLKEFYEICDEFVKAANRAKQAGFDFVEVHIGDGVLLSNLLIEELNTIITSKDIEKRIEPIVYILKSIKENIDIRVGVRISVNDENPDGIKVTDYKQIISLIEPYISYLHVSGGDILSKRKSTIGAENKVKLHRLNYSAQLIDYTKLPIITCGNYDSKDEVKQALEKSISAVAIGRALIANANFVMTNLLEPNEIDESYH;locus_tag=LOCUS_09340;note=WP_001086174.1 NADPH dehydrogenase NamA (Bacillus cereus) [pid:25.5%25%2C q_cov:93.6%25%2C s_cov:67.2%25%2C Eval:4.8e-13%2C partial hit],internal stop codon at [563616:563618](+),MGA_934
sequence1	MetaGeneAnnotator	CDS	564787	565146	.	+	0	ID=MGA_935;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILSILTTFILITPTVSSVFSCQKLNPSKPETIPPVEKVSSRKTIYIDSNGLKQETEELDFLNIDAKEILELGFSKYGETVRNFQGNKVPKELPKQVNSLFSFLALNKNLIIENLED;locus_tag=LOCUS_09350;note=MGA_935
sequence1	MetaGeneAnnotator	CDS	566392	566592	.	+	0	ID=MGA_936;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSYLKKENISFKDYFEANRDKFGLTNNQEFPLLTKIITANDYLSVQVHPNDEYAKTHHNSLGKPES;locus_tag=LOCUS_09360;note=WP_011166679.1 class I mannose-6-phosphate isomerase (Mycoplasma mycoides) [pid:54.2%25%2C q_cov:100.0%25%2C s_cov:22.3%25%2C Eval:2.5e-12%2C partial hit],internal stop codon at [566302:566304](+)%2C[566365:566367](+)%2C[566590:566592](+)%2C[566686:566688](+),MGA_936
sequence1	MetaGeneAnnotator	CDS	566788	567006	.	+	0	ID=MGA_937;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQRSSDITYRLYDYDRVDDKGISRELHIKESLSNVSIPDTKEVIIKNSKDLKFKCDFFSVEKINSISNQKTI;locus_tag=LOCUS_09370;note=WP_004454782.1 mannose-6-phosphate isomerase%2C class I (Clostridioides difficile) [pid:42.5%25%2C q_cov:87.5%25%2C s_cov:22.3%25%2C Eval:3.8e-08%2C partial hit],internal stop codon at [566590:566592](+)%2C[566686:566688](+)%2C[567004:567006](+)%2C[567028:567030](+),MGA_937
sequence1	MetaGeneAnnotator	CDS	567263	567523	.	+	0	ID=MGA_938;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENIYKEKLIFLNLDLNSKDEILRYICNKAKEFEYVSDSQSLLESFYQREKEGTTGFEDGFAIPHAKIKGINQAFIICVRTVNGVE;locus_tag=LOCUS_09380;note=WP_002358680.1 fructose PTS transporter subunit IIA (Enterococcus) [pid:44.4%25%2C q_cov:94.2%25%2C s_cov:52.9%25%2C Eval:1.3e-13%2C partial hit],internal stop codon at [567521:567523](+),MGA_938
sequence1	MetaGeneAnnotator	CDS	567530	568219	.	+	0	ID=MGA_939;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDGKPTQVIIALIIPENASVEHLEILSATAKKLMSSELREKLKTVETSKEFAKALKVEIKKPIATKETLAINGYKGKNIVAITACVVGVAHTYMAEDKLINELSKIGANIRVETQGSKGVGTELTEKEIANADVVIIAADTKVNLQRFNGKLVYSTHVARAIKEPLKVLEDAFAKGTIQSNVEFKNDKSMNKQKEGVLQHIFAGISYMIPVIIGGGICLAFSIGLAKAI;locus_tag=LOCUS_09390;note=WP_009932214.1 fructose-specific PTS transporter subunit EIIC (Listeria monocytogenes) [pid:33.2%25%2C q_cov:98.3%25%2C s_cov:36.2%25%2C Eval:4.7e-33%2C partial hit],internal stop codon at [567521:567523](+)%2C[568217:568219](+),MGA_939
sequence1	MetaGeneAnnotator	CDS	568147	568353	.	-	0	ID=MGA_940;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKPASIGIIRVNAAPPILSITAKGFQGYKGFPFISNGPEVLASGPQIAFARPIENARQIPPPIITGII;locus_tag=LOCUS_09400;note=MGA_940
sequence1	MetaGeneAnnotator	CDS	568328	568525	.	+	0	ID=MGA_941;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIPILAGFIANSIAGRAAIAPAMLGAFIGNNATYFMPLPGMPNIQTPTGFVGAILSGLLVGYYVR;locus_tag=LOCUS_09410;note=WP_005423023.1 fructose-specific PTS transporter subunit EIIC (Aliivibrio fischeri) [pid:47.7%25%2C q_cov:100.0%25%2C s_cov:9.2%25%2C Eval:1.6e-11%2C partial hit],internal stop codon at [568217:568219](+)%2C[568523:568525](+)%2C[568535:568537](+),MGA_941
sequence1	MetaGeneAnnotator	CDS	568565	569134	.	+	0	ID=MGA_942;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPIFFIPLTAGIGISVLFIYLIGGPIGYVMQQLSNVIKGGYENPNFGVGLGIALGILIGAMASFDMGGPINKIAFVTCTMLIDSGIYYPMGTMAAAIPVAPLGMGLSTILFKRFFNKEEKGLGIAAMIMGTIGISEGAIPFAIRDPKRAIAANIAGGVVAGAIAGAFKIQDLAGHGGPIVAILGAVPYG;locus_tag=LOCUS_09420;note=WP_002456327.1 fructose-specific PTS transporter subunit EIIC (Staphylococcus) [pid:40.9%25%2C q_cov:98.4%25%2C s_cov:27.9%25%2C Eval:4.6e-35%2C partial hit],internal stop codon at [568523:568525](+)%2C[568535:568537](+)%2C[569132:569134](+),MGA_942
sequence1	MetaGeneAnnotator	CDS	569201	569743	.	+	0	ID=MGA_943;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLISSKGTIGSLKETHANHIEKLIEEKSSQKRDINDQIRVLRSTIKVSKSEQEKNETLVKIEKLKSQKTDISKNTKEKIIKAIEIFDQLKKFEKDYVNQNKEHTKNFIRAQKEQKMISLKNKFMSKSKELTTLDHYDKKIYLESYSKSVEEIKENYQESILNYQIKLRKKFTNEYNEKVK;locus_tag=LOCUS_09430;note=MGA_943
sequence1	MetaGeneAnnotator	CDS	570201	570431	.	+	0	ID=MGA_944;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEQFNFQKELIKENNHYLKYLEIKNNSSNLTLEKYILKENEIKKFLKKLEKAKTIYVFGMNLAYNISRNFVQRIR;locus_tag=LOCUS_09440;note=MGA_944
sequence1	MetaGeneAnnotator	CDS	570462	570671	.	+	0	ID=MGA_945;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSIESYVEQIDQNDIVIILSLSGSSKHLIDIVKKLESKTFMFGILGEKGEINKYCDLFIDLPNLEENI;locus_tag=LOCUS_09450;note=MGA_945
sequence1	MetaGeneAnnotator	CDS	570847	571065	.	+	0	ID=MGA_946;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKHIFSKKRDEKKENEKESKKLKTKKSKNSLLSKFQKLGRTFMLPIAVMAFCGIFLGIGASLTSEATLTQMP;locus_tag=LOCUS_09460;note=WP_000125634.1 PTS maltose transporter subunit IICB (Escherichia coli) [pid:55.6%25%2C q_cov:62.5%25%2C s_cov:8.5%25%2C Eval:2.9e-08%2C partial hit],internal stop codon at [571063:571065](+)%2C[571273:571275](+),MGA_946
sequence1	MetaGeneAnnotator	CDS	570951	571184	.	-	0	ID=MGA_947;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSDAKPNGIAMANIKGKNVKPIFPINFKNTKKSNNPLVFNQGICVNVASDVKEAPIPKKIPQNAITAIGNINVLPNF;locus_tag=LOCUS_09470;note=MGA_947
sequence1	MetaGeneAnnotator	CDS	571786	572094	.	+	0	ID=MGA_948;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPTVMFGLPMAGLAIYLLAQKEQKPMVKSIIVPGIVASVVGGITEPIEFLFLFVAPMLYLIHCFFIGMAYLFVALLQVKIGNTDGNIIDFIVFGVIQGLNTK;locus_tag=LOCUS_09480;note=WP_011705328.1 maltose/glucose-specific PTS transporter subunit IIBC (Aeromonas hydrophila) [pid:56.9%25%2C q_cov:100.0%25%2C s_cov:19.3%25%2C Eval:8.6e-29%2C partial hit],internal stop codon at [571669:571671](+)%2C[572092:572094](+)%2C[572122:572124](+),MGA_948
sequence1	MetaGeneAnnotator	CDS	572794	573021	.	+	0	ID=MGA_949;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHGTVNAMFETVKCFTNINDAVLIQSPIYQPFERSIIKTKRKVIYNRLVYKNNNYFVNFEEFEKQIKENEIKLFL;locus_tag=LOCUS_09490;note=WP_011166969.1 aminotransferase class I/II-fold pyridoxal phosphate-dependent enzyme (Mycoplasma mycoides) [pid:45.9%25%2C q_cov:98.7%25%2C s_cov:18.7%25%2C Eval:1.4e-15%2C partial hit],internal stop codon at [572557:572559](+)%2C[572743:572745](+)%2C[573019:573021](+)%2C[573052:573054](+),MGA_949
sequence1	MetaGeneAnnotator	CDS	573229	573384	.	+	0	ID=MGA_950;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGGLKGSYMICSNNEIMKKILTQYENDSLTSSNVFFQPALIAAYSNEYSFK;locus_tag=LOCUS_09500;note=MGA_950
sequence1	MetaGeneAnnotator	CDS	573701	574075	.	+	0	ID=MGA_951;product=RidA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166961.1;translation=MKVINTLKAPKAIGPYSQAILTDDNFLYLSGQLGLNSETMQLEEGIELQTKIALDNINEILTEADFIKNNVIKVLIFLKDINNFAKVNEIYENFFKDHKPARSAIEVSNLPKNGLIEIEVIAKK;locus_tag=LOCUS_09510;note=WP_011166961.1 RidA family protein (Mycoplasma mycoides) [pid:62.9%25%2C q_cov:100.0%25%2C s_cov:93.2%25%2C Eval:2.9e-37],MGA_951
sequence1	MetaGeneAnnotator	CDS	574339	574569	.	+	0	ID=MGA_952;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLQIIKLNNISKKFDNKQVLKDINIEIQNNKIYGLLGNNGVGKTTLVKLIFNELNYDTGEIIYFKDNKQSEIDYGE;locus_tag=LOCUS_09520;note=WP_012774917.1 ABC transporter ATP-binding protein (Streptococcus suis) [pid:46.4%25%2C q_cov:90.8%25%2C s_cov:29.7%25%2C Eval:5.5e-12%2C partial hit],internal stop codon at [574567:574569](+)%2C[574714:574716](+),MGA_952
sequence1	MetaGeneAnnotator	CDS	574937	575092	.	+	0	ID=MGA_953;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDHIFILEEGVIKIDQPYKLEENGRLKELFELHTSKTISKKTEMENYLNEK;locus_tag=LOCUS_09530;note=MGA_953
sequence1	MetaGeneAnnotator	CDS	575082	575351	.	+	0	ID=MGA_954;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNNKSINLFKTVLLNQIKNRKLIILTLVSFFLLILIDSISIYLVLAFNDYSQLILINKLIIATSSVLIALLVLIHCSHLFILQKNEGL;locus_tag=LOCUS_09540;note=MGA_954
sequence1	MetaGeneAnnotator	CDS	575607	575897	.	+	0	ID=MGA_955;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVASTSFTIFILLLPLLTIFFSVLTSTTDFNKNQAFSDALKNQIFYNIKKQIDRDDLSTTIYNENYTKRYIESNGQIEAFIMSGYDEKQINSDKEY;locus_tag=LOCUS_09550;note=MGA_955
sequence1	MetaGeneAnnotator	CDS	576198	576593	.	+	0	ID=MGA_956;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFRKSFESMLFNVYEVMQVALETNSRNGIAIANPIVTLQQKQKSYLISNLLNPISHFNLMFNSINYQKNNTFLDYYNYHSIFYAKTYNSKVVGKKGELYLVNKIKPLLDVLFIYLFYFAIGSLIIVLMYKK;locus_tag=LOCUS_09560;note=MGA_956
sequence1	MetaGeneAnnotator	CDS	577848	578039	.	+	0	ID=MGA_957;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSAIIDLHKINFKTSLFKKYKIPVFIENDSNCAALAELKLGNAKYAKNSVVILIGWNRVFLNN;locus_tag=LOCUS_09570;note=WP_013448125.1 ROK family protein (Mycoplasma leachii) [pid:51.9%25%2C q_cov:85.7%25%2C s_cov:18.2%25%2C Eval:1.7e-08%2C partial hit],internal stop codon at [577764:577766](+)%2C[578125:578127](+)%2C[578254:578256](+)%2C[578290:578292](+),frameshifted%2C insertion/deletion at around 578012%2C577669%2C578199,MGA_957
sequence1	MetaGeneAnnotator	CDS	579301	579492	.	+	0	ID=MGA_958;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRNNIMRNLNFLKGMKNKYREEKNIYFLFKKIFSIKNYLKVNINLFLILKYSNTISLEQYYIN;locus_tag=LOCUS_09580;note=MGA_958
sequence1	MetaGeneAnnotator	CDS	579492	579899	.	+	0	ID=MGA_959;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKVRRIISSGVIIKFTIKLIIKEKTYLAINIFSLLLSAAFLTYFLTINNNEKLVIMFDYYALFYLFILMFMLCLRLVFFIFINKRDDKTLQIIISHQVKRTKLFLFQIITILILVTINIIINYLLINTIYSLIR;locus_tag=LOCUS_09590;note=MGA_959
sequence1	MetaGeneAnnotator	CDS	579990	580412	.	+	0	ID=MGA_960;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLIAGQQFLAIIATFILSLSFISNLPLQFLLKDIENKNITMRSNNYGQTTMKVNEMYDSYNLRNHALNKKNKYPNLSYDIFNFFIESSFRTSTFEENKNKELRINFLKSKGIVVEKPVAVELKTPTRMATAYSRSLLSP;locus_tag=LOCUS_09600;note=MGA_960
sequence1	MetaGeneAnnotator	CDS	581217	581582	.	+	0	ID=MGA_961;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDQKPVITFKDYLKKFKNSKIGPLTFEIQSSKITALLGSSGSGKTVIINTLLGIIRKYKGDIVLNDINRKAYSYYKANYNVGFYTQMDFSLYEVTAYEFLLDICLMLGLYKKEYKKRIEY;locus_tag=LOCUS_09610;note=WP_011183360.1 ATP-binding cassette domain-containing protein (Mesoplasma florum) [pid:56.1%25%2C q_cov:88.4%25%2C s_cov:11.2%25%2C Eval:4.2e-28%2C partial hit],internal stop codon at [581580:581582](+)%2C[581601:581603](+)%2C[581706:581708](+)%2C[581733:581735](+),MGA_961
sequence1	MetaGeneAnnotator	CDS	581958	582149	.	+	0	ID=MGA_962;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQNNIKSFKYDEDENSLVISISNYKELNYIVLYLIKNNLPLKNLIKLPINMESIYKALDDKN;locus_tag=LOCUS_09620;note=MGA_962
sequence1	MetaGeneAnnotator	CDS	582177	582659	.	+	0	ID=MGA_963;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILTLLSGLTIFSAPITTVISCRTTPVDPPPTTEEDDYAKLIQELTQDVRDIYNNHYAQVISNLIGVPSTEISNEFLREENIKANSGKESEITDKQRLAITNDFNKIMRTNELFAEFRKMTEKDKYKILFYDIETISEITINFDTLKINNGHIEENNI;locus_tag=LOCUS_09630;note=MGA_963
sequence1	MetaGeneAnnotator	CDS	582660	583139	.	+	0	ID=MGA_964;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGNVQFDFKVIINYNNGITNNTEALTLNETFAYSSTESDAFKQGTDNFLENITRDYYTSNDAIEYTDLFYNKIAPNGEPQDAYSGYYENYIKDFYNKDEEFKNNLTNFISNKYFSSIQSLPLIFSQDGIYQEINKVNNMEKKLNPIEYTYDVNNTQNDA;locus_tag=LOCUS_09640;note=MGA_964
sequence1	MetaGeneAnnotator	CDS	583338	583604	.	+	0	ID=MGA_965;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDIVSLNGLSIKVGGGSSSVYEHRLPKFDLLINYSANDQTGKLDVDDLNTFIKHEIKSFRNIFGIESSQMGDPKKLMTITNTNEFFDS;locus_tag=LOCUS_09650;note=MGA_965
sequence1	MetaGeneAnnotator	CDS	583677	583898	.	+	0	ID=MGA_966;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNTITNNITNFGIGMRSKLLLESKSDQYRFAFVNGEGPKFLEETTESYTGFATRKNSNTPISDAKNIYYYYAD;locus_tag=LOCUS_09660;note=MGA_966
sequence1	MetaGeneAnnotator	CDS	584231	584476	.	+	0	ID=MGA_967;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQTLIDIKNVSKSFGKKVIFKNFDLKIEEGQRVALMGANGCGKTTLVEMIAQFSKPDSGDIKINLTENIKQEIGIQLQEGN;locus_tag=LOCUS_09670;note=WP_011183542.1 ABC transporter ATP-binding protein (Mesoplasma florum) [pid:65.4%25%2C q_cov:100.0%25%2C s_cov:34.6%25%2C Eval:9.5e-25%2C partial hit],internal stop codon at [584474:584476](+)%2C[584546:584548](+),MGA_967
sequence1	MetaGeneAnnotator	CDS	584642	584848	.	+	0	ID=MGA_968;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISIMNNPKIIILDELTTGLDMELQFKIIDFFKKNTKEFKQTLLLVSHHPEEVEEMCNRLIIIKDSKI;locus_tag=LOCUS_09680;note=WP_011183542.1 ABC transporter ATP-binding protein (Mesoplasma florum) [pid:77.9%25%2C q_cov:100.0%25%2C s_cov:29.1%25%2C Eval:4.3e-25%2C partial hit],internal stop codon at [584474:584476](+)%2C[584546:584548](+)%2C[584846:584848](+),MGA_968
sequence1	MetaGeneAnnotator	CDS	584934	585200	.	+	0	ID=MGA_969;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKTEKKNKFEVKKQISIFNNLSLLLYKSFIKEPKSIIFMIFVPIFFNIMFFFIMGAKIQGEKYGALFGYTLLPCLTCLTLLAPAVVE;locus_tag=LOCUS_09690;note=WP_011183541.1 ABC transporter permease (Mesoplasma florum) [pid:46.4%25%2C q_cov:95.5%25%2C s_cov:27.8%25%2C Eval:9.3e-12%2C partial hit],internal stop codon at [585198:585200](+)%2C[585270:585272](+)%2C[585405:585407](+),MGA_969
sequence1	MetaGeneAnnotator	CDS	585414	585659	.	+	0	ID=MGA_970;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLSMILITLTSIALATFFGGLFSSVGSMQGMIMMIYFFSIFLSGIMLPPEAFESSKGMIIFTYFIPHKYGVFLFLYATRG;locus_tag=LOCUS_09700;note=WP_011183541.1 ABC transporter permease (Mesoplasma florum) [pid:69.0%25%2C q_cov:87.7%25%2C s_cov:25.0%25%2C Eval:3.1e-23%2C partial hit],internal stop codon at [585198:585200](+)%2C[585270:585272](+)%2C[585405:585407](+)%2C[585657:585659](+)%2C[585672:585674](+)%2C[585756:585758](+)%2C[585825:585827](+),MGA_970
sequence1	MetaGeneAnnotator	CDS	585695	585853	.	-	0	ID=MGA_971;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFNYFLADHLKVNVVSANIAASINTAPSIGCHVAVKSFPINSSEIGCIGFL;locus_tag=LOCUS_09710;note=MGA_971
sequence1	MetaGeneAnnotator	CDS	585968	586375	.	+	0	ID=MGA_972;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENDKFFTNRNQQELLNEIQNEIKTSDEVYLIYPFISKTILNKISLCFDYCLENNIPIKIISTTFDDLSQFNNLNELKLIVQKYKNIQIKIEDNMERNSERIHIKASIFKRKTLPDSAIMGSSNLTYKGMISGRE;locus_tag=LOCUS_09720;note=WP_011183211.1 DEAD/DEAH box helicase family protein (Mesoplasma florum) [pid:73.5%25%2C q_cov:97.8%25%2C s_cov:14.6%25%2C Eval:6.7e-50%2C partial hit],internal stop codon at [586373:586375](+)%2C[586445:586447](+),MGA_972
sequence1	MetaGeneAnnotator	CDS	586520	587095	.	+	0	ID=MGA_973;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKNQVELSNQIQFSKKYLYKFQKEIIEKLKYRRYIGKTKNLIIMATGTGKTLVSAFDYKNQRQSAKNNLSILFLAHQKEIIDQAIKTYRQVLEEQNFGEVLYDGQIIADKPKHLFATIQSLSNRLNNFDKDHFDLIIFDEAHHLAANSFDKVFNYFNPKQVIGLTATPEREDGKDIKQYFDNEFASELRL;locus_tag=LOCUS_09730;note=WP_011183211.1 DEAD/DEAH box helicase family protein (Mesoplasma florum) [pid:69.6%25%2C q_cov:100.0%25%2C s_cov:21.0%25%2C Eval:2.3e-74%2C partial hit],internal stop codon at [586373:586375](+)%2C[586445:586447](+)%2C[587093:587095](+),MGA_973
sequence1	MetaGeneAnnotator	CDS	587162	587761	.	+	0	ID=MGA_974;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQGIDLNSDKDIFKVVNTDSRNELLFKTIEKYLGIYARPTALIFCTTIDHAKIIANFLVQKGLKAEAFTSENNKERNRILHEFKIGRINYLCVVNIFNEGIDIPEINTIILLRPTSSKTVYLQQLGRGLRKIELKNKLEVYDLISNIDSKYDITLGIRNLFNPNIIGTNFISTKEGLPYDSTITLEKNTKEIILKSLKK;locus_tag=LOCUS_09740;note=WP_011183211.1 DEAD/DEAH box helicase family protein (Mesoplasma florum) [pid:79.3%25%2C q_cov:99.5%25%2C s_cov:21.9%25%2C Eval:9.7e-87%2C partial hit],internal stop codon at [587093:587095](+)%2C[587759:587761](+),MGA_974
sequence1	MetaGeneAnnotator	CDS	587897	588481	.	+	0	ID=MGA_975;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVGKEIRIYDKNENDTNRNKNILKQFIFLDNFKIINYFYNRLRNNISKEEIDLDLDNLLMTSFLYEITSMEKFLTIYPNYLEIEDLVQYFINTNRLIVDELAMILKYKLEKETLVITESTEKMLTIDSTYTVKQALAAVGRTNFLHYREELKVLTFQAGYLTFFKTKQIILADEDGNGYGKLTKYDELSKKFY;locus_tag=LOCUS_09750;note=WP_011183211.1 DEAD/DEAH box helicase family protein (Mesoplasma florum) [pid:66.1%25%2C q_cov:99.0%25%2C s_cov:21.2%25%2C Eval:1.9e-68%2C partial hit],internal stop codon at [587759:587761](+)%2C[588479:588481](+),MGA_975
sequence1	MetaGeneAnnotator	CDS	588485	588691	.	+	0	ID=MGA_976;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPEKMTINHKIIEDFNNKNIVKYLFIHDKQNYGNKNMFLKLYKFSGIGKFVKMNTEQYLTVEFDIENN;locus_tag=LOCUS_09760;note=WP_011183211.1 DEAD/DEAH box helicase family protein (Mesoplasma florum) [pid:57.6%25%2C q_cov:97.1%25%2C s_cov:7.3%25%2C Eval:3.7e-16%2C partial hit],internal stop codon at [588479:588481](+),MGA_976
sequence1	MetaGeneAnnotator	CDS	588963	589181	.	+	0	ID=MGA_977;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLKTKIKINYGILISLVISLLINILLILIVYVFGNIKFKSNDIVYTISLFSYLKKTPSFLISELFKTCLYI;locus_tag=LOCUS_09770;note=MGA_977
sequence1	MetaGeneAnnotator	CDS	589921	590334	.	+	0	ID=MGA_978;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLCCVIVQIVFFSITVYSIKNKVNVAPLKFFYKMFSHNSDKRHKSFKSEIISEIDNNNGILTYKELNTKFSISLKTLNNIVIEFKNTNFKTYSIQLKMEFAKSLYQEANYSTKQIAEKCGYLSKSSFLKAYNSYYK;locus_tag=LOCUS_09780;note=WP_086030986.1 helix-turn-helix transcriptional regulator (Tenacibaculum holothuriorum) [pid:27.6%25%2C q_cov:98.5%25%2C s_cov:29.4%25%2C Eval:1.8e-07%2C partial hit],MGA_978
sequence1	MetaGeneAnnotator	CDS	590373	590639	.	-	0	ID=MGA_979;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVTGEDKISDYKKARDQYFEALVKFNKKQDGDPEKYCDFIINLTSKSAKPPLHIFTGRDAYKDAEDKMKKISNDMKELEKEATNLHVD;locus_tag=LOCUS_09790;note=WP_011183070.1 SDR family oxidoreductase (Mesoplasma florum) [pid:58.6%25%2C q_cov:98.9%25%2C s_cov:31.3%25%2C Eval:3.0e-26%2C partial hit],internal stop codon at [590736:590738](-)%2C[590799:590801](-),MGA_979
sequence1	MetaGeneAnnotator	CDS	592025	592360	.	+	0	ID=MGA_980;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIMYKSLGDTMSKNIFYDNAVLMIDLLGGKDNIKEIQHCATRLRFILKDDTKFDLEKVKKHPLFKGYKKQESQHQIIIGTGVVDKLYKQINLILKDDLQEGEIKVENKEPF;locus_tag=LOCUS_09800;note=WP_011861836.1 PTS transporter subunit EIIC (Clostridioides difficile) [pid:42.4%25%2C q_cov:87.4%25%2C s_cov:21.0%25%2C Eval:3.3e-12%2C partial hit],internal stop codon at [592358:592360](+),MGA_980
sequence1	MetaGeneAnnotator	CDS	592394	592603	.	+	0	ID=MGA_981;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISKRGMNSFASIFVPLIPIFIAGGMSLALKSLIGSFAPNSGFTKLLDIIGGAILGSLPAFVGYTAAKK;locus_tag=LOCUS_09810;note=MGA_981
sequence1	MetaGeneAnnotator	CDS	592625	592762	.	+	0	ID=MGA_982;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAMGLVLISPGLLNSYAINTPVLLGFDLNTSSDVIQSAREAAFKQ;locus_tag=LOCUS_09820;note=MGA_982
sequence1	MetaGeneAnnotator	CDS	593153	593485	.	+	0	ID=MGA_983;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFAFFYPFLVITGLHQGFLPIETQLLVDTQLKYGHSFSFITPIACVSNIAQGSATLMLIFFCKKDKEQITKASSGTIGAFTGITEPAMFGVNLQIKPLFLSAAIGSGIAG;locus_tag=LOCUS_09830;note=WP_003641781.1 sucrose-specific PTS transporter subunit IIBC (Lactiplantibacillus plantarum) [pid:52.3%25%2C q_cov:99.1%25%2C s_cov:16.1%25%2C Eval:3.2e-20%2C partial hit],internal stop codon at [593036:593038](+)%2C[593048:593050](+)%2C[593126:593128](+)%2C[593483:593485](+)%2C[593486:593488](+)%2C[593534:593536](+),MGA_983
sequence1	MetaGeneAnnotator	CDS	593821	594459	.	+	0	ID=MGA_984;product=GntR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183415.1;translation=MYLIRENKVKPGEVLPSQNMLKTKFGYSEQPIRIAFNKLIELQIVKSVNGKGFVVQDKISNNLLFSFRELFPGSKSIYTDFEELICDALLAHESGYQINERLIKFKCFRKTEKNELILFQESYIKKEKFKNLTLKDLNQEGLMYFIEKKTSSIVSHSSKKISFITNSEDIEKYFNLTENAINGLILDEGKVYDIFGEILEFRKSYYQPKFFE;locus_tag=LOCUS_09840;note=WP_011183415.1 GntR family transcriptional regulator (Mesoplasma florum) [pid:59.8%25%2C q_cov:100.0%25%2C s_cov:91.4%25%2C Eval:2.7e-64],MGA_984
sequence1	MetaGeneAnnotator	CDS	594508	594684	.	+	0	ID=MGA_985;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKVNYAQEAKRFIDAVGGEENIESYLHCVTRLRFNVIDKEKVNIDEIKSSPIAKGTN;locus_tag=LOCUS_09850;note=WP_011183414.1 PTS transporter subunit EIIC (Mesoplasma florum) [pid:72.4%25%2C q_cov:100.0%25%2C s_cov:10.1%25%2C Eval:5.6e-17%2C partial hit],internal stop codon at [594682:594684](+)%2C[594880:594882](+),MGA_985
sequence1	MetaGeneAnnotator	CDS	594697	594882	.	+	0	ID=MGA_986;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQIILGTGVVEAAYAEVQKILEVKNNVESSSQSTKGESFEEFALKAKANKEALRNKGGRFA;locus_tag=LOCUS_09860;note=WP_011183414.1 PTS transporter subunit EIIC (Mesoplasma florum) [pid:58.3%25%2C q_cov:98.4%25%2C s_cov:10.1%25%2C Eval:1.1e-10%2C partial hit],internal stop codon at [594682:594684](+)%2C[594880:594882](+)%2C[595036:595038](+)%2C[595096:595098](+),MGA_986
sequence1	MetaGeneAnnotator	CDS	594883	595038	.	+	0	ID=MGA_987;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQMSMKTLGDIFLPIIPAIVAAGLAMGVAALIKTIVKSSAGDEAINPNSLL;locus_tag=LOCUS_09870;note=MGA_987
sequence1	MetaGeneAnnotator	CDS	595426	595725	.	+	0	ID=MGA_988;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPKSVNIIFTPFLTIVVALLVALLALGPVLLLVEKGVLIGTQAILNIPFGFGTALIAGVLQAIVITGCHQVLQGLEMQLVTNGSIPVDGVASGSIFNAI;locus_tag=LOCUS_09880;note=WP_011183414.1 PTS transporter subunit EIIC (Mesoplasma florum) [pid:66.3%25%2C q_cov:100.0%25%2C s_cov:17.7%25%2C Eval:4.4e-30%2C partial hit],internal stop codon at [595198:595200](+)%2C[595273:595275](+)%2C[595330:595332](+)%2C[595411:595413](+)%2C[595423:595425](+)%2C[595723:595725](+),MGA_988
sequence1	MetaGeneAnnotator	CDS	595759	596082	.	+	0	ID=MGA_989;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAVALKTKSKQEKNLAMSSSVSTMFGITEPAIFGVNLPKIKPFIFASAGGAIGGFVAGLLNVKCSGMGVTVLPGLLLYTDSVRNLLLIILVNVVSFGSAFALSFFFY;locus_tag=LOCUS_09890;note=WP_011183414.1 PTS transporter subunit EIIC (Mesoplasma florum) [pid:57.4%25%2C q_cov:87.9%25%2C s_cov:16.4%25%2C Eval:3.7e-24%2C partial hit],internal stop codon at [595723:595725](+),MGA_989
sequence1	MetaGeneAnnotator	CDS	596155	596403	.	+	0	ID=MGA_990;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFAKEVEVKNHEQKVKSFENKLEKMKVKEAKLKEDKVKYETYIQEVKVLKEQEKAEKTKVKLEKQQAKEELQKLKADPKK;locus_tag=LOCUS_09900;note=MGA_990
sequence1	MetaGeneAnnotator	CDS	596862	597119	.	+	0	ID=MGA_991;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIYYTGNVKFNDIDRTSYTLRAFIDLKEKIVTKELLFECDLKKYTGHFRDPIVFEKNNKLFMLNGAQTLNKEGVLNVYEFNGNS;locus_tag=LOCUS_09910;note=WP_011183413.1 GH32 C-terminal domain-containing protein (Mesoplasma florum) [pid:76.5%25%2C q_cov:100.0%25%2C s_cov:17.6%25%2C Eval:7.9e-35%2C partial hit],internal stop codon at [596601:596603](+)%2C[596724:596726](+)%2C[596736:596738](+)%2C[597117:597119](+)%2C[597405:597407](+),MGA_991
sequence1	MetaGeneAnnotator	CDS	597171	597407	.	+	0	ID=MGA_992;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVECPNYFAIDGKEYIFSCLEQETSLKEGSHFVKYREVEIDNDLNFNFKTNLRKIDLGFDFYAPQIFSNTQDRIIMLG;locus_tag=LOCUS_09920;note=WP_011183413.1 GH32 C-terminal domain-containing protein (Mesoplasma florum) [pid:74.4%25%2C q_cov:100.0%25%2C s_cov:16.1%25%2C Eval:2.1e-32%2C partial hit],internal stop codon at [597117:597119](+)%2C[597405:597407](+)%2C[597453:597455](+),MGA_992
sequence1	MetaGeneAnnotator	CDS	597528	597932	.	+	0	ID=MGA_993;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENLRLGEISSNKDSYEYKNGLVEIIGENISNKDFEIKIQSNDKFISLRNENSNFIIDRSKMDFNDEENLPSIINLNNLDIDKIRILVDRSCLEIFINDGQFAISLRFFIKNHNTIITDLENKKIIQLDSNKYI;locus_tag=LOCUS_09930;note=WP_011183413.1 GH32 C-terminal domain-containing protein (Mesoplasma florum) [pid:44.0%25%2C q_cov:99.3%25%2C s_cov:27.5%25%2C Eval:4.7e-24%2C partial hit],internal stop codon at [597405:597407](+)%2C[597453:597455](+)%2C[597930:597932](+),MGA_993
sequence1	MetaGeneAnnotator	CDS	597978	598394	.	+	0	ID=MGA_994;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIISIGEVLMDVYSTNEVNQAIVGGASFNVACSIAALKNNESYFMGSLGNDNYKEDIKLFIEKFGIKTDFIQHSELPTTIAKVTLDENKERFFEFIRNSDADFHLSKFSNNQLKKIDFVHFGSATGLLDGDLNKSY;locus_tag=LOCUS_09940;note=WP_011183412.1 carbohydrate kinase (Mesoplasma florum) [pid:71.0%25%2C q_cov:100.0%25%2C s_cov:45.1%25%2C Eval:1.6e-51%2C partial hit],internal stop codon at [598392:598394](+)%2C[598464:598466](+)%2C[598668:598670](+),MGA_994
sequence1	MetaGeneAnnotator	CDS	598500	598670	.	+	0	ID=MGA_995;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCKPFLDSANLIKLSDEELLLISGMIKEENALKSLMKSNPNALICITRGSKETMCG;locus_tag=LOCUS_09950;note=WP_011183412.1 carbohydrate kinase (Mesoplasma florum) [pid:49.1%25%2C q_cov:98.2%25%2C s_cov:18.0%25%2C Eval:7.9e-11%2C partial hit],internal stop codon at [598392:598394](+)%2C[598464:598466](+)%2C[598668:598670](+),MGA_995
sequence1	MetaGeneAnnotator	CDS	599037	599216	.	+	0	ID=MGA_996;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRNYYEQIILTILSLIIIFLVIFYLVTEIFLPVYARKNSLYFKSKIDTQKINAKIKEEK;locus_tag=LOCUS_09960;note=MGA_996
sequence1	MetaGeneAnnotator	CDS	600022	600960	.	+	0	ID=MGA_997;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLKGNNYNVIVDEFNQVISTTSNDIKNENANMSGDTPSGKMMKFASISAKDFALENLVKDTHSKLHKKSLIHIHDLDYYPTKSATCVQYNIEEIFKNGFKTRNGLIKEPQSIGVYTELAAIVFQTAQNEMHGGQSIPAFDYFMAPGVNKSFRKALIKNLNHFFIFSSIEFNEQKINEIKNDEQITFKNLTKSTLEKYLSGYKISDENFKKIYDLTVKEVEKETDQAMEGFVYNLNTQHSRGGNQVVFSSVNLGTDTSKEGRQVIRSLFKALENGLGNGETSIFPIVIFKIKLGVNFDENDYNKAMSLSQDK;locus_tag=LOCUS_09970;note=WP_005790561.1 anaerobic ribonucleoside triphosphate reductase (Bacteroides) [pid:49.3%25%2C q_cov:92.9%25%2C s_cov:37.1%25%2C Eval:2.2e-75%2C partial hit],internal stop codon at [600958:600960](+)%2C[600976:600978](+)%2C[601084:601086](+)%2C[601108:601110](+),MGA_997
sequence1	MetaGeneAnnotator	CDS	601129	601626	.	+	0	ID=MGA_998;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGCRTRVFENINGEKTSIGRGNLSFTSLNLPYIALELLKEQGKLKDEKINFNEIDIDQIKKDFLKKIEFYSQKVCEQLKIRYDYQTTALAKEFPFLMRNNILTGGKDLQAEEFVKEVFNQGTLTVGFVGLAEALKALLNVHHGESNDAQKFGIEIIKVINKVALK;locus_tag=LOCUS_09980;note=WP_005790561.1 anaerobic ribonucleoside triphosphate reductase (Bacteroides) [pid:44.2%25%2C q_cov:98.8%25%2C s_cov:20.3%25%2C Eval:1.1e-30%2C partial hit],internal stop codon at [600958:600960](+)%2C[600976:600978](+)%2C[601084:601086](+)%2C[601108:601110](+)%2C[601624:601626](+),MGA_998
sequence1	MetaGeneAnnotator	CDS	601690	602085	.	+	0	ID=MGA_999;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKITRKEFGLIKEITERDYFTNSNHVPVYYNISAAEKIKKEAEYHSLTLAGSISYVELDGEAKKNLHAILSIINAMRVYGTNYGSLNHPVDRCKECNYTSLIPFKCQMCGSEEISRTRRITGYLVGDLDG;locus_tag=LOCUS_09990;note=WP_000940078.1 anaerobic ribonucleoside triphosphate reductase (Bacillus cereus) [pid:53.8%25%2C q_cov:96.9%25%2C s_cov:21.0%25%2C Eval:4.6e-35%2C partial hit],internal stop codon at [601624:601626](+)%2C[602083:602085](+),MGA_999
sequence1	MetaGeneAnnotator	CDS	602505	602639	.	+	0	ID=MGA_1000;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYQLLLEVDILVDGRFVQELYDPNILYRGSSNQRLIDVKNYLKL;locus_tag=LOCUS_10000;note=WP_010989398.1 anaerobic ribonucleoside-triphosphate reductase activating protein (Listeria monocytogenes) [pid:62.5%25%2C q_cov:90.9%25%2C s_cov:21.9%25%2C Eval:2.1e-08%2C partial hit],internal stop codon at [602256:602258](+)%2C[602433:602435](+),MGA_1000
sequence1	MetaGeneAnnotator	CDS	602812	603051	.	-	0	ID=MGA_1001;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAYKNKKYLGSILLHSDNGNQYTSLDYISLCNDLQIIRSYSKPGTPHHNGKHESFHGRLKDETIRTCYIENINQCMEIA;locus_tag=LOCUS_10010;note=MGA_1001
sequence1	MetaGeneAnnotator	CDS	603388	603612	.	-	0	ID=MGA_1002;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLQGQNQKEIVQQLLINTKSNRTMICKILNINRTSTYKKNKTLMNFLDDTRIMNLVISEIERNNFLSAYSAKR;locus_tag=LOCUS_10020;note=MGA_1002
sequence1	MetaGeneAnnotator	CDS	603609	603839	.	-	0	ID=MGA_1003;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNGYSLKEIALKFNSTTGSIGTIINKYKNTDIGDSKTRLPYKIDYSISQKANDLFVGILFDYNKELIKENDILKKQ;locus_tag=LOCUS_10030;note=MGA_1003
sequence1	MetaGeneAnnotator	CDS	604114	604818	.	+	0	ID=MGA_1004;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSVLATIGFVSSSTVSVVACGTKEKSKDTSKPEEPKKEDLNDIIRDFQSEVTKIYNNHMKSEVIGNLIGLQETEKNYLFIKKDNIIAFSNKEKDITAENKKQIENDENLILRSKLLAEKLNELKKVNRYKVILDDVDSIFDGIEVIYNDNFKIKSGELSQGVYIGNLINEYKVNIKYKGKNDIEKFEIGDTLKYTSTDDETFKVAGDNLAKNIEKDFLVSNEMKKYSNFE;locus_tag=LOCUS_10040;note=MGA_1004
sequence1	MetaGeneAnnotator	CDS	604996	605190	.	+	0	ID=MGA_1005;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDSSFRNNLLNVFETKSATSFEDYTKSDQNSEKIFKTIFRNDPNSESTKQVLKELYFTSNNMDK;locus_tag=LOCUS_10050;note=MGA_1005
sequence1	MetaGeneAnnotator	CDS	605368	605628	.	+	0	ID=MGA_1006;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPDFNLSVTYNASSKVEEKIDFLSEFTSKVIIKGMHNFYGMDSNFKYPEFNSDQDYLMNIGDKELINFMKEYIKSNPSKSGGLVRL;locus_tag=LOCUS_10060;note=MGA_1006
sequence1	MetaGeneAnnotator	CDS	606106	606276	.	+	0	ID=MGA_1007;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSVLAAISFVSSSTVSVVACGTKEKPKESKPEEPKNDMNEVIQDFKKEVTKI;locus_tag=LOCUS_10070;note=MGA_1007
sequence1	MetaGeneAnnotator	CDS	606436	606810	.	+	0	ID=MGA_1008;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKLFKAKLLKQQLNELKKVNKYKVILDDVDSVFEHVELLFNDNFEINSGEIIKGSYIGNVIVDYNIVIQYKGLNDVEKFKQSGTMKYTSTKSESFKKVGDSMYKNIAKDMFTSQETLKYVNLK;locus_tag=LOCUS_10080;note=MGA_1008
sequence1	MetaGeneAnnotator	CDS	607066	607467	.	+	0	ID=MGA_1009;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRQKDSREIISKILLGDEEVIKENLKSDIFNSRTLQKNRVKYRATQDQFLKEFLNTQEVENYKISDSYQFAIAMGYADFIGPVIKIGEKENSYMHKLPDFKLAISYSMNGENDEISESLIDLSLKLFNVYKKI;locus_tag=LOCUS_10090;note=MGA_1009
sequence1	MetaGeneAnnotator	CDS	607633	607902	.	+	0	ID=MGA_1010;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLLNMTRNTFNSSNFFYSINVDNFESNLADISFFNKSSSKYYFEVEEQIGTDNKVNFFDTVNYLTFDLFGIVKMNIYFTKEIRQAIFF;locus_tag=LOCUS_10100;note=MGA_1010
sequence1	MetaGeneAnnotator	CDS	608215	608448	.	+	0	ID=MGA_1011;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYEMKFNPIISKEEFELFGYAEYDGTLEHFMNVLRDECEQIVLIYPIVFFEMPAILKGFLDRVFIGTLIKEGEDPIN;locus_tag=LOCUS_10110;note=WP_002893583.1 NAD(P)H-dependent oxidoreductase (Streptococcus sanguinis) [pid:38.9%25%2C q_cov:92.2%25%2C s_cov:37.0%25%2C Eval:1.4e-07%2C partial hit],internal stop codon at [608209:608211](+),MGA_1011
sequence1	MetaGeneAnnotator	CDS	609402	609989	.	+	0	ID=MGA_1012;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKENSEDVISDLKIEILNSKDEDIEINANFIKPIKAKNTINNIYNPASPKAVFYNYDEIATNELSSIKLDFQPLLITAKTNDQTQVGKRDVNFKLTFKANSVEQQIDFRQELNVVDMNINRANEQINAISSDSMSFPTSSQKFVLKQFDKVITKKSINLSQKEYDNLFNLTEQEILKIIKDNNISMPSDTKIIR;locus_tag=LOCUS_10120;note=MGA_1012
sequence1	MetaGeneAnnotator	CDS	610287	610496	.	+	0	ID=MGA_1013;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVNYKNSLHDFLVKEDNENENRSLDNKYGRKFSQLKQENNAKYGYVPNFGLGYIKYTATNNNLKTVDDF;locus_tag=LOCUS_10130;note=MGA_1013
sequence1	MetaGeneAnnotator	CDS	610581	611006	.	+	0	ID=MGA_1014;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFLNESGYEKIFIPVTARNANPFNFYYKTDIDAINQSGGNAQQKVLANITYKNKFIDPSGNISKDYEVLRDEIIAILTKNLVTHINKIKANNSSTYYDAYNNIDIYYSFDETKQEINEKVIDTYQLEDPENLIKTHAYIG;locus_tag=LOCUS_10140;note=MGA_1014
sequence1	MetaGeneAnnotator	CDS	611034	611201	.	+	0	ID=MGA_1015;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDELEQKFNPYDEITLQQREYIFNYEKGSQKDVSNFRKLVEDRHSQEKNTRFYSS;locus_tag=LOCUS_10150;note=MGA_1015
sequence1	MetaGeneAnnotator	CDS	611262	611462	.	+	0	ID=MGA_1016;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAYKYGTNGFDRFQLDGFYSNDISLDGYILGHPHEPADASLIYPGDSEKIYDSLRLVNLQNGIKLV;locus_tag=LOCUS_10160;note=MGA_1016
sequence1	MetaGeneAnnotator	CDS	612551	612904	.	+	0	ID=MGA_1017;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYNFFNLYIFVGFIPMFLVMSIFFAISLIFRNIQLLGIIFTFCYLAYTVQLFLYIILLNNKQSSIVAFEYENQLILFNEVIKLEDIVDISHNLKRTIIFITFKDEKQLEDIIKLNYN;locus_tag=LOCUS_10170;note=MGA_1017
sequence1	MetaGeneAnnotator	CDS	613003	613326	.	+	0	ID=MGA_1018;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLEKLLNKQEKELFSLKTLNKIKKQDFKAYLDIQENILESLKKQSQLDVKYTNEILKEKIVKQQNFVNKLTVYYNEVILKKEKQVEEVDFITEEFENMIKELVKIQK;locus_tag=LOCUS_10180;note=MGA_1018
sequence1	MetaGeneAnnotator	CDS	613487	613936	.	+	0	ID=MGA_1019;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKTSSTPGKTRLLNFFDINNNQFRIVDAPGYGYARVNHDQKLAFAKMMDEYLINREELKFICQLVDLRHPPTKDDIEMYKFFKHHKIKVFIVATKKDKCKKNDIQKNEKIIKQNLEFDSNDKFLSVSSTEKNNLDKVYDIFIEMFEMN;locus_tag=LOCUS_10190;note=WP_011183254.1 ribosome biogenesis GTP-binding protein YihA/YsxC (Mesoplasma florum) [pid:54.1%25%2C q_cov:99.3%25%2C s_cov:74.7%25%2C Eval:1.4e-44%2C partial hit],internal stop codon at [613394:613396](+),MGA_1019
sequence1	MetaGeneAnnotator	CDS	615721	615855	.	+	0	ID=MGA_1020;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSTTSKGLGIAGSIVMIVTTLISSIIAIIACAYLLSKELTGTDK;locus_tag=LOCUS_10200;note=MGA_1020
sequence1	MetaGeneAnnotator	CDS	615898	616119	.	+	0	ID=MGA_1021;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITIVFPIIILVFLTSKDKSNKKILAAGILSIIVAALSILGSISNPIYWINLISAGLLLASGIMICNEYKKAK;locus_tag=LOCUS_10210;note=MGA_1021
sequence1	MetaGeneAnnotator	CDS	616953	617120	.	-	0	ID=MGA_1022;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEGRTTISIAHRLSTIKNFDEIYVLEQKKGIVDTGNFEKLISTEGLFKTLYQLSK;locus_tag=LOCUS_10220;note=WP_011183431.1 ABC transporter ATP-binding protein/permease (Mesoplasma florum) [pid:62.3%25%2C q_cov:94.5%25%2C s_cov:8.3%25%2C Eval:1.0e-10%2C partial hit],internal stop codon at [617301:617303](-),MGA_1022
sequence1	MetaGeneAnnotator	CDS	617451	618170	.	-	0	ID=MGA_1023;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIIFITIIISNKATRKISKISQGLDNELSEKIYNIRLVKSVGTFKEEKQHFDEMIDHVSKKKKKKFFASEVPSALIIGGIGSFSMASIIFGVFLFYNQTQALISIMTSFTAGVIVMTIPIMQLRQIISDAPQARVSAVNVSALLESEIFIEKDKEKEINETVNSISLKNIGFAYPQTDEFIIKDFNIDLVKGKKYAFVGPTGSGKSTIAKLLLRFYDPQQGEILINNKIKLKELNLKS;locus_tag=LOCUS_10230;note=WP_011183431.1 ABC transporter ATP-binding protein/permease (Mesoplasma florum) [pid:31.9%25%2C q_cov:92.5%25%2C s_cov:36.4%25%2C Eval:1.2e-21%2C partial hit],internal stop codon at [617301:617303](-)%2C[617451:617453](-)%2C[618210:618212](-),frameshifted%2C insertion/deletion at around 618432,MGA_1023
sequence1	MetaGeneAnnotator	CDS	618210	618719	.	-	0	ID=MGA_1024;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSLKTNDIYEIIKQLGLNLTQEQIDQILNSINVGSSVYEQIIQKFFYDFVHYDGQNLSITLFGKNFGLYALSFSMIFDVTLVVILSYINFIISGHIAQAYETQLKRKLINKIIDQDLHYFNSNKTGQLISTIVKDSSIVSSYIKEAPIIYFLSTITISFSAILMFNIS;locus_tag=LOCUS_10240;note=MGA_1024
sequence1	MetaGeneAnnotator	CDS	619044	619382	.	+	0	ID=MGA_1025;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKQYNLDNLSTLVKGNLVIIILSKRISLRMIRKYPDLYRLAYLHLMFIKNVEGISQVELADLTDTNTSTIHRNIQILIKNNYIEKKVSSRANENELYLTQKGESVVKDIIE;locus_tag=LOCUS_10250;note=MGA_1025
sequence1	MetaGeneAnnotator	CDS	620403	620684	.	+	0	ID=MGA_1026;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVLTILTFIYKFVVKKNIIANYEEDFIFKMQLLYLRSLFHLNIFDFKNQKFKFKEAIKVFLSYLHQENEMRYSLKNSLSLKDMKKATIPPRI;locus_tag=LOCUS_10260;note=MGA_1026
sequence1	MetaGeneAnnotator	CDS	620777	621664	.	+	0	ID=MGA_1027;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSLLGALGITASTSITAVACAKPSSSNTKTEDVLLNNVLPETILKAYKEKNPNANIDELEVFDYNQNSARLVYKKSSNSNGKFEPIIFNYKIKALDLSDNNQALVRNILVGEMDENGVINKTISASDVVKNKKVTKNSIRTSFAIMNGVFLNEEDIEIGDINYNNDTVTIKSKNQNILKGTEEVILTLNKNVSSNDILKVTEIGNIYLPGSLYDNRRNYFDGTYKDEQGNNVAEGNILVALPILFQNLGDRNKLFSYLATDLVLSAMAIAGVSSSKIEENMSMNFFKLNLS;locus_tag=LOCUS_10270;note=MGA_1027
sequence1	MetaGeneAnnotator	CDS	621683	622120	.	+	0	ID=MGA_1028;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVSNNIITATDSQTVNIKFNLQKEDRLILGEHRPSSKDFTVSKKAYASKDIKTIISEIYDQADSAFKNQVSKEMFIKFSTINFASENETPTIELLPGGDYVYAFDPMAFQLVSYQLDQEKDKELIKKLKPPKEGKTFGYKFVVQE;locus_tag=LOCUS_10280;note=MGA_1028
sequence1	MetaGeneAnnotator	CDS	622128	622577	.	+	0	ID=MGA_1029;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKLFFRNIFKNIIKNKLQLVMVILLMFLSVFIFTMTDSSSQRLVKSREDFALKSNLHDSIIQFTESSYNYIENDEFKTIANNEVRDEIILNYLKNSLDKKNSNLKFYFDRTETRNFILGSNKNIKVINLEPEKKVDTFIVKNGMSLKT;locus_tag=LOCUS_10290;note=MGA_1029
sequence1	MetaGeneAnnotator	CDS	623136	623363	.	+	0	ID=MGA_1030;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNGELNSILTDINKAREYGLTISYDPPSSSSDKVIYDVADKDYSFVLRTQMYLQIIKYFKIIMYAVTIVTVLIGI;locus_tag=LOCUS_10300;note=MGA_1030
sequence1	MetaGeneAnnotator	CDS	623750	623875	.	-	0	ID=MGA_1031;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEVIVEEINITDVIVINLDIEEANIAPLNLESNFLLLVKNF;locus_tag=LOCUS_10310;note=MGA_1031
sequence1	MetaGeneAnnotator	CDS	623847	624242	.	+	0	ID=MGA_1032;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLISSTITSIGVIAPSILNNYTKYKYIDNNYDNQIEYESPIYNAPTTFYKTYNPISEKNNKTNSAQEIFDMYLNNQISSSTFTPNEDVAKLSDLTYKNLNKDFLTNPDLKLDINIEGIDKSVLKGTLISSV;locus_tag=LOCUS_10320;note=MGA_1032
sequence1	MetaGeneAnnotator	CDS	624300	624596	.	+	0	ID=MGA_1033;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISSKNSLKDKLEDFENLRVFYLKYKTTIGLNIQRKEYFENGQYKNNLEKLISNEQLKKIGISGGDATPVLAKSGRIRKDSIFEKSFYEDLEINDEDT;locus_tag=LOCUS_10330;note=MGA_1033
sequence1	MetaGeneAnnotator	CDS	624738	625061	.	+	0	ID=MGA_1034;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDESKQFNALFNIIPYVKSTNDLGIAIEAAFKNKTFKIYGLNKENRTQSLFDFNNNNLKEKLFEDENNIVLNSSLAKILKAKVGETIDVEHFKKVLAVNEKELDPYS;locus_tag=LOCUS_10340;note=MGA_1034
sequence1	MetaGeneAnnotator	CDS	625074	625352	.	+	0	ID=MGA_1035;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDAKGELYTNSKELYSRSLVSSKQKGWKNKQITQNDNQFVYNTDLDTTSETMTKPTEMSEKVDSGRVTKKRVSENKTYKVVGISRQYGSAKA;locus_tag=LOCUS_10350;note=MGA_1035
sequence1	MetaGeneAnnotator	CDS	625716	626117	.	+	0	ID=MGA_1036;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNGGVVNSQTISGYQISAIKSIDQKQAALEIMSRIMKYAKVIVYYVTTIFLLICVIIIMLIVNLVIVKYQKNIAVLKVLGYKNFYIIKLFIGMYIPIVLITTLIGIGFGILIVQIVSSNLITSGIVVPFFATT;locus_tag=LOCUS_10360;note=MGA_1036
sequence1	MetaGeneAnnotator	CDS	626243	626500	.	+	0	ID=MGA_1037;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILMFLTTISMTTSTSFSVLSCKTTTEYKEIIRPEPVYLIKQYGFKGFDSKKIDVKKYVYTYDLIDELNKYLQLAGYNLNNLS;locus_tag=LOCUS_10370;note=MGA_1037
sequence1	MetaGeneAnnotator	CDS	626519	626908	.	+	0	ID=MGA_1038;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILEKGLEDNLLRNGNYFFVIKNKLNENDKIEVKQKISNSKYLKDVILKTNLKDIEDNRVKTVLMKMIFNNLNLISRIDDIAKEMLNSENITITDKNAILNFKDFDKKNRDKFYGQITLDFNVTGPNPN;locus_tag=LOCUS_10380;note=MGA_1038
sequence1	MetaGeneAnnotator	CDS	627564	627716	.	+	0	ID=MGA_1039;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIKLKEINSQRIKACIVTLILQTMSTLSLLIAAVVQSIYPLTNEAILLL;locus_tag=LOCUS_10390;note=MGA_1039
sequence1	MetaGeneAnnotator	CDS	627972	628343	.	+	0	ID=MGA_1040;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIEILFLKNLEKQLRFLKPKDREDFISNYRLQIYDRYKSGESTTDIINSFESPESIASNIYQELEIDIKKEKAKEYKSSGLAKMLLGLSTILPQILVFLFSIIFFTTSFVLIVGFLFSLVLF;locus_tag=LOCUS_10400;note=MGA_1040
sequence1	MetaGeneAnnotator	CDS	628395	628760	.	+	0	ID=MGA_1041;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLPLLAILFFYIGIEIYKFEKLFFKISIELVVGREMEIYNKTDKVKSKKNKIIIIILLSVFSLFTFAGVIGTFAGPKTIGGASLSGNMINTKTDTLNYSSFMETKDNEKLNFNYSFLRDYS;locus_tag=LOCUS_10410;note=MGA_1041
sequence1	MetaGeneAnnotator	CDS	629021	629254	.	+	0	ID=MGA_1042;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIILDLLKKQDYYAYELNKVLNKFISINESTAYAIFKKLVDKGLVSYYLAESSNGPVRKYYKITKLGLEKLKEYLEN;locus_tag=LOCUS_10420;note=WP_010963892.1 PadR family transcriptional regulator (Clostridium) [pid:42.2%25%2C q_cov:83.1%25%2C s_cov:59.8%25%2C Eval:1.5e-09%2C partial hit],MGA_1042
sequence1	MetaGeneAnnotator	CDS	629488	629727	.	-	0	ID=MGA_1043;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAYKNKKYLGSILLHSDNGNQYTSLDYISLCNDLQIIRSYSKPGTPHHNGKHESFHGRLKDETIRTCHIENINQCMEIA;locus_tag=LOCUS_10430;note=MGA_1043
sequence1	MetaGeneAnnotator	CDS	630064	630288	.	-	0	ID=MGA_1044;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLQGQNQKEIVQQLLINTKSNRTMICKILNINRTSTYKKNKTLMNFLDDTRIMNLVISEIERNNFLSAYSAKR;locus_tag=LOCUS_10440;note=MGA_1044
sequence1	MetaGeneAnnotator	CDS	630285	630515	.	-	0	ID=MGA_1045;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNGYSLKEIALKFNSTTGSIGTIINKYKNTDIGDSKTRLPYKIDYSISQKANDLFVGILFDYNKELIKENDILKKQ;locus_tag=LOCUS_10450;note=MGA_1045
sequence1	MetaGeneAnnotator	CDS	630749	630910	.	+	0	ID=MGA_1046;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSVLATIGLVSTSAVSVVACGTKPEKKLEESKKNITQIVKDFEQDVTKI;locus_tag=LOCUS_10460;note=MGA_1046
sequence1	MetaGeneAnnotator	CDS	631058	631444	.	+	0	ID=MGA_1047;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANDIEKLFKIKLLEEKLNDLKKINKYKIILSEISNVFESVELVFNDNFQINSGEIVENSYIGNIIIDYKIVTHYKGLNDTEKFKLSETLKYTSTDNDSFKKVGDKMYKNIAKDMFISSETEKYVNLK;locus_tag=LOCUS_10470;note=MGA_1047
sequence1	MetaGeneAnnotator	CDS	632234	632545	.	+	0	ID=MGA_1048;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSYLSSFSSNYYKKLFSTLSNNNLEINSLINNNIFFSLKNMFYYTRNQNASFINQNKGGYFKLNSSSSSGYYLNDFRYMTFNLFGIIKFEIKFNSSIYMSNN;locus_tag=LOCUS_10480;note=MGA_1048
sequence1	MetaGeneAnnotator	CDS	633166	633378	.	-	0	ID=MGA_1049;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLYIISGLLVTVFPTSNLISCKTEPKIDPDYYIPELNEQPKSIEEIEKLACEAYDKNQEYLNIKLEN;locus_tag=LOCUS_10490;note=MGA_1049
sequence1	MetaGeneAnnotator	CDS	633448	633582	.	-	0	ID=MGA_1050;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTLSGYKLDLKAENKELYSYSLKLFLNNEYLTNNTKEHIQKIYN;locus_tag=LOCUS_10500;note=MGA_1050
sequence1	MetaGeneAnnotator	CDS	633766	633978	.	-	0	ID=MGA_1051;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLYIISGLSVTVFPTSNLISCKTKPKIDQDYNIPELNEQPKSIEEIEKLACEAYDKNQEYLNIKNEK;locus_tag=LOCUS_10510;note=MGA_1051
sequence1	MetaGeneAnnotator	CDS	634119	634349	.	+	0	ID=MGA_1052;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNNKNTLSKFVDKLIGKKSSIKIKKPLVLFSIVGLIISLFLSISLPLFLKSNSKENIYYKFDNKYFESKDEVYQY;locus_tag=LOCUS_10520;note=MGA_1052
sequence1	MetaGeneAnnotator	CDS	634560	634802	.	+	0	ID=MGA_1053;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKVYKGLNGSAFLSEKDAKETFQNNYSLNYKVDGQVFDNTYSAREYYLNVKLKQLEDNAIKTICYEQGAMCQTKEQITS;locus_tag=LOCUS_10530;note=MGA_1053
sequence1	MetaGeneAnnotator	CDS	635172	635606	.	+	0	ID=MGA_1054;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKFLETTFNKLNLDIKLLKNFEDKFYKSLSKNLQQDLSYGLDDIKDSELNDFYRLLISFKRFLDITKIYDLDIKTDELELTLKQIVVEILNSQKEFMNNMLDINNDKNGANILLDSSISFDDIYSLFLNTNAFFNDGGTKKIL;locus_tag=LOCUS_10540;note=MGA_1054
sequence1	MetaGeneAnnotator	CDS	635646	635924	.	+	0	ID=MGA_1055;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIIGSIADNIGKVTDNIGKVTDNIGKMKTTTNKNEKEFTTNVEKNNQLVTETLIDNSDLLIKELGLNLDFTTNYIGPAALLLAIPEMISAV;locus_tag=LOCUS_10550;note=MGA_1055
sequence1	MetaGeneAnnotator	CDS	635937	636875	.	+	0	ID=MGA_1056;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSFISLKTYEAKLDSNQSLYYFEPTFKIPLLDISFAQRVQDQNIHVLNQSPLSYFSPKQDGKELNELYEFNGKYYKDKKIAIDDLKYEIYKKPENFLKTKELFTSVLSKDNNHILNINKICSTDEEQKNRKDSCISAYEYEKEVSKQSEEYIQRLFKQYYENTGKEYYLDGFGGAYDNKDIAIQQLKNKVDYLDNYQKVYSYKIYNNKIVKDTEQEIKDYIKANQYIESKTIINTDLIQTKSYDLLKENNGYDFDIYEMSYYGQIKYFRSHLEAMNYLDKKVNYEVYSYNREEKTYDYKGVEFINNQQFIQ;locus_tag=LOCUS_10560;note=MGA_1056
sequence1	MetaGeneAnnotator	CDS	636940	637392	.	+	0	ID=MGA_1057;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKHILIASAISSFSSASIVPFINSNNINEEENFIEFLRKDIEENKFYLGKQVYSEYDGKIFTSQESLNEYILSNSIVQSEFTSSNPSKIIKDYEHMTLDETKIYDIDMDKFLPVYRDAFGNIAQTSQKALDIYTHGGLVRQKYSYDEEE;locus_tag=LOCUS_10570;note=MGA_1057
sequence1	MetaGeneAnnotator	CDS	637435	637860	.	+	0	ID=MGA_1058;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKINKSLYYIHNNKYYNAFNLKDINNLLNTFEEGYFVNKTKSLEGNQLLQPIIEYGNKDILYKKMKRELKENFFDSYFYEISDMDYQNKLSFEIKDKNELRIAYPGRSQEIYYSGSRPQITFANKYSSTKDMIDDFKNIVK;locus_tag=LOCUS_10580;note=MGA_1058
sequence1	MetaGeneAnnotator	CDS	638410	638745	.	+	0	ID=MGA_1059;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYQLRPDFYATKEQLDSFIALQGKFNAVLKYSYGSNADLSSPDGKLLANTYEEAREKQFANANLSLKKRYIAYDVFENAIESGNSEQEAIRELQNNILLESKMVHKKEIEN;locus_tag=LOCUS_10590;note=MGA_1059
sequence1	MetaGeneAnnotator	CDS	638857	639054	.	+	0	ID=MGA_1060;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MALKAALSNARISGDVNKMSLEKYVYTYTDSFTQKEYSVIFYNNDIDSAIQKILLEIESIKKILH;locus_tag=LOCUS_10600;note=MGA_1060
sequence1	MetaGeneAnnotator	CDS	639366	639548	.	+	0	ID=MGA_1061;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYLSKLLFFKDIEFLLKLIMSLFFSKTPQDVPVVFESKIVPKLFKLIKYSLLKIYSLLIN;locus_tag=LOCUS_10610;note=MGA_1061
sequence1	MetaGeneAnnotator	CDS	639602	639790	.	-	0	ID=MGA_1062;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQEFYGIDTSFKYPDFDSNDNYLFNIKNKELIDIFKNDNTSNSGKYSIAILNMILSGNSNGS;locus_tag=LOCUS_10620;note=MGA_1062
sequence1	MetaGeneAnnotator	CDS	639833	640027	.	-	0	ID=MGA_1063;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFNDNEINSIKKIDSYKSSIANFKLKITGLSIKLGDDQNSYTHELPDFNILSSYSYNSKKDIN;locus_tag=LOCUS_10630;note=MGA_1063
sequence1	MetaGeneAnnotator	CDS	640070	640291	.	-	0	ID=MGA_1064;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFMKQSIYKEGTFENNFLTAFENKRVENFNNFSTLKEQSKKMFELLFRKDTNSQESKQILNDVYLTSSNKQE;locus_tag=LOCUS_10640;note=MGA_1064
sequence1	MetaGeneAnnotator	CDS	640442	641146	.	-	0	ID=MGA_1065;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSLLGTVTLIATSTSTVIACGKKTEVKDQEKDKEPENDNLAQIIQDFQNDVTKIYDNHINTEVFSQLIGLSETEKNHLFIKKENIKTYSKKETEIKPENKKEIENDINVILKAKLLEEKLNELKKVNKYKIILDEVDSIFKGVEVIYNDNFKIDSGELSQGVFIGKFIVEFKININYKGKNDIEKYEIKDTLKYTSTDSEAFKLAGEQMQEKITKEFFLSEETRNFSNFK;locus_tag=LOCUS_10650;note=MGA_1065
sequence1	MetaGeneAnnotator	CDS	641377	641937	.	-	0	ID=MGA_1066;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKELILKNIVKNIQDFYGIDTDFKYPDFQSKDNYLFNLKNKELIDILKNSGAAKNEIHSIAILNMILSGNSKGTYYYNTTNSLKSLLEKLNFTSFISKNNRNKKYFFNLNNLENIKDDDSTGTSTKVFQDNKDIIVLNKTGLTFKNNNLLKSLSFEMGYLKFAINIEDLLINKNGDTKEIIKFVE;locus_tag=LOCUS_10660;note=MGA_1066
sequence1	MetaGeneAnnotator	CDS	641941	642135	.	-	0	ID=MGA_1067;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFSENEINNIKKFDSYKSSIANFKLKITGLSIKLGDDQNSYIHELPDFNLISSYSYNSQTEIN;locus_tag=LOCUS_10670;note=MGA_1067
sequence1	MetaGeneAnnotator	CDS	642178	642399	.	-	0	ID=MGA_1068;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFSKQSIYKEGTFENNFLTAFENKNMKSFNNFSNSKEKSQKMFELIFRKDTNSQESKQILNDIYLTSSNKQE;locus_tag=LOCUS_10680;note=MGA_1068
sequence1	MetaGeneAnnotator	CDS	642550	643254	.	-	0	ID=MGA_1069;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSLLGTVTLIATSTSTVIACGKKTETKDSSKDKEPGNDNLAQVIQDFQNDVTKIYDNHINTEVFSQLIGLAETEKNHLFIKKDNIKTYSKKENEIKAENKKQIENDINVILKTKLLEEKLNELKKVNKYKIILDEVDSIFKGVEVIYNDNFKIDSGALSQGVFIGKFIVEFKININYKGKNDIEKFEIKDTLKYTSTDSEAFKLAGEQMQEKIAKEFFLSEETKNFSNFK;locus_tag=LOCUS_10690;note=MGA_1069
sequence1	MetaGeneAnnotator	CDS	643514	643744	.	+	0	ID=MGA_1070;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNGYSLKEIALKFNSTTGSIGTIINKYKNTDIGDSKTRLPYKIDYSISQKANDLFVGILFDYNKELIKENDILKKQ;locus_tag=LOCUS_10700;note=MGA_1070
sequence1	MetaGeneAnnotator	CDS	643741	643965	.	+	0	ID=MGA_1071;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLQGQNQKEIVQQLLINTKSNRTMICKILNINRTSTYKKNKTLMNFLDDTRIMNLVISEIERNNFLSAYSAKR;locus_tag=LOCUS_10710;note=MGA_1071
sequence1	MetaGeneAnnotator	CDS	644302	644541	.	+	0	ID=MGA_1072;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAYKNKKYLGSILLHSDNGNQYTSLDYISLCNDLQIIRSYSKPGTPHHNGKHESFHGRLKDETIRTCHIENINQCMEIA;locus_tag=LOCUS_10720;note=MGA_1072
sequence1	MetaGeneAnnotator	CDS	644926	645087	.	+	0	ID=MGA_1073;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKDNKNLNALRILGIEAVNKANSGHPGIVLGAGPIVYTLFTKLMNLNPKNPS;locus_tag=LOCUS_10730;note=WP_011183246.1 transketolase (Mesoplasma florum) [pid:78.8%25%2C q_cov:98.1%25%2C s_cov:7.9%25%2C Eval:1.8e-18%2C partial hit],internal stop codon at [645085:645087](+),MGA_1073
sequence1	MetaGeneAnnotator	CDS	645148	645555	.	+	0	ID=MGA_1074;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHLSGFDLSIEEMKKFRQLNSKTPGHPEFGHTQGVEATTGPLGQGFAMGVGMALAESHLASKYNTDKHEVINHFTYVLCGDGDLQEGVCQEAISFAGRYKLNKLVVLHDSNDIQLDAPVKVAQSEDIQAKFKAAG;locus_tag=LOCUS_10740;note=WP_020862658.1 transketolase (Mycoplasma mycoides) [pid:66.9%25%2C q_cov:98.5%25%2C s_cov:20.3%25%2C Eval:2.8e-48%2C partial hit],internal stop codon at [645085:645087](+)%2C[645553:645555](+)%2C[645751:645753](+),MGA_1074
sequence1	MetaGeneAnnotator	CDS	646006	646755	.	+	0	ID=MGA_1075;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKNIPAMIGGSADLCESTKIKGADGNYDFNSKKGRNIMYGVREFAMSSINNGIALHGGLLPVASGFFVFADYLKPALRMSAIMKLQTLSVFTHDSVAVGEDGPTHQPIEQLAMLRSIPNMSVYRPCDMAETIASYYNALNNKNNPSVIIATRQNLKELDHSKTIVDDVKKGAYILSKTDKANITLIATGSEVSLALEVKNELEKNNQKVNVVSMPNMNEFLKQSKDYQDSIIDKKTIRFSIELSSTYG;locus_tag=LOCUS_10750;note=WP_011183246.1 transketolase (Mesoplasma florum) [pid:58.8%25%2C q_cov:100.0%25%2C s_cov:38.0%25%2C Eval:1.0e-79%2C partial hit],internal stop codon at [645751:645753](+)%2C[645796:645798](+)%2C[645841:645843](+)%2C[645919:645921](+)%2C[646753:646755](+),MGA_1075
sequence1	MetaGeneAnnotator	CDS	646991	647164	.	+	0	ID=MGA_1076;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVGGIIGFIITRKVIQKQLRENPPINENQIRAMYRSMGRKPTETDIKKTMNAVKRGK;locus_tag=LOCUS_10760;note=WP_011166562.1 YneF family protein (Mycoplasma mycoides) [pid:68.4%25%2C q_cov:100.0%25%2C s_cov:70.4%25%2C Eval:1.1e-17%2C partial hit],MGA_1076
sequence1	MetaGeneAnnotator	CDS	647317	647871	.	+	0	ID=MGA_1077;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIQVFTCRGFKKVNAFLLHNENKKAILFDTGYLVYEDIIKFVEENNIKITDIFITHGHFAHFYGINEICKNQDNPNVFIGKDDLLNLFDSVKNQSEFFEGVGKYILQPIKNLKVIAKDTKIKVNGYNLEIYGKKIHTDGSLLFSVPEKKFIFVGDFIFKDESYLMDDLMNLDEESEKKAKEIFN;locus_tag=LOCUS_10770;note=WP_011183552.1 MBL fold metallo-hydrolase (Mesoplasma florum) [pid:34.4%25%2C q_cov:86.4%25%2C s_cov:67.1%25%2C Eval:3.2e-14%2C partial hit],internal stop codon at [647869:647871](+),MGA_1077
sequence1	MetaGeneAnnotator	CDS	648227	648454	.	+	0	ID=MGA_1078;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHFGTELIGTMVLILLGNGVVANVVLKNTKGNNGGLIAITIGWAVAVILGATIASAMGGKAHLNPAVTIAMISNG;locus_tag=LOCUS_10780;note=WP_011166454.1 MIP/aquaporin family protein (Mycoplasma mycoides) [pid:61.5%25%2C q_cov:86.7%25%2C s_cov:25.1%25%2C Eval:6.3e-16%2C partial hit],internal stop codon at [648452:648454](+)%2C[648707:648709](+),MGA_1078
sequence1	MetaGeneAnnotator	CDS	648728	648877	.	+	0	ID=MGA_1079;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGPIFVGIAVLAIGLSLGGTTGYAINPVRDLMPRIVYQCLPVKNKVKAD;locus_tag=LOCUS_10790;note=WP_003641945.1 MIP/aquaporin family protein (Lactiplantibacillus) [pid:65.3%25%2C q_cov:100.0%25%2C s_cov:20.4%25%2C Eval:5.6e-12%2C partial hit],internal stop codon at [648707:648709](+)%2C[648875:648877](+)%2C[648887:648889](+),MGA_1079
sequence1	MetaGeneAnnotator	CDS	648992	649228	.	+	0	ID=MGA_1080;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNQKYDICIIGAGIIGASIARELSKYNLNILVLESNVSYGLETTTGNSGVIHGGFDPTPGKLNAKLNQRGKKLYRER;locus_tag=LOCUS_10800;note=WP_013447578.1 type 2 glycerol-3-phosphate oxidase (Mycoplasma leachii) [pid:55.8%25%2C q_cov:98.7%25%2C s_cov:19.9%25%2C Eval:8.7e-18%2C partial hit],internal stop codon at [649226:649228](+),MGA_1080
sequence1	MetaGeneAnnotator	CDS	649268	649753	.	+	0	ID=MGA_1081;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVIAFNEEEEKHLEILYKNGFINGLEKEEIKLIEKDEVLKLQPNISNKVTKALLCNSSIAIDAVELTGVLLKNAKRNSCDVKFNQKVMKIEKQKEEFIIQTNDSNYNSKMIINCAGHYADEISKMAGYDEYKLDTRRGEYIVLKKSKDNFVNNIIFLVPTI;locus_tag=LOCUS_10810;note=WP_013447578.1 type 2 glycerol-3-phosphate oxidase (Mycoplasma leachii) [pid:48.4%25%2C q_cov:99.4%25%2C s_cov:41.6%25%2C Eval:1.4e-38%2C partial hit],internal stop codon at [649226:649228](+)%2C[649751:649753](+),MGA_1081
sequence1	MetaGeneAnnotator	CDS	649781	650116	.	+	0	ID=MGA_1082;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDGNILVGPTSQEGVGKEETSLITNEKEKLIMDIGKKIMPNLDYSKIAKRFSGSRPIYKATDDFYIQFAKNDKYFLNVAGIKSPGIAAAPAIAEYVIDMIKKVITLKEKEN;locus_tag=LOCUS_10820;note=WP_013447578.1 type 2 glycerol-3-phosphate oxidase (Mycoplasma leachii) [pid:49.1%25%2C q_cov:99.1%25%2C s_cov:28.4%25%2C Eval:2.2e-24%2C partial hit],internal stop codon at [649751:649753](+)%2C[650114:650116](+),MGA_1082
sequence1	MetaGeneAnnotator	CDS	650183	650311	.	+	0	ID=MGA_1083;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKYIVTLDEGTTSARTLVVNKKGEIVVSNQKEFSQYYPEEG;locus_tag=LOCUS_10830;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:2.5e-09%2C partial hit],internal stop codon at [650309:650311](+)%2C[650336:650338](+)%2C[650444:650446](+)%2C[650486:650488](+)%2C[650603:650605](+),MGA_1083
sequence1	MetaGeneAnnotator	CDS	650816	651130	.	+	0	ID=MGA_1084;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPEIKSNSEIYGHTFPGLLSKNSEYQIPIASSIGDQQSALFGQMCLEKGDIKTTFGTGAFILMNTGEEKVESKNGLLTVIAYSINDKFVYGLEGSIMMAGATLQ;locus_tag=LOCUS_10840;note=WP_011166455.1 glycerol kinase GlpK (Mycoplasma mycoides) [pid:68.3%25%2C q_cov:100.0%25%2C s_cov:20.6%25%2C Eval:9.4e-36%2C partial hit],internal stop codon at [650603:650605](+)%2C[650678:650680](+)%2C[650687:650689](+)%2C[650771:650773](+)%2C[651128:651130](+)%2C[651251:651253](+),MGA_1084
sequence1	MetaGeneAnnotator	CDS	651326	651547	.	+	0	ID=MGA_1085;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDSIAYQSNDVFDVMQKDSKIDIKTIKLDGGASKNNYLIQFQANISNREIIRPKNVETTAMGAAYLAGLAIGY;locus_tag=LOCUS_10850;note=WP_011861192.1 glycerol kinase GlpK (Clostridioides difficile) [pid:59.3%25%2C q_cov:80.8%25%2C s_cov:11.7%25%2C Eval:2.0e-14%2C partial hit],internal stop codon at [651128:651130](+)%2C[651251:651253](+)%2C[651545:651547](+)%2C[651575:651577](+)%2C[651632:651634](+),MGA_1085
sequence1	MetaGeneAnnotator	CDS	652034	652159	.	+	0	ID=MGA_1086;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLITIMSSVTLVVSATSSLTLANQNKKVSEKNILDTDIN;locus_tag=LOCUS_10860;note=MGA_1086
sequence1	MetaGeneAnnotator	CDS	652187	652567	.	+	0	ID=MGA_1087;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFDETLSDSDQTAAMIEKAREESMRYFDNIKKNNLSLEQINRNLAEITTKYENKYQSEIANFRESNNKESKNINQINNSQNFYISRSSGSYEDAKRLLSDFEKKLAITQNTLSTLAVTAGIAAAGF;locus_tag=LOCUS_10870;note=MGA_1087
sequence1	MetaGeneAnnotator	CDS	653402	653533	.	-	0	ID=MGA_1088;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLDAFKILLAVLIALAISQIPLNIFQNVILIIPGLFALIGHC;locus_tag=LOCUS_10880;note=MGA_1088
sequence1	MetaGeneAnnotator	CDS	653854	654129	.	+	0	ID=MGA_1089;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLSEKINLNKIIFDLYKKDLNGLINNKDFNLSDEQKNELIILGQTNECKTLFERINNFFEKNINNEPLELSLMLTLILQRYNYFYKTELQ;locus_tag=LOCUS_10890;note=MGA_1089
sequence1	MetaGeneAnnotator	CDS	654352	654537	.	+	0	ID=MGA_1090;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQNCENMILFLQDTKNIYSSLESVGVENEKQQFLAHTNELKIIYQSLNHLINEILKDIIVV;locus_tag=LOCUS_10900;note=MGA_1090
sequence1	MetaGeneAnnotator	CDS	654555	654683	.	+	0	ID=MGA_1091;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFEKYVNMNKQDMEKDLEEIEKQYKQLLEEEKKIDKKVRKNL;locus_tag=LOCUS_10910;note=MGA_1091
sequence1	MetaGeneAnnotator	CDS	655614	655898	.	+	0	ID=MGA_1092;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKIFYLNEDLEYTYEYVFYNQGIGACSHEKIANDQRDNKFKCINCFMIFSFVNQKQLDRFSSRVIKEHDFERAEIELKRRIKGKKLVNEYDK;locus_tag=LOCUS_10920;note=MGA_1092
sequence1	MetaGeneAnnotator	CDS	656170	656307	.	+	0	ID=MGA_1093;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINQMPDFDLYKNIEDFLSVRKMIISKDYTDLNHSRFTTSFIEQN;locus_tag=LOCUS_10930;note=MGA_1093
sequence1	MetaGeneAnnotator	CDS	656852	657664	.	+	0	ID=MGA_1094;product=deoxyribonuclease IV;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183230.1;translation=MEKPKFYLGSHVGMNSANDYLIGSAKETINNGANTLMFFTGAPQNTRRTETSKLNIDQFKSLLIDNNIDINKVICHGPYTINLANTVKLETFELGVRLLEEELLRLEEIGVHTVVLHPGAAVGAPRELALESVAKGLNMVYKKLPNTPVRVALETMSGKGTEVCITFEEIKKVLDLVEAKDKVGVCFDTCHMHDAGYDVKNNFDKVVEEFDQIIGLDKLMAIHLNDSKNPIANHKDRHENIGYGYIGFDTLASIVHNPLFKEIPIVLETP;locus_tag=LOCUS_10940;EC_number=3.1.21.2;note=WP_011183230.1 deoxyribonuclease IV (Mesoplasma florum) [pid:51.3%25%2C q_cov:100.0%25%2C s_cov:91.5%25%2C Eval:1.8e-72],MGA_1094
sequence1	MetaGeneAnnotator	CDS	657875	658048	.	+	0	ID=MGA_1095;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSVLAGIGIASSSATSVVACGTKKEDKSSTKPEQPKKDITQIVQNFEQDVTKI;locus_tag=LOCUS_10950;note=MGA_1095
sequence1	MetaGeneAnnotator	CDS	658100	658585	.	+	0	ID=MGA_1096;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEEDNEFLNKHNIQKFSKPENKNKLTVENKKQLNNDVEKLFKVKLLEEKLNELKKVNKYKIILDEVTSVFEHVELIFDNDNFKINSGELSPGVYIGNVIVDYKVVTNYKGLADIEKFKQSGRLKYTSTDSKSFKTIGDEMYKNIAKDIFASTETQKYVNLK;locus_tag=LOCUS_10960;note=MGA_1096
sequence1	MetaGeneAnnotator	CDS	658643	659713	.	+	0	ID=MGA_1097;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKSYNENNEFHNAMLKTIKTNYFKGDFSSLDINYEKKSIYKTDDFVKQNKDYLIISNFMGSLDLKNVEDQKDISKILQGDKKTTELFLYRYFSNKNMSNIRENYRKKQDEFLNKFLTKVEVDNYKKTNSYKFAIAMGYADFIGPVIKIGKGESTYSHELPDFKLAISYSMNGNDEQQFPQTFVEFGIKAFEIYKQVYKPDSESIKELKDKYDYDFLFDLKFDNDIFIKDQYNFVQPKTNSEINNSLKKFDNVYYTRIKEQLSSIGEYEKILNNKDILFEMKTTNEILSKSQSNYIRFESKQSQKIGYFQMNNYQINKGDKIFKEFEYIQINLFGVIKIKIYFDKDYRYSKSMTIF;locus_tag=LOCUS_10970;note=MGA_1097
sequence1	MetaGeneAnnotator	CDS	660113	660817	.	+	0	ID=MGA_1098;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSVLASIGFVSSSTVSVVACGTKEKSKDTSKPQEPQKDDLNEIIRDFQTEVTKIYNSHMKSEVIGNLIGLQETEKNYLFIKKDNIIAFSNKEKDITAENKKQIENDENLILKSKLLAEKLNELKKVNKYKVILDDVDSIFNGVEVIYNDNFKIKSGELSQGVYIGNLINEYKVNIKYKGKNDIEKFEIGDTLKYTSTDDETFKIAGDNLAKNIEKDFLVSNEMKRYSNFE;locus_tag=LOCUS_10980;note=MGA_1098
sequence1	MetaGeneAnnotator	CDS	660995	661189	.	+	0	ID=MGA_1099;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDSSFRNNLLNVFESKSAKSFEDYTKSDQNSEKIFKTIFRNDPNSESTKQVLKELYFTNNNMDK;locus_tag=LOCUS_10990;note=MGA_1099
sequence1	MetaGeneAnnotator	CDS	661367	661636	.	+	0	ID=MGA_1100;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPDFNLYVTYNASSKVEEKIDFLSEFTSKVIIKGMHNFYGMDSNFKYPEFNSDQDYLMNIGNKEIISNIKNNFDKEYQLKYPGTFSQIF;locus_tag=LOCUS_11000;note=MGA_1100
sequence1	MetaGeneAnnotator	CDS	661652	661990	.	+	0	ID=MGA_1101;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNQKSKEFISDLNIFNMLLTNNLSLVYFIFENFSQDLYDLVYSGSGNKYNNKIEPVVNENDVSLISTKTGAKDKNPDSITFKLGYLAVNFKYEKLFNLSESQKSKIFIKFV;locus_tag=LOCUS_11010;note=MGA_1101
sequence1	MetaGeneAnnotator	CDS	662099	662338	.	-	0	ID=MGA_1102;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAYKNKKYLGSILLHSDNGNQYTSLDYISLCNDLQIIRSYSKPGTPHHNGKHESFHGRLKDETIRTCHIENINQCMEIA;locus_tag=LOCUS_11020;note=MGA_1102
sequence1	MetaGeneAnnotator	CDS	662675	662899	.	-	0	ID=MGA_1103;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLQGQNQKEIVQQLLINTKSNRTMICKILNINRTSTYKKNKTLMNFLDDTRIMNLVISEIERNNFLSAYSAKR;locus_tag=LOCUS_11030;note=MGA_1103
sequence1	MetaGeneAnnotator	CDS	662896	663126	.	-	0	ID=MGA_1104;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNGYSLKEIALKFNSTTGSIGTIINKYKNTDIGDSKTRLPYKIDYSISQKANDLFVGILFDYNKELIKENDILKKQ;locus_tag=LOCUS_11040;note=MGA_1104
sequence1	MetaGeneAnnotator	CDS	663363	664067	.	+	0	ID=MGA_1105;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSMLAVFGIASSTTITVVACGVKTENKNPDKKPEEPKEDLNQIIKDFQNEATNIYIDHIKKEVMQNLIGIQENEKKHLFIKKDNIIAFSNKEKELTLKDKKDIEHDENLILNSTLLAQKLKELKKVNKYKVILDDIDSIFDGVEIIYNDNLKIKSGELSQGVYIGNFINEYKVNIKYKGKNSIEKFEIKDILKYTSTDDATFKVAGDNLAKNIEKDFLVSNEMKKYSNFE;locus_tag=LOCUS_11050;note=MGA_1105
sequence1	MetaGeneAnnotator	CDS	664245	664439	.	+	0	ID=MGA_1106;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDSNFKTNLLNVFENKSSKSFEDYTKSEQNSEKIFKTIFRNDPNNESNKQVLKELYFTNNNMDK;locus_tag=LOCUS_11060;note=MGA_1106
sequence1	MetaGeneAnnotator	CDS	664617	664832	.	+	0	ID=MGA_1107;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPDFNLSVTYNASSKVEEKIDFLSEFTSKVIIKGMHNFYGMDSNFKYPEFNSDQDYLMNIGNKEVIPIVKN;locus_tag=LOCUS_11070;note=MGA_1107
sequence1	MetaGeneAnnotator	CDS	664836	665024	.	+	0	ID=MGA_1108;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINSNRLPGDLSFMFGSIVKAIGISNKLDFISNLGISFLIKNMSKNYIIMSDYSNDLVDYEN;locus_tag=LOCUS_11080;note=MGA_1108
sequence1	MetaGeneAnnotator	CDS	665963	666241	.	+	0	ID=MGA_1109;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKEVFSTYLFLEKFNNQNNIDIENSFIADLRKIAEKQNDKKITANLLEKNKKTTLNFIKGMLTSLEKITKIKLSDDLQYVKNENLHDPKVE;locus_tag=LOCUS_11090;note=MGA_1109
sequence1	MetaGeneAnnotator	CDS	666482	666706	.	+	0	ID=MGA_1110;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIQTISQLKNRRKKVIQILYRLFLLNENIDKIKQELLDGFQLETIDEELVDYIFEILNNTLDYKQLISNLLPEL;locus_tag=LOCUS_11100;note=MGA_1110
sequence1	MetaGeneAnnotator	CDS	666905	667297	.	+	0	ID=MGA_1111;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIDIFANYKEDLKNYLKSLKSDIKLLIYKEFKNYIFNTKLDSHNIFEKSFFTKAFCELATYCYLQNYNSKFFNSKNSNLINNYSKFSEENFLNKKFENVVIVSAQKLLKEDEQLNDFIKTLTDTLKVNV;locus_tag=LOCUS_11110;note=MGA_1111
sequence1	MetaGeneAnnotator	CDS	667685	667876	.	+	0	ID=MGA_1112;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKFNNPIFTIDKNNNFFSFLNILSYGNFKNFNDISKFFTKRSKENKPEKLKLQDSKNVDPLN;locus_tag=LOCUS_11120;note=MGA_1112
sequence1	MetaGeneAnnotator	CDS	668090	668488	.	+	0	ID=MGA_1113;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDEILKEHESNELNNNMDELLLEVTQENMLLSSELSKKANKEFTKFIKLFDKEINNIELTTKEYNKDKYFSFKKMINQKNIKEVLEFLTNKNDNLFSKLKNKKMTKQDIMNYYTLYIKVKSCLYEMKFLKLK;locus_tag=LOCUS_11130;note=MGA_1113
sequence1	MetaGeneAnnotator	CDS	668513	668695	.	+	0	ID=MGA_1114;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTEMIFKITDFADILKNYVEESNALKNINVKGEIANLTHNKSGHIYFSLKDSQAKIDCAI;locus_tag=LOCUS_11140;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:2.1e-11%2C partial hit],internal stop codon at [668693:668695](+)%2C[668885:668887](+),MGA_1114
sequence1	MetaGeneAnnotator	CDS	669167	669553	.	+	0	ID=MGA_1115;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQVLQAIKDSSIPIISGVGHEPDITLTDYVADFRASTPTAAGEKATPDTENVLQALNSKNHEFAKVLNNKIEKLHMEIDNLSYTLKTSIQNKIVSLNNNFKNTSNFFNSLIKNKIIIMNNNFKNDIHN;locus_tag=LOCUS_11150;note=WP_011183228.1 exodeoxyribonuclease VII large subunit (Mesoplasma florum) [pid:47.8%25%2C q_cov:71.9%25%2C s_cov:22.8%25%2C Eval:6.4e-16%2C partial hit],internal stop codon at [669152:669154](+)%2C[669551:669553](+),MGA_1115
sequence1	MetaGeneAnnotator	CDS	669623	669778	.	+	0	ID=MGA_1116;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQNPYLPLSKGYSILKQDDQIIRSKENIIKNKLVTAILNDGEVKLKLEEEN;locus_tag=LOCUS_11160;note=MGA_1116
sequence1	MetaGeneAnnotator	CDS	669783	669986	.	+	0	ID=MGA_1117;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKNFNDLLNEIKNISEKLNDSNTSMEESIELFKKGTELIKEAKDQLTNLEGEVKKVLENNEFINF;locus_tag=LOCUS_11170;note=MGA_1117
sequence1	MetaGeneAnnotator	CDS	670028	670378	.	-	0	ID=MGA_1118;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVLLGIRTDGHFCGNLSGVTKFGDRTRIITLKDLEQNTSIPKPNENLFHDEFVTMGPREIMKARNIIMIANGENKAEVIDQIINGPVVEKVPSSLLTLHPHFNLIIDQDANKMAKA;locus_tag=LOCUS_11180;note=WP_011182928.1 glucosamine-6-phosphate deaminase (Mesoplasma florum) [pid:73.3%25%2C q_cov:100.0%25%2C s_cov:48.5%25%2C Eval:3.8e-45%2C partial hit],internal stop codon at [670421:670423](-),MGA_1118
sequence1	MetaGeneAnnotator	CDS	670421	670747	.	-	0	ID=MGA_1119;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIFKTKNYEEMSFKALELFLEIINNNQNKERINIAITGGKSPLLFYKELIKNLDKIKNLSKIHFYNFDEVPYKSNLSTGITIEDLEKIFFVPGKIKQENIHRMSLLN;locus_tag=LOCUS_11190;note=WP_011182928.1 glucosamine-6-phosphate deaminase (Mesoplasma florum) [pid:57.4%25%2C q_cov:100.0%25%2C s_cov:45.2%25%2C Eval:7.3e-33%2C partial hit],internal stop codon at [670421:670423](-),MGA_1119
sequence1	MetaGeneAnnotator	CDS	671520	671654	.	+	0	ID=MGA_1120;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKTKNYETYIKLFIAGLFIITIFDTAIVLSISIRGIIYLFEDK;locus_tag=LOCUS_11200;note=MGA_1120
sequence1	MetaGeneAnnotator	CDS	671700	671942	.	+	0	ID=MGA_1121;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTFELKLLIKYFKKLRSFNNEEIKERHMLTFDYIVTENKNHFKKEMIFVYISCSFIVLFGGIGVIPLVFLINGQKSHKK;locus_tag=LOCUS_11210;note=MGA_1121
sequence1	MetaGeneAnnotator	CDS	672022	672351	.	+	0	ID=MGA_1122;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLSQIANFKELYNIKDNENLTELAQDIRDFLIDFVNKNNGHIGSNLGVTELTLSIFSYFDLDKTIVLFDTGHQSHIYKLLIHGVDKFKTIKQFKGLSNFQEMKESDYD;locus_tag=LOCUS_11220;note=WP_033045549.1 1-deoxy-D-xylulose-5-phosphate synthase (Clostridium botulinum) [pid:47.7%25%2C q_cov:98.2%25%2C s_cov:17.1%25%2C Eval:1.5e-22%2C partial hit],internal stop codon at [672349:672351](+),MGA_1122
sequence1	MetaGeneAnnotator	CDS	672481	673296	.	+	0	ID=MGA_1123;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLRNSSKKTITILNDNNEAIGINSLKIKDIKMYVESLDIKYIKCDNGHDFQKLFKSFDEAKKEEGHVLIHCITKKSLGYNGEKQLFSNHSVESEIKNSYSKLIALELEKKFTQNDYLICPAMLNSSNLANLKNKFKNNVIDVGINEEFSLLTASAIANCKKRTFVSIYSTFFQRVFDQLVHDVFRNDLALTFLIDRGGLNFSGGVSHHGIYDVSLINNFSNAIICQPYSINDVKILLEHAYLNKDKQFFLRYENLEAINDNSNSKFNIGE;locus_tag=LOCUS_11230;note=WP_003733809.1 1-deoxy-D-xylulose-5-phosphate synthase (Listeria monocytogenes) [pid:30.9%25%2C q_cov:94.8%25%2C s_cov:47.8%25%2C Eval:4.7e-28%2C partial hit],internal stop codon at [672349:672351](+)%2C[673294:673296](+),MGA_1123
sequence1	MetaGeneAnnotator	CDS	673441	673656	.	+	0	ID=MGA_1124;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLAKHSKNKIYVYEQVIDKNNLLTNIKRQFNNLDIRGFAFNKINIEHGNKDLVLKDLAMDVEGIIHKIVEV;locus_tag=LOCUS_11240;note=MGA_1124
sequence1	MetaGeneAnnotator	CDS	673660	674454	.	+	0	ID=MGA_1125;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDIIDKNYFINKLSRDKEIIDLISKQSDKQNVNFFENLKKIKDILHLKNQTDKKILDEYEKLIIIPTGTEETLIRELNQFNKEMYDNLPEHYIIDFDKTLTTDTNSKLDISKINNSKKIKKDYKKNILNLSNPYIQDSSIAFDEQEHKEIDPYVEKTIHNFEDLFNNDSLTKDNQNYINNLLDDNQESFNLVKSTEQIYAQSIEEKEKMISEIRESLVDGNYGKLNLTKPLSISTARYMRKLASLKKGFIKSYGGELFKKISE;locus_tag=LOCUS_11250;note=MGA_1125
sequence1	MetaGeneAnnotator	CDS	674578	674802	.	+	0	ID=MGA_1126;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQRLDQILLKKELAENRNKARGLIIDGKVLVNNEKITKPGTLFDQEKINIKLLNQENEFVSRAGKKLFKAINF;locus_tag=LOCUS_11260;note=WP_012259513.1 TlyA family rRNA (cytidine-2'-O)-methyltransferase (Chloroflexus aurantiacus) [pid:42.5%25%2C q_cov:97.3%25%2C s_cov:26.9%25%2C Eval:7.0e-07%2C partial hit],internal stop codon at [674800:674802](+)%2C[674929:674931](+),MGA_1126
sequence1	MetaGeneAnnotator	CDS	674962	675249	.	+	0	ID=MGA_1127;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKTNFRNVTKDFFDKEINFFCCDVSFISVEKILTPLKEIVSDNVLGIILIKPQFESDKEDVKNGKINSKEGHIKSINRVTSYCNQNSFSVIDIN;locus_tag=LOCUS_11270;note=WP_011183226.1 TlyA family rRNA (cytidine-2'-O)-methyltransferase (Mesoplasma florum) [pid:49.5%25%2C q_cov:95.8%25%2C s_cov:34.1%25%2C Eval:5.0e-21%2C partial hit],internal stop codon at [674800:674802](+)%2C[674929:674931](+)%2C[675247:675249](+),MGA_1127
sequence1	MetaGeneAnnotator	CDS	675449	675736	.	+	0	ID=MGA_1128;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAEDPTLRNKNLVVASPNRRAIVTTASYNARKFGIKAGTPVFQAKELCPNLYIANSDFSLYIKYSEQVFDIIYNNFTKEFEVASIDECYIDMTKV;locus_tag=LOCUS_11280;note=WP_011183225.1 DNA polymerase IV (Mesoplasma florum) [pid:51.6%25%2C q_cov:98.9%25%2C s_cov:25.7%25%2C Eval:8.5e-21%2C partial hit],internal stop codon at [675734:675736](+)%2C[675917:675919](+),MGA_1128
sequence1	MetaGeneAnnotator	CDS	675782	675919	.	+	0	ID=MGA_1129;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIYNQTGLSASIGISTNKFLAKTCVEFNKPKGISILLEEEIEKIL;locus_tag=LOCUS_11290;note=MGA_1129
sequence1	MetaGeneAnnotator	CDS	675923	676072	.	+	0	ID=MGA_1130;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIKKMFMIGPATEKILNENNIYKIRDLALTDVNKIIELLGKRGLTLWY;locus_tag=LOCUS_11300;note=MGA_1130
sequence1	MetaGeneAnnotator	CDS	676235	676408	.	+	0	ID=MGA_1131;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQGTTVTIVARYLDDIKPEIYSNKERKKHLTKQESFQTPTNDPEIIYSISKQCFYEL;locus_tag=LOCUS_11310;note=MGA_1131
sequence1	MetaGeneAnnotator	CDS	676710	676874	.	+	0	ID=MGA_1132;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYRIDDLILELHSIHKQLNTFLFSSTLSEVKISIETSKRRNRLTLGHFDTSKD;locus_tag=LOCUS_11320;note=MGA_1132
sequence1	MetaGeneAnnotator	CDS	676959	677330	.	+	0	ID=MGA_1133;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVHQYNYEHDIKDVENNQRHNKQFKKVAESIAKLNIIKTKSRLGFAFTTPSTELVEFIEKKLDFNKDIFRKMIHKDAIEYRPRGYNKSSRYICNICNTVINNSREKPLKIMCMDCNNMFEKIK;locus_tag=LOCUS_11330;note=MGA_1133
sequence1	MetaGeneAnnotator	CDS	677450	678301	.	+	0	ID=MGA_1134;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSGFAPKFCPTHLQIHVCELQNVFEKNKKIEDKLSAKVRRLHGTQTEEELAIEKSKRKDKEGTLGDILAKAKKKIKADKEALAKNDVETKPASEEEIGDRMAALRAKMSGEPSSSPISDNSKMSVVEETGLQKIINHAKNHQNNHPQENFKTPQRAKTGEKQQNSTLKNNKPSQVSKDLNLNKIEAKNTDLEQKAIKKETKSLKKQSSVKMFSQKEAEELIQIAVKEALKQVGVFEEDKFDIKDNDQKSLVKQSVSKKINNVKRSTSDNKTKSTNKTVKKDKK;locus_tag=LOCUS_11340;note=MGA_1134
sequence1	MetaGeneAnnotator	CDS	678884	679405	.	-	0	ID=MGA_1135;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTFDDGPSVTDDVEIMNILDKYNAKATFFGTGINYEKYFTDQGQTKAVVDRMIKDGHSLGNHSYNHNKYQFKTKKAYEKEFYRTSELIVKIYAENGIEKSIADIPVRMPYLQYYRGMGYLQEKLQIDYFIRGYLGCDYKEQSCGKEKILKQYKSHLSKGKILVCHTRAYAKE;locus_tag=LOCUS_11350;note=WP_011183456.1 polysaccharide deacetylase family protein (Mesoplasma florum) [pid:56.6%25%2C q_cov:100.0%25%2C s_cov:69.2%25%2C Eval:3.4e-52%2C partial hit],internal stop codon at [678812:678814](-)%2C[678884:678886](-),MGA_1135
sequence1	MetaGeneAnnotator	CDS	679835	679963	.	-	0	ID=MGA_1136;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQPLGITISSIKPGGFRTNFLKENSLVTGESIIEDYADKRNE;locus_tag=LOCUS_11360;note=WP_011183070.1 SDR family oxidoreductase (Mesoplasma florum) [pid:61.9%25%2C q_cov:100.0%25%2C s_cov:15.1%25%2C Eval:4.3e-09%2C partial hit],internal stop codon at [679813:679815](-)%2C[679834:679836](-)%2C[680047:680049](-)%2C[680077:680079](-)%2C[680188:680190](-),frameshifted%2C insertion/deletion at around 680196,MGA_1136
sequence1	MetaGeneAnnotator	CDS	680146	680439	.	-	0	ID=MGA_1137;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVTGASQGLGLAVTKKLLSKNFKVIATTRNKEKLESLFENNKNLLIVNMNINDQKSITKAIEEGIKKFNSIDILLNNAGYDICEVLKKQVHKKCKII;locus_tag=LOCUS_11370;note=WP_011183069.1 SDR family oxidoreductase (Mesoplasma florum) [pid:55.7%25%2C q_cov:81.4%25%2C s_cov:28.3%25%2C Eval:4.2e-20%2C partial hit],internal stop codon at [680047:680049](-)%2C[680077:680079](-)%2C[680188:680190](-)%2C[680440:680442](-),frameshifted%2C insertion/deletion at around 680196,MGA_1137
sequence1	MetaGeneAnnotator	CDS	680580	680807	.	-	0	ID=MGA_1138;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVFILRDAGMEIKKIKEYLNLCLQGDGTVTERFNIIVAQKNILLEKINNLKEQLDLLNLKELHYKKIIETGIEDE;locus_tag=LOCUS_11380;note=WP_011183068.1 MerR family transcriptional regulator (Mesoplasma florum) [pid:60.0%25%2C q_cov:100.0%25%2C s_cov:47.2%25%2C Eval:6.1e-19%2C partial hit],internal stop codon at [680580:680582](-)%2C[680814:680816](-),MGA_1138
sequence1	MetaGeneAnnotator	CDS	680814	680960	.	-	0	ID=MGA_1139;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLGIKELTKIFNVTEQTFRFYDSKELFPFMKRELNNYRYANFEDLQ;locus_tag=LOCUS_11390;note=WP_011183068.1 MerR family transcriptional regulator (Mesoplasma florum) [pid:63.8%25%2C q_cov:97.9%25%2C s_cov:29.6%25%2C Eval:1.1e-10%2C partial hit],internal stop codon at [680580:680582](-)%2C[680814:680816](-),MGA_1139
sequence1	MetaGeneAnnotator	CDS	680970	681167	.	-	0	ID=MGA_1140;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLVKNHSQRIKRVEKRDNRNCEEIDSITEFQKEKLKDYKFDYILENNSDKKTFYKNIDSLVELIK;locus_tag=LOCUS_11400;note=MGA_1140
sequence1	MetaGeneAnnotator	CDS	681282	681539	.	-	0	ID=MGA_1141;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIIGVSGFIGSGKTTMLQYLDKNPKIKIIEADEISKKILYEKELIEFIKQKIPNALINEQIDRLILRQELFNNHKLNNEFTKIA;locus_tag=LOCUS_11410;note=WP_011183178.1 dephospho-CoA kinase (Mesoplasma florum) [pid:39.0%25%2C q_cov:96.5%25%2C s_cov:43.5%25%2C Eval:2.8e-08%2C partial hit],MGA_1141
sequence1	MetaGeneAnnotator	CDS	682043	682567	.	-	0	ID=MGA_1142;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIINEIDKIKNKSVNETDEQNDTLNLINKMKNKREKSLDSTTLDIQQITQEDNTFNITDEYYNQEDRTFNVTDEIENKKEESLDSAILNDQQINKEDNTFTITDETNELENNQIERHETINDSYQYYENASTKCILYFKSIKKMFEDSNNQNSILYKQTIEKLEQIQNTKDIN;locus_tag=LOCUS_11420;note=MGA_1142
sequence1	MetaGeneAnnotator	CDS	683190	683396	.	+	0	ID=MGA_1143;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISFLFFKLYPIIWIINLQVIIIKPTVLIIKGVQYIKTSSAATIKFLPSYKKLNKTFSKLFETIILLT;locus_tag=LOCUS_11430;note=MGA_1143
sequence1	MetaGeneAnnotator	CDS	683288	683533	.	-	0	ID=MGA_1144;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIKLLKNNKKPFYMIISLMIFSIIIFSYSLLMMLSPIITKENMYQVNKIIVSNNFEKVLLSFLYDGKNLIVAADDVLIY;locus_tag=LOCUS_11440;note=MGA_1144
sequence1	MetaGeneAnnotator	CDS	683780	684544	.	-	0	ID=MGA_1145;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTGKEVLFLKYFYFLITLINGEYKYSFGDLNKKYRIFDVLNFEIEQYYRLVILNVVSYVLFEMYDYIFSKRTFESLYEYVETSSINFNLQEYQKTIIIPSDILTNQNYKFLDVYFHNVVNNTFFKFFKISELDEDTFLLTNKTIANFIDDRTKINILSLFIVDPKIALGLVNLGPGRGEYRPLFKYFNESMINKEVLPFCLKPDHKIEEDGIYLSGEQRFKFSTFELIQNQVKLINDCLTYRDLKSDFEQFIKY;locus_tag=LOCUS_11450;note=MGA_1145
sequence1	MetaGeneAnnotator	CDS	684838	685116	.	-	0	ID=MGA_1146;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166305.1;translation=MSYYYKHEYNFSTHSIQRIRQRLNLANEEEFKLKEKILKLIEKSTYSFETSRHIYISTPKKDIYFVIEKINKLIITATPISPEKQMQLIEND;locus_tag=LOCUS_11460;note=WP_011166305.1 hypothetical protein (Mycoplasma mycoides group) [pid:45.5%25%2C q_cov:95.7%25%2C s_cov:96.7%25%2C Eval:4.9e-16],MGA_1146
sequence1	MetaGeneAnnotator	CDS	685205	685702	.	-	0	ID=MGA_1147;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MREEKLIKVFKINIFENKILKIGIIGEKLCYLGFEKDDIYQFYKGYKVRNVLRKDEFEKYIDILRKFEKKEKIELNFEDFFLPNLTEKQLNVLKELVKLDYGQYMTYSDFAKHINKPDHTRFIATCMAQNPILLIVPCHRIISKNNEIKYRSGSEIKKFLIKNNY;locus_tag=LOCUS_11470;note=WP_003246311.1 methylated-DNA--[protein]-cysteine S-methyltransferase (Bacillus) [pid:39.4%25%2C q_cov:64.8%25%2C s_cov:59.2%25%2C Eval:1.8e-12%2C partial hit],MGA_1147
sequence1	MetaGeneAnnotator	CDS	685776	686006	.	-	0	ID=MGA_1148;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAGITIIIILFLNPRLDREKIAKANDEYQMMISELMQGRSYEIDPNLYEPQEEIDAFLKSLEDRQNKNKDKDDEKK;locus_tag=LOCUS_11480;note=WP_011167095.1 hypothetical protein (Mycoplasma mycoides) [pid:49.0%25%2C q_cov:64.5%25%2C s_cov:10.0%25%2C Eval:1.3e-08%2C partial hit],MGA_1148
sequence1	MetaGeneAnnotator	CDS	686610	686957	.	-	0	ID=MGA_1149;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNNLQISRDSLTDQNFELTEDLVKENSKITDEMKEKYLKVSEKPEPEVVDKSKEQPNTNTNQQSGFQGFAGVAGAGGNAGQGNPFMGSGLNTIPPTPLQDMRFYPYSTKPKYTK;locus_tag=LOCUS_11490;note=MGA_1149
sequence1	MetaGeneAnnotator	CDS	687075	687254	.	-	0	ID=MGA_1150;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEAKKIYQDSIFLLANLIKNEQLRVELLNNSEFKKQTIELINDLLVLEINENCTFKDQK;locus_tag=LOCUS_11500;note=MGA_1150
sequence1	MetaGeneAnnotator	CDS	687275	687475	.	-	0	ID=MGA_1151;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNSEIASTLAINPYRISKLLEQNKLNIDKINDKIKVLYVLEKNIKNGIYDSKIIPEIELLKMFNF;locus_tag=LOCUS_11510;note=MGA_1151
sequence1	MetaGeneAnnotator	CDS	687578	688006	.	-	0	ID=MGA_1152;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKTYDLKFIEQILNSTNKEVQIIMTLNSDKFSKRLKITKLVEEKCKLLKLDEPNSEQKKDILVKKLENNKIEYENEALELFIEKLPNDMHVFTNELAKIISLNKKLTCQLVEEITMKYHNFDTFQIANCFLSNDVKMFLKQ;locus_tag=LOCUS_11520;note=WP_013448044.1 DNA polymerase III subunit delta (Mycoplasma leachii) [pid:33.3%25%2C q_cov:98.6%25%2C s_cov:44.3%25%2C Eval:8.9e-16%2C partial hit],internal stop codon at [687578:687580](-)%2C[688031:688033](-),MGA_1152
sequence1	MetaGeneAnnotator	CDS	688031	688258	.	-	0	ID=MGA_1153;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNYIIKVIKMFFIYSNDNFLIKRQIEKLTQKINVDKEYEIFEYSLIDDPISSILEEINTYSIFSTKKIIIINEC;locus_tag=LOCUS_11530;note=MGA_1153
sequence1	MetaGeneAnnotator	CDS	688359	688601	.	+	0	ID=MGA_1154;product=30S ribosomal protein S20;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008362910.1;translation=MANIKSQEKRILTNEKSRLANKAFRSSVKTAIKKALAAKAEESKEKDALINEAVSLLDKSVTKGIFKANKAAREKSRLMK;locus_tag=LOCUS_11540;gene=rpsT;note=WP_008362910.1 30S ribosomal protein S20 (Mycoplasma mycoides group) [pid:63.3%25%2C q_cov:98.8%25%2C s_cov:97.5%25%2C Eval:8.4e-21],MGA_1154
sequence1	MetaGeneAnnotator	CDS	688649	689317	.	-	0	ID=MGA_1155;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNVGNGNSFLFQYKNRTILFDAGKGSGFNKNSLEQFLIYKGIRKIEAVFISHNHKDHYDQLESVKNSYKVKNIFFNYNLKTNYIFQDLKITNFIELNNNDENNNSQISLLEIANKKILFTGDATKKREYRLVKNEVFLTKIKGGIDFLQVGHHGSKTSTSEKFIEIIKPKTCYISGHKSKTLNFPNKETIETLNKYKCQTYVTNGTTSYKYKIKNGETFKI;locus_tag=LOCUS_11550;note=WP_164919786.1 MBL fold metallo-hydrolase (Mesoplasma florum) [pid:45.0%25%2C q_cov:92.8%25%2C s_cov:33.9%25%2C Eval:6.6e-45%2C partial hit],MGA_1155
sequence1	MetaGeneAnnotator	CDS	690666	691199	.	-	0	ID=MGA_1156;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLRYLAILIFSLLIGASLFFIANTSFESNSIHKTTYDNYVYFKVKFDITLLDKEILPVKLKNNNNTNKTKDFLKENKLTYLENLFEIENNKNLKKNNTILFYPKDTIEVLRISRFEVKKEFFTSRSISETLAEKSVDIFLDTKNSFEECMTKLQEIYKGTFNAEFYKKALPKLIY;locus_tag=LOCUS_11560;note=MGA_1156
sequence1	MetaGeneAnnotator	CDS	691248	691376	.	-	0	ID=MGA_1157;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSNENFIKRAAPEKVEDEKRKYEDYKKQYILLLEKLNELKK;locus_tag=LOCUS_11570;note=MGA_1157
sequence1	MetaGeneAnnotator	CDS	692187	692420	.	-	0	ID=MGA_1158;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVFQSLEFTKSKPFKDVLIHGLVRDSEGAKMSKSLGNGVDPMDVIEKYGADSLRYFLLTNSSPGQDLRYSEEKLTST;locus_tag=LOCUS_11580;note=WP_004398606.1 valine--tRNA ligase (Bacillus) [pid:77.9%25%2C q_cov:100.0%25%2C s_cov:8.8%25%2C Eval:5.8e-30%2C partial hit],internal stop codon at [691941:691943](-)%2C[691959:691961](-)%2C[692058:692060](-)%2C[692166:692168](-)%2C[692187:692189](-)%2C[692430:692432](-)%2C[692514:692516](-)%2C[692535:692537](-)%2C[692553:692555](-)%2C[692583:692585](-)%2C[692646:692648](-)%2C[692667:692669](-)%2C[692670:692672](-)%2C[692691:692693](-),MGA_1158
sequence1	MetaGeneAnnotator	CDS	692712	693305	.	-	0	ID=MGA_1159;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYHFKYILNDNKSQFLQVATTRPETMFGDVCLVVNPKDERYSKYIGKTVINPSNQALIPVIGDEYVEIDFGTGIMKCTPAHDINDFELGLKHNLEQIVVMNDDATMNEKALEFNGLDRFVAREKIVEKLTKEGTFIKKEEITHQVGYSERSNVIVEPFISDQWFVKMDYLANQVLELQNSKEAINFYPNRFNETLNK;locus_tag=LOCUS_11590;note=WP_011183252.1 valine--tRNA ligase (Mesoplasma florum) [pid:63.1%25%2C q_cov:100.0%25%2C s_cov:22.6%25%2C Eval:6.7e-72%2C partial hit],internal stop codon at [692430:692432](-)%2C[692514:692516](-)%2C[692535:692537](-)%2C[692553:692555](-)%2C[692583:692585](-)%2C[692646:692648](-)%2C[692667:692669](-)%2C[692670:692672](-)%2C[692691:692693](-)%2C[692712:692714](-)%2C[693369:693371](-)%2C[693507:693509](-)%2C[693543:693545](-)%2C[693549:693551](-),MGA_1159
sequence1	MetaGeneAnnotator	CDS	694272	694550	.	-	0	ID=MGA_1160;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVIIYAIYKISMNNYFKKINKQFNRLSTSLNMENKDIMEENFIQMVQEKENKTKTMQNERDSILYTVLNKKYSDFLNEVKKSTTPPNFNLGI;locus_tag=LOCUS_11600;note=MGA_1160
sequence1	MetaGeneAnnotator	CDS	695798	696673	.	-	0	ID=MGA_1161;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSLLAATGLVATTSATVVACGQENRSNISLNKSSIDIEQGSTGEILITSDSDLTGIKITGQVENKVTTEIEGKKITIKVSETAEVKDYILEITGTKIHDKAFTVKVKEKGSVQKDVTLDKDSVEIIQGQTGEVNITSTNDLTYVIIKGQVADKVTAKIETKKITITVSETAEIKDYTLIISGTNINEKEFTVKVKEKTVGKTDVTLDKNTVEITQGQTGEVNITSTNDLTGMTIEGQVANKVTTTISNKKITVTVSQDATVQNYNLTIKGTNINDKAFTVNVKAKTA;locus_tag=LOCUS_11610;note=MGA_1161
sequence1	MetaGeneAnnotator	CDS	696988	697308	.	-	0	ID=MGA_1162;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNALVTSMLNVLLIPSFLNSFQKLAQSNVEIESNYKNLIKTQYFSNQSLFEDAKFSDHYLNVSFSKNDLTSKNGLFIFTNKKDLSDSEISQIKKVNEKILEVYKKN;locus_tag=LOCUS_11620;note=WP_011183232.1 hypothetical protein (Mesoplasma florum) [pid:52.4%25%2C q_cov:97.2%25%2C s_cov:30.1%25%2C Eval:1.8e-26%2C partial hit],internal stop codon at [696913:696915](-)%2C[696988:696990](-)%2C[697390:697392](-)%2C[697396:697398](-),MGA_1162
sequence1	MetaGeneAnnotator	CDS	697396	697752	.	-	0	ID=MGA_1163;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKNQNKQNSGSLLKKHNKIISTFFKTNYFVLTMFLIDQIIFGATFILFILNLVLKNQINSISYIIIGGSIYLLLKFTYTNWFAKNKFFRCIDVFDYTIKLQNHKFRAKRAIEFIPI;locus_tag=LOCUS_11630;note=WP_011183232.1 hypothetical protein (Mesoplasma florum) [pid:37.2%25%2C q_cov:94.1%25%2C s_cov:33.0%25%2C Eval:3.6e-16%2C partial hit],internal stop codon at [697390:697392](-)%2C[697396:697398](-),MGA_1163
sequence1	MetaGeneAnnotator	CDS	698873	699016	.	-	0	ID=MGA_1164;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKTEKLKQGIFKVAVSSMILFIISLVLTSIFVTLLVIHTLKIQMS;locus_tag=LOCUS_11640;note=MGA_1164
sequence1	MetaGeneAnnotator	CDS	699246	699491	.	+	0	ID=MGA_1165;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFGTIKNISNPNSVENSTSVHQCVIAITKENFILNKINENQIQIIEIFLFVNFLFFLLFINKNIIEITQNDDIVCPDGKS;locus_tag=LOCUS_11650;note=MGA_1165
sequence1	MetaGeneAnnotator	CDS	700160	700309	.	-	0	ID=MGA_1166;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTKEFKFIFIPGTVFFVLSFISFILGSIYDFEIEEFLSKGFHFFSIKI;locus_tag=LOCUS_11660;note=MGA_1166
sequence1	MetaGeneAnnotator	CDS	700926	701246	.	-	0	ID=MGA_1167;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKAIVTSMLNVLLIPSFLNSFQKLAQSNVEIESNYKNLIKTQYFSNQSLFEDAKFSDYYLNVKFSKNDLTSKNGLFIFTNKKDLNESEILEIKKVNEKILQIYKKN;locus_tag=LOCUS_11670;note=WP_011183232.1 hypothetical protein (Mesoplasma florum) [pid:54.4%25%2C q_cov:97.2%25%2C s_cov:30.1%25%2C Eval:3.0e-26%2C partial hit],internal stop codon at [700851:700853](-)%2C[700926:700928](-)%2C[701328:701330](-)%2C[701334:701336](-)%2C[701442:701444](-)%2C[701505:701507](-),MGA_1167
sequence1	MetaGeneAnnotator	CDS	701505	701687	.	-	0	ID=MGA_1168;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNHNKQNSGNLLKKHNKIISKFFRTNYFGLITFLIDQTIFGTTLVLFILNLVLKSQIN;locus_tag=LOCUS_11680;note=MGA_1168
sequence1	MetaGeneAnnotator	CDS	702112	702276	.	-	0	ID=MGA_1169;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVGFFNHNKEGEIKILQKSFSLSVITYITITAMIFNFMLLPQVLASGDNNFGAL;locus_tag=LOCUS_11690;note=MGA_1169
sequence1	MetaGeneAnnotator	CDS	703119	703439	.	-	0	ID=MGA_1170;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSGGQKQRLIIARMFLKDPELLILDEATSALDNIVEKEIQSKLNQLMKGRTSVTIAHKLSTIKNVDHIIVLGANGGGIVQEGTFNELIKKPGHFKNLYEAGKINK;locus_tag=LOCUS_11700;note=WP_011183321.1 ABC transporter B family permease/ATP-binding protein (Mesoplasma florum) [pid:93.3%25%2C q_cov:98.1%25%2C s_cov:17.0%25%2C Eval:1.3e-48%2C partial hit],internal stop codon at [703479:703481](-),MGA_1170
sequence1	MetaGeneAnnotator	CDS	703479	704150	.	-	0	ID=MGA_1171;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVFAGDFLLLFTAPMFAAVFFGGSADTSKMEAFFQLFPSFVMAQGMLTGPIITLFVISGGAAMAGVSSARILRTLNAESILDFHYHEGIEIKDLKGDIVFKNINFRYPEKPENLILPNFNFTLQYGKSYAFVGETGSGKSTIAKLLLRFYDPTEGQILINNKEDLKELNLSTYLNHVGYVEQEPQILFGTVLDNIKYGCFDATDDDAIEACKKAELHALVMS;locus_tag=LOCUS_11710;note=WP_011183321.1 ABC transporter B family permease/ATP-binding protein (Mesoplasma florum) [pid:88.3%25%2C q_cov:100.0%25%2C s_cov:36.6%25%2C Eval:6.4e-112%2C partial hit],internal stop codon at [703479:703481](-)%2C[704166:704168](-)%2C[704412:704414](-),MGA_1171
sequence1	MetaGeneAnnotator	CDS	704166	704381	.	-	0	ID=MGA_1172;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFILISFFVSYAVLVAKYEKVRLTMEKTNGNVIDRVISIRLIKSTGTEDYETEHFKEKHIDYYKQAKPIGK;locus_tag=LOCUS_11720;note=WP_011183321.1 ABC transporter B family permease/ATP-binding protein (Mesoplasma florum) [pid:74.6%25%2C q_cov:100.0%25%2C s_cov:11.6%25%2C Eval:2.6e-25%2C partial hit],internal stop codon at [704166:704168](-)%2C[704412:704414](-)%2C[704643:704645](-)%2C[704646:704648](-),MGA_1172
sequence1	MetaGeneAnnotator	CDS	704412	704609	.	-	0	ID=MGA_1173;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRNEILEKLVRQDISYYSDKKIGELLTNVISDSQIVGNQAVDIPMNVASAFSQAIIGLSLTFILE;locus_tag=LOCUS_11730;note=WP_011183321.1 ABC transporter B family permease/ATP-binding protein (Mesoplasma florum) [pid:87.7%25%2C q_cov:100.0%25%2C s_cov:10.7%25%2C Eval:8.8e-26%2C partial hit],internal stop codon at [704166:704168](-)%2C[704412:704414](-)%2C[704643:704645](-)%2C[704646:704648](-)%2C[704727:704729](-)%2C[704742:704744](-)%2C[704826:704828](-)%2C[704850:704852](-)%2C[704853:704855](-),MGA_1173
sequence1	MetaGeneAnnotator	CDS	704956	705300	.	-	0	ID=MGA_1174;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGERGFMLSGGQKQRLVIARMFLKNPEVLILDEATSALDNIVEKEIQSKLNELMRGRTSFTIAHRLSTIKNVDHIIVLGGNAQGIVQQGTFADLIKVEGHFKNLYEAGLLEQNN;locus_tag=LOCUS_11740;note=WP_011183322.1 ABC transporter B family permease/ATP-binding protein (Mesoplasma florum) [pid:90.2%25%2C q_cov:98.2%25%2C s_cov:18.2%25%2C Eval:6.4e-53%2C partial hit],internal stop codon at [705322:705324](-),MGA_1174
sequence1	MetaGeneAnnotator	CDS	705322	705975	.	-	0	ID=MGA_1175;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILQFAIPIIAGIIYSIKGDPQAATLFFAITFPAYMINQASLISTFNSLMGITFSLAMSGVASTHVSELLNAETRLDPHYNSGIVVDNIRGNIVFKDIEFRYPEKPEKLILPKFNFTFEEGKSYAFVGETGSGKSTIARLLLRFYDPSNGQIIINKNQDLKDLNLASYLKHIGYVEQEPQILFGDVFENVKYGRFEATNEEVIEACKKAEIHNLISS;locus_tag=LOCUS_11750;note=WP_011183322.1 ABC transporter B family permease/ATP-binding protein (Mesoplasma florum) [pid:84.1%25%2C q_cov:95.9%25%2C s_cov:33.9%25%2C Eval:1.0e-98%2C partial hit],internal stop codon at [705322:705324](-)%2C[706258:706260](-),MGA_1175
sequence1	MetaGeneAnnotator	CDS	707912	708301	.	-	0	ID=MGA_1176;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSTPINEINLSSLFGGASSKSNNKFNQSRAGLLDYLNKKSIKDIVNEFNTAFDITTNAKINFSDFGELVARLSKDNTLEKALNNLDKMFEILGYNSNGTIKQGSVLEQLFKILGDIKEIIGGANSVIKS;locus_tag=LOCUS_11760;note=MGA_1176
sequence1	MetaGeneAnnotator	CDS	708359	709768	.	-	0	ID=MGA_1177;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSIMGALTMTTSTASVVVACGKNSTNKGTENDVKQDTISKLLSQYSKTLYINQKTLSDGKSHFSSQYTMENKVKYEYLSTLGLTDFDKSEEVESNTKYDTVAKKYFDTNLLSDNLKLSDNVYQGYVVDPSKSTEGILGKIKSMLPTILDFLSNPEGLKDMLGLVANDPGAISGIITPEILKTLGKVINQENLKYLENAFSNDIYKDMSYQTSLDSSVIGLSNALDKILNGKNVQKLKYSNQSEVDSNKEAAKEKLGTNIKSLILGEKSLNIDYIENIDSIAEIIRFVRTLLIYIEQFSYDEMTSNVLTLEQIEAKRTAKVQSNTIDLKQLFKKLSFMVNKDETGVSFKNFIGVLFATNSNSFSLDKDFENNKNDGLMGLVSKVAQKAMGKEFIEVDAPFIGKMKIYINALIRSIINGGLAEEYGGDLFTIFLMAATQMTDMLPSPIKEFMEKIVKNNDSDKFSAD;locus_tag=LOCUS_11770;note=MGA_1177
sequence1	MetaGeneAnnotator	CDS	709799	710440	.	-	0	ID=MGA_1178;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGNTGIYKQAQALIEQQIIHSDDLFLVEIGGNDMFAILDNVNDSKKREEIMQGALENIKNALYTLLNNGARNIIFLSPPDMTLIPKYNKKSQSDKDIIKFIGDDFNYEITKMIINANKNYNNSILHFDLYGRFEEMLNEFKSLNSSKNISDELCDSTMPNLSDVEFDNLEVKATVKSGNKGKEDDFFFIDFVHPTKVGHEFAKDFIFKEIEKK;locus_tag=LOCUS_11780;note=WP_011183222.1 SGNH/GDSL hydrolase family protein (Mesoplasma florum) [pid:29.7%25%2C q_cov:100.0%25%2C s_cov:61.8%25%2C Eval:4.1e-25%2C partial hit],internal stop codon at [710504:710506](-),MGA_1178
sequence1	MetaGeneAnnotator	CDS	710504	710920	.	-	0	ID=MGA_1179;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSIIASLSFITTTASAVVSCIPQSDEINFNFDKNIGTQFDKRNAKDTSDDKNKHMGFSNFFTLGDSLSDQGGLVTIAKDELNVNVKMSGEYKGGFSNGPTTAALINNKLNFSTKEFGSSNLIHKADIDHNNQKV;locus_tag=LOCUS_11790;note=WP_011183222.1 SGNH/GDSL hydrolase family protein (Mesoplasma florum) [pid:35.0%25%2C q_cov:94.2%25%2C s_cov:31.7%25%2C Eval:6.5e-13%2C partial hit],internal stop codon at [710504:710506](-),MGA_1179
sequence1	MetaGeneAnnotator	CDS	710953	711096	.	-	0	ID=MGA_1180;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKKNVTKEELSYPFLTNTLEVFRAGVILFFIFLIVILPTFLTFLTL;locus_tag=LOCUS_11800;note=MGA_1180
sequence1	MetaGeneAnnotator	CDS	711074	711280	.	+	0	ID=MGA_1181;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVTFFLVIFDSFKSLFLNMLCPKILKPNLIFSICLFKNQVLLLIIIVPNDLSILIPSKPGPLDFIHES;locus_tag=LOCUS_11810;note=MGA_1181
sequence1	MetaGeneAnnotator	CDS	711511	711852	.	-	0	ID=MGA_1182;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLKFKNFFEQKLKMKIIIASISTSFLFLLSFLMITPGIGLESQKFINSIEKQIKQIMPKGMYVIDGQDIVFEEVMNSAIKSAYTTDALSTLNSYEDKDLVEKKEKYSQFAEK;locus_tag=LOCUS_11820;note=MGA_1182
sequence1	MetaGeneAnnotator	CDS	712768	713151	.	-	0	ID=MGA_1183;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MECKKNKKTVIITVHNIDEIVDIVDDLIIIDNGECVFNGKKSSLNIYEKYKVYIKNTFDLETFKVFLKEKNIKIFKYDEFENSIIVAFDTYQQINFLFLYLVKNKLPLKNIVRLPINIESIQKALKN;locus_tag=LOCUS_11830;note=MGA_1183
sequence1	MetaGeneAnnotator	CDS	713120	713347	.	+	0	ID=MGA_1184;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTVFLFFLHSIKSVLILFLHKESRLAPGSSKIKMSGSFMKHKIKLTLFFIPHEKDLIFLSFDSQSSKYFNQCSIL;locus_tag=LOCUS_11840;note=MGA_1184
sequence1	MetaGeneAnnotator	CDS	713329	713703	.	-	0	ID=MGA_1185;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVRGENMNDLIIFKNFVKKFKAKKIGPVNCSIERSKITAILGPSGSGKSVILNSILGIIKRFSGDISIDNISRKKGNYYTINRKIGYYTQMDFSLYEISCYKFLFDICITMGISKKDSIQRIEH;locus_tag=LOCUS_11850;note=WP_011183360.1 ATP-binding cassette domain-containing protein (Mesoplasma florum) [pid:49.5%25%2C q_cov:86.3%25%2C s_cov:11.2%25%2C Eval:1.4e-23%2C partial hit],internal stop codon at [713176:713178](-)%2C[713272:713274](-)%2C[713308:713310](-)%2C[713329:713331](-),MGA_1185
sequence1	MetaGeneAnnotator	CDS	714287	714508	.	-	0	ID=MGA_1186;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTFKFNLKYKFLSIEEIQEKINRTEDVKTKKVLTQFVEYTNYIFKYKTDFKSFTSNLFEHFIFFDDKDNKDIN;locus_tag=LOCUS_11860;note=MGA_1186
sequence1	MetaGeneAnnotator	CDS	714623	714973	.	-	0	ID=MGA_1187;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITLFSNIQVSTIMATLIMSITFISNLPYLFLKQGEDHKLLKLNYQNEGFPVTLSKKVNMIYDSYDLKKHVLNGQIRFPDLSLEIFNNFIENKYLTDTRSSTSFETSKSIEKRINF;locus_tag=LOCUS_11870;note=MGA_1187
sequence1	MetaGeneAnnotator	CDS	715049	715417	.	-	0	ID=MGA_1188;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRMIFKEKSFIVLNLIFLIFTLFISIFSAIEKNNAFFLKFYDYYLLIGVFVNLFLICLRLVQFFYISKVNDKTLNIQVVQQISRRKLFLYNYFTFILLTFIICLIPFILLNSINYLSSLKFS;locus_tag=LOCUS_11880;note=MGA_1188
sequence1	MetaGeneAnnotator	CDS	716413	716658	.	-	0	ID=MGA_1189;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLIVESIIALAMGMGSNDSTLMKIKPVKGKNSLFKGLGYTLFKIILFTTLASIGAYCFGMMFVNQNELNRILGENHGYTN;locus_tag=LOCUS_11890;note=WP_011183253.1 cation-translocating P-type ATPase (Mesoplasma florum) [pid:53.2%25%2C q_cov:76.5%25%2C s_cov:6.4%25%2C Eval:2.1e-11%2C partial hit],internal stop codon at [716233:716235](-)%2C[716278:716280](-)%2C[716413:716415](-)%2C[716659:716661](-),MGA_1189
sequence1	MetaGeneAnnotator	CDS	716659	717531	.	-	0	ID=MGA_1190;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPFDSERKMMTTVNEINKVNTTFTKGAIDQLLQRCTKIMVDNVLRDITDEDKKLLLEMSDELSKDALRVLAFAYHLNYDSLEDKDDLEHDLVFLGAVGMIDPVRETAVNAVQLAHDAGIEVVMITGDHAVTALAIAKDLDLAHSEYEVMSSETLNSLDDKQLLRVIEQIKVFARVNPEHKVRIVDALKQKGNITSMTGDGVNDAPSLSKADIGVAMGITGTDVAKQASDIILTDDNFETIIKGVNEGRNVYQKIKRAIAFVIGVNLANVLSIFILSTINSVSPLEATNIL;locus_tag=LOCUS_11900;note=WP_011183253.1 cation-translocating P-type ATPase (Mesoplasma florum) [pid:64.6%25%2C q_cov:100.0%25%2C s_cov:29.5%25%2C Eval:8.1e-98%2C partial hit],internal stop codon at [716659:716661](-)%2C[717547:717549](-),MGA_1190
sequence1	MetaGeneAnnotator	CDS	717547	717960	.	-	0	ID=MGA_1191;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVAITLAIGVIPECLAAVVSITLSISTKKMVKQHVIIKKLQAVETLGNVNFICTDKTGTLTQNKMTVKKMIMDNKIITSTEYAQEKNDNHMDLFLKALVLCNDSVTEGTERIGDPTELALVDYAEIIGYDEQDSRDI;locus_tag=LOCUS_11910;note=WP_011183253.1 cation-translocating P-type ATPase (Mesoplasma florum) [pid:71.0%25%2C q_cov:95.6%25%2C s_cov:13.5%25%2C Eval:2.9e-45%2C partial hit],internal stop codon at [717547:717549](-)%2C[717973:717975](-)%2C[718048:718050](-),MGA_1191
sequence1	MetaGeneAnnotator	CDS	718048	718620	.	-	0	ID=MGA_1192;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGAAVVSIVAPIISNGGHIQASEFIDAAVILSIVLIDAILETVQTIKARKSMDALKSLSKPRAVVIRNDMQQEIDASELVPGDIVVLEAGKYIPAELRIVESSDLTIDEANLTGESLPVEKTHLPLKETTTILAEMKNIAFMSTFITSGRAIGVVIKTGQETEIGKIAKSINESEEESTPLEKKLNSFTY;locus_tag=LOCUS_11920;note=WP_011183253.1 cation-translocating P-type ATPase (Mesoplasma florum) [pid:68.1%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 [717973:717975](-)%2C[718048:718050](-)%2C[718669:718671](-),MGA_1192
sequence1	MetaGeneAnnotator	CDS	718669	718827	.	-	0	ID=MGA_1193;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MESNMDENLLSSETELEQKLETNIKEGLTTEQVESKKAKYGLNELPQGKVTP;locus_tag=LOCUS_11930;note=MGA_1193
sequence1	MetaGeneAnnotator	CDS	720195	720710	.	-	0	ID=MGA_1194;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPFNEINVAPLSPVTGLGIFREDFKSEEEFRNASYQGLHNQFYAQAKVIEIAKTISKDIKMGCMVANITTYYADCNPVNVMQNLQFQQMERYFYYDVMIKGKYPTYSKRYFEQHNIKFETTPEELEVIAKNPVEYITFSYYMTSTISKELIDSAGGNLLMGGKNPFLQATE;locus_tag=LOCUS_11940;note=WP_011182931.1 glycoside hydrolase family 1 protein (Mesoplasma florum) [pid:76.0%25%2C q_cov:100.0%25%2C s_cov:35.4%25%2C Eval:3.3e-76%2C partial hit],internal stop codon at [719970:719972](-)%2C[720144:720146](-)%2C[720189:720191](-)%2C[720195:720197](-)%2C[720711:720713](-)%2C[720792:720794](-)%2C[720954:720956](-),MGA_1194
sequence1	MetaGeneAnnotator	CDS	720954	721160	.	-	0	ID=MGA_1195;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRPFNPNLDRKSVTELSAYTKQDYEKAIENKEGLHYPKRYGIDQYHRYKEDIALFKEAGMNIYRMSIA;locus_tag=LOCUS_11950;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:2.4e-28%2C partial hit],internal stop codon at [720711:720713](-)%2C[720792:720794](-)%2C[720954:720956](-)%2C[721233:721235](-),MGA_1195
sequence1	MetaGeneAnnotator	CDS	721373	722299	.	-	0	ID=MGA_1196;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTLMLPMISQSPVPSEMLPAVPIAVMGQLGACIGIAIFSKNGNLKQLALSSIPAGVFGITEPVIYGVNLPKIKPFLIGCVASFAGALLCGATGVVQNTVGPQGILALLSYDKTLDKVFLLLSFVIAIGVGILLTFIFYKERKNEYKYSVKISNKMKNILRKIKFENMTSFDQRAKKLSLDIKEQEQVIKDYEKYIQKLLKLEAKLARLNGAEEKHKTSLYKKAIKAQKNEKLDQEKIDIIVEKYNSYNLSEKINPINLEKDNLIKENELLVKKYQKTIKELETLSEKFVEEISKETDKVELLQYKNLY;locus_tag=LOCUS_11960;note=WP_011182930.1 glucose PTS transporter subunit IIA (Mesoplasma florum) [pid:40.8%25%2C q_cov:100.0%25%2C s_cov:36.1%25%2C Eval:5.1e-61%2C partial hit],internal stop codon at [721373:721375](-)%2C[722339:722341](-)%2C[722372:722374](-)%2C[722522:722524](-)%2C[722534:722536](-),MGA_1196
sequence1	MetaGeneAnnotator	CDS	722372	722521	.	-	0	ID=MGA_1197;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPSAIDIVFRSALVIILTIIPVMFIAGPILSLLEFLMAQFVTLIGQKLP;locus_tag=LOCUS_11970;note=WP_011182930.1 glucose PTS transporter subunit IIA (Mesoplasma florum) [pid:57.8%25%2C q_cov:91.8%25%2C s_cov:5.2%25%2C Eval:5.8e-09%2C partial hit],internal stop codon at [722339:722341](-)%2C[722372:722374](-)%2C[722522:722524](-)%2C[722534:722536](-)%2C[722639:722641](-)%2C[722687:722689](-),MGA_1197
sequence1	MetaGeneAnnotator	CDS	722687	722980	.	-	0	ID=MGA_1198;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVPIIPVLMAAGIFGALYAILLQSNAIVNPEAGFANADIFSVLMYILSKVSLNLIGVFFIYNTVKYLGGSTIVAILIGLILTSRFLFASVGVSSSDE;locus_tag=LOCUS_11980;note=WP_011183209.1 PTS glucose transporter subunit IIA (Mesoplasma florum) [pid:38.9%25%2C q_cov:89.7%25%2C s_cov:11.2%25%2C Eval:3.4e-14%2C partial hit],internal stop codon at [722522:722524](-)%2C[722534:722536](-)%2C[722639:722641](-)%2C[722687:722689](-)%2C[723140:723142](-),MGA_1198
sequence1	MetaGeneAnnotator	CDS	723140	723814	.	-	0	ID=MGA_1199;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEINLYAPVDCEVKSITKCSDEVFSQKMLGDGIVIVPDNGRFVLPFDKAKCKMTFDTKHAYGFKINNEIEVLIHCGIDTVKLNGKPFTQKVKLEQNLKLNDPIFEVDLEILKENNITSETPIVFDPTSAQDIKVINLKEGKYKKGELICKISYKPLVAQKKDTQLKEFKSKYQIASELFVNAVGGRKNFSRVYNCMTRLRFNINDKTKVDEAKIKTNELVKGIN;locus_tag=LOCUS_11990;note=WP_011182930.1 glucose PTS transporter subunit IIA (Mesoplasma florum) [pid:54.1%25%2C q_cov:100.0%25%2C s_cov:26.5%25%2C Eval:7.7e-65%2C partial hit],internal stop codon at [723140:723142](-),MGA_1199
sequence1	MetaGeneAnnotator	CDS	724407	724634	.	-	0	ID=MGA_1200;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTSVFEKLEIMSKDFEDTTFKIIAKKIIENTKNGKFYNQEELANQTFVSISTLTKFSKKLGFSSYREFIFVMKTE;locus_tag=LOCUS_12000;note=WP_011183515.1 transcriptional regulator (Mesoplasma florum) [pid:47.9%25%2C q_cov:97.3%25%2C s_cov:29.6%25%2C Eval:1.2e-14%2C partial hit],internal stop codon at [724338:724340](-)%2C[724392:724394](-)%2C[724407:724409](-),MGA_1200
sequence1	MetaGeneAnnotator	CDS	725123	725347	.	-	0	ID=MGA_1201;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVRGEYPTYSKRFFEENNIKLDVTFEELEVIKNNTVEYITFSYYMTGTISKDEIKKANANLHNVGVNPFLQATE;locus_tag=LOCUS_12010;note=WP_011182931.1 glycoside hydrolase family 1 protein (Mesoplasma florum) [pid:64.9%25%2C q_cov:100.0%25%2C s_cov:15.3%25%2C Eval:7.7e-22%2C partial hit],internal stop codon at [724898:724900](-)%2C[725072:725074](-)%2C[725123:725125](-)%2C[725363:725365](-)%2C[725609:725611](-)%2C[725642:725644](-),MGA_1201
sequence1	MetaGeneAnnotator	CDS	725885	726052	.	-	0	ID=MGA_1202;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFSSKTKEQYLQALESNENNHYPKRFGIDFYNRYKEDIKLFKDAGMNIYRMSIA;locus_tag=LOCUS_12020;note=WP_011183512.1 glycoside hydrolase family 1 protein (Mesoplasma florum) [pid:71.7%25%2C q_cov:96.4%25%2C s_cov:11.0%25%2C Eval:4.3e-17%2C partial hit],internal stop codon at [725609:725611](-)%2C[725642:725644](-)%2C[725723:725725](-)%2C[725885:725887](-)%2C[726122:726124](-)%2C[726161:726163](-),MGA_1202
sequence1	MetaGeneAnnotator	CDS	726214	726402	.	-	0	ID=MGA_1203;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYNDTLKELAKISNFENIMKFENNLYNGINSVKINFGVLDEKDFTFSKEDKKIVKELLTISN;locus_tag=LOCUS_12030;note=MGA_1203
sequence1	MetaGeneAnnotator	CDS	726463	726711	.	-	0	ID=MGA_1204;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENSKLIFKNYYKYFILKTKYEAKLNLILAKEEKNKRILFAKAKKLLDNEKADQEKVNEAIIKSNDYNLSSQKAELNNKINE;locus_tag=LOCUS_12040;note=MGA_1204
sequence1	MetaGeneAnnotator	CDS	726904	727308	.	-	0	ID=MGA_1205;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVLTGVHVAVIMSIMIGTLFQNPVIPTSLDIATAIGSFGQVGAAIGLIVVTRNSQLKNYTIGCLTAGMLGISEPIIYGATLPKVRPFIGGCIGAGLGGLMLGLLNIKASIVSGLGVFSITAVTGFVNQLLFILC;locus_tag=LOCUS_12050;note=WP_011183209.1 PTS glucose transporter subunit IIA (Mesoplasma florum) [pid:40.3%25%2C q_cov:98.5%25%2C s_cov:15.4%25%2C Eval:1.3e-21%2C partial hit],internal stop codon at [726847:726849](-)%2C[726904:726906](-)%2C[727315:727317](-)%2C[727495:727497](-)%2C[727507:727509](-),MGA_1205
sequence1	MetaGeneAnnotator	CDS	727315	727458	.	-	0	ID=MGA_1206;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVYTIICVVTLFVFGPALGMVEFGLSQICILFEKIPLGLGVALFAML;locus_tag=LOCUS_12060;note=MGA_1206
sequence1	MetaGeneAnnotator	CDS	727642	727974	.	-	0	ID=MGA_1207;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAAITGIMTPQIPTLMAVALLAALQALLVSTNAIVDASQFENVADAGLFAATMYILSKIGFSLMGVLFCISTAKYFKGNIMMAALIGLTITSRMLFSGNIIPIEEAKFGN;locus_tag=LOCUS_12070;note=MGA_1207
sequence1	MetaGeneAnnotator	CDS	728116	728796	.	-	0	ID=MGA_1208;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIKIFSPMDGEIKKIEECSDSMFAQKMMGDGFLIVPTSNELYSPFYKGNVAMIFDTKHAVFLESDNLKMLIHVGIDTVSLNGKPFKLNVEQNNKVDLNTKIMTIDFNQIAQKNLVTETPIVFEESNLSTFKIKKLNTGKVKKGDLVALIEYEIKKESQVKKEKIELIGFESKYLTSAKQFIKNVGGFSNFEEVYNCMTRLRFKIIDKEKVDVQKISNNELVKGTV;locus_tag=LOCUS_12080;note=WP_011182930.1 glucose PTS transporter subunit IIA (Mesoplasma florum) [pid:50.4%25%2C q_cov:99.1%25%2C s_cov:26.2%25%2C Eval:4.9e-59%2C partial hit],internal stop codon at [728116:728118](-),MGA_1208
sequence1	MetaGeneAnnotator	CDS	728895	729242	.	-	0	ID=MGA_1209;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQNSVRYLYDSLVALNKNPIIINNDYDYLNKDFSDSQIVNILVVCGKDNKSLIRNFNSKFNKNQKNFLIVSKFQESIIKLKFDKSLVINYQYDDSKSIYRNIALSILFLTIFQDL;locus_tag=LOCUS_12090;note=WP_011182907.1 transcriptional regulator (Mesoplasma florum) [pid:32.2%25%2C q_cov:98.3%25%2C s_cov:46.3%25%2C Eval:6.3e-08%2C partial hit],internal stop codon at [729327:729329](-),MGA_1209
sequence1	MetaGeneAnnotator	CDS	729850	731493	.	-	0	ID=MGA_1210;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSLLATTGLVATTSATVVACKSEVKKIELTKIIINKNLGELNQDGNTGKPSSETILNATFAKNKELIKSEVEVKNITNVKADIVVKTDSKKYIEKGSVEVNYIVKNDIKNKIDLSKIKGESLEISPLENSESSAKKAVIDQIKSKLSIDVVESTDISFENYKKPTLSEKGSIEVKSVKASTKVIGSATFILNYKEDRIDLSKIKGESLEISPLENSELSAKKAVIDQIKSKLSIDVVESTDISFENYKKPTLSEKGSIEVKSVKASTKVIGSATFILNYKEDRIDLSKIKGESLEISPLENSELSAKKAVIDQIKSKLSIDVVESTDISFENYKEPTSTEKGSIEVKSVKASTKVIGSATFILNYKETRKSIANISPKLDFNKSKIEIENIIKEEIIKIDKNVVLDKDYKISVKDKENKSKILSNTVKTAAGDVIEISAIETSKLIKDSKNVKIEQKNIEEVIDLKNKVFENKIFYVDSFSGDQAKVKKMIKDTFGLTEQDFKANYESKKDTNNEEYEIETIAGIGNYKGSISFEIRVKKGNI;locus_tag=LOCUS_12100;note=WP_011387457.1 lipoprotein (Mycoplasma capricolum) [pid:23.9%25%2C q_cov:62.7%25%2C s_cov:97.4%25%2C Eval:9.3e-12%2C partial hit],MGA_1210
sequence1	MetaGeneAnnotator	CDS	731731	731961	.	+	0	ID=MGA_1211;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNGYSLKEIALKFNSTTGSIGTIINKYKNTDIGDSKTRLPYKIDYSISQKANDLFVGILFDYNKELIKENDILKKQ;locus_tag=LOCUS_12110;note=MGA_1211
sequence1	MetaGeneAnnotator	CDS	731958	732182	.	+	0	ID=MGA_1212;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLQGQNQKEIVQQLLINTKSNRTMICKILNINRTSTYKKNKTLMNFLDDTRIMNLVISEIERNNFLSAYSAKR;locus_tag=LOCUS_12120;note=MGA_1212
sequence1	MetaGeneAnnotator	CDS	732519	732758	.	+	0	ID=MGA_1213;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAYKNKKYLGSILLHSDNGNQYTSLDYISLCNDLQIIRSYSKPGTPHHNGKHESFHGRLKDETIRTCHIENINQCMEIA;locus_tag=LOCUS_12130;note=MGA_1213
sequence1	MetaGeneAnnotator	CDS	733108	733284	.	-	0	ID=MGA_1214;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTSRPGGVDNYFQISPDKFVIGAATNEPAGRGAATKDAINKAFNLLKEDSIHIRGLMT;locus_tag=LOCUS_12140;note=WP_164919783.1 glycosyl hydrolase family 18 protein (Mesoplasma florum) [pid:62.1%25%2C q_cov:100.0%25%2C s_cov:5.2%25%2C Eval:2.4e-15%2C partial hit],internal stop codon at [733012:733014](-)%2C[733027:733029](-)%2C[733036:733038](-)%2C[733096:733098](-)%2C[733108:733110](-)%2C[733405:733407](-)%2C[733432:733434](-),MGA_1214
sequence1	MetaGeneAnnotator	CDS	733630	733908	.	-	0	ID=MGA_1215;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MALDQIDSRYNVIDVSFLYSQHPYAMPTYQPNNPSVIKQAIKKLQSQGRRVLISMGGATGGEMLFRSNQKDELKAAIKQTVEEYGFDGLDLD;locus_tag=LOCUS_12150;note=WP_164919783.1 glycosyl hydrolase family 18 protein (Mesoplasma florum) [pid:65.2%25%2C q_cov:96.7%25%2C s_cov:8.0%25%2C Eval:1.5e-28%2C partial hit],internal stop codon at [733405:733407](-)%2C[733432:733434](-)%2C[733630:733632](-)%2C[733930:733932](-)%2C[733939:733941](-),MGA_1215
sequence1	MetaGeneAnnotator	CDS	733939	734649	.	-	0	ID=MGA_1216;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDVSFTVDESLESTPLSQVITNTNLGMINSNDQNTILQVVKQKNSSLETKYVEVINIGDNQAIIKSTNIRKYKGQVSVKFTIDTSNAMDLANVVTNRTLGLINSNDQDALKSAVYNKNQQLDINSIKFIDILADSALIVSTNPAKYKGNVRVTFSVDNSNAIDLKTVISKTNLGGIPDSYQSSIKRTLKYLNSSLDESSIKATQISKEKATIVSTNPAKYKGSVDVIFEVKTLVGY;locus_tag=LOCUS_12160;note=WP_164919783.1 glycosyl hydrolase family 18 protein (Mesoplasma florum) [pid:43.3%25%2C q_cov:100.0%25%2C s_cov:21.7%25%2C Eval:7.6e-50%2C partial hit],internal stop codon at [733930:733932](-)%2C[733939:733941](-)%2C[734704:734706](-)%2C[734731:734733](-),MGA_1216
sequence1	MetaGeneAnnotator	CDS	734731	735795	.	-	0	ID=MGA_1217;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKKIYLLSVLGLIGVPATYTTSCSLLNNNISNLLKNTDIGTLKNNESVTISEAVIKKNSGLSKDDFIVKDIKNDSAIIEGISKYSGNIKVTFKVIRKLDEVLKNPNLGEINNNSQETIKRAIISNNLELKESDFILTNINSNSAIVQGQNDYEGEVKITFAIAKQEKIELSTLLKNTNLGILEDNKSSTILKVILQKNSGLSENDFTINQITKSSAIVSGINKYNGNVTVSFSIRNRVELSTILTNTNLGVLNSKDSKTIKKSIIEKNQNLTEDDFMLESISMNSAVAVGINNYIGKVNVLFQLSAVKPDSIQLKEAIKQTNLGTIVSSEPEEILKGLKIKNPNIDTNFLGVR;locus_tag=LOCUS_12170;note=WP_164919783.1 glycosyl hydrolase family 18 protein (Mesoplasma florum) [pid:31.9%25%2C q_cov:91.5%25%2C s_cov:31.5%25%2C Eval:6.7e-39%2C partial hit],internal stop codon at [734704:734706](-)%2C[734731:734733](-),MGA_1217
sequence1	MetaGeneAnnotator	CDS	736211	736495	.	-	0	ID=MGA_1218;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNKNLSLVYLINSNSSNNLYDLESSNKGSYYNNKIEYVLNENDISFIPAKSGAKDKNPDSITFKLGYLAVNFKYEKLFKLSESQETKAFIKFM;locus_tag=LOCUS_12180;note=MGA_1218
sequence1	MetaGeneAnnotator	CDS	736565	737002	.	-	0	ID=MGA_1219;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTTLKSNYLKNLKLTDQQSNLIENSNEYIKADSIGNLKLKGATITIGSGNNKYIHELSDFNLSVTYNASSKTEEKIELLSEFTSKVIIKGMHNFYEIDSNFKYPEFNSNQDYLMNIGSKEIISQMKEDDIRSKPSKSGGNLNRIF;locus_tag=LOCUS_12190;note=MGA_1219
sequence1	MetaGeneAnnotator	CDS	737384	738088	.	-	0	ID=MGA_1220;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSILATIGFVSSSTVSVVACGTKEKSKDNSKPEESQKEDLNEIIKDFQDEVTKIYNTHMKNEVIQNLIGLQETENNYLFIKKDNIIAFSNKEKDITPENKKQIENDENLILRSKLLAEKLNELKKVNKYKVILDEVDSVFEGIEVIYNDNFKIKSGELSQGVYIGNFINEYKVNIKYKGKNDIEKFEIRDTLKYTSTDSETFKLAGDNLAKNIEKDFLVSNEMKKYSNFE;locus_tag=LOCUS_12200;note=MGA_1220
sequence1	MetaGeneAnnotator	CDS	738234	738428	.	-	0	ID=MGA_1221;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYNNKIDYVLNENNISFIPAKSGVKDKNPDSITFKFGYLAVNFKYEKLFKLSEKQESKTFVKFV;locus_tag=LOCUS_12210;note=MGA_1221
sequence1	MetaGeneAnnotator	CDS	738585	739019	.	-	0	ID=MGA_1222;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITLKSNYLKNLKLTDQQTNLIEKSNEYIRADSIGNLKLKGATITIGSGNNKYIHELSDFNLSVTYNASSKTEDKIELLSEFTSKVIIKGMHNFYGIDSNFKYPEFNSNQDYLMNIESRDIVLNIKEYIKSTTSKFSGDIDPPF;locus_tag=LOCUS_12220;note=MGA_1222
sequence1	MetaGeneAnnotator	CDS	739401	740105	.	-	0	ID=MGA_1223;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSVLATIGLVSTSTVSVVACGTKEKSTDNFKPEEPQKEDLNEIIKDFQDEVTKIYNSHMKSEVIGNLIGLQETEKNYLFIKKDNIIAFSNKEKDITAENKKQIENDENLILRSKLLAEKLNELKKVNKYKVILDEVDSIFDGVEVIYNDNFKIKSGELSQGVYIGNFINEYKVNIKYKGKNDIEKFEIRNTLKYTSTDSETFKLAGDNLAKNIEKDFLVSNEMKKYSNFE;locus_tag=LOCUS_12230;note=MGA_1223
sequence1	MetaGeneAnnotator	CDS	740539	741084	.	-	0	ID=MGA_1224;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENGKTKITLDGIKIKPVNDKDNNLFYVSNSFESESNEYVKLPPLIAIVNLRSTTLENRVALSQKNKLDLNSKIKDISKIVFKANNLTTQNTYENRVQIQNFLNKNSKLDPSLGIALINIKDNNYFTFKPDSTKIKVRIFDRAFKVNSTLKSLETNNKDSYNYVTIEIKLYNLKRPNSLPN;locus_tag=LOCUS_12240;note=MGA_1224
sequence1	MetaGeneAnnotator	CDS	741313	743175	.	-	0	ID=MGA_1225;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTLLTLFSGILIAVPPVNLLIEQSEFTKVFNSNNNLNVEGVDETKTFNLFENNQESLKARSNQSFGISYATSIDFNNQFNNLNLNQTVASYKYSDEDNLNNEIIYNITADGLGTNRILKNKEGKLTEIVLGDIYNGITNYNCFTSSFLSSYNDQLTGVLTLKVNYMAYVNSSIGNKAKVNFFDLETSIKVNNVSLKLPDDYKEVKKIYSPIKTLEEMNNSIYVFYETNDSITTLKVAHYDLTNIVDSNNHGKFKLNQKAYEIKSNLIFNISTAQYFEYAEFSLSKDNLVQLNLSNSKNLKSYLLNLNGNKQGTQINPNFKEIKKDKSLAIDYIINSFHNLDERNYTLIAAHDKKFINKSTIYYIGGENEDTLIPLFDLQAQSFTQKYNNKFVSESNRVINFYSYFDEINQNYNLVVSTPNSIYNYSYLNAQSISKNALVRKILFLDSDLKTSKPIFSIVKNTFLYLNEQLNYSLVKEKHSYFSSSVFEKFNLENLNTQSFIFKPKKMLNDSDNYEQEILKEIKSNLKTGNLISNSLKLKKIFSQLKTEDYLIKIEGEQKNKILAKDKYGENETSGYAIIESQDEITSRFRGSKRQLVIAKYNNKFNLAQIADQKSEYKV;locus_tag=LOCUS_12250;note=MGA_1225
sequence1	MetaGeneAnnotator	CDS	743306	743503	.	-	0	ID=MGA_1226;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKNSIKIDPSLIELIFGLLLATVGLHSIVLLIGSTLGLIFAKTSIDYYETKKVKIEKKTKNLTQ;locus_tag=LOCUS_12260;note=MGA_1226
sequence1	MetaGeneAnnotator	CDS	743720	743854	.	-	0	ID=MGA_1227;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLRVSKTSSNVSIYLLLITLIPIMIIGIFMIALKSLMFKGYELL;locus_tag=LOCUS_12270;note=MGA_1227
sequence1	MetaGeneAnnotator	CDS	744963	745238	.	-	0	ID=MGA_1228;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKKIVDNLYLGDMHSVPKDSDLILSCAQEIFQDQNPHKGLNKLIQHEKKRILYNFEDYPYLEDMDKNLILDAIKEIETNIKDKKIYVHCI;locus_tag=LOCUS_12280;note=MGA_1228
sequence1	MetaGeneAnnotator	CDS	745566	745769	.	-	0	ID=MGA_1229;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNVNFLKKLNTILIERECNHIEFFDSKDVQLNDEGQSYELKNVYKVHFLNTKDKIVNLYIKFDEND;locus_tag=LOCUS_12290;note=MGA_1229
sequence1	MetaGeneAnnotator	CDS	746323	746586	.	+	0	ID=MGA_1230;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILLFPLVLLLSALCAIIFVPYLFKYPRKGSYKGVVEFNTYEHLLYDLEIKKMSNFNIKKEQIRDFNIGALKEQISALMVRNKNSKK;locus_tag=LOCUS_12300;note=WP_011183212.1 alpha/beta fold hydrolase (Mesoplasma florum) [pid:41.8%25%2C q_cov:90.8%25%2C s_cov:23.2%25%2C Eval:2.9e-13%2C partial hit],internal stop codon at [746305:746307](+)%2C[746584:746586](+)%2C[746764:746766](+)%2C[746875:746877](+),MGA_1230
sequence1	MetaGeneAnnotator	CDS	746623	746766	.	+	0	ID=MGA_1231;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLRGIYHFYDQGYNLITFDAFAHGSTYGKYSDFGLTNAKVLNEVIS;locus_tag=LOCUS_12310;note=WP_011183212.1 alpha/beta fold hydrolase (Mesoplasma florum) [pid:68.1%25%2C q_cov:100.0%25%2C s_cov:13.8%25%2C Eval:1.0e-13%2C partial hit],internal stop codon at [746584:746586](+)%2C[746764:746766](+)%2C[746875:746877](+)%2C[746953:746955](+)%2C[746956:746958](+),MGA_1231
sequence1	MetaGeneAnnotator	CDS	746962	747267	.	+	0	ID=MGA_1232;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLGINYNFRRYAKKSIKEVNLLLGFENIGELKILFIHGKKDDFIMYQNSVVMYHLKIMTEENKLSELKLYENAKHSSSMHKNMVNYINTTTSFAQNLQSL;locus_tag=LOCUS_12320;note=WP_011183212.1 alpha/beta fold hydrolase (Mesoplasma florum) [pid:37.1%25%2C q_cov:96.0%25%2C s_cov:27.9%25%2C Eval:9.9e-14%2C partial hit],internal stop codon at [746764:746766](+)%2C[746875:746877](+)%2C[746953:746955](+)%2C[746956:746958](+),MGA_1232
sequence1	MetaGeneAnnotator	CDS	748369	748596	.	-	0	ID=MGA_1233;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQPSTILNQDESQEIGKKNSLDSQKSVSHGSNYSSGYETTDESGIAYFVSHGLGKDFYTSGVLSKECLNDDGTMD;locus_tag=LOCUS_12330;note=MGA_1233
sequence1	MetaGeneAnnotator	CDS	750222	750572	.	-	0	ID=MGA_1234;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQIVIKNFLKKFKQNKVGPISCEIKKNRVTAILGSSGSGKSVLINSIIGATKKFKGDILIKNISRKKLFNYKVNREITFYTQIDFALYDIKVTFFLKTMCLSFGINKKEINSKIEY;locus_tag=LOCUS_12340;note=WP_011387452.1 ABC transporter ATP-binding protein (Mycoplasma capricolum) [pid:45.6%25%2C q_cov:98.3%25%2C s_cov:18.7%25%2C Eval:2.1e-24%2C partial hit],internal stop codon at [750069:750071](-)%2C[750165:750167](-)%2C[750201:750203](-)%2C[750222:750224](-),MGA_1234
sequence1	MetaGeneAnnotator	CDS	750914	751483	.	-	0	ID=MGA_1235;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLILKDNLNLKTLPVDAALTDLAAFKPNDSVDFKIYLNKTFIDEVALKELAYNSQDKSQSEKLVLQDLYNFLKTIQNQLSNFKELSSDYFNEFVFVDESKSKIYKDNKTISATMRKDYLVNLYKYNLNATSSLQNGLTLKPGVNENKFVKEDLFLPLMLAARILEEYFINYTSKYIVATNYQVDVNNEG;locus_tag=LOCUS_12350;note=WP_011183358.1 ABC transporter permease (Mesoplasma florum) [pid:29.1%25%2C q_cov:96.8%25%2C s_cov:30.8%25%2C Eval:3.5e-11%2C partial hit],internal stop codon at [750662:750664](-)%2C[750800:750802](-)%2C[750845:750847](-)%2C[750878:750880](-)%2C[750914:750916](-)%2C[751514:751516](-),MGA_1235
sequence1	MetaGeneAnnotator	CDS	751514	751693	.	-	0	ID=MGA_1236;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKIPDLYDSFDLQDYIVNYKVKYPYLSFALNKFMVEDNQFTKESFVTNESISNRLNNF;locus_tag=LOCUS_12360;note=MGA_1236
sequence1	MetaGeneAnnotator	CDS	751746	752012	.	+	0	ID=MGA_1237;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNCLGMFDKKVIEINKVQIIVVTCKEVTSNKSKIKDIKNKQDIKEYAKNAKLSLSTNLKLSDMKVDAAIITIQENNIFIKAIPSININ;locus_tag=LOCUS_12370;note=MGA_1237
sequence1	MetaGeneAnnotator	CDS	752715	753530	.	-	0	ID=MGA_1238;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDYKNSALNISQNKTYEMFDLFNENKRMQALKKIYTSDEFKTDFSSFIKSKYLNNININLEYEDNKVNFKSNTVTKKIETTKHDYFLDKQNSEEYSAITKAVMEKIQQYGDQIAFKDYGTKQVNNAIYSLLNKNLKGMLSNYQTDFSKFLTANSYEGNYKKTNSFMHGNVLLEGLLMRINENYVLPINAFELSYSASIDNSESSDNNNDTMIKDTSLGNAIYFNVIKGLESFQNVFDTREPTILNNSGSKQFRTPFAFSGKVRDGQIEENI;locus_tag=LOCUS_12380;note=MGA_1238
sequence1	MetaGeneAnnotator	CDS	753834	754262	.	-	0	ID=MGA_1239;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKALLNLLAGFGIVASATTTVIACGTKKDEDKNPSKPNEDISELIKELKTKASDIISSHINSKKDKLLGLVNDGVQYNFFNRENIEKYGKSTDISTYSTKEEMTEEIKENIAKDFSNILNTSDLEKQLNDISKTSDKYDVIL;locus_tag=LOCUS_12390;note=MGA_1239
sequence1	MetaGeneAnnotator	CDS	754467	755111	.	-	0	ID=MGA_1240;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKSLNEKNKQKEDENSLRIQEALKAKIRKLEDALKTQELLSDEAAEEEKKTLKAKIKRLEEALEEQEAYKAKIKKLEETLRNQENIRDELSSEEKRMLKQKIRELEATSEEQEALKAKIKKLEDALKNQENESMELSSEEKRMLKQKIRRLEQDLEEQKTIDFENNQEVEKLRTEIKELRAKKAEIIYRDAEEDPNAFLTTREINNFIQEIEK;locus_tag=LOCUS_12400;note=MGA_1240
sequence1	MetaGeneAnnotator	CDS	755130	755519	.	-	0	ID=MGA_1241;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYYVFSNGRVFYVVDRFMNVIYKFMTLVEAQQVASFLNYQGSINTHFPMRMNGGLPINNINNLLPYDGFSGKVKNFNLPIPNKNMYLKPDESTYDEYIKNNPLINQMDEINELNNRRNKKLDKNNNEEF;locus_tag=LOCUS_12410;note=MGA_1241
sequence1	MetaGeneAnnotator	CDS	755798	756034	.	-	0	ID=MGA_1242;product=S1 RNA-binding domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183238.1;translation=MGTIVNITITKIVDFGAFCDAEIDGKIYKGLIHISEIADAYVTNVADYVTVGQQMEGYVISTDESKDQAKLSLKRVSK;locus_tag=LOCUS_12420;note=WP_011183238.1 S1 RNA-binding domain-containing protein (Mesoplasma) [pid:48.1%25%2C q_cov:98.7%25%2C s_cov:98.7%25%2C Eval:1.4e-15],MGA_1242
sequence1	MetaGeneAnnotator	CDS	756645	756848	.	-	0	ID=MGA_1243;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTLVLGKIKFFEKRTRDLLLEDYNEDIYELKAISKKDFKELILKDKQSKLALKNQIKAEKNNNRSIK;locus_tag=LOCUS_12430;note=MGA_1243
sequence1	MetaGeneAnnotator	CDS	756912	757373	.	-	0	ID=MGA_1244;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSTNSIAKYIALPLLGAAYGPLVITGLHHSLTPIILQGQAAYGTTIIQGLCTLSNISQGVATIAFVVLNRRVRQLKELGVSNGVSAIVGGITEPSLFTVNLKHLFPLIACSIGVFCGSLVLVASNTFAVQGASSIFGFLMFQHKAPELTGATT;locus_tag=LOCUS_12440;note=WP_011183325.1 PTS transporter subunit EIIB (Mesoplasma florum) [pid:74.5%25%2C q_cov:100.0%25%2C s_cov:28.2%25%2C Eval:1.2e-62%2C partial hit],internal stop codon at [756912:756914](-)%2C[757374:757376](-)%2C[757515:757517](-)%2C[757587:757589](-)%2C[757620:757622](-),MGA_1244
sequence1	MetaGeneAnnotator	CDS	757620	757784	.	-	0	ID=MGA_1245;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFITIAVSYTVFKAMRCTPIYGILIGVVLTAPGLVAMGDVKPESGQTILGVYPG;locus_tag=LOCUS_12450;note=WP_011183325.1 PTS transporter subunit EIIB (Mesoplasma florum) [pid:63.0%25%2C q_cov:100.0%25%2C s_cov:9.9%25%2C Eval:1.2e-14%2C partial hit],internal stop codon at [757374:757376](-)%2C[757515:757517](-)%2C[757587:757589](-)%2C[757620:757622](-)%2C[757872:757874](-)%2C[757893:757895](-),MGA_1245
sequence1	MetaGeneAnnotator	CDS	757893	758144	.	-	0	ID=MGA_1246;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDVADFYDTFCEINGFDKDGKTIIFKEISQKDTNFKTKQIEDIKQMKDKFKVKGLTNKCLSFISKVFSPIVYPLIGYGLLLTL;locus_tag=LOCUS_12460;note=WP_011183325.1 PTS transporter subunit EIIB (Mesoplasma florum) [pid:56.1%25%2C q_cov:98.8%25%2C s_cov:14.5%25%2C Eval:1.9e-20%2C partial hit],internal stop codon at [757620:757622](-)%2C[757872:757874](-)%2C[757893:757895](-)%2C[758238:758240](-),frameshifted%2C insertion/deletion at around 758337,MGA_1246
sequence1	MetaGeneAnnotator	CDS	758503	758646	.	-	0	ID=MGA_1247;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGVENENRFRDENGVISDDYRIEFLFEHMSQIKKAINSGSNCFGYHI;locus_tag=LOCUS_12470;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:3.2e-15%2C partial hit],internal stop codon at [758395:758397](-)%2C[758485:758487](-)%2C[758503:758505](-)%2C[758665:758667](-)%2C[758734:758736](-)%2C[758797:758799](-),MGA_1247
sequence1	MetaGeneAnnotator	CDS	758797	758997	.	-	0	ID=MGA_1248;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNRGPLNIMFNGTIDQILIDTLKQYSLLPKYSKEELEIIKKTKIDFLGINYYFPCRVKAKSNGKKR;locus_tag=LOCUS_12480;note=WP_011183324.1 glycoside hydrolase family 1 protein (Mesoplasma florum) [pid:60.6%25%2C q_cov:100.0%25%2C s_cov:14.6%25%2C Eval:4.6e-19%2C partial hit],internal stop codon at [758503:758505](-)%2C[758665:758667](-)%2C[758734:758736](-)%2C[758797:758799](-)%2C[759064:759066](-),MGA_1248
sequence1	MetaGeneAnnotator	CDS	759064	759228	.	-	0	ID=MGA_1249;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPVYEGYLNDKHYPAIDDPKQAVEQVYGIFLAHSKALLAFRKYNLKSPIGLVFN;locus_tag=LOCUS_12490;note=WP_011183324.1 glycoside hydrolase family 1 protein (Mesoplasma florum) [pid:55.6%25%2C q_cov:100.0%25%2C s_cov:11.9%25%2C Eval:2.5e-12%2C partial hit],internal stop codon at [758797:758799](-)%2C[759064:759066](-)%2C[759331:759333](-)%2C[759352:759354](-)%2C[759484:759486](-),MGA_1249
sequence1	MetaGeneAnnotator	CDS	759484	759723	.	-	0	ID=MGA_1250;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKFPKNFQIGASMSSMQTEGKGITKIGELTFDKYFQERPELFYNNVGPEITCDITKHYKNDIKMFKEINLDSIRTGFS;locus_tag=LOCUS_12500;note=WP_011183324.1 glycoside hydrolase family 1 protein (Mesoplasma florum) [pid:74.7%25%2C q_cov:100.0%25%2C s_cov:17.5%25%2C Eval:1.5e-30%2C partial hit],internal stop codon at [759331:759333](-)%2C[759352:759354](-)%2C[759484:759486](-),MGA_1250
sequence1	MetaGeneAnnotator	CDS	759864	760109	.	+	0	ID=MGA_1251;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKSIKEKLILIKNNPENQTHVSIANYLLNCIENKKTPKINECSKESFCSESVITAFAKKYGYDGFKELAIRVKVETEYYD;locus_tag=LOCUS_12510;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:8.1e-24%2C partial hit],internal stop codon at [760107:760109](+)%2C[760356:760358](+),MGA_1251
sequence1	MetaGeneAnnotator	CDS	760830	761999	.	-	0	ID=MGA_1252;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTAILTPIKKIVNLNVQELADANPNDANGQYIYNEFDKNFRKYFKDLFGALGGVLKTLGMQDSIKIPASETKPEVVIKISELLDTNIFDIVNFDPDSIAMNQDLGMGLSMKMTAKIGSKGQNKKLLLGDLLANVAPNIVHIFAKFLNPKTYKPEFGGSHNLLYMLLKELITDMDPNLLKINEKNNPDHLSASNAKSGVDSLLFNLMLDYNKNRRKTENLNLYIHLNLDLSGSVIGGTKKVFDDNLYEVLQDIKVVPGEMVLKIINRLFNFEGKNFLELDELFLSPNLKIEFFENSDINLEAIVERMDLDTIRKPIIQAAVPLIKSTITDKLNGAMNSFLPEMSMQKIINRFPGLLINELGVDKRYLDNAQVTFKKAKFVFQFYSSESKE;locus_tag=LOCUS_12520;note=MGA_1252
sequence1	MetaGeneAnnotator	CDS	762237	762728	.	-	0	ID=MGA_1253;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLTVLSCMTLSSVSVLSVTSCTSKNDYDSIFDQNKPQDENKGDFIVDGPDQIIKKLENIVSKKVVVNVSVKSATNKIQKSNFASEEKIIKELISNIKEQANITENGFTITIDSNNSFSLPELKGLSSDGITFDNDASLVYGQAFLRLNYLDKEIYTKVFE;locus_tag=LOCUS_12530;note=MGA_1253
sequence1	MetaGeneAnnotator	CDS	762933	763289	.	-	0	ID=MGA_1254;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMGKSNLETDDTGTSKITYIQGYGENGLKKVDSLKFKRQLLAQVQAIIGIIIYLVTAIALIISVSIIVITTVLIIGENTQFIATMKILGYSDKYIMSQIIAIYILPIFLMFIFGFVTA;locus_tag=LOCUS_12540;note=MGA_1254
sequence1	MetaGeneAnnotator	CDS	763935	764465	.	-	0	ID=MGA_1255;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIEATYQQANSVAQQSIKKALLEGTNYNITTNIVPYNKENDELGTMINGTYFSNSKLQNIKIYGINKGSKAVNLLDRSGNDLSQNLFKRLTNDYKQYTPIVVNATIAEKLNLKAKDVIDISILKKELVDKENKAIELDKVEMGIKSKYNYVTQTSNDYISEHKKNYFAYNDSNRS;locus_tag=LOCUS_12550;note=MGA_1255
sequence1	MetaGeneAnnotator	CDS	764464	764694	.	+	0	ID=MGA_1256;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVPIFDSKFIQYHKIKLVLKILNSSVVQSTVSKSIALTSFSLKKTFLLCNSKFLFANSKTFEFHFELASVEFLSYP;locus_tag=LOCUS_12560;note=MGA_1256
sequence1	MetaGeneAnnotator	CDS	765366	766070	.	-	0	ID=MGA_1257;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFSAFLLILLVLISFFIIILIIKKQIEETRTKLGTFKSLGYSDFSLLMFFISPSIVISFFGSIFAYILTLSLQNQIVNFFATYFNIHFLKFNPVVGESILIFAFVLFILMSLTLLIAYLVIKESALKLLAGNLAKTNSKVGRGFKYLFKNSNPTVKLHSALLMSSTGKIFATSATLFVSISLISSAVIVPIVLQKNNTASFTGLNYNDIVEFNEPISNNPSTFLKTYNPNKKDN;locus_tag=LOCUS_12570;note=MGA_1257
sequence1	MetaGeneAnnotator	CDS	766188	766394	.	-	0	ID=MGA_1258;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYVAPSIFGLSKVNVKSEYGSKMQLYLYNIASSKLNPESEKDREVYFSGKFKNKSNNSESYLRAFNQE;locus_tag=LOCUS_12580;note=MGA_1258
sequence1	MetaGeneAnnotator	CDS	766488	766757	.	-	0	ID=MGA_1259;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVDKIILEDETKDKYFSSDTKLASREVIIQSSFAKKNNIKRGDIIRLTSDVYGSELLVKKNINNLTFGNDVSINDSKLGIEASEYKDQV;locus_tag=LOCUS_12590;note=MGA_1259
sequence1	MetaGeneAnnotator	CDS	767010	767255	.	-	0	ID=MGA_1260;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKSKMFLIIKSGFKTNIKNLGHLLVLSFLVTVAVLTGMSIFVVQNRVDKSYTDLLNKSVQHDFIVDEANSARISFDEHN;locus_tag=LOCUS_12600;note=MGA_1260
sequence1	MetaGeneAnnotator	CDS	767321	767911	.	-	0	ID=MGA_1261;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDFSKPSYTSIDLKAKEKSLNYYGQVKIIYETVFKKINDFDFKNAVNGNLTAESFDSKQDVPTMYQTPDDSTFELRYAIPDSYESLINAGKKNINFNLSTKAKKMSAKSAVSAAELKKYDKENISISYDFSQGNQNGEKSLRESSSIPVSFKSGFFCTSSTNIKFTSNFYYSISKTNANSIDYFVIKIKISSKLQD;locus_tag=LOCUS_12610;note=MGA_1261
sequence1	MetaGeneAnnotator	CDS	767978	768667	.	-	0	ID=MGA_1262;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEINKESSFLSSQQYQIIISDTSKQTPENAVISIKYNNQIVNFQEGNALMVTYNVSDIAALIKNTNLGILNKLDKETILSKVKELNPIFAQYSQVNSSIIDFDLNSAIISNPNLANRINLTFQIDDINVIVTEKNIGNISNYSEETLKRDQLIVEAIKTSNPLLKKLPASDFIISNVEIGEFGINDILIKDVKFNLKIKNYNGTVNGKFNIRRENISSLITTKNLGKIY;locus_tag=LOCUS_12620;note=MGA_1262
sequence1	MetaGeneAnnotator	CDS	768800	769345	.	-	0	ID=MGA_1263;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLILGGVCTIGFGAVLAPSMLVVKGFVRSLEQYNPNVDEDESKKVGEDVKDSNQGYQNISVLNLKSNLGSISDISEEGLIKRIQEVNPTLKDKKIYIKALTLKKIKITVENYTGTFDFDFKITSLNGLIKNKELGKIKNIKSTTIIEKIKELNPNIAGMDFINDIDLKVSSLNEIKLT;locus_tag=LOCUS_12630;note=MGA_1263
sequence1	MetaGeneAnnotator	CDS	769410	769667	.	-	0	ID=MGA_1264;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIYKILKKRNPLIDFEPINFFIFDLPLFFIRRIRPIFKKETKKIIKQINKVFEFFNDYFIFLNYVFMKNKILLLIKKKSIIPLA;locus_tag=LOCUS_12640;note=MGA_1264
sequence1	MetaGeneAnnotator	CDS	769872	770099	.	-	0	ID=MGA_1265;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSKIKLFNPKQTFSLLISYSLIVIYILFLLLYKNNSFLFANKVLINNFFLTCLLAYLFINLLSILLTIKNKEID;locus_tag=LOCUS_12650;note=MGA_1265
sequence1	MetaGeneAnnotator	CDS	770350	770592	.	-	0	ID=MGA_1266;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKSIVDIVKLDNILKVENCSTRLRLTLKNNKEGIEDKELKALGIYGLKRLGDQGLQLIIGTDVEHVANEIQSLFLAKSE;locus_tag=LOCUS_12660;note=WP_011166334.1 PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:57.3%25%2C q_cov:92.5%25%2C s_cov:13.5%25%2C Eval:5.6e-17%2C partial hit],internal stop codon at [770621:770623](-)%2C[770744:770746](-),frameshifted%2C insertion/deletion at around 770611,MGA_1266
sequence1	MetaGeneAnnotator	CDS	770744	771064	.	-	0	ID=MGA_1267;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIYSAKKENRKEVISFLAGVAIVAALTGIDEPLVFSFIFVGPILLVINALYTAIFASIAIAMHMHIGFGFSGGFIDYAISFSNSWAMSKYERIINGPIYGILSNPL;locus_tag=LOCUS_12670;note=WP_011166334.1 PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:48.9%25%2C q_cov:83.0%25%2C s_cov:15.8%25%2C Eval:9.4e-20%2C partial hit],internal stop codon at [770621:770623](-)%2C[770744:770746](-)%2C[771092:771094](-),frameshifted%2C insertion/deletion at around 770611,MGA_1267
sequence1	MetaGeneAnnotator	CDS	771092	771424	.	-	0	ID=MGA_1268;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPINGFIVDFNGKVVLFNNMYENPLLKSSTILSSTGLDVMNQISNSIFGQVSITNQNFNQYFSIQMCAIPNNVILTTTNNVPCFTIFGDINAFQKSMVSGNFQTGYFPMF;locus_tag=LOCUS_12680;note=MGA_1268
sequence1	MetaGeneAnnotator	CDS	771710	771943	.	-	0	ID=MGA_1269;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTGLLGRNCLPKLFYDDVITFDFYKTGNNGPELAGSLSSLFYVPKYGEIKNKLEIIGGTYILNIGVLGGIVSGCLSA;locus_tag=LOCUS_12690;note=MGA_1269
sequence1	MetaGeneAnnotator	CDS	772082	772294	.	-	0	ID=MGA_1270;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNTFNRKQEVNNQKHKSIKKKFAGSFLIKLQSLGKSLMYPIALLPFAAFLNRFGSLAMELNSQTVHNVGW;locus_tag=LOCUS_12700;note=MGA_1270
sequence1	MetaGeneAnnotator	CDS	772670	772861	.	-	0	ID=MGA_1271;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKSCKKILLVDSTKFMKKVGAGFMNIKEIDILVTDFSDNNNFNDFLEPKKIIYSMIEQENEF;locus_tag=LOCUS_12710;note=MGA_1271
sequence1	MetaGeneAnnotator	CDS	773060	773458	.	-	0	ID=MGA_1272;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHKVKRKELLLKKINIEKVIETKVILNYISDFNINSSTARRDLKELENECKINIFFGLIKSIEDDKNLILRSEQKYKEINKKENIAKEAIKLLEKCDNIFCGPGTTVEAFVRKINRKIKLLVTNSFPVFLEG;locus_tag=LOCUS_12720;note=WP_001829761.1 DeoR/GlpR family DNA-binding transcription regulator (Staphylococcus) [pid:33.1%25%2C q_cov:97.7%25%2C s_cov:50.6%25%2C Eval:4.6e-11%2C partial hit],internal stop codon at [772991:772993](-)%2C[773060:773062](-),MGA_1272
sequence1	MetaGeneAnnotator	CDS	774239	774976	.	-	0	ID=MGA_1273;product=DeoR/GlpR family DNA-binding transcription regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166819.1;translation=MLKDERRELIVELLNKNGFMKNITLSELTNSTIQTIIMDINELQLEGRLIKVYGGARSISNNQQTIREYFDEEKESLNIEAKNQIASFASTLIEENDLIFIDTGTTTKKMINYLIGKNIQVVTNGYSIALELLENDISVCLVGGTIIPTTHATAGELALKFLDNFNFDKAFLGMNNLYKNDFYTTNIEEAMIKEKVIKNSLRSYILMDSSKFNSKNKIKVDVEKETYLISENLPLSYEKKYIFNK;locus_tag=LOCUS_12730;note=WP_011166819.1 DeoR/GlpR family DNA-binding transcription regulator (Mycoplasma mycoides) [pid:63.2%25%2C q_cov:94.3%25%2C s_cov:94.3%25%2C Eval:6.9e-73],MGA_1273
sequence1	MetaGeneAnnotator	CDS	775180	775635	.	-	0	ID=MGA_1274;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINVLPKGVIRNDNFNYQEFLGTDNCKNFNELLEDENVISFQIACHINDVKEVTDYFEKNFKDLRVLMITNQTIEVVHKDAGKDYGIKKLAQTFEIDSKDIYTIGDGPNDKEMLLFNDNSFLIKSELTNKKLFECVKYSIESVHEIEKYIK;locus_tag=LOCUS_12740;note=MGA_1274
sequence1	MetaGeneAnnotator	CDS	775669	775836	.	-	0	ID=MGA_1275;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKLFELNDIDLDLLVCCDGTMGYSRKENKVLYSLEIDLETRKKLWNFVKDELNR;locus_tag=LOCUS_12750;note=MGA_1275
sequence1	MetaGeneAnnotator	CDS	776647	776892	.	-	0	ID=MGA_1276;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MATFLILGSQTLFSKYLNGSYMGYFLLPSIISILMGIFLIFFIKDRPETVGLPPLKDYYKMELIGAKREKTQEDINEDNKK;locus_tag=LOCUS_12760;note=MGA_1276
sequence1	MetaGeneAnnotator	CDS	777322	777447	.	-	0	ID=MGA_1277;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKSFKNFLAEKNERDLITEENLYDFVIKKEYKYNQEKVF;locus_tag=LOCUS_12770;note=MGA_1277
sequence1	MetaGeneAnnotator	CDS	777829	778056	.	-	0	ID=MGA_1278;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITTIILISLLYTTCIIYIFSLLADKEIKFSKKEQIILLSFLAIPCLNYLTFLIIFNTSKTRKNGIKNEENIVLE;locus_tag=LOCUS_12780;note=MGA_1278
sequence1	MetaGeneAnnotator	CDS	778759	778920	.	-	0	ID=MGA_1279;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSQYGREILVNIGADVLLKAAKEVLSSAGSVLTVETILVNAAITGAAAIASIL;locus_tag=LOCUS_12790;note=MGA_1279
sequence1	MetaGeneAnnotator	CDS	778990	779496	.	-	0	ID=MGA_1280;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKLKSFLNKESLFSFTKQLKIFLSTILIVSALLIFYSVINNKKKLENPVPLENNGLSNISLKLENEFNNYNKKMDNISYFKSKDSFEDKINIEDVILSNIIYLNNKIEINFKELNKLNLTKSLIELLESKDFEKEILKSINSNEILIINNKLIFNENYMINNSQIPY;locus_tag=LOCUS_12800;note=MGA_1280
sequence1	MetaGeneAnnotator	CDS	779688	779957	.	-	0	ID=MGA_1281;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAESIVDIVKIDNILKVENCSTRLRLTVKNNKDGIEDKDLKALGIYGIKRLGDQGLQLIIGTDVEHVANEVQTLFLINEKNTNMNKKET;locus_tag=LOCUS_12810;note=WP_011166334.1 PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:57.3%25%2C q_cov:83.1%25%2C s_cov:13.5%25%2C Eval:2.1e-16%2C partial hit],MGA_1281
sequence1	MetaGeneAnnotator	CDS	780031	780204	.	-	0	ID=MGA_1282;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVAGFLNEYILTNDYEKALKMAIICGSATAYSKRIASKELVDQLKEQINSLELKNLE;locus_tag=LOCUS_12820;note=MGA_1282
sequence1	MetaGeneAnnotator	CDS	780244	780972	.	-	0	ID=MGA_1283;product=1-phosphofructokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003244923.1;translation=MKNKIYIISLSPAIDYILEFDDLKKDKTNRPFNTEMYPSGKGIHIAMMLKNLSLESKSIIFTTGDLENYFYSQLDKLKIDYKKFRAKENIRINLKLIDSDQTECTAQAPAIDENDLKKMIEYLKQNLKEGDFVIATGSLPKGLDSKIYSQIVEVSNSLKCKCIVDAFGEPLNYAIEKKPFLIKPNIEELSLTTGIVINNEKDILVAGKKLLEKGVENILISMGKKGAIFLNKELMKYCSVGK;locus_tag=LOCUS_12830;gene=pfkB;EC_number=2.7.1.56;note=WP_003244923.1 1-phosphofructokinase (Bacillus) [pid:34.9%25%2C q_cov:98.3%25%2C s_cov:78.2%25%2C Eval:3.5e-37],internal stop codon at [780244:780246](-),MGA_1283
sequence1	MetaGeneAnnotator	CDS	780997	781398	.	-	0	ID=MGA_1284;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIKKSNLQYSLNKTLEINEEKSVKLFNKGKKLIISKDPGKVEIGELLIKTSGEKNLETDKVKNLNLEIEKQNVKINDSYINLSIETQKYYSEIEETLNKMEKLMNESLINYKNNYYNNIHYLQIKENQIQIR;locus_tag=LOCUS_12840;note=MGA_1284
sequence1	MetaGeneAnnotator	CDS	781801	781950	.	-	0	ID=MGA_1285;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIGILGVSLDNLAGLGGIVGFLAYTNHLALAIAIDLLSFALGIVITYFL;locus_tag=LOCUS_12850;note=WP_011166820.1 PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:70.2%25%2C q_cov:95.9%25%2C s_cov:7.5%25%2C Eval:4.7e-11%2C partial hit],internal stop codon at [781801:781803](-)%2C[781951:781953](-)%2C[782137:782139](-),MGA_1285
sequence1	MetaGeneAnnotator	CDS	781951	782130	.	-	0	ID=MGA_1286;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGATVAVGLKSKKTIDKSAAFAAVLPGVISGPTESCIYGVNLPKGLPFITGTLAGAIGG;locus_tag=LOCUS_12860;note=WP_011166820.1 PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:74.6%25%2C q_cov:100.0%25%2C s_cov:9.4%25%2C Eval:1.9e-20%2C partial hit],internal stop codon at [781801:781803](-)%2C[781951:781953](-)%2C[782137:782139](-)%2C[782251:782253](-)%2C[782290:782292](-)%2C[782302:782304](-),MGA_1286
sequence1	MetaGeneAnnotator	CDS	782302	782490	.	-	0	ID=MGA_1287;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVFIAMGILVAYCQKLMEKYFNPVANFILNPFLTLLVGGLLAFFVMGPIMGIVENSLLNVFN;locus_tag=LOCUS_12870;note=WP_011166820.1 PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:62.9%25%2C q_cov:100.0%25%2C s_cov:9.9%25%2C Eval:7.5e-17%2C partial hit],internal stop codon at [782137:782139](-)%2C[782251:782253](-)%2C[782290:782292](-)%2C[782302:782304](-)%2C[782524:782526](-)%2C[782638:782640](-),MGA_1287
sequence1	MetaGeneAnnotator	CDS	782638	782790	.	-	0	ID=MGA_1288;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MALEQLLLRTGLVHNPNKENAILGQDYNIFDVILNVISSTGFKMMGVIAI;locus_tag=LOCUS_12880;note=WP_011166820.1 PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:48.0%25%2C q_cov:100.0%25%2C s_cov:7.8%25%2C Eval:1.9e-07%2C partial hit],internal stop codon at [782524:782526](-)%2C[782638:782640](-)%2C[782863:782865](-)%2C[783013:783015](-),MGA_1288
sequence1	MetaGeneAnnotator	CDS	783013	783192	.	-	0	ID=MGA_1289;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKESKNEILIENIFDKIGGSENIKDVYHCATRMRLTLFNQDSANLKELKTITNIKGAL;locus_tag=LOCUS_12890;note=WP_011166820.1 PTS transporter subunit EIIC (Mycoplasma mycoides) [pid:52.5%25%2C q_cov:100.0%25%2C s_cov:9.4%25%2C Eval:2.8e-11%2C partial hit],internal stop codon at [782863:782865](-)%2C[783013:783015](-),MGA_1289
sequence1	MetaGeneAnnotator	CDS	783823	784062	.	+	0	ID=MGA_1290;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKASLKKELLKARNGKYAVPAFNFDNLEMMKGIIEAAEEEKAPVILMVTESAAKYMGLDLVFSFANTAVKNSTVPIVLH;locus_tag=LOCUS_12900;note=WP_011166818.1 class II fructose-bisphosphate aldolase family protein (Mycoplasma mycoides) [pid:60.8%25%2C q_cov:100.0%25%2C s_cov:28.1%25%2C Eval:4.9e-21%2C partial hit],internal stop codon at [784060:784062](+),MGA_1290
sequence1	MetaGeneAnnotator	CDS	784123	784551	.	+	0	ID=MGA_1291;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLDSSLKPFEENVKETREVVNYSRKKGVEIESEIGHVGGKEDDRNSNSKGYTNIDEAIKFEQLTNVDALAISIGTSHGLFKGEVNLQFDLLKDIANKIETPLVLHGSSQVPLEDLKKAIELGITKINIGTDLKIACAQGIQQ;locus_tag=LOCUS_12910;note=WP_011166818.1 class II fructose-bisphosphate aldolase family protein (Mycoplasma mycoides) [pid:62.0%25%2C q_cov:100.0%25%2C s_cov:50.5%25%2C Eval:9.1e-45%2C partial hit],internal stop codon at [784060:784062](+)%2C[784549:784551](+),MGA_1291
sequence1	MetaGeneAnnotator	CDS	784790	785140	.	-	0	ID=MGA_1292;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVEFFNIKNDLKCKISMKGLETGAEITQGEGREQITTIYLKSQILELFDLKGPMVIDSSIFDNADFEFKKLLFNYLKNKKIQTIIFYRNIETDFEIFGNGNRILSTDYPLFGNRQ;locus_tag=LOCUS_12920;note=MGA_1292
sequence1	MetaGeneAnnotator	CDS	785174	786346	.	-	0	ID=MGA_1293;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYYIKNINSNIDEGFNFNFSENLTIISSGFRNSQKESANDAGKSSFYTIIKLLLGKKTSGIDNIKNIILDLFESKKTKIRKLEEVFFEMEICSNRNDEKHFAKFYIFTNKYFLNNKLLFSKDYLKEINIFFGEEYQTQMNLFFINKIPLENKMDLFKKYSKESVKTTSETIRSIFDFNTQFYDLSLEVRLKEIDILIKDINKSDIFKEISNLNKELNKKQEKLFMFSKNSLYIETNILEEEYRYLKNCLKVNANTLNFDLKLFNKFLKNYSKNFLKEESIKKIEDVKEFYSIMQKSYSENIYKKEDIEEILNKTKIKINENYKILEELGLSIAISDIESIKSKISNLNQVIQKIKDLEEEKKDIKQKRSKSNSFSMNMKMKNFKEKVLKE;locus_tag=LOCUS_12930;note=MGA_1293
sequence1	MetaGeneAnnotator	CDS	786325	786552	.	-	0	ID=MGA_1294;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKYKISSLLPNKSCIFNNTFIYFLSQIENLKKIYLEEIQLETKTKYFLCLAYNFGYIDYIFEGDDKICIISKI;locus_tag=LOCUS_12940;note=MGA_1294
sequence1	MetaGeneAnnotator	CDS	786578	786919	.	-	0	ID=MGA_1295;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDINSFHEDDKIFINIQIRNLMTNDYKIYRDFLKKSNVEFEDIRNFLNQNYLLLKQENFDLKLSDRNIKIIKELRNLLSNLLLKETTEKETIIVYKNANINLENIEYFILKII;locus_tag=LOCUS_12950;note=MGA_1295
sequence1	MetaGeneAnnotator	CDS	787019	787423	.	-	0	ID=MGA_1296;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNRLFDFSEKVKKEVYKKYKGICTICLCVLVMETDAKKRWKNSFISLFNFKYCEIAHIIPSSNKEGEPRSEYKDDFIIRYGEDKLNKEENAVLLCKNCHKNIDSINPEKFPMDKLIELKERHSVRYAVHTEKM;locus_tag=LOCUS_12960;note=MGA_1296
sequence1	MetaGeneAnnotator	CDS	788126	788368	.	-	0	ID=MGA_1297;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKVLERKIKFNNGLEIPQVGLGTYKLTDEKETLESIKAALENGYKHLDTATIYNNHKVVARAIKESKVKREDIFITSKI;locus_tag=LOCUS_12970;note=WP_010965260.1 aldo/keto reductase (Clostridium) [pid:50.7%25%2C q_cov:86.2%25%2C s_cov:25.2%25%2C Eval:4.8e-16%2C partial hit],internal stop codon at [788003:788005](-)%2C[788030:788032](-)%2C[788126:788128](-),MGA_1297
sequence1	MetaGeneAnnotator	CDS	788622	788771	.	-	0	ID=MGA_1298;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISENGIGLTEELENDTVNDMQRIEYYSKHIEQLQLAISEGVEVIAYNP;locus_tag=LOCUS_12980;note=WP_011182908.1 glycoside hydrolase family 1 protein (Mesoplasma florum) [pid:58.0%25%2C q_cov:100.0%25%2C s_cov:10.8%25%2C Eval:2.6e-09%2C partial hit],internal stop codon at [788499:788501](-)%2C[788622:788624](-)%2C[788838:788840](-),MGA_1298
sequence1	MetaGeneAnnotator	CDS	788838	789047	.	-	0	ID=MGA_1299;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPEILNDDFEILKKGKPDFLSINYYTSGTVQENIKNTSEQVKIDQQTMFDINGLFSYAQNDKLEKTEYG;locus_tag=LOCUS_12990;note=WP_011183210.1 glycoside hydrolase family 1 protein (Mesoplasma florum) [pid:55.7%25%2C q_cov:100.0%25%2C s_cov:14.9%25%2C Eval:1.6e-16%2C partial hit],internal stop codon at [788622:788624](-)%2C[788838:788840](-)%2C[789120:789122](-),MGA_1299
sequence1	MetaGeneAnnotator	CDS	789120	789356	.	-	0	ID=MGA_1300;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIGNKVAMLNGGKSSLTEKELYQQSHHMFIAQAKAVELLRKYNSNAKIGPALNNVCIYPNSNKPEDYLAAQNASVMRN;locus_tag=LOCUS_13000;note=WP_011183210.1 glycoside hydrolase family 1 protein (Mesoplasma florum) [pid:61.5%25%2C q_cov:100.0%25%2C s_cov:16.6%25%2C Eval:2.5e-20%2C partial hit],internal stop codon at [788838:788840](-)%2C[789120:789122](-)%2C[789387:789389](-)%2C[789471:789473](-)%2C[789627:789629](-),MGA_1300
sequence1	MetaGeneAnnotator	CDS	789869	790048	.	-	0	ID=MGA_1301;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIVSQNTAKLAKELNFSNLTNIDGQYFNAIHSLDINYGLTNKVNQSLLKKDIKLKVVK;locus_tag=LOCUS_13010;note=MGA_1301
sequence1	MetaGeneAnnotator	CDS	790325	790924	.	-	0	ID=MGA_1302;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGIHIAIAMPISLQVQQGIPQLLSPGLMYGVYGQVGALIGIIIRTKDAKLRAMSIASLPAGFIGVSEPILYGINLPKQKPFIAGNIGAAIGGMLSGIIGVKLHVPGGYGIFSITGYIPGGATNVAMFVLCLLVALGGGAVATILIYQERPDELKTVNKINKLLISAYASRKQISKKEAKLKLEQVLKSQNEFLKKEDLK;locus_tag=LOCUS_13020;note=WP_011183209.1 PTS glucose transporter subunit IIA (Mesoplasma florum) [pid:47.5%25%2C q_cov:99.5%25%2C s_cov:23.3%25%2C Eval:1.9e-50%2C partial hit],internal stop codon at [790073:790075](-)%2C[790325:790327](-)%2C[790940:790942](-)%2C[791120:791122](-)%2C[791132:791134](-)%2C[791144:791146](-),MGA_1302
sequence1	MetaGeneAnnotator	CDS	790940	791119	.	-	0	ID=MGA_1303;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPSMVDIIFRHTLAFLIVVVGTFFLVGPILGLFEYGIGYVVNQIGLIPFGIGVAIFAFV;locus_tag=LOCUS_13030;note=WP_011183209.1 PTS glucose transporter subunit IIA (Mesoplasma florum) [pid:55.9%25%2C q_cov:100.0%25%2C s_cov:6.9%25%2C Eval:1.3e-11%2C partial hit],internal stop codon at [790940:790942](-)%2C[791120:791122](-)%2C[791132:791134](-)%2C[791144:791146](-)%2C[791231:791233](-)%2C[791237:791239](-),MGA_1303
sequence1	MetaGeneAnnotator	CDS	791237	791545	.	-	0	ID=MGA_1304;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MASLAGVMVPNLPIFIGIGMLMAVQSILIQANVLTKPGFGVSLNDIDHFSQFFFIITDVAFKFLGLFVGYNTIRYLGGNSQMGLLICLVIANPYLFQNGQPI;locus_tag=LOCUS_13040;note=WP_011183209.1 PTS glucose transporter subunit IIA (Mesoplasma florum) [pid:52.4%25%2C q_cov:95.1%25%2C s_cov:12.1%25%2C Eval:6.8e-26%2C partial hit],internal stop codon at [791120:791122](-)%2C[791132:791134](-)%2C[791144:791146](-)%2C[791231:791233](-)%2C[791237:791239](-)%2C[791678:791680](-),MGA_1304
sequence1	MetaGeneAnnotator	CDS	791960	792358	.	-	0	ID=MGA_1305;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKIKLYAPCDGMVFPIEKLNDGVFSEKMLGEGIYIEPSSNVFYSPFEKSTINLIFETKHAFFVKAQDGPNVLIHIGLDTVNLKGKPFKFISKINEEISLKDKIVEVDLKLIKENNLAISTPIVIQEDVNEK;locus_tag=LOCUS_13050;note=WP_011183209.1 PTS glucose transporter subunit IIA (Mesoplasma florum) [pid:48.4%25%2C q_cov:93.9%25%2C s_cov:14.6%25%2C Eval:1.8e-31%2C partial hit],internal stop codon at [791678:791680](-)%2C[791960:791962](-),MGA_1305
sequence1	MetaGeneAnnotator	CDS	792432	793166	.	-	0	ID=MGA_1306;product=MurR/RpiR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183208.1;translation=MIFDKITAISNSKNENTDYLIAKKLVQMYLEDNFLSVKELAQDIHVSESLLTVFAKKLDLKGYRELISLLKFERLEQIKPANNRETISQEENLVDLFNFNKSDIDNIFNKILKTRVFILSSNQLRVQTELLNEIFKFNNIDSTLFLNNYLFYEYIKNTNSKDSIIFFFAGQDNDVLFQIYKKISKINKNIFIFCSNSQKYKFDFYDTKIVLDINQKPHNYIYRNIAMSYIIAYFHEAINLLEKN;locus_tag=LOCUS_13060;note=WP_011183208.1 MurR/RpiR family transcriptional regulator (Mesoplasma florum) [pid:31.5%25%2C q_cov:94.7%25%2C s_cov:96.4%25%2C Eval:1.4e-25],MGA_1306
sequence1	MetaGeneAnnotator	CDS	793286	793525	.	-	0	ID=MGA_1307;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNRNEEKFFFDRKFPDLLEENYLTIRKEDGVVKILTDHIVSVNIKSQTQVFIKLTNNEEYKLDEKLSKKVANGLGFFD;locus_tag=LOCUS_13070;note=MGA_1307
sequence1	MetaGeneAnnotator	CDS	793956	794972	.	-	0	ID=MGA_1308;product=DUF3578 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_051532688.1;translation=MKIEQNSNFKDFDSKIYTLYFMMANNEKLFVKILKKIQVFKNNLSVEEFQIFNKKISNLFYEVYTKKNNSKVRSLEFMLWNFSNFSDLTSEIMRNFNYLETEDLLKINEILDQKLKSGGVYTIKTFKDELFIYNFIINFLENLNLEETVKTLYSIFKKNDYKYIINFLERDSFLNEYNESVIELFSDFTSIVNFIDYKNINNQELVIMPIEKAEIKYVKISRKDRTEFNKMKSIARNYYNNKCYFENNNNCKYFISETTNENYIEIHHLIPHGYSEDFKNSIEVIENYVALCPNCHKKIHYSTKKDKYKMISILYNERHSQLALRGLKIELEDLSILY;locus_tag=LOCUS_13080;note=WP_051532688.1 DUF3578 domain-containing protein (Fusobacterium perfoetens) [pid:29.7%25%2C q_cov:85.2%25%2C s_cov:75.6%25%2C Eval:2.6e-21],MGA_1308
sequence1	MetaGeneAnnotator	CDS	795274	795573	.	-	0	ID=MGA_1309;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFLRDHLKSEYSRSKAKHFLKELINSSKSKVILMSYNNTYNASSTASNNKITEQDIIEIFEEYGKVEIYEKPYKSFNSGKTNFIDHKEILYVCKRSNR;locus_tag=LOCUS_13090;note=MGA_1309
sequence1	MetaGeneAnnotator	CDS	795604	796221	.	-	0	ID=MGA_1310;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNINTEFIDIFAGTGAVGFYFAEKGYNTILNDNLFHNYVIYRAFNSFDNIDQEKLSNIIDKYNNKKYEYLFDNYISEIYGNRYFSKTEAFKIGEIREDIEKKFKSKIINEDEKYYLITSLMFGADKIANTVGHYESFLNNQHFDKNLELKTLFVQKYSSKITPFNMDANLLIKNLNQENSILYLDPPYNARQYINFYHVLENIAI;locus_tag=LOCUS_13100;note=WP_209021411.1 Dam family site-specific DNA-(adenine-N6)-methyltransferase (Helcococcus ovis) [pid:46.5%25%2C q_cov:96.1%25%2C s_cov:26.3%25%2C Eval:5.5e-40%2C partial hit],internal stop codon at [795604:795606](-)%2C[796246:796248](-),MGA_1310
sequence1	MetaGeneAnnotator	CDS	796535	797215	.	-	0	ID=MGA_1311;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFIKSPLSYAGNKFQILNIIYNYIKNDEVILDLFCGSSVVGINSRNKKIIINDLNKSIIEILKYLIKNKLDKIVSDIENVIHKFDLTNSFRNSYSFYKSKLKNTSNNGLKELNIVSFNKLRSYYNSLNDKFTEEAIIILFVLKIYGFNGEIRFNSIGNYNIPVGKTDFNKATFKRIENFKLKTNNMKIDINNFDFRDERLNQKILDSDIVYIDPPYLLTEATYNKE;locus_tag=LOCUS_13110;note=WP_209021411.1 Dam family site-specific DNA-(adenine-N6)-methyltransferase (Helcococcus ovis) [pid:36.4%25%2C q_cov:99.6%25%2C s_cov:30.0%25%2C Eval:1.4e-34%2C partial hit],internal stop codon at [796535:796537](-),MGA_1311
sequence1	MetaGeneAnnotator	CDS	797592	797801	.	-	0	ID=MGA_1312;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEFFTDFKENHDKRNLIRFSEEEIKIKFINIKEIPYIKEYDNKIKNISFNIDLFNIKSYDLNSIMQIY;locus_tag=LOCUS_13120;note=MGA_1312
sequence1	MetaGeneAnnotator	CDS	797832	798560	.	-	0	ID=MGA_1313;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKLNVIAIKDIGEYSLFLLPESSTYFILKPIYKNVNLPKNIKSLKKPNFSYYPSIKSISNGIEGDEKLSGFPSQTMNIDVEGHEDCDAEVLILQPKMEKYFVDLVFKTISNIDDLSQTIFDTVVNLETIFGLVFKIKKKIQIGLIGELLILKNSGEYLKEFLEGYHIEEYNNFKKFESKTDFEINTHNNKKINIEVKTTTSDEDLFSLKNHQINENINDYFAAIKISEVRKGGKTLIDLID;locus_tag=LOCUS_13130;note=MGA_1313
sequence1	MetaGeneAnnotator	CDS	798579	798734	.	-	0	ID=MGA_1314;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIFTSKKAISFYKDIEIIENKLRKMYKEDSIHNDKKSEDIKEEFKKFSLR;locus_tag=LOCUS_13140;note=MGA_1314
sequence1	MetaGeneAnnotator	CDS	798765	799019	.	-	0	ID=MGA_1315;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSDFNDTFSMKTTKSDLIKIINKLKIKEVREGIEYLREKCPEIIIGGNLLSRGFTFEELLFEIMLNHSNSNELTADTLLQRAR;locus_tag=LOCUS_13150;note=MGA_1315
sequence1	MetaGeneAnnotator	CDS	799320	799988	.	-	0	ID=MGA_1316;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSRIQISLAKKKNYNDFSKGANYLELREKFIRENKTYGQNTIDDVIEVNLKNISEKLSYEKKIQKFLLLGEVQSGKTNNIIFLTSFLRDNDFKKFIILTGTKNNLNKQNINRFKQANQKSRFLPFSNKSNFFQNDNKTEFLYGIKQNIKNILINLEEMTQNQKSEFKIVIIDDECDEASSEKGKKNRSINNNIENIINCGFKNVLYFQITATPYANITHYTD;locus_tag=LOCUS_13160;note=WP_133431295.1 Z1 domain-containing protein (Macrococcus brunensis) [pid:30.0%25%2C q_cov:85.1%25%2C s_cov:24.7%25%2C Eval:1.3e-11%2C partial hit],internal stop codon at [799320:799322](-),MGA_1316
sequence1	MetaGeneAnnotator	CDS	799981	800562	.	-	0	ID=MGA_1317;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDNNKMGFHGTVKEDIEKTLSDIFKNYLSPLFDKILDIIFYKNDQLLEDKLFQQEIDRFANEINKNKILENHSVITEELKINDTDGERFRNGFIVVNEKEESAFKIVCHPEGQFGNKHKLFKTRALPCEDNSILFVIVLNKEFYGFKNNLKDEHFSILFNPLIKLLMCELIKYKTNQEKNKRFKELIEGIEGE;locus_tag=LOCUS_13170;note=MGA_1317
sequence1	MetaGeneAnnotator	CDS	800656	800868	.	-	0	ID=MGA_1318;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIEKFENQEELKFKTFFRLPYNYYENERIPFTFGFIGNNSSLLKYNGLTVYQDDRAIISGPNSEKSNLT;locus_tag=LOCUS_13180;note=MGA_1318
sequence1	MetaGeneAnnotator	CDS	800908	801396	.	-	0	ID=MGA_1319;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINLDIDKLKGKNFNFYDTKDINIKKESGIQFNYDHGTIIKIDKFHIDTVHSERYEKRMFNKGTKNEGKALEEQLACRYSRYIKKNFLSINMSYINEDGDEEMPNKVPVEITKSKIPDMYIKNSKERQDYEFKVSDKEKININKSKFYIKSMKEIKNAFADS;locus_tag=LOCUS_13190;note=MGA_1319
sequence1	MetaGeneAnnotator	CDS	801451	801768	.	-	0	ID=MGA_1320;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKINENEIPRTNREFLGYIDKTTSHIYMISEFIDNSIQSAIDNNFEYVEVKIIVNMLEKAIYIIDNAAGIAYKNRSIAIRNGKDESEQGNSLNMFGVGMKMAAI;locus_tag=LOCUS_13200;note=MGA_1320
sequence1	MetaGeneAnnotator	CDS	801769	802359	.	-	0	ID=MGA_1321;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSFREKLMKERDLLKNRYHGSLRIMKNKKIVTLVKYRYMDLKFKNGIYYLPKKEGREEIIFGEINEDFTKLKYNKKVFKIISESEYRKKVDQRKINPYVEGEIPLFNFVIKLDKNLDNDKLSIVGLGPYTLDYRKELLIEILKLKKAMKKYKIEIISDEEINKIKEIFKIVMEALENDRYLDEKISGLFEQIKGYN;locus_tag=LOCUS_13210;note=MGA_1321
sequence1	MetaGeneAnnotator	CDS	802591	802791	.	-	0	ID=MGA_1322;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDYMEEISKKSKKEILTVLGVRKGESLSRDIKMDKTKIEDSDLRINNTNGKYIFSPIEEFQLYDI;locus_tag=LOCUS_13220;note=MGA_1322
sequence1	MetaGeneAnnotator	CDS	802870	803115	.	-	0	ID=MGA_1323;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIGFSGGKDSSVLVQIILESLTEIKTKLKNKIYIVSSDTLIENPIVLEQLNNSLEILQTYADEKQLPVEVFKVTPDINETF;locus_tag=LOCUS_13230;note=WP_005109921.1 DNA phosphorothioation system sulfurtransferase DndC (Mycobacteroides abscessus) [pid:36.6%25%2C q_cov:100.0%25%2C s_cov:16.0%25%2C Eval:1.9e-12%2C partial hit],internal stop codon at [802819:802821](-)%2C[802870:802872](-)%2C[803116:803118](-),MGA_1323
sequence1	MetaGeneAnnotator	CDS	803621	803851	.	+	0	ID=MGA_1324;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNGYSLKEIALKFNSTTGSIGTIINKYKNTDIGDSKTRLPYKIDYSISQKANDLFVGILFDYNKELIKENDILKKQ;locus_tag=LOCUS_13240;note=MGA_1324
sequence1	MetaGeneAnnotator	CDS	803848	804072	.	+	0	ID=MGA_1325;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLQGQNQKEIVQQLLINTKSNRTMICKILNINRTSTYKKNKTLMNFLDDTRIMNLVISEIERNNFLSAYSAKR;locus_tag=LOCUS_13250;note=MGA_1325
sequence1	MetaGeneAnnotator	CDS	804409	804648	.	+	0	ID=MGA_1326;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAYKNKKYLGSILLHSDNGNQYTSLDYISLCNDLQIIRSYSKPGTPHHNGKHESFHGRLKDETIRTCHIENINQCMEIA;locus_tag=LOCUS_13260;note=MGA_1326
sequence1	MetaGeneAnnotator	CDS	804806	805015	.	-	0	ID=MGA_1327;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYENQDEERFDYDYRLYVAFAENDLDANLIESIVKNTDFSNPIEIEFEYKHKSAGVIQYKTKCIVIIIG;locus_tag=LOCUS_13270;note=MGA_1327
sequence1	MetaGeneAnnotator	CDS	806253	806408	.	-	0	ID=MGA_1328;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKIDKAELVERVKNFMVHVASFESERENEILEEIKLFILENVTINVNYQI;locus_tag=LOCUS_13280;note=MGA_1328
sequence1	MetaGeneAnnotator	CDS	806582	806806	.	-	0	ID=MGA_1329;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKEFDQEIQKPIKFVFQENEVLNDGFVFVDSLYSSSKSLKTYDYMILNLFGVVKVKIKFDRNYNIGGSQFVIF;locus_tag=LOCUS_13290;note=MGA_1329
sequence1	MetaGeneAnnotator	CDS	807002	807223	.	-	0	ID=MGA_1330;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGYVEFIGPSIKIGKDESFYNHELPDFKLAISYSINGINDEHNQSLSEFCLELFNVYKELYMPKEEESHSQRK;locus_tag=LOCUS_13300;note=MGA_1330
sequence1	MetaGeneAnnotator	CDS	807338	807610	.	-	0	ID=MGA_1331;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKTINDKYFKAQFPSIDISYNKKSIYKTNNFAKENKNYLIVNNFYESDEDIKSFDLSNTKEYEMTRKMLLNNNEELNKFFLDTQFNRAN;locus_tag=LOCUS_13310;note=MGA_1331
sequence1	MetaGeneAnnotator	CDS	807710	808192	.	-	0	ID=MGA_1332;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEEDNEFLNKYNIQKFSKPENKDKLTIENKKQLTNDIEKLFNAKLLREKIDALKKVTKYKIILDEVSSVFEHVELVFNNNFQINSGEIAPGSYIGNVIVDYKVVTQYMGMNNIEKFKKSGTLKYTSTDSKSFKEVGDVMYKNIAKDMFISQETQKYVNLK;locus_tag=LOCUS_13320;note=MGA_1332
sequence1	MetaGeneAnnotator	CDS	808244	808405	.	-	0	ID=MGA_1333;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSVLATIGVVSSSSVSVIACGTKETKNNNQSKKDITQIVQDFQKDVEKI;locus_tag=LOCUS_13330;note=MGA_1333
sequence1	MetaGeneAnnotator	CDS	808634	808864	.	+	0	ID=MGA_1334;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNGYSLKEIALKFNSTTGSIGTIINKYKNTDIGDSKTRLPYKIDYSISQKANDLFVGILFDYNKELIKENDILKKQ;locus_tag=LOCUS_13340;note=MGA_1334
sequence1	MetaGeneAnnotator	CDS	808861	809085	.	+	0	ID=MGA_1335;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLQGQNQKEIVQQLLINTKSNRTMICKILNINRTSTYKKNKTLMNFLDDTRIMNLVISEIERNNFLSAYSAKR;locus_tag=LOCUS_13350;note=MGA_1335
sequence1	MetaGeneAnnotator	CDS	809422	809661	.	+	0	ID=MGA_1336;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAYKNKKYLGSILLHSDNGNQYTSLDYISLCNDLQIIRSYSKPGTPHHNGKHESFHGRLKDETIRTCHIENINQCMEIA;locus_tag=LOCUS_13360;note=MGA_1336
sequence1	MetaGeneAnnotator	CDS	809908	810168	.	-	0	ID=MGA_1337;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLININENTFKEKDIYFSINFYNENIINPKISINNTGLNWSFIRLTDTVNIKVFDNLNSMTLNLFGILKLKVKFDKNYSANDDFF;locus_tag=LOCUS_13370;note=MGA_1337
sequence1	MetaGeneAnnotator	CDS	810271	810513	.	-	0	ID=MGA_1338;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGPSIKIGTGEESYAHQLPDFKLAISYSMNGINDENYKTLADFSLKLFNVYKNIYDPIKKRPDYFYFNMNFNPNYIQKRV;locus_tag=LOCUS_13380;note=MGA_1338
sequence1	MetaGeneAnnotator	CDS	810646	810870	.	-	0	ID=MGA_1339;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKYDKKSIYKTEDFAQSNKNYLIINNLYKSDDDIVTFDLSKLEEKNKVDKIFLADENELNNFLLNDQFTALK;locus_tag=LOCUS_13390;note=MGA_1339
sequence1	MetaGeneAnnotator	CDS	811018	811212	.	-	0	ID=MGA_1340;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVDYKIVTQYKGVSDIEKFKQSGTLKYTSTESESFKKVGDEMNKNIAKDMFISEETQKYVNLK;locus_tag=LOCUS_13400;note=MGA_1340
sequence1	MetaGeneAnnotator	CDS	811552	811725	.	-	0	ID=MGA_1341;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSVLATIGVVSSSATSAVACGTKPENKPENKPEEPKKDITQIVQDFEQDVIKI;locus_tag=LOCUS_13410;note=MGA_1341
sequence1	MetaGeneAnnotator	CDS	812241	812639	.	-	0	ID=MGA_1342;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSQDQITTVQKTNEFNNASSIGNVKIKGVNIIIGTGENKYNHELPDFNLSITYNASNNDSQMIDYLSEFTSKEIIKEFHNFYGIDSNFKYPEFNSNEDYLMNIGDKNLISNMKKYYKNNPGDLGEGYLATVF;locus_tag=LOCUS_13420;note=MGA_1342
sequence1	MetaGeneAnnotator	CDS	813060	813764	.	-	0	ID=MGA_1343;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSMLAVFGITSSATVTVVACGTKSENKNPENKPEQPKEDLNKIIKDFKDEATNIYIDHIKNEVMQNLIGIQESEKKHLFIKKDKITAFSNKEKELTLKDKKDIEYDENLILNSTLLAQKLNELKKVNKYKVILDDIDFIFDGVEIIYNDNLKIKSGELSQGVYIGNFINEYKVNIKYKGKNSIEKFEIKDILKYTSTDDATFKLVGDNLVKNTEKDFLVSNEMRKYSNFE;locus_tag=LOCUS_13430;note=MGA_1343
sequence1	MetaGeneAnnotator	CDS	814001	814231	.	+	0	ID=MGA_1344;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNGYSLKEIALKFNSTTGSIGTIINKYKNTDIGDSKTRLPYKIDYSISQKANDLFVGILFDYNKELIKENDILKKQ;locus_tag=LOCUS_13440;note=MGA_1344
sequence1	MetaGeneAnnotator	CDS	814228	814452	.	+	0	ID=MGA_1345;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLQGQNQKEIVQQLLINTKSNRTMICKILNINRTSTYKKNKTLMNFLDDTRIMNLVISEIERNNFLSAYSAKR;locus_tag=LOCUS_13450;note=MGA_1345
sequence1	MetaGeneAnnotator	CDS	814789	815028	.	+	0	ID=MGA_1346;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAYKNKKYLGSILLHSDNGNQYTSLDYISLCNDLQIIRSYSKPGTPHHNGKHESFHGRLKDETIRTCHIENINQCMEIA;locus_tag=LOCUS_13460;note=MGA_1346
sequence1	MetaGeneAnnotator	CDS	815368	815517	.	+	0	ID=MGA_1347;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLFTYKGTIHNNKYKSLKHYITNDMTQENFKIVFLIENKKIKMSFIEQ;locus_tag=LOCUS_13470;note=MGA_1347
sequence1	MetaGeneAnnotator	CDS	815722	816177	.	-	0	ID=MGA_1348;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPDFKLIVTYSINGNNEQIQQPFSEFGMRLFDIYKQVYKPNANVAEKEERYGYSYVFGLYFDNYLFSKEQFATFQPKTNSDINEYLKKFDSVYYTRMKELLSKTKGFENIFKNKDIIFTIKATNENLSYEQQRGLAFLSRDDNNAYLILSK;locus_tag=LOCUS_13480;note=MGA_1348
sequence1	MetaGeneAnnotator	CDS	816733	817215	.	-	0	ID=MGA_1349;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEEKNEFLNKYNIQKFSKPENKDKLTSQNKQQLTNDVEKLFKSKLLEEKLSDLKKVSKYKVILDEIDSVFEHVELIFNDNFQINSGEIIPGVYIGNVIIDYKIITKYKGLNNIEKFIQSGTLKYTSTDNDTFKEVGEVMYKNIAKDMFTSQETKDSVILK;locus_tag=LOCUS_13490;note=MGA_1349
sequence1	MetaGeneAnnotator	CDS	817267	817428	.	-	0	ID=MGA_1350;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRLLSFLTAFCFISSSTIGVAACSIKSKNNSENSKKDITQIVQDFEQDVTKI;locus_tag=LOCUS_13500;note=MGA_1350
sequence1	MetaGeneAnnotator	CDS	817610	817807	.	+	0	ID=MGA_1351;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKLGQKFTKHKEEFKVNIILYVNENDVTKAYKSTIINGLPKKILHQISLLECLQNLNFYFKKNN;locus_tag=LOCUS_13510;note=MGA_1351
sequence1	MetaGeneAnnotator	CDS	818193	818480	.	-	0	ID=MGA_1352;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANQDVYRTYLFGLNYSENLLDIENGKNGNARINNKIEFVLKDNDISFIPAKAGAKDKNPDSISLKIGYLAVNLKYEKLFKLLESQESKVFIKFI;locus_tag=LOCUS_13520;note=MGA_1352
sequence1	MetaGeneAnnotator	CDS	818547	818942	.	-	0	ID=MGA_1353;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSQEQINTVQKTNEFNNASSIGNVKIKGINIIIGTGENKYNHELPDFNLSLTYNVSNNEADKINNLSEFTSKIQIKGLHDFYGIDSNFKYPEFNSNEDYLMSIGNKEIIRQIKENLKNINYPYNGYLDPLI;locus_tag=LOCUS_13530;note=MGA_1353
sequence1	MetaGeneAnnotator	CDS	819363	820250	.	-	0	ID=MGA_1354;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNYLIYLKVKNQKYLLNLYSLKIILLKKSQKFDFFFFFYNHWYQFELFICILIALTKGGKMKKLLSMLAVFGITSSATVTVVACGTKTENKNSENKPEQPKDDLNKIIKDFQNEATNIYINHIKNEVMQNLIGIQESEKKHLFIKKDKITAFSNKEKELTLKDKKDIEYDENLILNSTLLAQKLNELKKVNKYKVILDDIDSIFDGVEIIYNDNLKIKSGELSQGVYIGNFINEYKVNIKYKGKNSKEKFEIKDILKYTSTDSETFKLVGDNLVKNIEKDFLVSNEMRKYSNFE;locus_tag=LOCUS_13540;note=MGA_1354
sequence1	MetaGeneAnnotator	CDS	820189	820476	.	-	0	ID=MGA_1355;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSTNALGFVHFIFENHSKFLKDFSSSSNGTYYNNKVDPTINENDISLIPTKGGSKSNSPDLITFKLGYLAVNFKYEKLFNLSESQKSKIFIKFV;locus_tag=LOCUS_13550;note=MGA_1355
sequence1	MetaGeneAnnotator	CDS	820543	820947	.	-	0	ID=MGA_1356;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLTDQQTNLIEKSNEYISADSIGNFKLKGATITIGSGINKYIHELPDFNLSVTYNASSKVEEKVDFLSEFTSKVIIKGMHNFYGIDSNFKYPEFNSDQDYLMNIGNKEIISNIKKKFSNEYQLKFPGTFSQVF;locus_tag=LOCUS_13560;note=MGA_1356
sequence1	MetaGeneAnnotator	CDS	820990	821184	.	-	0	ID=MGA_1357;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDSSFKNNLLNVFESKSAKSFEDYTKSDQNSEKIFKTIFRNDPNSESTKQILKELYFTNNNMDK;locus_tag=LOCUS_13570;note=MGA_1357
sequence1	MetaGeneAnnotator	CDS	821362	822066	.	-	0	ID=MGA_1358;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKSLSMLAVFGIISSTTVTVVACGTKTENKNSENKPEQPKEDLNQIIKDYQDEVTNIYIDHIKKEVMQNLIGVQESEKKHLFIKKDKIKDFTNKEKELTLKDKKDIENDENLILNSTLLAQKLNELKKVNKYKVILDDIDSIFDGVEIIYNDNLKIKSGELSQGVYIGNFINEYKINIRYKGKNSIEKFEIKDILKYTSTDSEAFKLAADNLAKNMEKDFLVSSEMKKYSNFE;locus_tag=LOCUS_13580;note=MGA_1358
sequence1	MetaGeneAnnotator	CDS	822577	822738	.	-	0	ID=MGA_1359;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKINSALTDFKDIYYANLKESLDKKSLNNNMFKEKYIHFSIKNVDVNLVNNQV;locus_tag=LOCUS_13590;note=MGA_1359
sequence1	MetaGeneAnnotator	CDS	822769	823017	.	-	0	ID=MGA_1360;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGYIDFIGPSIKIGKEESSYNHQMPDFKLAISYSMNGITDQNYKSIIDFSLKLFNVYQNTYEINLKNIRYSATSVYFKKTKI;locus_tag=LOCUS_13600;note=MGA_1360
sequence1	MetaGeneAnnotator	CDS	823132	823353	.	-	0	ID=MGA_1361;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEISYDKKSIYKTDDFAIQNKDYLVINNLNQSDNDIIGFDMRNAEQYKKFQKIIAQDEQESKSFLVDQFNYSN;locus_tag=LOCUS_13610;note=MGA_1361
sequence1	MetaGeneAnnotator	CDS	823501	823983	.	-	0	ID=MGA_1362;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEESNEFLNKYNIQKFSKPENKDKLTNENKKQLTNDVEKLFKVKLLEEKLNELKKVNKYKIILDEVDSVFENVELVFNDNFQIKSGEIVSGSYIGNVIVDYKVVTKYKGLADVEKFKQSGTLKYTSTESESFKKVGDVMYKNIAKDMFISKDTEKYVNLK;locus_tag=LOCUS_13620;note=MGA_1362
sequence1	MetaGeneAnnotator	CDS	824035	824208	.	-	0	ID=MGA_1363;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSILSVFAITSSATVTVVACGTKTESKNENKPEEPKKDITKIVQDFEQEVSKI;locus_tag=LOCUS_13630;note=MGA_1363
sequence1	MetaGeneAnnotator	CDS	824447	824677	.	+	0	ID=MGA_1364;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNGYSLKEIALKFNSTTGSIGTIINKYKNTDIGDSKTRLPYKIDYSISQKANDLFVGILFDYNKELIKENDILKKQ;locus_tag=LOCUS_13640;note=MGA_1364
sequence1	MetaGeneAnnotator	CDS	824674	824898	.	+	0	ID=MGA_1365;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLQGQNQKEIVQQLLINTKSNRTMICKILNINRTSTYKKNKTLMNFLDDTRIMNLVISEIERNNFLSAYSAKR;locus_tag=LOCUS_13650;note=MGA_1365
sequence1	MetaGeneAnnotator	CDS	825235	825474	.	+	0	ID=MGA_1366;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAYKNKKYLGSILLHSDNGNQYTSLDYISLCNDLQIIRSYSKPGTPHHNGKHESFHGRLKDETIRTCHIENINQCMEIA;locus_tag=LOCUS_13660;note=MGA_1366
sequence1	MetaGeneAnnotator	CDS	825617	825844	.	-	0	ID=MGA_1367;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNYKYSSNNGIKNNKLDYKLENDGLNLNPAVSGEKNRESDSITFKLGYLAVNFKYEKLFKLKDGQKTKIFVKFI;locus_tag=LOCUS_13670;note=MGA_1367
sequence1	MetaGeneAnnotator	CDS	825902	826057	.	-	0	ID=MGA_1368;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIGNKEIIESIKKGVYKSFDNGNVSHMFHRFVNDQIENSKAKKIFELSKL;locus_tag=LOCUS_13680;note=MGA_1368
sequence1	MetaGeneAnnotator	CDS	826406	826753	.	-	0	ID=MGA_1369;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGYSDLITRSEYGDNFYNKSENKLKIINFIKENYFKNFENLKMDFTKDKSLITDSSSEISLAMLFEKKDVNKFTTFNDNSSSEKIFKTIFRTNAESSESKKTLKDLYFNDKNMTQ;locus_tag=LOCUS_13690;note=MGA_1369
sequence1	MetaGeneAnnotator	CDS	826787	827488	.	-	0	ID=MGA_1370;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSVLATVGVISSSVTGVVACGAKKETPKVEKPEEPKQDIAQVVQKFEQDVTKIYSEHIKIEVLQNLIGLQETEKNYSFIKKDNILKFSNKETEITAKNKNEINSDESKILKLDLLAEKLNELKKVNEYKVILDSVDSVYNNFQVIFDNNFKIRSGVINQDAYIGNFINDYKITVNYKGINDIEKYEIKDTFKYTSTESQAFKLSSDNLIKNVEKDILFSNEMKEFSNIE;locus_tag=LOCUS_13700;note=MGA_1370
sequence1	MetaGeneAnnotator	CDS	828034	828786	.	-	0	ID=MGA_1371;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIKNKNIALFIDFDNFNNEQHFKILIEELEQMGNILYKGAFYSDTKDKEVKEKATNYGITDFIVEPSYSKGKNTVDIRMALDVQDMLFYKEYIDCFCLATNDLDFAPILKRLKLKNKTVIGAGLSGTNQLYKKICDRFISVDTIEQAIGNENNKKSQTVKNKSNSINLNDKKVKELIELVNNIMDNNDKDDQGYIQFSVVIENLYKKLPDFNPKNYGASNNKTSIFFKDILKEVYSMKIESKTYFIKLK;locus_tag=LOCUS_13710;note=MGA_1371
sequence1	MetaGeneAnnotator	CDS	829109	829324	.	-	0	ID=MGA_1372;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRFLKNSEYITMVESLFSDDETFIDNSKANIHLFNNLNEMHFDINNLLKQNNKLSIKAFSINDNKFEFKTG;locus_tag=LOCUS_13720;note=MGA_1372
sequence1	MetaGeneAnnotator	CDS	829391	829927	.	-	0	ID=MGA_1373;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFQDCEKSNFIEEFEKTKNKRGFKTVEVLKNKTNEHDIVLTDVQMKLAKEVKTFVQKVEDNKKLVILEGKAGTGKTIFLYSLFLYFKNLKKYENNTFIMARNPTYVKNINLFLEQNYKFNRASSVETFKEAKDQIILFDEAQRLTMNQVTNAIKVAKTVIICLDEQQKINAKDNVTKQ;locus_tag=LOCUS_13730;note=MGA_1373
sequence1	MetaGeneAnnotator	CDS	830000	830386	.	-	0	ID=MGA_1374;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQIAKVIQKSNLNTNVKVYLEYKFDFCESRCDVILTGNVKGVDKVLVIELKQHSTFNRVSLGNDIQLLTGKTGRGYLGSQIKRYINFFETVVQMQNHEKEFEINGVAYLHNLKRSTVIKKELQLNKND;locus_tag=LOCUS_13740;note=MGA_1374
sequence1	MetaGeneAnnotator	CDS	832548	832856	.	-	0	ID=MGA_1375;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDYGLELLILVTNCRYNENDLNIKKIDRRAFRDFFSFNMFKIIVISLCIFGIYDTIKFKKESLLIFTSVILGFTTISLIINCLVLTKNLFNILKREDINKPK;locus_tag=LOCUS_13750;note=MGA_1375
sequence1	MetaGeneAnnotator	CDS	833219	833386	.	+	0	ID=MGA_1376;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANGILIPNHQAAAQNPAAAAASAIAPHPNLPATKFISSSRELNQVFDIFFLIFS;locus_tag=LOCUS_13760;note=MGA_1376
sequence1	MetaGeneAnnotator	CDS	833350	833523	.	-	0	ID=MGA_1377;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSFKNEQKSLEEMIKYFENNVDGFKENLDKQTSNNSIYNLLNLDSYEKIKKNISKT;locus_tag=LOCUS_13770;note=MGA_1377
sequence1	MetaGeneAnnotator	CDS	834550	834789	.	-	0	ID=MGA_1378;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRNEDIIDFEQDDLENFEIYSKVTSKELYYSIAYYIKQNYKSSLFYANEKVKYKIVNDFVRLDKSIKNITYKFLSTYEE;locus_tag=LOCUS_13780;note=MGA_1378
sequence1	MetaGeneAnnotator	CDS	834883	835311	.	-	0	ID=MGA_1379;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKCVENDDEHYVKEFYFLNKNIQFLINTTLIGNNREIIFSLIYRGIIKSEIEVISFLNILIKIISISEIIYLFYDLILNELYKEEDIKTVMNFLKKNYNYIFSGIVIYMNEQYSIKKENDIISKNNIHKIIERKIIKTDIE;locus_tag=LOCUS_13790;note=MGA_1379
sequence1	MetaGeneAnnotator	CDS	835654	836331	.	-	0	ID=MGA_1380;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEFVKENNTTKFIFIDSPESEILNIDFEEKYFDLILLKKASKKNIKDIIIKSKILKDNLNNVFIKKIIKIGNFRITNNFVEKFTHFENTFKNMETLKSLFKINDLICIFYLKYVDELFYENIIKSEIEKSKLYNNINFFDLELKEYEEYGPLGNKQKKQVYETKNLPKNIYSDYLFGNLLLEENNFLNLKNNTDIFFDIVENQENYSFLSGLSFNVSDIIKKYYQ;locus_tag=LOCUS_13800;note=MGA_1380
sequence1	MetaGeneAnnotator	CDS	836719	836868	.	-	0	ID=MGA_1381;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYIEKSSHYKKYFEEEYKKILIKGDYGSGKTTSLKDYIKDSEVTYKEI;locus_tag=LOCUS_13810;note=MGA_1381
sequence1	MetaGeneAnnotator	CDS	836905	837177	.	-	0	ID=MGA_1382;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNDNHLIHSICKDIALQFSSKFRILELGNIELIINYFYFKQNEMPNINYKIKKIVIKEINSSDVRNHELYKITDEIIKKIKLDIEKNST;locus_tag=LOCUS_13820;note=MGA_1382
sequence1	MetaGeneAnnotator	CDS	837547	837738	.	-	0	ID=MGA_1383;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTENFTIESAIKLIGENYSRNVIKNKGDFNQENKNKDLFFSICKTLLGYYIEFSSKFDDQIAM;locus_tag=LOCUS_13830;note=MGA_1383
sequence1	MetaGeneAnnotator	CDS	838158	838379	.	-	0	ID=MGA_1384;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKEGANYAILVATSTHEKFKVPFLVSQKNKNILIADPDSFVFVTSMVRKLILIESNLRDKTDNNETFEQFNK;locus_tag=LOCUS_13840;note=MGA_1384
sequence1	MetaGeneAnnotator	CDS	838575	839264	.	-	0	ID=MGA_1385;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQQLLINCPKCHQDFDLLEIGKVQNRDTESFLEYKKHLEEEIRGQIEKDISQNLEKNFNFRLESKIKEIDLEKNIELSKLNTIIENLKKDMAYIEENKQKESQMLATQLESKITQEKQSEIDSLKEKIVKLESDAKNIDQLNKSELEKRQLELTSNFEIEKRKFELDLSKYSSQLENYKNEKQLELNQKELELKEKYESIISTKEIEITDLKIANATNRILNNKTKGEN;locus_tag=LOCUS_13850;note=MGA_1385
sequence1	MetaGeneAnnotator	CDS	841110	841265	.	-	0	ID=MGA_1386;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPFESTMKIIKIISELQSLYIDSENNVIVHGDISPVNAIFNNKLLPKKLID;locus_tag=LOCUS_13860;note=MGA_1386
sequence1	MetaGeneAnnotator	CDS	841936	842094	.	-	0	ID=MGA_1387;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFIIKKVEIKLYFFKFHSVSKFNSESLDKILNKQRGKNFNPLKNGLFENTN;locus_tag=LOCUS_13870;note=MGA_1387
sequence1	MetaGeneAnnotator	CDS	842099	842278	.	-	0	ID=MGA_1388;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYDNLDSDYLLTLAFSNFSSNGENELQRIRGAAPSLLLKIKDDKITIEDELLPAQVMRR;locus_tag=LOCUS_13880;note=MGA_1388
sequence1	MetaGeneAnnotator	CDS	842309	842491	.	-	0	ID=MGA_1389;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFTTTHGYYNMNLAPGLDKNDSLHGFTAKESIFGEMKPINDDGLILYSHPENETINGEVV;locus_tag=LOCUS_13890;note=MGA_1389
sequence1	MetaGeneAnnotator	CDS	842564	842752	.	-	0	ID=MGA_1390;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFEGNTGLLTGKEGERLPEYTGGFEDYPENYDFERSNMANSAIGIAKLNLQEGKVEFLNPL;locus_tag=LOCUS_13900;note=MGA_1390
sequence1	MetaGeneAnnotator	CDS	842804	842938	.	-	0	ID=MGA_1391;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLNFDQDIPKFNTPVFHKIIAQPDGDLYQTHQAAEAQGYAKQK;locus_tag=LOCUS_13910;note=MGA_1391
sequence1	MetaGeneAnnotator	CDS	843879	844433	.	-	0	ID=MGA_1392;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRFRALSENELFKGHLTANLVITNSTTVNPEPEKLANYITQSDIGFIYNPNENKIRETLMKENPKLKNYMFSLTNFKYSEVTLVGLYEFAGQEETINYRSGLEFEDQFRSRDLFVEAYNSTQYDSQTFKVVHYPVFGMNDFLSHFKFFSFEFSALSAIEDKNSLITQYHNGIVKYQINSGPYKL;locus_tag=LOCUS_13920;note=MGA_1392
sequence1	MetaGeneAnnotator	CDS	844491	844775	.	-	0	ID=MGA_1393;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNILLGLVASVGLTSPSTASIINSTNSAHILSIDSSEKVDLTKIKIETTYVDVKNVKLETEEDMLKFLIYEIMDSADNDDVYDALYDFLENRNY;locus_tag=LOCUS_13930;note=MGA_1393
sequence1	MetaGeneAnnotator	CDS	844927	845274	.	-	0	ID=MGA_1394;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEYLIHVDAKKKDFLFNKYKNIEPTVFGDNKIFVINENNLENKDYNFICETVLKNNKNSYVEIIDQGAKMFFCKSNCSINAFERMDTHDSLVIKGGGNEKTAQGKILERSKIKN;locus_tag=LOCUS_13940;note=MGA_1394
sequence1	MetaGeneAnnotator	CDS	845785	846210	.	-	0	ID=MGA_1395;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKNFKGYEQFEINTKVTEFVNKEKFTLMYLQETVFFPESAGQTGDLGVIEFNNNSYKILGLAISEDKVVHKTELIKDIQVGSEVVAKIDLKHRELVSQNHSAAHLLFDTIRELFPTSLGKGYFNDENGLRIDMQLDEKVD;locus_tag=LOCUS_13950;note=WP_010920386.1 alanine--tRNA ligase (Caulobacter vibrioides) [pid:33.3%25%2C q_cov:92.2%25%2C s_cov:16.0%25%2C Eval:4.4e-12%2C partial hit],MGA_1395
sequence1	MetaGeneAnnotator	CDS	846352	846606	.	-	0	ID=MGA_1396;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPTSSSSYYTTFKWKDYNESLKKMTINNQNNILQFNFGISDTVSRTTKSYYMISNTTTYKQLRVNLGFFRYYFGFTGALFYCNF;locus_tag=LOCUS_13960;note=MGA_1396
sequence1	MetaGeneAnnotator	CDS	846619	846825	.	-	0	ID=MGA_1397;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIPFTYKSQYTTVSSNNISKTSVKAKEYLTHLAQEFHNLAEIVKIDDSTALSHDNALGQTKTTVKNPL;locus_tag=LOCUS_13970;note=MGA_1397
sequence1	MetaGeneAnnotator	CDS	847042	847233	.	-	0	ID=MGA_1398;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEIEENSIESNGNDKAEIIFEGTNFLDNLVIEKEFQTDSNNLNYAQANVINNILFRANLEDN;locus_tag=LOCUS_13980;note=MGA_1398
sequence1	MetaGeneAnnotator	CDS	847492	848028	.	-	0	ID=MGA_1399;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLILFSACAITTSSTLSIVACGEEPVTEIKDDKDKDIDKELLENLKRDISSVFQNHFIQYKNAFVNDFTNDYKFFSKNNLKSLFEGKEDKELNLSISSLNNVDQLKNDLQNFVNLNNLENNLNLLKTNTINNYSIFLSKVQNVYANYYLGKEITIKKQNVEDKIVYTGEFEVNFN;locus_tag=LOCUS_13990;note=MGA_1399
sequence1	MetaGeneAnnotator	CDS	848190	848441	.	-	0	ID=MGA_1400;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFTNSRYNTFNYNDYNESLKKVVINNENDILKIQEYSSNSYVYKTNSNYLISDASTAKDVLVNLGYFKYKFSHKGALFFSKV;locus_tag=LOCUS_14000;note=MGA_1400
sequence1	MetaGeneAnnotator	CDS	848505	848702	.	-	0	ID=MGA_1401;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQLVYKDNQPINLAPVVIPFTYKSQYTTVSSDKIGETSVSAKKYLTTLLEKFHNVTKIAKSTDSN;locus_tag=LOCUS_14010;note=MGA_1401
sequence1	MetaGeneAnnotator	CDS	848865	849116	.	-	0	ID=MGA_1402;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKCFSKYFKIFQTEQNVNSFFEEIKKYSENTKFNLQSSNATLIENLKVANEFKYTNSGAYLSGEELEIFNNLVFKANLETDN;locus_tag=LOCUS_14020;note=MGA_1402
sequence1	MetaGeneAnnotator	CDS	849302	849832	.	-	0	ID=MGA_1403;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRLLMLFSICAIITGTSSSIVACGTKSITDIYEVDQDLLKMLKNEANLKYDSHFIKNNIPFVQTFDKADELYEFFNSTNLANLYTNSQDGEIKISINSLANLDSFNKDLQKHLNLEDLKTDINSLKNSDKNNYSIFLSKVNSVYANYEFGPDFIIRRQIIDDNITYTGNFEVNFK;locus_tag=LOCUS_14030;note=MGA_1403
sequence1	MetaGeneAnnotator	CDS	850490	850849	.	-	0	ID=MGA_1404;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=METTVINFQDFKKKFKKTQIGPIDLEIKAGKITALCGRSGSGKSVILNSIIGAIKKYKGNIFFNSVNRRKRRSYLQNSLFGFYTQMDFSLYDISAYSFLKLICLSFNIEKNKIKEEIEY;locus_tag=LOCUS_14040;note=WP_011183360.1 ATP-binding cassette domain-containing protein (Mesoplasma florum) [pid:57.1%25%2C q_cov:76.5%25%2C s_cov:9.5%25%2C Eval:5.4e-23%2C partial hit],internal stop codon at [850250:850252](-)%2C[850337:850339](-)%2C[850469:850471](-)%2C[850490:850492](-),MGA_1404
sequence1	MetaGeneAnnotator	CDS	851185	851616	.	-	0	ID=MGA_1405;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDNMKTLISAQTDSEKKLILTDLYDFTNSLLNYYSNSKSFQKQYYKLYGDLLNFETGEISLVSDPSVKADFSKAYLIDSYKLHFVDGINSVGFIRDSNANELYNDILYDPLYIAIRVLEEYFINYTSSYVNLTNYTLDTSRSE;locus_tag=LOCUS_14050;note=WP_011183358.1 ABC transporter permease (Mesoplasma florum) [pid:28.5%25%2C q_cov:93.0%25%2C s_cov:23.2%25%2C Eval:7.0e-08%2C partial hit],internal stop codon at [851032:851034](-)%2C[851071:851073](-)%2C[851083:851085](-)%2C[851182:851184](-)%2C[851185:851187](-)%2C[851710:851712](-)%2C[851758:851760](-)%2C[851830:851832](-),MGA_1405
sequence1	MetaGeneAnnotator	CDS	851830	852198	.	-	0	ID=MGA_1406;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIINMTLVHMIYLFFISYALINFFSLLSICFKNQITTIIITLILSLSFIASLPYQFIISSEKNRNLYFTSTLGNTYVEKIDEIYKAFDFQQRVTNKKIKYKHLSNYLNNFFISNKFSKESTQ;locus_tag=LOCUS_14060;note=MGA_1406
sequence1	MetaGeneAnnotator	CDS	852880	853128	.	-	0	ID=MGA_1407;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQISYQDGQPINLGPVIIPFTYKSSYTTISSNDIDNTSIKAKEYLTNLISEFHKQTKLVKPTDSKLPDNSLGMTSTTKNSLL;locus_tag=LOCUS_14070;note=MGA_1407
sequence1	MetaGeneAnnotator	CDS	853250	853510	.	+	0	ID=MGA_1408;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYDSLFEFKLKNSFQLSAVKSALNIKLLNVSNSFPERYEFELVYLNSLAIVNSSNKFFGSYVILNLVLFVYSFISSKSASILSITL;locus_tag=LOCUS_14080;note=MGA_1408
sequence1	MetaGeneAnnotator	CDS	853729	854262	.	-	0	ID=MGA_1409;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLMLLSISIVVTSTTSSIVACGTKPNSNNSEVDQDLLRMLKNDANLRFDNHFIKNNTPFVDTFENSKKFSFFKKENLEALYTNPNDGEMTLPINSLQNLDNLRSDMQNFVNLKDLEDDINSLKKDEKNNYSVFLSNVNNVYVGYDFGQDFTIKKQTQSSNGKTTYSGDFEVNFK;locus_tag=LOCUS_14090;note=MGA_1409
sequence1	MetaGeneAnnotator	CDS	854570	854734	.	-	0	ID=MGA_1410;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVNGNNSSFVYKIKIESALYVSDNTTEKTVEVNLGYFKYKFSHKGAIFSADAS;locus_tag=LOCUS_14100;note=MGA_1410
sequence1	MetaGeneAnnotator	CDS	854840	855061	.	-	0	ID=MGA_1411;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSPISLGQIIIPYTYKTSYTTISSNDIVNTSGKAKEYLNALLNEFRNQTAIKATDSQVLRNTLAFTASVKTPL;locus_tag=LOCUS_14110;note=MGA_1411
sequence1	MetaGeneAnnotator	CDS	855242	855445	.	-	0	ID=MGA_1412;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDVFLNEILNLNVGSKDLTFEYEKNTLVDDFKVVNEFKYTNSGAYLSGTELEKFNDLVFKVKKTDSN;locus_tag=LOCUS_14120;note=MGA_1412
sequence1	MetaGeneAnnotator	CDS	855716	856234	.	-	0	ID=MGA_1413;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLMLFSISAIVTGTSSSIVACGTKPDPGGKDINQNLLNKLKKDANQKFDNHFIKNSIPFISNFENANKKYAFFNETNLGSLFENSSQTELNLKTNNLKNLEGLKSDLQNSVNLSDLETSINSLKKSDENNYSVFLSNVANVYAGYDFGSDFLIQKSSDESGSITYSGEF;locus_tag=LOCUS_14130;note=MGA_1413
sequence1	MetaGeneAnnotator	CDS	856890	857249	.	-	0	ID=MGA_1414;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKIVINFQNFEKKFKRTKIGPIDLQINEGNITALCGRSGSGKSVILNSIIGAIKKYKGNIFFADENRRKRKSYLQNSLFGFYTQMDFSLYDISAYSFLKLICLSFNIEKDKIKEEIEY;locus_tag=LOCUS_14140;note=WP_011387452.1 ABC transporter ATP-binding protein (Mycoplasma capricolum) [pid:52.9%25%2C q_cov:85.7%25%2C s_cov:16.7%25%2C Eval:3.2e-23%2C partial hit],internal stop codon at [856650:856652](-)%2C[856737:856739](-)%2C[856869:856871](-)%2C[856890:856892](-),MGA_1414
sequence1	MetaGeneAnnotator	CDS	857249	857398	.	-	0	ID=MGA_1415;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNLDDQNIIKSDTYNNFIKPYYFAIIQLVIAVINNVICLNIYKKKDFV;locus_tag=LOCUS_14150;note=MGA_1415
sequence1	MetaGeneAnnotator	CDS	857585	857965	.	-	0	ID=MGA_1416;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILTDLYNFANYLSGHYATSQEFQNQYYKLYGNLLDIKTGTLSLADNEDVKIDFSSSYLIDSYKLHFVDGINSIGFIRDSNAKKLYNEVLYNPLYIAIRVLEEYFINYTSNYINLTTYTLDTSRSE;locus_tag=LOCUS_14160;note=MGA_1416
sequence1	MetaGeneAnnotator	CDS	858230	858793	.	-	0	ID=MGA_1417;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRLVFLFMYSKIEDKTIYIISTQSISRSRLFIVQNVTLFLYATFTILINFLIINGFALMSKLDDKVILRITVVHMLYLLLITYALISFFSLLSICFKNQITTIIVTLILSLSFIASLPYQFIVSSEKNKNLYFTSSTGNSYVEKIDEIYKTFDFQQRVTNKKIKYKYLSNYLNDFFITNKFSKNNSD;locus_tag=LOCUS_14170;note=MGA_1417
sequence1	MetaGeneAnnotator	CDS	858806	858979	.	-	0	ID=MGA_1418;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKIDLKLIFFDKASAIIAFIALVLTALFSLTLFILKDTGQFVIYYNYYFLFISGII;locus_tag=LOCUS_14180;note=MGA_1418
sequence1	MetaGeneAnnotator	CDS	859422	859916	.	+	0	ID=MGA_1419;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSVYNSIMYFFDFNYKNDYKNINKESVLYYFMHGEFKKNLDKEERKLIYPFGINNSQKRAVENVFKSNISIIQGPPGTGKTQTILNIISNILLKNQTVAVVSNNNSAIENVFNKLNPNINVDNQNEEKLENISFLTSFLGSFEKNKKYFSQENKEEFERFRKN;locus_tag=LOCUS_14190;note=WP_164979579.1 AAA domain-containing protein (Blautia faecicola) [pid:46.9%25%2C q_cov:68.9%25%2C s_cov:11.2%25%2C Eval:4.6e-21%2C partial hit],MGA_1419
sequence1	MetaGeneAnnotator	CDS	860379	860753	.	+	0	ID=MGA_1420;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILLSKEILYKHIYNNYLTNLTIDLNAENFYKNEQKMKQIFNQRPIILSTIFSIINAKPPTLLFDYLIIDEASQTDMLASVAAMACAKNIVIVGDLKQLPQVDSPIYEQYFKKNVAPVEKGYTF;locus_tag=LOCUS_14200;note=WP_164979579.1 AAA domain-containing protein (Blautia faecicola) [pid:50.8%25%2C q_cov:50.8%25%2C s_cov:6.9%25%2C Eval:4.2e-12%2C partial hit],internal stop codon at [860751:860753](+),MGA_1420
sequence1	MetaGeneAnnotator	CDS	862766	863239	.	+	0	ID=MGA_1421;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDDKQYKQDLLEIYETAKKAIGKTLRELANNNIDKIRYFDNKDKVKHFLQQAIFNIPLLSKVEYTFEDLQLELKPVALKRNKYDELIVKERLLLNDIYYDEIVNETFKDSKFINRNQLLLIITYVHDYEKDFLDFKIHDAFIIDISTQKEFYLIVND;locus_tag=LOCUS_14210;note=MGA_1421
sequence1	MetaGeneAnnotator	CDS	863282	864097	.	+	0	ID=MGA_1422;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEGFTKILSASTRSQSRIDLKKQPYSNVLARFRSYSFNTNFLKEIISRHKNKVEYINEIFEEREIKDIVEFKNEQIQEYMTSIIGTDISNYTQSKANQKHQMAFENFLKENNSELYDFLKITNFKLTHKLTQNSNLQEQITTNYELDPFEIMNDEFEDSTFYQDIILKNYLVIMIEKSTNKILNFKLFNLSEQDIKNSQLVFYNTRKEIERLIKEDKLNKEEPNFAKTKDNLSISLRKSKKNEYAIYKVNENEFKLPAYEFVINKNVIFK;locus_tag=LOCUS_14220;note=MGA_1422
sequence1	MetaGeneAnnotator	CDS	864165	865316	.	-	0	ID=MGA_1423;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLGLLGAVGLVATTSATVVACGQKVETVSLTATKLSAETVVKSKKITADGTITFKLAEKSVLTVKVKEKSQKAGEVTIIISTTADKLTDKEVKETIDVMHKAKDASKSKSTKAAEPVKVASVEVKIGKKGASTAKVKLDTVDLSSFKATNDTTDAQVIDALKAVKGLDKLTSSDITITKTKATTSATGSIKIDAKSTSTIVEGTKTLVIDKLEAPAELVDLSTVNLGSFKATNDTTDAQVIDALKAVKGLEKLTTSDVTITKTKATTSAAGSIKIDAKSDSKIVKGTKTLEIAKLEAPATLVDLSTVNLGSFKATNDTTDAQIVDALKAVKGLEKLTADDVSITKTKATKEATGSIKIDASLDSKIVKGAKTLTIDKLSA;locus_tag=LOCUS_14230;note=MGA_1423
sequence1	MetaGeneAnnotator	CDS	865628	866506	.	-	0	ID=MGA_1424;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLGLLGAVGLVATTSATVVACGQKVETVSLTATKLSAETVVKSKKITADGTITFKLAEKSVLTVTVKEKSQKAGEVTIIVSTTADKLTDKEVKETVDVMHKAKDASKSTKATEPEKVASVEVKIGKKADAPAKVKLDSVDLSSFKATNDTSDTQVIDALKAVKGLEKISASDIKFTKTPATTSAEGSIKIDASSDSTIVEGSKTLVIAKLALVDLATVDLGSFKATNDTTNDQVITALKAVKGLEKISTSDVTITKTPATASAEGSIKIDAISTSTIVKGTKTLVIAKL;locus_tag=LOCUS_14240;note=MGA_1424
sequence1	MetaGeneAnnotator	CDS	866819	867460	.	-	0	ID=MGA_1425;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLGLLGAAGLVATTSATVVACGQKVETVSLTATKLSAETVVKSKKITADGTITFKLAENSVLTVTVKEKSQKAGEVTIIVSTTADKLTDKEVKETVDVMHKAKDASKSTKATEPEKVASVEVKIGKKADAPAKVKLDSVDLSSFKATNDTSDTQVIDALKAVKGLEKLTADDVTITKKAATAEAAGEIKIEAKSTSTIVEGSKTLVIDKL;locus_tag=LOCUS_14250;note=MGA_1425
sequence1	MetaGeneAnnotator	CDS	867662	867937	.	-	0	ID=MGA_1426;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGASLFILIFIISNKVKDKITLNRLKKDKKLNENLEEMSVVEIQNENELLSEEIINMQKEIEKLEENVEVLSDQVEELEEQVEILEEKKEE;locus_tag=LOCUS_14260;note=MGA_1426
sequence1	MetaGeneAnnotator	CDS	868324	868545	.	-	0	ID=MGA_1427;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCIEGKSNSKIQNKTFNKKIYEYSKEGKILSSYQFKGYKDETLELMDLRELNNFYEDNIKKRTEQLTKICCDI;locus_tag=LOCUS_14270;note=MGA_1427
sequence1	MetaGeneAnnotator	CDS	868639	869946	.	-	0	ID=MGA_1428;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPLRDRLNNKLIDGQQRLTTCLIILRQIYNVYLMKDYKIPDVLYNLFVLDQYDENAISKTFKRIDTNSDFRTFNNIIKGEQIQETTTSVFTNSVAVFNIIKDFNEAGLNDLLKKIYEQLILSVTTDHISNEYTLFENLNTKSLQLSTMDLIKNFLFMHIDQQIVDKHEQQLQFTFEEEITSKFKDFKNPTSKMDSFINVFLRLKEKQYATKSAFESFKETLISDFINNRNLKSFEESRKLFIDLGKYIDMYISVSDSNSFNKADSLTYRFKDILTMLEGREIYYPLLMKILINFDYENNKTNKEITKQIRRVFFEIEKYEVRLQVSNYKGQSLSQYIDFNILKELGNGIITPDFIRKLFIGEHEDESNNRISLERFRNSLREYDISNKIATLIGYRIENYLSNNKDFFGDDYNYIDTKYEKRTLEHIIPQKPNEE;locus_tag=LOCUS_14280;note=WP_011183202.1 DUF262 domain-containing protein (Mesoplasma florum) [pid:24.7%25%2C q_cov:96.8%25%2C s_cov:55.7%25%2C Eval:1.3e-21%2C partial hit],internal stop codon at [868579:868581](-)%2C[868618:868620](-)%2C[868639:868641](-)%2C[870034:870036](-),MGA_1428
sequence1	MetaGeneAnnotator	CDS	870909	871424	.	-	0	ID=MGA_1429;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDIENFINDSDDIEDVSKEFNINKQLKKILKVNYSIKKYEKEAKNCSPNNTPSRRKMYKENPKVFQVIKGEYRYLSFVRTITTKQDRHPNAGIVVLKETEIIKELEKTGKSNYRFLTPRETFLLMGFTEEDFEKATVFNQRKDILYRQAGNSIVVNVLVALFNNMMKEEKN;locus_tag=LOCUS_14290;note=WP_011183201.1 DNA (cytosine-5-)-methyltransferase (Mesoplasma florum) [pid:40.1%25%2C q_cov:86.5%25%2C s_cov:38.9%25%2C Eval:4.1e-26%2C partial hit],internal stop codon at [871551:871553](-)%2C[871668:871670](-),MGA_1429
sequence1	MetaGeneAnnotator	CDS	872043	872162	.	-	0	ID=MGA_1430;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKLRVFETFAGIGAQHKALEILKKNIVGFDYEIAGTSE;locus_tag=LOCUS_14300;note=WP_011183201.1 DNA (cytosine-5-)-methyltransferase (Mesoplasma florum) [pid:66.7%25%2C q_cov:100.0%25%2C s_cov:8.4%25%2C Eval:1.4e-07%2C partial hit],internal stop codon at [872034:872036](-)%2C[872043:872045](-),MGA_1430
sequence1	MetaGeneAnnotator	CDS	872223	872438	.	-	0	ID=MGA_1431;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKITEMQRNMMNLKEYKTYVFFSDEKLRNEKGDKAKVFIGKIEKIIDRKEVENGSEKKSHKKPKFIFKIS;locus_tag=LOCUS_14310;note=MGA_1431
sequence1	MetaGeneAnnotator	CDS	872466	873749	.	-	0	ID=MGA_1432;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTNIDILKTDKLNKVLNIKKRHEFVYKNIQKYIGTNSRNVKAILFCNSIEHARDLSNFLNEKGERSEFLVSEKITKEKRKEILNDFRRGKINFLCVRDILNEGVDVPEIDTIMFLRPTASVLIYLQQLGRGMRKVTDKRLQIYDFVNNVDIKVNKNYNPLTAFNVLTNDLKINEFEKNINHINDFLPGDSNFILTKIIKEDFLNQLKEYEKHNLYKSIIDEYRTGVFEDYESFFRDKEVSIYEFYNLKKAYFRENLTTNNQTRIRQFMFFNNKNLIKEILEIIENKKISNNKLINKIFLVSFHHSPTKQDNFYYDLNLAFETIFNIENKFFLKEIKYLLKFKLNNEKLLTTSLTEEIESFKGLHLNHNQFQALCSITVKDNQFKGKGVGGIISNKEDKIFAIDASTNTISTKFGHGNIYDYENQTLY;locus_tag=LOCUS_14320;note=WP_011183211.1 DEAD/DEAH box helicase family protein (Mesoplasma florum) [pid:31.9%25%2C q_cov:80.3%25%2C s_cov:39.3%25%2C Eval:2.4e-41%2C partial hit],MGA_1432
sequence1	MetaGeneAnnotator	CDS	874443	874916	.	-	0	ID=MGA_1433;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISPFISKHMINKLEDILVNNPNIESLKIITTTYDGTSKFLALEDLIKLANEYNKIIQVKIENLFEKSAKRLHIKSYLFNRENNFSSLYIGSSNFTKTGLITGNEHNLRISEFKDKKIIEDYREEFDQLFNSTDFIDIKDHEQIQNILLRQKIENDK;locus_tag=LOCUS_14330;note=WP_189742338.1 DEAD/DEAH box helicase (Streptomyces tendae) [pid:30.9%25%2C q_cov:86.0%25%2C s_cov:12.2%25%2C Eval:1.2e-12%2C partial hit],internal stop codon at [874212:874214](-)%2C[874419:874421](-)%2C[874443:874445](-),MGA_1433
sequence1	MetaGeneAnnotator	CDS	875380	875886	.	-	0	ID=MGA_1434;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYFIKKIKEEYLVINLIGNVVMAKYKYFHEAVLHINDLKKYTYNNKNNLLNSQEEGTNYLTLEEYYPENLENKLEVINENNSKNMEIKDVIQNKINELNKKVALISNDNEKIDNYKELENLILEIKKYMILLNSKDINDRKNSYSSEIDLSLFDLNSDFLTKTEELLV;locus_tag=LOCUS_14340;note=MGA_1434
sequence1	MetaGeneAnnotator	CDS	876109	876333	.	-	0	ID=MGA_1435;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKLGVEVENAKQAFELYKTKKNETVNKFFAKIENQLISLFSTSINFLNPEMIVIGGSVAIKNQEFITEIMKKV;locus_tag=LOCUS_14350;note=MGA_1435
sequence1	MetaGeneAnnotator	CDS	876400	876549	.	-	0	ID=MGA_1436;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGQYIVRKNLHSLLYFTISTGIGAGFIYEGKIFQGYNGTALEIANSLPC;locus_tag=LOCUS_14360;note=MGA_1436
sequence1	MetaGeneAnnotator	CDS	876727	876873	.	-	0	ID=MGA_1437;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLAIDIGGTSIRFALIDKNQIIKKEVMDTNPNDRKSNFDYIKKTVES;locus_tag=LOCUS_14370;note=MGA_1437
sequence1	MetaGeneAnnotator	CDS	877499	878008	.	-	0	ID=MGA_1438;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENHYKKISSLIYNATKPPGTSIDKDLEFYKSLLLPIDGKILEAGVGNGRLFIPLLKYKVDIVGIDKSQEMIDICSENLKKENLKATLICQDLENYIEKNTYEYIIMPNASFNLLETRQKALKVLDNFYQSLTDKGTLIIDLILPIEFRAGSKHESTHYVENQDVLVKN;locus_tag=LOCUS_14380;note=WP_164919772.1 class I SAM-dependent methyltransferase (Mesoplasma florum) [pid:50.3%25%2C q_cov:99.4%25%2C s_cov:68.0%25%2C Eval:3.1e-39%2C partial hit],internal stop codon at [877400:877402](-)%2C[877481:877483](-)%2C[877499:877501](-),MGA_1438
sequence1	MetaGeneAnnotator	CDS	879463	879831	.	-	0	ID=MGA_1439;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIQNNFLSTFLSQSEILKFQETQNYKLAIAMGYIDIAGPSIKIGSGELAYNHQLLDFKLPISYSMNGVRDLDYDSLLDLSMKLFETYKMLFAPFQNEGMLPFENEISFYYFDLLFENKDSTI;locus_tag=LOCUS_14390;note=MGA_1439
sequence1	MetaGeneAnnotator	CDS	879862	880020	.	-	0	ID=MGA_1440;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSLIINNLYASNDDIISFDLTKTEDHEKVNKLLLGDEDAINNFLLTEQFHF;locus_tag=LOCUS_14400;note=MGA_1440
sequence1	MetaGeneAnnotator	CDS	880762	880932	.	-	0	ID=MGA_1441;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKSLSVLATIGIVASTTTSVIACGTKQKDGNSGIEEPKKDITQAVQDFEKEVGEV;locus_tag=LOCUS_14410;note=MGA_1441
sequence1	MetaGeneAnnotator	CDS	881184	881447	.	-	0	ID=MGA_1442;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYIYQRMEIKVTKNIISDIKILDAFEDPYLLVEKIDETYVMLDEIEFDKLTERFGVKIKAAGPIFYKKLDKENECLILMSKNKIIKS;locus_tag=LOCUS_14420;note=MGA_1442
sequence1	MetaGeneAnnotator	CDS	881515	881769	.	-	0	ID=MGA_1443;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHTSPFVLELMHQDVSKYTGIKYLQEKYNIDPKDIISSGDGDNDFEMLENVQNSFVMASGTKLALKAGKTIIRNTKREIGKYIN;locus_tag=LOCUS_14430;note=WP_010874739.1 HAD family hydrolase (Mycoplasmoides pneumoniae) [pid:44.1%25%2C q_cov:70.2%25%2C s_cov:20.9%25%2C Eval:2.2e-08%2C partial hit],MGA_1443
sequence1	MetaGeneAnnotator	CDS	881911	882102	.	-	0	ID=MGA_1444;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKGQKTLYELSIPMTQRQKIYDALKKLHNFCGIKLSDTLNAIEISGIKEEKPRYEATIVIPL;locus_tag=LOCUS_14440;note=MGA_1444
sequence1	MetaGeneAnnotator	CDS	882569	883360	.	-	0	ID=MGA_1445;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLPLISSGFTIVRGSIYESSLSGSGSISGTYESMIPLELIYNIFFKSLGLAIYGFVMITFIDKILLKEISSTQISLWLTQPLTKTQIILMKYLFLLLVITVMYIPALIVLLIMASFTQDAKNAYNNIVLGFIQIYFFLIMLSSIFFIMSLLLTERATMFNVIASLILGYFILIGILELIYLVSNSQSQAFKIVINYIGLQAFITNVFNYDLDAEPVRYILSQEIIGSGSTRIIFIETPVLKEINKASYSSLIVISISISFALA;locus_tag=LOCUS_14450;note=WP_011183153.1 ABC transporter permease (Mesoplasma florum) [pid:24.7%25%2C q_cov:76.0%25%2C s_cov:64.8%25%2C Eval:3.1e-13%2C partial hit],MGA_1445
sequence1	MetaGeneAnnotator	CDS	883459	883815	.	-	0	ID=MGA_1446;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQRKKIKKMSTGMKQKTAIISAIMHKLEFLVLDEPTRGLDLAISIQFYDLILKFKNDFKTTIIICSHEFNEVLKLCDRVGFIKQGVLIKEYNTKETNMKEIQEDFVKLFKNHSVEDLF;locus_tag=LOCUS_14460;note=WP_106078844.1 ATP-binding cassette domain-containing protein (Mesoplasma coleopterae) [pid:55.9%25%2C q_cov:94.1%25%2C s_cov:44.9%25%2C Eval:1.7e-26%2C partial hit],internal stop codon at [883853:883855](-),frameshifted%2C insertion/deletion at around 883810,MGA_1446
sequence1	MetaGeneAnnotator	CDS	883853	884173	.	-	0	ID=MGA_1447;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIVKNVTKTYSKNTGNFDISLNVKENEVYGIMGPNGAGKSTLIRQILGFVKPDSGEITVKDFDSFKKTKEIMFFSGYIAGEIALYDGLTGIQYLKIVAKLKRNVD;locus_tag=LOCUS_14470;note=WP_106078844.1 ATP-binding cassette domain-containing protein (Mesoplasma coleopterae) [pid:55.7%25%2C q_cov:100.0%25%2C s_cov:42.9%25%2C Eval:3.7e-32%2C partial hit],internal stop codon at [883853:883855](-),frameshifted%2C insertion/deletion at around 883810,MGA_1447
sequence1	MetaGeneAnnotator	CDS	884668	884868	.	-	0	ID=MGA_1448;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLPILGVVTLTTPLTSTMVDTTRLELNKRENNYINENIESQNIDLLNNKAQDVTDDIYLGLET;locus_tag=LOCUS_14480;note=MGA_1448
sequence1	MetaGeneAnnotator	CDS	886957	887463	.	-	0	ID=MGA_1449;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIFLGTLASAMLITSSSVAAFGGIKKDKTTQFFKSQLESNNGYSQIVNELTQIFNSDKIDFFSEVNRSLEEQILDEIKYDSNLDILKIYKDDLKKLTNNYKLINLILSEEFINELNNAFIKGYFVLEANKVEYLPYKEQNNNISFNLENKNEYQLYSNAPRVEIYTK;locus_tag=LOCUS_14490;note=MGA_1449
sequence1	MetaGeneAnnotator	CDS	887800	888426	.	-	0	ID=MGA_1450;product=5'-methylthioadenosine/S-adenosylhomocysteine nucleosidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183271.1;translation=MKDEAQSLIDKLCANLLEDKYFEIYQKDNIYIAISKIGLINAASCFSYVNQKYQIDFYINAGLVGTLSKKLSLLQTVVVKNSYLGNADATGFGYKMGQIPGMQQYYCSDENLLKSFQDFSKVDICSSDVFINSQEKVNSIIKPLSDSILIFDMECFGFFQGAYLFKKPLIALKVISDHIESGSNEEQFKLILKKGSEKISEILLQILK;locus_tag=LOCUS_14500;gene=mtnN;EC_number=3.2.2.16%3B 3.2.2.9;note=WP_011183271.1 5'-methylthioadenosine/S-adenosylhomocysteine nucleosidase (Mesoplasma florum) [pid:40.2%25%2C q_cov:99.5%25%2C s_cov:96.8%25%2C Eval:1.5e-35],MGA_1450
sequence1	MetaGeneAnnotator	CDS	888477	888683	.	-	0	ID=MGA_1451;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLLDMIIFCADKISIERQYEGVESLRALVKADLLTGFKKLLKNQYEVAIKKHSKETIGSKLIESHNY;locus_tag=LOCUS_14510;note=WP_011166626.1 nicotinate-nucleotide adenylyltransferase (Mycoplasma mycoides) [pid:69.2%25%2C q_cov:95.6%25%2C s_cov:17.7%25%2C Eval:4.6e-19%2C partial hit],internal stop codon at [888783:888785](-)%2C[888855:888857](-),MGA_1451
sequence1	MetaGeneAnnotator	CDS	888855	889013	.	-	0	ID=MGA_1452;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYLYERLESKMDEKRYFHSLNVGQMALELAVLNNIDLQKALLAGTLHDVAKR;locus_tag=LOCUS_14520;note=WP_011166626.1 nicotinate-nucleotide adenylyltransferase (Mycoplasma mycoides) [pid:67.3%25%2C q_cov:100.0%25%2C s_cov:14.2%25%2C Eval:5.9e-14%2C partial hit],internal stop codon at [888783:888785](-)%2C[888855:888857](-)%2C[889215:889217](-),MGA_1452
sequence1	MetaGeneAnnotator	CDS	889215	889388	.	-	0	ID=MGA_1453;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKIATKNLDYVKIETYEISKQNSSFTYDTVKYYKAKYPNLKFSFIMGSDQLDNFEK;locus_tag=LOCUS_14530;note=WP_011166626.1 nicotinate-nucleotide adenylyltransferase (Mycoplasma mycoides) [pid:56.1%25%2C q_cov:100.0%25%2C s_cov:15.5%25%2C Eval:1.5e-09%2C partial hit],internal stop codon at [889215:889217](-)%2C[889455:889457](-),MGA_1453
sequence1	MetaGeneAnnotator	CDS	889635	889760	.	-	0	ID=MGA_1454;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNVALKDIHVIGDNNNDIEMVSELPFGIAVGNAVENLKKQA;locus_tag=LOCUS_14540;note=MGA_1454
sequence1	MetaGeneAnnotator	CDS	889770	890165	.	-	0	ID=MGA_1455;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKDLVIELLQHSLENDLDVSVYTATTLCALKSAERVKAYKKLYGHYLEEDQPEFILYNNYNELIEDIKNDVHRTVKLMYSLDCKTDTVKAEELKVYLKSKNLYHPSTIIQSRILVDAMPKGINKASGIKK;locus_tag=LOCUS_14550;note=MGA_1455
sequence1	MetaGeneAnnotator	CDS	890187	890474	.	-	0	ID=MGA_1456;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVIFKIYCKIIFGGYKIMKLPYIGSDLDGTVVKNSDFKILEETINDINAYQKKSNNKFFIVTGRAFQNMKHYIKQLNVTLPVVSSNGGAITDPLT;locus_tag=LOCUS_14560;note=WP_014584372.1 Cof-type HAD-IIB family hydrolase (Mycoplasma leachii) [pid:52.8%25%2C q_cov:75.8%25%2C s_cov:24.7%25%2C Eval:3.6e-11%2C partial hit],internal stop codon at [890187:890189](-),frameshifted%2C insertion/deletion at around 890045%2C890005,MGA_1456
sequence1	MetaGeneAnnotator	CDS	890632	890880	.	-	0	ID=MGA_1457;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKELICNNCKSNADFKRISQLNVVTLICKKCAIKELNAQLKNNDKTKCETCENVSKYMLVTQLNRVKNYCEVCLLKDYKKSI;locus_tag=LOCUS_14570;note=MGA_1457
sequence1	MetaGeneAnnotator	CDS	891247	891462	.	-	0	ID=MGA_1458;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVIAVERYKQLNYLFLYLIKNNLPLANLIKLPINMEAICKALEYEFKVEDKIIVMKKVKVKKIDKKEEKKQ;locus_tag=LOCUS_14580;note=MGA_1458
sequence1	MetaGeneAnnotator	CDS	891889	892239	.	-	0	ID=MGA_1459;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEVVLKNFVKKFKNNKIGPIDMTIESGKITAILGSSGSGKSVIINSIIGATRKFKGKILVKNVSRKKMTSYKVNKFVGLYSQTDFALYKIKAKDFLKTMCLIIGLPKSEIKEKIEY;locus_tag=LOCUS_14590;note=WP_011183360.1 ATP-binding cassette domain-containing protein (Mesoplasma florum) [pid:54.1%25%2C q_cov:94.0%25%2C s_cov:11.4%25%2C Eval:1.6e-27%2C partial hit],internal stop codon at [891736:891738](-)%2C[891832:891834](-)%2C[891868:891870](-)%2C[891889:891891](-),MGA_1459
sequence1	MetaGeneAnnotator	CDS	892585	893082	.	-	0	ID=MGA_1460;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFQKNNLVTIKVSLENTFISQEELKYKINQSASENAKVLKDLYNFSVDIQKNITNFMENTSSFYDDFIFIDEAKSQITDQTNTSIVAPFKKDYLINMYKYNIASNVSLESGFTIGASSTENSFIRNSLFSPIMICARILEEYFINYTSKYVVATTYTLDQDNN;locus_tag=LOCUS_14600;note=WP_011183358.1 ABC transporter permease (Mesoplasma florum) [pid:29.7%25%2C q_cov:88.5%25%2C s_cov:25.2%25%2C Eval:8.0e-13%2C partial hit],internal stop codon at [892471:892473](-)%2C[892498:892500](-)%2C[892516:892518](-)%2C[892585:892587](-)%2C[893167:893169](-),MGA_1460
sequence1	MetaGeneAnnotator	CDS	893167	893757	.	-	0	ID=MGA_1461;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQFFIINILENKLLYLVFSNQISRIKMLLGQYLLIIIIVFINTAISTGVITGFGILLSNNSDLIVRLNLSFLTYSFISTIFLLSFILLLLLFNSLQVTTIICTLLISLTFLSNIPRLFVTAKEEQATLSFSSRGTSQIIKVTDLYESFDLQKYVTNYQIRYPYLSYALNKFLVDDNHFTREQFVETSSIDKRINDF;locus_tag=LOCUS_14610;note=WP_008363812.1 ABC-2 transporter family protein (Mycoplasma feriruminatoris) [pid:35.2%25%2C q_cov:98.5%25%2C s_cov:32.8%25%2C Eval:2.5e-26%2C partial hit],internal stop codon at [893167:893169](-),MGA_1461
sequence1	MetaGeneAnnotator	CDS	894598	894888	.	-	0	ID=MGA_1462;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYGSLDVEGLQMKINSNFYLPFNALKISYSVAIDNSIKNSEIANNESSAVLGALYFNAIKGIKSFQNVYNVKKPTTDSTYVSFTGLTKDNTIEQSI;locus_tag=LOCUS_14620;note=MGA_1462
sequence1	MetaGeneAnnotator	CDS	894982	895314	.	-	0	ID=MGA_1463;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNLYQTSEFSSYVNSFIKTSYDLTDYDFTFIDDKPSLKVGTPNKLNIYGTGYLQSSNGYIHVYGQDKSTTIQNAIFAESTIEDTDKTFKNYGNQRVNKFIFDLTTGSDT;locus_tag=LOCUS_14630;note=MGA_1463
sequence1	MetaGeneAnnotator	CDS	895402	895914	.	-	0	ID=MGA_1464;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKEAKETGSNSFFNIENVKKYGNNKDIENDKGEVMTTEVKNNFQADVFSFLSLNDLSNELQLIASKSDKYNAILLNNKVVDSIYTDNVVIEYTSKDVSGNVTEDYLLSSSKFDLIIKAAYKDQQGVKNTYEIKIPLFITFSNDGALSLKIKEIEKTFSSKFFNDDNKYS;locus_tag=LOCUS_14640;note=MGA_1464
sequence1	MetaGeneAnnotator	CDS	895936	896094	.	-	0	ID=MGA_1465;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSFLGAFGLIANTTAYAVSCGTKDPMTNEQIEQLIKEYKEEVDTTSTS;locus_tag=LOCUS_14650;note=MGA_1465
sequence1	MetaGeneAnnotator	CDS	896676	896813	.	-	0	ID=MGA_1466;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLKDSKVNATEDELEKIMLDKLKEAIALNSTTNFANKNEPVADS;locus_tag=LOCUS_14660;note=MGA_1466
sequence1	MetaGeneAnnotator	CDS	897126	897749	.	-	0	ID=MGA_1467;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIYRGYANSSSLFKLENILSTQSSKVPTGFFNYSPSATDFINNTIVNLDFTNMVLQNSQDEIEKALNEYLLQKPIFLSEGMSTDQVDTIVKNQIYAILLKNSIDRRNLVDNDGKPLFIEEQLKEADIIVQSMITKLETNIKNVLANNPSINTQLLNQFTNMIDKIKKDNNEFISVNKDNFISVFRNIIDDSRNNDDPESGQFNFSVE;locus_tag=LOCUS_14670;note=MGA_1467
sequence1	MetaGeneAnnotator	CDS	898095	898439	.	-	0	ID=MGA_1468;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLCSFLGVISLTVVSSSTVIACNGGLDMSLNYTDEEKIVSIYNLTEDQLVKNGVQINSLMTDADIDKVVEALGLKELINQNPNGAVLKKSLGVYIMSNQFLNEISTKVPGYG;locus_tag=LOCUS_14680;note=MGA_1468
sequence1	MetaGeneAnnotator	CDS	899331	899513	.	+	0	ID=MGA_1469;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNVLKVTPRGFCLGVVKSIKMAKDAIKMYPHKKIYMIGLLVHNKIIVKELEELGIIAIDD;locus_tag=LOCUS_14690;note=WP_009874103.1 4-hydroxy-3-methylbut-2-enyl diphosphate reductase (Buchnera aphidicola) [pid:37.3%25%2C q_cov:98.3%25%2C s_cov:18.2%25%2C Eval:9.3e-07%2C partial hit],internal stop codon at [899511:899513](+)%2C[899649:899651](+),MGA_1469
sequence1	MetaGeneAnnotator	CDS	899754	900215	.	+	0	ID=MGA_1470;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKKRIHLVTNLKEVEDLNIVNTDIFITNQTTLSIIDTELIYKKVKEKYPNVVYKNDICEATLVRQQAVLDLNPKEVDLLYVVGDERSNNTLKLVELAQNKGIRSIRINRKEEINLQDLKNVNTVAVTAGASTSSIIQNQFIKYLEELKNETN;locus_tag=LOCUS_14700;note=WP_003246170.1 4-hydroxy-3-methylbut-2-enyl diphosphate reductase (Bacillus) [pid:44.9%25%2C q_cov:95.4%25%2C s_cov:46.5%25%2C Eval:8.2e-27%2C partial hit],internal stop codon at [899511:899513](+)%2C[899649:899651](+),MGA_1470
sequence1	MetaGeneAnnotator	CDS	900212	900589	.	-	0	ID=MGA_1471;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFKKSKKYFFAGIVVKAIYTLLALSAFITTLVYKDDENKGLFTGLTITSVLIVILGIMGLISSIKRYRKQKTASIFSIVGSFISGNLPCGILFLIAKYKYTRTKEEDQKDTKNKAKNTIKNETN;locus_tag=LOCUS_14710;note=MGA_1471
sequence1	MetaGeneAnnotator	CDS	900612	900746	.	-	0	ID=MGA_1472;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDMLTLGHYMENHFIDDLRNKLLKTFDNEVEISAFDIKNTFIIY;locus_tag=LOCUS_14720;note=MGA_1472
sequence1	MetaGeneAnnotator	CDS	900777	901175	.	-	0	ID=MGA_1473;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLEIEMKNLAKKEIYDMCIKNEIQIFSIHTNYDNSDKQNIIDLIETQLNVKSVDKVGLSNEGYKIKLLRAVSLKETIDKFKFIFGKQQALLTRNSNLEKEIDRIYLTSGSGASTMMELQLQNTFFITGEAK;locus_tag=LOCUS_14730;note=WP_011166652.1 Nif3-like dinuclear metal center hexameric protein (Mycoplasma mycoides) [pid:41.2%25%2C q_cov:99.2%25%2C s_cov:50.8%25%2C Eval:4.5e-22%2C partial hit],internal stop codon at [900768:900770](-)%2C[900777:900779](-)%2C[901332:901334](-),MGA_1473
sequence1	MetaGeneAnnotator	CDS	901708	901851	.	-	0	ID=MGA_1474;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNQIKLDSCIIAGMGSSSILDILKKDNENIYSYIIASNTNLEPIRK;locus_tag=LOCUS_14740;note=MGA_1474
sequence1	MetaGeneAnnotator	CDS	901855	902094	.	-	0	ID=MGA_1475;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSFLTPRLFSLASLITEGEVVADIGTDHAYLPIYLAKDGKAKKIYATDVALGPLKVAKNNLTSFGVADKVETILADGIE;locus_tag=LOCUS_14750;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:5.3e-15%2C partial hit],internal stop codon at [901708:901710](-)%2C[901855:901857](-),MGA_1475
sequence1	MetaGeneAnnotator	CDS	902096	902752	.	-	0	ID=MGA_1476;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVETINKLTRIERQLTQELGREPTSKEIAKTFGKGITSQKVIEIKKLSIEPVSLEKPFGDEDDTHFGDFVEDKDISSPDEYAEKEALREVIDQVFSDILAPREEKVVRMRFGILPTKLRTLIRLAEECEDENCEQLKQAIADLDIHYDTSIEKIQKYNNPTIQFHLSKYDSPKTLEEVGKELKVTRERIRQIEAKTIRKFKPSASNPKAKALKDFFKG;locus_tag=LOCUS_14760;note=WP_020862729.1 sigma-70 family RNA polymerase sigma factor (Mycoplasma mycoides) [pid:72.6%25%2C q_cov:100.0%25%2C s_cov:43.1%25%2C Eval:2.6e-86%2C partial hit],internal stop codon at [902816:902818](-)%2C[902819:902821](-),MGA_1476
sequence1	MetaGeneAnnotator	CDS	902819	903142	.	-	0	ID=MGA_1477;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGGISNETKIQDIIKSYFNQIGSSKILTKDEEVEYAKMLEDSDPEIAKEGRDKLITSNLKLVISVARKHLNRGLDFADLIEEGNIGLMKAVDKFDYKKGFKFSTYAT;locus_tag=LOCUS_14770;note=WP_011183167.1 sigma-70 family RNA polymerase sigma factor (Mesoplasma florum) [pid:80.4%25%2C q_cov:100.0%25%2C s_cov:22.7%25%2C Eval:4.2e-44%2C partial hit],internal stop codon at [902816:902818](-)%2C[902819:902821](-),MGA_1477
sequence1	MetaGeneAnnotator	CDS	903904	905436	.	-	0	ID=MGA_1478;product=DNA primase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166649.1;translation=MSISQQQIDLVLNKANIVDVIGKYIDLQKKGRNYVSVCPFHDDSDPSLNVSPDKKIFKCFVCGTGGNLITFVQEFNNITFFKALSLIAKDLNIKIEGLKDFDDKPKYNSKESILFDINKAAADFFNGLLISSLSAKARNYLKERRITNTEIKRFKIGFCPNKVKLYDYLIKLGFSQENIFESQIVYKNGIDYNCAFENRLIFPITDEDGNIIGFSGRVIDANESPKYKNSSENLIFKKSQLAYNFDCAKKEARIKNEIIILEGFMDVISLESIDIKNTVAIMGTSLSDYHIRLFSRVAKRYKLFLDGDKAGVNAALKISQFLLEKKIDVTVIENNTGKDPDELVKLGEKNLINQMIENSIHPANFASRYFSKDLDIKNSIKVSEFINKVISILKYESNESIIDSAILNLSEITKLERNTIRNTFNQEKEKIKPSLTKVDKNNLNNQYENNFINNEDYINRMMNSYVDEETSNFEIPEYAYDTIKKDKIEQTKYKIIDSKSSKNFAEAALI;locus_tag=LOCUS_14780;gene=dnaG;note=WP_011166649.1 DNA primase (Mycoplasma mycoides) [pid:39.9%25%2C q_cov:92.5%25%2C s_cov:77.1%25%2C Eval:8.1e-95],MGA_1478
sequence1	MetaGeneAnnotator	CDS	905453	905758	.	-	0	ID=MGA_1479;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLPYKLAPYSVAVMPLQKQQKEKANKLYKELLIDFDATFDETGNIGKRYRRQDAIGTPFCITIDFDTETDNCVTIRNRDTMNQERIEITKIKEYLVKKLI;locus_tag=LOCUS_14790;note=WP_011183165.1 glycine--tRNA ligase (Mesoplasma florum) [pid:64.6%25%2C q_cov:98.0%25%2C s_cov:22.0%25%2C Eval:9.5e-33%2C partial hit],internal stop codon at [905960:905962](-),MGA_1479
sequence1	MetaGeneAnnotator	CDS	906125	906457	.	-	0	ID=MGA_1480;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFIKENEVNCPKCESNDFTNIRQFTLMFKTNQGVVEDEASTVYLRPETAQGIFTQYKNSQRALRKKLPFGIGQIGKSFRNEITPGNFIFRTREFEQMELEFFFSPNDSND;locus_tag=LOCUS_14800;note=WP_011183165.1 glycine--tRNA ligase (Mesoplasma florum) [pid:78.9%25%2C q_cov:99.1%25%2C s_cov:24.2%25%2C Eval:1.0e-47%2C partial hit],internal stop codon at [905960:905962](-)%2C[906113:906115](-)%2C[906125:906127](-)%2C[906476:906478](-)%2C[906599:906601](-)%2C[906671:906673](-)%2C[906674:906676](-)%2C[906725:906727](-),MGA_1480
sequence1	MetaGeneAnnotator	CDS	907158	907706	.	-	0	ID=MGA_1481;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGAIKINAIVIESTDYDDFAKIVKVFSKQFGKLSFIALGVNKSTSKNKYSIQTFSLSDFEIFKARKEEKISKLKTGVLKKDYFKIAQNYNNYIYCSIIFKILDQIEQISDKNYKIFKMLIFSLENINNNKNPFINYLFFITYLIQESIQPFRIKGCVRCKKTTAPLVRFEYSEYGFVCSRCL;locus_tag=LOCUS_14810;note=WP_011183164.1 DNA repair protein RecO (Mesoplasma florum) [pid:44.5%25%2C q_cov:100.0%25%2C s_cov:68.2%25%2C Eval:6.1e-42%2C partial hit],internal stop codon at [907079:907081](-)%2C[907158:907160](-),frameshifted%2C insertion/deletion at around 907121%2C907054,MGA_1481
sequence1	MetaGeneAnnotator	CDS	907770	908153	.	-	0	ID=MGA_1482;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGNNLNELLNEIKSSLPETGIKFYPDDTFTDQPERFLIREIIREEILLQTEQEIPHSVAILIDKFEEKKDIIKVIASIICERQSQKGIIIGNKGDKIKSIGINSREKLEHLFDKKFYLELFVKTKEK;locus_tag=LOCUS_14820;note=WP_011183163.1 GTPase Era (Mesoplasma) [pid:43.1%25%2C q_cov:96.9%25%2C s_cov:40.9%25%2C Eval:2.7e-22%2C partial hit],internal stop codon at [907770:907772](-)%2C[908202:908204](-),MGA_1482
sequence1	MetaGeneAnnotator	CDS	908202	908618	.	-	0	ID=MGA_1483;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKIKSGFISIIGRPNVGKSTLLNTLLEKKVSIVTNKAQTTRNRINGILTHSDAQYIFVDTPGIHKAQHELGRFMNKVALSSTKGVDLILFLAPADEFIGDNDKFILNALKERDVPVFLVITKSDLVKSDRLETKVKE;locus_tag=LOCUS_14830;note=WP_011183163.1 GTPase Era (Mesoplasma) [pid:61.2%25%2C q_cov:100.0%25%2C s_cov:46.2%25%2C Eval:1.1e-41%2C partial hit],internal stop codon at [908202:908204](-),MGA_1483
sequence1	MetaGeneAnnotator	CDS	909335	909496	.	-	0	ID=MGA_1484;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFIQIYHLFIMSAVLIVMLNMTMGKGTTIFTTIFNILYISEGLLYGSFLFVLD;locus_tag=LOCUS_14840;note=MGA_1484
sequence1	MetaGeneAnnotator	CDS	910637	910765	.	-	0	ID=MGA_1485;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVLIFKGFGPIITLPENYIEMAEIISISNSLNEEILHLKQRE;locus_tag=LOCUS_14850;note=MGA_1485
sequence1	MetaGeneAnnotator	CDS	910778	911047	.	-	0	ID=MGA_1486;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNKSSYPHCKVFDYKELYLILNKDARVYDLFLIENKREDNDVYMALSGILKKVQTLKNYQEIILEFSIFLHENYVKGTFGSNTKLFC;locus_tag=LOCUS_14860;note=MGA_1486
sequence1	MetaGeneAnnotator	CDS	911302	911514	.	-	0	ID=MGA_1487;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISRGYGVAIFEDQHEIKRLFYLHENIIQFVKENNSKNFSLCKEFRELVSIFKDKIEFFSNHEKKKYIFE;locus_tag=LOCUS_14870;note=MGA_1487
sequence1	MetaGeneAnnotator	CDS	911530	911706	.	-	0	ID=MGA_1488;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKGETKESKSFLSKLERIIVKMTKVETFDSLVEYLLAAAYDLTANDFLGKITFRYLI;locus_tag=LOCUS_14880;note=MGA_1488
sequence1	MetaGeneAnnotator	CDS	912123	912446	.	-	0	ID=MGA_1489;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLNKDKVYSDLKELRKNAYAPYSNFRVSCIIYLKNGNEIKGVNVENAAYNPTICAERSALTQMIAQGYNKNDVEIVALYTDSEELGSPCGTCRQTLFELLLENQEI;locus_tag=LOCUS_14890;note=WP_011183040.1 cytidine deaminase (Mesoplasma) [pid:59.8%25%2C q_cov:90.7%25%2C s_cov:71.9%25%2C Eval:4.5e-30%2C partial hit],internal stop codon at [912123:912125](-),MGA_1489
sequence1	MetaGeneAnnotator	CDS	912461	912679	.	-	0	ID=MGA_1490;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILTIGVLTGFEFVNTSIENFVDLLSFEYNIQAKKIKDICAAASIINALLSVVIGFLIYLPKLIETISNLFN;locus_tag=LOCUS_14900;note=MGA_1490
sequence1	MetaGeneAnnotator	CDS	912710	912871	.	-	0	ID=MGA_1491;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKKNDIKKKTKVGTRVKNKFVNAARGIYTAFKEESTLIVYLIVVILAIGLGI;locus_tag=LOCUS_14910;note=MGA_1491
sequence1	MetaGeneAnnotator	CDS	913072	913200	.	-	0	ID=MGA_1492;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGHVVDGFGSKLNLKRSTNYSKLLNYKNLYKGDFFGEYTYSI;locus_tag=LOCUS_14920;note=MGA_1492
sequence1	MetaGeneAnnotator	CDS	913237	913446	.	-	0	ID=MGA_1493;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSALIISPDFPLISDDGTSSQGTMGYTATQYSLDPSTKEIVSTEYAYIVITGPSLTYKKFNDQYKAGF;locus_tag=LOCUS_14930;note=MGA_1493
sequence1	MetaGeneAnnotator	CDS	913618	913761	.	-	0	ID=MGA_1494;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYDSYTPASQESIDSFNNFNKKYFNSFEELDTKLQNSSKDINNHSAV;locus_tag=LOCUS_14940;note=MGA_1494
sequence1	MetaGeneAnnotator	CDS	913879	914070	.	-	0	ID=MGA_1495;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPEIISVGGRYNDNYKENKTISDKTVELINSDLNSASKVKYNATLKQKESNSLNLQYNNESVI;locus_tag=LOCUS_14950;note=MGA_1495
sequence1	MetaGeneAnnotator	CDS	914137	914355	.	-	0	ID=MGA_1496;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYYGRLLKYYYANSIKVNEDDINSIRENIMVTGNKSDMYKELTIQNILASTIMPSIYGATSDAEFFAESFSK;locus_tag=LOCUS_14960;note=MGA_1496
sequence1	MetaGeneAnnotator	CDS	914613	914744	.	-	0	ID=MGA_1497;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFVHGLLHILGFDHETNEQDAKEMFKLTDDILKSENIKYIMSF;locus_tag=LOCUS_14970;note=WP_011183162.1 rRNA maturation RNase YbeY (Mesoplasma florum) [pid:53.5%25%2C q_cov:100.0%25%2C s_cov:25.4%25%2C Eval:9.7e-09%2C partial hit],internal stop codon at [914745:914747](-),MGA_1497
sequence1	MetaGeneAnnotator	CDS	914745	915086	.	-	0	ID=MGA_1498;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGDLLEFNYETKESLKEYESLFRNLLISTKKILGIKKNLSLSVNYIDKDKSKEINKQYRQKEYVGDVISFPINDEFGIYDQLDFKEIGDIFITFSEAQNKAKNYNHTIVEEMA;locus_tag=LOCUS_14980;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:7.5e-17%2C partial hit],internal stop codon at [914745:914747](-),MGA_1498
sequence1	MetaGeneAnnotator	CDS	915110	915487	.	-	0	ID=MGA_1499;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKELKMLYFLLIFLLLFLLSLALLKKQQTFYGSVYIQEYIDEQGIIKKDLYLLSSKNLNISLIDYIILETNQGNMFVNASKLEYSNSLIKININNIGSIKYPSNNVLIYGEKVSLLSYLLSNIF;locus_tag=LOCUS_14990;note=MGA_1499
sequence1	MetaGeneAnnotator	CDS	915487	916713	.	-	0	ID=MGA_1500;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSDFISQCTISLPLGLTLFLMSSLFLLLISPFILTLVLVQNLISVCLSIVCFYFMKELKLRKERKIIEFFLGYRQLLDGFEEIKYKNIELEIKTENYKNYLSTIKETKNIFNLDSKTQVLFSLTNKLFFYLIFYISIIYINQEKYSLPDLLFYTAVSSYINIFFSNIESFILNIQETLIADKSLNFIFNSKDNNIEYKKINKIENITAKNLYKYKSDSCLLKDFNFEFDKNTFIHGKSGSGKTTLLKLLSGHYEKYEGELIVNHNINFNNLDKNSFLSKTIYLGQYDYLFNGTVWQNIQQFKNKVDFQILQDFHLIEILERNNIDLTKRIYDNGYNLSKGQRQIINFIALFFTNKDLYLIDEPLSNVDKHTAYFLFKTFMEYKKSSLIIMCDHDLAYSNFFEKRVEVI;locus_tag=LOCUS_15000;note=WP_011949183.1 ABC transporter ATP-binding protein (Clostridium botulinum) [pid:28.5%25%2C q_cov:81.6%25%2C s_cov:62.5%25%2C Eval:1.7e-25%2C partial hit],MGA_1500
sequence1	MetaGeneAnnotator	CDS	916741	917004	.	-	0	ID=MGA_1501;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNVLILISNNFIKIYMDNINLKNNKTMQLIFLTFALIFVVQTITSYFINKIIFTIKNKVTKDIFCFYKTKLVDLNIEKFNSFSKEE;locus_tag=LOCUS_15010;note=MGA_1501
sequence1	MetaGeneAnnotator	CDS	917161	917514	.	-	0	ID=MGA_1502;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYKFLKQKGENDCGIAISSMLINYYHNKDFGIEEIKFENSLNDEMLSLYDIENLLTKYKIEFVSYTCNFNELLEIDITNPIVLNVLNDNDLDHFIIVYKKRKNEFLIADPNLNDLK;locus_tag=LOCUS_15020;note=WP_014035056.1 cysteine peptidase family C39 domain-containing protein (Mycoplasma putrefaciens) [pid:34.9%25%2C q_cov:93.2%25%2C s_cov:17.4%25%2C Eval:9.9e-14%2C partial hit],MGA_1502
sequence1	MetaGeneAnnotator	CDS	917595	918041	.	-	0	ID=MGA_1503;product=ribosome maturation factor RimP;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183188.1;translation=MSLEIVKDKYLDNIKEILSESDFLLYELNIVNDFESTVLQVLVENKDANKKNMDFDLLIKANENLSTLLDDIKELKDPYILEVASAGAERVVRTLEILKSNVGSYFFLKTINPIETFTEFSATLTEFKDDEFIFDFFIKGRPKKVKLK;locus_tag=LOCUS_15030;gene=rimP;note=WP_011183188.1 ribosome maturation factor RimP (Mesoplasma florum) [pid:38.6%25%2C q_cov:96.6%25%2C s_cov:88.4%25%2C Eval:6.7e-20],MGA_1503
sequence1	MetaGeneAnnotator	CDS	918112	918408	.	-	0	ID=MGA_1504;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFARGIEIKNIDFNISEGNRFVIFKEDNKKILIPPFNVIDSLGEAVAKSIVNARKDRQITSVNDLKQRTQVTQTQIEIFAKLKITDNLKDDEQLSFNF;locus_tag=LOCUS_15040;note=WP_011166548.1 PolC-type DNA polymerase III (Mycoplasma mycoides) [pid:64.6%25%2C q_cov:100.0%25%2C s_cov:6.7%25%2C Eval:1.1e-28%2C partial hit],internal stop codon at [918568:918570](-)%2C[918607:918609](-)%2C[918694:918696](-),MGA_1504
sequence1	MetaGeneAnnotator	CDS	918431	918580	.	+	0	ID=MGA_1505;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKEISFAVTGSLLFSLCLISSIDALIASFPFKAVSKSKKSALVENQTA;locus_tag=LOCUS_15050;note=MGA_1505
sequence1	MetaGeneAnnotator	CDS	918730	919185	.	-	0	ID=MGA_1506;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDILGHVDPTALRMLYDLTGFDPIKVPTNDKKVYSLFSELSALKIDSQSILGETTGAIGLPEFGTQFVRNMLKETKPKTFADLVQISGLSHGTDVYVGNAQSLIKDGVANISSVIGCRDDIMVYLMSKGLDSSNSFNIMESVRKGKGLSKE;locus_tag=LOCUS_15060;note=WP_011183185.1 PolC-type DNA polymerase III (Mesoplasma florum) [pid:78.1%25%2C q_cov:100.0%25%2C s_cov:10.1%25%2C Eval:1.2e-62%2C partial hit],internal stop codon at [918568:918570](-)%2C[918607:918609](-)%2C[918694:918696](-)%2C[918730:918732](-)%2C[919234:919236](-),MGA_1506
sequence1	MetaGeneAnnotator	CDS	919234	919782	.	-	0	ID=MGA_1507;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MATTSLITEVNPLKAHYICTECKYSDFDTSEEFKCGYDLPDKMCPKCNSKLIGEGHDIPFETFLGFDGDKVPDIDLNFSGEYQPIAHNFTKEIFGENNVFRAGTISTVAEKTAYGFTMGYFEKQNANLDLIRKAEIERLASLSTGVKRTTGQHPGGIIILPKEYEIEDFTPVNYPADDETSD;locus_tag=LOCUS_15070;note=WP_011183185.1 PolC-type DNA polymerase III (Mesoplasma florum) [pid:76.9%25%2C q_cov:99.5%25%2C s_cov:12.2%25%2C Eval:7.4e-80%2C partial hit],internal stop codon at [919234:919236](-)%2C[919861:919863](-),MGA_1507
sequence1	MetaGeneAnnotator	CDS	919861	919998	.	-	0	ID=MGA_1508;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKLLTDECYKNAKAIYGEELPEIVKTRLEKELASIIKHGFAVVY;locus_tag=LOCUS_15080;note=WP_011183185.1 PolC-type DNA polymerase III (Mesoplasma florum) [pid:71.1%25%2C q_cov:100.0%25%2C s_cov:3.0%25%2C Eval:4.2e-12%2C partial hit],internal stop codon at [919861:919863](-)%2C[920119:920121](-),MGA_1508
sequence1	MetaGeneAnnotator	CDS	920119	920646	.	-	0	ID=MGA_1509;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKNQDGLKDLYKLISYSHTENFLGSPKIFQSKLLEMREKNNILIGSGCVNGIVFEYARTGTFKMLEEAINLFDYIEIQPLSVYKKLLQTDDLTMDCLKKVILKIIEVSKKLNKKIIATSDAHYIDPELKQIRDIYINTKGLGGVYHPLYDFKQRVKDNPDQHLRTTNEMLEEFK;locus_tag=LOCUS_15090;note=WP_011166548.1 PolC-type DNA polymerase III (Mycoplasma mycoides) [pid:58.9%25%2C q_cov:100.0%25%2C s_cov:11.8%25%2C Eval:5.9e-60%2C partial hit],internal stop codon at [919861:919863](-)%2C[920119:920121](-)%2C[920716:920718](-)%2C[920761:920763](-),MGA_1509
sequence1	MetaGeneAnnotator	CDS	920761	921138	.	-	0	ID=MGA_1510;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKPTKPISKFTIDLTHITNEMLEDKNSIEIEFKNIMEIIKDGILIAHNANFDFNFLQAFASKLGYGELTNTVIDTLSLSRLLQPKLKNHRLGTVAKAYQILYDEKIAHRADYDAEVLTNMYEHM;locus_tag=LOCUS_15100;note=WP_011183185.1 PolC-type DNA polymerase III (Mesoplasma florum) [pid:62.3%25%2C q_cov:97.6%25%2C s_cov:8.2%25%2C Eval:3.3e-41%2C partial hit],internal stop codon at [920716:920718](-)%2C[920761:920763](-)%2C[921295:921297](-),MGA_1510
sequence1	MetaGeneAnnotator	CDS	921658	921987	.	-	0	ID=MGA_1511;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSDSKPNYSLSKTKYRSNEEILNKPTYEKIVDLEEDAQNVTIQGEVISKNTRKSKAGRNIYNIAITDGTSSVMCIFFQRNNDPTFFDEITEETKESLTGFENQIIRKGD;locus_tag=LOCUS_15110;note=WP_011183185.1 PolC-type DNA polymerase III (Mesoplasma florum) [pid:36.9%25%2C q_cov:99.1%25%2C s_cov:7.4%25%2C Eval:6.2e-16%2C partial hit],internal stop codon at [921445:921447](-)%2C[921658:921660](-),MGA_1511
sequence1	MetaGeneAnnotator	CDS	922294	922560	.	-	0	ID=MGA_1512;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKEVKDMFEKLNVFLEESEEVYFDGAHFYKEAEFSASINKLRVFIKIKDFLPIHLLNKIETILNTNTLIPTKLNLLVDNNNYSKELI;locus_tag=LOCUS_15120;note=WP_011166548.1 PolC-type DNA polymerase III (Mycoplasma mycoides) [pid:33.0%25%2C q_cov:100.0%25%2C s_cov:5.9%25%2C Eval:4.8e-08%2C partial hit],internal stop codon at [922294:922296](-),MGA_1512
sequence1	MetaGeneAnnotator	CDS	922586	922849	.	-	0	ID=MGA_1513;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGVAKQTATLLQSADQFFIYVATISANLFILNLIFLPPLDGYRLLENFIEMILRKELPLKYKIFVNTAGAILFLLLFVVITIKDFIV;locus_tag=LOCUS_15130;note=WP_011183184.1 site-2 protease family protein (Mesoplasma florum) [pid:34.4%25%2C q_cov:100.0%25%2C s_cov:21.8%25%2C Eval:9.7e-09%2C partial hit],internal stop codon at [922934:922936](-),MGA_1513
sequence1	MetaGeneAnnotator	CDS	922934	923287	.	-	0	ID=MGA_1514;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISVQNEKDEILFDNICDAKTTKCDEKITINSLNEQKAVDYKKTVYNFIDNLKLSKDHENIKIQFAYKKVDKYSGYALDNYKDGVITELQDIKAGDSVGIAAPNRIYETTAQAYGAG;locus_tag=LOCUS_15140;note=MGA_1514
sequence1	MetaGeneAnnotator	CDS	923297	923509	.	-	0	ID=MGA_1515;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFILAGPLMNLFIALLLFTTIFAAIGEKKNDMTYFGANYVQEGIAAKAIKEKEKSQNINVEYVGQDYVI;locus_tag=LOCUS_15150;note=MGA_1515
sequence1	MetaGeneAnnotator	CDS	923642	923827	.	-	0	ID=MGA_1516;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSEVSSGMVVLAFFIGIIVMLLLITIHEIGHLVVAKMAKAYVYEFSIGFGPRLFVFKGKET;locus_tag=LOCUS_15160;note=WP_011183184.1 site-2 protease family protein (Mesoplasma florum) [pid:64.8%25%2C q_cov:88.5%25%2C s_cov:12.8%25%2C Eval:2.4e-15%2C partial hit],internal stop codon at [923516:923518](-)%2C[923642:923644](-),MGA_1516
sequence1	MetaGeneAnnotator	CDS	923831	924376	.	-	0	ID=MGA_1517;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKKITIDSSTMFNKAFEILEAYYLFGVKNIKVLLHPQSIIHSMVGFNDGSIKAQLSVPDMKQVINYFLHYPKRFSYYKQKDMQFNDLINLELKEIDQDRFKPIKFALNCLKYKNSKSIALNASNEVCVDYFLKGKIKFYQITEIVEMVFNECENIELKTYDEILKYDKAIRKITLSRIGE;locus_tag=LOCUS_15170;note=WP_011986796.1 1-deoxy-D-xylulose-5-phosphate reductoisomerase (Clostridium botulinum) [pid:43.4%25%2C q_cov:95.6%25%2C s_cov:45.2%25%2C Eval:9.3e-35%2C partial hit],internal stop codon at [924380:924382](-),MGA_1517
sequence1	MetaGeneAnnotator	CDS	924380	924955	.	-	0	ID=MGA_1518;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNIILFGASGNIGKQCIKLLRENKDKYNLIALSVGENDSEVESFLLSFPSLKKIYSKKELTYLKIKFPKVEFISDDILNLFNNKEEIIINALSGFYGLQVTLKTIEKNLVLLNANKESFVTAGNLINQMLKTSKTKIYPIDSEHCAIFQCLEKENKPTTLFLTASGGSFRNLTLQETKKVTLQDALQHPN;locus_tag=LOCUS_15180;note=WP_000790373.1 1-deoxy-D-xylulose-5-phosphate reductoisomerase (Bacillus cereus) [pid:40.1%25%2C q_cov:100.0%25%2C s_cov:51.8%25%2C Eval:6.3e-32%2C partial hit],internal stop codon at [924380:924382](-),MGA_1518
sequence1	MetaGeneAnnotator	CDS	925089	925286	.	-	0	ID=MGA_1519;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGTAAFTGIVFAMIFQFVKPLQNFQPLREPMQSLGDKTIALEIIIYLLLAIVFPIIGLFGDLLFS;locus_tag=LOCUS_15190;note=MGA_1519
sequence1	MetaGeneAnnotator	CDS	925417	925581	.	+	0	ID=MGA_1520;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNENLAKLLSSANEVIENAFKARIIIKVIIKFINAFFVSILLSETEIIIVINK;locus_tag=LOCUS_15200;note=MGA_1520
sequence1	MetaGeneAnnotator	CDS	925725	926036	.	-	0	ID=MGA_1521;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTNDKNFEVPDTVEISPETDDNIGKNRFKLESAKRNLKTRLLSTVVLLILLLGFVCSGAIYTSLKTANIGNPEIASYFSIILTVVLTGLCIYEMNKVMGFKF;locus_tag=LOCUS_15210;note=MGA_1521
sequence1	MetaGeneAnnotator	CDS	926754	927380	.	-	0	ID=MGA_1522;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEVLDFVKPGMSEKDLARFVSDSFLKNGAEKLSFDTIVASGKNGSMPHAVPTDKKIETGDFVTLDMGCYFNGYCSDQTRTFVMGNTDNTKLKEIYEIVYNSQQLGIESIKPGISGNEVHKICYDYIESKGYGKYFTHGTGHGLGIEIHEEPYNSAAGNKILQEGMCVTVEPGIYIPEIGGVRIEDDILVTKNGYEFLTTPLRELQIVK;locus_tag=LOCUS_15220;note=WP_011183278.1 aminopeptidase P family protein (Mesoplasma florum) [pid:66.0%25%2C q_cov:99.0%25%2C s_cov:57.4%25%2C Eval:1.4e-78%2C partial hit],internal stop codon at [927429:927431](-)%2C[927525:927527](-),MGA_1522
sequence1	MetaGeneAnnotator	CDS	927895	928038	.	-	0	ID=MGA_1523;product=50S ribosomal protein L33;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003948671.1;translation=MREGVILRCATCKEENYIAKNDKRKDKIEVKKHCFKCNSHQVHKQKK;locus_tag=LOCUS_15230;gene=rpmG;note=WP_003948671.1 50S ribosomal protein L33 (Streptomyces) [pid:42.9%25%2C q_cov:100.0%25%2C s_cov:90.7%25%2C Eval:1.4e-07],MGA_1523
sequence1	MetaGeneAnnotator	CDS	928341	928658	.	-	0	ID=MGA_1524;product=metalloregulator ArsR/SmtB family transcription factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000221177.1;translation=MEKKYTKFAEVFKTLADPTRLKIINMICDCGCNKCAQNILDNLNITQPTLSYHMKMLEKVGILNSTKEKNSKIYKVNQEMIKEINNFIGSIQEEKKLMNCSNCNK;locus_tag=LOCUS_15240;note=WP_000221177.1 metalloregulator ArsR/SmtB family transcription factor (Staphylococcus) [pid:30.6%25%2C q_cov:93.3%25%2C s_cov:92.3%25%2C Eval:8.8e-10],MGA_1524
sequence1	MetaGeneAnnotator	CDS	929200	929373	.	+	0	ID=MGA_1525;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDEVTEIYKKQYTIGDNMSDKLATKLAKAKVKKYFNLDATQGFPMFILVRNGKLVS;locus_tag=LOCUS_15250;note=MGA_1525
sequence1	MetaGeneAnnotator	CDS	929455	929703	.	+	0	ID=MGA_1526;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNGEQEAEIIKKVDTGLNSGGGETGSGGETGSGGETKNKPKTKAKANTKTNPKVKSNNKAKSVNYSISDNLLIDYLTNTII;locus_tag=LOCUS_15260;note=MGA_1526
sequence1	MetaGeneAnnotator	CDS	929903	930151	.	+	0	ID=MGA_1527;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFYSLFKKYRGDGFNNGLKMYDICTIAYILNPELFIVEKAYVEIDTQKEISVGTMYVDFKGYLRKEPNVKIMTDINSKKFIS;locus_tag=LOCUS_15270;note=WP_007052500.1 ribonucleoside hydrolase RihC (Bifidobacterium longum) [pid:42.5%25%2C q_cov:97.6%25%2C s_cov:26.1%25%2C Eval:6.4e-16%2C partial hit],MGA_1527
sequence1	Aragorn:1.2.38	tRNA	930299	930387	.	-	.	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	930400	930475	.	-	.	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	930490	930564	.	-	.	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	930570	930653	.	-	.	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	930667	930742	.	-	.	ID=Aragorn_26;product=tRNA-Thr;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00250;note=Aragorn_26
sequence1	MetaGeneAnnotator	CDS	931068	931559	.	-	0	ID=MGA_1528;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCVTAAGLTLVQNEVFKDLKTAKEELLKVLKDKSAAHLLKDFIEAQNGNFDVIIDYDKNFSTKHVIEVFAQKEGYVSFVSADQLGYLSMYLGAGRATKEEEIDFSAGIYLNKTTNEFVKKGEVIMTLYTNRDNVESFKQKAEELILIKDKKENEELILKLLTS;locus_tag=LOCUS_15280;note=WP_011183016.1 thymidine phosphorylase (Mesoplasma florum) [pid:46.8%25%2C q_cov:96.9%25%2C s_cov:36.4%25%2C Eval:1.3e-34%2C partial hit],internal stop codon at [931599:931601](-),MGA_1528
sequence1	MetaGeneAnnotator	CDS	931599	931919	.	-	0	ID=MGA_1529;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSQSSQVVPADKKLYALRDVTGTVDSIPLIASSIMSKKLVIPANSIILDVKMGSGAFMKDLDKAVELSKTMIGIGKEHNRNVSVMITNMDKPLGRAIGNAIEVKEA;locus_tag=LOCUS_15290;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:9.3e-36%2C partial hit],internal stop codon at [931599:931601](-)%2C[931980:931982](-),MGA_1529
sequence1	MetaGeneAnnotator	CDS	931980	932222	.	-	0	ID=MGA_1530;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSTKEIASFTQAMIDSGITYDLSEVKGLIADKHSTGGIGDKTSLIFSPLVAKFGVKVAKLSGRGLGQTGGTIDKLESCPG;locus_tag=LOCUS_15300;note=WP_011183016.1 thymidine phosphorylase (Mesoplasma florum) [pid:70.0%25%2C q_cov:100.0%25%2C s_cov:18.4%25%2C Eval:7.8e-27%2C partial hit],internal stop codon at [931980:931982](-)%2C[932232:932234](-)%2C[932301:932303](-),MGA_1530
sequence1	MetaGeneAnnotator	CDS	932462	932845	.	-	0	ID=MGA_1531;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLIDNVPLDRANPRSALNAMKEAKILISEYKRSLVIFPEGTRSAKQQPNEFQPASMKLAQMAYVPIVPVSIIDSYKLFEKRPRGRFHIKVVFGKPLLPEKFISLKTEMLTKNVQKEVEKNIEAYKN;locus_tag=LOCUS_15310;note=WP_020862806.1 lysophospholipid acyltransferase family protein (Mycoplasma mycoides) [pid:61.7%25%2C q_cov:100.0%25%2C s_cov:40.7%25%2C Eval:8.6e-37%2C partial hit],internal stop codon at [932870:932872](-)%2C[932993:932995](-)%2C[933065:933067](-)%2C[933077:933079](-),MGA_1531
sequence1	MetaGeneAnnotator	CDS	933277	933546	.	-	0	ID=MGA_1532;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKSYNDIELSNKLEDFLEKYKSIEEELVIIGGSQIYETALNYADRLIISVIKKDYQGDTFAPQFDKSLFKITKQMDFEEFEIYYYERY;locus_tag=LOCUS_15320;note=MGA_1532
sequence1	MetaGeneAnnotator	CDS	933747	934124	.	-	0	ID=MGA_1533;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MALPPCHSLFQFYVSKDKFIDLQLYQRSGDIFLGVPFNIASYSLLLELVAIECDLKPRYFIHTIGDAHIYSNHIKQLELQLTREPKKLPTLKIDTKNKSIFEIKFEDISLEGYESHPIIKGAVAV;locus_tag=LOCUS_15330;note=WP_011183318.1 thymidylate synthase (Mesoplasma florum) [pid:68.0%25%2C q_cov:100.0%25%2C s_cov:43.1%25%2C Eval:3.2e-44%2C partial hit],internal stop codon at [934146:934148](-)%2C[934236:934238](-)%2C[934368:934370](-)%2C[934377:934379](-),MGA_1533
sequence1	MetaGeneAnnotator	CDS	934434	934616	.	-	0	ID=MGA_1534;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQYLDLVNDILKTGENREDRTNTGTISKFGTQSRYDLRQGFPLVTTKKVFFKGIVHEIL;locus_tag=LOCUS_15340;note=WP_011183318.1 thymidylate synthase (Mesoplasma florum) [pid:80.0%25%2C q_cov:100.0%25%2C s_cov:20.8%25%2C Eval:2.1e-22%2C partial hit],internal stop codon at [934146:934148](-)%2C[934236:934238](-)%2C[934368:934370](-)%2C[934377:934379](-)%2C[934434:934436](-),MGA_1534
sequence1	MetaGeneAnnotator	CDS	934851	935000	.	-	0	ID=MGA_1535;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKIGIDIVENKRINLNDKFLKKFLHESEFILLNKLQSQEAKTQFVAGR;locus_tag=LOCUS_15350;note=WP_011183283.1 4'-phosphopantetheinyl transferase superfamily protein (Mesoplasma florum) [pid:58.7%25%2C q_cov:93.9%25%2C s_cov:41.4%25%2C Eval:1.9e-07%2C partial hit],internal stop codon at [934851:934853](-),MGA_1535
sequence1	MetaGeneAnnotator	CDS	935075	935362	.	-	0	ID=MGA_1536;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSTVLRDPKLTYNFFKSLNYVNATTRNNLDTMPYLSTIYTANYLIDGLEIVPSGELKLGEFYGIDALPSRLANFATRATFETKNNVEDIEPEQQK;locus_tag=LOCUS_15360;note=MGA_1536
sequence1	MetaGeneAnnotator	CDS	935510	936148	.	-	0	ID=MGA_1537;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKVKIIGSVDTLIGAFNGLALGMTLSMSVSFMASFPLFQTENQRIGLMDYSNMTEEQIKDKVLNGSAYKKYSLARKISSPMPAIPIFGFTYTNSCITKYVLDPLMVISSQLIADKSTDNLKDFFVVYEDLLAKGYSTTNPLETPVSTCIEVMPKDSRSLFRLTTEMMLMGTAIFVNDTTTTKTEVTSVQLINALDKYYLSTNHDKEKLHEG;locus_tag=LOCUS_15370;note=MGA_1537
sequence1	MetaGeneAnnotator	CDS	936678	937127	.	+	0	ID=MGA_1538;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNKSFKRVNEEVINKIVNENQNFLYTSKNKSIKYLFKLPYGLVVNIYKTNTILLQGEKIEEFASKYLLNSDSDKNKSTLVKKIIELPNIGCDEVGVGDFFGPLITCCAFVEKDFLKKYPLLIKEIVDSKKITDLKIINLFEQIKDKVI;locus_tag=LOCUS_15380;note=WP_002485123.1 ribonuclease HIII (Staphylococcus epidermidis) [pid:33.8%25%2C q_cov:81.9%25%2C s_cov:45.8%25%2C Eval:1.1e-12%2C partial hit],internal stop codon at [937125:937127](+),MGA_1538
sequence1	MetaGeneAnnotator	CDS	937272	937568	.	+	0	ID=MGA_1539;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDQFVDEKNYYKYLLDQKVVIKDIYFETKAESKYISVACASIIARYHFLKEIKRLEKEFQVKLPLGANNHVKDYVNRYKIEKKDIVDKFTKLHFNSKI;locus_tag=LOCUS_15390;note=WP_010989711.1 ribonuclease HIII (Listeria monocytogenes) [pid:40.4%25%2C q_cov:95.9%25%2C s_cov:31.2%25%2C Eval:7.6e-14%2C partial hit],internal stop codon at [937125:937127](+),MGA_1539
sequence1	MetaGeneAnnotator	CDS	937727	937996	.	-	0	ID=MGA_1540;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENTKYPYIVHAELNAILSSKESVRGGIIYTNLFPCNECSKSIIQSGIKKIIYSCDKYEDTVHNKIAKKMLKDAKVELVFKKAVKVSLN;locus_tag=LOCUS_15400;note=WP_032889952.1 cytidine/deoxycytidylate deaminase family protein (Fusobacterium) [pid:61.3%25%2C q_cov:84.3%25%2C s_cov:46.6%25%2C Eval:5.4e-20%2C partial hit],internal stop codon at [938012:938014](-)%2C[938168:938170](-),MGA_1540
sequence1	MetaGeneAnnotator	CDS	938012	938149	.	-	0	ID=MGA_1541;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVQLNAMRSKDPVTQVGCVIVNDLKQVISTGYNGLPRGLNDDNYP;locus_tag=LOCUS_15410;note=WP_011183284.1 dCMP deaminase family protein (Mesoplasma florum) [pid:72.5%25%2C q_cov:88.9%25%2C s_cov:25.5%25%2C Eval:5.4e-12%2C partial hit],internal stop codon at [938012:938014](-)%2C[938168:938170](-),MGA_1541
sequence1	MetaGeneAnnotator	CDS	938296	938505	.	-	0	ID=MGA_1542;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIASAAISSSIYLLSIYNKQNIDKLIILPIVILIFALVLPLTLTFINYYMPAHDLLSARALSVYVHKN;locus_tag=LOCUS_15420;note=MGA_1542
sequence1	MetaGeneAnnotator	CDS	938614	938835	.	-	0	ID=MGA_1543;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIFQIIFITYGTIKIARYTEGLVGSFRFALAIFITYPLTGFFVSATIPSETAIFSGGIGFMASVVGVLGVTT;locus_tag=LOCUS_15430;note=MGA_1543
sequence1	MetaGeneAnnotator	CDS	938965	939516	.	-	0	ID=MGA_1544;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANFNELKLSLVHYFVKVEKYKALEKYSNDYASYLVNPKAEFKIIRVTVGSPVTTDKNLGEIKDTLKKQKREKIDILNIALSDQDIDIALEGTTFSVSNLENIKVKLKPYFSKIDSLKEPEKEEEDERISDEELIEILQNPSKSTNLKFKKAVQRMNKNSPISIILSSIFFILPIVTTILYFL;locus_tag=LOCUS_15440;note=MGA_1544
sequence1	MetaGeneAnnotator	CDS	939523	940446	.	-	0	ID=MGA_1545;product=RluA family pseudouridine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183286.1;translation=MEQLEIKLEQDLGRLDKFLTDYLKKDYDFSRSYVQKLIESNDVLVNDQTVSVKYNLLNGDTIKINLKEPVELTAQAEDIDFEIVYEDKDLLVVNKPNGLVVHPAAGNPNGTLVNGLLFKIKDLSSIGGVLRPGIVHRLDKMTTGLMIVAKNDKSHKKLTEMLANNQIHKEYIALVHGIIEPNAGKINAPIGRHKGDRKKMTITDINSKHAITNFKVLERFENHTKISCIIETGRTHQIRVHLAYIKHPVVGDPLYAFKEDMKDEFGQYLHSYKLAFNHPITNEKIELISELPKQFNDKINMFKRIGE;locus_tag=LOCUS_15450;note=WP_011183286.1 RluA family pseudouridine synthase (Mesoplasma florum) [pid:55.7%25%2C q_cov:96.4%25%2C s_cov:95.8%25%2C Eval:5.2e-90],MGA_1545
sequence1	MetaGeneAnnotator	CDS	940474	940695	.	-	0	ID=MGA_1546;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGIIILILIVYVILEIIELVMRKKDKDKYEFYCDIQNRKQILFEVYYQKFNFKKEEKMTYKQYLKSNQELSKT;locus_tag=LOCUS_15460;note=MGA_1546
sequence1	MetaGeneAnnotator	CDS	940876	941055	.	-	0	ID=MGA_1547;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVLDGAGVTFIPNFIGFQYVINPGAAYGMNAGNLSLAISIAALVTLFLIGVFIFIKNKY;locus_tag=LOCUS_15470;note=MGA_1547
sequence1	MetaGeneAnnotator	CDS	941531	941668	.	-	0	ID=MGA_1548;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKPILIHTVEEAYQHIQNIEKEASIHLLDLREQNFVQSEEFNSK;locus_tag=LOCUS_15480;note=WP_011183288.1 isoleucine--tRNA ligase (Mesoplasma florum) [pid:53.3%25%2C q_cov:100.0%25%2C s_cov:5.0%25%2C Eval:2.1e-08%2C partial hit],internal stop codon at [941270:941272](-)%2C[941531:941533](-)%2C[941681:941683](-),MGA_1548
sequence1	MetaGeneAnnotator	CDS	941681	941962	.	-	0	ID=MGA_1549;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSNLVDFDPKKDYQKQLADVDKFALNNLTLTKTKFFKTMESYSFNSGYKIINNYVANDLSSFYLDFIKDIIYVEAANSTRRRQVQTVMYEQL;locus_tag=LOCUS_15490;note=WP_011183288.1 isoleucine--tRNA ligase (Mesoplasma florum) [pid:54.8%25%2C q_cov:100.0%25%2C s_cov:10.2%25%2C Eval:2.2e-24%2C partial hit],internal stop codon at [941531:941533](-)%2C[941681:941683](-)%2C[942062:942064](-)%2C[942239:942241](-),MGA_1549
sequence1	MetaGeneAnnotator	CDS	942062	942226	.	-	0	ID=MGA_1550;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINSVIFDGKPAYKQLITHGMTNDEKGKKMSKSIGNTIDPLEIANDLGADILRL;locus_tag=LOCUS_15500;note=WP_011166763.1 isoleucine--tRNA ligase (Mycoplasma mycoides) [pid:68.5%25%2C q_cov:100.0%25%2C s_cov:5.9%25%2C Eval:1.1e-15%2C partial hit],internal stop codon at [942062:942064](-)%2C[942239:942241](-)%2C[942338:942340](-)%2C[942368:942370](-)%2C[942422:942424](-),MGA_1550
sequence1	MetaGeneAnnotator	CDS	943358	943570	.	-	0	ID=MGA_1551;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSPVEFRNLCKEYALQQVSNQSEQFRRLGIFTDYDYKYITLTDDFELSELKLFAKMVEKKLIYRDLKPIY;locus_tag=LOCUS_15510;note=WP_011166763.1 isoleucine--tRNA ligase (Mycoplasma mycoides) [pid:71.4%25%2C q_cov:100.0%25%2C s_cov:7.7%25%2C Eval:1.8e-23%2C partial hit],internal stop codon at [943082:943084](-)%2C[943214:943216](-)%2C[943229:943231](-)%2C[943358:943360](-)%2C[943631:943633](-)%2C[943673:943675](-)%2C[943820:943822](-),MGA_1551
sequence1	MetaGeneAnnotator	CDS	944217	944414	.	-	0	ID=MGA_1552;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIALQQLHDNSKELNKEFTKNIVGFNYFGINIDQIFSNNSATENQSINEHIKNPTAFKYGSSLD;locus_tag=LOCUS_15520;note=MGA_1552
sequence1	MetaGeneAnnotator	CDS	944535	944702	.	-	0	ID=MGA_1553;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYNINRPTHFFVAPETFTVGDTTIQKGEKIRSKLSPSIEDPAYFYGTLRGFLDPE;locus_tag=LOCUS_15530;note=MGA_1553
sequence1	MetaGeneAnnotator	CDS	945063	945257	.	-	0	ID=MGA_1554;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGEKKVNPYNIINISSLYTKAGEYEIDSLNINDFNPNSIENNAAYDIKNSQFLINRKNSIEAGT;locus_tag=LOCUS_15540;note=MGA_1554
sequence1	MetaGeneAnnotator	CDS	945393	945605	.	-	0	ID=MGA_1555;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MASIFFDYSSIKLISDSNDKKTQTYSATVRASKNSNIMKGNTTITFDSTQDAVKNAKNPINQQESNLMGT;locus_tag=LOCUS_15550;note=MGA_1555
sequence1	MetaGeneAnnotator	CDS	945898	946236	.	-	0	ID=MGA_1556;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENYELEKRIRSLEKELENYKKREEYTKIGLERTKNVYEIARKNAEIIIAKAISLGQEFKKNIEEVLINIEANPIEFTKYLKEFLDKNDHFLNKKDEHIEKYLDEIINNLKK;locus_tag=LOCUS_15560;note=MGA_1556
sequence1	MetaGeneAnnotator	CDS	946257	946421	.	-	0	ID=MGA_1557;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIETQTISNDKIKYPSISSVPGEMIIFDLIFNIIVSQNEKFREKFKKTAEISLN;locus_tag=LOCUS_15570;note=MGA_1557
sequence1	MetaGeneAnnotator	CDS	946548	947093	.	-	0	ID=MGA_1558;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIINLEENKLNSTESSILKLINTNPDFFCSHSIQEVSKESNVSPSTMTRVCKKLGFKSFKSTQMFVYEKSRMQSGYYKLEENNTIDEIIHNVRGAAIYTINETLNSINIEEIEEISKKIYSSQRIIIFGLEQQQISASSFVLNLSRINIIAQNVSNIHNYVQRTIFFDENDFAIFITRTG;locus_tag=LOCUS_15580;note=MGA_1558
sequence1	MetaGeneAnnotator	CDS	947080	947250	.	-	0	ID=MGA_1559;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSTDYIKEIKKCSDIVELKKIREKHINNRKINSNYLKQYDANKKSKKKEEIRNENN;locus_tag=LOCUS_15590;note=MGA_1559
sequence1	MetaGeneAnnotator	CDS	947518	947694	.	-	0	ID=MGA_1560;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFITGTFCLWLLSVLISYSIFIFVDSTTVGGIYASLIYIFAYNLLGCAFPYEVIARIN;locus_tag=LOCUS_15600;note=MGA_1560
sequence1	MetaGeneAnnotator	CDS	948104	948253	.	-	0	ID=MGA_1561;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKHMAIIYSIKKANSIEELNEIMKVKELTQENKQKRKNLRRKNKYGKKE;locus_tag=LOCUS_15610;note=MGA_1561
sequence1	MetaGeneAnnotator	CDS	948603	948755	.	+	0	ID=MGA_1562;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKANKLDEIAIKKKPNKNISQLIFANKALCSTKIIDIANIKIATNIFII;locus_tag=LOCUS_15620;note=MGA_1562
sequence1	MetaGeneAnnotator	CDS	948795	949037	.	+	0	ID=MGA_1563;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLVENNFSKNNVDLKSNKVFTKLYKQFLIMLIPIALATMKSSTRSPLSSAPVPAFLKANQIKRVSVVIIQPEKITNKSFL;locus_tag=LOCUS_15630;note=MGA_1563
sequence1	MetaGeneAnnotator	CDS	949116	949397	.	-	0	ID=MGA_1564;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKLDLKVKYKKSAMRFFKNTENFVKYLEEDLYKSFKSNKYIAYATELTAALSRKELKQLSALKKKYIQEEIKIMKSENRAIKRQQRQAKKLK;locus_tag=LOCUS_15640;note=MGA_1564
sequence1	MetaGeneAnnotator	CDS	949443	949700	.	-	0	ID=MGA_1565;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNAIKQNEITVKPDPLFKPILKKFETNVEKFREIYNMFLEKNIAYEDDNYIVEIRNIDFHLNELHNILNSLLSTAMNKKSIDQVI;locus_tag=LOCUS_15650;note=MGA_1565
sequence1	MetaGeneAnnotator	CDS	950442	950957	.	-	0	ID=MGA_1566;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGINEEKDLKSALDYLKKNYKVKELSLIGFSMGAHTLNRFALSDNIKKYNIKFAIADSPYFETTKVLKKIINSIGGSLVGNFLDKLLVEVYKVYNNKYKINIEEDTLTYRIPLCKNTFPILYLHSKKDIVTNYQDSEKFYNLRKVLKVKDSLHIFQTGEHIRTQIVHTEMY;locus_tag=LOCUS_15660;note=WP_011166764.1 alpha/beta fold hydrolase (Mycoplasma mycoides) [pid:32.0%25%2C q_cov:98.2%25%2C s_cov:52.3%25%2C Eval:4.7e-22%2C partial hit],internal stop codon at [951093:951095](-),MGA_1566
sequence1	MetaGeneAnnotator	CDS	951093	951344	.	-	0	ID=MGA_1567;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNELLIEKIISILNNRNRNNFDIYKNKGYINLLGLYQQAIFDQTNDQEVLNLNIKNFKKVEFKSFDSKNLVGIVHLNEKRSKK;locus_tag=LOCUS_15670;note=MGA_1567
sequence1	MetaGeneAnnotator	CDS	952007	952624	.	-	0	ID=MGA_1568;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSQSERENALTGSKLLQSSAARAYISTTLDRSEMARYFSKTIDEPNQNSKMLRNTYTGVGVAADENVVDYTKYIAAQYESNIKKVSTPSSNDLTALDDGKDPFKNNSEKLVGKTQEQLRDETVKFIKDNNLKTQKVKGYDGQRVILKLILSPSNNTSMNPYINLMMKKFNSISDNPLYIETKTLSSTDEYKTEGSKGATDLFMSG;locus_tag=LOCUS_15680;note=MGA_1568
sequence1	MetaGeneAnnotator	CDS	953795	954496	.	-	0	ID=MGA_1569;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFQDPGSSLNDRMAIEEIIAEGMENFSELYKSQEAKELYVKEFNEANPNEKIILDDATPAKVKKHIILKLVNSVGLLPEHLSRYPHEFSGGQRQRVGIARSLAMRPKVIVADEPISALDVSIRAQVLNLFKKFQEELGITYVFVAHDLSVVRHIADRIAVIYHGQIVEIAPAEELFKNPLHPYTRALLSAIPIPEPELAKKTKLVVYNPEEEHKDYIFDLPYFKEIKKDHFV;locus_tag=LOCUS_15690;note=WP_011182994.1 ATP-binding cassette domain-containing protein (Mesoplasma florum) [pid:63.4%25%2C q_cov:100.0%25%2C s_cov:38.1%25%2C Eval:4.6e-84%2C partial hit],internal stop codon at [953795:953797](-),MGA_1569
sequence1	MetaGeneAnnotator	CDS	954923	955123	.	-	0	ID=MGA_1570;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQFQLKALSSPMSKREKYVSYYNSLIYVKRSDFFEECKKQFEMMKQEGIDSSDKEYKKLEYFIRDF;locus_tag=LOCUS_15700;note=MGA_1570
sequence1	MetaGeneAnnotator	CDS	955181	955909	.	-	0	ID=MGA_1571;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSTNKEVLLNIRDLVIEFRNKGKKFRAVKETSFDIYKGEIFGLVGESGSGKTTIGRAIVGVQPLKDGAIYMDDNIVAGRPTSLYKLNKEISKKLENMSYKMNITTREIQSRIDGLKALYENFLENPRTLNKEELEKYAKSSRLDYLKDILLENLKYINSIIKNEDRMIKFIDNLNSYVPKVSKKLEGSILSKLKETKKAIISMKDNADEIYLQIKEIRNYRESINEVSTDEVELVVKKILNL;locus_tag=LOCUS_15710;note=WP_014584437.1 ATP-binding cassette domain-containing protein (Mycoplasma leachii) [pid:32.0%25%2C q_cov:91.3%25%2C s_cov:39.5%25%2C Eval:2.0e-32%2C partial hit],MGA_1571
sequence1	MetaGeneAnnotator	CDS	956199	956723	.	-	0	ID=MGA_1572;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKALKEIRKLRGKTISTIFQDPMTSLNPLLPVGFQITEVLRKQIGLNRKEAKVEAIELLRKVGIPNPEKRFKDIPGRYSGGMRQRVVIAIALAARPKILICDEPTTALDVTIQAQILDLIKELQQEYKFSVVFITHDLGVVAKIADRVAVMYAGQIIEVGTAKEIFDDPKHPYT;locus_tag=LOCUS_15720;note=WP_011166384.1 ATP-binding cassette domain-containing protein (Mycoplasma mycoides) [pid:78.2%25%2C q_cov:97.7%25%2C s_cov:30.0%25%2C Eval:3.0e-72%2C partial hit],internal stop codon at [956004:956006](-)%2C[956199:956201](-),MGA_1572
sequence1	MetaGeneAnnotator	CDS	957606	957803	.	-	0	ID=MGA_1573;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKENRIISVRDMEVKFQVRGNFLTAIRNVDLDLYDQEILAIVGESGSGKSVITKTFTGMLEANG;locus_tag=LOCUS_15730;note=WP_011182993.1 ATP-binding cassette domain-containing protein (Mesoplasma florum) [pid:67.7%25%2C q_cov:95.4%25%2C s_cov:11.9%25%2C Eval:2.0e-17%2C partial hit],internal stop codon at [957606:957608](-),MGA_1573
sequence1	MetaGeneAnnotator	CDS	957934	958209	.	-	0	ID=MGA_1574;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAAVIRVQIMLVRNAEYNIASRVLGTPSSKIIRKNIMPKILPIVIQTSTFAIPTAIAIDALLAYYNFGFVTNTLDQASLGSILNELLSGSD;locus_tag=LOCUS_15740;note=WP_011182992.1 ABC transporter permease (Mesoplasma florum) [pid:56.8%25%2C q_cov:96.7%25%2C s_cov:26.6%25%2C Eval:4.9e-21%2C partial hit],internal stop codon at [957934:957936](-)%2C[958216:958218](-)%2C[958291:958293](-)%2C[958369:958371](-)%2C[958453:958455](-)%2C[958465:958467](-),MGA_1574
sequence1	MetaGeneAnnotator	CDS	958660	958779	.	-	0	ID=MGA_1575;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEQKQYTNEEMNSIDGSLFKMVGAKHEEAERIINKPYSY;locus_tag=LOCUS_15750;note=MGA_1575
sequence1	MetaGeneAnnotator	CDS	958793	958945	.	-	0	ID=MGA_1576;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKFILNGVANKDTFVVLGYIFVSASAGVFSSLIGDLLLATLDPRIKLTK;locus_tag=LOCUS_15760;note=WP_011182991.1 ABC transporter permease (Mesoplasma florum) [pid:42.9%25%2C q_cov:98.0%25%2C s_cov:11.0%25%2C Eval:5.4e-07%2C partial hit],internal stop codon at [958958:958960](-)%2C[959195:959197](-),MGA_1576
sequence1	MetaGeneAnnotator	CDS	958958	959179	.	-	0	ID=MGA_1577;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLTMPMIIVNTRRFVLDEMTADYAKFALSKGLSEKYVFYVHIFRNAGVRLIKTLPEIFVLTLFGSSILVERH;locus_tag=LOCUS_15770;note=WP_011182991.1 ABC transporter permease (Mesoplasma florum) [pid:62.0%25%2C q_cov:97.3%25%2C s_cov:16.0%25%2C Eval:8.0e-19%2C partial hit],internal stop codon at [958958:958960](-)%2C[959195:959197](-),MGA_1577
sequence1	MetaGeneAnnotator	CDS	959195	959497	.	-	0	ID=MGA_1578;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKASGGIPGTFVQDAFAKSIPISFKIGGIGVALSYFLGVPLGILAAKNKEKSADNAINGTSLIISAIPALVVIALLYKMSIYVFGAQGSFEGSNFGTKI;locus_tag=LOCUS_15780;note=WP_011182991.1 ABC transporter permease (Mesoplasma florum) [pid:46.0%25%2C q_cov:99.0%25%2C s_cov:22.5%25%2C Eval:1.0e-18%2C partial hit],internal stop codon at [958958:958960](-)%2C[959195:959197](-),MGA_1578
sequence1	MetaGeneAnnotator	CDS	959516	959908	.	-	0	ID=MGA_1579;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSVFRRSNASFDEFMQKNPLLSYSFKRIIYAFITLYIAIAFVFVILRFVTTDGAYLADIDLAKHGIVYGSPEYERLLENRMKMFGVYGPMFQQMLIYLRNITPFIPKTILQNPVIDDQTQAITGDPVTM;locus_tag=LOCUS_15790;note=WP_011166382.1 ABC transporter permease (Mycoplasma mycoides) [pid:45.6%25%2C q_cov:81.5%25%2C s_cov:26.8%25%2C Eval:3.8e-21%2C partial hit],internal stop codon at [959516:959518](-)%2C[959915:959917](-),MGA_1579
sequence1	MetaGeneAnnotator	CDS	960105	960266	.	+	0	ID=MGA_1580;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDKNKTSNFQKLKDLRENEKQAHSQQVQDKVSEISKDPIGSKTKYMDSKKLR;locus_tag=LOCUS_15800;note=MGA_1580
sequence1	MetaGeneAnnotator	CDS	960272	960424	.	-	0	ID=MGA_1581;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIQPIISQINIESKANAVIIHSDFSKLLKAKIPMMKLKPIRTKLINKAIR;locus_tag=LOCUS_15810;note=MGA_1581
sequence1	MetaGeneAnnotator	CDS	960753	960905	.	-	0	ID=MGA_1582;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVLLTTKKFNNPIAFFAFSTLSFKNMFFKDNANLNNKMAMYCAKQHMAQ;locus_tag=LOCUS_15820;note=MGA_1582
sequence1	MetaGeneAnnotator	CDS	961159	962319	.	-	0	ID=MGA_1583;product=cell division protein FtsZ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166766.1;translation=MSTKLEFNQNAKIKVIGVGGGGCNAVNRMVDDNVQGVEFIVANTDAQVLSASAASTKIILGQQVSKGLGAGANPEIGKQAAIETEEEIKKVLQGSDLIFVAAGMGGGTGTGAAPEIARIAMETGALVIAIVTKPFRFEGRLRNSYAVQGLNELRKYVDSIIVISNDRLLEIIGGIPVQDSFREADNILKQGVQTITDLIAVPAVINLDFADVRTVMKGKGNALFGIGIGSGEDKAIEAANKAITSSLLETSIRGAKDAIINVTGGKTVSLNDAYDAVDIVQQASGEDVNIIFGIAINEHLDDDLIVTVIATGFDDEYVPPKIINDNSSQKTNEQQHLVSQQGVYQEEPVETVYDQRTSFMANQDKRPEYVKQMEEENRQGQERLVQ;locus_tag=LOCUS_15830;gene=ftsZ;note=WP_011166766.1 cell division protein FtsZ (Mycoplasma mycoides) [pid:58.5%25%2C q_cov:94.3%25%2C s_cov:96.6%25%2C Eval:1.4e-114],MGA_1583
sequence1	MetaGeneAnnotator	CDS	962374	962568	.	-	0	ID=MGA_1584;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDNPNQVQNHPRMQGMPMPQNRAMTQQEYMMQNQQKVYQQNQQMNQQLNQQMLIQQNYQNNENF;locus_tag=LOCUS_15840;note=MGA_1584
sequence1	MetaGeneAnnotator	CDS	962665	963015	.	-	0	ID=MGA_1585;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAAKFDISNKYIFKLLNFSSTTLDNIVIYRKYIASEKRTYELKTIDIKKLLLEELNSVIDKVDVLIEREMSAVKNFKVYHTGKITEIAGFEKILLRSKHKNISEAYYSLITGASEI;locus_tag=LOCUS_15850;note=MGA_1585
sequence1	MetaGeneAnnotator	CDS	963121	963798	.	-	0	ID=MGA_1586;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQNFEQLERLVSRMYNETYAAIEISKKYIKFVVGKYKQHIGLKIVFKEREKSKGNWLTENNDIVDTNLVAHRLIKMINKYESMYKEKIRRVSVIYPTGTLQIKEASPSIFIETPDKVIRSEHIRTLYKNAKKVIFNDNQIVTNIKPYEFRINNSHSVAKPPVNIKANLLSMNAKVYTAEKHVVDSFDRVLKTLNIEKLTVASQLYSLAKQCNDGLNFRHTFALIN;locus_tag=LOCUS_15860;note=MGA_1586
sequence1	MetaGeneAnnotator	CDS	963785	964159	.	-	0	ID=MGA_1587;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVNIIKECLPQKILKQKKHPAKKVFQALRIYINNELEVLKRSLSNSLELLNPGGVIAVITFHSLEEKIIKDIFKTKTISKEDKFLSKLPVFMETKKDFELIIKRPILPQEEELEKNRRAHSAKL;locus_tag=LOCUS_15870;note=WP_011183293.1 16S rRNA (cytosine(1402)-N(4))-methyltransferase RsmH (Mesoplasma florum) [pid:54.8%25%2C q_cov:100.0%25%2C s_cov:40.3%25%2C Eval:3.3e-33%2C partial hit],internal stop codon at [963785:963787](-)%2C[964220:964222](-),MGA_1587
sequence1	MetaGeneAnnotator	CDS	964220	964705	.	-	0	ID=MGA_1588;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAQEHTSVLLNESIELLNIKNNGIYVDCTLGRAGHSAEILKKIDQGHLYAIDQDEEAIAISRKKLEIISSNFTILEGNFADIKVLLSLKGVKKVDGILYDLGVSSPQFDKAERGFSYRFDSELDMRMDQKNTKITAKDVVNSYDEKQLAEIFFKYGDEKFS;locus_tag=LOCUS_15880;note=WP_011183293.1 16S rRNA (cytosine(1402)-N(4))-methyltransferase RsmH (Mesoplasma florum) [pid:63.5%25%2C q_cov:98.8%25%2C s_cov:51.6%25%2C Eval:1.2e-53%2C partial hit],internal stop codon at [964220:964222](-),MGA_1588
sequence1	MetaGeneAnnotator	CDS	964981	965136	.	-	0	ID=MGA_1589;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFGKFEHNLDDKSRLTIPSKLRNKLGELVYVTRSIDGNCLEIRTPENFKE;locus_tag=LOCUS_15890;note=WP_011183294.1 division/cell wall cluster transcriptional repressor MraZ (Mesoplasma florum) [pid:55.8%25%2C q_cov:100.0%25%2C s_cov:33.8%25%2C Eval:3.4e-09%2C partial hit],internal stop codon at [964789:964791](-)%2C[964801:964803](-)%2C[964981:964983](-)%2C[965143:965145](-),MGA_1589
sequence1	MetaGeneAnnotator	CDS	965441	965584	.	-	0	ID=MGA_1590;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTNNIKDISERIIPLSAINSLNENGFNTFSYEIDEKTFYEIVQNSDP;locus_tag=LOCUS_15900;note=MGA_1590
sequence1	MetaGeneAnnotator	CDS	965699	965875	.	-	0	ID=MGA_1591;product=50S ribosomal protein L32;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183295.1;translation=MAVPFRKTSKAAKNKRRSHLALVSSAIISCPNCGSMIKPHRVCRECGYYKNKEVKKVD;locus_tag=LOCUS_15910;gene=rpmF;note=WP_011183295.1 50S ribosomal protein L32 (Entomoplasmataceae) [pid:84.2%25%2C q_cov:98.3%25%2C s_cov:96.6%25%2C Eval:3.1e-23],MGA_1591
sequence1	MetaGeneAnnotator	CDS	965926	966075	.	-	0	ID=MGA_1592;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDYAIEQIVLNIPMNLTNNYGKISFVGKDYILMSEEEYQQEQENQVDSR;locus_tag=LOCUS_15920;note=MGA_1592
sequence1	MetaGeneAnnotator	CDS	966148	966393	.	-	0	ID=MGA_1593;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKKEIELKKVINLDKELEISSSLNINHDLIKSIDKVHIKGTLSYQDLMKSLIVNAKITASISAIDARDGKVIQLLDQNYD;locus_tag=LOCUS_15930;note=MGA_1593
sequence1	MetaGeneAnnotator	CDS	966393	967172	.	-	0	ID=MGA_1594;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSPLSKLRETFRLSLSRSIIETASFNYSKGNKNVKLYEFADIYNMDDLRQRHLAILISGDVINQKSYDLSIKSSYAYLKGICDSILQTTYNLNLNEVEFELNEKAPNDIHPFINAKITSKGKTLGFIYKLNPRFEQSQKLDSTFVLELNITELQEIKNSVIRAQEVSKFQKTTRDVSFILNLKDKYSEIIKTIINKVNHLTKVELIDIYQDEKLRNSNSKSVSVSFEFNSIEKQLTDQEVQKELDKVLSNLSKLKIEVR;locus_tag=LOCUS_15940;note=WP_011183297.1 phenylalanine--tRNA ligase subunit beta (Mesoplasma florum) [pid:44.8%25%2C q_cov:100.0%25%2C s_cov:32.5%25%2C Eval:1.1e-60%2C partial hit],internal stop codon at [967206:967208](-),MGA_1594
sequence1	MetaGeneAnnotator	CDS	967206	967592	.	-	0	ID=MGA_1595;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKESNEKQVEVSVKLEYIHKLMGINLTGKEIKSLFKTLDFEITDNGDELLFKVDEFRTDIFHSANIVEEITRIYGYDNVQSTPPKILSDNKTKKLDLRLQKQSENYLLGLGFTNIKTYSLLSSDTVQR;locus_tag=LOCUS_15950;note=WP_011166772.1 phenylalanine--tRNA ligase subunit beta (Mycoplasma mycoides) [pid:45.1%25%2C q_cov:95.3%25%2C s_cov:15.4%25%2C Eval:9.8e-25%2C partial hit],internal stop codon at [967206:967208](-)%2C[967638:967640](-),MGA_1595
sequence1	MetaGeneAnnotator	CDS	967638	967991	.	-	0	ID=MGA_1596;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLANAIAIETGQPILFLDPSKLKSQLEIKNNKNADHSVNLQLLSDKEVISTLGIEINQKYLPTVDSKEILVVYLSLDPIFMRKQQKEFNTSTIDLQRYMKPVSSKLYKIAQDRVIY;locus_tag=LOCUS_15960;note=MGA_1596
sequence1	MetaGeneAnnotator	CDS	968031	968294	.	-	0	ID=MGA_1597;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLTLNRSDALGALQLAKELANYFDKDLNDFTKNYTFKENSLNSPVSIKIDKEVEKVVRSVAMQVISVKDVLTIGEKEHKIYSNQDI;locus_tag=LOCUS_15970;note=WP_011183297.1 phenylalanine--tRNA ligase subunit beta (Mesoplasma florum) [pid:39.0%25%2C q_cov:94.3%25%2C s_cov:10.1%25%2C Eval:4.4e-09%2C partial hit],internal stop codon at [967992:967994](-)%2C[968031:968033](-)%2C[968298:968300](-)%2C[968388:968390](-),MGA_1597
sequence1	MetaGeneAnnotator	CDS	968388	968765	.	-	0	ID=MGA_1598;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNGVKNEQITVALNSLGFEVDSFKDYSSLNDKLKIAHVGNVTPIEGTHLNFCFVDKGDDLVSPIVCGASNVKEGQYVILAEAGKKIANGLKLENREIKGKMSEGMICALTEIGLNEKALSEEEKD;locus_tag=LOCUS_15980;note=WP_011183297.1 phenylalanine--tRNA ligase subunit beta (Mesoplasma florum) [pid:47.6%25%2C q_cov:99.2%25%2C s_cov:15.6%25%2C Eval:8.7e-26%2C partial hit],internal stop codon at [968298:968300](-)%2C[968388:968390](-)%2C[968784:968786](-),MGA_1598
sequence1	MetaGeneAnnotator	CDS	968819	969160	.	-	0	ID=MGA_1599;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCKRLFGEDAVIRMRPSFFPFTEPSAEVDVRCINCSGKGCSICKYTGFIEILGSGMLAPEVMEANGLDPEKVTGLAFGVGIERLAMLKYGLKNIRDLYENDIRFLDQFKFFGD;locus_tag=LOCUS_15990;note=WP_011183298.1 phenylalanine--tRNA ligase subunit alpha (Mesoplasma florum) [pid:70.8%25%2C q_cov:100.0%25%2C s_cov:32.3%25%2C Eval:5.0e-45%2C partial hit],internal stop codon at [969173:969175](-),MGA_1599
sequence1	MetaGeneAnnotator	CDS	969173	969880	.	-	0	ID=MGA_1600;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKGVLMLQKINKILEGFNKKIITIKTKEELEILKKEFVGKDSPLNDILKNLKSATPEERKEAGQKANEIKEIISEKLNDLSDKFENEELKKVLEKEKIDLTLSGINLKMGAKHPLNLVIDEISSIFTELGYEMVDGTEFETDEYCFQKLNMPIGHPARDMQDTFYIDNHTVLRTHATNMTARMLTQAAKTGNINMAAVSYGNVYRRDDDDATHSHQFMQMDLFAIGEKISFANLK;locus_tag=LOCUS_16000;note=WP_011166773.1 phenylalanine--tRNA ligase subunit alpha (Mycoplasma mycoides) [pid:55.6%25%2C q_cov:97.9%25%2C s_cov:66.3%25%2C Eval:3.1e-67%2C partial hit],internal stop codon at [969172:969174](-),frameshifted%2C insertion/deletion at around 969226%2C969202,MGA_1600
sequence1	MetaGeneAnnotator	CDS	970066	970227	.	-	0	ID=MGA_1601;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSVEKIFQRQEIHPIGLFNFSNITSKKKFAKLICLKIQLESELLLNSLEYTAL;locus_tag=LOCUS_16010;note=MGA_1601
sequence1	MetaGeneAnnotator	CDS	970240	970392	.	-	0	ID=MGA_1602;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKGKYKNESIEFNEKYTTNANTLDLKMAKFLDVKRVDALSKLNNKNFYKM;locus_tag=LOCUS_16020;note=MGA_1602
sequence1	MetaGeneAnnotator	CDS	970510	970974	.	-	0	ID=MGA_1603;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIKKSIFGGIIDYIILSLVIINIPLIFLIKLTSRSSYKECSSINKVIYNANILKDIYNYYYSTNDKFKELKNVSLVYLNSNLTLVEKNGNIMEYLQTKNDNEIYYKDINFLKFEYKNKESFFYIDNPLTFNFTDNEELFFIDFYEIFFIIVII;locus_tag=LOCUS_16030;note=MGA_1603
sequence1	MetaGeneAnnotator	CDS	970993	971157	.	-	0	ID=MGA_1604;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKMKIKVDTNLYSKVRESVKSDNDLKKKIKKLTRNKKLIIMYEFILISLTVF;locus_tag=LOCUS_16040;note=MGA_1604
sequence1	MetaGeneAnnotator	CDS	971282	971623	.	-	0	ID=MGA_1605;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLSLTQMRTGVNPNELNENMKLLDKVSKDVTMRLENYPQLQSTKLVQELMSAVSEVENDISASRRIYNSNVSIFNQTISVYPLNSAARQLNFVYKYLLEFSSEELEDVEIKF;locus_tag=LOCUS_16050;note=WP_010871101.1 LemA family protein (Methanocaldococcus jannaschii) [pid:31.0%25%2C q_cov:99.1%25%2C s_cov:61.4%25%2C Eval:3.6e-11%2C partial hit],MGA_1605
sequence1	MetaGeneAnnotator	CDS	972059	972598	.	-	0	ID=MGA_1606;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSFTFKGRNAKYLIKNPIYTTNDYSERRNYDQTENSSEVLISRDKLIIKDEYLKNNSNGIPIFNRKRTLLNGDYKSESIELNNKYKTNANSLDIRMNKFLTPNALDNLSKIENKNFYKMGVKDDLFVKKEMVLKAIYPIGVFNFFKLYSSKKIVEIIYKKIELEAELFLQSLEYVSFLK;locus_tag=LOCUS_16060;note=MGA_1606
sequence1	MetaGeneAnnotator	CDS	972944	973393	.	-	0	ID=MGA_1607;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENFKIINKFKINNSIKFKFKNQIIQISYHELFLDENTNKIYCKIEVDFFDINIDQINFNNFYEFYAKKGTYRMETDENVIKFTLYKVIDRYNDLEDFNYTENSKFELIDTVSIIPGLFAMRKMLNERVNSKMGNIVKKDCFNLINFSF;locus_tag=LOCUS_16070;note=MGA_1607
sequence1	MetaGeneAnnotator	CDS	974137	974487	.	-	0	ID=MGA_1608;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMQKQLKVEYNFNQEKDIREKVENIRNLLLTIFDQAKEININLSDLNKLDNLIHMTYMEVKEIINNGLIVYLFYEKIHCSIEYKNNYYDTDQYFLLKISNFEKKLNTHLNTFLKFF;locus_tag=LOCUS_16080;note=MGA_1608
sequence1	Barrnap:0.8	rRNA	974704	974785	.	-	.	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	974908	977802	.	-	.	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	978108	979624	.	-	.	ID=Barrnap_3;product=16S ribosomal RNA;inference=COORDINATES:profile:Barrnap:0.8;locus_tag=LOCUS_r00030;note=Barrnap_3
sequence1	MetaGeneAnnotator	CDS	980001	980183	.	-	0	ID=MGA_1609;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKQNRKLTPKKLKTDQGLSKSSTVNNLSRGKTKTMEINMDNILDPVNNKKDDQFTPTID;locus_tag=LOCUS_16090;note=MGA_1609
sequence1	MetaGeneAnnotator	CDS	980190	981110	.	-	0	ID=MGA_1610;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFIFGILEVSIKKGVIIPILYTIPAIVLAILNIVFLVNLMQKFTSLSLQISIVSYFLKNIITLSISSLLLLTSIVPIFLLSKKTDKNIKEKDNILSKKSLNDLSSITSSENSKKSPEFNPEFTSTPNEKTFNMVDKLAKLKEDINNNKFHEEELIEEKNIPLEKDFFDDNSLENVPLENNAYENNSLDVEFLDNNPIFKVEKPILKEDKYEEFENNSIKKATNKAMKNVAPVNDIPKLEELPPILEPKDPYKQTIVPRRSAQRAGEFDQPIGNVVKPTYVQRNIRKTAKLDENYQGKVFLGDSDRI;locus_tag=LOCUS_16100;note=MGA_1610
sequence1	MetaGeneAnnotator	CDS	981013	981279	.	+	0	ID=MGA_1611;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKIAKTIAGIVYKIGIITPFFIETSNIPKINNNMINKIEVICKLLSNESSDVETNIPNCSPIRKNPKKLKTDAVTQLNTLKNILIFI;locus_tag=LOCUS_16110;note=MGA_1611
sequence1	MetaGeneAnnotator	CDS	982711	982980	.	-	0	ID=MGA_1612;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRIDSIDEMIKIANDSQFGLQASVFCQDISIALSTAKRIKTGTVNINSRPQRGPDSFPFLGIKDSGEGVQGIRESLLSMTRYQGLVINY;locus_tag=LOCUS_16120;note=WP_011166693.1 NADP-dependent glyceraldehyde-3-phosphate dehydrogenase (Mycoplasma mycoides) [pid:59.1%25%2C q_cov:98.9%25%2C s_cov:18.7%25%2C Eval:2.5e-25%2C partial hit],internal stop codon at [983011:983013](-)%2C[983056:983058](-),MGA_1612
sequence1	MetaGeneAnnotator	CDS	983056	983748	.	-	0	ID=MGA_1613;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGAKNKIGIFSRVAKGVVLAISPFNYPFNLAFAKIIPALVMGNTVVFKPATAGSLVGAYMSNLVIQAGLPKGIFNIVTGRGREIGDIITSNPEIDMISFTGSVGIGNQIRKMGSTTDLVLELGGKDPALVLDDLNLEKYADEIINGAYGYSGQRCTAVKRVLVNNKIADKLVLILKTKINSLSVGMPKDNAFITPVIDEKSADFIQGLIDDAKNKGAEIITGNKREKNLM;locus_tag=LOCUS_16130;note=WP_011166693.1 NADP-dependent glyceraldehyde-3-phosphate dehydrogenase (Mycoplasma mycoides) [pid:69.4%25%2C q_cov:99.6%25%2C s_cov:48.6%25%2C Eval:1.5e-87%2C partial hit],internal stop codon at [983011:983013](-)%2C[983056:983058](-)%2C[983962:983964](-),MGA_1613
sequence1	MetaGeneAnnotator	CDS	984145	984882	.	-	0	ID=MGA_1614;product=RNA methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183155.1;translation=MKITSVTNSLIEEILSYKDTKTQKQTNKYLIEGIKMVDLAIKKNVVEMILVETKLFEKYKNFENVVEISDNVSKKISDLKTTQSIFAVCKIIKQEDLPGNYLILDGVQDPGNLGTLIRSAFAFGFKNIICSNDCVSFYNSKVLRATQSNHFDLNLKNEELINFINKLKQRNIIILGTLLRKNSCNLNEIKNKQIALILGNEGNGISKEVSKTIDKNIIINTDSELESLNVAIAGSILMNNIYSLK;locus_tag=LOCUS_16140;note=WP_011183155.1 RNA methyltransferase (Mesoplasma florum) [pid:50.0%25%2C q_cov:98.0%25%2C s_cov:98.4%25%2C Eval:7.6e-56],MGA_1614
sequence1	MetaGeneAnnotator	CDS	984884	985081	.	-	0	ID=MGA_1615;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEENRLKRQKGEKLSGMSTIQAKLLDPPRRASLVFGYPVNNPKYKGKDFANPENKLYEIGFALTE;locus_tag=LOCUS_16150;note=MGA_1615
sequence1	MetaGeneAnnotator	CDS	985382	985990	.	-	0	ID=MGA_1616;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSEKKDLKNIYNYKPSNPDDPKIPSFDQELSNQYISSFDDSKFYFESSINKNIVENSKNDSEVLIEGLEDNKQNANSIIARIKEFNESKNSPKTQDDELVTNELIMPDPTSELNILNIIRNNKYRSMENIAKTRETIKKTRKEVRIKLTEKEIKKILSTFKIKVIKVTQKEVVLKNSKYGFEIFKNSSDNRYWVVASCFEEI;locus_tag=LOCUS_16160;note=MGA_1616
sequence1	MetaGeneAnnotator	CDS	986339	986512	.	-	0	ID=MGA_1617;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTKDNLIYLRDKQKILDNYIMEAKNLVLNKIIIKKKIIAFLVEISEFINEYREFKY;locus_tag=LOCUS_16170;note=MGA_1617
sequence1	MetaGeneAnnotator	CDS	987053	987691	.	-	0	ID=MGA_1618;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVANNLRTKINVLLVVGIGGSYLGARAAEEMIRGLYSNDRVELIYIGNTISSTYTEQIVNYIKNKEFGIVNISKSGTTTEPGIAFRVFKKLLVDLKGKEVAKERIVAVTDKTKGALKQLATAEGYETFTIPDDIGGRFSVFTPVGIFPLLVSGINVDDIFKGAKKAMEDTKNIGNEAYKYAVARYILNAQKGYKAETLISYELQMQMFTE;locus_tag=LOCUS_16180;note=WP_011166689.1 glucose-6-phosphate isomerase (Mycoplasma mycoides) [pid:69.3%25%2C q_cov:100.0%25%2C s_cov:49.9%25%2C Eval:1.8e-76%2C partial hit],internal stop codon at [987050:987052](-)%2C[987053:987055](-)%2C[987725:987727](-)%2C[987734:987736](-),MGA_1618
sequence1	MetaGeneAnnotator	CDS	987734	987862	.	-	0	ID=MGA_1619;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKINLEYSKIEKEVKSFDESKLKKVHEMIENKTGVGSDFLG;locus_tag=LOCUS_16190;note=MGA_1619
sequence1	MetaGeneAnnotator	CDS	987883	988206	.	-	0	ID=MGA_1620;product=S1 domain-containing post-transcriptional regulator GSP13;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003722395.1;translation=MLNKGQKVNAKITAIVNYGAFCEVIDEDQVIKGLIHISEISDFFVKSVDEFLALNEEYEVEVIETLTDKNQVKLSYKSIRPELLKTPETKIKETKSGFDNLKNSVES;locus_tag=LOCUS_16200;gene=yugI;note=WP_003722395.1 S1 domain-containing post-transcriptional regulator GSP13 (Listeria monocytogenes) [pid:34.6%25%2C q_cov:95.3%25%2C s_cov:88.0%25%2C Eval:1.8e-10],MGA_1620
sequence1	MetaGeneAnnotator	CDS	988296	988538	.	+	0	ID=MGA_1621;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKISNLEEKVKATLEQLRMYITQDGGDMEFVAIKNRLVYIRLKGNCVGCGLTELTFKEGVEGVLIEEFPYDIDGVELVM;locus_tag=LOCUS_16210;note=WP_004596187.1 NifU family protein (Rickettsia prowazekii) [pid:32.4%25%2C q_cov:87.5%25%2C s_cov:37.4%25%2C Eval:1.8e-07%2C partial hit],MGA_1621
sequence1	MetaGeneAnnotator	CDS	988556	988765	.	+	0	ID=MGA_1622;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFLTPETDIIIAICNGISATTLVTVSFILPFLIKKYNDKKQKIDSGERSLADAFDKYFSDQYPKNDFE;locus_tag=LOCUS_16220;note=MGA_1622
sequence1	MetaGeneAnnotator	CDS	989022	989531	.	-	0	ID=MGA_1623;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYPSCILKGDRAQGDTISIAVAKKGVYQDAGSKMIHLGKETKSKIVSKSITFQGGTANYRGLAYIGPNAINSKARVECDTLILDNQSHSDTIPQNKVHNNQSQIEHEATVSKVSEEQLFYLMSRGLDEQQALEIIVMGFLEPFTKELPLEYAVELNQLIKMDMEGSVG;locus_tag=LOCUS_16230;note=WP_001118827.1 Fe-S cluster assembly protein SufB (Bacillus) [pid:65.7%25%2C q_cov:100.0%25%2C s_cov:36.3%25%2C Eval:1.4e-60%2C partial hit],internal stop codon at [989562:989564](-)%2C[989628:989630](-),MGA_1623
sequence1	MetaGeneAnnotator	CDS	989880	990026	.	-	0	ID=MGA_1624;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEELEKQGVIFTDCDSALSKYPELFKKYFGQLVKNDDNKYASLNGAV;locus_tag=LOCUS_16240;note=WP_003640267.1 Fe-S cluster assembly protein SufB (Lactobacillaceae) [pid:64.6%25%2C q_cov:100.0%25%2C s_cov:10.3%25%2C Eval:9.6e-12%2C partial hit],internal stop codon at [989628:989630](-)%2C[989880:989882](-)%2C[990051:990053](-)%2C[990144:990146](-)%2C[990204:990206](-)%2C[990282:990284](-),MGA_1624
sequence1	MetaGeneAnnotator	CDS	990282	990434	.	-	0	ID=MGA_1625;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLKQEEEIKQISDYKYGFNEGEVSTYKVQKGLNVDVVKEISKHKNEPK;locus_tag=LOCUS_16250;note=MGA_1625
sequence1	MetaGeneAnnotator	CDS	990522	990872	.	-	0	ID=MGA_1626;product=SUF system NifU family Fe-S cluster assembly protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011228878.1;translation=MFDKNDKIQLRQIIMEHYTEPDFKGLIENDKALIKFQDSPTCSDEINVQLLIENDNIVDARFDGNACAISTASTDILCSKIKGLKIKEAQEQLVNYYNMISGNEYNELILDELIAF;locus_tag=LOCUS_16260;note=WP_011228878.1 SUF system NifU family Fe-S cluster assembly protein (Thermus thermophilus) [pid:33.3%25%2C q_cov:90.5%25%2C s_cov:75.4%25%2C Eval:2.1e-11],MGA_1626
sequence1	MetaGeneAnnotator	CDS	990905	991231	.	-	0	ID=MGA_1627;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQNLIAYEKELKIYFRSKLKQIDKTKFEFYNIENDQPIVLFNLKNVNSQDFGAFLNKKYNISVRVGKHCARLATDLLKVNSTIRASFSIYNTKEDIDKFIEALKDCDS;locus_tag=LOCUS_16270;note=WP_011166685.1 aminotransferase class V-fold PLP-dependent enzyme (Mycoplasma mycoides) [pid:45.4%25%2C q_cov:99.1%25%2C s_cov:26.2%25%2C Eval:5.3e-23%2C partial hit],internal stop codon at [991412:991414](-),MGA_1627
sequence1	MetaGeneAnnotator	CDS	991412	991615	.	-	0	ID=MGA_1628;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSNTTAGLNNVKEIVKKIKSFNKEIIVILDLAQSIAHNIINVKDLNVDCIAFSTHKVYGPFGLGIL;locus_tag=LOCUS_16280;note=WP_011166685.1 aminotransferase class V-fold PLP-dependent enzyme (Mycoplasma mycoides) [pid:58.5%25%2C q_cov:97.0%25%2C s_cov:15.8%25%2C Eval:4.3e-17%2C partial hit],internal stop codon at [991412:991414](-)%2C[991739:991741](-),MGA_1628
sequence1	MetaGeneAnnotator	CDS	991739	992101	.	-	0	ID=MGA_1629;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFKDNFSYFKNNSNEIYFDSAATSIKFDEVIKAQSEYDLKIGANAHNNLFNNAYKANQILSETREKIANFIGVEDKNEIIFTSGTTHSLNQLAFGMRNYLKVNDEILLTKIEHSSNLLP;locus_tag=LOCUS_16290;note=WP_011183145.1 aminotransferase class V-fold PLP-dependent enzyme (Mesoplasma florum) [pid:44.5%25%2C q_cov:99.2%25%2C s_cov:29.2%25%2C Eval:1.1e-23%2C partial hit],internal stop codon at [991739:991741](-),MGA_1629
sequence1	MetaGeneAnnotator	CDS	992101	992871	.	-	0	ID=MGA_1630;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTNFELNKSYIDFRDNLPSSFTFDSNENKIILLENKFGTVDLNLQEDVEITIIILFLPSKNNSKKDFNINFNLSKNSKLNLKISNIANYNCDDNFSINLNEENTAVEFYNATIINKNFNKNSIIKSIHNARNSYSNIKTYEVLKDTSKGFIRCISDIKKGSNQAEAHQELRLLVLDKEAKADSDPVLLIDENDIVASHANAIGMLDPDQVFYLLSRGLNKVQAQELIINGYFEPIFQEIKDEKLLDYLKEKLKEMI;locus_tag=LOCUS_16300;note=WP_010989989.1 Fe-S cluster assembly protein SufD (Listeria) [pid:33.3%25%2C q_cov:62.1%25%2C s_cov:35.8%25%2C Eval:5.3e-23%2C partial hit],MGA_1630
sequence1	MetaGeneAnnotator	CDS	992892	993614	.	-	0	ID=MGA_1631;product=Fe-S cluster assembly ATPase SufC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001831944.1;translation=MHKLEIKNLYVSIEEKEILKGVNLTVNSGEIHALMGPNGNGKSTLLMAIMGHPKYEIISGDVLIDGESILEMSVDERSKAGLFLAMQNPQTIPGVSNLEFLKYIVNAHSDEKKKLQEIFKDIKSGAKDLDFDLNMLKRFVNDGFSGGEKKKNEILQLKMLNPIFSLIDEIDSGLDVDALKVVSKNLNQVDLARNAMIIVSHYDRFFKKVKPTHAHVIIEGKIVTSGGNEIVDRINKEGYS;locus_tag=LOCUS_16310;gene=sufC;note=WP_001831944.1 Fe-S cluster assembly ATPase SufC (Staphylococcus) [pid:56.3%25%2C q_cov:98.3%25%2C s_cov:94.1%25%2C Eval:3.0e-73],MGA_1631
sequence1	MetaGeneAnnotator	CDS	993792	994139	.	+	0	ID=MGA_1632;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLTLLGSVSLVATTAQMAVACSTNYDKKDKDGNSILIQFLQSINGKAQISTNDILVKLINAENGPKNKEKLTLDLLKMINLSILANSDKNTDLINDKNIYTNYDLSTILKDR;locus_tag=LOCUS_16320;note=MGA_1632
sequence1	MetaGeneAnnotator	CDS	994236	994403	.	+	0	ID=MGA_1633;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLVNKYSVYQDDVKSMDKDFLENKYKSDILLSDANNNASKTLLDILINTDQMGVT;locus_tag=LOCUS_16330;note=MGA_1633
sequence1	MetaGeneAnnotator	CDS	994584	994760	.	+	0	ID=MGA_1634;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSDKELADKAREVINDTNITREKIQYDAPVNLNNFTVSDTNSSRAGFLSNSQRFFLDK;locus_tag=LOCUS_16340;note=MGA_1634
sequence1	MetaGeneAnnotator	CDS	994947	995573	.	+	0	ID=MGA_1635;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIAGKADYREDATVKHYDKLMTLSNSTDFTQDMRTVVYDYVLGGNEKNGIALPLDETTKAPTVESLIDKISRKKGTEKNFYAYNDKGQVFYVDASGLHIVKIDRYDLLNKTATDKKGIKQEGLDGTKINSNTTNELNTFKNFNKLKPEQKVEELQNISNAEKEKEGSYYRSLNSTVKNDYLHYLVNTSMLKGLSGSASSFDIMTEVKK;locus_tag=LOCUS_16350;note=MGA_1635
sequence1	MetaGeneAnnotator	CDS	995619	995765	.	+	0	ID=MGA_1636;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTCVLDYFFEISIGTEKNLSQEQFIQNYVEFGKSDNSTTQETIDKTKD;locus_tag=LOCUS_16360;note=MGA_1636
sequence1	MetaGeneAnnotator	CDS	996101	996532	.	+	0	ID=MGA_1637;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLGILSAVSLTVSSPSLVVACATKERITSPKLNRDLAKQLLVSISGNKDLANIDFGSMFTDSEIESVVVNMVNELLSLQYSFDSTNSIYDRLGFKEKYTSTSEGIENLFKDKYKLETRTIAENKLFEEYTKSIKGDRLDY;locus_tag=LOCUS_16370;note=MGA_1637
sequence1	MetaGeneAnnotator	CDS	997457	997588	.	+	0	ID=MGA_1638;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIELLGGSNPTESTYEITGKGKDDKKAMIFSNTIGNDNVYTDR;locus_tag=LOCUS_16380;note=MGA_1638
sequence1	MetaGeneAnnotator	CDS	997905	998306	.	+	0	ID=MGA_1639;product=HIT family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166682.1;translation=MDCIFCKIIDKEMNAKIIYENDYTLAFLDIFPNSNGHSLVIPKKHFEDYEQTDDFYLQEVAKTKKIVAKILKEKLNAKGINYVSNQGSEAFQVVFHYHEHIVPKYIKEKGYTFKINTEPGDLLDLDIIYKKLK;locus_tag=LOCUS_16390;note=WP_011166682.1 HIT family protein (Mycoplasma mycoides) [pid:57.9%25%2C q_cov:85.7%25%2C s_cov:86.4%25%2C Eval:1.3e-34],MGA_1639
sequence1	MetaGeneAnnotator	CDS	998386	998682	.	-	0	ID=MGA_1640;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEMDGKNASEYTDEGKLLGHISIGNTFVSNKAIELGLKDNKDVLKLQHVILASHGKNEYGSPVEPNLIEAVLISSLDALDARIYKINDELSKVEKGS;locus_tag=LOCUS_16400;note=WP_011166681.1 HD domain-containing protein (Mycoplasma mycoides) [pid:59.4%25%2C q_cov:96.9%25%2C s_cov:31.0%25%2C Eval:1.0e-26%2C partial hit],internal stop codon at [998386:998388](-)%2C[998725:998727](-)%2C[998794:998796](-),MGA_1640
sequence1	MetaGeneAnnotator	CDS	998794	998982	.	-	0	ID=MGA_1641;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFSISAPINVETNYDKLIDFLETIENEHYKKITLSILKEYEVEFKSYPAAVSIHHNVIGGLF;locus_tag=LOCUS_16410;note=WP_011183141.1 HD domain-containing protein (Mesoplasma florum) [pid:57.4%25%2C q_cov:98.4%25%2C s_cov:18.7%25%2C Eval:1.1e-15%2C partial hit],internal stop codon at [998725:998727](-)%2C[998794:998796](-)%2C[999139:999141](-),MGA_1641
sequence1	MetaGeneAnnotator	CDS	999139	999285	.	-	0	ID=MGA_1642;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINQINSDSKLITLIARIEKTILSTGNNGSNYLILNLIDMSGRIEARL;locus_tag=LOCUS_16420;note=WP_011166681.1 HD domain-containing protein (Mycoplasma mycoides) [pid:56.5%25%2C q_cov:95.8%25%2C s_cov:14.1%25%2C Eval:1.1e-07%2C partial hit],internal stop codon at [999139:999141](-),MGA_1642
sequence1	MetaGeneAnnotator	CDS	999688	1000362	.	+	0	ID=MGA_1643;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKSKMIEEYLLKLIKENNKVKTFPSENFLATKFKTTRQTARNELLKLLNKGFLKVKKGSGYYINPHISTIKLTSMGEKLKEEKKEVFEHNSGRLPLILENLNIKNANESNFHSYRKIYYRDKEESFYIDSFINKEVISSLDLFKIKNSLIDFINENEIELDNQINYLKMEPKNKDDIEILKDNVSNFTPVVYGILFSKENKIIEIFERRYKNNTFDVRFSKFY;locus_tag=LOCUS_16430;note=MGA_1643
sequence1	MetaGeneAnnotator	CDS	1000536	1000904	.	+	0	ID=MGA_1644;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITIKKLLSVLASLQVITLTSSTVVACTGPHYSLNYSKDSGKLQQTIKIDNEKLKEFDNTTTLVNYIQKQTKDLNKKPYQVTINVKNSSKNEVKEEDYDKSKEMRFVIVYLKAFLETEDEKQ;locus_tag=LOCUS_16440;note=MGA_1644
sequence1	MetaGeneAnnotator	CDS	1000961	1001449	.	+	0	ID=MGA_1645;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKKRKLEFLTDEYLDTLLSALGGKENIAYSTHCITRFRIVAKDSSLINENKIRSMDGVKGTFTASGQFQIVYGTDVGDVYNTFTNKFNLEKSTKQDVKQIVNKKGNLFKRFLNYMSDIFIPIVPVLVSGGIILGIRNIFEANFNETFFTGRFNADGTPILG;locus_tag=LOCUS_16450;note=WP_011183398.1 PTS transporter subunit EIIC (Mesoplasma florum) [pid:47.0%25%2C q_cov:89.5%25%2C s_cov:28.7%25%2C Eval:9.8e-32%2C partial hit],internal stop codon at [1001447:1001449](+)%2C[1001498:1001500](+)%2C[1001546:1001548](+)%2C[1001669:1001671](+)%2C[1001675:1001677](+)%2C[1001726:1001728](+),MGA_1645
sequence1	MetaGeneAnnotator	CDS	1002158	1002367	.	+	0	ID=MGA_1646;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILNKKDPKAREVGAASVTAAYLGVTEPALYGVNLKYLFPFIAGCISAAIGLEILVISGVTAQAIGNGS;locus_tag=LOCUS_16460;note=WP_011183398.1 PTS transporter subunit EIIC (Mesoplasma florum) [pid:59.4%25%2C q_cov:100.0%25%2C s_cov:13.3%25%2C Eval:2.7e-19%2C partial hit],internal stop codon at [1001960:1001962](+)%2C[1002155:1002157](+)%2C[1002365:1002367](+)%2C[1002440:1002442](+)%2C[1002512:1002514](+),MGA_1646
sequence1	MetaGeneAnnotator	CDS	1003162	1003362	.	-	0	ID=MGA_1647;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKKLYNKNIKLALASASKNSERMLDTLKLTKYFSYITNPDEVAPKPDPEIFIKPYEVLKIDPKDC;locus_tag=LOCUS_16470;note=WP_011476249.1 beta-phosphoglucomutase (Ligilactobacillus salivarius) [pid:43.3%25%2C q_cov:100.0%25%2C s_cov:30.0%25%2C Eval:3.7e-08%2C partial hit],internal stop codon at [1003162:1003164](-)%2C[1003591:1003593](-),MGA_1647
sequence1	MetaGeneAnnotator	CDS	1003672	1004043	.	-	0	ID=MGA_1648;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAARLEIGDFGFDYFKESINLDILDIHKNTSRGLHMANMGGARMFIIYGLLGLNIHKNNIAINPRYNEIISEFKINIEYLQEDISFCLKNKKLVIEKSKSDQAIEIICYDKKYSLTEKLEIEL;locus_tag=LOCUS_16480;note=MGA_1648
sequence1	MetaGeneAnnotator	CDS	1004104	1004304	.	-	0	ID=MGA_1649;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLNPQHDNFLKRKPISKEEIEKYKPLLRTLHPLSINTLRVTKQADVVLANLFFFDKEKKSTMINN;locus_tag=LOCUS_16490;note=MGA_1649
sequence1	MetaGeneAnnotator	CDS	1005049	1005939	.	-	0	ID=MGA_1650;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLLIKKSEFIARERQVEESVFSISNGYLGMRASFEEGSISSISSIEGTYINAFYDLFDIQYAAKYTGYPDVYQRMVPIVNAQNIEIFVNNERYLFDESKVQDYKLEFDMSTGEIRRCYKVLINSENYLELSFKKLLSQKNFDLFLQNINIRTNFKVQTELKLKFPLIFKEQDTDKGIPNDPRSLLKGQESFTTIEKSFNKNHQSIIYQTLKSKLNYIYSTKIKGLENFELNHDEEGLIFTKSVLQEDVNIYKISSIYESRLKEVSVKIAQESVETYSKKNYLEHLQEHILFFKNF;locus_tag=LOCUS_16500;note=WP_003641776.1 glycoside hydrolase family 65 protein (Lactiplantibacillus) [pid:26.3%25%2C q_cov:46.3%25%2C s_cov:17.7%25%2C Eval:6.6e-10%2C partial hit],MGA_1650
sequence1	MetaGeneAnnotator	CDS	1006095	1007963	.	-	0	ID=MGA_1651;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKIKFKNPKKYKGIVESVFVKEGQPVKKNQVLAVISTQLEKFEILSTIDGVIRNIYVIESLIVSHGDTVFDIFSDKEIKVLLKKPSNINDTLREGLNEFGYLEKLINGSEIDEEEIEMTFENDDDLSKLQNFSQDFEQETNLGAPEKLEKDYQIESIQEEKEEAPGLLTQEMSNLSYSIMEKLNKEENDNNKEIIEYSQEIITTSSSNENSDQIIADTQEILVSSNLAEEIKQDNQELKSPDSIEENNEIIENTQEVLVTSNIIEEESQKDERNTLIHESEAVSSENQETAKEIKNSNYKSSINVDINQIEKIIKNNEQFENKFSVIEEKEKEVKDKIKDIDIKINNFNSKLYQKIKDSNREIENDINKFNNKFEEVNTRVNKFISESKENSSKAISSLLTKVNQKINNLDEKVKEISSLSLKNSRNNDHVNEKTVLLTKKDIATFSFKLDITALVNLQALMIEPLKESGVDLELNAFYTKALKKTLNKYNELDSKDSFIRLIKADNNSIKDTVVKIERDSNILDISKQIAQNNKMNNHNIKVSIFDLSNLGIDNANFGLSNNSVISIYISSLSNYFKEDGNLSSFVKISFAFNQNVIEIEDAVMFGKEFVSILRNPGFLI;locus_tag=LOCUS_16510;note=MGA_1651
sequence1	MetaGeneAnnotator	CDS	1008045	1008197	.	-	0	ID=MGA_1652;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDFAKQASQLIIQCKGLKIEHYNRTPLFKGCYKRLLDMSENNKLILEAL;locus_tag=LOCUS_16520;note=MGA_1652
sequence1	MetaGeneAnnotator	CDS	1008216	1008470	.	-	0	ID=MGA_1653;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLDEAGEFEYVFQKIKDEKSKTLKMIEFFEESLIEEATLELFIEDMLITFIYFAIERPLGQYTLIFINLISNAMLLYRGFGPI;locus_tag=LOCUS_16530;note=MGA_1653
sequence1	MetaGeneAnnotator	CDS	1008779	1009165	.	-	0	ID=MGA_1654;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHKNNFINSPKILNKRLQMMRKKNVFFAGQITGVEGYIESFATGLVAAKGIISFINNRKFVPFPEETVIGSLINYITNPKHKKLKPMKANMGLITIDKNLEFNSKEEKNKFVYKNSLTILKNFTEFEL;locus_tag=LOCUS_16540;note=WP_011166678.1 methylenetetrahydrofolate--tRNA-(uracil(54)-C(5))-methyltransferase (FADH(2)-oxidizing) TrmFO (Mycoplasma mycoides) [pid:60.0%25%2C q_cov:82.0%25%2C s_cov:24.0%25%2C Eval:5.4e-31%2C partial hit],internal stop codon at [1009235:1009237](-),MGA_1654
sequence1	MetaGeneAnnotator	CDS	1009235	1009900	.	-	0	ID=MGA_1655;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGILKKELEQLESFILDCAYKTQIPSDDALAVDRESFSKLVDERIRKHKNIEVFEEEFLEIDKDNQDIILIATGPLSSNAFQLKIEKMLGKQKLFYLDASSPILEKESIDFTKVYYKSRHSDDNSYICIPLNEEEFNIFHEKLINAQQVKLKDFEQEIFFKGCQPIEQLAKISKKVLLKSAMSSNNLENKNGIKPYSVVQLRKDDAIDSLYNMVGFQTNLT;locus_tag=LOCUS_16550;note=WP_011183139.1 methylenetetrahydrofolate--tRNA-(uracil(54)-C(5))-methyltransferase (FADH(2)-oxidizing) TrmFO (Mesoplasma florum) [pid:57.5%25%2C q_cov:99.1%25%2C s_cov:49.5%25%2C Eval:2.5e-68%2C partial hit],internal stop codon at [1009235:1009237](-)%2C[1010036:1010038](-),MGA_1655
sequence1	MetaGeneAnnotator	CDS	1010137	1010748	.	-	0	ID=MGA_1656;product=copper homeostasis protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166677.1;translation=MLLEVIAKDLNDIELINNSKANRIEFCRELKIGGLTPFSEDIISACNRSKLPVNVIVRNTARDFFYTEDEKNEMLEQVKFISKTKANGIVIGALNKDLTIDVEFIKQVIKIKGNLDITFHKAFDEVKDFIISYKTLNELKITNVLTSGGHDIEKGKQIIEELCSLNLSTKILVGGGINQQNFLSFKKISNNIHVGSCVRDDLS;locus_tag=LOCUS_16560;note=WP_011166677.1 copper homeostasis protein (Mycoplasma mycoides) [pid:47.5%25%2C q_cov:98.0%25%2C s_cov:88.1%25%2C Eval:2.3e-46],MGA_1656
sequence1	MetaGeneAnnotator	CDS	1010792	1011403	.	-	0	ID=MGA_1657;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSQVTMDYTNENNPRIETILMSIQHDEDYNKEEFEKFVKVNIMDVIAKRYNLNTDFNVLINPTGRFVIGGPKGDTGLTGRKIIVDTYGGYSRHGGGAFSGKDPSKVDRSAAYMCRYAAKNMVAAKLADKVEIQVSYAIGKSEPVSIFIETFGTNKVSMDIMYKALKENFDFKVSSIIDKLELKLPVYFRTSKYGHFGKKEFN;locus_tag=LOCUS_16570;note=WP_011166676.1 methionine adenosyltransferase (Mycoplasma mycoides) [pid:76.1%25%2C q_cov:99.0%25%2C s_cov:51.9%25%2C Eval:6.3e-89%2C partial hit],internal stop codon at [1010792:1010794](-)%2C[1011416:1011418](-)%2C[1011674:1011676](-),MGA_1657
sequence1	MetaGeneAnnotator	CDS	1011416	1011607	.	-	0	ID=MGA_1658;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRINTQSPDIAMGVEQKEMGAGDQGIMFGYANSETPTYMPYSIQVAHDLVHIASKLRKAKQFK;locus_tag=LOCUS_16580;note=WP_011183137.1 methionine adenosyltransferase (Mesoplasma florum) [pid:52.3%25%2C q_cov:100.0%25%2C s_cov:17.2%25%2C Eval:1.0e-13%2C partial hit],internal stop codon at [1011416:1011418](-)%2C[1011674:1011676](-),MGA_1658
sequence1	MetaGeneAnnotator	CDS	1011674	1011883	.	-	0	ID=MGA_1659;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRLFTSESVSEGHPDKICDQISDAILDECLKQDPNAKVACETFVTENYLLIGGEITTKAKVDYASIAK;locus_tag=LOCUS_16590;note=WP_011183137.1 methionine adenosyltransferase (Mesoplasma florum) [pid:84.1%25%2C q_cov:100.0%25%2C s_cov:18.3%25%2C Eval:9.2e-28%2C partial hit],internal stop codon at [1011416:1011418](-)%2C[1011674:1011676](-),MGA_1659
sequence1	MetaGeneAnnotator	CDS	1012067	1012243	.	-	0	ID=MGA_1660;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLILSNNDFYCNSKKIAKYLSKLNKDKYIFEKVKGYKHYILNTNNSEKIFELIIKSL;locus_tag=LOCUS_16600;note=MGA_1660
sequence1	MetaGeneAnnotator	CDS	1012829	1012978	.	-	0	ID=MGA_1661;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGTFVLIFLLALIIRIINFNKLKTKRKPIIKSELIKKKMFKTSDGYELR;locus_tag=LOCUS_16610;note=MGA_1661
sequence1	MetaGeneAnnotator	CDS	1013153	1013467	.	-	0	ID=MGA_1662;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRYDKLRNLHETLFALDKEIQNICAGIEQKLGKALKYKDTFKRVITEIELESKNEIYGRPSVSDFENTRINLEQDAGNLIYEAINVMGGQEFIVRKQSVIFAF;locus_tag=LOCUS_16620;note=MGA_1662
sequence1	MetaGeneAnnotator	CDS	1013589	1013828	.	-	0	ID=MGA_1663;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQTADERILPKGTAFITDLGMTGPINSIIGANPEEVIHKEKTGLPVKFKPSENQGLLCGVILSINDKNKAISIERLQIK;locus_tag=LOCUS_16630;note=WP_011183136.1 TIGR00282 family metallophosphoesterase (Mesoplasma florum) [pid:57.0%25%2C q_cov:98.7%25%2C s_cov:31.1%25%2C Eval:1.8e-18%2C partial hit],internal stop codon at [1013874:1013876](-)%2C[1014039:1014041](-),MGA_1663
sequence1	MetaGeneAnnotator	CDS	1013874	1014008	.	-	0	ID=MGA_1664;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKSFMEHVNNPYEIMDKIIENDDSDIHIVDFHAETSAEKIAFA;locus_tag=LOCUS_16640;note=WP_020862745.1 TIGR00282 family metallophosphoesterase (Mycoplasma mycoides) [pid:62.2%25%2C q_cov:100.0%25%2C s_cov:17.5%25%2C Eval:3.3e-09%2C partial hit],internal stop codon at [1013874:1013876](-)%2C[1014039:1014041](-),MGA_1664
sequence1	MetaGeneAnnotator	CDS	1014039	1014353	.	-	0	ID=MGA_1665;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFLIIGDVYSKSGRDILEKHLKSIVKKNSIDFIVVNGENISHGKGINKNHYDFLKKLGVDVITTGNHVFKVKETLEYINEVNDLLRPANMNSYNLGIGTNQYN;locus_tag=LOCUS_16650;note=WP_020862745.1 TIGR00282 family metallophosphoesterase (Mycoplasma mycoides) [pid:64.6%25%2C q_cov:95.2%25%2C s_cov:38.5%25%2C Eval:8.2e-32%2C partial hit],internal stop codon at [1013874:1013876](-)%2C[1014039:1014041](-),MGA_1665
sequence1	MetaGeneAnnotator	CDS	1014353	1014685	.	-	0	ID=MGA_1666;product=putative DNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_041362228.1;translation=MIKMINQDIQKTANLAELYDYYKNLLTEKQSQYFELYFFEDLTLQEISEEFGVSRNAVYDSINKTSIILIDLEEKLNLKLKNTKIKDILDKAKINKISIDQLIVEVEQNL;locus_tag=LOCUS_16660;note=WP_041362228.1 putative DNA-binding protein (Mycoplasma mycoides group) [pid:41.1%25%2C q_cov:97.3%25%2C s_cov:94.7%25%2C Eval:1.9e-17],MGA_1666
sequence1	MetaGeneAnnotator	CDS	1014711	1015001	.	-	0	ID=MGA_1667;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRELEKMTKIIQKSVVDGPHERLLVIDAQTGQNGISQAKAFSETTNVTGIVLTKMDGTSKGGIALAIKDTLNIPVKLIGTGETVNDIEEFDVDNYI;locus_tag=LOCUS_16670;note=WP_011183134.1 signal recognition particle-docking protein FtsY (Mesoplasma florum) [pid:69.8%25%2C q_cov:100.0%25%2C s_cov:26.2%25%2C Eval:2.8e-32%2C partial hit],internal stop codon at [1014711:1014713](-)%2C[1015161:1015163](-),MGA_1667
sequence1	MetaGeneAnnotator	CDS	1015161	1015475	.	-	0	ID=MGA_1668;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGMKMVLEISNRVQKKSKPKHSFNEIKEILVEQIYETYTDSGKFKTELNYKDKRLNVFIMVGVNGVGKTTSIAKIANYYSNMGKKVLIAAADTFRAGAVEQLQE;locus_tag=LOCUS_16680;note=WP_011183134.1 signal recognition particle-docking protein FtsY (Mesoplasma florum) [pid:64.4%25%2C q_cov:100.0%25%2C s_cov:28.3%25%2C Eval:3.3e-33%2C partial hit],internal stop codon at [1015161:1015163](-),MGA_1668
sequence1	MetaGeneAnnotator	CDS	1015852	1016283	.	+	0	ID=MGA_1669;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDDFLYHRVENKMDIKNLTNENFEEILKEAFYVDDFGKELFNNITFEVLKIEDGELTILFKDKNNLKLLNENIILKFNLVLFNYDKINDFIYVMNNFLKNNPLILTKSNYIQLEVEDLLKSKFKKIFDRYSSSVLFLDNINEF;locus_tag=LOCUS_16690;note=MGA_1669
sequence1	MetaGeneAnnotator	CDS	1016184	1016444	.	-	0	ID=MGA_1670;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFSFTEKLIYLSNPSFPKDCESLNNLKSNFVSFKKLAFKYLGFSFSNSSKSINSQNSLILSKNNTDEEYLSKIFLNLDFNKSSTSN;locus_tag=LOCUS_16700;note=MGA_1670
sequence1	MetaGeneAnnotator	CDS	1016909	1017145	.	-	0	ID=MGA_1671;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYRNVTERTFRMASILMSKNIDLNLIYKNIYGLDGNEIKLKAYILQNYKMSENKIAYIELTKEILSDYNISDVNKIAL;locus_tag=LOCUS_16710;note=MGA_1671
sequence1	MetaGeneAnnotator	CDS	1017344	1017625	.	-	0	ID=MGA_1672;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKKFLEKIKEHKKIILLRHIFPDFDAIGSQMGLYRFIKENFSNKIVLCGGELPIEYECIGKNDKLQENDFQDALVIITDTAITSRIDISNIE;locus_tag=LOCUS_16720;note=WP_000583238.1 bifunctional oligoribonuclease/PAP phosphatase NrnA (Streptococcus) [pid:47.4%25%2C q_cov:83.9%25%2C s_cov:25.1%25%2C Eval:1.2e-11%2C partial hit],internal stop codon at [1017344:1017346](-),MGA_1672
sequence1	MetaGeneAnnotator	CDS	1018140	1018541	.	-	0	ID=MGA_1673;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGPFTATLAIAMGTIGMLTKYNREIFDEINLKIVYQLESTGLNKFQVFKYGIMPQTTSSIVSYIVYRFDINFKEVSVLGVVGAGNMGYLLNSYFSQHYFHEFGALLFGIMLFTFFVEYVSTVLRAKLNLGINP;locus_tag=LOCUS_16730;note=WP_011183469.1 ABC transporter permease subunit (Mesoplasma florum) [pid:67.4%25%2C q_cov:99.2%25%2C s_cov:15.2%25%2C Eval:7.3e-49%2C partial hit],internal stop codon at [1017945:1017947](-)%2C[1018140:1018142](-)%2C[1018782:1018784](-),MGA_1673
sequence1	MetaGeneAnnotator	CDS	1019112	1019465	.	-	0	ID=MGA_1674;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILTVVFLEVLIYFVKNYILLDRDFILDQKDQKKYNNLIKQISKLNNVNFYIKFILQKDLNESLIEAKNNKDNEKVLLIKQEIKKTKHDFKQEFKNNLNKEKKEFEKFKLENINSKS;locus_tag=LOCUS_16740;note=WP_011183469.1 ABC transporter permease subunit (Mesoplasma florum) [pid:32.5%25%2C q_cov:70.9%25%2C s_cov:9.5%25%2C Eval:7.1e-12%2C partial hit],internal stop codon at [1018920:1018922](-)%2C[1019103:1019105](-)%2C[1019112:1019114](-)%2C[1019493:1019495](-),MGA_1674
sequence1	MetaGeneAnnotator	CDS	1019493	1020008	.	-	0	ID=MGA_1675;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFNKAMSSIFLTMLIAFSGTIIGVILAIPVSILAAGNIVQNKFINNTAKTIIAFFRTVPSFVYALIFVGYFGQTNLTVTIVLAIFTFSITSKIFFERIEHINTRIFISQQATGAGKFRAFRTAVVPQISNHITSATFYALETNIRYISVIGGVTKFGIGRMIDSSIEYDE;locus_tag=LOCUS_16750;note=WP_011183469.1 ABC transporter permease subunit (Mesoplasma florum) [pid:55.3%25%2C q_cov:99.4%25%2C s_cov:19.5%25%2C Eval:1.1e-50%2C partial hit],internal stop codon at [1019493:1019495](-)%2C[1020042:1020044](-)%2C[1020048:1020050](-)%2C[1020108:1020110](-),MGA_1675
sequence1	MetaGeneAnnotator	CDS	1019893	1020204	.	+	0	ID=MGA_1676;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFPAARIETGMANITPIIVPEKAINIVKNIEDIALLKNTFPKLSGFKKSFQSHLNKSEILDTNKSKLENSSPQFASKTLKPKIINTIKHTIEKIRKVFLGAFV;locus_tag=LOCUS_16760;note=MGA_1676
sequence1	MetaGeneAnnotator	CDS	1020261	1020614	.	-	0	ID=MGA_1677;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKLNLLDYAYIRADNLSGGQQQRVALARTLSQEPELIIADEPVSALDPILASQVIQDFQNVNKNENMTIILNIHHVDLAIKFATRIIGLRDGKIVFDDKPEKLTKDILKEIYGDNY;locus_tag=LOCUS_16770;note=WP_011166288.1 phosphonate ABC transporter ATP-binding protein (Mycoplasma mycoides) [pid:73.0%25%2C q_cov:98.3%25%2C s_cov:46.0%25%2C Eval:1.9e-44%2C partial hit],internal stop codon at [1020669:1020671](-)%2C[1020837:1020839](-),MGA_1677
sequence1	MetaGeneAnnotator	CDS	1020763	1021032	.	+	0	ID=MGA_1678;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLNFLSLLLLILLKLYSSISSPSFQDINNSPEDILLIPLIVFKRVVLPAPESPIIATNSPSLIVIFISLKTCFPLGHTLFTLVNFIIT;locus_tag=LOCUS_16780;note=MGA_1678
sequence1	MetaGeneAnnotator	CDS	1021569	1022378	.	-	0	ID=MGA_1679;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSLFAVSTLIASSVSTVVSCGGSSDTINILFIPSNNSTEIINTVKPLEQKLATELSSIAQKDGRTLNKKVKISTSTNYEVAGKTLQDGKADLAFLPINTYVKYRGKDNEGKFSSEGVLLSASRSGVTPETKGFEPFQTDGKFDSSKAQNKAIDAQTSMQLAQYYNKTATGIENLQQAKEKLEDSENTASYYRSYIYANNAFLSASGFDITKYGKENLTREESVESSEQYKADLKALILKGATEDKFKFSFGKSKTSSAGVLYPML;locus_tag=LOCUS_16790;note=WP_011183471.1 PhnD/SsuA/transferrin family substrate-binding protein (Mesoplasma florum) [pid:41.2%25%2C q_cov:100.0%25%2C s_cov:61.7%25%2C Eval:1.4e-45%2C partial hit],internal stop codon at [1021521:1021523](-)%2C[1021569:1021571](-),MGA_1679
sequence1	MetaGeneAnnotator	CDS	1022785	1023198	.	-	0	ID=MGA_1680;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLILPGLIFTFKKIGARNYFSKLEQRIQASASEVDNYLEQRYQILQNVAGLLEKSINLDKDVMKGVAALRSGNNFDAARSSELSEQLDKAYGIINVAFERYPDLKSQETIIAAMQKNDYTQREISAARSNYNDYVSR;locus_tag=LOCUS_16800;note=WP_011948220.1 LemA family protein (Clostridium botulinum) [pid:30.6%25%2C q_cov:94.9%25%2C s_cov:69.8%25%2C Eval:1.6e-11%2C partial hit],MGA_1680
sequence1	MetaGeneAnnotator	CDS	1023202	1023327	.	-	0	ID=MGA_1681;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANLLDEQSGPFKEEGQDIKVINKQIEIKVGTGSKVFEIFL;locus_tag=LOCUS_16810;note=MGA_1681
sequence1	MetaGeneAnnotator	CDS	1023362	1023562	.	-	0	ID=MGA_1682;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISTLNDDKTSVNSNKIIDSLNEFTSKLSIDTEGMVKTNNILATILGEEGLTENQRILLEKMNNNK;locus_tag=LOCUS_16820;note=MGA_1682
sequence1	MetaGeneAnnotator	CDS	1023863	1024393	.	-	0	ID=MGA_1683;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPFYYKKSSIFYYSEHCPNLSFDRNPSKSRKDLSDKEFQKELNQLDKKAEKAIKNNQKLNLMNNKEFELYFDCFERSNEIEFRMMFSALAQKQLIDLIKAPYFDSSNNFRLKKVSNLSILFNNYIDNLSLERDVEQYKHFSFEKIRNNFMALNMGSFNNFFLAFSPLLAIPIYQEK;locus_tag=LOCUS_16830;note=MGA_1683
sequence1	MetaGeneAnnotator	CDS	1024475	1025188	.	-	0	ID=MGA_1684;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEQIIYNPAKEFQSYQSEHQLNCEKEFERLLKIAKVDENLNITTVKTIEKQEKKLNSTKKVIGKYKALRVFLIIMCIVFVLVPVVAFYFLKDLDKFILYISITSSICAILFITFLLLIFLRINKLIKDFSKMAEKIQSEINELTQKAWEQMRPLNNLFYSRLSKNLIESTLGSVKFDNYLHNNKFNFLKSIGLKDFERDKSIVDLSSGELAKNPFVVVKTRIHEMRKKEYTGSLLIT;locus_tag=LOCUS_16840;note=MGA_1684
sequence1	MetaGeneAnnotator	CDS	1025297	1025764	.	-	0	ID=MGA_1685;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVAGDLRLAVGGVLISREIERIADVAKHICAFTIKYNPEPIEIEYISKMFDLVNKMLNIVSALIENYDNDQHQKVLKAEEQLSIEFSTLSNTLALRNFEAKNQVESKKIITIVRQLKNLERAGECLINIEETLQFIRTGKFEELQETIINNLETK;locus_tag=LOCUS_16850;note=WP_011183133.1 phosphate signaling complex protein PhoU (Mesoplasma florum) [pid:44.8%25%2C q_cov:99.4%25%2C s_cov:67.1%25%2C Eval:2.2e-27%2C partial hit],internal stop codon at [1025783:1025785](-),MGA_1685
sequence1	MetaGeneAnnotator	CDS	1025783	1025983	.	-	0	ID=MGA_1686;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSYNKILDNDIKTIKRELIKLVEATKSQYANTFESLKAQNFELAKEVVENDLKINDMQNTFTKMAL;locus_tag=LOCUS_16860;note=WP_011166672.1 phosphate signaling complex protein PhoU (Mycoplasma mycoides) [pid:46.3%25%2C q_cov:100.0%25%2C s_cov:29.9%25%2C Eval:2.6e-09%2C partial hit],internal stop codon at [1025783:1025785](-),MGA_1686
sequence1	MetaGeneAnnotator	CDS	1025995	1026315	.	-	0	ID=MGA_1687;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLSGGQQQRLCIARAIAMRPKILLMDEPTSALDPIATLKVEELILKLKNEYTIVIVTHSMAQATRVSDYTAFFLQGELIEYDRTKKIFTNPKNQKTEDYISGRFG;locus_tag=LOCUS_16870;note=WP_164704003.1 phosphate ABC transporter ATP-binding protein PstB (Mesoplasma entomophilum) [pid:81.1%25%2C q_cov:100.0%25%2C s_cov:39.7%25%2C Eval:1.1e-44%2C partial hit],internal stop codon at [1026349:1026351](-),MGA_1687
sequence1	MetaGeneAnnotator	CDS	1026349	1026879	.	-	0	ID=MGA_1688;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPLDKKTVVENENIIPANTDELELISEEKIFQKPKKLPLKQRSNVIEIENFNFYYNGGSKQALFDINMAVKENTVTAFIGPSGCGKSTLLRSINRMNDLVDNIAIDGSIKVHNKDVYEKGTDVVKLRTEVGMVFQKANPFPMSIYDNVAFGPRNQGITDKNALNQIVEDSLKKAAL;locus_tag=LOCUS_16880;note=WP_164704003.1 phosphate ABC transporter ATP-binding protein PstB (Mesoplasma entomophilum) [pid:67.6%25%2C q_cov:81.8%25%2C s_cov:53.9%25%2C Eval:1.6e-52%2C partial hit],internal stop codon at [1026349:1026351](-),MGA_1688
sequence1	MetaGeneAnnotator	CDS	1027027	1027890	.	-	0	ID=MGA_1689;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTVMFKGIGGFDPGAFIEIEGQRSGIFALLFTTILLVLGTIIFAIPLALIVAIYLAEYAHKDSKFAKVIRFSINVLASTPSIVFGVFGLSLFVVTMGIPMSVFASSLTMTIVILPSMITAFEDSITSVPSLYKEAAYGMGMTKTGVLFKIIIPNSTKGLVTGTILAVARIIGESAPVYLTLGTAVRMPSEGFFSSGATLTTQIYMMASEGNDPHTLGVAYQIALVTIFLVLGLNFLSKYIGVKLNPVHKKIPFKVKFKAFISIFTISHIKKVAKKTKKDTVSLYKK;locus_tag=LOCUS_16890;note=WP_011183131.1 phosphate ABC transporter permease PstA (Mesoplasma florum) [pid:53.5%25%2C q_cov:89.2%25%2C s_cov:36.4%25%2C Eval:1.1e-70%2C partial hit],internal stop codon at [1027894:1027896](-),MGA_1689
sequence1	MetaGeneAnnotator	CDS	1027894	1028751	.	-	0	ID=MGA_1690;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMMFFTLLFAIPLTIFSSLFITEYLKNRTKKFVVTVIQLLAGIPSVVFGLFALDQIGPIFVAMGAPTSGNMMTASFTLAFMALPTMITLSINAIEAVPEGHRYASLGLGMTKEKTTFGVVLVSAMPKIITAIITGVARIIGETMAVILIAGNSTKGLNTDDGFIGFIFSSIRTLAGTIGLEMLENHGSTHESALYAIGMVLFIIVILINLLIIAVGNINKKKSKSINKIKHKKIKVRKNNYEYDSHNLNILVQTYTEKRFGKKMESAILNFFMITSTTIIIGFTS;locus_tag=LOCUS_16900;note=WP_011183131.1 phosphate ABC transporter permease PstA (Mesoplasma florum) [pid:52.2%25%2C q_cov:94.4%25%2C s_cov:38.3%25%2C Eval:7.4e-72%2C partial hit],internal stop codon at [1027894:1027896](-)%2C[1028812:1028814](-),MGA_1690
sequence1	MetaGeneAnnotator	CDS	1028690	1029019	.	+	0	ID=MGA_1691;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNELNIVNGIANNNVKNIIIKVERIILPKPYLPAPSFPGDQSPENRNLKNENSLKTGTDLYKINPTKTANINKTIVVIVKIDILVDKSILDAFALGSFFTCVLSIITS;locus_tag=LOCUS_16910;note=MGA_1691
sequence1	MetaGeneAnnotator	CDS	1029269	1029610	.	-	0	ID=MGA_1692;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKEVLKGYENSTFYSQLNAKIPTSNKTKIVTFTREDGSGTRSAFSDLTGIKDMHSSNVVNSNGSMIENMSNVPSIGYVSNGFLGQLTDQGAIKLAGIDGKKLAINKSNKPKE;locus_tag=LOCUS_16920;note=MGA_1692
sequence1	MetaGeneAnnotator	CDS	1029836	1030066	.	-	0	ID=MGA_1693;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKLTKKYYHESEKDFIYNSTGSQAGVGGVEKGMYSAGFISKKISDTTLSKGNTFSNVCANPKEEECRFENVDLNH;locus_tag=LOCUS_16930;note=MGA_1693
sequence1	MetaGeneAnnotator	CDS	1030220	1032988	.	-	0	ID=MGA_1694;product=chromosome segregation protein SMC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166660.1;translation=MEDIVFSGSSEKKPLNMAEVTLVFDNSNRAFSSLDYNEVSITRKFFRPTKESEYFINGSRVRLKDIQEVALETGLTKSSLAIISQGSISNFVESKPEDRRRLFDEAAGIARYKKRKEEAIRKLSRTQENLDRLNDIINEIERKLPSLKRQSKKAISYKELFNELKNIEVSVLVNDIKLYKQKIIELNDQKTELKIEINSLEKQINKKNEEFNSISQSSYNNEKELSKLNKEFTKIVEKISELKVSRISLESKKSKVDIDDKEFKSSELKNKAKELEIRLEAEEQKLGKLLKDKVDKRELLDETSGKRFNLNQELDLIRKQLAKTESTLESLMLRKNSLDNLFEGVKTILENKKTLSGIIGTVQDLIKVDKNYEIAISTVIQNGLQNIVVKSTTDVKALIEFLKNNKAGYATFLPLDNLKPNYINNETRFIIQKANGFIGFGNELVKIEKKYQVVLDYLLSNYIVVDSYENAIELSKLTNKKYHIVTLDGQRILPHGAIVGGSRKNKKVLLNDSQQIEDLELRKKDLDEKENSISKKVTLYSNEIEILREELAEIQTAIGASRHSSELIEKEASEVKEEFRVITGKELDGGEQEFQSLDEQIIKIISEISEQENKKDAIQQQINVIRSLKDKSNERQNNLNSIIEQDRKMLFSLKDKYASLNSDGTLIFEKQSNATSRLSLNYNLTFESALELSTNVMETESEVRDRINFLRKEINLLGNVNLDSIEEYEEENIRYQNYIEQTQDILESIKNLKEAIGDMDQQMIIQFRKIITDVNKVLPDTFATLFGGGTASIIYTNPDDILNTGIDLKMSPPGKKIANLNLLSGGEKSMVALSVLFSILKVKPIPLVILDEVEAPLDIANVERFAKYIKTFTKNTQFMIVTHRMGTMENCDTLFGATMEQKGITKLVQIKLIEAKKLSNTN;locus_tag=LOCUS_16940;note=WP_011166660.1 chromosome segregation protein SMC (Mycoplasma mycoides) [pid:43.9%25%2C q_cov:99.6%25%2C s_cov:93.7%25%2C Eval:1.2e-219],MGA_1694
sequence1	MetaGeneAnnotator	CDS	1033031	1033171	.	-	0	ID=MGA_1695;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFLKKIEAYGFKSFAEPTNLNFDFSMTGIVGPNGSGKSNINDAIM;locus_tag=LOCUS_16950;note=WP_011183129.1 AAA family ATPase (Mesoplasma florum) [pid:73.3%25%2C q_cov:97.8%25%2C s_cov:4.5%25%2C Eval:1.4e-12%2C partial hit],internal stop codon at [1033031:1033033](-),MGA_1695
sequence1	MetaGeneAnnotator	CDS	1033303	1033485	.	-	0	ID=MGA_1696;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRSELQYVTVACKKFKNNTISFTVNVTLNGMVFGTGIGSNKKQAEQEAAKNALSKIKKNK;locus_tag=LOCUS_16960;note=MGA_1696
sequence1	MetaGeneAnnotator	CDS	1033582	1033995	.	-	0	ID=MGA_1697;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDIINFLLKEFSIQVKEKNHYFEALTHNSFSNENRSAKNYQRLEFLGDAILQMKVSEYLYKLFPKSNEGLLTKYRSSIVKQTALAEISRKIGLGKFIRLGVGELDSKGYEKDSILSDIFESMTAAIFLDQGDQILNK;locus_tag=LOCUS_16970;note=WP_011183128.1 ribonuclease III (Mesoplasma florum) [pid:55.9%25%2C q_cov:92.7%25%2C s_cov:55.0%25%2C Eval:2.1e-35%2C partial hit],internal stop codon at [1033582:1033584](-),MGA_1697
sequence1	MetaGeneAnnotator	CDS	1033995	1034999	.	-	0	ID=MGA_1698;product=phosphate acyltransferase PlsX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183127.1;translation=MEYKKIAFDVMGSDNGLIPAVDAAIKLLGEQKDLKIIFVGNETELNKALSSKKYNPDQVEIVNTTEVIEMTDGIMDIRRKKNSSMVKALELVNEGKADGITTGGATAPFIAGCHFIIKKLDGIERPGFMPVIPTLVKGKITLLLDVGANLECDPEDLVNFAIMATAYSKAVNGVKEPKVALLNIGEEKSKGLELHKQTYKLLEENKDINFVGNIESRYLANGIVDIIVTDGYTGNIALKAAEGMGKALLSEIKSAITKTLFRKLAALRLKRAFKEVRAKFDYKNHAGAILLGANGIAFKSHGSSDKIAFYATLKMTYNAIKNDVVNKVKKALAE;locus_tag=LOCUS_16980;gene=plsX;EC_number=2.3.1.274;note=WP_011183127.1 phosphate acyltransferase PlsX (Mesoplasma florum) [pid:55.2%25%2C q_cov:98.2%25%2C s_cov:99.1%25%2C Eval:1.2e-95],MGA_1698
sequence1	MetaGeneAnnotator	CDS	1035075	1035293	.	-	0	ID=MGA_1699;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPLPNQKPEINKDICCPGGAHNCYTCRVCSASFHGCRSCLKCISCQVCLSKQCPCCSNGTARQQENAKKYNK;locus_tag=LOCUS_16990;note=MGA_1699
sequence1	MetaGeneAnnotator	CDS	1035585	1035797	.	-	0	ID=MGA_1700;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSSVITLPILKSVINQILGKMTNAMLLYILIDVVLLIILLIVIMNIIITDSINVITIMRSLGYTNAQIN;locus_tag=LOCUS_17000;note=MGA_1700
sequence1	MetaGeneAnnotator	CDS	1035867	1036079	.	-	0	ID=MGA_1701;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQDIYLDYTTTLKKVNKSDSFDQNDLMFNSIVSTKKASYGKVDLQDIAGSQKNFTYSRDTYTMASTKNEP;locus_tag=LOCUS_17010;note=MGA_1701
sequence1	MetaGeneAnnotator	CDS	1036242	1036706	.	-	0	ID=MGA_1702;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKSILTIKPEEMGGIFLDDIGKFACISPFAINYKGSCGDIESFKKYIIDYTQNQNTSSENYATKDMTPVFSNEFLTLMSTFAKMQSGVNSLISVNNVIFNGNKEALQTSLSYHITNNSEVDIENSLIKLIDTTSEIGGDARSVVNFKSVKNSQ;locus_tag=LOCUS_17020;note=MGA_1702
sequence1	MetaGeneAnnotator	CDS	1036803	1037189	.	-	0	ID=MGA_1703;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQHAFVSAGKGKFALIMGLFLFSSFLFTLQLRAMPVITNMIEGGYNIYSKEVDHTYNFNKAMHITAKSKKISKDITREDYGIKFTNIKDQKVEDYVKNSNQADSIYQTTNNFSKLMNIISDIRDSSSN;locus_tag=LOCUS_17030;note=MGA_1703
sequence1	MetaGeneAnnotator	CDS	1037238	1037675	.	-	0	ID=MGA_1704;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFILFVLKKEINNTRKQLGVFKSLGYKTTELTWVFSVKTFLTMIIGIGIGYLLSFPFQIDSATKQFNTFVIFDYQTIYTSPVFLFIIIVIIPLLFAGLSYLIIFRFLNEGALALLTTGPKKGKSDYIVLVLKIIFFPALIYSFVN;locus_tag=LOCUS_17040;note=WP_011166775.1 ABC transporter permease (Mycoplasma mycoides) [pid:44.4%25%2C q_cov:85.5%25%2C s_cov:8.3%25%2C Eval:1.9e-24%2C partial hit],internal stop codon at [1037238:1037240](-),MGA_1704
sequence1	MetaGeneAnnotator	CDS	1037718	1037858	.	-	0	ID=MGA_1705;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTSNILSIDENNQQKLLSVIVPGTTMFKESKSHTSIKQLINLYIIT;locus_tag=LOCUS_17050;note=MGA_1705
sequence1	MetaGeneAnnotator	CDS	1037910	1038677	.	-	0	ID=MGA_1706;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIRQEEIETVKKVIYLYYICGDKYVSTSFRTEENKTRTLKVEEIFTKEAKDQISGGKQFNYKNRNFKNYVVYSILNQLKNQSNGEFQFELFLNANFQMLKGADDHFVYNLSNATALGGTDEYNINNVVLEKGRLPEKRNEIVISSGFAKKQNKKIGDKLNLGVDQKFEGSKIDKKTVKEFDIVGIGSKYSALTPLGFSSFKDSIKNYSQIFVHESFFSTYEEEKNTDSESGYSFNEIFLTNNYKLNATSGFKLDF;locus_tag=LOCUS_17060;note=MGA_1706
sequence1	MetaGeneAnnotator	CDS	1039082	1039846	.	-	0	ID=MGA_1707;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSFFKKINKNKTFFSVMISSIIILLLVFCLFAIAKICITKSLVISNYNMLFGLFNLGFFVAFIYGYKLFNYFKTVSYVKKMKFNQNNNHLFNDLIKKIRVYLNPGSYLVLFISCFIIFISVISQGKAVKTIEMSGIIFIKKLILSLISFAFFEFISIFIIFNVLKLIKTNKKVENNYVKKISKKLYFIFIKFINFLSIKFSEIKELILNIYNATVKQLYFYDSNQKNRISAKRSDFLSNQLKGKCPPVSILIY;locus_tag=LOCUS_17070;note=MGA_1707
sequence1	MetaGeneAnnotator	CDS	1039935	1041068	.	-	0	ID=MGA_1708;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPALKEVGVVDSGGYGLVKFFEGMKYFVEKHKPIAKLKKLEENTGANIEMAIEDEFGYCTEAIVMLNEEYIDKLEVDTVRNTFEQYGNTSIVAVIDGDILKIHTHALMPGQVLSYLQQFGEFRTIKAENMTLQADKHVANTSDHSLVRNSAQEQRKLKNEVGTIAVVRSKGMQDYFKNELNFDYVINGGAKMNPSTKDFLKAIEAVDAKKVYIFPNDSNVLLAAKQAKDLEKMSKVTVIETKTIPQGMTAYLNLDADESTKKNESNIAKALKNVVSISINKAARDATIDGITIKTGEYMMTADNKIIASTKSLRNIFSQFMSKFITSKTEILTIFTGQDASFKDINDLRKYLDENHDVEYEVIDAQQEVYSFIIGIE;locus_tag=LOCUS_17080;note=WP_011183126.1 DAK2 domain-containing protein (Mesoplasma florum) [pid:57.4%25%2C q_cov:100.0%25%2C s_cov:69.0%25%2C Eval:1.0e-117%2C partial hit],internal stop codon at [1041120:1041122](-)%2C[1041261:1041263](-),MGA_1708
sequence1	MetaGeneAnnotator	CDS	1041261	1041578	.	-	0	ID=MGA_1709;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNAQILKGMITSGVNNLYNNYPHIDKLNVFPVPDGDTGTNMNLTCTNGFAEIENEDFDKIGSLMSKFSRGLIMGARGNSGVIFSQIIKGFSNGMKDKEDLDLET;locus_tag=LOCUS_17090;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:3.8e-37%2C partial hit],internal stop codon at [1041120:1041122](-)%2C[1041261:1041263](-),MGA_1709
sequence1	MetaGeneAnnotator	CDS	1041697	1042008	.	-	0	ID=MGA_1710;product=Asp23/Gls24 family envelope stress response protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183125.1;translation=MLEKDILDSISNAVVTVPGVASFANFTAKLESELKTDDISKAVEITTADTTNRVKVHIILINGVNISDVVKEVQIRVKYELEKLSQFVRNYIVDVAVDDLIVI;locus_tag=LOCUS_17100;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:4.1e-23],MGA_1710
sequence1	Aragorn:1.2.38	tRNA	1042498	1042580	.	+	.	ID=Aragorn_27;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00260;note=Aragorn_27
sequence1	MetaGeneAnnotator	CDS	1042622	1043242	.	-	0	ID=MGA_1711;product=thiamine diphosphokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183121.1;translation=MKDKKALLVISKTNINLKLFEKTHLIVGIERGCLDLIEKQVSIDISMSDFDQVTDSELKLIKEKSKEFISFNSKKDFLDGIAAIYHLKSMNYKDITMVVNPSKRYDMNLTIIEYVFKHNLKVINDNSVIFKLNSGENSLDFNNYQDYTYVSLFSLKENIITIEGMKYEVKEANLEAFNSFAYSNEFISYVNPKIVCKEELMIIMTK;locus_tag=LOCUS_17110;EC_number=2.7.6.2;note=WP_011183121.1 thiamine diphosphokinase (Mesoplasma florum) [pid:43.9%25%2C q_cov:98.5%25%2C s_cov:99.0%25%2C Eval:4.4e-45],MGA_1711
sequence1	MetaGeneAnnotator	CDS	1043232	1043795	.	-	0	ID=MGA_1712;product=ribulose-phosphate 3-epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183120.1;translation=MDYNFVPNLSFGPKILSDIVNNYDFKMDLHLMVKIVGFSVEDYLKPFIQKNVKQVTMHYEALNKKQLIDFIKFCKKNNINASLSINPNTEINKIKKYLPNLQNILVMSVNPGFGGQSFIKKSLDKIRLLNEIRNTNNYQYLIQVDGGINEDTYKSVQEAGVDMIVAGSYLVDSKIKNLEERISKLEG;locus_tag=LOCUS_17120;gene=rpe;EC_number=5.1.3.1;note=WP_011183120.1 ribulose-phosphate 3-epimerase (Mesoplasma florum) [pid:50.0%25%2C q_cov:99.5%25%2C s_cov:82.5%25%2C Eval:1.1e-49],internal stop codon at [1043811:1043813](-),MGA_1712
sequence1	MetaGeneAnnotator	CDS	1043906	1044082	.	-	0	ID=MGA_1713;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFFKQVNCKFSDCLHINNTPGCKVIEAVEQKVFPEFIYNDYVKVQLEIEEQNRRRKY;locus_tag=LOCUS_17130;note=WP_011166503.1 ribosome small subunit-dependent GTPase A (Mycoplasma mycoides) [pid:54.0%25%2C q_cov:86.2%25%2C s_cov:16.0%25%2C Eval:1.1e-07%2C partial hit],internal stop codon at [1044341:1044343](-),MGA_1713
sequence1	MetaGeneAnnotator	CDS	1044341	1044796	.	-	0	ID=MGA_1714;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKGIILKILSEYAYVLFEEKLFECKATGKIRHSNKKPTTGDYVEFEIIDSQNFKGSLTNILERKNELYRPRISNIDQVVIITSLKDPLLNTYTLNKYLFFIESLNIKPLLAFTKVDLTNKDDDELIKAKLYKNLGYETYLINNMIETDKE;locus_tag=LOCUS_17140;note=WP_011183119.1 ribosome small subunit-dependent GTPase A (Mesoplasma florum) [pid:47.6%25%2C q_cov:94.7%25%2C s_cov:48.3%25%2C Eval:1.3e-29%2C partial hit],internal stop codon at [1044341:1044343](-),MGA_1714
sequence1	MetaGeneAnnotator	CDS	1044799	1045536	.	-	0	ID=MGA_1715;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MECVEGGTLKDKFQEFGSMTLKEIKYYFSRICDALSEAHKLKIIHRDIKPDNVLLTQSGEVKLGDFGISVMEGISTETNKAIGTPKYMPPEIIAAQAPSAQSDIYSLGIMLYEFATGTAPFIAKEAPKIAAKHLKETPTNPKLINPSIPQSLENLILKMIEKEPQNRFESVDEVKKELLKIRSTDNSKPYIYHKKATLILSEGKKTIKVGTTYDKLPIIVKTRFFLSFIIIFLVLIILLVVVLVI;locus_tag=LOCUS_17150;note=WP_011392429.1 Stk1 family PASTA domain-containing Ser/Thr kinase (Moorella thermoacetica) [pid:40.5%25%2C q_cov:74.7%25%2C s_cov:30.2%25%2C Eval:4.8e-34%2C partial hit],internal stop codon at [1045546:1045548](-),MGA_1715
sequence1	MetaGeneAnnotator	CDS	1045546	1045809	.	-	0	ID=MGA_1716;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKYDPGSMINDRYEVISQLGKGGMASVFKAYDIFTKTIVAVKVVAPEIVIKPVGQERFEIEKEAFAKLGSNPYVVKLFDIIQNGDE;locus_tag=LOCUS_17160;note=WP_012584135.1 serine/threonine-protein kinase (Dictyoglomus turgidum) [pid:40.5%25%2C q_cov:85.1%25%2C s_cov:11.0%25%2C Eval:1.8e-07%2C partial hit],internal stop codon at [1045546:1045548](-),MGA_1716
sequence1	MetaGeneAnnotator	CDS	1046289	1046417	.	-	0	ID=MGA_1717;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYFFITYGLVGTVKVCMGRDYYRGMEYVIYNRIDIYYEKTGD;locus_tag=LOCUS_17170;note=WP_011183276.1 phosphatase PAP2 family protein (Mesoplasma florum) [pid:53.7%25%2C q_cov:97.6%25%2C s_cov:11.1%25%2C Eval:1.4e-07%2C partial hit],internal stop codon at [1045995:1045997](-)%2C[1046076:1046078](-)%2C[1046196:1046198](-)%2C[1046238:1046240](-)%2C[1046268:1046270](-)%2C[1046289:1046291](-)%2C[1046439:1046441](-)%2C[1046619:1046621](-)%2C[1046634:1046636](-)%2C[1046670:1046672](-)%2C[1046700:1046702](-),MGA_1717
sequence1	MetaGeneAnnotator	CDS	1047196	1047336	.	-	0	ID=MGA_1718;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDEEITASTLSNKKVKLKDKAELIIEDAKDNASTDNLSILIIEVEK;locus_tag=LOCUS_17180;note=MGA_1718
sequence1	MetaGeneAnnotator	CDS	1047526	1047693	.	-	0	ID=MGA_1719;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEYSNENFETKDMGTTLTAILFTNVGAFVINVGDSRTYKLVNNELFQITQDQNL;locus_tag=LOCUS_17190;note=WP_011183117.1 protein phosphatase 2C domain-containing protein (Mesoplasma florum) [pid:66.0%25%2C q_cov:85.5%25%2C s_cov:18.5%25%2C Eval:3.6e-11%2C partial hit],internal stop codon at [1047448:1047450](-)%2C[1047526:1047528](-)%2C[1047727:1047729](-),MGA_1719
sequence1	MetaGeneAnnotator	CDS	1047727	1047957	.	-	0	ID=MGA_1720;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFKNAKLTDVGNYRKSNQDNLDFSIKKSGEAFGIVCDGMGGHACGEIASEIAVKKFVEYFQEQDFSNLTQKEVNR;locus_tag=LOCUS_17200;note=WP_011183117.1 protein phosphatase 2C domain-containing protein (Mesoplasma florum) [pid:43.4%25%2C q_cov:100.0%25%2C s_cov:29.9%25%2C Eval:3.5e-14%2C partial hit],internal stop codon at [1047448:1047450](-)%2C[1047526:1047528](-)%2C[1047727:1047729](-),MGA_1720
sequence1	MetaGeneAnnotator	CDS	1047947	1048906	.	-	0	ID=MGA_1721;product=23S rRNA (adenine(2503)-C(2))-methyltransferase RlmN;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002356987.1;translation=METNFDNMTNLSKDLREFIKKRFTSNLLKDLVTEESKDGTIKILFMLDDKKTIETVLMPQKYGQSVCVTTQVGCKMSCKFCASGLIKTERNLSVDEIVKQIYTMNLYLKEKYKNDPDNKRARVSHIVVMGIGEPFDNYENVLNFVKIINDKRGFEIGARHITISTCGIVPKIKEFADLKTQINLAISLHASNNDVRNQIMPINKAYPIEKLLDSVRYYVDQTNRRVTFEYILIDGINDKPEHANELAKIIRGINGYVNLIPYNEVEENPYRKSTRIDEFFKILKKQGINAIVRKEFGADIDAACGQLRAKREGVIKNEI;locus_tag=LOCUS_17210;gene=rlmN;EC_number=2.1.1.192;note=WP_002356987.1 23S rRNA (adenine(2503)-C(2))-methyltransferase RlmN (Enterococcus) [pid:54.7%25%2C q_cov:98.7%25%2C s_cov:88.5%25%2C Eval:7.9e-97],MGA_1721
sequence1	MetaGeneAnnotator	CDS	1049061	1050185	.	-	0	ID=MGA_1722;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFKYIKVTEEKIEINNNETRKIFIINGESFKNIKIKNSSNINVKKQGNNLLEIKALKVGKGFIELDSIDAINKKIIEVEVKKLKDYFSLEKDFIVIEKGKSDFINVDTNSIENLVIVNRNKNINAKFEKNKLSIKSTITGVFEIEIISSTTKITKKVKIKVINTNSSILLDKKIVISEMNTSNLIKILNYEELDQDQIKIESNSRNLLFTKNKSEIILFPKDKGVFELNINYKKQKSVIKVKSFKEIIEKEIELSDEIIKYSKSNHELKKYNDNIKIVESDNEFSFSLIDNSKIGYLELFNDNGENLKITLLSNKKDESNSKNQDNQFKNNKSKVIKILALFLIPLSFGISILLFFVLKKVYKKEQNKNKSSN;locus_tag=LOCUS_17220;note=MGA_1722
sequence1	MetaGeneAnnotator	CDS	1050273	1050659	.	-	0	ID=MGA_1723;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKIIGIVDFYENNKIIIKNIKVFFIEKEINKKNNSIGLKYKSKFKNIYENHKKIKYFLSNEYKINYQDVYFDNNDLENSVSIKKFNSEETAVFKYTYKKPNGGILTFYITIFHIEEKFDEDVLMSN;locus_tag=LOCUS_17230;note=MGA_1723
sequence1	MetaGeneAnnotator	CDS	1051245	1051586	.	-	0	ID=MGA_1724;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQNEKTLVFSFFLSISLLGGLKMIKAFKLLFLFFNFGFFSSNLLKFEVINLMENDISTKNNLIVKAPYYLLEIPKFSDKGVEVKHNEKSSIYKSTIEEFISLDQLKLETMKDY;locus_tag=LOCUS_17240;note=MGA_1724
sequence1	MetaGeneAnnotator	CDS	1051565	1052281	.	-	0	ID=MGA_1725;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKISLKDFEEQYLDKYNLEKSQLIDYFYISDSNIINEDIFKNGYVTVQDQVSGFASFILNPKENSRVLDMCSAPGGKLTHLAQIMNNTGTIDAYELQKNKIRLIEENILRLGVKNVNLSCKNALDIKEEVYDYILLDAPCSGYGVIRQKPEIKLKKYSNEENSNLIQLQSDLLEKAYKCLIKNSELVYSTCTINKNENENQIDIFLKKHKDMKKIYEKVFFGTEYDNDGFYICKMKKH;locus_tag=LOCUS_17250;note=WP_013447563.1 16S rRNA (cytosine(967)-C(5))-methyltransferase RsmB (Mycoplasma leachii) [pid:53.4%25%2C q_cov:99.6%25%2C s_cov:55.8%25%2C Eval:1.0e-65%2C partial hit],internal stop codon at [1052381:1052383](-)%2C[1052441:1052443](-),MGA_1725
sequence1	MetaGeneAnnotator	CDS	1052441	1052584	.	-	0	ID=MGA_1726;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLYQIKFLESKPYYVINESVEIAKTIKENFSGFVNKVSKKLLDKEL;locus_tag=LOCUS_17260;note=MGA_1726
sequence1	MetaGeneAnnotator	CDS	1052585	1052818	.	-	0	ID=MGA_1727;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSRKEALNILFEVFKNNKFSNKLLNNLIKKEAMSKKDIAFIFKLVYGTIQYKIYLEYVVNKVINPNKTDYKIQILL;locus_tag=LOCUS_17270;note=WP_001249665.1 16S rRNA (cytosine(967)-C(5))-methyltransferase RsmB (Bacillus cereus) [pid:39.5%25%2C q_cov:98.7%25%2C s_cov:16.9%25%2C Eval:1.4e-07%2C partial hit],internal stop codon at [1052381:1052383](-)%2C[1052441:1052443](-)%2C[1052585:1052587](-),MGA_1727
sequence1	MetaGeneAnnotator	CDS	1053037	1053702	.	-	0	ID=MGA_1728;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKQGKIIILSGPSGVGKGTINKELAQDKSLNLVQSISMTTRSPRPGEIDGVNYFFVDRDTFKDAIQHDELIEYAEFINNYYGTPRKTVYEKIAKGENVILEIEVIGATQVLNKEKPENLVSIFLMPPSLKSLEQRLRKRGTESEEIIKQRLDKALLEIPLKHKYQYVIEIDSVENAVAKVKEVLTKENCLSIDYSESIYFKLKEEVLKIVSEQYEYFVNN;locus_tag=LOCUS_17280;note=WP_011183092.1 guanylate kinase (Mesoplasma florum) [pid:59.3%25%2C q_cov:100.0%25%2C s_cov:73.4%25%2C Eval:2.5e-68%2C partial hit],internal stop codon at [1053037:1053039](-),MGA_1728
sequence1	MetaGeneAnnotator	CDS	1053707	1054303	.	-	0	ID=MGA_1729;product=16S rRNA (guanine(966)-N(2))-methyltransferase RsmD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183091.1;translation=MYNIKAKEILKMKVISGRFRGRKLATLEGMNTRPTITRIKEDMFNVLNNYFIFENKVCLDLFAGSGALSLEALSRGISFAYVNDHHKPALEIIKQNFRGLESDEYQIFNLDYKKMLDYLVNLNKKIDLIFLDPPFAKIEYYYEFFKYIYEKEILSNYGILIIESEFELDVSKISNLNILKYKNFKNKHLYILRLEKEE;locus_tag=LOCUS_17290;gene=rsmD;EC_number=2.1.1.171;note=WP_011183091.1 16S rRNA (guanine(966)-N(2))-methyltransferase RsmD (Mesoplasma florum) [pid:52.4%25%2C q_cov:94.4%25%2C s_cov:98.9%25%2C Eval:1.6e-54],MGA_1729
sequence1	MetaGeneAnnotator	CDS	1054485	1054631	.	+	0	ID=MGA_1730;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLIDFVRYSQDPELNKKENEDYLRPAVGLAAPQIGSNVNMFFARFE;locus_tag=LOCUS_17300;note=WP_011166420.1 peptide deformylase (Mycoplasma mycoides) [pid:66.7%25%2C q_cov:100.0%25%2C s_cov:24.0%25%2C Eval:7.3e-12%2C partial hit],internal stop codon at [1054398:1054400](+)%2C[1054404:1054406](+)%2C[1054629:1054631](+)%2C[1054800:1054802](+),MGA_1730
sequence1	MetaGeneAnnotator	CDS	1054665	1054802	.	+	0	ID=MGA_1731;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINAKIIAKSDQICCLSDGEGCLSVDTNHKGLVPRNYKIQVQGYD;locus_tag=LOCUS_17310;note=WP_011166420.1 peptide deformylase (Mycoplasma mycoides) [pid:68.9%25%2C q_cov:100.0%25%2C s_cov:22.5%25%2C Eval:9.3e-12%2C partial hit],internal stop codon at [1054398:1054400](+)%2C[1054404:1054406](+)%2C[1054629:1054631](+)%2C[1054800:1054802](+)%2C[1054938:1054940](+),MGA_1731
sequence1	MetaGeneAnnotator	CDS	1054803	1054940	.	+	0	ID=MGA_1732;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTNEEVDLTLRGYHAIVFQHELEHNNGQLYYDRINKEEPDFKDEN;locus_tag=LOCUS_17320;note=WP_011166420.1 peptide deformylase (Mycoplasma mycoides) [pid:57.8%25%2C q_cov:100.0%25%2C s_cov:22.5%25%2C Eval:1.9e-09%2C partial hit],internal stop codon at [1054629:1054631](+)%2C[1054800:1054802](+)%2C[1054938:1054940](+),MGA_1732
sequence1	MetaGeneAnnotator	CDS	1055127	1055747	.	+	0	ID=MGA_1733;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDDKKQESLQQTKSVVADLEKKIEIKKLKDNINPPKKKLPQAPFPTKVYALGGLEEVGKNTYCIEYNDEIIMIDAGVKFPDATQLGVSAVIPDFSYLVENNKKLKGLFITHGHEDHIGGIPYLLQQVEVPVIYAPALAAALIRDRLKEYKLQNKTVVKEYVENDVYATKNFTIQFAAVNHSIPDAFGIHIQTPNGAIFSTGDYKFD;locus_tag=LOCUS_17330;note=WP_011166843.1 ribonuclease J (Mycoplasma mycoides) [pid:64.9%25%2C q_cov:99.0%25%2C s_cov:34.1%25%2C Eval:2.3e-73%2C partial hit],internal stop codon at [1055745:1055747](+)%2C[1055790:1055792](+),MGA_1733
sequence1	MetaGeneAnnotator	CDS	1055817	1056926	.	+	0	ID=MGA_1734;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MADSTNAEVEGYTIGERKVIQNIDTHFLKSKGRIIIASFASNVHRLQHIIELANKYGRRILVIGRSIERIIKIIRQMGHLNINDKMFIKANEIDNFPKNQIMILCTGSQGEPMAALSRISRMEHQTIKIIPGDTVIMSSSPIPGNRADVENVINKLTKIGANVIENSTENKIHTSGHASQEEQKLLFTLLKPRCFMPMHGEYRMLKIHGETATKVNVKPHNVFVVANGDQIELHNGASQVGKRVPAEAVFIDGKDMTGKASNVIRERNILSKDGLMAVIISIDSQANKLSAPPRIVSRGSFYVRDSGNVIAESINIVTNAVQEVLNSQKPTFGAIKNSIKESLSPFIFRYKRRNPLIIPVILNKKIEVK;locus_tag=LOCUS_17340;note=WP_011183468.1 ribonuclease J (Mesoplasma) [pid:72.1%25%2C q_cov:98.9%25%2C s_cov:62.1%25%2C Eval:4.4e-150%2C partial hit],internal stop codon at [1055745:1055747](+)%2C[1055790:1055792](+),MGA_1734
sequence1	MetaGeneAnnotator	CDS	1057490	1058191	.	+	0	ID=MGA_1735;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFGLVAGFINLQTSNPFEVYTQTDLKISEFTKAFTTCFFAFGGIETFITTGKNIKNRSKNMPIAIIIIMIATTSFYIVFSLITMFAIGGKGFSSNPNTQFFGDNNFLKVFGPTLIIICTMLMRFNSSLQITMFGGSTLEPLSSQGYISPVFKKENKENVPVAGVFSTIILFVICATMFLFIPDIIEGVTKSPSPLNYATIASCASILLIAIYGTIIPTAIVQGIRKNVKVQI;locus_tag=LOCUS_17350;note=MGA_1735
sequence1	MetaGeneAnnotator	CDS	1058411	1058599	.	+	0	ID=MGA_1736;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKMDPNSERAKEIAEYETLFRLLTAEEMQAIAFKEAKEDEEYRQYKAQLKEEKIRNKAVSK;locus_tag=LOCUS_17360;note=MGA_1736
sequence1	MetaGeneAnnotator	CDS	1058653	1058973	.	+	0	ID=MGA_1737;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKMLSFLGVTTLSVGAITPVINYNVSSTNNIINVTESYTYSITNEDMQNLNFVTENGIEKAILSPTDLKKNFEKCVNNLLAAVDINLTNDYKIEKITTDFIEKDA;locus_tag=LOCUS_17370;note=MGA_1737
sequence1	MetaGeneAnnotator	CDS	1059331	1059591	.	+	0	ID=MGA_1738;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEKDKVKEHIYKIEDAKLNDIDRPENLYKAIFSNDTYSVGEKIITNDNAPIKDEYFYIGITSKNEAKGEYKMLVKNTKGTTNKIK;locus_tag=LOCUS_17380;note=MGA_1738
sequence1	MetaGeneAnnotator	CDS	1059667	1060137	.	+	0	ID=MGA_1739;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKGNRQTSSIRTLLFIANVFGLIIGLIGFGVFIYAMTRVGLMDPKATGDISKTSPYVPLIFSVVTFAFVTNTFFCLYIINFLKKADDITLLNNRYIIALFSISIGGIFTPFVLAQMQNIPVESTISPKFTISKGYGGNSLVAGFSALIVYFGFSLL;locus_tag=LOCUS_17390;note=MGA_1739
sequence1	MetaGeneAnnotator	CDS	1060068	1060292	.	-	0	ID=MGA_1740;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLYAVSFLFQVASAPGVAKTKQFKTPQNNTTANTETKIISASPLANIFCLYHNNENPKYTIKALKPATSELPP;locus_tag=LOCUS_17400;note=MGA_1740
sequence1	MetaGeneAnnotator	CDS	1060291	1060509	.	+	0	ID=MGA_1741;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFIAVINLIVATIILIMQLIQSILSIISIFADMFDRKRGFLGTIFNSMYAAYRIAIQLFIIYTINKIIKGI;locus_tag=LOCUS_17410;note=MGA_1741
sequence1	MetaGeneAnnotator	CDS	1060633	1061262	.	-	0	ID=MGA_1742;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MERTFIAHPNPHFSSMDMISNTDIKVYGIYEHYIQNFVVINNTKYISFIINGKVFTTNLNNIENLEEFQIIKKINEGLIIKRDNKILLVDENIKLIKEIKIDLVDIIQFQNNFVIQKSNEEIVLTDLSFKIISVLDNEQDFKRIHYLNKNNVLISFKKKEESVLINILNNKKETFDKSFINRAVLLNNTFFLTKKIEKSGGKDFLNIFY;locus_tag=LOCUS_17420;note=MGA_1742
sequence1	MetaGeneAnnotator	CDS	1061486	1061716	.	-	0	ID=MGA_1743;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGVFEFKHYNKGTLAVCEAIANLKDSFTLIGGGDSAAAAIQLGFKDKFTHISTGGGASLEYMEGKKLPGVEAIQNK;locus_tag=LOCUS_17430;note=WP_001074749.1 phosphoglycerate kinase (Staphylococcus) [pid:73.7%25%2C q_cov:100.0%25%2C s_cov:19.2%25%2C Eval:5.5e-28%2C partial hit],internal stop codon at [1061726:1061728](-),MGA_1743
sequence1	MetaGeneAnnotator	CDS	1061726	1062127	.	-	0	ID=MGA_1744;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSKGIDKPEHPFVAIIGGAKVSDKIGVIDNLLEKADKIIIGGGMAYTFFKAQNHSIGKSLCEEDKVSLAKEYLEKANGKIILPIDSACNSDFKDTEPTITGVDLPDDLMGLDIGPKSIELFKTILKDAKTVA;locus_tag=LOCUS_17440;note=WP_011183475.1 phosphoglycerate kinase (Mesoplasma florum) [pid:67.4%25%2C q_cov:99.2%25%2C s_cov:32.7%25%2C Eval:9.8e-46%2C partial hit],internal stop codon at [1061726:1061728](-)%2C[1062257:1062259](-),MGA_1744
sequence1	MetaGeneAnnotator	CDS	1062257	1062682	.	-	0	ID=MGA_1745;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKTLNDIQVSGKTVLVRVDFNVPLKDGVITDDNRVRAALPTINHLAEKGAKVVLFSHLSRIKEEADKAKKSLAPVAKKLEELSGKSIKFVPQTRGEELETAIKNLNAGEILLFENTRFEDVQNGEVVKYESKNDSQLGKY;locus_tag=LOCUS_17450;note=WP_011183475.1 phosphoglycerate kinase (Mesoplasma florum) [pid:75.2%25%2C q_cov:100.0%25%2C s_cov:34.9%25%2C Eval:4.7e-54%2C partial hit],internal stop codon at [1062257:1062259](-),MGA_1745
sequence1	MetaGeneAnnotator	CDS	1063038	1063217	.	-	0	ID=MGA_1746;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFYFKEDFINYMLNVIAKVKKQNCIKRVTQIQIQKIIYIVYSYFLLFREKIANVDFET;locus_tag=LOCUS_17460;note=MGA_1746
sequence1	MetaGeneAnnotator	CDS	1063344	1063553	.	-	0	ID=MGA_1747;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKKTSVEEINNAVKEAVSSDAELNAALEYCTKEIVSQDVIGSTYGSIFDATLTKVMEVEGKQLVKVFA;locus_tag=LOCUS_17470;note=WP_011166850.1 type I glyceraldehyde-3-phosphate dehydrogenase (Mycoplasma mycoides) [pid:69.2%25%2C q_cov:94.2%25%2C s_cov:19.2%25%2C Eval:2.3e-18%2C partial hit],internal stop codon at [1063344:1063346](-)%2C[1063686:1063688](-),MGA_1747
sequence1	MetaGeneAnnotator	CDS	1063686	1064030	.	-	0	ID=MGA_1748;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGIDLVVECTGFYVSKEKSQAHLDAGAKKVIISAPATGDLKTVVYGVNHKTITKEDAIVSAASCTTNCLSPVAKILDEKFGIVKGLMNTIHAVTNDQNLLDLPHSDLRRGRAAA;locus_tag=LOCUS_17480;note=WP_011183476.1 type I glyceraldehyde-3-phosphate dehydrogenase (Mesoplasma florum) [pid:78.9%25%2C q_cov:100.0%25%2C s_cov:33.8%25%2C Eval:2.8e-48%2C partial hit],internal stop codon at [1063686:1063688](-)%2C[1064037:1064039](-),MGA_1748
sequence1	MetaGeneAnnotator	CDS	1064037	1064291	.	-	0	ID=MGA_1749;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIAINGFGRIGRLAFRQLFLSKDIEVVAINDLTNSKTLAYLLEFDSAHGKFMSGKIESKEGAIIVDGKEIKILAERDAKNLP;locus_tag=LOCUS_17490;note=WP_011183476.1 type I glyceraldehyde-3-phosphate dehydrogenase (Mesoplasma florum) [pid:69.9%25%2C q_cov:98.8%25%2C s_cov:24.3%25%2C Eval:2.3e-26%2C partial hit],internal stop codon at [1064037:1064039](-),MGA_1749
sequence1	MetaGeneAnnotator	CDS	1064412	1064615	.	-	0	ID=MGA_1750;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNHRLENKCITYFTSNFSIADLQKYYLNKKVIGPEQKKFELQKTLRFTERIKGLTNEFEMTGENKRY;locus_tag=LOCUS_17500;note=MGA_1750
sequence1	MetaGeneAnnotator	CDS	1064643	1064984	.	-	0	ID=MGA_1751;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGEYIESLDLNKLNQESKTLFTKIRENMVNNSFKGLYLYGAPGIGKTFLMKRLANTYARKDKKVIFVTVNKLVKIVKDTFNQLEKTELSKFYDDCLKVDILILDDIGAEIVSD;locus_tag=LOCUS_17510;note=WP_011183477.1 AAA family ATPase (Mesoplasma florum) [pid:38.0%25%2C q_cov:81.4%25%2C s_cov:29.3%25%2C Eval:2.5e-12%2C partial hit],internal stop codon at [1064643:1064645](-)%2C[1065063:1065065](-),MGA_1751
sequence1	MetaGeneAnnotator	CDS	1065063	1065311	.	-	0	ID=MGA_1752;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKFTLNDIKNHKDLKELIKKYNIDDQILQNNILVINRFLNDYVYCEKEEEIKYCKQSIPGVQQKLVYKNNLFYIASKNCKH;locus_tag=LOCUS_17520;note=MGA_1752
sequence1	MetaGeneAnnotator	CDS	1065396	1066586	.	-	0	ID=MGA_1753;product=DnaD domain protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166852.1;translation=MDEFSYRVVLKNIIDSSNNKIITYLYQPIIGSKAVSLYFTLINESYIISEFKTITLSNTRLSKITGISKNILSKYFKKLEALGLLRTLENKSKNTIIFNIYSPLEPVEFFNNKVFNNALLSKIKKEDYELIRFTFRDEGELTLESGYKDTSSKFVEVFGEIEELKTSEAAMIKAKPKRTNALLKGLDYANLLNALKKEDITISENDEIIKKAIEDVFGSYNISQFEIKEIIKKIYEKDSCSFSNSKFYKEVAKLIFKKEEFSETIPEFDVELNMLKQKNQKLSEMETIEPEEYLLALLISKDKKIKQLDKKFEEIIEILQNKYKLRNGVINCLFDFVFLKNKGQIVPNYIYKIASTMSENGFKKAPEAFEYLKVAHQKSKVNIKSNINLKPELSSK;locus_tag=LOCUS_17530;note=WP_011166852.1 DnaD domain protein (Mycoplasma mycoides) [pid:29.4%25%2C q_cov:94.9%25%2C s_cov:90.4%25%2C Eval:1.1e-32],MGA_1753
sequence1	MetaGeneAnnotator	CDS	1066739	1067254	.	-	0	ID=MGA_1754;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIYNDTRKFGTFHLQDKLTFRNEKPINKIGPEPFNSTLNGQYLMDIMSKSNKHIKTVLLDQTKISGIGNIYADEILFDSKIHPEKRASALGLKNYNDILKSSIKILNRSIELGGSTIDSYQPEQGIDGKFQRELKVHLRKSKPCFDCGRIIEKIKVNGRGTYFCPECQNLY;locus_tag=LOCUS_17540;note=WP_001114478.1 DNA-formamidopyrimidine glycosylase (Bacillus cereus) [pid:47.0%25%2C q_cov:97.1%25%2C s_cov:60.1%25%2C Eval:1.3e-40%2C partial hit],internal stop codon at [1067330:1067332](-),MGA_1754
sequence1	MetaGeneAnnotator	CDS	1067330	1067572	.	-	0	ID=MGA_1755;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPELPEVETVVRVLNSKVKGLTIQNVKITYPNLIKTDIKIGEFEEKLKGRKIDNISRIAKHIIFELQDLVLISHLRMEGK;locus_tag=LOCUS_17550;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:1.3e-16%2C partial hit],internal stop codon at [1067330:1067332](-),MGA_1755
sequence1	MetaGeneAnnotator	CDS	1067602	1069110	.	-	0	ID=MGA_1756;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGYKIKPELFIYDMMIACYILNSNIKSTFEQHIVMIDSSNEIKTFEEIFGKGVKKTHLIDEKIKMDYLVSKSLFIKEYEKEIIKQLQEKEQLNLYEKIEFPFAKVLIDMEVEGIEVDKQELAYQEKEILELLKNLEFEIRGDLKEFIDEDFNIGSPKQLKELLFDKLKLPDYNKGSTDRETLDLLEDKHPVISKIIAFRKYSKLHSTYLKGFEKFIHSDNKVHTIFNQTLTNTGRLSSSYPNMQNISIRDEEQKNVRKIFVTNEENLYLSFDYSQIELRVLADIVKEEKLIEIFSMDRDIHSEAARSIFNLNEEDKVSSEQRRVAKVFNFGILYGLSDFGLAKDLKISIAQAKEYIKAYYKAFPQILKFKEEVIKFGYENGYVETQGNRRRYIYELNNSNYMIKQFGERAAVNAPIQGTAADILKVAMINVFENLNKNKLKSKMVAQIHDEIILLVKKSELEKVKNMVLDIMKEAYNDLLKISNKNREALVKLEINYSQASD;locus_tag=LOCUS_17560;note=WP_011166854.1 DNA polymerase I (Mycoplasma mycoides) [pid:51.8%25%2C q_cov:98.8%25%2C s_cov:54.3%25%2C Eval:1.9e-144%2C partial hit],internal stop codon at [1067602:1067604](-)%2C[1069207:1069209](-)%2C[1069363:1069365](-),MGA_1756
sequence1	MetaGeneAnnotator	CDS	1069363	1069587	.	-	0	ID=MGA_1757;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIAGKDDAFLSKEIATIHKDMNLDKIDFTKTEINFANMRDFFIRYEMNSLLKKYSSKNEETTDEIKLEYKILDK;locus_tag=LOCUS_17570;note=MGA_1757
sequence1	MetaGeneAnnotator	CDS	1069969	1070283	.	-	0	ID=MGA_1758;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKFLLVDGNALIFRAFYSSYGRATLTTKSGIPTNAVYSFINMLMNIIEKNDYFCIKVAFDKGKKTFRHDKLKDYKAGRAKTPSELIMQFPIVREFLTNANIQ;locus_tag=LOCUS_17580;note=WP_011166854.1 DNA polymerase I (Mycoplasma mycoides) [pid:64.8%25%2C q_cov:100.0%25%2C s_cov:11.9%25%2C Eval:7.0e-31%2C partial hit],internal stop codon at [1069765:1069767](-)%2C[1069969:1069971](-),MGA_1758
sequence1	MetaGeneAnnotator	CDS	1070337	1071194	.	-	0	ID=MGA_1759;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAYLKANYKSSFYCSLLNGSIRNEVKTSQYLNEIKNAGFNINPPTIKNPNSVYIYHNNMINIPLNVIKYIGPEFLKNIKELFKTNKTAFNNILLFIGNMKDKGLTEQRYIALVYSGAFDCFGFSRKDLILKKDQIFNLASTATLLNDPDIILELEKRKDKPEEIIGFEKEYLGFFVSSHPLSIIRKKIINGDKLRTLNTLKNEGVICEVLINIENIVTKKDKNGNQMAFLDIADETEIMMITVFSSVYDSFKTKLNLGKNLIIKIKTQKFNNKINAVLLEVIKEI;locus_tag=LOCUS_17590;note=WP_011183481.1 DNA polymerase III subunit alpha (Mesoplasma florum) [pid:32.3%25%2C q_cov:100.0%25%2C s_cov:29.8%25%2C Eval:3.6e-42%2C partial hit],internal stop codon at [1071195:1071197](-)%2C[1071270:1071272](-),MGA_1759
sequence1	MetaGeneAnnotator	CDS	1071270	1072301	.	-	0	ID=MGA_1760;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFERFLNIDRITLPDIDLDFQDDRREEILEYLFNKYGKNHFATITTFQTIGIKNALRDCGRIFDVSINDINHMTKQINEKNIKDLSLALEDSETLRKYKEKYPQIFEISEKIIGLPRQTGTHAAGVVFSNIDLYKVVPTKIGINGISQTQFSMNYLEEIGLIKTDILGLRNLSIIQEILRNIKIVDKVDVVLENIPLNDKKTFELLRNGDTSGIFQLESPGMTDVLIKMKVNSVDDIALTSALYRPGPQDNIPLFIERKNNKELKYSIDKNIEDILQPTFGIIVYQEQIMEILQRVASMSLSKADVVRRAIGKKDKNLMAQFKEEFIQSAIKNQYTSNKATEI;locus_tag=LOCUS_17600;note=WP_011183481.1 DNA polymerase III subunit alpha (Mesoplasma florum) [pid:53.6%25%2C q_cov:100.0%25%2C s_cov:34.6%25%2C Eval:1.4e-102%2C partial hit],internal stop codon at [1071195:1071197](-)%2C[1071270:1071272](-)%2C[1072308:1072310](-),MGA_1760
sequence1	MetaGeneAnnotator	CDS	1072308	1072787	.	-	0	ID=MGA_1761;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIAIKEGKLITELSNLEKNYYFSKELISNYIKVENHVNNISKITSLIDIENIFNYEKHFLKYPNSKKMPSKEYLKIICEELLEEYLLLKNILDKKLYKTRLYYELEVINKMGFEDYFLIVHDIIYECIRLKILYGPGRGSAAGSLVAFLLKITKLDPIE;locus_tag=LOCUS_17610;note=WP_011166855.1 DNA polymerase III subunit alpha (Mycoplasma mycoides) [pid:42.1%25%2C q_cov:98.7%25%2C s_cov:16.0%25%2C Eval:2.4e-24%2C partial hit],internal stop codon at [1072308:1072310](-),MGA_1761
sequence1	MetaGeneAnnotator	CDS	1073001	1073333	.	-	0	ID=MGA_1762;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEYLNLFNVQSCYNFLNSTIRIEDYLNFLKLNNHDFAFYADKNTMYGAAEFYEKAKEKKLKPVIGLSFDLSFGNILIYAKNNKGFEEISYISSYINQNDKINLEHLESLF;locus_tag=LOCUS_17620;note=WP_011166855.1 DNA polymerase III subunit alpha (Mycoplasma mycoides) [pid:36.1%25%2C q_cov:87.3%25%2C s_cov:9.8%25%2C Eval:8.1e-16%2C partial hit],internal stop codon at [1073001:1073003](-),MGA_1762
sequence1	MetaGeneAnnotator	CDS	1073884	1074045	.	-	0	ID=MGA_1763;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPKKLSYKSFEIEDTSKIDQVNKHFQRCQKYLKRKIANLKKTEDNYKKIKIFF;locus_tag=LOCUS_17630;note=MGA_1763
sequence1	MetaGeneAnnotator	CDS	1074235	1074417	.	-	0	ID=MGA_1764;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVPIFIQLSIYSYKIIIQNVISAFNNYSNFKKDFLVLKRELYKFYIQTFVVFVLMTSIYI;locus_tag=LOCUS_17640;note=MGA_1764
sequence1	MetaGeneAnnotator	CDS	1074791	1075294	.	-	0	ID=MGA_1765;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTFDIFNRDMPLQFANDVSNNKNIVNKQLSQNNIKDTYLQKAKEESEKIINKFTEQNISLDKALDFIKAKYPQFEKEYNKQISTYQEQNYSTLTNSYLEETKLKNSYKESFNYINNSENVEKYNISFSSAYQKNGELVSRLKTAKISFVTLTAASAVAAAGFYAAAP;locus_tag=LOCUS_17650;note=MGA_1765
sequence1	MetaGeneAnnotator	CDS	1075310	1075444	.	-	0	ID=MGA_1766;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSILTSVGLSSSAFSVTLSSSKNVIHNNVKSDESNLNSVE;locus_tag=LOCUS_17660;note=MGA_1766
sequence1	MetaGeneAnnotator	CDS	1075710	1076117	.	-	0	ID=MGA_1767;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDELLRFIFRILNVIFIIFIFDLLFGGRRRRNGGRTRNNDNSQSRYSNEDTVGGAGYDQSRSYSDFYQGESQLEQAYQALGLVRGCSLKEVKKRYIELAKKNHPDKNPNKVEAQAEMTKINNAYETIVEDFNRRK;locus_tag=LOCUS_17670;note=WP_004454751.1 molecular chaperone DnaJ (Clostridioides difficile) [pid:43.1%25%2C q_cov:43.0%25%2C s_cov:15.1%25%2C Eval:4.4e-09%2C partial hit],MGA_1767
sequence1	MetaGeneAnnotator	CDS	1076147	1076425	.	-	0	ID=MGA_1768;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNSKKKKKQQNNKFGVFNGNVINSETLGYDQEFEIENYQDESLIITEIKKQHLKEKKPEINNKNKKGKANYFIYKLTAYIIILLLIVLLIV;locus_tag=LOCUS_17680;note=MGA_1768
sequence1	MetaGeneAnnotator	CDS	1076442	1077599	.	-	0	ID=MGA_1769;product=tRNA 4-thiouridine(8) synthase ThiI;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183482.1;translation=MKNVLIRYGELTLKGNNRNTFISKLIQNIKFKLKKYKEIIVYKKDHNNLVLEIKEQSKLDEICSILQNIFGIYSLSIVEIVEKNEEIILNKTLEICKNHLGTFKVEVERKDKGFAINSQELKTKIAVNILKNNQNIKVDVHNPELKLTVIIKHNGAFIFTSRISALKGLPVGVSSKGLSLLSGGIDSPVASYLTLKRGMQVDFLHFMTPPHTSKEALDKVFKLASKIEKYNQANFSLYVCDFSMILKELMHIKEESYRITIMRRIFIRIANKLSNIIGAQAIITGESLGQVASQTIESIHVINQVSDLPILRPVLTYDKEEIIEISKKIDTYETSILPFDDVCSMYVPKNPVTKPKTFIAIKQEESLLLDEMIEYTVKNLIKIYI;locus_tag=LOCUS_17690;gene=thiI;EC_number=2.8.1.4;note=WP_011183482.1 tRNA 4-thiouridine(8) synthase ThiI (Mesoplasma florum) [pid:57.9%25%2C q_cov:100.0%25%2C s_cov:96.5%25%2C Eval:2.7e-121],MGA_1769
sequence1	MetaGeneAnnotator	CDS	1077611	1078618	.	-	0	ID=MGA_1770;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMTELKNKHITFGPVRKNLHLNAMKYGELENYIDNLRIKINNELQKLQFKKANRTLKEVFNQINSFKSAVENEDNLKSFFEVKTPSIRNKFDMIEHSSRLLERDFTRIEDITKQFSKERNDFEIAKAAFRKTKAKADLLFSQIDLGTNNGEEINLFEIKTEMLKLMEQSLKDMSALEKSAKIVESKSTNIDSLVNQVIFIQSILNQLDVKINQFKSIYELERFIDSIQELHLRLLKYSRENLQKITTQEEKERISNQIEICNQDTLILARDLNDTIFLDYISQEIIVYLERYVGKVEGIEQVIYNCEKLFKERELDQLIGYSLQILMKLKENRIR;locus_tag=LOCUS_17700;note=MGA_1770
sequence1	MetaGeneAnnotator	CDS	1078718	1079074	.	-	0	ID=MGA_1771;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKVFRDFVALIEDKKNTRPSLNNLKKFQAVYQKTMTINKSVHEIFIETMNNLEIEFIQRDSLTFQKELFRILKDEVIMTTFKDIAIDQDKLKDTIDQIESLFEEFYFKLDEGRYKES;locus_tag=LOCUS_17710;note=MGA_1771
sequence1	MetaGeneAnnotator	CDS	1079108	1079257	.	-	0	ID=MGA_1772;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIYKRILQTAAKTIDLIDDLKKSPLKYRLMRISMIFDETGSFEKELMI;locus_tag=LOCUS_17720;note=MGA_1772
sequence1	MetaGeneAnnotator	CDS	1079631	1080227	.	+	0	ID=MGA_1773;product=30S ribosomal protein S4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183484.1;translation=MSRYTGSTFKKARRYGFSILETGKEFSKGKKRTTAPGQHGARRTKLSGYGQQMQEKQKVKFMYGLTERQFRNTYARAKKIKGITGTIFLQQLESRLDNVIYRMGLSLTRQGARQLVSHGHILVNGKKLDIPSYAVKIGDIISVKDKMQKNDKIVESLASNAGTVEFVKFDKAKMTGSLLRLPERKELNQEINEALIVE;locus_tag=LOCUS_17730;gene=rpsD;note=WP_011183484.1 30S ribosomal protein S4 (Mesoplasma florum) [pid:73.6%25%2C q_cov:100.0%25%2C s_cov:96.6%25%2C Eval:4.3e-79],MGA_1773
sequence1	MetaGeneAnnotator	CDS	1080381	1080821	.	-	0	ID=MGA_1774;product=Sua5/YciO/YrdC/YwlC family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166355.1;translation=MLAKNDILKAINILQENKIVILPTDSIYGLSALYNEENRVRINKIKRSQESKQLIVLFSKLKQLKKIININKKFKKNVKSKIPITQIVNTYKNESIALRKVKRKDLVKIINKTGLIFSTSVNYSNNPYLSKKEELDLFNINISEVF;locus_tag=LOCUS_17740;note=WP_011166355.1 Sua5/YciO/YrdC/YwlC family protein (Mycoplasma mycoides) [pid:46.6%25%2C q_cov:100.0%25%2C s_cov:86.7%25%2C Eval:5.7e-24],MGA_1774
sequence1	MetaGeneAnnotator	CDS	1080821	1081306	.	-	0	ID=MGA_1775;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNMIDLNIKSLHILTKKFTQYFIQKNKGRVINIASMGSFTPGPVFSSYYASKAYVLSFGIAINTELKKLKSKARVITICPGALKTDFWNRSSNEQRAKIRNNSKTISSSVYAKNSLKKALKAKKKNYIIFGTFNKLAKKLTKIMPEYVVLNSVYNYQRKTK;locus_tag=LOCUS_17750;note=WP_010966274.1 SDR family oxidoreductase (Clostridium) [pid:37.6%25%2C q_cov:97.5%25%2C s_cov:56.1%25%2C Eval:1.3e-20%2C partial hit],internal stop codon at [1081340:1081342](-)%2C[1081442:1081444](-),MGA_1775
sequence1	MetaGeneAnnotator	CDS	1081442	1081621	.	-	0	ID=MGA_1776;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNLNKEAYAIVTGASKGLGYAYCEELLKLEYNIIAVARNTDSLQELQKKYSNLKIET;locus_tag=LOCUS_17760;note=MGA_1776
sequence1	MetaGeneAnnotator	CDS	1081764	1081925	.	-	0	ID=MGA_1777;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCIILICRDFIIDVVRQILANSAVVMAANKMGKIRATAEMVGLSILFFLGAQC;locus_tag=LOCUS_17770;note=WP_020863053.1 CDP-diacylglycerol--glycerol-3-phosphate 3-phosphatidyltransferase (Mycoplasma mycoides) [pid:44.9%25%2C q_cov:92.5%25%2C s_cov:24.7%25%2C Eval:5.3e-07%2C partial hit],internal stop codon at [1081740:1081742](-)%2C[1081764:1081766](-)%2C[1081926:1081928](-),MGA_1777
sequence1	MetaGeneAnnotator	CDS	1081926	1082087	.	-	0	ID=MGA_1778;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFIVASLTDMLDGYVARKYNMVTNFGKFFDAIADKLLTNSVLIIFACFGILPI;locus_tag=LOCUS_17780;note=WP_020863053.1 CDP-diacylglycerol--glycerol-3-phosphate 3-phosphatidyltransferase (Mycoplasma mycoides) [pid:71.7%25%2C q_cov:100.0%25%2C s_cov:26.8%25%2C Eval:5.7e-17%2C partial hit],internal stop codon at [1081740:1081742](-)%2C[1081764:1081766](-)%2C[1081926:1081928](-)%2C[1082181:1082183](-),MGA_1778
sequence1	MetaGeneAnnotator	CDS	1082969	1083490	.	-	0	ID=MGA_1779;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFDLILKNTVEELLNYFNEDCFKNLKLNGKDIRISVDNLFEKISTDNFEGIDLIIDQLNQLRQENQDLLTTKKANHIFYASTEILLSSATEGFRKIKEAFHDLNFLKYTEHEKNLIDLNEKFVVRKLASNSQRVINKYENLSFRFINNEKISDFLNSLNKISKSENVSDILC;locus_tag=LOCUS_17790;note=MGA_1779
sequence1	MetaGeneAnnotator	CDS	1083504	1083881	.	-	0	ID=MGA_1780;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKRLAQEVTNFVHGKEGLEKAEKISEALFSGDLLKLNKIDLLSIINSLEKNKVKENIKLIDLIVETKIASSKREARELINEGAISINNNNKFEENTIVDKKMITVDNFIIIKKGKKKYFIVEII;locus_tag=LOCUS_17800;note=WP_011166856.1 tyrosine--tRNA ligase (Mycoplasma mycoides) [pid:45.2%25%2C q_cov:99.2%25%2C s_cov:30.0%25%2C Eval:1.6e-24%2C partial hit],internal stop codon at [1084041:1084043](-),MGA_1780
sequence1	MetaGeneAnnotator	CDS	1084179	1084379	.	-	0	ID=MGA_1781;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLIDFLREIGKDFNLAYLLAKENISSRIEKGLSITEFSYTMLQGYDFYRLYQDHNCLMQIGGSDQ;locus_tag=LOCUS_17810;note=WP_011183485.1 tyrosine--tRNA ligase (Mesoplasma florum) [pid:72.7%25%2C q_cov:100.0%25%2C s_cov:16.0%25%2C Eval:1.8e-23%2C partial hit],internal stop codon at [1084041:1084043](-)%2C[1084179:1084181](-)%2C[1084389:1084391](-),MGA_1781
sequence1	MetaGeneAnnotator	CDS	1084389	1084748	.	-	0	ID=MGA_1782;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRSILEELKQRDLLKQFTNEEKILNAQKQGAGLYCGFDPTADSLHVGHLIQIINLKRFKDFGFAPIAILGGGTGMIGDPSFKSEERNLLTLEQVGKNVEGIKQQLNFLIPDINVINNND;locus_tag=LOCUS_17820;note=WP_011166856.1 tyrosine--tRNA ligase (Mycoplasma mycoides) [pid:63.8%25%2C q_cov:97.5%25%2C s_cov:28.0%25%2C Eval:1.3e-37%2C partial hit],internal stop codon at [1084179:1084181](-)%2C[1084389:1084391](-),MGA_1782
sequence1	MetaGeneAnnotator	CDS	1084751	1085251	.	-	0	ID=MGA_1783;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKLLKLASWVFLGMMLAPKKGVEIRSDFVDYLKKYRPQIKKLITTIEETWEKSQGNESDEVIANIEMKLSNIRNASDELDAAKTKELAFKALQKIGQTTVKIGQEIVKSDNVKIIAKDLAMITVDIIDKADEVYSKVKDVSISMSEDVYEVGDSKKVKTNINKEK;locus_tag=LOCUS_17830;note=MGA_1783
sequence1	MetaGeneAnnotator	CDS	1085347	1085616	.	-	0	ID=MGA_1784;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLGLIYASTGVETTQTVMIIILLVLAIILSLYTIITLRKVGIAAKKVDYFFEDLTYKSEMLNATVDTVARVTNYIDIFDAFAKRNVKS;locus_tag=LOCUS_17840;note=MGA_1784
sequence1	MetaGeneAnnotator	CDS	1085932	1086537	.	-	0	ID=MGA_1785;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDQKNSNNIDLTKESKLESEKAKKRLEEIKLSNDLINSQVASNNFYVPKRKTINSSNEEVSLIKPRKKKNLPFTDQQQKELEKTISDITNEYKDIEKEQKNIEKKLLKEEVKISRLITKTNRRIRSLIDKEDMEQLEKSVDLQEQYIKAFDKVQEGINTLVLRENNISLGERRKYIYNKAYNAETERARRLVELRNSNKET;locus_tag=LOCUS_17850;note=MGA_1785
sequence1	MetaGeneAnnotator	CDS	1086550	1087395	.	-	0	ID=MGA_1786;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNMDPIFTDDPNAKKISIEDITRQLNKKHLEAEDNSDSENVLIKEKLKNIKKNIGQADNQPKKTEGVLGSIIDNARKNTQSIQNHILETDPVIAKLQKIEELRKSGGVDADLYTDVEKIKNNTISYSQRAKEFLEQNSMKPVESELERVRRLSQRVQNEREELNKQNKVKSNSKVSKEKEVEPKRNIFLAVSKSQMQNNSIKDEVKQKLLKLKEIKFQNIEDEVEKTIQEIDSKIFYNESMKEEFFEEKLKEFDKLLKENTKPNRKPELIKPRRLQNKKK;locus_tag=LOCUS_17860;note=MGA_1786
sequence1	MetaGeneAnnotator	CDS	1087534	1088187	.	-	0	ID=MGA_1787;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDRMDYYTNQQIDGYASAIGGIKNLVTAASFEFLAEEPNLNGTMPHALIASFDGDLIEATKAYKEVFPKNNLIILVDYNNDCISDSIKVCNAFKDEIYAVRLDTSPSLVDKSLQDMQENSQELHGVNPTLVKMLREKLDLNGHNKVKIIVSSGFNEEKIKMFESQNTPVDIYGVGDAITKNKIGFTGDIVLINGKKQAKFGRENSFSNKIKSIKYS;locus_tag=LOCUS_17870;note=WP_011183486.1 nicotinate phosphoribosyltransferase (Mesoplasma florum) [pid:54.1%25%2C q_cov:99.1%25%2C s_cov:62.7%25%2C Eval:1.8e-60%2C partial hit],internal stop codon at [1088455:1088457](-),MGA_1787
sequence1	MetaGeneAnnotator	CDS	1088455	1088577	.	-	0	ID=MGA_1788;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNRFNIDLRIFEDYYSADYFKKTKEILNKFKPDQLVTMQ;locus_tag=LOCUS_17880;note=MGA_1788
sequence1	MetaGeneAnnotator	CDS	1088624	1088749	.	-	0	ID=MGA_1789;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPDGTQINQGKLKGFDSFGMLCSAKELEIRDEKYNKTGIME;locus_tag=LOCUS_17890;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:7.4e-09%2C partial hit],internal stop codon at [1088750:1088752](-),MGA_1789
sequence1	MetaGeneAnnotator	CDS	1088750	1089151	.	-	0	ID=MGA_1790;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIFLKYVKNFNTIVVLFKNKKVISTKKEQDYEILFHENEVIGLNIFNFESDDNFNLEDKRVQKKAEPFIKKYLGDFKFENQFIIAKIVECEKIPDTHLSICKVDTGKETIQIVCGAANARKNLFTTLATLGS;locus_tag=LOCUS_17900;note=WP_008364155.1 hypothetical protein (Mycoplasma feriruminatoris) [pid:42.3%25%2C q_cov:100.0%25%2C s_cov:67.3%25%2C Eval:1.5e-22%2C partial hit],internal stop codon at [1088750:1088752](-),MGA_1790
sequence1	MetaGeneAnnotator	CDS	1089231	1089443	.	+	0	ID=MGA_1791;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIAILIDSSCGIKDTKKYKNLYLIPLMITKEDGQQIADDENLSSDEFYQLNDSQLLKTSQSIPGNVMRK;locus_tag=LOCUS_17910;note=WP_011166859.1 DegV family protein (Mycoplasma mycoides) [pid:52.2%25%2C q_cov:98.6%25%2C s_cov:24.4%25%2C Eval:1.1e-12%2C partial hit],internal stop codon at [1089441:1089443](+),MGA_1791
sequence1	MetaGeneAnnotator	CDS	1089483	1089989	.	+	0	ID=MGA_1792;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSKGLSGQYNTFKMFSQEGEYKDKIHVVDTNGVSIALKRQLELVMKLIEEGKTGQEIKDIVEQYYNQIVGYIIPKSLDQLVRGGRISKAAARLAKILKITPILKYNGEIDKQGKTRTFKKAVEEALKLLKSKYPKNKIIDISYSRADAETLEIVKKVVEKLDLEIGL;locus_tag=LOCUS_17920;note=WP_011166859.1 DegV family protein (Mycoplasma mycoides) [pid:53.0%25%2C q_cov:99.4%25%2C s_cov:60.2%25%2C Eval:4.3e-41%2C partial hit],internal stop codon at [1089441:1089443](+)%2C[1089987:1089989](+),MGA_1792
sequence1	MetaGeneAnnotator	CDS	1090073	1090285	.	+	0	ID=MGA_1793;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIAVITDSSSGIKNIKDYRDLYLVPLMITKEDGQQIADDESFEADEFYQLNDSQLLKTSQSVPGTMLKK;locus_tag=LOCUS_17930;note=WP_011183488.1 DegV family protein (Mesoplasma florum) [pid:49.3%25%2C q_cov:98.6%25%2C s_cov:24.6%25%2C Eval:1.6e-11%2C partial hit],internal stop codon at [1089987:1089989](+)%2C[1090283:1090285](+),MGA_1793
sequence1	MetaGeneAnnotator	CDS	1090367	1090903	.	+	0	ID=MGA_1794;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFSQEDEYKDKVHVIDTNSVSIVLKRQIELIMKLLEEKKTAQEIVEIIEKDYNKVVGYIIPKSLDQLVRGGRISKAAAGLAKILKITPILKYDGEIDKQGKTRTFKKAVEEALKLLKSNYPKSNIVDISYSRVDETTLNLVKEIVKESNYEIGLFDEMPNTITCHTGRETFAFMPHQI;locus_tag=LOCUS_17940;note=WP_011166859.1 DegV family protein (Mycoplasma mycoides) [pid:49.4%25%2C q_cov:95.5%25%2C s_cov:60.9%25%2C Eval:3.2e-40%2C partial hit],internal stop codon at [1090283:1090285](+),MGA_1794
sequence1	MetaGeneAnnotator	CDS	1091459	1091917	.	+	0	ID=MGA_1795;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIGILVDSSTGFIEKEHNTNNIKVLPLHLIVDDKDDYLDTPEEIKNNDLITILASGKKTTTSQASPGELMNKYDEMLKEFDHIIHMTIPSNLSGMHQTAVMIANDEDYKGKITVIENFLAANCAQLLALKFDEMIKEGIEDPKKYQEESDK;locus_tag=LOCUS_17950;note=WP_011183489.1 DegV family protein (Mesoplasma florum) [pid:44.9%25%2C q_cov:98.0%25%2C s_cov:55.8%25%2C Eval:5.9e-30%2C partial hit],internal stop codon at [1091915:1091917](+)%2C[1091930:1091932](+)%2C[1092038:1092040](+),MGA_1795
sequence1	MetaGeneAnnotator	CDS	1092041	1092319	.	+	0	ID=MGA_1796;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKPKKIGMGRTYGSVLDKMIVALKKEITEDFELLLVSLPEVKKAHIEQIKKYLKANDIKFKESKIPTVYPWHAGIDTIGLIAVKKTLLAKK;locus_tag=LOCUS_17960;note=WP_011183489.1 DegV family protein (Mesoplasma florum) [pid:36.5%25%2C q_cov:92.4%25%2C s_cov:30.0%25%2C Eval:4.0e-10%2C partial hit],internal stop codon at [1091915:1091917](+)%2C[1091930:1091932](+)%2C[1092038:1092040](+),MGA_1796
sequence1	Aragorn:1.2.38	tRNA	1092408	1092483	.	-	.	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	1092522	1092597	.	-	.	ID=Aragorn_29;product=tRNA-SeC;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00280;note=Aragorn_29
sequence1	MetaGeneAnnotator	CDS	1092655	1093083	.	-	0	ID=MGA_1797;product=transcriptional repressor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166861.1;translation=MENKLNEYLELFKNKKIKLTDVRLSMLRIISTKKHFTINELISMVEKDLGSVNVMSIYNNIDLFLEMHLLFANTINGKQIIYEAISSQLMHITCDHCGSLEDLESPSLANELFLRFSNILKDKDMELEHFKLELHGICKKCK;locus_tag=LOCUS_17970;note=WP_011166861.1 transcriptional repressor (Mycoplasma mycoides) [pid:38.6%25%2C q_cov:98.6%25%2C s_cov:90.9%25%2C Eval:2.7e-28],MGA_1797
sequence1	MetaGeneAnnotator	CDS	1093087	1093320	.	-	0	ID=MGA_1798;product=acyl carrier protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166862.1;translation=MISVNYFEEIKKALVNKGAKGTISTNTEFKSMGLDSLDLMDMIVTLEEKLNISISDDDLLSMKKVSDLLEVIEKITK;locus_tag=LOCUS_17980;note=WP_011166862.1 acyl carrier protein (Mycoplasma mycoides) [pid:63.8%25%2C q_cov:89.6%25%2C s_cov:94.5%25%2C Eval:4.6e-19],MGA_1798
sequence1	MetaGeneAnnotator	CDS	1094036	1094209	.	-	0	ID=MGA_1799;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLYELAIEKYDSKNIKSLINFLYENVDSIGLKNKRIKEAIKYISNNIKGIENHFKD;locus_tag=LOCUS_17990;note=MGA_1799
sequence1	MetaGeneAnnotator	CDS	1094948	1095121	.	-	0	ID=MGA_1800;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIKREGIIMNEIFASEFNSINQINLLNNLEEKYFLKLKNDFKLSLEKIDEEVVNSK;locus_tag=LOCUS_18000;note=MGA_1800
sequence1	MetaGeneAnnotator	CDS	1095308	1095691	.	-	0	ID=MGA_1801;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSEVNKKFTNVYLHRNAVKKTYLNSNGNEFAVLEIINNDKEKKYITLSTKLIKNIEFSKEEGKTFSLSENKESPFVQVAIPNSGEITIDVLDKEKNKDKEIKEYDKQIIKANTLFSDLLKINQDTIA;locus_tag=LOCUS_18010;note=MGA_1801
sequence1	MetaGeneAnnotator	CDS	1096272	1096709	.	-	0	ID=MGA_1802;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEINPIEVKNKIIEHVKKYMQKFSDKAIYKTDYIICDSTENQIENLDFNNFVDLNENNKIKRINLFIKSLNTSTLLTGKKEFNIINNKDFEESKVLDLSKIANLKEIKYNFTDTSNEKKEKFVQNYIYEYVEKILEIYKPNKVN;locus_tag=LOCUS_18020;note=MGA_1802
sequence1	MetaGeneAnnotator	CDS	1097127	1097393	.	-	0	ID=MGA_1803;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRNEYIFLERNMKFPFYQDPLDKYGNRIKDFKDINKGIIAEASVANSGVTLLDKFDMSKVYQVDRLKLNEKLEIIEKEEKISLNLNEQ;locus_tag=LOCUS_18030;note=MGA_1803
sequence1	MetaGeneAnnotator	CDS	1097505	1097888	.	-	0	ID=MGA_1804;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPINVKLTDLYYQRSAQKRLQVVPGKIVSPNTDNNELVIDKPEYDPKNNTLIYHNSVDVTFSAISESEIMTVNGKEVPVFNNIYRIKLDDSVDTYKIEVNGIKNVGRITKLSLNINIQSLSNQLNYR;locus_tag=LOCUS_18040;note=MGA_1804
sequence1	MetaGeneAnnotator	CDS	1098618	1098899	.	-	0	ID=MGA_1805;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLILSLIICLNLVYVPTKPIFLENNQIANLESNTDKLVSNYNYNPTYPSFNFYGDFYNSLKRLYIDSSRDSSLPYYRGSDDRTYSKVGNAS;locus_tag=LOCUS_18050;note=MGA_1805
sequence1	MetaGeneAnnotator	CDS	1099271	1100887	.	-	0	ID=MGA_1806;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDIKKILKQVENDEINEKELDVFFESGFFRELPPCFFKKNNKELFIKTINFFINSNDENYSKLKNDKNCSGFLNFLKKKNEYIGGKIPKGTEPTVFYISKNNGEERKISIPNFLSFFISIIFLLEYKEEIFKIISSNKENLQKVIEMGKISKIEYLQDSYDISFDIIENEEDRKTYIDNNKIKNTFNKNKLLKYNKMIGVLKILKLDIKEFYNSVYTHIFGQPAFLNFLKENLKIKESRLNSFTSSLESIVQIQNENQTDKLITGPYSSNIFSELLLAFISNELKHENEISFLHYKDDFEFYSNNENELKLIKSKFKEIISKINLRINDQKTKILNFYDDFDTQTTFFNLILDKIKNKYLNLNLAFELISSLNSLENQKIKYCVIRFKNYIKELNEKEIKIDQEVVECLFSYFVNLLILKSNLSSVLYEILYFLIKNNTDNNVVSYYQSKIENLILSVENYDDISSIYLYSILIKLKQNPNQLIEMFVKTKMKINIFSLAICTNYLSIEYNQISEQNLLILENFFESFLEKQKVYKNI;locus_tag=LOCUS_18060;note=MGA_1806
sequence1	MetaGeneAnnotator	CDS	1101441	1101791	.	-	0	ID=MGA_1807;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVILSIINRLDVLETLRKTSNSNYNSSYLKLELDSEIEDYLRKIYFRNSEFIETIDNIGFYKNYLKNIRNQITHHTRLIYLPKEARGNIINIVKNYTYEFMSCILYYVTVVKNYMI;locus_tag=LOCUS_18070;note=MGA_1807
sequence1	MetaGeneAnnotator	CDS	1101921	1102124	.	-	0	ID=MGA_1808;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYIENKETIELILKNYKEFLIKNESSIYNDILIKFDNFLRNNGINIHNFFEISLFLKNIINLLTLKI;locus_tag=LOCUS_18080;note=MGA_1808
sequence1	MetaGeneAnnotator	CDS	1102447	1102572	.	-	0	ID=MGA_1809;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNQKKSEIDKIEMLEKEKRILELEKQIRDLKNSNNRERQR;locus_tag=LOCUS_18090;note=MGA_1809
sequence1	MetaGeneAnnotator	CDS	1102642	1102947	.	-	0	ID=MGA_1810;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLGVPPAEQRQYSKNQREDYENTRNKLVSKLEKFVKELPGFESFRLDLYISDLVNSFPKKYVFSGSTYIEKIAYKYIDDLVSEAKKPQYKGDSGKYYLIEK;locus_tag=LOCUS_18100;note=MGA_1810
sequence1	MetaGeneAnnotator	CDS	1103051	1103440	.	-	0	ID=MGA_1811;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRETSKNVVKGVATNFGVIAGANTINRFVVKRNKVNSTYSGLLKNTLKKNVEKIENSNFKKHENLVSNLKNSKNPLIAKKALELENKYAKQISKPTKKVNILEKRQNKFNFKLEKINSKLEKKSKINNE;locus_tag=LOCUS_18110;note=MGA_1811
sequence1	MetaGeneAnnotator	CDS	1103447	1103692	.	-	0	ID=MGA_1812;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MALFKSKGSNGATNALNRAADKVQNFSASDPDGSIAGGKQNLAAAQNISQKMKGFPSVIGRVARGATSGVAFAGGLFSRKG;locus_tag=LOCUS_18120;note=MGA_1812
sequence1	MetaGeneAnnotator	CDS	1103714	1104007	.	-	0	ID=MGA_1813;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVIAKAFVSIGNILSYIVMINFLMLFISKSINKFEFSTKMFLLIVVILGVSTFALVAPQIIASFTGGEGVTHSEGQNALLSAKHGKGIFGAGMKALG;locus_tag=LOCUS_18130;note=MGA_1813
sequence1	MetaGeneAnnotator	CDS	1104050	1104268	.	-	0	ID=MGA_1814;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLYKMGDPDWKGDFGNIPSDYSVPGNIKNYNIVVEILAVAFLLYTLIMLCMAIVQKSIELFLLFLIGPLVAA;locus_tag=LOCUS_18140;note=MGA_1814
sequence1	MetaGeneAnnotator	CDS	1104807	1104947	.	+	0	ID=MGA_1815;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLIAALLPSTSPSLDALAILKPIFTKTNTKNKLIKLQTAVTAASP;locus_tag=LOCUS_18150;note=MGA_1815
sequence1	MetaGeneAnnotator	CDS	1105051	1105311	.	-	0	ID=MGA_1816;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELKELILNSLTHHEVIEKIAEHIRDELINNQNLNENEIDDLEVLNSKNNSGTLLKDYSSLELAIEDVIERELLSELNKDEIEYEM;locus_tag=LOCUS_18160;note=MGA_1816
sequence1	MetaGeneAnnotator	CDS	1105605	1105829	.	-	0	ID=MGA_1817;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRIIITVENKDNEIIVGISYDGNSPKEVKQFLNDLNLTNKQKIKYNKDIGNCIKEFKLDMSKCSVEIEKNNKI;locus_tag=LOCUS_18170;note=MGA_1817
sequence1	MetaGeneAnnotator	CDS	1105949	1106377	.	-	0	ID=MGA_1818;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRPKVKNTDEIKSDTLDIKNQIGENKNTSLIRDHQEIINKIEKNLENNDSIIISQLKNINDFTEKSKFNREVLDKEIDYLKAIEEQRVKDKLMLKELKANYIELNKDNISLKKELEDKNKEIKILKLEIRNLNDKNQEPSF;locus_tag=LOCUS_18180;note=MGA_1818
sequence1	MetaGeneAnnotator	CDS	1106821	1106943	.	-	0	ID=MGA_1819;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MERFEKLDGLKVCIYVESEEGRLNLANKDDLEKFKKYSAN;locus_tag=LOCUS_18190;note=MGA_1819
sequence1	MetaGeneAnnotator	CDS	1107008	1107367	.	-	0	ID=MGA_1820;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEETQKKLNNDILSISKQLIFFTKKAKETIEKINLLNSKSFLDNKDKNLQKLYFEVSDEKEKLKIEVDVYKKQLNLYKLEREDKNEYIKKLKNKLKEIKEMNDIYKDKNNKNIKEKEFE;locus_tag=LOCUS_18200;note=MGA_1820
sequence1	MetaGeneAnnotator	CDS	1107446	1107733	.	-	0	ID=MGA_1821;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNKYIKTKSVKIKSINKLYKNGVLVNTHNLLIDDIYILHKKRLREKVGTIAIKDINKIKKISNKYLFECKEKSLFIKIIKNKKIYKLTLNEQKL;locus_tag=LOCUS_18210;note=MGA_1821
sequence1	MetaGeneAnnotator	CDS	1107749	1107880	.	-	0	ID=MGA_1822;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIYNMKSIFPDDFHIKNDEKGNYKQGDLKIRKVIKIDNIDNN;locus_tag=LOCUS_18220;note=MGA_1822
sequence1	MetaGeneAnnotator	CDS	1108641	1108841	.	-	0	ID=MGA_1823;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLLFLGASSLIVSTSSNIASCGWVLSGSLPGIDKKDDKNPYNIVNILKTPKEKLDVIAKTKQD;locus_tag=LOCUS_18230;note=MGA_1823
sequence1	MetaGeneAnnotator	CDS	1110217	1110348	.	-	0	ID=MGA_1824;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYSKERDKTKVKVEELKQLEENSSGEVKKNYEKERITLEVLYS;locus_tag=LOCUS_18240;note=MGA_1824
sequence1	MetaGeneAnnotator	CDS	1110364	1110564	.	-	0	ID=MGA_1825;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSFLGASSLIVSASSNITSCGQDLSGSLPGIDKKDDKNPYNIVNILKTPKEKLDVIAKTKQD;locus_tag=LOCUS_18250;note=MGA_1825
sequence1	MetaGeneAnnotator	CDS	1110918	1111088	.	-	0	ID=MGA_1826;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRVFARQDLITLNLIKFLKIDELKSNYLLSQLFESGIIKDNAFTEPHKQQLSDAP;locus_tag=LOCUS_18260;note=MGA_1826
sequence1	MetaGeneAnnotator	CDS	1111306	1112022	.	-	0	ID=MGA_1827;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSDLIKFINKTKVVKENSDVQEKLLSLLKSEFENYGQYATLYNGYSTLIKNDNPFIVFDINTLFEKGQQNIIQAQLYLITAFIGNEVNTNFINAKKESFVLIDEAHLLVDKDKPIALNFIFQMVKRIRKRKGSMTLITQNPDDFLGSEDVRKKTMAMLNNVQYSVLMNLLSKNIQDIAQLYSNYGDGLSEEELNFIAYAKQGEGLLMVTGFDRHTISVKVTPEQFRAFNNEVSLNVKS;locus_tag=LOCUS_18270;note=WP_011166393.1 DUF853 family protein (Mycoplasma mycoides) [pid:41.6%25%2C q_cov:82.8%25%2C s_cov:23.5%25%2C Eval:2.2e-36%2C partial hit],internal stop codon at [1112074:1112076](-)%2C[1112155:1112157](-)%2C[1112281:1112283](-),MGA_1827
sequence1	MetaGeneAnnotator	CDS	1112281	1112985	.	-	0	ID=MGA_1828;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLPLMTNDSSVVINIGNLNKQKVVKKLQSTILNLQSNMYTLSKKELVGAREMQQELEIYNEVADSIGFGNEIIKSMNVFVLNYGINKTDLENKFKSLSDSFKESGFILDHLAYRQFEGLSSIMLKPTDPLSLAFSREVPSITLAEGFPYLTSELNDSNGFRIGENMLGDPVILDQFKLTGDRKNHNMVIMGTTGSGKTTLAKLLLNYHASVGRKVIVVDPEREYRSLCNYHSGN;locus_tag=LOCUS_18280;note=WP_010965347.1 DUF87 domain-containing protein (Clostridium) [pid:24.1%25%2C q_cov:94.0%25%2C s_cov:35.7%25%2C Eval:1.9e-08%2C partial hit],MGA_1828
sequence1	MetaGeneAnnotator	CDS	1112986	1113408	.	-	0	ID=MGA_1829;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLTNEQINSRVKQLKASLQLFEENGQLSEDNFQHKYYLFLYCSDFKQCKEMVNSVIQKGQIAGLNINSLNGYEIINTIKYLFDPSEEEFSEELIDENKSNLKDIMKFDDCTFKKESFNSGEINYSVNVIRDFPKFPERC;locus_tag=LOCUS_18290;note=MGA_1829
sequence1	MetaGeneAnnotator	CDS	1113511	1113801	.	-	0	ID=MGA_1830;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPNGRSGMRIYYLIYLFLKFKASNKKYEINSKNYPTSLLIPYKELVGNISELGVIKTDKLFENKEFFVCAVELEGYNLLNMSYDEQIRKINILKTF;locus_tag=LOCUS_18300;note=MGA_1830
sequence1	MetaGeneAnnotator	CDS	1113856	1113996	.	-	0	ID=MGA_1831;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSAIIPKKLGSQKLKIKGNITLIDFICCVVFILIALAISLPLTVIG;locus_tag=LOCUS_18310;note=MGA_1831
sequence1	MetaGeneAnnotator	CDS	1114157	1114360	.	-	0	ID=MGA_1832;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDIKFNVFEDFNIYKAIGFENSTEEENVAFLKLSLDEKKYFFDKILFINLDNEKVYLSSNLKKFRKN;locus_tag=LOCUS_18320;note=MGA_1832
sequence1	MetaGeneAnnotator	CDS	1114376	1114702	.	-	0	ID=MGA_1833;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSEVLISAISLTISILIVIISYIFIPFFKHKRNFNNRVLKFLIKENEYLNDKFNVNIYGPYSVYIYGFFKKFQVFCNKAVTTNNHIEIEAINIIFIKIYFRVKKNLL;locus_tag=LOCUS_18330;note=MGA_1833
sequence1	MetaGeneAnnotator	CDS	1114750	1115718	.	-	0	ID=MGA_1834;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVPDDKEQKHPLASLFISQLYQANVFKAGQNLIKFGKEQLERDVIFYLDEFGNFPAIVNFATILTVSRGRRMFFNLVLQSFEQLNSKYGADTASTIMANCLLTVYLKSASTKTHEQISKMCGDTTVEVSNSTPNIDNKTGKKNFSYHLQKKPLIEPSDIKLIFPPNKKENNKYAIVIYQEANPNIVTYEYFYKIKEIFGIEIQDKDISLNKSINFEKDYFINLFKLDIKPKINEDDLLTDNVNLNEALEKDGTSAREDIFSILKETTDQDIDKLLELKTRERNIRNDLYILQSKSEDLLSSNEKEEIKRLQKELKSLLKQI;locus_tag=LOCUS_18340;note=WP_002390095.1 type IV secretory system conjugative DNA transfer family protein (Enterococcus faecium) [pid:28.5%25%2C q_cov:99.7%25%2C s_cov:36.4%25%2C Eval:1.8e-24%2C partial hit],MGA_1834
sequence1	MetaGeneAnnotator	CDS	1117268	1117450	.	-	0	ID=MGA_1835;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELIIKIMSCIYALFFVFYIYYFYKYIRLIIKLKKINKEQVIDNEFKIKQKKLKRNALIL;locus_tag=LOCUS_18350;note=MGA_1835
sequence1	MetaGeneAnnotator	CDS	1117434	1117574	.	-	0	ID=MGA_1836;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPKNLFQMIQKEKRKARQSAMNIIKNEAKEKNKLIKERRNYNGIDY;locus_tag=LOCUS_18360;note=MGA_1836
sequence1	MetaGeneAnnotator	CDS	1118379	1118516	.	-	0	ID=MGA_1837;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHTNTDNNHIHLGFFEKEPTSYEYVLDNNKNKVLNKYGKPKRKRV;locus_tag=LOCUS_18370;note=MGA_1837
sequence1	MetaGeneAnnotator	CDS	1118664	1119035	.	-	0	ID=MGA_1838;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKAPGVIFKTLNFNQPIDPVTKEVRNKSKKSRDNYYKSGDYLNYISRPDAVFNLNIDDEQVKLLNTLRTGSREEKVKYNKMLEEINKNFKSTGIYSKNGLMSIEEVKELRKDMKNLDDNQVF;locus_tag=LOCUS_18380;note=MGA_1838
sequence1	MetaGeneAnnotator	CDS	1119344	1120066	.	-	0	ID=MGA_1839;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINDLNILFSQDIKEFRLNFNDIFKNRRECLKLIPILLANNNIKNKKEPFTYIDNKNTENQFNLNDKDDIFNFMDESGLINNLFVNSEYKDIKTYLFGLKVGLSSHDKKNKSGKFMSDFIKELLISKDISFEKEVSQNKILGEAMLKEDKRFDFVFKIKDITYCLECNFFNDSGSKMNSELPRFIRLEDKFKDFKKYQFIYVADGPGLRKNRDIVINALDRIENMFNLFRFEKYLDSIAK;locus_tag=LOCUS_18390;note=MGA_1839
sequence1	MetaGeneAnnotator	CDS	1120103	1120336	.	-	0	ID=MGA_1840;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTNHNTELINELYKNFNIYRIPVNRFINSDSDNRQNSTFETIITNYILSKEQEYKLNQTLFFKELKSTSYILKKYVS;locus_tag=LOCUS_18400;note=MGA_1840
sequence1	MetaGeneAnnotator	CDS	1120340	1120804	.	-	0	ID=MGA_1841;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLLSKYVKEHNKNGKDYYYKLRDKDPNKLSEIQIAARFIYLNKTCFNGLYRVNKNNKFNTPFNNKEIIKESTIFDSKNLLNISKFLNKNNIEILNDDFEEILNKAKKDDFIFLDPPYDFDNKGFDSYTSNSFGKEGQIRLNNFLINVDKKGVK;locus_tag=LOCUS_18410;note=WP_002263020.1 DNA adenine methylase (Streptococcus mutans) [pid:40.8%25%2C q_cov:97.4%25%2C s_cov:54.0%25%2C Eval:8.3e-27%2C partial hit],internal stop codon at [1120340:1120342](-)%2C[1120835:1120837](-)%2C[1120997:1120999](-),MGA_1841
sequence1	MetaGeneAnnotator	CDS	1121114	1121353	.	-	0	ID=MGA_1842;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFYLKKSTEYNINIFYEIIDTRLENDKKTIIITNYSPKEFKNILQNLGTIEIHLQNRISSRMNLFDFYEFKGVDRRKK;locus_tag=LOCUS_18420;note=MGA_1842
sequence1	MetaGeneAnnotator	CDS	1121659	1121868	.	-	0	ID=MGA_1843;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLVPLVSIALKPIRGKLHDKQLLLFDKRIKFKSEEGMICKNPPSETAYICKDILPVQILFKKLGEYLND;locus_tag=LOCUS_18430;note=MGA_1843
sequence1	MetaGeneAnnotator	CDS	1122685	1123374	.	-	0	ID=MGA_1844;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELAKNIEFNYFKDSKLNVSNLEIIEDYDKAPSKLNEISLIEQLQKLEIGRPSTYKTAIEVNVLRGYVELEKTKSESMIVNELGLKVNNFLEENFKSIINLDFTKNMEKDLDLIANNKIVNHKQYLKDFYLKLDNLSTNYNFDGLKCSKCQIGYILERVSKKGTKFKGCSNYPNCDFIKFNKPDYSNNKLCEICKNGYMIERSYTDKKTKKTKKFIGCSDYPSCKNAVF;locus_tag=LOCUS_18440;note=WP_010874618.1 type I DNA topoisomerase (Mycoplasmoides pneumoniae) [pid:39.2%25%2C q_cov:84.3%25%2C s_cov:28.3%25%2C Eval:9.9e-31%2C partial hit],internal stop codon at [1123519:1123521](-)%2C[1123585:1123587](-),MGA_1844
sequence1	MetaGeneAnnotator	CDS	1123585	1124631	.	-	0	ID=MGA_1845;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKLVILESPGKIKKVSQFLKEIDSSNNYIVKASIGHVRELSNENDFNMGIDLKQMNPIYKISNDKKQVVNELIEQAKNVKEIIIATDPDREGEAIAFHLFEILKKYNNNFKRMRLNAITKECIQKELNNLNEINQSYVNSAITRQMLDRMVGFRISPILQKTIGAASAGRVQSAVLKILCNRQKEIEAFDKKQYFYIQDEVIKDIIFKNYIYNENNKLVINKIYDKQKVLELKNSLNDSFIVKEIKETKFEESNFKPFSTADLLKAAKSKLKLKTKETTQLAQSLYEKGLITYIRTDSNNLDHETEQNLIKFIINHFGQDKLGKLIKTQTKETDQEGHPAITPTHFE;locus_tag=LOCUS_18450;note=WP_011183550.1 type I DNA topoisomerase (Mesoplasma florum) [pid:37.0%25%2C q_cov:98.3%25%2C s_cov:54.1%25%2C Eval:8.7e-60%2C partial hit],internal stop codon at [1123519:1123521](-)%2C[1123585:1123587](-),MGA_1845
sequence1	MetaGeneAnnotator	CDS	1124973	1125191	.	-	0	ID=MGA_1846;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLTGSGKTEYIKLKYCFMCKTKISKGKKNIKVPLLYNKDFYEGIKIKRAVCSSKCKSDFKFAPFYNNLYLK;locus_tag=LOCUS_18460;note=MGA_1846
sequence1	MetaGeneAnnotator	CDS	1125624	1125752	.	-	0	ID=MGA_1847;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYEFPNLSVIEYDTLIKIQKEKIKKRKVLNKKLKIAKLNKER;locus_tag=LOCUS_18470;note=MGA_1847
sequence1	MetaGeneAnnotator	CDS	1127038	1127214	.	-	0	ID=MGA_1848;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQTMKTKKITKYFQNYILSGDKSFEITKDSDLEGIVELQVVCNGVKFHERKEKKCPHD;locus_tag=LOCUS_18480;note=MGA_1848
sequence1	MetaGeneAnnotator	CDS	1128107	1128442	.	-	0	ID=MGA_1849;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLAINNLDEQAKEKIENGSIEISKASIIASQKNLSNEEKNDLINEVISNKVSKKDLEEKVKNKVGEDFYIQEQEICLALENKYKVSIKNNKLIINFKNLDQLNQIVNLFKR;locus_tag=LOCUS_18490;note=MGA_1849
sequence1	MetaGeneAnnotator	CDS	1128452	1128859	.	-	0	ID=MGA_1850;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAVNKIKEIELERILPNPFQPRKSFNKEKIEELANSIKKVGLLQPIIVNLNNKNEIKLIAGQRRLEACKLLNKKTIECIILVGNATEKDFRQASIIENIQREEMSSYETSLSIKELYDSGMTQEDIGEQLGKSVS;locus_tag=LOCUS_18500;note=WP_003429290.1 ParB/RepB/Spo0J family partition protein (Clostridioides difficile) [pid:44.6%25%2C q_cov:95.6%25%2C s_cov:44.6%25%2C Eval:1.3e-24%2C partial hit],internal stop codon at [1128452:1128454](-),MGA_1850
sequence1	MetaGeneAnnotator	CDS	1130217	1130387	.	-	0	ID=MGA_1851;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLNLKEIKEIKLLDANPLKNKKIIDKSKYNEFIKKNENSFTELELIQSIRKISKT;locus_tag=LOCUS_18510;note=MGA_1851
sequence1	MetaGeneAnnotator	CDS	1130353	1130709	.	-	0	ID=MGA_1852;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIPNHDKFDLYETILLNINQNLSEPNFIFEKNKNKLFVTTKYLTKIPKYQKEYLLQNFKSSENIKILDLKNELYFEIISITNKNQNQDILFLKELEEKRKLIKELIDEAKFKRNKRD;locus_tag=LOCUS_18520;note=MGA_1852
sequence1	MetaGeneAnnotator	CDS	1131215	1131619	.	-	0	ID=MGA_1853;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKIIFLIGVGGTGGLLAGKLAKFLSNNDNLVLIDGDKVEYKNVTRQPFQTHDVYNFKAESLAKKINSISRFKNCYSINKFLNKENSLFKIIKSFNNTFNNTFNNTFNKVIIISCVDNHKTRIFIEKSTDMFKD;locus_tag=LOCUS_18530;note=MGA_1853
sequence1	MetaGeneAnnotator	CDS	1132024	1132227	.	-	0	ID=MGA_1854;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKTKFNVDQDLDYTKFDSLFEKAKQKENFKNNGIYIYGKPGVGKTTFINKFVENSRSNFELVNVSQ;locus_tag=LOCUS_18540;note=MGA_1854
sequence1	MetaGeneAnnotator	CDS	1133034	1133453	.	-	0	ID=MGA_1855;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKKNYKLFFVSILLLFTISILSFLIYSYTKSNNVEIKGENDTQEKEKPSVIKKTDFAKKNLSINFSLEQKIYIINFSKEKLFKMNEFKYYFILEFNKLGPKNNSINLSYLINNPKKPTEISVKYDGTNKRAREKVRG;locus_tag=LOCUS_18550;note=MGA_1855
sequence1	MetaGeneAnnotator	CDS	1133485	1133670	.	-	0	ID=MGA_1856;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYNNSIIYSRFINLNSRYFLVDYTYDNFENDIYKINYSYDKVNKKYTYLINYKIEELNNIG;locus_tag=LOCUS_18560;note=MGA_1856
sequence1	MetaGeneAnnotator	CDS	1133677	1133913	.	-	0	ID=MGA_1857;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTSFLKLYLKGLNRTEFLTSTPKLKSDSNFGSYYNVKKVIDEVKQKEDNYEIVSLNRTKYLFTKNIVEDSEVGTKGIL;locus_tag=LOCUS_18570;note=MGA_1857
sequence1	MetaGeneAnnotator	CDS	1133947	1134693	.	-	0	ID=MGA_1858;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINILNISLKDEIKFTQENQNKEFIKVSPVEMNSFNIDTIFINEKFTYNKKEYYRLFIRPSLSNAEGYDYFDNFFKKTYQNEAQIYFKMGMIQFYIRTKNGIQPIKNGKEDLFKIPSYIITAKRNGKYILNDFDFIKLDIPASLIEDQQQIFISYSASYDVQGFELKPHTNYGSIEIDRRNLTQHKYEENQCTITIANLAYSYINYDFNFKYKRNYFELLRNDIKIKTYSRYSNTIDPIMTLENKYSL;locus_tag=LOCUS_18580;note=MGA_1858
sequence1	Aragorn:1.2.38	tRNA	1134764	1134839	.	-	.	ID=Aragorn_30;product=tRNA-His;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00290;note=Aragorn_30
sequence1	MetaGeneAnnotator	CDS	1134927	1135568	.	-	0	ID=MGA_1859;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILSQNFIPPLTISTEIDMSAILKLKHMLKQTQNNIKFTTISFIAKAISIALEEYPKLNSSYDAETNEVLIKKYHHIGLATETTEGLIIPVLKFVEKLSIKEVAIDIKEVTSRLRSGELYNYEVDGSTITIANYGNIGAIQATPTIFYPNAAVVGVGKVVKKPVVVDNEKLAIKAIMNMSLTVDQRIIDAAEAGQFLAKVKSILEKPEIFTVS;locus_tag=LOCUS_18590;note=WP_000569903.1 2-oxoglutarate dehydrogenase complex dihydrolipoyllysine-residue succinyltransferase (Bacillus cereus) [pid:33.3%25%2C q_cov:93.0%25%2C s_cov:47.5%25%2C Eval:1.2e-29%2C partial hit],MGA_1859
sequence1	MetaGeneAnnotator	CDS	1135734	1136279	.	-	0	ID=MGA_1860;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPFKRTHENIIVENTEQIEPTQDFEEEKILVKTPKIIQKEIKTEIEKKDDELVKVSDKKVADETLEFLKDQIKDLQRTLKEQNQLNAATSKLNQQSHFNAGTDTFGQMMQYMLMQNMIQNMNQNQKREPNREFNANDLKAIIKDEINSFAKDLKEKKCQEEERARLEREIIERVERDLKEK;locus_tag=LOCUS_18600;note=MGA_1860
sequence1	MetaGeneAnnotator	CDS	1136361	1136534	.	-	0	ID=MGA_1861;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVEKGIQEDNMDFNKKINEIGIPKEFLREVPHQDPITGAMLYIPYNQTPKGIEEFEA;locus_tag=LOCUS_18610;note=MGA_1861
sequence1	MetaGeneAnnotator	CDS	1136586	1137392	.	-	0	ID=MGA_1862;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDTLQKVQKMEEKDQSMSQGNQQPKDKFAQMRANIKDSIKNAPQNKVIGDLTREELLKMTKEDINEEAGSNLFSTNNSSGVSKFRQLVQARKEKLLEENDFKEAQNENQVIDAMSKTDEKGRPLIMRNIIQARMEKLNNAGGDPSVLEQNIVATKSNAILDNQRLKSSANNVNSTQEVEKMKQRDFDVNLKKTLIKQGSSQDGLFGISYGSYIESDEENTIDANDLSPHSGIIMPKKKPEELVEEIIHKPTKTYAESKLSNLYDTSRR;locus_tag=LOCUS_18620;note=MGA_1862
sequence1	MetaGeneAnnotator	CDS	1137936	1138280	.	-	0	ID=MGA_1863;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKSTAKNEYKMTLLHKKTAYKVFLKSIKSLPKKERIKKRKEYFKARFLEEKVKKAAIKQQKILKKANKEQIKRFIVSLNYKDRPFVKENLREAERYKKLVKKGVIIFKTKYVD;locus_tag=LOCUS_18630;note=MGA_1863
sequence1	MetaGeneAnnotator	CDS	1138587	1138829	.	-	0	ID=MGA_1864;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVLHLCIPSIMIGYFLLSCGDQYFSARRYSKFALPLTCTYPAGYLAFAMIRGEIRFNYYSPELFKKIYSLPADSWFWTNI;locus_tag=LOCUS_18640;note=MGA_1864
sequence1	MetaGeneAnnotator	CDS	1138893	1139192	.	-	0	ID=MGA_1865;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLNKDFEFSLKVMVLILLISFLILDFVLQIYSPKKNLEGLPAIERLNIYYSFFTTQSNYAVVLYLVAALFMKRIYNSKPVFGIELAMTVYITVTMLVF;locus_tag=LOCUS_18650;note=MGA_1865
sequence1	MetaGeneAnnotator	CDS	1139278	1139793	.	-	0	ID=MGA_1866;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLTPLAGLMMGTRSGDIDPSILQYVSKETGKNVFEITDMLNKESGLYGISEISSDMRDVVDAASKNNEQAKLALEIYTQTVADFVVKFVNQINSKIDGIIFTAGIGENASNIRERVAQKCGLLELSIDSKLNDQKYGDYLKISSTDSKIPVFKVRTNEELMICKETLKFL;locus_tag=LOCUS_18660;note=WP_011166467.1 acetate kinase (Mycoplasma mycoides) [pid:56.1%25%2C q_cov:100.0%25%2C s_cov:43.3%25%2C Eval:5.3e-50%2C partial hit],internal stop codon at [1139971:1139973](-),MGA_1866
sequence1	MetaGeneAnnotator	CDS	1139971	1140468	.	-	0	ID=MGA_1867;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILVVNAGSSSIKFKLFDIKNPENPKSLVEGLAERIGVDGKLIIEVNEKKHVFEEQMIDHLQAVQLILSKFTELKIIEKPEDIKGIGFRVVHGGDKIVNTVELTQEIKKIIEENIRLAPLHNPGALTSINAFQESLPKAKLVGCFDTSYHQTMPEISYMYSVPYK;locus_tag=LOCUS_18670;note=WP_011166467.1 acetate kinase (Mycoplasma mycoides) [pid:53.3%25%2C q_cov:100.0%25%2C s_cov:41.2%25%2C Eval:1.2e-45%2C partial hit],internal stop codon at [1139971:1139973](-),MGA_1867
sequence1	MetaGeneAnnotator	CDS	1140468	1141340	.	-	0	ID=MGA_1868;product=phosphate acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182940.1;translation=MEQNLAKPILLFNSRKEVPSNLNEKIEVVVLEEYNKEEMIEVFLEVRKGKLDKPTAVELLKQKTYFGVLMMKLNLADAMICGLEYTTADTLRPALQVIKTSPEYSIASSVFLMSKDENIYLFTDCALNVDPTSQQLADIASMAANFAKQLNEDDVQVAMLNYSTKGSGMGPSVEKVKEAVEILKTKNTKGILFDGEMQFDSAFDKSVRDKKYPESKITKEHANVYVFPDLNSGNIGYKIAQRLGNYQAAGPFILGLNKPVNDLSRGATLEDIKQTSIITIFTSMFNGGNK;locus_tag=LOCUS_18680;gene=pta;EC_number=2.3.1.8;note=WP_011182940.1 phosphate acetyltransferase (Mesoplasma florum) [pid:53.9%25%2C q_cov:97.9%25%2C s_cov:87.9%25%2C Eval:5.8e-88],MGA_1868
sequence1	MetaGeneAnnotator	CDS	1141455	1141883	.	-	0	ID=MGA_1869;product=pantetheine-phosphate adenylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166469.1;translation=MKKAIYPGSFDPFHDGHLNILLKAAKLFDEVILVVTKNISKDKNPDLVQRIEKIKSKIRYLDNVKIEINQNQLTANFAKERKINYIVRGIRDSQTLDYEIELHDGNKSIYSELETVLFLSDNENRKVSSSLLKEIEKYKSES;locus_tag=LOCUS_18690;gene=coaD;EC_number=2.7.7.3;note=WP_011166469.1 pantetheine-phosphate adenylyltransferase (Mycoplasma mycoides) [pid:53.2%25%2C q_cov:97.9%25%2C s_cov:99.3%25%2C Eval:4.8e-38],MGA_1869
sequence1	MetaGeneAnnotator	CDS	1142256	1142729	.	+	0	ID=MGA_1870;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKINKTDFEVDDINKLGADFISNFYGALKSHNIKNGAIVSMGTASTIAIVENKKFKGAIICPGLKNSLNCLISSAVLLKDNAYSKSNKKYGTNTVDAINTGAFNAHYTMLSSTVKNLGYEFAIFTGGNSSDFKDEIIKDNFILDEELIFKGLIELNK;locus_tag=LOCUS_18700;note=MGA_1870
sequence1	MetaGeneAnnotator	CDS	1142749	1142913	.	-	0	ID=MGA_1871;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGNYSKSVKKTYKKFKKAKLNTKLKLYENLRHEILFDINKKEIFVDTLSFLNSI;locus_tag=LOCUS_18710;note=MGA_1871
sequence1	MetaGeneAnnotator	CDS	1144133	1144690	.	-	0	ID=MGA_1872;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINNKKVVLVGCGAVGTSFVYSAVNQGIANDYVLIDVFKDAAEGNEMDIADTQAVLPDSFNSIKAGDYSDCKDAALIVITAGRPQKPGETRLEMVADNAKIMKEIATQIKKSGFKGITLIASNPVDVLTYVYQSVTGFDKKRVISSGTTLDSARLRRLLAVKLGVMPKAVQAFLLGEHGDSSVAA;locus_tag=LOCUS_18720;note=WP_011166714.1 L-lactate dehydrogenase (Mycoplasma mycoides) [pid:72.6%25%2C q_cov:96.8%25%2C s_cov:56.3%25%2C Eval:1.1e-70%2C partial hit],internal stop codon at [1144133:1144135](-),MGA_1872
sequence1	MetaGeneAnnotator	CDS	1144818	1145222	.	-	0	ID=MGA_1873;product=30S ribosomal protein S9;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183390.1;translation=MAAKKDVVMYRGTGRRKSSVAQVILTPGQGGIIVNGKPALEFFPYATLVQDMEQPLEATGTKSDFSIKITVKGGGFTGQAGAARLGIARALLEASKDYKPELRGHGLLTRDARVKERKKYGLYGARRAPQFSKR;locus_tag=LOCUS_18730;gene=rpsI;note=WP_011183390.1 30S ribosomal protein S9 (Mesoplasma) [pid:77.2%25%2C q_cov:94.8%25%2C s_cov:96.9%25%2C Eval:5.0e-50],MGA_1873
sequence1	MetaGeneAnnotator	CDS	1145222	1145602	.	-	0	ID=MGA_1874;product=50S ribosomal protein L13;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166883.1;translation=MGRLSTQIAMVLRGKNKPTFTPHINNGDHVIVINAEKVILSGKKENDKNYYHHSMHPGGLKSRNVATQRKLFPERIIERAVRLMLPKNVQGGNQYRALHVYAGNEHPHQAQNPEVLVIQSKKGDNK;locus_tag=LOCUS_18740;gene=rplM;note=WP_011166883.1 50S ribosomal protein L13 (Mycoplasma mycoides) [pid:71.4%25%2C q_cov:100.0%25%2C s_cov:83.4%25%2C Eval:9.5e-49],internal stop codon at [1145630:1145632](-),MGA_1874
sequence1	MetaGeneAnnotator	CDS	1145836	1146723	.	-	0	ID=MGA_1875;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDSVDVQKIFYTDDLLKEILQCLKLAGYEESDLNIQVLKNGIEADLQNTDIFRNANYDFIITNKKNSNDKITASIKITNSLHLQDVFKVTSIGTIYDHRPRTIMMGLMFNNMDMIKQLPKVGEELTNSKNFVYNKNLDGATIKINDTIPKEKPTGYYGSLELNYDVKEFISPENDTYPMTIKEMVKASNNLDSPKTELGTLPGKDQYTVLMQFIIDNLTNPTYWGLFVNDLDLDNFKAEPIEGQENRYKMKFTLKPYQENDNRPESPEEQNGDYDKKAHYLKDNDGIELTFSYFQ;locus_tag=LOCUS_18750;note=MGA_1875
sequence1	MetaGeneAnnotator	CDS	1147001	1147522	.	-	0	ID=MGA_1876;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLFESEYPLFNYKSSYDNSFTDISKGVSTNQKYGDYSMIGLNGGSDATTSYSGYSNSSIEKAVKTDEALKVISRVNDTVNMIIYFVVFVSIFLSAIIILLTINLVISENAKIIAVMKILGYKEFYISKLFIGIYIPVAIISSIIGFGVAWGIITLSVNVLTPLIALPLSFQI;locus_tag=LOCUS_18760;note=WP_020862895.1 ABC transporter permease (Mycoplasma mycoides) [pid:29.9%25%2C q_cov:100.0%25%2C s_cov:12.6%25%2C Eval:2.4e-21%2C partial hit],internal stop codon at [1146938:1146940](-)%2C[1146971:1146973](-)%2C[1147001:1147003](-)%2C[1147550:1147552](-)%2C[1147661:1147663](-)%2C[1147742:1147744](-),MGA_1876
sequence1	MetaGeneAnnotator	CDS	1148039	1148392	.	-	0	ID=MGA_1877;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKTTLEEEFKKEDGNFNTLFNLIPYNSQKEDIGIYLNGYIKNLNLKLYGIKEDNKTQILNDVKGNDLKKELFKNNDSILINQSLAKRLNLKTGDRVNVTHIISALNYKEQEIKMDS;locus_tag=LOCUS_18770;note=WP_020862895.1 ABC transporter permease (Mycoplasma mycoides) [pid:37.6%25%2C q_cov:75.2%25%2C s_cov:6.6%25%2C Eval:4.8e-08%2C partial hit],internal stop codon at [1148039:1148041](-),MGA_1877
sequence1	MetaGeneAnnotator	CDS	1148504	1148647	.	-	0	ID=MGA_1878;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISNSDFKNIFGSSYTMPSTFVLKTGQIEGDEPMEKSLYDYREENEN;locus_tag=LOCUS_18780;note=MGA_1878
sequence1	MetaGeneAnnotator	CDS	1148933	1149082	.	-	0	ID=MGA_1879;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYLNNNVSQKIYNPSTDVGSLTDMTYKSIDIDYLKNQNLTLDLGDITDI;locus_tag=LOCUS_18790;note=MGA_1879
sequence1	MetaGeneAnnotator	CDS	1149086	1149514	.	-	0	ID=MGA_1880;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFIFLEIITLITYFYVFNKFTPLQMINFESRSSTNRFKLTIKKVLVKGRKFDGRFKGAILSGSILKLLSVFTVMLVSSSLITVGAIMPNVLNQNKVKTYIKDGYDNQIEYNSPLYNVPTSFYKTYNPYSSGNNLDVSESENI;locus_tag=LOCUS_18800;note=MGA_1880
sequence1	MetaGeneAnnotator	CDS	1150547	1151008	.	-	0	ID=MGA_1881;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNQKPFFKNAFKNLLRNKIQLITIIVLVFLTSFVFTLSYSSTSRIEKSYNSFISENNSNIHDFVIDLSKASYVKDFEKDLFSKNISNDEIKDNLLITYLQNKLNNTDLAFDFDRVESRISTLSSNKTLKVFALNPDQKVDKFVVSKGMSIEL;locus_tag=LOCUS_18810;note=MGA_1881
sequence1	MetaGeneAnnotator	CDS	1151008	1151343	.	-	0	ID=MGA_1882;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGYFDMTAATKGNFYQGHDIIVLNQKPSEAISDKTFKITEELQIDFAMINMLEGQIVTVESDKSDITAELIDKGENNYSIKLNSSKATKNANITIKVNGYKSQSFKVTSTN;locus_tag=LOCUS_18820;note=MGA_1882
sequence1	MetaGeneAnnotator	CDS	1151422	1152531	.	-	0	ID=MGA_1883;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSEDKKPSEFIFNKEGYASAELDSANKRIKVTANNQAVDDLKLTIKSSSNTSVDVNIKITLAEFDLAQENLVLNVMAGNMTNGLIDSSIAIGDEGFKVTEESVLASFNEINGLNLLLNDLNIEIIEGTGNNGIGAQCIIAAKEGNQNVKGETTLILNQNIDPVKYFVNTNLGEIRLFKGSFNQLDKVLANSKDSISLAAIIFEQVGAKNKQLEYIKNNLVKDLGAPGKELMSKSTVSATTFKINGMPDLKGIFKANSVIEFTQKFVQEDRITIYESLPENKKVNISAQNLVDKSKSGQKNAKTEVYNQLSQEFKSKISLSHFIEFTNIIFNTKDDNGKYLDFKFDVLPGSDILYGHDGAAFQSYISPGF;locus_tag=LOCUS_18830;note=MGA_1883
sequence1	MetaGeneAnnotator	CDS	1152814	1153002	.	-	0	ID=MGA_1884;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLILLASATLCSAPVFSVVACGNVTAPGGDENLPDANFKLDKNQIDIDTKNPGNIKITN;locus_tag=LOCUS_18840;note=MGA_1884
sequence1	MetaGeneAnnotator	CDS	1153111	1153278	.	-	0	ID=MGA_1885;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNILNYDQKIYSKELKDEIKVFLTSTNIEKDTLFSEKVALFLKESKKATTPPALI;locus_tag=LOCUS_18850;note=MGA_1885
sequence1	MetaGeneAnnotator	CDS	1153342	1153554	.	-	0	ID=MGA_1886;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKKDHLRAVSKLVILTAPFVILYLIKFFSKQTDDLEYSIGILIFASSSFLLMVTLIILFFVYKFAMRIE;locus_tag=LOCUS_18860;note=MGA_1886
sequence1	MetaGeneAnnotator	CDS	1153555	1153842	.	-	0	ID=MGA_1887;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYNLKNGDEIMLKVKAISKKIIPSVFIFSLILHFYLSAISGENIFISGKANFIFNHFNVSINILFMFILLLVTTIEFSKFLYFIEINSNNTKNLK;locus_tag=LOCUS_18870;note=MGA_1887
sequence1	MetaGeneAnnotator	CDS	1154134	1154667	.	-	0	ID=MGA_1888;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNQLYENLFPIFNYKYSPTSEMLDLTDGFSISSRIADFSSIGLNGNYNMIETECDQETSEYETTEEKQKCYVIDTKNFNEGYGIGTLSTMLPKEQTRIILGQLTDVVNMIIILFITIAVIVSTTIILLTTSLIIYENKQFIATMKTLGYSNGYVVRQILGIYIAPVIIMYIIGFAVG;locus_tag=LOCUS_18880;note=WP_020862895.1 ABC transporter permease (Mycoplasma mycoides) [pid:34.3%25%2C q_cov:98.9%25%2C s_cov:10.9%25%2C Eval:2.2e-22%2C partial hit],internal stop codon at [1153995:1153997](-)%2C[1154058:1154060](-)%2C[1154133:1154135](-)%2C[1154673:1154675](-)%2C[1154838:1154840](-)%2C[1154907:1154909](-),frameshifted%2C insertion/deletion at around 1154717,MGA_1888
sequence1	MetaGeneAnnotator	CDS	1155153	1155650	.	-	0	ID=MGA_1889;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGMAVLQTTYTRATYFVQEAIKKAIQENSNYNISFNIIPYDNKQDELGTVLNTKFKTVNNKQENAKIFGINQNSSLIDLKNSKNKDLKRNLFLSEDSDTIPLIINQSFAKKTNKNAGDIVNLEVLRDMLYQNDKEISLDDVTYGHNLENDKAIDFSELRTQSTYG;locus_tag=LOCUS_18890;note=MGA_1889
sequence1	MetaGeneAnnotator	CDS	1155783	1156049	.	-	0	ID=MGA_1890;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKELSSMTKTPSKTELREYTFKMLKIYNKYIQGLSLTYNEGSVKDNKFVHNFINNKFNKEIKNNKKNYYDKNLLNKIKPVEEKTADFV;locus_tag=LOCUS_18900;note=MGA_1890
sequence1	MetaGeneAnnotator	CDS	1156509	1156703	.	-	0	ID=MGA_1891;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRTALLTTSLGKLVGVSVTMLLSATLITTTVIAPKVMKDNITATFNGMNYENMVEYTQPIANNP;locus_tag=LOCUS_18910;note=MGA_1891
sequence1	MetaGeneAnnotator	CDS	1156854	1157486	.	-	0	ID=MGA_1892;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGYQSDIYSFTDKKNENNLYKRKMSTYTVQTAKVVVASEKDREVYFSIKSNDSPSEELRSKMEDEYKQYISVNIKDLKYIYDAKDPLYKFATRTTSFDSVMIGYNVMANGLIIVIILIAGFTTILTTKKQVEQQSRQIGCLKSLGYKKREIVNNFIAIPLIVSIIGSLAGYILSIFIESEIVGVFSTYFNISFFKFQFNPVAFAASLLAL;locus_tag=LOCUS_18920;note=WP_001983425.1 ABC transporter permease (Bacillus) [pid:25.3%25%2C q_cov:86.2%25%2C s_cov:22.8%25%2C Eval:4.5e-08%2C partial hit],MGA_1892
sequence1	MetaGeneAnnotator	CDS	1157601	1157912	.	-	0	ID=MGA_1893;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKTVSKINSDTNNGVDKLVVSRGRNFNAGVKEVVINESFAKANDIKLNDIIRVNSDKYGDDFLVKNSNFNSQDGKKLKEDLNQYKDSPQDLLKNSRYENQV;locus_tag=LOCUS_18930;note=WP_020862895.1 ABC transporter permease (Mycoplasma mycoides) [pid:45.3%25%2C q_cov:92.2%25%2C s_cov:6.5%25%2C Eval:5.2e-10%2C partial hit],internal stop codon at [1157487:1157489](-)%2C[1157601:1157603](-)%2C[1158069:1158071](-),MGA_1893
sequence1	MetaGeneAnnotator	CDS	1158069	1158254	.	-	0	ID=MGA_1894;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLLVMLVSLVTSVLSATSTRVAGAYDKLIVSSNMKDYILDVNLDNQINDPNSQESKEENL;locus_tag=LOCUS_18940;note=MGA_1894
sequence1	MetaGeneAnnotator	CDS	1158351	1158683	.	-	0	ID=MGA_1895;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIFSLVSIIFFSIIIISLNLIFNRLRKVVKLNISEKIFFAVFKNFIEEENDTKFVNMPYLIFSKIKIKFKEVFEKNLFIQQIINSKKSLSLRIFKRGVTPPNSLFNLKK;locus_tag=LOCUS_18950;note=MGA_1895
sequence1	MetaGeneAnnotator	CDS	1158888	1159064	.	-	0	ID=MGA_1896;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKHSINKKIAKNVYILFVIMHLSILFISISYAKGNYKFYQVIQIASIINTIIITALCL;locus_tag=LOCUS_18960;note=MGA_1896
sequence1	MetaGeneAnnotator	CDS	1159344	1159826	.	-	0	ID=MGA_1897;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGIKILNVKEIAKDFRVRNCKEKTYEYKINLGENNVFENRYYFSPNNKLDLFKLKEALNIFIGTYDFYNFSGLKIEEKELIETKRTINSIETNLEKDIFTITFKAKGFIRYQIRMIVGASIAYSLNKINFKKIENVLNMREEKMPFIANPEGLILKKIDY;locus_tag=LOCUS_18970;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 [1159890:1159892](-)%2C[1160028:1160030](-),MGA_1897
sequence1	MetaGeneAnnotator	CDS	1160093	1160449	.	-	0	ID=MGA_1898;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIPTLIDEAGRIMKAQSSRGIDFKNGKLVDKAKSMTSLIIPLLVSAFQKAEDLAYAMDSRGYDPHAKRTRYRQVKFRILDIVIFILGIGVFSALICYINIPSLENLLQIPRIDSILFS;locus_tag=LOCUS_18980;note=WP_011183051.1 energy-coupling factor transporter transmembrane component T (Mesoplasma florum) [pid:65.0%25%2C q_cov:98.3%25%2C s_cov:34.9%25%2C Eval:7.0e-36%2C partial hit],internal stop codon at [1160513:1160515](-)%2C[1160657:1160659](-),MGA_1898
sequence1	MetaGeneAnnotator	CDS	1160657	1160992	.	-	0	ID=MGA_1899;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRMVFGRYMPYNSMIHKMDPRLKLFMIIALIVVVFFPIGYTGFVLIATFIFLMYAVSKLSFKMLFKLFFPITFIFIVLILINIFMLRPENFSNLADGGYNTGANSFGYIYK;locus_tag=LOCUS_18990;note=WP_011166886.1 energy-coupling factor transporter transmembrane component T (Mycoplasma mycoides) [pid:50.0%25%2C q_cov:81.1%25%2C s_cov:26.8%25%2C Eval:5.0e-21%2C partial hit],internal stop codon at [1160513:1160515](-)%2C[1160657:1160659](-),MGA_1899
sequence1	MetaGeneAnnotator	CDS	1161011	1161748	.	-	0	ID=MGA_1900;product=energy-coupling factor transporter ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183050.1;translation=MTGSGKSTLIQLTNGLLVTETGRTIIGNFQIPASTKKIKQVKELRREVGLVFQFPEYQLFQDTIEKDISFGPINLGANKKESFEKVPELLRMVDLPEDYVKRSPFDLSGGQKRRVAIAGIIAMNGNTLVLDEPTGGLDPQGEEDFMNLFYRLNKENGKRIIIVTHNMDHVLQIADEVIVMHKGKVISKGSPFEIFSNSELLKKIEIEPPKLYKLAHKLKDAGLDITNVEFRTVEELAKAIKSKRK;locus_tag=LOCUS_19000;note=WP_011183050.1 energy-coupling factor transporter ATPase (Mesoplasma florum) [pid:76.2%25%2C q_cov:99.6%25%2C s_cov:77.5%25%2C Eval:2.8e-106],internal stop codon at [1161878:1161880](-),MGA_1900
sequence1	MetaGeneAnnotator	CDS	1161959	1162228	.	-	0	ID=MGA_1901;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKIRKMSPEKKAKLLADKKEAKAEHKQHTKELSIKQKKDAKKRKEKHKEISLLIKNDQKNQKQYQKEIKDYIKNDKQLIPERVNEVKK;locus_tag=LOCUS_19010;note=MGA_1901
sequence1	MetaGeneAnnotator	CDS	1162216	1162974	.	-	0	ID=MGA_1902;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNGVSVEIKHGDYVAIIGHNGSGKSTLSKIIIGVLQPTNGSIEVYGNKVTRNNINMIRKFLGIVFQNPDNQFIGSTVRDDIAFGLENRRIEPSKMPHIIMNAAKKVRMQDYLDHEPLMLSGGQKQRVAIASALALSPDILIFDEATSMLDPKGKSEVKEIMVELKNTREKTIFSITHDMDEILNADKVMVMNKGELVKFGSPKEILSEKEFLRSIHLDIPFVAQIEEALQNEGMKISGSANLEELVKNICQK;locus_tag=LOCUS_19020;note=WP_011183049.1 energy-coupling factor transporter ATPase (Mesoplasma florum) [pid:68.5%25%2C q_cov:99.6%25%2C s_cov:61.8%25%2C Eval:2.7e-96%2C partial hit],internal stop codon at [1163134:1163136](-),MGA_1902
sequence1	MetaGeneAnnotator	CDS	1163134	1163430	.	-	0	ID=MGA_1903;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRGNAMSTNLNATEKLNDFRLKLNEYNDKLVRASQKMIIARSKFSKREVDIDFVKNAENEYKTIKKEYKEITDNSFFLENVKESKAKLKTVSKNSKEY;locus_tag=LOCUS_19030;note=MGA_1903
sequence1	MetaGeneAnnotator	CDS	1163696	1164022	.	-	0	ID=MGA_1904;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKTVIVYELIFIFTLIGSMILLTQVKLDSNYSNQVIIVICALIGSILTAILGLIFSYRNNNLLNSYIGYNNTLIDLTDFGFVCNGEILKSFKVLRIKNEIKLEINGT;locus_tag=LOCUS_19040;note=MGA_1904
sequence1	MetaGeneAnnotator	CDS	1164356	1165279	.	-	0	ID=MGA_1905;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MATTLALNYAVYLPNTDQNYSTFNKEALPAFIISMLLVVLGLITTCFIVINAKTSLAKERKYPMNKGFFSSLFVGLLGLFGVGAFAPTISISNTIGLIEDDKKIPGTLNAGYVLPIILQALIMISVIKVDILTLIVLIIAAVIGSYIGAAVANKVNKLFIKTAMAVVLFISALLMLLSHPSVALINSGEGVTGFSLSDLKFYIATFAFLILGALMSFGVGLYAPALAVISLLGMDGGAAYPIMMGACAFLMPVSTFKFVKDKNYVPKLSVSLMIGGILGNFISFLVLFMGIKYGLGLSEVEFKKILL;locus_tag=LOCUS_19050;note=WP_009891694.1 TSUP family transporter (Clostridioides difficile) [pid:40.6%25%2C q_cov:67.4%25%2C s_cov:70.0%25%2C Eval:4.0e-42%2C partial hit],MGA_1905
sequence1	MetaGeneAnnotator	CDS	1165572	1165940	.	-	0	ID=MGA_1906;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIEKQIYDLDDQIAKKVEQAERTKTEIAILSTKLNNELIESDKMLTEFSKLKKSKELKEIRLKNKITYLEVLSKYKEEVKKLKYENTLTIKQIKAIKHSEKDSQDYLNLLKIRERRIKKTI;locus_tag=LOCUS_19060;note=MGA_1906
sequence1	MetaGeneAnnotator	CDS	1165975	1166496	.	-	0	ID=MGA_1907;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANAVDIERLESNFKNQKDLTIIRMMPNMNASIRESVTAIAHKDASKEKIDFVVEMFQNCGIVEIIEEVKFGTLTAISGCLPSYVISFFKAITDYAIEKGFEKEQAYRIVETAVIGSIKNCANSGIDLRTMVNQICVPNGSTIEGQKVLDNDGFENIIKKCLKAADKKATSKK;locus_tag=LOCUS_19070;note=WP_011182942.1 pyrroline-5-carboxylate reductase dimerization domain-containing protein (Mesoplasma florum) [pid:68.8%25%2C q_cov:98.3%25%2C s_cov:63.9%25%2C Eval:2.8e-62%2C partial hit],internal stop codon at [1166512:1166514](-),MGA_1907
sequence1	MetaGeneAnnotator	CDS	1166512	1166781	.	-	0	ID=MGA_1908;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILFIGLGHMGSSLVKGILANNNFKAKIYGYDAFKDLQDKIVNSLDKLTAINSLEEIESEGIDVIVIGTRPDAIDSLCSQLDKLNLK;locus_tag=LOCUS_19080;note=WP_011182942.1 pyrroline-5-carboxylate reductase dimerization domain-containing protein (Mesoplasma florum) [pid:52.3%25%2C q_cov:98.9%25%2C s_cov:33.1%25%2C Eval:1.5e-22%2C partial hit],internal stop codon at [1166512:1166514](-),MGA_1908
sequence1	MetaGeneAnnotator	CDS	1167056	1167202	.	-	0	ID=MGA_1909;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRNLTTELIISERLEITETRAKELRQHFDKMVTLGKRGDLHARRQAAA;locus_tag=LOCUS_19090;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 [1167056:1167058](-)%2C[1167215:1167217](-),MGA_1909
sequence1	MetaGeneAnnotator	CDS	1167270	1168223	.	-	0	ID=MGA_1910;product=DNA-directed RNA polymerase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166890.1;translation=MKQFSRPEFNLLKEEKNRNYGEFKVEPLERGFGTTLGNAIRRTLLSSTPGAAVYAIKIAGAAHEFTSINGIVENVSRIILNLKKLALKIDTKIFEDDEVVELKVNSTRVGAITAGDIIVPTGVEIINPKLHICTIADGGVLDLTLFAKNSRGYRSFKENKKEKLVVDAITIDSNYSPIVRVSYNVDATKIGKSVDLEKLILEVETDGTVTASDAVATAAKILVEHLQFFVNLNDEINDLNVIGATNEEDEKELDRLIEDLDFTQRSLNCLKRANINSLRDLVSRTEDDIQEIRNLGRKSLKEIKDKVVQLGLTFKQD;locus_tag=LOCUS_19100;EC_number=2.7.7.6;note=WP_011166890.1 DNA-directed RNA polymerase subunit alpha (Mycoplasma mycoides) [pid:65.6%25%2C q_cov:99.7%25%2C s_cov:99.7%25%2C Eval:5.4e-114],MGA_1910
sequence1	MetaGeneAnnotator	CDS	1168232	1168474	.	-	0	ID=MGA_1911;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGFKGSKKSTPYAAQMIAEAAGKGAMDNGVKTISVEVKGPGPGRDAAVRSLQGIGLEITAIKDTTPIPHNGVRPPKRPRG;locus_tag=LOCUS_19110;note=WP_008362476.1 30S ribosomal protein S11 (Mycoplasma mycoides group) [pid:86.2%25%2C q_cov:100.0%25%2C s_cov:62.0%25%2C Eval:4.6e-35%2C partial hit],internal stop codon at [1168490:1168492](-),MGA_1911
sequence1	MetaGeneAnnotator	CDS	1168490	1168624	.	-	0	ID=MGA_1912;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANNRQNNNKKKVKKNIAKGIAHIHSTFNNTIVTVSDEKGNVIS;locus_tag=LOCUS_19120;note=WP_008362476.1 30S ribosomal protein S11 (Mycoplasma mycoides group) [pid:90.9%25%2C q_cov:75.0%25%2C s_cov:25.6%25%2C Eval:7.9e-11%2C partial hit],internal stop codon at [1168490:1168492](-),MGA_1912
sequence1	MetaGeneAnnotator	CDS	1168642	1169007	.	-	0	ID=MGA_1913;product=30S ribosomal protein S13;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183045.1;translation=MARINGVEIPNEKRVVIALTYIYGIGLSTSQKILEATKVSEDTRVKDLSEDNIKSISQEISKVKTEGDLRRETALNIKRLMEIGCYRGMRHRKGLTVRGQSTKTNARTRKGPRKTVANKKK;locus_tag=LOCUS_19130;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:4.3e-49],MGA_1913
sequence1	MetaGeneAnnotator	CDS	1169244	1169471	.	-	0	ID=MGA_1914;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_19140;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_1914
sequence1	MetaGeneAnnotator	CDS	1169585	1170244	.	-	0	ID=MGA_1915;product=type I methionyl aminopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166892.1;translation=MAVTIKNAQQIEKMRYAGQVLGEALYKLKKLIKPGINCLDLDKFFIDFITSKGCTSNFKGYGGFPAHICISINEQLIHGIPKNRVLQDGDIVSIDAGCVYEKYHADSAITVTCGNSKDKKYDKLIELTEKSLYLAIEHVRAGVRIGTISSTVQNFIEENGYHLPTDYSGHGIGLEMHEDPFVPNVGIENTGMRLVPGMAICIEPMVQIGTDKTVVADDD;locus_tag=LOCUS_19150;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:3.1e-79],MGA_1915
sequence1	MetaGeneAnnotator	CDS	1170250	1170885	.	-	0	ID=MGA_1916;product=nucleoside monophosphate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183041.1;translation=MNIILLGAPGSGKGTLSEFLCEKDNFTQLSTGDLFRENISNKTDLGIEAQKYMNDGNLVPDSVTNSMVENYLKTRSSELIFDGYPRTDDQAKSLDIMLKNLNNQIDKVIYLEINQDVLLGRLTGRMICKICKRSYHKINRKPLKEGICDFDGGQLITRPDDQENKIKTRLEAYHTQTAPLIEFYKSKIIKVDADKCSPEELYNRVKKVLGS;locus_tag=LOCUS_19160;note=WP_011183041.1 nucleoside monophosphate kinase (Mesoplasma florum) [pid:54.8%25%2C q_cov:97.2%25%2C s_cov:98.1%25%2C Eval:2.5e-59],MGA_1916
sequence1	MetaGeneAnnotator	CDS	1170908	1171270	.	-	0	ID=MGA_1917;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYSQVQINPEKIAENFKKSGTFIPGIKPGKETEKFLTGVINRLSIMGSLFLAGIAVLPYVITKITSLPSNLAIGGTGLIIVISVSIQTVQQLKGRLIQQSFLDKKQDKFKEEETSYNSHI;locus_tag=LOCUS_19170;note=WP_011166894.1 preprotein translocase subunit SecY (Mycoplasma mycoides) [pid:71.9%25%2C q_cov:100.0%25%2C s_cov:25.1%25%2C Eval:1.9e-44%2C partial hit],internal stop codon at [1171313:1171315](-)%2C[1171316:1171318](-),MGA_1917
sequence1	MetaGeneAnnotator	CDS	1171316	1171549	.	-	0	ID=MGA_1918;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEAERKIPIQQTGSGLVDTKEHTPYLPLKLNNAGVIPVIFASAIISTPMTVAQIIAASNPSNGFVAFTQNYLSFGT;locus_tag=LOCUS_19180;note=WP_011166894.1 preprotein translocase subunit SecY (Mycoplasma mycoides) [pid:81.8%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 [1171313:1171315](-)%2C[1171316:1171318](-)%2C[1171649:1171651](-)%2C[1171760:1171762](-),MGA_1918
sequence1	MetaGeneAnnotator	CDS	1171982	1172335	.	-	0	ID=MGA_1919;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAAKVKKTKKAKSTKYKNEFAKGGFFIRNKDLIKRIVFTLIVLILIRMGTLLTVPGIQVSSNFKEQVGNQDFFQLLSTLGGGSIGQFSILALGVSPYITASIIVQLLSTDVIPVLTR;locus_tag=LOCUS_19190;note=WP_011183039.1 preprotein translocase subunit SecY (Mesoplasma florum) [pid:63.2%25%2C q_cov:90.6%25%2C s_cov:21.8%25%2C Eval:3.0e-34%2C partial hit],internal stop codon at [1171760:1171762](-)%2C[1171817:1171819](-)%2C[1171850:1171852](-)%2C[1171982:1171984](-),MGA_1919
sequence1	MetaGeneAnnotator	CDS	1172337	1172774	.	-	0	ID=MGA_1920;product=50S ribosomal protein L15;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183038.1;translation=MKLHELKSTPGSKKDATRVGRGMASGKGKTSTRGHKGQNSRSGGGVRPGFEGGQTPLFRRLPKIGFTSLNRKEFVLINLDKLETLGLKDVNHKTLMEKKIIKNEKTLVKVLGNGKITKSINVKVNKVSKSAEELIKAAGGTVEVI;locus_tag=LOCUS_19200;gene=rplO;note=WP_011183038.1 50S ribosomal protein L15 (Mesoplasma) [pid:74.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.7e-55],MGA_1920
sequence1	MetaGeneAnnotator	CDS	1172792	1173436	.	-	0	ID=MGA_1921;product=30S ribosomal protein S5;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183037.1;translation=MAEETKVVKTETAPKADSNSQNKKDTRPNSNNKPNGQRRDPKFNRNREDNPYEERVVTINRVTKVTKGGRRFRFAAVVVIGDKKGRVGLGTGKANEVPDAIKKAIKEARKSLIRIPLAGSTVPHDVMGHYGAGKVMIKPARKGTGVIAGGPVRAVVELAGISDIYTKSLGSNTPINMIRATLEGLQQMQTPEQIARLRGTQVEVKKETKEATTA;locus_tag=LOCUS_19210;gene=rpsE;note=WP_011183037.1 30S ribosomal protein S5 (Mesoplasma florum) [pid:59.9%25%2C q_cov:96.7%25%2C s_cov:96.1%25%2C Eval:2.7e-64],MGA_1921
sequence1	MetaGeneAnnotator	CDS	1173454	1173804	.	-	0	ID=MGA_1922;product=50S ribosomal protein L18;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183036.1;translation=MKYTKAEARKRRHYRVRNKVSGTSAKPRLNVFKSNTYFYAQIIDDVKGVTLVSSSSIKLGLKNGCNIDAAKAVGKDIAEKAKNKKISNVVFDRGGYLFHGKVKAFAESAKENGMKF;locus_tag=LOCUS_19220;gene=rplR;note=WP_011183036.1 50S ribosomal protein L18 (Mesoplasma) [pid:75.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.1e-43],MGA_1922
sequence1	MetaGeneAnnotator	CDS	1173828	1174370	.	-	0	ID=MGA_1923;product=50S ribosomal protein L6;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183035.1;translation=MSRIGNRILAIPAGVEVKVETNNVVTIKGSKGELTQTFSPLIEIKVEGAELKTLRANENKHTKQLHGTTNSLIEGMLTGVSQGFIKELEIVGVGYRAALAGNKINLSLGFSHPVEYEVPKGITVEIPKPTEIKISGIDKQLVGEVAANIRAYRRPEPYKGKGVKYKNEKIIRKEGKAAGK;locus_tag=LOCUS_19230;gene=rplF;note=WP_011183035.1 50S ribosomal protein L6 (Mesoplasma florum) [pid:75.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.2e-73],MGA_1923
sequence1	MetaGeneAnnotator	CDS	1174390	1174776	.	-	0	ID=MGA_1924;product=30S ribosomal protein S8;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013729790.1;translation=MTTDVIADMLTRIRNANQRYHKEVLIPGSKVKLEIAKILKKEGFIEDFKVADDFKKDITISLKYKGKIRVIKGLKRISKPGLRVYSNSYDLPQVLNGLGIAIVSTSNGIITDKEARHQNIGGEVLAFV;locus_tag=LOCUS_19240;gene=rpsH;note=WP_013729790.1 30S ribosomal protein S8 (Mycoplasma mycoides) [pid:72.7%25%2C q_cov:100.0%25%2C s_cov:99.2%25%2C Eval:5.9e-46],MGA_1924
sequence1	MetaGeneAnnotator	CDS	1174798	1174980	.	-	0	ID=MGA_1925;product=30S ribosomal protein S14;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003156488.1;translation=MAKKSLKVKQAKVQKFKVREYTRCGNCGRPHSVLRKFNLCRVCFRDLAYKGQIPGIKKAS;locus_tag=LOCUS_19250;gene=rpsN;note=WP_003156488.1 30S ribosomal protein S14 (Bacillus) [pid:75.0%25%2C q_cov:100.0%25%2C s_cov:98.4%25%2C Eval:4.6e-22],MGA_1925
sequence1	MetaGeneAnnotator	CDS	1175000	1175557	.	-	0	ID=MGA_1926;product=50S ribosomal protein L5;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183032.1;translation=MATKANVNRLEKQYKEKIIPELFKEKQYKSIMQVPKITKVVINMGIGDAVQDTKKLDDAVLELQQITGQKPLVTKAKKSLAVFKLREGMPIGAKVTLRGKRMYEFLDKLISVALPRVRDFRGVPKTSFDKQGNYTMGIKEQIIFPEIDYDKVKKVRGMDITIVTTATNKDESFALLKKIGMPFVK;locus_tag=LOCUS_19260;gene=rplE;note=WP_011183032.1 50S ribosomal protein L5 (Mesoplasma) [pid:77.5%25%2C q_cov:96.2%25%2C s_cov:98.9%25%2C Eval:8.6e-76],MGA_1926
sequence1	MetaGeneAnnotator	CDS	1175575	1175892	.	-	0	ID=MGA_1927;product=50S ribosomal protein L24;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183031.1;translation=MNKSKILRGDVVKVIAGTHKGKIGPVVKLSKDKKRVYVEGIVAIKHAKPSQTDQEGGIREIPASIDASNVSLVDPKVKNSATKVGYKIADGKKVRIAKKSGTEVK;locus_tag=LOCUS_19270;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:5.1e-34],MGA_1927
sequence1	MetaGeneAnnotator	CDS	1175906	1176274	.	-	0	ID=MGA_1928;product=50S ribosomal protein L14;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183030.1;translation=MIQNESRLKVADNSGAKEILVIRNLGGSVRKFTNIGDIVVATVKSAAPGGAVKKGQVIKAVIVRTVRGLRRADGTYIKFSENAAVIIKDDKSPRGTRIFGPIAREVKDAGFAKIASLAPEVL;locus_tag=LOCUS_19280;gene=rplN;note=WP_011183030.1 50S ribosomal protein L14 (Mesoplasma) [pid:82.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.6e-51],MGA_1928
sequence1	MetaGeneAnnotator	CDS	1176292	1176549	.	-	0	ID=MGA_1929;product=30S ribosomal protein S17;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_061104415.1;translation=MERNLRKTYTGRVVSDKMDKTITVLVETYKNHPIYKKRVKYSKKYKAHDENSQAQMGDRVEIMETRPMSKTKNFRLVKVIEKAII;locus_tag=LOCUS_19290;gene=rpsQ;note=WP_061104415.1 30S ribosomal protein S17 (Mycoplasma mycoides group) [pid:81.2%25%2C q_cov:100.0%25%2C s_cov:98.8%25%2C Eval:3.0e-34],MGA_1929
sequence1	MetaGeneAnnotator	CDS	1176552	1177499	.	-	0	ID=MGA_1930;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKSVDFMMELRTKSIEDLIKLGEDRRAELFALKFQVAVGSLEQTHRIPALKKDIARIEMLLGERKRTGENINQTIKANYSQAVENAEKAGKEVRKKHKEMIEKLQQEQFGSQNDVSEDAIMAAMENAVNESKIEEETVKKVEPKKEAAPKVEVKKAEVKKAAASKPEVKKAEPKKEAAPKVEVKKAEPKKEATPKVEVKKAEPKKVAATTKVESKVKKPEIKETVIKPIKTGEAVPTGKGKKSLQGFEMKPMKVGVAKGEGIEGIDLKLSGKPKDAKTYTFGSNAQEAKKQIEEANKKAAEKKLLKKATTKGAK;locus_tag=LOCUS_19300;note=WP_011183028.1 50S ribosomal protein L29 (Mesoplasma) [pid:54.8%25%2C q_cov:40.0%25%2C s_cov:89.9%25%2C Eval:1.9e-31%2C partial hit],MGA_1930
sequence1	MetaGeneAnnotator	CDS	1177790	1177912	.	-	0	ID=MGA_1931;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLMPKRVKFRRPHRVSYEGKAKGGKFIAFGEYGLMSLDGA;locus_tag=LOCUS_19310;note=WP_011183027.1 50S ribosomal protein L16 (Mesoplasma) [pid:70.0%25%2C q_cov:100.0%25%2C s_cov:29.2%25%2C Eval:4.0e-10%2C partial hit],internal stop codon at [1177634:1177636](-)%2C[1177718:1177720](-)%2C[1177790:1177792](-),MGA_1931
sequence1	MetaGeneAnnotator	CDS	1178014	1178133	.	-	0	ID=MGA_1932;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MARTEGYLEGSVPLSTLRSDIDYALYEARTTYGQIGVKV;locus_tag=LOCUS_19320;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 [1178014:1178016](-),MGA_1932
sequence1	MetaGeneAnnotator	CDS	1178643	1178978	.	-	0	ID=MGA_1933;product=50S ribosomal protein L22;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183025.1;translation=MEAKAKLTMIRISPRKVRLVADSIRSKKISEAVAILQNQDKRSSEPVLKLLNSAVANAVNNNGMEADQLFVKTIFVNEGPTLKRFRPRAHGRAYEILKRTSHITIVVSDER;locus_tag=LOCUS_19330;gene=rplV;note=WP_011183025.1 50S ribosomal protein L22 (Mesoplasma) [pid:77.5%25%2C q_cov:100.0%25%2C s_cov:99.1%25%2C Eval:6.1e-43],MGA_1933
sequence1	MetaGeneAnnotator	CDS	1179511	1180131	.	-	0	ID=MGA_1934;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPIKKYKPTTNGRRNMTSLDYSILTTSKPESSLVSKLNEKAGRNNHGQITTRHKGGGHKRKYRIIDFKRNKLDIAGKIATIEYDPNRNSFICLVNYIDGEKRYILFAKGMQVGQEIIAGEHADIKVGNAAPLKNIPEGTLIHNVELRPGKGGQIARSAGSSVQILGKDEDGKYITLRLGSGEVRKVLAECYATIGEVGNEEYNLVN;locus_tag=LOCUS_19340;note=WP_011183023.1 50S ribosomal protein L2 (Mesoplasma) [pid:84.1%25%2C q_cov:100.0%25%2C s_cov:73.7%25%2C Eval:2.0e-98%2C partial hit],internal stop codon at [1179376:1179378](-)%2C[1179487:1179489](-)%2C[1179511:1179513](-),MGA_1934
sequence1	MetaGeneAnnotator	CDS	1180184	1180468	.	-	0	ID=MGA_1935;product=50S ribosomal protein L23;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183022.1;translation=MHLTQVIKKPLLTEKTYLGQQNGAYTFIVDKKANKSLIKKTFEEIFQVKVKDVRTMNYDGKDKRMGKFVGKTASFKKAIIVLKDGEKLDILSDL;locus_tag=LOCUS_19350;gene=rplW;note=WP_011183022.1 50S ribosomal protein L23 (Mesoplasma) [pid:76.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.5e-37],MGA_1935
sequence1	MetaGeneAnnotator	CDS	1180468	1180719	.	-	0	ID=MGA_1936;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKFAFSKPSTKEMLSVMKNIKAEDQKTLIVTKEHEELVVKSAGNIPGVKTLDFQKMNIFDLLNATKLIVTEETVNKIEEVYA;locus_tag=LOCUS_19360;note=WP_011166912.1 50S ribosomal protein L4 (Mycoplasma mycoides) [pid:68.7%25%2C q_cov:100.0%25%2C s_cov:39.9%25%2C Eval:8.0e-27%2C partial hit],internal stop codon at [1180849:1180851](-)%2C[1180903:1180905](-),MGA_1936
sequence1	MetaGeneAnnotator	CDS	1181115	1181840	.	-	0	ID=MGA_1937;product=50S ribosomal protein L3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183020.1;translation=MKGILGRKLEMTQIFSENGKLIPVTVIFVEQNTVLQVKSVEKDGYQALKLGTVTKRANLLNKPDMGQFKKVNSEPKRFVKEIRDMEGYETGAIINAADVFNAGEFVDVTGISKGKGFAGAIKRHNYSRGPMGHGSGYHRGIGSMGAIINRIFKSKKMAGHMGHEQVTIQNLEVVKIDAERNLVLVKGSVPGPRKGFVVIKQNVKGRKAQEAVSLLSRNTATKAPVEQTAAPVVEEAAPVAE;locus_tag=LOCUS_19370;gene=rplC;note=WP_011183020.1 50S ribosomal protein L3 (Mesoplasma) [pid:71.6%25%2C q_cov:90.5%25%2C s_cov:90.8%25%2C Eval:1.9e-88],MGA_1937
sequence1	MetaGeneAnnotator	CDS	1181895	1182203	.	-	0	ID=MGA_1938;product=30S ribosomal protein S10;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183019.1;translation=MAQQKIKIKLKGYDHAIVDQSIAKIIEAAESTGAKVRGPIPLPTEKQIITILRATHKYKDSREQFEMRTHKRILEIVEPTPKTMDSLTRVQLPTGVNIEIKL;locus_tag=LOCUS_19380;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_1938
sequence1	MetaGeneAnnotator	CDS	1182649	1182960	.	-	0	ID=MGA_1939;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSQSKEPYFLTSQASFSKTIRVGEYTLNGGSQYYDGLEMKSVEFLTEQKALINQIAGLILTIGISFIVVIIITATLSMIIITDLYVNQYKKFMLVMKSLGYSN;locus_tag=LOCUS_19390;note=WP_011166641.1 ABC transporter permease (Mycoplasma mycoides) [pid:38.5%25%2C q_cov:99.0%25%2C s_cov:6.2%25%2C Eval:3.1e-10%2C partial hit],internal stop codon at [1182433:1182435](-)%2C[1182499:1182501](-)%2C[1182502:1182504](-)%2C[1182649:1182651](-),MGA_1939
sequence1	MetaGeneAnnotator	CDS	1183519	1183671	.	-	0	ID=MGA_1940;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAFANLYYDENGVLKSEIRPYYTFDNLFLIIPKEYKDSMAALNAGAQNHK;locus_tag=LOCUS_19400;note=MGA_1940
sequence1	MetaGeneAnnotator	CDS	1183882	1184202	.	-	0	ID=MGA_1941;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLTGVQENQKAYKLKDNSKKMYIDQDSLLKSEKIIKGIDTNKNQTIETANGFTLYSNGTLNIPVTMNEQAKFSLNKSKSNSIELDDFVSKRLVMSKDNTNIPNSA;locus_tag=LOCUS_19410;note=MGA_1941
sequence1	MetaGeneAnnotator	CDS	1184377	1184526	.	-	0	ID=MGA_1942;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAHSEGDEHLSVEDRIKKIDNLTATLSEGLPPILKAIFPSEINNNEDST;locus_tag=LOCUS_19420;note=MGA_1942
sequence1	MetaGeneAnnotator	CDS	1184818	1185009	.	-	0	ID=MGA_1943;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKPTLVSTITILISSLLITTSMSIPGMVNKAVTSYYKNVKYSNKMENFEPIGNSPLSKTTLSA;locus_tag=LOCUS_19430;note=MGA_1943
sequence1	MetaGeneAnnotator	CDS	1184945	1185235	.	+	0	ID=MGA_1944;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDVVIKREEINIVIVETSVGFIPLIASSILNLVVNFVFFVNFSFKLSTHWILLTLSFLFIISRTGLLIRTIAVIYETKIVRTPNNNIETPNDQPLK;locus_tag=LOCUS_19440;note=MGA_1944
sequence1	MetaGeneAnnotator	CDS	1185422	1185571	.	+	0	ID=MGA_1945;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFIVFLIAISVVAKQIDKIMAQTMYEIVEKVFKAIGVNSQLYENTLFL;locus_tag=LOCUS_19450;note=MGA_1945
sequence1	MetaGeneAnnotator	CDS	1185541	1185966	.	-	0	ID=MGA_1946;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNSQYAHSNKIQIGSNIKVGAANLIVSGFAADPYTNFPIADLTIPFPNNKKGAIIYINKDIIDLILPSNEAKVTTSNVYRFLTFKDKDKKSQNLNLFKSLNYNYVNFLKADNENISKVTPSYIDYNYSFKNYKNSVFSYN;locus_tag=LOCUS_19460;note=WP_011166244.1 ABC transporter permease (Mycoplasma mycoides) [pid:29.6%25%2C q_cov:99.3%25%2C s_cov:7.7%25%2C Eval:6.4e-11%2C partial hit],internal stop codon at [1185310:1185312](-)%2C[1185541:1185543](-)%2C[1186024:1186026](-),MGA_1946
sequence1	MetaGeneAnnotator	CDS	1186384	1186782	.	-	0	ID=MGA_1947;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGEFSKSTIKILKTELIKDVEEQNGIKKQNSLFGLLFKNELLSAKDIIINDNFDYSQESEFIREVNTYMDFAFLSLVIQINKMIHDYVEYHMQEAIKENIDLPQKEKVLNTFKISSKLGIEDTSSNKEVLYS;locus_tag=LOCUS_19470;note=MGA_1947
sequence1	MetaGeneAnnotator	CDS	1186972	1187397	.	-	0	ID=MGA_1948;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKSNFFLLVKQGLKGVFRYKTQFILIVILGFFASLILSISNSISDRIRYEYNKTMQKTSKFDYYDEKALETSNATGSQMMVPIMDFISDEYLVYKGESVGYNVNIAKQNEKETFITKAFESNDFKLSFNKLIDNHNYSQS;locus_tag=LOCUS_19480;note=WP_011183158.1 FtsX-like permease family protein (Mesoplasma florum) [pid:33.8%25%2C q_cov:91.5%25%2C s_cov:7.9%25%2C Eval:5.6e-15%2C partial hit],MGA_1948
sequence1	MetaGeneAnnotator	CDS	1188375	1188551	.	+	0	ID=MGA_1949;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDQLNIIGTAISIDNNTCGNKLVINNDIIVIPNRTEIIVRGKNIHIIIEFISFIEYP;locus_tag=LOCUS_19490;note=MGA_1949
sequence1	MetaGeneAnnotator	CDS	1188509	1188835	.	-	0	ID=MGA_1950;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSNTQNADQLQRILFTTFNSNNATDGLAKYMNQSIGNTDYIHMKKEAMNNLIMSVISISLIFVSLSLITAIIIIYLITDMFVGKYKRFMSYMRIQGYSMKEINSIIM;locus_tag=LOCUS_19500;note=MGA_1950
sequence1	MetaGeneAnnotator	CDS	1189055	1189360	.	-	0	ID=MGA_1951;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLNRFTYYLDENKFYYQDSQDNYKPYENMADIELKLKKDLINEELFNKVNQEYKEYSNNENVYKESGDYYIVKPFDIYHYEENIGRIPFLTQTLLNGTNS;locus_tag=LOCUS_19510;note=MGA_1951
sequence1	MetaGeneAnnotator	CDS	1189388	1189666	.	-	0	ID=MGA_1952;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYTTFNSSIQNSAETQVKIYGIDLNSNLNNLVLKNKELIKYDENLNYVPVLINKKDILEGLKVGDEFNIKTSKNLLATLDSNSNLNEIKNSD;locus_tag=LOCUS_19520;note=MGA_1952
sequence1	MetaGeneAnnotator	CDS	1189742	1189939	.	-	0	ID=MGA_1953;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNLVKLEKEIVGQNKTVKNNLDDFSCKVLPELFGQAAINDNKANYQDCIKSISNNILPSSVKEL;locus_tag=LOCUS_19530;note=MGA_1953
sequence1	MetaGeneAnnotator	CDS	1190081	1190245	.	-	0	ID=MGA_1954;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNMTKEYYKNIKYNNDFNYSGVVENNPLSRYSFYQMDEENKSKSNLEASLFNI;locus_tag=LOCUS_19540;note=MGA_1954
sequence1	MetaGeneAnnotator	CDS	1190250	1190471	.	+	0	ID=MGA_1955;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGAIDVRVITALENNNIEKNIKISFIEEEIITNLNFEVKLLILILFKFLSKKILGLLLLLGESSFNGDCLTVV;locus_tag=LOCUS_19550;note=MGA_1955
sequence1	MetaGeneAnnotator	CDS	1190621	1191277	.	-	0	ID=MGA_1956;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILGNSYKIFNDFQQSLKMDGIGVDSLNVYPTIYEEDLLTNQQNEAIFYINNSLFNQQFNRNSKTIPDEKSYQDVSRTYLTYTNKNKTQMNSDIDKFKTYFADNILNLEQVQENITNNVFNNDLSRAKIQKYDETTLLNMRSSLFSGVVFGFLALAIIFCLVFAISLAFVVYNIFKKVLVSQRTQIGNLKSLGFSNFKIIFNYILYMAFPVIILVPIG;locus_tag=LOCUS_19560;note=MGA_1956
sequence1	MetaGeneAnnotator	CDS	1191539	1191658	.	-	0	ID=MGA_1957;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKNNASFLMKEFDTYNLFKTSLDADGYLVANRQITQGD;locus_tag=LOCUS_19570;note=MGA_1957
sequence1	MetaGeneAnnotator	CDS	1192325	1192558	.	-	0	ID=MGA_1958;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLFKNGLRKLLKDYVQFGIYLVLITIAVIFTSSFGIVTSNLIRTDNEINRNFEKFDYSFRYTSTSYKSNDTQTFTP;locus_tag=LOCUS_19580;note=MGA_1958
sequence1	MetaGeneAnnotator	CDS	1192658	1192813	.	-	0	ID=MGA_1959;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MESKLDQEKIANSGKILGLEQGVIKEDELAAYDGKGNYQDYNNVKNSYKIV;locus_tag=LOCUS_19590;note=MGA_1959
sequence1	MetaGeneAnnotator	CDS	1192823	1192954	.	-	0	ID=MGA_1960;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEFNLKYNGIGDVTSNASKQTKQVEVNEKFNPYQTIVENQKDK;locus_tag=LOCUS_19600;note=MGA_1960
sequence1	MetaGeneAnnotator	CDS	1193009	1193140	.	-	0	ID=MGA_1961;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTDSKTVGQSDLANFFASFKDYVANAMKEVHEPVLQYLVDEKY;locus_tag=LOCUS_19610;note=MGA_1961
sequence1	MetaGeneAnnotator	CDS	1193192	1193377	.	-	0	ID=MGA_1962;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYGKNNAGGIKLLKLVQSFYKMITEENVRNTLDQIIEDFKDEKTFRDLTISKKNELLKDIG;locus_tag=LOCUS_19620;note=MGA_1962
sequence1	MetaGeneAnnotator	CDS	1193711	1194007	.	-	0	ID=MGA_1963;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDKNYSKANSDNQSQIGNIKFNSTGGLITKVAGEQNIKGFISLFGSMFENISPTKNGALIFAEFMNVLFPMVRSGNISIGDSNNIMQSVGISLTSNI;locus_tag=LOCUS_19630;note=MGA_1963
sequence1	MetaGeneAnnotator	CDS	1194254	1194835	.	-	0	ID=MGA_1964;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLINSLAVITLLGSSTATVMSCKVPVKPDPETNGLTDIQKEMLQGAEFISRLIVGGRHENLNYNINEILSIFLTPSTTAMNMPTSYKYDGKSINMASDINKYKNYLAPSLNYFNGDNYAGMFASYIMGMYDDDFYQTMINSDNKAYYFNDTFSTTGNQGYNKKDGKNAMGYAAGLGSDINLSDNQDRRNLA;locus_tag=LOCUS_19640;note=MGA_1964
sequence1	MetaGeneAnnotator	CDS	1195001	1195252	.	-	0	ID=MGA_1965;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNMHNVSLFMYVFILLVNIFLIYNVSYIGICLFIFFILDVVSNSNKEFINKIYKNSIKLKNLIKALFGDIQIKNSQETSKDKS;locus_tag=LOCUS_19650;note=MGA_1965
sequence1	MetaGeneAnnotator	CDS	1195730	1196695	.	-	0	ID=MGA_1966;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNHSGTHILQAGIQEVLGKEALQSGSYNDENGLRIDISYNRLPTQEEIDKIHLAINREIKNCIPREIIYCSLQEAIEKHNALALFTEKYGGTVRIIKFGKFSCELCGGTHVENTKDIEDLLITNVESKGSGVFRYHAVTSHKEVANYLNEQFRKQKSEISSLIDKFNNFKLKVKNQEIEQEINAITSMQVTKPNLILIKQKVNDLKNTFKLYQKEVEDLLIEENLAKYSNIEPTKKENINLIDIEINDLEMKELKVLSDKMQNKYDNLIIKFANTKDKVFIVSVSESISNDNKAIDLFKNNGKYEVKGGGNNTFAQGKIV;locus_tag=LOCUS_19660;note=WP_011166380.1 alanine--tRNA ligase (Mycoplasma mycoides) [pid:49.1%25%2C q_cov:100.0%25%2C s_cov:36.2%25%2C Eval:2.2e-83%2C partial hit],MGA_1966
sequence1	MetaGeneAnnotator	CDS	1197050	1197739	.	-	0	ID=MGA_1967;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPRKNIDTGAGFERLVSIFQDAPTNFETDIFFPTIKEVEKICNSKFKYSIENYYNENKEQTKINTAFKVIADHVRAVVFAISDGVFPGNKDRGYIIRRLIRRSSVYGRKLGIQDAFLYKLVDKVIEAMQEFYPYLIEKAQSVKEIIKQEELRFLKTLSKGYEHLENIVKNENKVSAKNALLLFESFGFPIELTSEIASESNVEVDLKGYEALLEQTKELARNSRKNDKA;locus_tag=LOCUS_19670;note=WP_011166380.1 alanine--tRNA ligase (Mycoplasma mycoides) [pid:71.6%25%2C q_cov:100.0%25%2C s_cov:25.6%25%2C Eval:5.9e-92%2C partial hit],internal stop codon at [1197050:1197052](-)%2C[1197791:1197793](-)%2C[1197860:1197862](-)%2C[1197923:1197925](-)%2C[1197986:1197988](-),MGA_1967
sequence1	MetaGeneAnnotator	CDS	1198079	1198273	.	-	0	ID=MGA_1968;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MATLKPYFDGRMNPPSPRLTNSQKSIRTNDIENVGVTARHQTMFEMLGNFSIGDYFKKEAIEFA;locus_tag=LOCUS_19680;note=WP_011183510.1 alanine--tRNA ligase (Mesoplasma florum) [pid:90.6%25%2C q_cov:100.0%25%2C s_cov:7.2%25%2C Eval:4.2e-28%2C partial hit],internal stop codon at [1197791:1197793](-)%2C[1197860:1197862](-)%2C[1197923:1197925](-)%2C[1197986:1197988](-)%2C[1198055:1198057](-)%2C[1198079:1198081](-)%2C[1198286:1198288](-)%2C[1198367:1198369](-),MGA_1968
sequence1	MetaGeneAnnotator	CDS	1198778	1199158	.	-	0	ID=MGA_1969;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMGSIFAGTEESPGEEIIANGKKYKTYVGMGSLAAMKRGSSDRYFQKGAKKLVPEGIEARVPFKGKIKDVIFQLMGGLKSGMGYTGSETIEHLRLNTKFVKITNASLKESHPHDVELTKEAPNYNK;locus_tag=LOCUS_19690;note=WP_011183240.1 IMP dehydrogenase (Mesoplasma florum) [pid:80.6%25%2C q_cov:98.4%25%2C s_cov:32.6%25%2C Eval:7.5e-54%2C partial hit],internal stop codon at [1199252:1199254](-),MGA_1969
sequence1	MetaGeneAnnotator	CDS	1199252	1200247	.	-	0	ID=MGA_1970;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSRNDLNGKIINEGITFDDVLLVPGYSEVLPSEVKLKTKLTKNIELNIPLISAAMDTVTEARLAIEMARAGGIGVIHKNLTIEEQVLEVQKVKRNESGFITDPITISKDTTVEEANKIMGTYKISGLPVVDDNQKLIGIVTNRDLKYFEDFHAQVDLVMTKKNLITGNPSTTLEQAKAILLKNRIEKLPIVDKNNILVGLITTKDIDKAIDHPNACKDLKGRLRVGAAVGVGSDSIERVDALVKAQVDVIVIDSAHGHSKGILEVIKKIRAKYKNLDIIAGNICTAEGAKALYEAGANAVKVGVGPGSICTTRVVAGVGVPQITAISEVFN;locus_tag=LOCUS_19700;note=WP_011017001.1 IMP dehydrogenase (Fusobacterium nucleatum) [pid:64.9%25%2C q_cov:98.2%25%2C s_cov:66.7%25%2C Eval:5.0e-118%2C partial hit],internal stop codon at [1199252:1199254](-),MGA_1970
sequence1	MetaGeneAnnotator	CDS	1200368	1201207	.	-	0	ID=MGA_1971;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEFIKEKIAEIKEIVGEEQVILGLSGGVDSSVAAVLISKAIGKQLTCILVDTGLLRKNEAQKVMDLYNKEFDMNIKLIDAGETFYNALKGETDPENKRKIIGRKFIEVFSDQAREMQGAKFLAQGTIYPDVIESSSHGHVSKTIKSHHNVGGLPEDLKFELLEPLRTLFKDEVRAVGKELGIPDLMINRHPFPGPGLGVRVIGEVTKEKCDILREADDIFINNLIEANLYNEVSQAFVTLLPVKTVGVMGDNRTYDYVVALRSVNTIDFMTASSSHLP;locus_tag=LOCUS_19710;note=WP_011183239.1 glutamine-hydrolyzing GMP synthase (Mesoplasma florum) [pid:76.0%25%2C q_cov:97.1%25%2C s_cov:52.8%25%2C Eval:1.9e-112%2C partial hit],internal stop codon at [1200368:1200370](-)%2C[1201211:1201213](-)%2C[1201412:1201414](-),MGA_1971
sequence1	MetaGeneAnnotator	CDS	1201211	1201411	.	-	0	ID=MGA_1972;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSHADHLTQMPKGFKQIAHSDSSVAGIANEEKKIYGIQFHAEVTHSEQGIQMLENFLFDISKCQKD;locus_tag=LOCUS_19720;note=WP_011183239.1 glutamine-hydrolyzing GMP synthase (Mesoplasma florum) [pid:71.2%25%2C q_cov:100.0%25%2C s_cov:12.9%25%2C Eval:2.6e-22%2C partial hit],internal stop codon at [1201211:1201213](-)%2C[1201412:1201414](-),MGA_1972
sequence1	MetaGeneAnnotator	CDS	1201412	1201804	.	-	0	ID=MGA_1973;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKTQILILDFGSQYTQLLARRVRHLNVYAEVIPFDKTKEELQKEYTNLKAIIFSGGPSSVYLSEAYTVDKALFDLNVPILGVCYGMQLITEMFEGKVELASSQEFGKAQLFIDDLKTPLFKNVKNNSQV;locus_tag=LOCUS_19730;note=WP_011183239.1 glutamine-hydrolyzing GMP synthase (Mesoplasma florum) [pid:66.2%25%2C q_cov:100.0%25%2C s_cov:25.1%25%2C Eval:1.3e-42%2C partial hit],internal stop codon at [1201211:1201213](-)%2C[1201412:1201414](-),MGA_1973
sequence1	MetaGeneAnnotator	CDS	1201903	1203000	.	-	0	ID=MGA_1974;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNKVTSVEGFAKALDKNTVEVNNKKYTCDNMIIATGSVPNHFNLPGAKEAMESGFLIDSTGALSLPKIPKELVIIGGGVIGIEFACVYKRLGTKVTVLQFLPTILEMLDSDVSKEMTKELISRGNLEIIYGVNTKSFGKKEVVYEKDGKEYKIKADYCLQSVGRKVVTEGFTNINLEMNERGHINVNEYCETNIDGVYSIGDVTGKMMLAHVASHQGIIAANRIARRLGNEHAEDISMNFDRVPSCIYTYPEVAAVGKTEDELKKAGTEYQVYKFPFAAIGKALADGNTGGFVKLICEPKFKQVLGCHIISNTATDMISEITTVMQSEATITEIARSIHPHPSLSEAIGEAAEALETGKPINF;locus_tag=LOCUS_19740;note=WP_011182939.1 dihydrolipoyl dehydrogenase (Mesoplasma florum) [pid:61.3%25%2C q_cov:99.7%25%2C s_cov:60.5%25%2C Eval:2.3e-127%2C partial hit],internal stop codon at [1203064:1203066](-),MGA_1974
sequence1	MetaGeneAnnotator	CDS	1203064	1203780	.	-	0	ID=MGA_1975;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKVKFADIGEGLTEGTVTEVLVKVGDKVKMGDSLFNVETDKVTSDIYAPTDGTVAKILISPNQEIKVGDIVVEIDDGKGDAPQEAKAEPVEENASVVGATPVSNDLLSRGRTRAVPPKKSPVETIVNAVNNVNMSGLVKGKGGALRPAPKFTPKNPEDHFDVIVVGAGVGGYVSAIKCAQLGLKTLIVEKGNYGGVCLNIGCIPTKTLLKSAYLYEQITKRADKYGIQVDVSGVKAD;locus_tag=LOCUS_19750;note=WP_011182939.1 dihydrolipoyl dehydrogenase (Mesoplasma florum) [pid:55.4%25%2C q_cov:96.6%25%2C s_cov:34.2%25%2C Eval:1.2e-58%2C partial hit],internal stop codon at [1203064:1203066](-),MGA_1975
sequence1	MetaGeneAnnotator	CDS	1203793	1204434	.	-	0	ID=MGA_1976;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTTAHEKVAGFTGLRNLDITELVNIRNQLKGHADSLRVKLTYLAFIIKASANALKDMPNLNVRIDEENKATKFAQQINIGMACDTPDGLMVPVIKGADKLSVLQIAVKINDLATKARAKKLAPSEMSGATFTVTNFGAVGLDYATPIVNFPESAILGVGTITKAPGVVKDEIEIRDYMPFSITADHKVIDGADAGRFLTRIAYYLQNPAILLV;locus_tag=LOCUS_19760;note=WP_011166464.1 dihydrolipoamide acetyltransferase family protein (Mycoplasma mycoides) [pid:57.7%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 [1204465:1204467](-),MGA_1976
sequence1	MetaGeneAnnotator	CDS	1204465	1205115	.	-	0	ID=MGA_1977;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKVKFADIGEGLTEGTVTEVLVKVGDKVKMGDSLFNVETDKVTSDIYAPTDGTVAKILISPNQEIKVGDIVVEIDDGKGDAPQEAKAEPVEENASVVGATPVSNEVISRAAREVAPKQEISSQPSIIDNSNVDVKASPLARKMAAVMGVDLSKVSPSGPNGRILVADVQSFSATPQPSTVSAPIASASKGTAIDYSNPLISVPEINEPLTFESKP;locus_tag=LOCUS_19770;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:2.7e-48%2C partial hit],internal stop codon at [1204465:1204467](-),MGA_1977
sequence1	MetaGeneAnnotator	CDS	1205139	1205387	.	-	0	ID=MGA_1978;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFESVKKTGRLLVVHEAIRSFSVSSEIIASVNEECFEYLKAPSMRCTGYDIVIPFDSGEAYHQPHPKKILVKMEEILNYKF;locus_tag=LOCUS_19780;note=WP_011166463.1 alpha-ketoacid dehydrogenase subunit beta (Mycoplasma mycoides) [pid:72.0%25%2C q_cov:100.0%25%2C s_cov:24.9%25%2C Eval:5.4e-31%2C partial hit],internal stop codon at [1205397:1205399](-),MGA_1978
sequence1	MetaGeneAnnotator	CDS	1205397	1205858	.	-	0	ID=MGA_1979;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQNILGHMGRMRNRTRGKYPTPVVIRMPMGGGIRALELHSEAMEAMYAHTPGIKVVCPSTPYDTKGLLLAAIESPDPVIVFEPTKLYRAFKQEVPEGFYTVEIGKAFKIQEGNDLTVVTYGAQTVDCQKAIDELESKNPDITIELIDLRSIQP;locus_tag=LOCUS_19790;note=WP_011182937.1 alpha-ketoacid dehydrogenase subunit beta (Mesoplasma) [pid:75.2%25%2C q_cov:100.0%25%2C s_cov:46.5%25%2C Eval:9.9e-65%2C partial hit],internal stop codon at [1205397:1205399](-)%2C[1205865:1205867](-)%2C[1206066:1206068](-),MGA_1979
sequence1	MetaGeneAnnotator	CDS	1205865	1206056	.	-	0	ID=MGA_1980;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVYGEDAGYEGGVFRATEGLQAKFGEKRCFDAPISEAVFAGVAIGMAINKMKPVVELQFEGLG;locus_tag=LOCUS_19800;note=WP_011166463.1 alpha-ketoacid dehydrogenase subunit beta (Mycoplasma mycoides) [pid:74.6%25%2C q_cov:100.0%25%2C s_cov:19.1%25%2C Eval:5.9e-22%2C partial hit],internal stop codon at [1205865:1205867](-)%2C[1206066:1206068](-),MGA_1980
sequence1	MetaGeneAnnotator	CDS	1206338	1206547	.	-	0	ID=MGA_1981;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAVYAVASEAVEYARSGNGPVFIECDTYRLGAHSSSDNPDIYRPKPEFEEALTKDPLIRMKKFLIAKGI;locus_tag=LOCUS_19810;note=WP_011166462.1 pyruvate dehydrogenase (acetyl-transferring) E1 component subunit alpha (Mycoplasma mycoides group) [pid:74.2%25%2C q_cov:89.9%25%2C s_cov:16.8%25%2C Eval:2.2e-21%2C partial hit],internal stop codon at [1206272:1206274](-)%2C[1206338:1206340](-)%2C[1206650:1206652](-),MGA_1981
sequence1	MetaGeneAnnotator	CDS	1206650	1206895	.	-	0	ID=MGA_1982;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGNEYGGKSPEGVNSLPPNIIIGSQFSQATGIAFAEKYRGTGGVALTTTGDGGMSEGETYEAMNFAKIHELPVIFICENNK;locus_tag=LOCUS_19820;note=WP_011182936.1 pyruvate dehydrogenase (acetyl-transferring) E1 component subunit alpha (Mesoplasma florum) [pid:86.2%25%2C q_cov:98.8%25%2C s_cov:21.6%25%2C Eval:4.1e-36%2C partial hit],internal stop codon at [1206650:1206652](-)%2C[1206896:1206898](-)%2C[1206938:1206940](-)%2C[1206971:1206973](-),MGA_1982
sequence1	MetaGeneAnnotator	CDS	1206971	1207240	.	-	0	ID=MGA_1983;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFIGKFDPLKDEIVQIMDKDGKILNEKLMPKMTDKEMIEAYKLMNLSRRQDDFQNKAQRQGRLLSFLSSTGQEASEIGYTLPMIKGKD;locus_tag=LOCUS_19830;note=WP_011182936.1 pyruvate dehydrogenase (acetyl-transferring) E1 component subunit alpha (Mesoplasma florum) [pid:74.4%25%2C q_cov:92.1%25%2C s_cov:22.2%25%2C Eval:4.0e-31%2C partial hit],internal stop codon at [1206896:1206898](-)%2C[1206938:1206940](-)%2C[1206971:1206973](-),MGA_1983
sequence1	MetaGeneAnnotator	CDS	1207533	1207814	.	-	0	ID=MGA_1984;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQHGTILFNANLDKLTNYLTVDRAKILSKNIKSIAARVTNINSEIENKIDIEQFMNQLIETYKDLQEIKTIELSQEELEEIKTLSENKFKNPD;locus_tag=LOCUS_19840;note=WP_000897260.1 lipoate--protein ligase (Bacillus) [pid:41.3%25%2C q_cov:97.8%25%2C s_cov:28.0%25%2C Eval:1.5e-12%2C partial hit],internal stop codon at [1207533:1207535](-)%2C[1207833:1207835](-)%2C[1208094:1208096](-),MGA_1984
sequence1	MetaGeneAnnotator	CDS	1207833	1208063	.	-	0	ID=MGA_1985;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVNIVRRNSGGGTVFHDLGNMNFSIIYTDVDNKAVSLFASMLEPVIKTLNNLGVPAKFSGRNDIELNGKKISGNAM;locus_tag=LOCUS_19850;note=WP_000897285.1 lipoate--protein ligase (Bacillus cereus) [pid:58.1%25%2C q_cov:97.4%25%2C s_cov:22.2%25%2C Eval:1.7e-16%2C partial hit],internal stop codon at [1207833:1207835](-)%2C[1208094:1208096](-),MGA_1985
sequence1	MetaGeneAnnotator	CDS	1208094	1208246	.	-	0	ID=MGA_1986;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFIYKTSCVDPAFNLATEEYFVRVKKYNEPILFLWQNDNTIVVGRNQNAA;locus_tag=LOCUS_19860;note=WP_011182935.1 lipoate--protein ligase (Mesoplasma florum) [pid:58.3%25%2C q_cov:96.0%25%2C s_cov:13.8%25%2C Eval:4.4e-09%2C partial hit],internal stop codon at [1207833:1207835](-)%2C[1208094:1208096](-),MGA_1986
sequence1	MetaGeneAnnotator	CDS	1208384	1208845	.	+	0	ID=MGA_1987;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQLQHLSKKRLILIDLDGTTLMSNGEEIHPITKKALINARKEGHEVCIITGRPHRASIRFYNELGLTTLLTNFDGAHIHDPISKKFKRIVFPISEEIVSEIMNHEKIKSSISNILVESYNKAMVREKDEFVENFFHLDDVDDDEYKITDPYKS;locus_tag=LOCUS_19870;note=WP_011166439.1 Cof-type HAD-IIB family hydrolase (Mycoplasma mycoides) [pid:56.5%25%2C q_cov:90.2%25%2C s_cov:47.1%25%2C Eval:9.9e-41%2C partial hit],internal stop codon at [1208843:1208845](+),MGA_1987
sequence1	MetaGeneAnnotator	CDS	1208870	1209256	.	+	0	ID=MGA_1988;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFIDTEDNRDEVLRVLEKFKHTIKIQSGNVYGNLTKSSKLMITLTNKIVNKGFVTDILAQYYNKDIRDVIAFGDQMNDYEMVQKVGYGVAMKNGSQELKNIAAGITNLTNNEGGVGEYLEKLLKGLEV;locus_tag=LOCUS_19880;note=WP_011166439.1 Cof-type HAD-IIB family hydrolase (Mycoplasma mycoides) [pid:57.8%25%2C q_cov:85.2%25%2C s_cov:37.2%25%2C Eval:3.8e-29%2C partial hit],internal stop codon at [1208843:1208845](+),MGA_1988
sequence1	MetaGeneAnnotator	CDS	1209279	1209410	.	-	0	ID=MGA_1989;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGGSKEPLEILKDVGVDFLDKNTYLPLIEEIDNLIDELEKLVK;locus_tag=LOCUS_19890;note=WP_011166436.1 oligoendopeptidase F (Mycoplasma mycoides) [pid:61.9%25%2C q_cov:97.7%25%2C s_cov:7.0%25%2C Eval:1.8e-07%2C partial hit],internal stop codon at [1209540:1209542](-),MGA_1989
sequence1	MetaGeneAnnotator	CDS	1209540	1209887	.	-	0	ID=MGA_1990;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHTLFSDEYQVYPLNNYPIILAEVASTFNEHLLFDYLYSNTNDLEEKKYLLQQRIFDLISTFYRQIQFADFEYSAHKLIEEDEPITTETLKDLFVQKQKEFGYDEFADKDESNYS;locus_tag=LOCUS_19900;note=WP_011166436.1 oligoendopeptidase F (Mycoplasma mycoides) [pid:61.6%25%2C q_cov:97.4%25%2C s_cov:18.8%25%2C Eval:7.1e-36%2C partial hit],internal stop codon at [1209540:1209542](-)%2C[1209939:1209941](-),MGA_1990
sequence1	MetaGeneAnnotator	CDS	1209939	1210469	.	-	0	ID=MGA_1991;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENSDPKMDQEKRKEAQKLYFENFISRKHSFAKIYEAIIQEQYESKNVRNYKSILEMNLFDDQVSESIYLKLIEFGKETIESFRKYNRLIKKVYDLKEFNSSDRLLKITKDYNKKFSVEQGQEIVKNSLEVLGKEYIDKLQIAFKDNLIDYYEDDNKSDGAYSSGGNGVEPIILMN;locus_tag=LOCUS_19910;note=WP_011166436.1 oligoendopeptidase F (Mycoplasma mycoides) [pid:49.4%25%2C q_cov:100.0%25%2C s_cov:29.5%25%2C Eval:3.2e-45%2C partial hit],internal stop codon at [1209939:1209941](-)%2C[1210515:1210517](-)%2C[1210698:1210700](-),MGA_1991
sequence1	MetaGeneAnnotator	CDS	1211350	1211547	.	+	0	ID=MGA_1992;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIYEPLKEYETTLKKKFEDTLEEEFDKLVKLSGVDKEANEKLMKSIKSDRKKIAKANDRYQLMKR;locus_tag=LOCUS_19920;note=MGA_1992
sequence1	MetaGeneAnnotator	CDS	1212040	1212528	.	+	0	ID=MGA_1993;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEDITYSGQKNFQYKRNIIEDNGDISYSIDDKVLRAEIVKQIPVFKTEKVVLFMSDLIPNLSYTRKPQNLNSLNLKELEEFINKNKELLEKKAIDSIKENSSFNLMNNTEFESYFNVQNRSNEIEFRRLFTPIAQKNMIELIADLKSGFGDDFTLEKKGMIT;locus_tag=LOCUS_19930;note=MGA_1993
sequence1	MetaGeneAnnotator	CDS	1212649	1213080	.	+	0	ID=MGA_1994;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYFTLAPILATPALINTNAKSLIIDSPEVNTNSSPSTHVLESIIYKFLDDNYSFTLFKKESILDLTSIEESGGINISNLNVNSFNRNSTTEFIVKKTPDGDQRNIPIKYKNFLRTVDSFYFHSIVVKDMDNALYLYNIFNNNN;locus_tag=LOCUS_19940;note=MGA_1994
sequence1	MetaGeneAnnotator	CDS	1213286	1213513	.	-	0	ID=MGA_1995;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPVLKDHLKAMQCSKVADLANSEPGRQAGSSTAAAFLDSFAEGKDFIHLDIASTADINKRGRAPMLRTMFELLNK;locus_tag=LOCUS_19950;note=WP_011166365.1 M17 family metallopeptidase (Mycoplasma mycoides) [pid:53.9%25%2C q_cov:100.0%25%2C s_cov:16.9%25%2C Eval:2.2e-16%2C partial hit],internal stop codon at [1213517:1213519](-)%2C[1213598:1213600](-),MGA_1995
sequence1	MetaGeneAnnotator	CDS	1213598	1214215	.	-	0	ID=MGA_1996;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDFARDLQDLPPNIGTSVEIANRLAAKAKELSDIKVTVYDKKQIEQMGMGLLLSVNAGSNVEARVVVMEYNSDPSQKRTALVGKGITFDTGGYNLKPSNFIENMKFDMSGAAIVSSTVMALAKAKVKTNVVSIGLLTDNRIGGKATLTESVIKSMNGKTVEITNTDAEGRLVLADGITYAVRNAKADRAITVATLTGAIDVALGK;locus_tag=LOCUS_19960;note=WP_011182969.1 M17 family metallopeptidase (Mesoplasma florum) [pid:61.0%25%2C q_cov:100.0%25%2C s_cov:45.7%25%2C Eval:3.8e-65%2C partial hit],internal stop codon at [1213517:1213519](-)%2C[1213598:1213600](-)%2C[1214456:1214458](-),MGA_1996
sequence1	MetaGeneAnnotator	CDS	1214456	1214623	.	-	0	ID=MGA_1997;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITNNAKQFTLTLKAVSSKDKVNELVLKENGAVSLISEDKIIYYYVEENSCLKDL;locus_tag=LOCUS_19970;note=MGA_1997
sequence1	MetaGeneAnnotator	CDS	1214670	1215257	.	-	0	ID=MGA_1998;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLADQFKIISKIKNSSNLDVRSLSEIYLLEIINKLLENKKSLKFDELNKMDNKKPGVYLLYSIVNNKLRFCYIGESVNVKERFKQHIKGYANKKNKMYSIMNKRVEEIKDINFVFLDEIEDQNDRLKRETYYIYTTKSKHFSLNTKLVNRKLRCPNGHGLVKGSLSYDKNKDHIHLIVYGICKNKTCKIKFKIN;locus_tag=LOCUS_19980;note=MGA_1998
sequence1	MetaGeneAnnotator	CDS	1215902	1216507	.	-	0	ID=MGA_1999;product=glycerophosphodiester phosphodiesterase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_020862528.1;translation=MFLVAHRGFRGKNRENRMIDFEDALKTCLAVEFDIRMTKDKKIIIFHDHNFKRIGNLNKTVRSLTYKEIENMDYFKQNPDFLPPLFIEDFIMKISKEYNFINVEIKPDRNTVEEFEQIKRALNLLREQTNAEIVVSSFELKVLKFISQLDNNFKKGYLIENIKKVDFDLIKKFDYLHPYVENLKIKSSYKIVEKINLPLNI;locus_tag=LOCUS_19990;note=WP_020862528.1 glycerophosphodiester phosphodiesterase family protein (Mycoplasma mycoides) [pid:51.0%25%2C q_cov:100.0%25%2C s_cov:85.5%25%2C Eval:4.8e-49],MGA_1999
sequence1	MetaGeneAnnotator	CDS	1216753	1217376	.	-	0	ID=MGA_2000;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEELMDAVDAYIPTPTRDTDKTFLMPIEDVFTITGRGTVATGRVERGVVKVNDEVEIVGLVEDSKKVVVTGLEMFRKLLDFAEAGDNVGALLRGVDRNDIERGQVLAKPGTIKPHTKLNASVYALTQEEGGRHKPFFNKYRPQFYFRTTDVTGEVHLPSGTDMVMPGDNVELVVELIKPIAVEQGTKFSIREGGRTIGAGTVVSIVQ;locus_tag=LOCUS_20000;note=WP_011183518.1 elongation factor Tu (Mesoplasma florum) [pid:88.8%25%2C q_cov:99.0%25%2C s_cov:52.0%25%2C Eval:1.2e-101%2C partial hit],internal stop codon at [1217386:1217388](-),MGA_2000
sequence1	MetaGeneAnnotator	CDS	1217386	1217940	.	-	0	ID=MGA_2001;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKEAFDRSLPHVNIGTIGHVDHGKTTLTAAITKVLAAKGGAEFKDYANIDNAPEERERGITINTSHVEYKTDKRHYAHVDCPGHADYVKNMITGAAQMDGGILVVAATDGPMPQTREHILLSRQVGVPAIAVFLNKCDMVDDEELIDLVEMEVRDLLSAYDFDGDGAPVIRGSALGALNGDAK;locus_tag=LOCUS_20010;note=WP_011183518.1 elongation factor Tu (Mesoplasma florum) [pid:96.2%25%2C q_cov:100.0%25%2C s_cov:46.7%25%2C Eval:1.5e-99%2C partial hit],internal stop codon at [1217386:1217388](-),MGA_2001
sequence1	MetaGeneAnnotator	CDS	1218055	1218507	.	-	0	ID=MGA_2002;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLENALQNGVIAGFPMIDVKATIVDGSYHDVDSNEMAYKIAASLALKEAAKKVNPVLLEPIMSVEVTVPDEYYGDVMGNISSKRGLIEGSEQRGNAQTIKSKVPLSEMFGYATELRSFTQGRGNYTMIFSHYNEAPKNIAEEIIKKQGK;locus_tag=LOCUS_20020;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 [1218562:1218564](-),MGA_2002
sequence1	MetaGeneAnnotator	CDS	1218562	1219476	.	-	0	ID=MGA_2003;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAVEYDEELMMKFLDGGEITIPELKSAIRKGVISAEFFPVLAGSAFKNKGVKLLLDAVVAYLPSPLDVPAIKGILPDGTEAERIASDDAPFAALAFKIMTDPFVGKLTFFRVYSGKLAKGSYVLNATKDKKERVGRLLKMHANNREEIDEVYAGDIAAAVGLKDTTTGDTLTDEKNEIILESMIFPEPVIHLALEPKTKADQEKLGLSLNKLSEEDPTFRTYTDEETGQTIIAGMGELHLDIIVDRLKREFKVETNVGAPQVSYRETIKGSAKVEGKYVKQSGGRGQYGHVVIEFEPNHDKGFE;locus_tag=LOCUS_20030;note=WP_011183519.1 elongation factor G (Mesoplasma) [pid:85.5%25%2C q_cov:99.7%25%2C s_cov:44.0%25%2C Eval:2.5e-145%2C partial hit],internal stop codon at [1218562:1218564](-)%2C[1219573:1219575](-)%2C[1219765:1219767](-),MGA_2003
sequence1	MetaGeneAnnotator	CDS	1219573	1219716	.	-	0	ID=MGA_2004;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKTGADFLYSVKTIGDRLGAKAAPIQLPIGAEDQFNGIIDLVEMKA;locus_tag=LOCUS_20040;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:5.3e-18%2C partial hit],internal stop codon at [1219573:1219575](-)%2C[1219765:1219767](-)%2C[1219909:1219911](-)%2C[1219969:1219971](-),MGA_2004
sequence1	MetaGeneAnnotator	CDS	1219969	1220124	.	-	0	ID=MGA_2005;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPREYSLDMTRNFGIMAHIDAGKTTTTERILFHTGRIHKIGETHEGESQMD;locus_tag=LOCUS_20050;note=WP_011183519.1 elongation factor G (Mesoplasma) [pid:88.2%25%2C q_cov:100.0%25%2C s_cov:7.4%25%2C Eval:1.5e-20%2C partial hit],internal stop codon at [1219765:1219767](-)%2C[1219909:1219911](-)%2C[1219969:1219971](-),MGA_2005
sequence1	MetaGeneAnnotator	CDS	1220151	1220273	.	-	0	ID=MGA_2006;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDRLANEIIDASNGVGGSVKKREDTHKMAEANKAFAHYR;locus_tag=LOCUS_20060;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 [1220310:1220312](-),MGA_2006
sequence1	MetaGeneAnnotator	CDS	1220310	1220615	.	-	0	ID=MGA_2007;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKHQAEKRDVLPDPIYNSKLVTRAVNKIMLDGKRGTAQHILYKAFEKIKEKTGTSPIEVFDKAIENIKPHLELKVRRIGGANYQVPVEVSTDRKVTLALR;locus_tag=LOCUS_20070;note=WP_011183520.1 30S ribosomal protein S7 (Mesoplasma) [pid:84.2%25%2C q_cov:100.0%25%2C s_cov:65.2%25%2C Eval:1.0e-42%2C partial hit],internal stop codon at [1220310:1220312](-),MGA_2007
sequence1	MetaGeneAnnotator	CDS	1220668	1220931	.	-	0	ID=MGA_2008;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTPKKPNSALRKYARVRLTNGMEVTAYIPGEGHNLQEHSVVLIRGGRVKDLPGVRYHIIRGTLDTTGVNGRMQSRSLYGTKRPKEKK;locus_tag=LOCUS_20080;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 [1221037:1221039](-),MGA_2008
sequence1	MetaGeneAnnotator	CDS	1221210	1221716	.	-	0	ID=MGA_2009;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSILQNSIIVLISIDVNMEKENLEKEVITNPKGIDVIVATAVQAFGVKANEMIAKYEQLNLDQDTNEVFKPLNKFFKEVSKQDVESAFAKLMENILEFNKNYKNIYIRLSNIKEDSLTNQRIEMFMEYMNTYYLMTYLLEIILVYPLQEEMMNQQAFDNIMPDITLYN;locus_tag=LOCUS_20090;note=MGA_2009
sequence1	MetaGeneAnnotator	CDS	1221765	1221968	.	-	0	ID=MGA_2010;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEIKSINYEKIIVKRVNTVYENLKQNIKNEFKVPSNIESFLNENSQLSTREDIENLGKEFDKTFAD;locus_tag=LOCUS_20100;note=MGA_2010
sequence1	MetaGeneAnnotator	CDS	1222262	1222483	.	+	0	ID=MGA_2011;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPESIVANPTSKHVILQLYFEDNLKIQGQAKNNNDRESNFVLIFVKKMIPKQPAPLTDRQKGQSNIEDLIDNN;locus_tag=LOCUS_20110;note=MGA_2011
sequence1	MetaGeneAnnotator	CDS	1222517	1223176	.	+	0	ID=MGA_2012;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MERKDKSNLNISLKRVNPTPTNRVGEKPNIDVRETIKEKPIPTPIPKAIPKEEIPVKVNSNITYIEIPKPKPEIIKEEVVSPIKMNLEYRPTPKVKEVIIEDKVFYGLSAFDLYYIEAFLSDAAIKEEAYQKEIKITRDIVKVRGDIKYTEEKQYSSLGKNIAKFFGCLTIVGIPFVIAYSGNKIRKKATKTYKEQLKNRGYDSIKQDLKLANPKIIEF;locus_tag=LOCUS_20120;note=MGA_2012
sequence1	MetaGeneAnnotator	CDS	1223207	1223401	.	-	0	ID=MGA_2013;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKEELKDKLADFKVKKNAKETEIEKCKEAIKQAKLEIKIKKNELKNIISEAKILKSSFKRQEM;locus_tag=LOCUS_20130;note=MGA_2013
sequence1	MetaGeneAnnotator	CDS	1223540	1223704	.	-	0	ID=MGA_2014;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDYRKTLYSPKGKEIDLIILKEDNRIERFYETKNELINSLTPKKIVDHFEKMEK;locus_tag=LOCUS_20140;note=MGA_2014
sequence1	MetaGeneAnnotator	CDS	1223889	1224083	.	-	0	ID=MGA_2015;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLNLIAAFSMTAMSTLTLTSCQIKGEKEIETDKDFFMETEQPKSIEEIEEKIKVKYDDLDY;locus_tag=LOCUS_20150;note=MGA_2015
sequence1	MetaGeneAnnotator	CDS	1224473	1224691	.	-	0	ID=MGA_2016;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLNLIAAFSMTAMSTLTLTSCQIKGEKEIETDKDFFMETEQPKSIEEVEERIINTYDIQKEYNELSHDK;locus_tag=LOCUS_20160;note=MGA_2016
sequence1	MetaGeneAnnotator	CDS	1225107	1225301	.	-	0	ID=MGA_2017;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLNLIAAFSMTAMSTLTLTSCQIKEEKEVETDKDFFMETEQPKSIEEIEEKIKVKYDDLDY;locus_tag=LOCUS_20170;note=MGA_2017
sequence1	MetaGeneAnnotator	CDS	1225715	1225903	.	-	0	ID=MGA_2018;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLNLIAAFSMTAMSTLTLTSCQIKGEKETDKDFFMETEQPKSIEEIEEKIKVKYDDLDY;locus_tag=LOCUS_20180;note=MGA_2018
sequence1	MetaGeneAnnotator	CDS	1226317	1226511	.	-	0	ID=MGA_2019;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLNLIAAFSMTAMSTLTLTSCQIKGEKEIETDKDFFMETEQPKSIEEIEEKIKVKYDDLDY;locus_tag=LOCUS_20190;note=MGA_2019
sequence1	MetaGeneAnnotator	CDS	1227622	1228122	.	+	0	ID=MGA_2020;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSYFVAIPAIGLLINSFIESKESTQKKYNMENYLNNILNKDETIEINSIIQELSLNQLDSLSEGLNDINDPEFSNFYKLLVSFKRLIEISKIFGIKKIETKDLESIIQQTVISILNKNKDFINGILNTRNNKESLSILNKLSFEDIYSLFLNTSNFFNKGGVNKVV;locus_tag=LOCUS_20200;note=MGA_2020
sequence1	MetaGeneAnnotator	CDS	1228162	1228293	.	+	0	ID=MGA_2021;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDAFGDGVNAASDLAGLFSKDKKKSNKNDKKLSVSLKKKTAEI;locus_tag=LOCUS_20210;note=MGA_2021
sequence1	MetaGeneAnnotator	CDS	1228423	1229181	.	+	0	ID=MGA_2022;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSFISLKTYEAKLDSNQSLYYFEPTIKIPFTDITFGGSVQDQEIKTLIDTPLKYFNPKNNGKEINELYEFNGKYYHEKSKAIKDLKYEIFKKPEDYLKTKKILTSVISKDNTYKLNLPQVCNGDEKQKDCISNYEYNRRFAQEKEKFIENLFNRFYENSKKEYFLDGFGGAHTSKEIAMNELKRKADKVENYKRVYIYMLNNNRVIKNRLEDIKEFIRNNQPLEYKNIINTDLIKTNHFDSLKENNNYTFDI;locus_tag=LOCUS_20220;note=MGA_2022
sequence1	MetaGeneAnnotator	CDS	1229406	1229858	.	+	0	ID=MGA_2023;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKNILLTLSLTSFSTTTVSSLVEKNNVSEKEKLINFLRNDIEKKKVFLGNENYIKFDNKVFTNKNLLNEYLLSNSYIKSEFTFSNPNKIIKDYENMILDKNRIYSLDMDKYTKVYRDAFGNIAKTSKNALDTYTNAGLVKQKYSYDEVQ;locus_tag=LOCUS_20230;note=MGA_2023
sequence1	MetaGeneAnnotator	CDS	1229901	1230326	.	+	0	ID=MGA_2024;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIRSSLYYIHNNKYYNAFNITDINNLLGDFKKGYFVNKEKNIEGNRLLKPIKEYGDKKDIFDKMIRELKSNFLDSYFYKSSKVEYINKLKIKSKDENQFRVLFPGENEDIFMYGNEAELTFANKYSTYQEMLNDFRDRSK;locus_tag=LOCUS_20240;note=MGA_2024
sequence1	MetaGeneAnnotator	CDS	1230870	1231205	.	+	0	ID=MGA_2025;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYQLKPDFYVEKKQLDTYLPLQGKFSTVLKFFYGSTSDISSEDGKLLSDTYEEAMERKFINSKLTLKKKYIAFNVFGESVESGESQEEAIRKLQNSILLNSKMVHKDEYNT;locus_tag=LOCUS_20250;note=MGA_2025
sequence1	MetaGeneAnnotator	CDS	1231565	1232251	.	-	0	ID=MGA_2026;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINDITNLVERDEQFNYFVKEDTKLLPEDLKQFVENKKIKLPFVSKILEECFPFLQSKFIKKEIIESSIKQGECVHKIISESINERRDFKLNLIIKDCKNSNHINIAKRIITELNSFIYKYDIDQIFSERTFFYTGYDCNFLGTIDIILKSKDTFYIMDIKTSKVNYVEKYNAQLFLYKKMFENASNKTVANCFILNPRENRVLMEYEKLSKQEQARVISKIKEIENS;locus_tag=LOCUS_20260;note=MGA_2026
sequence1	MetaGeneAnnotator	CDS	1232293	1234176	.	-	0	ID=MGA_2027;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTISFFVAILLIVISIIELVRLRKQQKISKPYIKVTMVVLSIILLLTGQLLLVLISGLILIAFILLEAILFDSEALNNYAEERNLILIYKEEKKFEKEVSKQGKLVGNVDLKNLQGDFQKENEQVKTEDNSTLPFSTQNEFKVNSFSEDEKLNIIKKFNTNVTKVNSIAKMLKMPESYHVSYINVKNTENENDNLNSITQITNIVDTQQVVDISNEFNNLDDNDSQNLDDSLDSQVIILEAKDKEDNLEEDNLNSTQEVFVKQEDSEKESKTQEEDSLDFSDNNLVNLSQSNEIKEEESNKLLSSQEVVSTISKSENISLDENLLRQKLARAVNMDLNQLIESKEPDADKNLIYSDFNFNQPDLASQVLVRELKENNNEITNPISQIFSSKSTLLKKEDNFEEQKKVVKSNEPVFGRLDDQVTVKPIQQDSKNVKEKINLTIQTPSFVAKPTILSEQNFEFEVEKPVEENNSLHEFVEQNTVEEKFIAPVIESSNLNEIKSKVNSNELSQTIEKDNSVHNCNNDFQIEEIKKYIFEKEQELLNRFEADINSTDFSRLNTIEERILNLENLIESLGSKVFDNQVIQDFRQINKQLESISRVVNELENNTPKAIINRSITKHNYNRNNG;locus_tag=LOCUS_20270;note=MGA_2027
sequence1	MetaGeneAnnotator	CDS	1234177	1234419	.	-	0	ID=MGA_2028;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFAIFIIFAWSLTLVSSIGLLLFGSMALMLLLSGSNPIALISNILQIITKPLFTPVYGSNGVIDSSTQGAGSNNQLATII;locus_tag=LOCUS_20280;note=MGA_2028
sequence1	MetaGeneAnnotator	CDS	1234449	1234901	.	-	0	ID=MGA_2029;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQETENRNNNSVSNSYGQIREENQDSGIDSKLRINMEKVLESRKQEIIEQQKREEQILINKKRESEFNPSIISKKDVILNPFANPFANDRNSNMSNNEENFNSRYVNQSQQNLNNIGSSLINRAPINIEESMRRKQENQRDNKIISVPNN;locus_tag=LOCUS_20290;note=MGA_2029
sequence1	MetaGeneAnnotator	CDS	1234929	1235312	.	-	0	ID=MGA_2030;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLDEFKDLFNSYNFNEQIKLILINSRDLELNKILYINDFVLNFLIKIPGVSCKLNINLNTFDNSLINELSKVYDYIIFDHTSNLEKKLVQTNRNNSSTYNQNSQQQNNYNQSHNSELRKVREDIFN;locus_tag=LOCUS_20300;note=MGA_2030
sequence1	MetaGeneAnnotator	CDS	1235415	1236227	.	-	0	ID=MGA_2031;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYVNPFERMKKKHEEEEKKRIEIEREKEKYARLGAQMGFTDERAVVPSFIKTIIGEERKTPVPNNNNNYNNSYEDSNNLYSESRYTSHNQNNNLDNQNRRVYPFNEIPSPTPMFDYSESQEQISSHENQINSNRGYGNEFLNHNQNNSSQNYNYNRPLVNEEYNLEDELLLQKSFDEKFDQFFEGEKTLYANNKIISSKDYRIKEANGELDTKNILLINHPELVEEDKFKNLITIDLEKAIHYSYPCLFILKKFINNLPSNISLDDKKVL;locus_tag=LOCUS_20310;note=MGA_2031
sequence1	MetaGeneAnnotator	CDS	1237312	1237581	.	-	0	ID=MGA_2032;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTFFLILFLKSKVNSLYKLIYIIFIASFSVIAIVFIAISEYSYSKFYNLFEFLSQDENADLFKNEDIKNMQDVFMDMYKGENGNSYKYK;locus_tag=LOCUS_20320;note=MGA_2032
sequence1	MetaGeneAnnotator	CDS	1237636	1237845	.	-	0	ID=MGA_2033;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKLQDNFAVDNYKNKNSLLIKFSVLFVFLFIPTITYLVILNINPSLKYYFANLNVVENNFGKNVIAHK;locus_tag=LOCUS_20330;note=MGA_2033
sequence1	MetaGeneAnnotator	CDS	1237880	1238677	.	-	0	ID=MGA_2034;product=peptide chain release factor N(5)-glutamine methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166353.1;translation=MNLNKLKNEYVPNLLTLNEFKEIIINITNKSDFNFVMDQNLSKRESDLFLKIIEEFKETKKPIAYLLNNKYFYKYDFYVNENVLIPRSESELIVEEILKYKLDDKNLFDICCGSGCIGITLKNLNNKINLYLSDISKEALKVSEINLKKHNQKAELFCSDFLSVFEETKIVPDFITINPPYIDVNDSNIGEYVKKYEPGIALFAENNGLKFYKELFNSLDKLFNLNKELIIVCEFGFEQKEEIENIFSSKIVKYNIDFKKDYSNN;locus_tag=LOCUS_20340;gene=prmC;EC_number=2.1.1.297;note=WP_011166353.1 peptide chain release factor N(5)-glutamine methyltransferase (Mycoplasma mycoides) [pid:38.8%25%2C q_cov:98.9%25%2C s_cov:93.6%25%2C Eval:9.6e-47],MGA_2034
sequence1	MetaGeneAnnotator	CDS	1238680	1239312	.	-	0	ID=MGA_2035;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDMNESAAGGFSQISFMVKGDKVYSKMKFESGSHRVQRVPKTESKGRIQTSTATVAVLPEVSDVEVDIKTADLRIDTYRASGAGGQHINTTDSAVRITHIPTGIVAASQDGRSQHDNKDKAMTLLRARIYEAELEKQQSEAASLRKNAVGTGARSEKIRTYNYAQNRVTDHRVNLTLNKLDQVMEGNLDEIIIELINDEQKNRITQHIEG;locus_tag=LOCUS_20350;note=WP_011183530.1 peptide chain release factor 1 (Mesoplasma florum) [pid:79.4%25%2C q_cov:99.5%25%2C s_cov:57.6%25%2C Eval:5.9e-93%2C partial hit],internal stop codon at [1239325:1239327](-),MGA_2035
sequence1	MetaGeneAnnotator	CDS	1239325	1239765	.	-	0	ID=MGA_2036;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKTLEALNVMENRVNSIDETIQKEETLKDIKLLTELNKERASLEEVVNKYQEYKKINNDIEEAKQILETEKDEEMRSLAKLQLEEAQEQIILVEDDLELLLLPKDPNDDKNVIFEIRGAAGGDEANIFAGDLFRLYTKYAEKNN;locus_tag=LOCUS_20360;note=WP_011183530.1 peptide chain release factor 1 (Mesoplasma florum) [pid:58.2%25%2C q_cov:100.0%25%2C s_cov:40.2%25%2C Eval:2.6e-40%2C partial hit],internal stop codon at [1239325:1239327](-),MGA_2036
sequence1	MetaGeneAnnotator	CDS	1239782	1240324	.	-	0	ID=MGA_2037;product=thymidine kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166351.1;translation=MFAGKTEEFIKRLKRYKYAQQNVLVFKPLIDDRYSKKDTFSHSGMSIESIPVKDSEELLDIFYKENEKEKVDIIGIDEIQFLDTNIVEIIKKLADEGVIVVANGLDKDFKNDPFQNVDKLLVEAEYVDKLTSICHSCGGNANRTQRIINGEPAKANEPIIVISANEKYEARCRHCYIKPQ;locus_tag=LOCUS_20370;EC_number=2.7.1.21;note=WP_011166351.1 thymidine kinase (Mycoplasma mycoides) [pid:55.6%25%2C q_cov:100.0%25%2C s_cov:86.1%25%2C Eval:5.5e-56],MGA_2037
sequence1	MetaGeneAnnotator	CDS	1241366	1241737	.	-	0	ID=MGA_2038;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYYSTYGGDFFAKNNRFSYKYDGKKLETMNETTKTQSDIFDQVGKLVINPMKVYTNKKENKNYIIELVGTIIENNKFADPNMYEALIKETNLKIYFYSTQKFEIEEKVKLYIGEDSILKIM;locus_tag=LOCUS_20380;note=MGA_2038
sequence1	MetaGeneAnnotator	CDS	1241978	1242241	.	-	0	ID=MGA_2039;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFEGLSDEATTLRGKIVEVMHKYHKRVLNDNCEKGEIDEFKVHKDRLKREISSVYKQSTLFIDETAKQLGFEFNLLSFKLSKMEEI;locus_tag=LOCUS_20390;note=MGA_2039
sequence1	MetaGeneAnnotator	CDS	1242293	1242685	.	-	0	ID=MGA_2040;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEEHIRIIIKDYYYLVEKTQNLEFIQTFLQTLFDKVYTFMELSSLCTCEYVTKKSKDKQKRKLAKELNFHQINFVTRKQLKILDLQVNNIKAKISKNNFIIKGLKKQIVFELNKAEIIKKRIRNLDELFT;locus_tag=LOCUS_20400;note=MGA_2040
sequence1	MetaGeneAnnotator	CDS	1242752	1242928	.	-	0	ID=MGA_2041;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLNKNFYSQAKINYINKKYSYLSFSTSKNNKTDLEMRDKIETMISKFINNSIEIEEQ;locus_tag=LOCUS_20410;note=MGA_2041
sequence1	MetaGeneAnnotator	CDS	1243007	1243216	.	-	0	ID=MGA_2042;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSFTIQNAKFFNRKLTPKSTTFRTKDSEKTTVISYDKNLRRNFKNILQGKYLVKNGLFKIDGYDKVNKQ;locus_tag=LOCUS_20420;note=MGA_2042
sequence1	MetaGeneAnnotator	CDS	1243309	1243599	.	-	0	ID=MGA_2043;product=50S ribosomal protein L31;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166348.1;translation=MPKANIHPQYFEAKFVCTTCSNEFMSGSTKGEEVRIDTCSNCHPFYTGKQNFANAEGRVEKFKEKFAKKDAKLAEVEKASAAQKAENQKKSKEAKK;locus_tag=LOCUS_20430;gene=rpmE;note=WP_011166348.1 50S ribosomal protein L31 (Mycoplasma mycoides) [pid:57.8%25%2C q_cov:92.7%25%2C s_cov:97.8%25%2C Eval:2.3e-26],MGA_2043
sequence1	MetaGeneAnnotator	CDS	1243754	1243894	.	-	0	ID=MGA_2044;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIAAFFSILFMIITYNIANGIALAIIAYTVGSMATGKLKEIGPVI;locus_tag=LOCUS_20440;note=MGA_2044
sequence1	MetaGeneAnnotator	CDS	1243907	1244203	.	-	0	ID=MGA_2045;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNRESGVESDIPQRALIIDGASTIVGASIGVSNIACYAESCVGVSQGARTGFASLVTSMGLLLSIVIFPIFQMMPSCITGAATVFIGTVVIKSITGIE;locus_tag=LOCUS_20450;note=WP_005896779.1 NCS2 family permease (Fusobacterium) [pid:40.0%25%2C q_cov:86.7%25%2C s_cov:19.8%25%2C Eval:7.6e-14%2C partial hit],internal stop codon at [1243907:1243909](-),MGA_2045
sequence1	MetaGeneAnnotator	CDS	1244103	1244369	.	+	0	ID=MGA_2046;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLETPIDAPTIVDAPSIINALCGISDSTPDSLFISTLTAVIVPVASKKVSIIKTKIETYIVGFDHILVFVNSLQVDEILEAKPLNNFA;locus_tag=LOCUS_20460;note=MGA_2046
sequence1	MetaGeneAnnotator	CDS	1244387	1244581	.	-	0	ID=MGA_2047;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNFKLNYPEIILGSIVLLTAIFLNFKKFFAPVAVVMVIGFIIAIILANTIDNHAINQSFGSAK;locus_tag=LOCUS_20470;note=MGA_2047
sequence1	MetaGeneAnnotator	CDS	1244618	1245166	.	-	0	ID=MGA_2048;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIKENNFKGEKGKDSLIVSNNPIAKYFGFGKMKTTFKKEIIGGISTLLSMIYILSVEPGILSGAQSINDSNSFMNADGVFLATAIMSFLATFVMGIAANVPIALAPSMGVNAMFTFSVANSGGLGYEGALIATSISGIMFCIISVTKLRTLIIKSLPKSLHLAIGVGIGFFIAYVGIANIG;locus_tag=LOCUS_20480;note=WP_011183312.1 NCS2 family permease (Mesoplasma florum) [pid:47.7%25%2C q_cov:94.5%25%2C s_cov:34.6%25%2C Eval:7.2e-43%2C partial hit],internal stop codon at [1244618:1244620](-),MGA_2048
sequence1	MetaGeneAnnotator	CDS	1245461	1245760	.	-	0	ID=MGA_2049;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLGPFNNICTQFLRLTKLNYTVGRLLIDIVIFALGFAFFPFIQGESTKTDFLLTNFGLGTVCFTFLVGPLVNYLILFLDRICNYEKMDILTNKSLIKAE;locus_tag=LOCUS_20490;note=WP_011166276.1 hypothetical protein (Mycoplasma mycoides) [pid:36.6%25%2C q_cov:81.8%25%2C s_cov:29.9%25%2C Eval:1.4e-07%2C partial hit],internal stop codon at [1245761:1245763](-)%2C[1245776:1245778](-)%2C[1245824:1245826](-)%2C[1245875:1245877](-)%2C[1245953:1245955](-)%2C[1245968:1245970](-),MGA_2049
sequence1	MetaGeneAnnotator	CDS	1245741	1245881	.	+	0	ID=MGA_2050;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKGPNIQPDLTQKPIPSTKQRNPAINNQFLTPIEEEIDVPSLETH;locus_tag=LOCUS_20500;note=MGA_2050
sequence1	MetaGeneAnnotator	CDS	1246581	1246868	.	-	0	ID=MGA_2051;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQAACKLPMVLHGGSGIPQDQVEKAIKLGISKINVNTELQLAFRDATREYIEAKKDLDDEAKGFDPRKLLAPGFKALKQTFLDLTKVFGCQGKAK;locus_tag=LOCUS_20510;note=WP_011183540.1 class II fructose-1%2C6-bisphosphate aldolase (Mesoplasma florum) [pid:81.9%25%2C q_cov:98.9%25%2C s_cov:31.8%25%2C Eval:6.3e-40%2C partial hit],internal stop codon at [1246899:1246901](-)%2C[1246902:1246904](-),MGA_2051
sequence1	MetaGeneAnnotator	CDS	1246902	1247288	.	-	0	ID=MGA_2052;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGGVKVVVGMVNGLLDSLNITVPVALHLDHGQSVEMAKKCIEAGYSSVMFDGSHLPYEENIAKVKELMEFANSHEVSVEAEIGSIGGEEDGVVGEGELGDPKQAAEMSTTGISMLAAGIGNIHGKYPE;locus_tag=LOCUS_20520;note=WP_011183540.1 class II fructose-1%2C6-bisphosphate aldolase (Mesoplasma florum) [pid:80.3%25%2C q_cov:95.3%25%2C s_cov:41.2%25%2C Eval:2.7e-51%2C partial hit],internal stop codon at [1246899:1246901](-)%2C[1246902:1246904](-)%2C[1247367:1247369](-),MGA_2052
sequence1	MetaGeneAnnotator	CDS	1247367	1247516	.	-	0	ID=MGA_2053;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKYKVSFIGGNRNMSRIYHSKLVNSTEMVKEAHANKYAIGHFNINNLE;locus_tag=LOCUS_20530;note=WP_011183540.1 class II fructose-1%2C6-bisphosphate aldolase (Mesoplasma florum) [pid:80.0%25%2C q_cov:71.4%25%2C s_cov:11.8%25%2C Eval:2.3e-10%2C partial hit],internal stop codon at [1247367:1247369](-),MGA_2053
sequence1	MetaGeneAnnotator	CDS	1247749	1248081	.	-	0	ID=MGA_2054;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRVSTKSIAICGLITSLMFGIGALSTFISNISGKNIFQISDTIYLSLLNFLNPFLLITSASISGILIDLYAGGFIYMPITVIVKILIGITFILLKKFIPLYLNIFISYI;locus_tag=LOCUS_20540;note=MGA_2054
sequence1	MetaGeneAnnotator	CDS	1248129	1248707	.	-	0	ID=MGA_2055;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKAELEGAKGILVPGGFGEDGVEGKILAAKYARENNIPYLGICLGMQVACIEFARNVIKLPDAHTTEINPHTKNPIIDIMEGKNRENIGGTLRLGRYVTSLKEGTIAHSLYKQKTAIERHRHRYEFNNNFRKVFEDNGIVFSGLYLEQDLVEIIEYPKNDFFVAAQYHPEFTSRPNKPNPLFMGFINAINKK;locus_tag=LOCUS_20550;note=WP_011183544.1 CTP synthase (Mesoplasma florum) [pid:61.4%25%2C q_cov:97.9%25%2C s_cov:35.5%25%2C Eval:6.3e-64%2C partial hit],internal stop codon at [1248738:1248740](-)%2C[1248891:1248893](-),MGA_2055
sequence1	MetaGeneAnnotator	CDS	1248891	1249721	.	-	0	ID=MGA_2056;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKHIFITGGVVSGLGKGITGSSLGVLLKNSGLKIFMQKFDPYLNIDPGTINPIEHGEVYVTDDGGETDLDLGHYERFIDVNLSKNSSTSAGRIYYETLEKERNGKYGGKTVQVIPHITNEIKQKIYKAEVESKADVVITEIGGTVGDIESQPFLEALRQIRMEKGKENVMFIHVALLPYLKVSGEFKTKPIQHSVKELLSLGIQPDVIVARSEMEFEQKLKDKISLLCSISVENVIECPDSDSIYKVPLIIEKGNLHKIVAKQLTLNLKETKLED;locus_tag=LOCUS_20560;note=WP_011183544.1 CTP synthase (Mesoplasma florum) [pid:66.5%25%2C q_cov:99.6%25%2C s_cov:51.7%25%2C Eval:1.5e-103%2C partial hit],internal stop codon at [1248738:1248740](-)%2C[1248891:1248893](-),MGA_2056
sequence1	MetaGeneAnnotator	CDS	1250055	1250252	.	-	0	ID=MGA_2057;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKLSPINLTYDYLSECKDSASFEDIWNTISKDISGDNDSKNEIIAELYSDLVLDNRFALTSDGK;locus_tag=LOCUS_20570;note=WP_011166337.1 DNA-directed RNA polymerase subunit delta (Mycoplasma mycoides) [pid:47.6%25%2C q_cov:96.9%25%2C s_cov:44.4%25%2C Eval:1.0e-10%2C partial hit],internal stop codon at [1250055:1250057](-),MGA_2057
sequence1	MetaGeneAnnotator	CDS	1250324	1250659	.	-	0	ID=MGA_2058;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPLDKYIFLDDYTMFDIFKSLKNENDEILKDLSNRLLNRKFLKVSYDMTKEEFNKLKSEFKGDAKYYFDSISIKTVFIYKDSTGKKDENIYILKNDKLNNLKELSEILNID;locus_tag=LOCUS_20580;note=WP_011166336.1 HD domain-containing protein (Mycoplasma mycoides) [pid:40.7%25%2C q_cov:78.4%25%2C s_cov:22.3%25%2C Eval:5.8e-09%2C partial hit],internal stop codon at [1250753:1250755](-)%2C[1250909:1250911](-),MGA_2058
sequence1	MetaGeneAnnotator	CDS	1250909	1251463	.	-	0	ID=MGA_2059;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKFIRDNVHGEIYIEDKVFLELIDTDEFQRLRRIIQLGGGQFVFPSANHTRFSHCIGVYHVICKFLENEKINKHILDKDKRVLKIAGLLHDIGHGPFSHTFETISSISHEQYSVDLIKGDTQINKVLLNNGVDPKEVVSVIEGKHKNKVVNLLVSSQLDADRLDYLQRDSIGAGVNYSKPDID;locus_tag=LOCUS_20590;note=WP_011183546.1 HD domain-containing protein (Mesoplasma florum) [pid:56.2%25%2C q_cov:100.0%25%2C s_cov:45.8%25%2C Eval:5.6e-59%2C partial hit],internal stop codon at [1250753:1250755](-)%2C[1250909:1250911](-),MGA_2059
sequence1	MetaGeneAnnotator	CDS	1251474	1251701	.	-	0	ID=MGA_2060;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMSFLAKEIENIKDFTEENIKILIKETGNRFEKKGRELFMPVRIYTTLSEHGPELAKTINLIGKEKVLTNINSFK;locus_tag=LOCUS_20600;note=WP_011166335.1 glutamate--tRNA ligase (Mycoplasma mycoides) [pid:49.3%25%2C q_cov:100.0%25%2C s_cov:15.5%25%2C Eval:9.1e-15%2C partial hit],internal stop codon at [1251840:1251842](-)%2C[1251933:1251935](-)%2C[1251948:1251950](-),MGA_2060
sequence1	MetaGeneAnnotator	CDS	1252215	1252652	.	-	0	ID=MGA_2061;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQSEKFDVYKEYANKLIEKNMAYKCYCTAEELEKDRELQLAKGILAPQYNRKCLLNKIEDNSKPFNIRFKVPENKIYKINDVVRGNVEFNSKEIGDFVILKSNGIATYNFAVVIDDYDMQITHVVRGEEHISNTPRQCMIYEAFG;locus_tag=LOCUS_20610;note=WP_011166335.1 glutamate--tRNA ligase (Mycoplasma mycoides) [pid:64.7%25%2C q_cov:99.3%25%2C s_cov:31.1%25%2C Eval:1.3e-52%2C partial hit],internal stop codon at [1251933:1251935](-)%2C[1251948:1251950](-)%2C[1252059:1252061](-)%2C[1252215:1252217](-)%2C[1252710:1252712](-),MGA_2061
sequence1	MetaGeneAnnotator	CDS	1252710	1252901	.	-	0	ID=MGA_2062;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKFRLRYAPSPTGFLHIGNTRTALMNYLFAKHYDGDFILRIEDTDIERNVNGAIESQFDNME;locus_tag=LOCUS_20620;note=WP_011183547.1 glutamate--tRNA ligase (Mesoplasma florum) [pid:88.7%25%2C q_cov:98.4%25%2C s_cov:12.9%25%2C Eval:2.1e-27%2C partial hit],internal stop codon at [1252710:1252712](-),MGA_2062
sequence1	MetaGeneAnnotator	CDS	1253050	1253376	.	-	0	ID=MGA_2063;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFKVGFSKDTHNLIEGNKIILGGIEIPSCKAVNAYSDGDVIIHSLAESIFGSMGLEDLGENYNSKNMEKNFNSLLMLEDAQKILFENNYKISNIDILVELDNPKLTE;locus_tag=LOCUS_20630;note=WP_011015827.1 2-C-methyl-D-erythritol 2%2C4-cyclodiphosphate synthase (Fusobacterium nucleatum) [pid:39.3%25%2C q_cov:97.2%25%2C s_cov:66.2%25%2C Eval:7.1e-20%2C partial hit],internal stop codon at [1253050:1253052](-),MGA_2063
sequence1	MetaGeneAnnotator	CDS	1253665	1254162	.	-	0	ID=MGA_2064;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELILADEASVKKRLAKVEPKFKSTKDKDIIFEYNLLKKLENQLSEGKLLNKLEFEEEEKIAIKSFQLLTTKKIIYVANVGEDEVREDNEYVKLVRQYAQSCNSQVVKISAKIEEELSELDKNDKEVFLQDAGIETSGLEQLIRAAYSTLDLKTYFTCGPQEARG;locus_tag=LOCUS_20640;note=WP_011167065.1 redox-regulated ATPase YchF (Mycoplasma mycoides) [pid:56.7%25%2C q_cov:99.4%25%2C s_cov:44.8%25%2C Eval:2.6e-43%2C partial hit],internal stop codon at [1253665:1253667](-)%2C[1254403:1254405](-),MGA_2064
sequence1	MetaGeneAnnotator	CDS	1254403	1254561	.	-	0	ID=MGA_2065;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKINMGLQVGIVGLPNVGKSTLFNAITNSKVEAANYPFATIEPNVGVVEVPD;locus_tag=LOCUS_20650;note=WP_011167065.1 redox-regulated ATPase YchF (Mycoplasma mycoides) [pid:97.9%25%2C q_cov:92.3%25%2C s_cov:13.2%25%2C Eval:1.1e-20%2C partial hit],internal stop codon at [1254403:1254405](-),MGA_2065
sequence1	MetaGeneAnnotator	CDS	1254726	1255598	.	-	0	ID=MGA_2066;product=ParB/RepB/Spo0J family partition protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003562946.1;translation=MAKTKGKYNFKGLDDIFGESVSDIIGGIENDKEKVNKSKTMISIDLLKPNPFQPRKTFEEEELNELAESIKIHGIIQPIIINNQNEIVAGERRTRAAKIAGLKEIPAIILELSSDQMEEFAIIENIQRVDLLDIEEAVAYKKLSTNLKLKQEEIAIRVGKSRSHVANIMRLLNLPQKVQDAMLQRKVTMGQAKPLLSIINNEQLLDSIFKKILEQDLTARAIEQLIKNNNSNETEKLNVPKNPAVIYTENKIMRRLGTKVTIDSGKLTIRFSSDDDLNRILELLGLTDED;locus_tag=LOCUS_20660;note=WP_003562946.1 ParB/RepB/Spo0J family partition protein (Lacticaseibacillus) [pid:40.6%25%2C q_cov:95.2%25%2C s_cov:96.9%25%2C Eval:2.2e-50],MGA_2066
sequence1	MetaGeneAnnotator	CDS	1255585	1256358	.	-	0	ID=MGA_2067;product=AAA family ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011963269.1;translation=MTKVISISNQKGGVGKTTTSVNLACGLALANKKVLLIDMDPQFNATTGVGFEIDSNTLSMYHVFTGQKQLSEVIIKNIKPNIDLAPSSIDVAAVDLILLEQKTNNQNILRDEIEKISSLYDFIIIDCPPSLGLINRNGLAISDTVLIPIQAEHYAMHGVAQLLRTIKKVKETLNPNLTIEGVLVTMFDSRTRLAHDVLEEIMKTFGPKVYKSVIPRNIKISESSMEGKSIYEYDKNGAGAIAYIDFVKEVLKENGQN;locus_tag=LOCUS_20670;note=WP_011963269.1 AAA family ATPase (Flavobacterium psychrophilum) [pid:44.9%25%2C q_cov:99.6%25%2C s_cov:100.0%25%2C Eval:5.3e-63],MGA_2067
sequence1	MetaGeneAnnotator	CDS	1256399	1256671	.	-	0	ID=MGA_2068;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAPLNILLEVGVQALKIKGTFICLKSKNIANELNELNGQETKLGLSLQKKQNYEDDILGERNNLFYIKNSSTSIEYPRLYSQIRKRPLGK;locus_tag=LOCUS_20680;note=MGA_2068
sequence1	MetaGeneAnnotator	CDS	1256744	1256986	.	-	0	ID=MGA_2069;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTAITQDQEIIDKHFYDSLIFTKVFNPDGLEILDIGTGAGFPGVVLKIMFPNSKIYLLESNGKKINFLNTVIKELDLKNI;locus_tag=LOCUS_20690;note=WP_011183558.1 16S rRNA (guanine(527)-N(7))-methyltransferase RsmG (Mesoplasma florum) [pid:58.8%25%2C q_cov:100.0%25%2C s_cov:33.8%25%2C Eval:1.3e-21%2C partial hit],internal stop codon at [1256744:1256746](-),MGA_2069
sequence1	MetaGeneAnnotator	CDS	1257279	1257725	.	-	0	ID=MGA_2070;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEEGFIYTKSRSEKISYIKAGYIGMAITLSIYTLFLIISISIGFASDPNGTHEINYFLVADYSSNSTVMFAFIVYLILMIAVLHNRRTNKVEVNKIKGGFVIGIITTTILIIVMGYIYYDFFINKFKDKEKMIDPILLIFFSIIIEIV;locus_tag=LOCUS_20700;note=MGA_2070
sequence1	MetaGeneAnnotator	CDS	1257819	1258424	.	-	0	ID=MGA_2071;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCSILYICMYLPILAGLGALFTINTLFNGIDIFYHSTTGIFLVEKIGRVELMIIKLILSTLLLVSFSLMNIYTHKPSRIIQSIFTIVKFIPLISVVIGGFTLFILNPSANNSFNPEHSTINSFGISPFFATIVPILFAFDGFIYAATLQKDCEHKEVVPPAMLSAIIAVTLFYTIITVAIFLGAEDGNVFNFFDNLFIKSP;locus_tag=LOCUS_20710;note=WP_164919801.1 APC family permease (Mesoplasma florum) [pid:33.3%25%2C q_cov:93.0%25%2C s_cov:31.6%25%2C Eval:2.3e-19%2C partial hit],internal stop codon at [1258458:1258460](-)%2C[1258554:1258556](-),MGA_2071
sequence1	MetaGeneAnnotator	CDS	1258399	1258629	.	+	0	ID=MGA_2072;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHIYKIEHIDAVFLFINVFAQLCAVECPNLVFEEAASMKVSIINEHSTPINIQTQRARYGLLPACDKTPFSPAFFK;locus_tag=LOCUS_20720;note=MGA_2072
sequence1	MetaGeneAnnotator	CDS	1258554	1258727	.	-	0	ID=MGA_2073;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKVNKSNKRKNKAFEFFTIFSMVFGIVVGSGIYLKNAGENGVLSQAGNNPYLALCV;locus_tag=LOCUS_20730;note=MGA_2073
sequence1	MetaGeneAnnotator	CDS	1258897	1259208	.	-	0	ID=MGA_2074;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIVSVFFISFVASGLLLENDYLFTAYLSSDSTIIIVYLLNLPILIQMLRNRKTKRVEIRKIRGAYFAGVFSCSMLILMLALIHYFNILNPIIKGDDLVAPLM;locus_tag=LOCUS_20740;note=MGA_2074
sequence1	MetaGeneAnnotator	CDS	1259215	1259820	.	-	0	ID=MGA_2075;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSYELRVTIEILVSAIVLFLFQIMNTYSSKPGKILQTVLSFLKFIPLLTVLIAGITFFAMGNESSFSPENVKPFKFSNIFMTMVPIMFAFDGFLDSAAIQKDCEHKEVVAPAMMTGIVAVSVFYIVITIAIFMGASDGNILNIFEKVDPRAHFAFNLIITITLLTMVNAYSVIYPLVIRASIEEKFIHSKNGAELSKVKSS;locus_tag=LOCUS_20750;note=WP_164919801.1 APC family permease (Mesoplasma florum) [pid:29.9%25%2C q_cov:70.1%25%2C s_cov:26.1%25%2C Eval:7.0e-16%2C partial hit],internal stop codon at [1259989:1259991](-)%2C[1260085:1260087](-),MGA_2075
sequence1	MetaGeneAnnotator	CDS	1260085	1260258	.	-	0	ID=MGA_2076;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKVNKKNKTKNKIFEFLSVFSMTFGIVVGSGIYLKNAGDNGVLAKAGDNPYLAISI;locus_tag=LOCUS_20760;note=MGA_2076
sequence1	MetaGeneAnnotator	CDS	1260263	1260670	.	-	0	ID=MGA_2077;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIELKEKDQANLNQGFSAFEILKQPKVDINIFKKYIKELNTLSKQQLQTLLILIRFEGYIKKENETIDKFIKLENKQIPKDIDYSKVENIAVEARQKLERVRPNSIGQASRITGVNPADIQMLLFHLKKKYNGV;locus_tag=LOCUS_20770;note=WP_011167160.1 tRNA uridine-5-carboxymethylaminomethyl(34) synthesis enzyme MnmG (Mycoplasma mycoides) [pid:61.4%25%2C q_cov:97.8%25%2C s_cov:21.0%25%2C Eval:5.2e-42%2C partial hit],internal stop codon at [1260752:1260754](-),MGA_2077
sequence1	MetaGeneAnnotator	CDS	1260752	1260904	.	-	0	ID=MGA_2078;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDDLINKGVIEPYRLLTSRAENRLTLRNDNSEIRLKKYGYEIGLITEEE;locus_tag=LOCUS_20780;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:4.9e-16%2C partial hit],internal stop codon at [1260752:1260754](-)%2C[1261124:1261126](-),MGA_2078
sequence1	MetaGeneAnnotator	CDS	1261124	1261825	.	-	0	ID=MGA_2079;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKVVENQKNLELYIGIVKDITLDSTNKVKSVLLEDGNEIFCQSVVLTTGTYLSSLIYRGEEKYESGPNDEITTKSLSQTLVKLGLKTFRFKTGTPPRVKKSSIDLSKAIIEPGTNENLAFSFSTKKFVPFEDQEVCYLIHSTSDTKKIIEDNLYKSAMYSGEIESIGPRYCPSFEDKIVRFNTKETHQIFLEPESKSLDTFYVQGFSTSMPIEIQDKMLRSLPGFENVIVDK;locus_tag=LOCUS_20790;note=WP_011183567.1 tRNA uridine-5-carboxymethylaminomethyl(34) synthesis enzyme MnmG (Mesoplasma florum) [pid:64.1%25%2C q_cov:99.1%25%2C s_cov:36.7%25%2C Eval:4.0e-80%2C partial hit],internal stop codon at [1261124:1261126](-)%2C[1261868:1261870](-),MGA_2079
sequence1	MetaGeneAnnotator	CDS	1261868	1262140	.	-	0	ID=MGA_2080;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHMQADIVVVGAGHAGVEAALAAARLGKKTILVNLYRDKIATMPCNPSIGGPAKGIVVREIDSLGGEMGKAADATALQMKLLNSSRGPGI;locus_tag=LOCUS_20800;note=WP_011167160.1 tRNA uridine-5-carboxymethylaminomethyl(34) synthesis enzyme MnmG (Mycoplasma mycoides) [pid:85.9%25%2C q_cov:78.9%25%2C s_cov:11.3%25%2C Eval:2.9e-29%2C partial hit],internal stop codon at [1261868:1261870](-),MGA_2080
sequence1	MetaGeneAnnotator	CDS	1262157	1262354	.	-	0	ID=MGA_2081;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEVLSVLQKNIIIISYLLKPILVKTYPGMIEQMGLKPELINFNNIKDNFDYDKIINKLVLFERIK;locus_tag=LOCUS_20810;note=WP_011166223.1 methionine--tRNA ligase (Mycoplasma mycoides) [pid:55.4%25%2C q_cov:96.9%25%2C s_cov:12.8%25%2C Eval:4.2e-12%2C partial hit],internal stop codon at [1262388:1262390](-)%2C[1262523:1262525](-),MGA_2081
sequence1	MetaGeneAnnotator	CDS	1262523	1262774	.	-	0	ID=MGA_2082;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKSIGNVLDPIEIIKKYSSDALRFYIINNLPTDKDGSFTDELFVESFNNNLANNLGNLISRVSNMIIKYFDGQLPKIDISKH;locus_tag=LOCUS_20820;note=WP_011182933.1 methionine--tRNA ligase (Mesoplasma florum) [pid:71.2%25%2C q_cov:88.0%25%2C s_cov:14.3%25%2C Eval:2.0e-25%2C partial hit],internal stop codon at [1262388:1262390](-)%2C[1262523:1262525](-)%2C[1262796:1262798](-)%2C[1262856:1262858](-)%2C[1262922:1262924](-)%2C[1262997:1262999](-)%2C[1263042:1263044](-),MGA_2082
sequence1	MetaGeneAnnotator	CDS	1263042	1263257	.	-	0	ID=MGA_2083;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDETFHHTICGKEAIDFEEETYMLRVSKFQKYLQELFETNFLEPEPRKKEMLNNFINNDLEDLSVTRVSFN;locus_tag=LOCUS_20830;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 [1262796:1262798](-)%2C[1262856:1262858](-)%2C[1262922:1262924](-)%2C[1262997:1262999](-)%2C[1263042:1263044](-)%2C[1263426:1263428](-),MGA_2083
sequence1	MetaGeneAnnotator	CDS	1263426	1263671	.	-	0	ID=MGA_2084;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKTFYVTTPIYYPSGNLHIGHAYTTTLADVVARYKKESGYKVFFLTGSDEHGQKIEQKAKENNLPPKKYVDQIVKNFIDL;locus_tag=LOCUS_20840;note=WP_011166223.1 methionine--tRNA ligase (Mycoplasma mycoides) [pid:72.8%25%2C q_cov:100.0%25%2C s_cov:15.9%25%2C Eval:5.8e-30%2C partial hit],internal stop codon at [1263426:1263428](-),MGA_2084
sequence1	MetaGeneAnnotator	CDS	1263674	1264186	.	-	0	ID=MGA_2085;product=hypoxanthine phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005693468.1;translation=MENQKLITLITEEEIKAAITKAGTDIGKRYEDQQLIIVAELSTSFIFIADLIRELPIDATIQFVTTYNENEELLIDLGLKKTLKGKNVLIANDILNKGTRLEKLYNLVKKEEPANVQILNLIEKNNKERTVHLESTSLFKLEDVFIVGYGLTYNESYRGLKGIYSLSIEE;locus_tag=LOCUS_20850;gene=hpt;EC_number=2.4.2.8;note=WP_005693468.1 hypoxanthine phosphoribosyltransferase (Haemophilus influenzae) [pid:33.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.3e-21],MGA_2085
sequence1	MetaGeneAnnotator	CDS	1264189	1264506	.	-	0	ID=MGA_2086;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTSTINDLVINKDKIELHINEQKGIFYSQRILTYILMKYNFSREEVYDFIQKCTLECQKTKKDFKEILLKNGIKNFISEEKELNDLFDINFFKRNVEKIFRRVMK;locus_tag=LOCUS_20860;note=WP_011182972.1 adenylosuccinate lyase (Mesoplasma florum) [pid:51.0%25%2C q_cov:99.0%25%2C s_cov:24.1%25%2C Eval:3.3e-25%2C partial hit],internal stop codon at [1264591:1264593](-),MGA_2086
sequence1	MetaGeneAnnotator	CDS	1264591	1264935	.	-	0	ID=MGA_2087;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGNYANLEIEIEEYVANAMDLNLDNISTQVTQRDRHAFLISVIANIASTLEKIATEIRHFQRSEVQEICEGFGDKQKGSSSMPHKKNPISSENICGLSRYARSFVNIAFENNVL;locus_tag=LOCUS_20870;note=WP_011182972.1 adenylosuccinate lyase (Mesoplasma florum) [pid:83.3%25%2C q_cov:100.0%25%2C s_cov:26.4%25%2C Eval:1.7e-45%2C partial hit],internal stop codon at [1264591:1264593](-)%2C[1265014:1265016](-)%2C[1265224:1265226](-),MGA_2087
sequence1	MetaGeneAnnotator	CDS	1265014	1265172	.	-	0	ID=MGA_2088;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIQESNKILENVLIKLSEAIKQKAQETKEIIIMGRTHGMYGEPTSLGLKFLL;locus_tag=LOCUS_20880;note=WP_011182972.1 adenylosuccinate lyase (Mesoplasma florum) [pid:57.7%25%2C q_cov:100.0%25%2C s_cov:12.0%25%2C Eval:1.8e-10%2C partial hit],internal stop codon at [1265014:1265016](-)%2C[1265224:1265226](-)%2C[1265383:1265385](-)%2C[1265416:1265418](-)%2C[1265443:1265445](-),MGA_2088
sequence1	MetaGeneAnnotator	CDS	1265224	1265376	.	-	0	ID=MGA_2089;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGVIPKQEADKINSKAKVDFKRMLEIEQETKHDVVAFTRMISENLGSEKK;locus_tag=LOCUS_20890;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:6.2e-11%2C partial hit],internal stop codon at [1265014:1265016](-)%2C[1265224:1265226](-)%2C[1265383:1265385](-)%2C[1265416:1265418](-)%2C[1265443:1265445](-),MGA_2089
sequence1	MetaGeneAnnotator	CDS	1265656	1266726	.	-	0	ID=MGA_2090;product=adenylosuccinate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182971.1;translation=MTDYFAQIADIVVRFAGGDNAGHVINFNGQKHKVTIVPSGIFNKRVTNIIANGCVVNLINLVKEFEIIKKSGIEHGNLLISDRVQLILPYHIKIDEAQEESRGENKIGTTKRGIGPAYQDKASRLGIRLGELGDENFKERFKTVFDYQMKFLKNMFNVEPLDFEKTYNDLISAYNEIKDKITNTEVFIESAIKEGKKVLFEGAQGALLDIDHGTYPYVTSSNTSANNASIGSGISHKLIDSTMGVVKAYSTRVGAGAFPTEMKDTIGDGIRERGNEYGSNTKRPRRVGWLDAVALKHAIRTSGIDSIFITLLDVLSGVEEINICVKYEIDGREIDIVPSTNQKYEKCKPIYMKNPG;locus_tag=LOCUS_20900;EC_number=6.3.4.4;note=WP_011182971.1 adenylosuccinate synthase (Mesoplasma florum) [pid:75.6%25%2C q_cov:100.0%25%2C s_cov:83.0%25%2C Eval:4.7e-157],internal stop codon at [1265656:1265658](-)%2C[1266748:1266750](-),MGA_2090
sequence1	MetaGeneAnnotator	CDS	1266799	1267359	.	-	0	ID=MGA_2091;product=aminoacyl-tRNA hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182974.1;translation=MSKLIVGLGNPGNNYSSTRHNAGFIAIDVLLEKYGFQKQTEDFKSKIYFSNIKGEKVLFVKPQTFMNLSGEAVISIMSYYKIDIKDFIVIYDDKDLEFSNIRFKNNGSSAGHNGIKNIISHLKTENFNRLKIGIGSPGQYKIVDWVLSKMNVEEINLIKEKIKNISNFVEDFILENDLNKIMNKFN;locus_tag=LOCUS_20910;gene=pth;EC_number=3.1.1.29;note=WP_011182974.1 aminoacyl-tRNA hydrolase (Mesoplasma florum) [pid:55.1%25%2C q_cov:98.9%25%2C s_cov:99.5%25%2C Eval:4.7e-53],MGA_2091
sequence1	MetaGeneAnnotator	CDS	1267361	1268398	.	-	0	ID=MGA_2092;product=ribose-phosphate diphosphokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_020863017.1;translation=MNKKEIMIFGLSSNQSLTKKICDILGVQQSEAKTSKFLDGEMIVQSLDSVRGQEIYIIQSTNQPVNDNLMELLIAVDAFKRASAARINIVIPYFGYARQDRKARGRQPITSRLVANLIETAGVHRVITVDLHSAQIMGFFNIPIDNFSTAQIVASEIIDTIISEKLDPENCILVSPDHGGLTRVHGVAKYTGNITNGIAVIAKRRPEPNKAEVEFILGDVKDKTCFIIDDMIDTGGTIIKGAEALKEQGAKEIYIIACHGLFNGEAVSKMEKVINDGTVKQVVVTDTIEISEERKFKNLKIISVSNLLARMIKNSYEESSLTGVYNAEQNEIVKRVEKYLKEFKK;locus_tag=LOCUS_20920;EC_number=2.7.6.1;note=WP_020863017.1 ribose-phosphate diphosphokinase (Mycoplasma mycoides) [pid:63.5%25%2C q_cov:98.6%25%2C s_cov:98.8%25%2C Eval:6.3e-127],MGA_2092
sequence1	MetaGeneAnnotator	CDS	1268623	1269213	.	+	0	ID=MGA_2093;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLVFLENLTHANGGKKLYDNTSFRLNRGEHIALIGPNGAGKTTLLNIIAGKMLADKGELKIHSKTKIGYLDQHQEVNLEETVDSYLKGAFSELFELESRMNKIYEDMAIEYKEEDLVKALAYQDTLTLNEFDSIDKKIGNLVTGLGIGLEKLEAKMGELSGGQRGKVILAKLLLSGDDFLLLDEPTNFLDLEQVK;locus_tag=LOCUS_20930;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:1.3e-67%2C partial hit],internal stop codon at [1269211:1269213](+),MGA_2093
sequence1	MetaGeneAnnotator	CDS	1269253	1270119	.	+	0	ID=MGA_2094;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVSHDNDFINKTCGIIYALDNLKLTRYVGNYDKYLEEAELQKEQYDKAFISQQREIKKLETYVAKNKARASTAKSAQSRQKQLEKIDVMKERRDLTKPKFSFSYKRPSTNVIVKAENLIIGYDSPLLHALNFELREGEKCIISGKNGIGKTTFLKTLSTEIPSFEGEVKLGTAVEYAYFKQIEDVKGITPIQYLMNKFEDITDSEARSKIAQFGVKSGLMMQPMEKLSGGEQTRIRLAALSMIPCSLLVLDEPTNHIDVLAKEALLEAIESFKGTVILTTHDINFSTN;locus_tag=LOCUS_20940;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:1.4e-97%2C partial hit],internal stop codon at [1269211:1269213](+)%2C[1270117:1270119](+),MGA_2094
sequence1	MetaGeneAnnotator	CDS	1270184	1270342	.	+	0	ID=MGA_2095;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKEFDSSCFKCVEEMQKSKQGGAAASILATKMQQNVANQDLDSIHVCKRHA;locus_tag=LOCUS_20950;note=MGA_2095
sequence1	MetaGeneAnnotator	CDS	1270485	1271030	.	-	0	ID=MGA_2096;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIKSFAKVNINLKVRKRKKHLHKIYSIFTIVEDFYDEIKIEKSKENKNIIICNIKELESDNYIFKVLKILKEEGIVDCFYKISIKKNIPIGSGLGGGSSNAVAVAKYFTKDKKILSKIAKQIGTDCYFFINDYKTAIVKGYGNKIKKSKKETIIRFKDLILTGINCSTKEVYKKFDEIKA;locus_tag=LOCUS_20960;note=WP_003021712.1 4-(cytidine 5'-diphospho)-2-C-methyl-D-erythritol kinase (Francisella tularensis) [pid:28.0%25%2C q_cov:97.8%25%2C s_cov:66.2%25%2C Eval:8.2e-07%2C partial hit],MGA_2096
sequence1	MetaGeneAnnotator	CDS	1271024	1271821	.	-	0	ID=MGA_2097;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=MEFAKKKFGQNFISDKNLIKKIIDILNQDPNHLIIEIGPGRGALTKELVNRFKKVIAIEIDYDMETILKSEIDSDKFELIINDCLEVNFKEIIKENKFNRVSLISNTPYYITSEIIFKTLKISKLLDKAIFMVQKEVAQRICAKPNENNYNNLSVATQLYSDVKYEFTVNKNMFKPIPKVDSAIISFEFNDINLNKVKDDIKFIAFVRKIFNNKRKTILNNLTNITNNKQTSLNILTKLNIKENLRPENITLDQFIEIYNEVISC;locus_tag=LOCUS_20970;gene=rsmA;EC_number=2.1.1.182;note=WP_011166215.1 16S rRNA (adenine(1518)-N(6)/adenine(1519)-N(6))-dimethyltransferase RsmA (Mycoplasma mycoides) [pid:57.9%25%2C q_cov:97.7%25%2C s_cov:97.4%25%2C Eval:1.2e-81],MGA_2097
sequence1	MetaGeneAnnotator	CDS	1271985	1272362	.	-	0	ID=MGA_2098;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLMKIKQVVIVEGSTDTSKLKKIFGNSNIDTIETNGTALSKNTLNLIADVNKTRGVIIFTDPDGPGLRIRDIINTYLDFKCFNAFINKKMIKNSKKVGIAEANEENIREALSNLITFDSNSLSIT;locus_tag=LOCUS_20980;note=WP_011166214.1 ribonuclease M5 (Mycoplasma mycoides) [pid:53.7%25%2C q_cov:97.6%25%2C s_cov:68.9%25%2C Eval:2.9e-29%2C partial hit],internal stop codon at [1271880:1271882](-)%2C[1271916:1271918](-)%2C[1271985:1271987](-),MGA_2098
sequence1	MetaGeneAnnotator	CDS	1272490	1273455	.	+	0	ID=MGA_2099;product=rod shape-determining protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000575569.1;translation=MALDLGTANVVAYLGGQGIIYNEPSTMAYDVHTNTVIASGEQAYEMIGKTKDDIRMVVPLVDGVIADLDAAKDLIKIIFSRIKLSDILKNALVVLACPSGVTELERSALKQVVADMGARNVLVEEEVKLSAIGAGINISIASGHLVVDIGGGTTDIAIISAGDIVISRSIKVAGNHFDEEIRKYIRAEYNVLIGIKTAEKIKIEIGALTKIDNGRTFRAFGRDVISGLPREVIISPDEVKNALLAPFSKITDLIVEVMENTPAELAGDIIRNGITICGGGALIRGIDTYFESIFQLKVIKAQDPLLTVIEGTKEYEKQAEK;locus_tag=LOCUS_20990;note=WP_000575569.1 rod shape-determining protein (Leptospira) [pid:40.0%25%2C q_cov:98.1%25%2C s_cov:92.6%25%2C Eval:7.3e-66],MGA_2099
sequence1	MetaGeneAnnotator	CDS	1273667	1274200	.	+	0	ID=MGA_2100;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGTANSKAKRHIAIDIGTSKTRIFIEQLGMVFNEASLIGIDYKTRKVVLIGDEAKKFVGKMSGAMEIKHLLKRGVLSDLNLLKTFLSTVLSKYQNEIKNSIVTLACPISISILERNALIDSIKSLGVSHVIIQDDIKLALMGAGVNIYGSDSYMCLDMGAGKSTIGIVTNGETINYK;locus_tag=LOCUS_21000;note=WP_000577765.1 rod shape-determining protein (Helicobacter pylori) [pid:26.8%25%2C q_cov:90.4%25%2C s_cov:48.1%25%2C Eval:7.7e-15%2C partial hit],internal stop codon at [1274198:1274200](+),MGA_2100
sequence1	MetaGeneAnnotator	CDS	1274306	1274680	.	+	0	ID=MGA_2101;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGSIVKSKEPLKTKAYGYDLSSSRPSEIEVQDKDISKIILSVFGNISNTITSLLEETQSEIAGDIIKNGLIVTGGLSKIPGTKLFFENFFEIPVIIAKNAASSTIEGAIKHKDITFKLIEERSR;locus_tag=LOCUS_21010;note=MGA_2101
sequence1	MetaGeneAnnotator	CDS	1274814	1275683	.	+	0	ID=MGA_2102;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNILINKIKLIIKNSIEKLNLKGTIIVERPKLVQNADFATNFALINAKLNSSNPIQIAEKIVNDIKDNELFESVEFIKPGFINFKINKVFLSEVIEQIIKEGNNFGKSKSKNEKYNLELVSANPTGYLHVGHARNGAIGDSVAKILKFAGYDVETEYYTNDAGNQINISAATLFYHYKKILNLPVEKPEETYGGDMYNEIAQKFVDEYKDEFKDVEIVDNKINDEKVNNIFKQKSIELFMKEIKKQLKDLDVNIDFYSSEAKMYENNSINKIIDKYKKLDASYEKDNAL;locus_tag=LOCUS_21020;note=WP_011183452.1 arginine--tRNA ligase (Mesoplasma florum) [pid:45.3%25%2C q_cov:96.2%25%2C s_cov:50.3%25%2C Eval:1.3e-68%2C partial hit],internal stop codon at [1275681:1275683](+)%2C[1275822:1275824](+),MGA_2102
sequence1	MetaGeneAnnotator	CDS	1275909	1276469	.	+	0	ID=MGA_2103;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIQMVRLMKDGQEYKMSKRRGTAVWLVDLLEMVGKDAIRYMLVSKTPSSHMEFDLDMAVQRNSTNPVYYAQYATARCNKIIKSFNNLNLKVNKEIIYESQKEKELIILLDSFNSVIEYAASSRLPNIVCDYIQTLAKTFHSYYSETKILDNNNEQLSNQRILLVKSIYQVLSNAFNLIGIEVKDSM;locus_tag=LOCUS_21030;note=WP_011183452.1 arginine--tRNA ligase (Mesoplasma florum) [pid:58.0%25%2C q_cov:100.0%25%2C s_cov:34.0%25%2C Eval:1.6e-61%2C partial hit],internal stop codon at [1275681:1275683](+)%2C[1275822:1275824](+),MGA_2103
sequence1	MetaGeneAnnotator	CDS	1276593	1277576	.	+	0	ID=MGA_2104;product=cell shape-determining protein Mbl;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003227776.1;translation=MANKKPTFVSMDLGTANTLVYIAGQGIVYNEPSIVAYRIKENKIIAVGEEAYKMIGKGNKTIRVVRPMVDGVITDIRATEAQLRYIFSKLRITKQLKHSIMLLACPSVITELEKTALKKIAVNLGADQVFVEEEVKMAALGGGVNIYAPTGNLIVDMGGGTTDIAVLASGDIVLSKSIKVAGNYLNDECQKFIRSQYGLEIGSKTAESIKVNVGSLAKFPDERRMKVYGRDVVSGLPREIEITPEEVREVLKVPVSRIIDLTVQVLEDTPPELAGDIFRNGITICGGGALIKGIDKYFADTLQLPTKIGEQPLLAVINGTKKFESEI;locus_tag=LOCUS_21040;gene=mbl;note=WP_003227776.1 cell shape-determining protein Mbl (Bacillus) [pid:46.2%25%2C q_cov:95.4%25%2C s_cov:93.7%25%2C Eval:1.2e-76],MGA_2104
sequence1	MetaGeneAnnotator	CDS	1277781	1277927	.	+	0	ID=MGA_2105;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKEIIKLSRKDEITYDLISEIVYKFFTYEGKSILKGADYRISKNERV;locus_tag=LOCUS_21050;note=MGA_2105
sequence1	MetaGeneAnnotator	CDS	1278314	1278601	.	+	0	ID=MGA_2106;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIDERTFIALDLGTSNILAFVGKQGIVYEEPSIMAYDNVSNTLVALGTDAYNMIGKTHENIRMVVPIKDGVIKDLDAAKDMLKHVFSKLKMLND;locus_tag=LOCUS_21060;note=WP_003644658.1 rod shape-determining protein (Lactiplantibacillus) [pid:47.6%25%2C q_cov:88.4%25%2C s_cov:25.2%25%2C Eval:1.8e-18%2C partial hit],internal stop codon at [1278599:1278601](+),MGA_2106
sequence1	MetaGeneAnnotator	CDS	1278683	1279372	.	+	0	ID=MGA_2107;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGADIVVVEEEVKMAALGAGINIDVPKGNIVIDIGGGTTDIAIISAGDVIISRSIKMAGNAFDEEIKKYIKSEYNVTIGDRSAEDVKKELGSLTKYKGERTMSVFGRDIISGLPKEAVLSSEEIRNVLVNAFSRITDLLIELMENTPPELAGDIISNGFTICGGGSLIRGIKEYFNGIFSVPCHISPNPLTGVIEGAKVFQKTLNDRIENDYYGKNAKSLKKSSQTSYL;locus_tag=LOCUS_21070;note=WP_005902246.1 rod shape-determining protein (Fusobacterium nucleatum) [pid:41.3%25%2C q_cov:85.6%25%2C s_cov:57.3%25%2C Eval:1.4e-40%2C partial hit],internal stop codon at [1278599:1278601](+),MGA_2107
sequence1	MetaGeneAnnotator	CDS	1279408	1280202	.	-	0	ID=MGA_2108;product=TatD family hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011182944.1;translation=MAGIFDTHTHFNDVVYKEKEFEVSDMISEAKIIGVSNFCCVGFDIKSSREACKYALKYPNVYAAVGIHPNDVNKFTLEDLDEIDTMAHGENVVAVGEIGLDYYYTSEDKEVQKKFFREQIKIALKNDLAVMMHIRDKDDSDQAYLDALEILDELKVERAIVHCYTRGIELAKKFTSRGYLISIPGVVTFKNATSLHETVEKLSLNEIIVETDAPYLTPEPKRGKLNMSKNIVYTIEKIASIRKINKADVIEATTSNAMKVFNLE;locus_tag=LOCUS_21080;note=WP_011182944.1 TatD family hydrolase (Mesoplasma florum) [pid:47.9%25%2C q_cov:98.5%25%2C s_cov:97.7%25%2C Eval:7.3e-63],MGA_2108
sequence1	MetaGeneAnnotator	CDS	1280212	1281564	.	-	0	ID=MGA_2109;product=tRNA uridine-5-carboxymethylaminomethyl(34) synthesis GTPase MnmE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166295.1;translation=MKINLNDTIVACATKVSRQAISIVRLSGEQSIEIVNKIVNKKLNENNKMQLRKIYDNKDIIDESLILTFEQGKSFTGEQVVEIQCHGGVLLTNKIISLLIEHGARPAKPGEFSQRAYLNGKINLIQAESINNLIDSKNELTLKISALNLEGKNNKSLLDMKNKLIDLISKIQTSIDYPDYDDVEGASVEEIKVELLNLQNEVLEVLETSKRFNFLNSGINTLIIGETNVGKSSLLNALISEEKAIVTDIEGTTRDIVEGQLNFENFTLNLIDTAGIRKTKNEVEKIGIEKSFSLINTSNLILFVVNKSKINYEIYEKIKDKKHIVVLNKVELLKNEEIKEIQKEFKNLVTVSALKGQVKNLIQKIEEEFNNGDLLESEVPILSNAFHIEMFKNILKLLKNSLKNINEGFTTDLINIDLYEILKILNNLLGIYDADEEVIDNIFRKYCLGK;locus_tag=LOCUS_21090;gene=mnmE;note=WP_011166295.1 tRNA uridine-5-carboxymethylaminomethyl(34) synthesis GTPase MnmE (Mycoplasma mycoides) [pid:50.8%25%2C q_cov:99.1%25%2C s_cov:99.6%25%2C Eval:1.2e-123],MGA_2109
sequence1	MetaGeneAnnotator	CDS	1281615	1282037	.	-	0	ID=MGA_2110;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFLNEQLSKISNIKIISIFYMKSKNKNIICYDSKFELDISLKNSFINLIKTLFKIKLDMIINFDFVNFNIANKNIHSYDIFELKKNINNVLRTKEEVILPSYPKKIRKNINEILRKYDKIKARTTGLVGERKIRIIYKP;locus_tag=LOCUS_21100;note=MGA_2110
sequence1	MetaGeneAnnotator	CDS	1282513	1282788	.	-	0	ID=MGA_2111;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQGLQAKQAEIQEKYKNSSDPSAKQKQQMELMSLYKREGISPMSSIATSFLSMPFLFAMFAVVRATHALKVATVGQITLVEVPFEQLKQGN;locus_tag=LOCUS_21110;note=WP_011167185.1 membrane protein insertase YidC (Mycoplasma mycoides) [pid:52.7%25%2C q_cov:100.0%25%2C s_cov:23.0%25%2C Eval:1.5e-22%2C partial hit],internal stop codon at [1282303:1282305](-)%2C[1282513:1282515](-)%2C[1282813:1282815](-)%2C[1282957:1282959](-)%2C[1283020:1283022](-),MGA_2111
sequence1	MetaGeneAnnotator	CDS	1283371	1283700	.	-	0	ID=MGA_2112;product=ribonuclease P protein component;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011183578.1;translation=MKNINIIKKNHEFQSIIGNKKFIKTKGFIIYFKNNNLDRFRYGISVGKKIGNAVLRNKIKRQIRSMVYELLNEQKNKNYDVVLMARAMILNKNYENNLEELRKSLLLIK;locus_tag=LOCUS_21120;gene=rnpA;EC_number=3.1.26.5;note=WP_011183578.1 ribonuclease P protein component (Mesoplasma florum) [pid:49.5%25%2C q_cov:94.5%25%2C s_cov:93.6%25%2C Eval:1.2e-22],MGA_2112
##FASTA
>sequence1
ATGACTAACACAATCTTATGAAAAGAAATTAAAAAATGACTAATTTCTTCGGACTTAATAGAGCCAAATGTATATGAAGAGTATGTTAAAAACGCTTCAATTGAAGATCTTTCTGATAATCAAAAGGCTATTGTTGTCAACAAAGATCTTTCAAAATATTATTTAGAAAATATTGGTAATGAACTTAAACAAAAAATAAGTAGTATTTTGGAAAAAGATACTACAATTGTCTTTTTATCAAAAGAAGAATATAAAAAAGAAAAAAAAATAAATGAAATTATTACCAATAAAAAGAAAAATAATAATGGAAAAGAGTTTATATTTGATAGTTTTATTTCAGGAAAAAGTAACAGTGAAGCTTATAATGCTTCAAAAGCAGTTATTAATAATTTAGGAAATAAATGAAATCCTTTATTTATTTACGGAGATTCAGGGCTAGGAAAAACTCATTTGCTTAAGGCTATAAGCAATGAATTGAGCAATATAAACAGTGATCTAATTGTTAAATATTATGCTTCAAATGACTTTAGAAGAGAAATATTAGATTCATTATTAGGTGGTTTTAAAGAAATAGAACAAACTAAAAGTGAAATGACTGAAATAGATGTGTTATTAATTGATGATATTCAATTTTTGGCAAACAGCGGTAAAACAAATGAAATTTTCTTTAATATATTTAATACTTTCATAGAAGAAGGAAAACAAATAGTAATTTCCTCAGATAAATTCCCTGAACTTTTAAATGGTTTTGATAAAAGACTTGTTTCAAGATTTAATCAGGGTTTAAGTGTAAAAATTGAAACTCCAGATTTAGATACTGCATTAAAAATAATTGAATATAAAATGCAAGTAGCAAATTTAAAACTTGGAGAAGATTCAAAAAAGTATATCGCATCTCATTTTGGATCAGATGTTAGGAAAATCGAAGGAATTATTAATAAAATTGAGTTTAAATTAATTCAAGAAAAGGAAACTATTAATGAAATTATTGAATTAGATACAATTCAAAAGTTACTTGAAGATTATTCATATGCTCCTGGAGGAGAAATAACTGTACAAAAGATTAAAAATGTTGTTGCTCAAAACTATGGTGTTAATGTTAAATCAATTGATGCTAAAAATAAAGTATCAAGTGTTGTTCTTGCAAGACATGTTTCAATGTATTTAACAAATGAATTAATGAAAAAAAACTACTCAGAAGTTGGTATTTTATTTGGTGGTAAAGACCATACAACTGTAATTAATGCATGTAATAAAATTAAAAAGATAGTTGCTGAAGATAAAATTTTTAAAGCTACTATAAATAAAATTAAAAAGGAAATAACTTCTTAATTTTATTAAGAGTTAATAAGTGATAAGATTAATTTATATTTCTCTTTATTTGTTTAGCTTATTTAAAGTTATCCACAATTTAAGAGCATAATAATAATATAAATAATTATTAATAAATATGGAGGTATTTAAATGTTTTTTAGTATAAATAGATTAGTGTTTATAGAAGAAATCAATAAATGTAATAGAATTATTGATGCAAAAACACCAACACCTAGTTTATCTGGAATTTTATTAGAAGTTGAAGCTGACAAAGTATCGTTAATATCTTCTAATACTTCTATGTCTATTAAAACAATTATAGATATAGGAACTAGTGATTTATTAATTAAAGAAACTGGTTCAATTTTAATAAGAGGAAAATACTTTATTGAAATTTTAAGAAGAATGGATGATGAAACTATTAATATTTCAAGTGTTGAAGATAATCTTGTTTTTTTATCAGGAGAAAAATCAGAATTCTCACTTAATATTTTAAATTATACTGATTATCCTTTAATTGCTTTTAGAGAAAAAGGAAACACTGTAGTTGTTAATAATATGGATCTTAAAAAGAGTCTTAATCAAACAATCATCTCGGTTAATGAATGAAATCAGAAAATAGTATTAGCTGGATTAAATTTTTCATTAGATGATTCAATGTTTTATATTACAGGAACAGATGGTTTTAGAGTTTCAAGAAAAAGAACTAATATATTAGATAAAATTCCTGAAAAATTTGAAACAAATATTCCTCACAAAAGTATTTTAGAAATTATTAAGTTACTTCCTGAAAAAGGTGAATGTAAAATTGTTTCAACAGAAAGTCATGTTACTTTTATAATTAATAATACAATCTTTCAAACTATAATATTAGAAGGACAATTTCCAAATGTGAATGCAGTGTTTCCAACTGATTTTAATACAACATTATATATGGAAAATAAGAAATTCTTTAAATTAATCTCTAGAGCAGATATTCCAAGTGAAGATAATGCTTCAACAGTTGTAAATTTAATTTTAAACAATGATAGTATTTTTATTAAATCTAATATTCATCAAATAGGAAGTTTTGAAGAAGTTTTTAAAGACTTTGAATTAAAGGGATTGGATGAACAAAATATTTGTTTTAACTCGAAATATTTAATTGACTCTTTAAAAACTTTTGAAACAAAAAATATAGAAATTAATTTAATTGATTCTAAAAAGCCAATAGTAATTTCTTCATCAGAAGATATTAACCTAAGTCAAATAATATTACCTATGTTTTCAAATTAACTCATAACTAGACTACATTTTTGACTGACTTAAATGATATAATTAAGTTTGTGAGAGGTATTTTATTATGGAAAATAATAAGTATGGAGCTGGCCAAATTCAAGTTCTTGAAGGGCTGGAAGCTGTTAGAAAAAGACCTGGTATGTATATTGGAAATACAAATAAAGCAGGTCTTCATCATATGATTTGAGAAGTATTAGATAACTCTGTTGATGAAGCATTAGCAGGTTTTTGTAATGAAATATCTATTTTTATAACTGAAGATAATGAAATTATAATTCAAGATAATGGTAGAGGTATTCCAGTTGATATACATCCTAAAACTGGAAAAACAACTTTAGAAACAATTTTTAATGTTTTACATGCTGGTGGTAAATTTGATGAGTCTACTTATAAAGTTTCAGGTGGACTGCATGGAGTTGGAGCATCAGTAGTTAATGCACTTTCTTTGTATGTTGAAGCAATGATTTTGAGAGATGGAAAAATTTATTATCAAAAATTTTCAGAAGGTGGAACTAAAGCAACTGAAATTGAAGTGATAGGAATTTCGGACTCAAATGGTTCAATTATTAAATTTAAACCAGATCCAGAAATTTTTAAAGAAACTACAGAATTTGATTTTAAAGTAGTTCAAGGAAAAATTAGACAATTAGCTTTTTTAAATAAAAAACTTAAATTAAATTTATATGATCAAAGAACAGATAAATATATAAGCTATATTTTTGAAGATGGAATTAAAGATTATATAAAAGAAATTAATAGTGGAAAAGAAAAAGTACATGATGAAATTTTTTATGTGTCTAGTAGTTCAAATGACATTGAAGTTGAAGTATCAATTCAATATAATGAAACATACGATGAAAATGTATTTTCATTTTGTAATAATATTTTTACATCTGAAGGTGGTTCACATGAGGAAGGATTTAAAAGTTCACTTATAAAATCAATTAACTCATATGTAAATGACTCAAAAAGTTTTAAAGGTAATAAATTTACTTGAGATGATTTAAAAGAAGGAATTGTTTCTGTTATTTCTATAAAACACAGAGATCCATTATATGAAGGACAAACAAAAGCTAAACTTTCTAATAATGATGCTAAAGATGCAGTCTCAGATGTTTTAAATGAAGCATTTAAAGAATTTTTATTAAAAAATCCTAATGATGCCAAAAAAATAATAGAAAAAGTTTTAATTTCTCAAAAAGCAAGAAAAGCAGCACAAAGAGCTAGAGAAGATACAAGAAGAAAATCTGCAATCGATAATTTTTCACTTCCAGGAAAATTAGCTGATTGTGAATCTAAAGACATAGAAGAATGTGAACTATATTTGGTTGAGGGAGATTCAGCTGGTGGAAGTGCAAAAACAGGTAGAAATAGAAAAACTCAAGCTATACTTTCTCTAAGAGGAAAAGTTTTAAACGTAGAAAAAGTAAAACAATCAAAAGTATTTGATAATAATGAAATTCAATCAATTATAGCAGCAGTTGGTATTGGTGTTAAAAAAGATATTAATCTTAAAAAACTAAGATATGGAAAAATAATAATTATGACTGATGCAGATGTAGATGGAGCTCATATTAGAGTTTTACTATTAACATTCTTTTATAGATATATGAAAGAATTAATTTTAAATGGAAATGTATATATTGCTCAACCTCCTCTTTATAAAATTGATGCTGGAAAAAATAATATGGATTATGCATATAACGATATGGAATTAGAACAACTAAAAGTAGAAAAATATAAAGATTTAAAATATACAATTCAAAGATATAAAGGACTTGGAGAAATGGATCCAATTCAATTGTGAGAAACAACAATGGATCCAAATAGAAGAACAATGATACAAATTAAAGTAGAAGATGCTTTTCTTGCAAATGAAGTTTTCTCAAGTTTAATGGGAGAAAATGTTGATTTAAGAAAACAATTTATTACTGAAAATGCTCAATTTGTAGAAAATATAGATATTTAAAAAAAAAAAAAAAAGAAGGTGAAAAAATGAGCGATATTAAGCATGGCCGTATTTTGGAAATGGATATTAAAAATGAAGTAGAAAAAGATTTTTTAGAATATTCAATGAGCGTTATTGTTAGTCGTGCTCTTCCTGATTTAAAAGATGGTTTAAAGCCAGTTCATAGAAGAATTATTTACGCTATGAATGATTTAAAAATAACATCAGATACACCTCATAAAAAGTCTGCACGTATTGTTGGAGAAGTTATAGGTAAATATCATCCACATGGAGATACTTCAGTTTATGAAGCTATGGTAAGAATGTCGCAAGATTTTTCATATAGATATCCTCTTGTTGAAGGACATGGTAACTTTGGGTCAATTGATGGTGATGGAGCTGCTGCTATGCGTTATACTGAAGCAAGACTTGCAAAAATTGCATCAGTTTTATTAAAAGATATTGATATGGATACTGTTCCATTTGTTGACAACTATGATGCCTCTGAAAAAGAGCCAAAATATCTTACAGGTTATTTTCCAAATCTTTTAGTAAATGGAGCAACTGGTATTGCAGTTGGTATGGCAACAAATATACCACCTCATAATTTAAGAGAAGTTATTCAAGCAATTGTTGCTTATATTAAAGATGATCAAATTACTATTGATGATATTTTAAAATACATTAAAGGACCAGATTTTCCAACAGGAGCTTTAATGACAAATGGAAAAAGCATGATTGATGGTTATAAAACTGGTAGAGGTAATTTAATTATTAGATCTAAAATTGATATTGAAGAAACTAATAAAGGTCAAAGAATTGTTATTAGTGAAATCCCATATCAAACTAATAAATTAAAAATTGTTGAAAAAATAGCAGAACTTTATAAAAATAAATTGATAAGTGGAATATCAGATATTAGAGATGAATCAAACTATGAAGGTATTAGAATTGTAGTTGAACTTCAAAAGAATTCTAATCCACAATTAATTATTAAAAAGCTATATAAGTATACGAATTTGCAATCAAGTTTTGCAATTAATATGTTGTCTTTAAATAATGGAATCCCTGTTGTTTTGAACATAAAAGATATAATTAAATTTTATGTTAAATATCAAATCGAAATTATTGTTAAAAGAAGTATTTTTGAAAAAAATAAATTAAATGCAAGATTACATATTTTGAATGCAATTAGAATTACTTTGGATAATATAGATAAAATTATAAAAATAATTAAAGAATCTAAAACAACTGAAATAGCACATCAAAGATTATTTGAAGAATTTGGTTTTGATGAAAAACAATCAAAAGCAATATTAGATATGAGACTTCAAAGATTAGTTGGATTAGAAAGAGAAAAAATTGAACTAGATATTAAAAATATTGAAATAAGAATTTCTGAGTTAGAAGAAATTTTAGCATCAAAAGAAAAACAAAATAATCTTTTAATTGAACAACTTGAAGATATTGCTCAAAAATTTGGAGATGAAAGAAGAACAAAAATTATTGAAGAAGATGAAACTCAAATTGATGAGGAAGAGTTAATTCAAGACTCACAAATGTTAATTACTCTATCTGAACAAGGTTATATTAGAAGATTATCTAATGAGGAGTTCAAAACGCAAAAACGTGGTGGTAAAGGTATTATCATTAACAACAACCAAGATGATAATCTTGTTATAGCTAAAATTGGTAAAACTAAAGATGATGTTTTATTTTTTACAGACGAAGGAAAAATTTATAGAATCAAAGGTTATAATATCACTCAATTCTCAAGAAATGCTAGAGGTGTACCAGTAATTAACTTTATTGGAATAAACTCTTCTGAAAAAGTAACATCGATACTCTCACTAAAAGATAAAAAAAATGTTTATAAATATTTATTATTTGTAACTCAAAATGGAGTAGCAAAAAAAGTTGAAATTAACGAATTTAGCAGAATTAATAATTTTGGAAAAATTGCAATTAACTTAGATGAGGGAGATAAACTTGTTTCAGTTATTCCTACTGTTGGAGAAACTGAAATTTTAATCGCATCTCAAAATGGAAAAATAGTTAAGATAAATGAAAATGTATTTAGACCAATGTCGAGATCCTCAAGAGGAGTTAAGGGTATGGGACTAGATAAAAATGATATTGTTGTATCAGCATGCTCTAATTATAAAAATGAGTGTATAGCAACAATATCGGAAAAGGGTATTGTAAAGAAAACACTTATAAGTGATTATAACATTTTTGGTCGTGGTACTAAAGGTGTTGTTGGAATGAAATTAAGCAATAAAACTGGTAAATTTAAATCAATTCTTCCTATTAGAGAAACTGATGAAATTTTAATGGTATCTTCAAAAGGTAAAATTATAAAAATTGGAGCTCAAGATATTAATCTTCAATCTAGAAATTCTACAGGAGTTATTGGGTTTAGTTTAGAACATGATGAAAAAATTACAGCAGCAACATTAGAATGAAATAAAGGTGAGTAAAATGTTAGACATAAATAAAATAGAAAATGATTTTGAAAAAATATGTTTAGATCTATCTAAAAGAAATAAAAATTTTAAAAAAGAAATGGATGAAATTTTAAAATTAAATCAACTTAGAAAAAAAATAACTTTTGAAGTTGAGGAATTAAAATCTCAAAAAAATAAAATCTCAAAAGATATTGGAGTTTTTATAAAGGACAATAATCAAAAAGAAGTAGAAAAATTAAAAAATACTATTTCAGAAATTAGCATTAAGATTGAAAAATTAGATGCAAATTTAAAAGAAGTCAAAGATGATTTAAATTTAAAATTAAGTTATATTCCAAATATTCCAAATGAAAACATTCCATTAGGAAAAGATGATGAAGAAAATGTTGAAATTAAAAAATGAAGTTCAAAAGAATTAAAAGTTGGGGGAGAAGCTCATTGGGAAATAGCTTCAAAACTGGGCTTAGTAGATTTTGAATTAGGTTCAAAGTTATCTGGATCAAGATTTGTTGTTTATACAGATAAGGGAGCAAAAATGATTAGAGCTCTTACAGATGTATTAATTACAAGACACACACAAAATGGATATAAAGAAATGTGACTTCCATTAATTGTTAATAAAGAGAATATGTATGGAACAGGACAACTTCCAAAATTTGAAGAAGATGCGTATAAAATAGAAGAACAATATTTAATACCAACATCAGAAGTTCCTTTAACAAATACTGTAAGAGATAAAATTTTGGATAAAAAAGATCTACCACTTTACTTAACTTCTTTTACACAATGTTTTAGAAAAGAAGCAGGTAGTGCAGGAAGAGATACAAAAGGAATGATAAGACTACACCAATTCAACAAAGTTGAAATGGTTAAAATAACAGATAGTAACTCTTCATATGAAGAATTAGAAAAAATGCTATTAGATGCAGAAAACTGTTTACAATTATTCAATTTACCATATAGAGTTGTTGAATTGTGTGGTGGAGATATAGGCTTTTCATCTGCAAAAACTTATGATTTAGAAGTTTGATTCCCTAATCAAAATAAGTATAGAGAAATATCATCATGTTCAAATTGTTTAGATTTTCAAGCAAGAAGAATTATGGCAAGATATAAAACTGATGAAGGAAAAAATGAATATGTTCATACATTAAATGGTTCTGGATTAGCAGTAGATAGATTATTTGCAGCTATTATAGAAAACTATTATGATGGAGAAAAGCTAATTATTCCAGATATTTTAAGACCGTATTTTAATAATTTGGAGTTTATTAAATAATGTTTCACGTGAAACATTATTTTTATTTTTTTTATAAAATTGTTTCACGTGAAACAATTTTATAAAAAAAATAAAAGGTTCAATTTTACTTAAAAAATGTTATTATATATTTGTCATTGTAAGGGTGACGTTCGAATTTGGTCAGGACCGGAAGGTAGCAGCCATAAGAATCTAGTGCCCTGTACAGTGACTTTTTTATTTTTTGGGAGAAAAACAATTTATATGGAATTAATTTTTAATACGCTTTTAAAAGAGCTAAAAAAATGCAGTAAAAGTCAAGATGTACCTGTATCTGCATTATTAATAGATAAAAATAATAAAATAGTAACTAAATGTTTTAATAGTAGACAAAAAAAATACAATTTTACTAACCATGCAGAAATAAGAGTTTTAAATAAAATGTTTAAAAAAACAAAAAATAAAAATTTATCTGATTATACATTGGTAACCACATTAAAACCTTGTTTAATGTGTATTACAGTTATTGAGCAATCTAATATAACAAAAGTACTATATTATCTTGAAAATATAAAATGCAATTATAGTAGATTAGAAACAGATTTAAATTTTAAAAAAATTGGTAGTGATGATGAGGCAAGAACTTTTGAAAAAGAATTAAAAGATTTTTTTTCAAATTTGAGAAAATAACTATGTAAAATATTTATACAGAGGTATAGAATTATGGAAAACAAAAAATCACTTTATAGAGAATATAGACCCAAAAATTTTGATCAAGTAGCAGGACATGAAGGAATAAAAGAAATATTAATATCTCAAATAAACTCAAACTCATTTGGTCATGCTTTATTATTTTCTGGTCAAAGAGGAACAGGGAAAACATCTGTAGCAAAGATTTTTTCTAAGATTGTTAATTGCCAAAATCTAAATGGTTATAATCCTTGTGATGAATGTTTAAGTTGTAATGAGTTTAATAATAATTCACATGCTGATATTTTTGAAATTGATGCGGCTTCAAATAATGGTGTAGAAGAAATTAGAAACATTAAAGCAAATGTATCATTGATGCCTAATTTTTCTAAATATAAAGTTTACATTATAGATGAAGTTCATATGTTATCTAATTCTGCTTTTAATGCTTTGTTAAAAACTTTAGAGGAACCGCCTAAACATGTAATTTTTGTTTTAGCTACAACAGAGTTTTCAAAAATTCCCTCTACAATAATTTCAAGATGTCAATTATTTAATTTTAAAAAAATTGATCAAAAATCTTTAGAAAATAAAATTGAAGAAATTTGTAATAAAGAAGGTAAAAAAATAACAAAAGAAGCTCTTGATGAAATATATTATATGTCTGATGGTTCATTAAGAGATGCATTAAATTACTTAGAACAATCTTTAATAATTTCAGGAGATGAAGTATCCACTGAAATCATAAAAAAAATATTTTATATTGCAACTAAAAATGAAAAAATTAGTATTATTAAAAACGTTATTGATGGAAACTCTAAAGAAATAATTGATTATTTTGAAACATCAAATAATCAAGGAATAGATTTTCAAACTATGACTTTAAGCTTACTTGATATTTTAAAAGAAATAATTGAAGTTAAATTAACAGATGATTATCAGTTTTTATTAAATTTAACTCAAAAGGATTTTGAATATTTTAAAGATAAAGATATAAAAATACTGTTTGAGTTATCAGACAATATTGCTGATTCCTATACAAAGTCAAAAAACTCAAATATAAGTTTTCAATATATTTTAATTAATATATTGAAAACTATATCTAAAAATAAACTTATAAGTGTTGAAAAACAAATTGGTGAACTTTCTATTAATCAATTAAAAAATCAGGTAAATTATGCTGAAAAATTACAAAATAATGAAAATATAAATACAACTGAGAAAATAAATCATATAGAAGAAGCAAATCATATAGAAGAAGCAAATCATATAGAAGAAGCAAATCATATAGAAGAAGCAAATCATATAGAAGAAGCAAATCATATAGAAGAAGCAAATCATATAGAAGAAGCAAATCATATAGAAGAAGCAAATCATATAGAAGAAGCAAATCATATAGAAGAAGCAAATCATATAGAAGAAGCAAATCATATAGAAGAATTTTTTAGTTCTGAAGATGAATCTAAATTTTTAAAACTGCAAATGAAGTTATTAATTTCAGAATCTATTCTTTACAAAAAAAATATTAATTTTTCAAATGATCAAATAATAAATGTTCTTGTTGGTGCAAATAAGCAAATTAGAAGTTATTATGATGAAAAGTTAAGTTTAATTTTAAGTAAAGAGTCTATAAATCAAAATTCAGATTTAATTAAAAATTTTATAATGTTTTTCGGATCAAAAATTACTGCTGCAAGTAATGACTCAATAATTTTAGTTTGTGAAGAAAGAACTATTTCAAAATGAATAAATAATAGATTGCAAAATGAAAAAATTCGAAACTCAGTTTTTAAATATTTTGGAAAAGAGCTAAAAATTATCTCAATAGATAAAAAAAGATGATCAGAAATTAAAATTGATTTTATGGAAAGAAAACAAAATAATAAACTTGAGCCTTATAAAGAAATAAATGTGAACGACTTTTATAATAATTTAATTTTAGAGATTGATGAAAAAGAAAATGAATATTTGAAAAGAGCTAAAGAACTTTTGGGCTCTAAAAATATTAAGGTTGTGAATTAATGGAAAAAATAATAGAGGAATTAAAAAAAATTAATGGAATTAGCAAAAAAGCTGCTGAAAAAATAGTTTTTGATTTAATAATTGATAAAGAAAAAATTAACTCTCTTGAAGAACTACTTGAACAAATTAAAAACACTTATACTGAATGTGAAAAATGTTTCTTTTTTAAAGAAAACAATAAATGTGGTTTCTGTGATAATAAAAATAGAAATGCAAATATTATCTGTGTAGTTTCTACAAAAATGGATGCAATTAAAATTTTGGACAGTAGTTACAATGGATTAATTCATATTTTAAATGGAGAAATAAATTTAAATAAAAATATAGGTCCAGAAAAATTAAAATTGAGTGAATTATTTGTTAGAATTAATAAAGAAATTGAACTATTGTTAGCGTTAAATCTAACCTTTGAAGGAGAAGTTACTTCAAATTATATTGCAACTAAGGCTAAAAGTATAACTGAGAAAATTTCTAGAATAGCAAGAGGTATTCCTTTAGGAGGAGTTATTGATTATATTGATCAAGAAACTCTTAATGATGCTATTCTTAATAGAAAAAAATTAGAGAGTTAAGAGGATAATATTATGATATTTATTTCATTAGAAGGAATTGACGGTTCTGGTAAAACAACAATTGCAAAAATGATAAAAGATAATTTAATTCAAAAAGGATATGATGTTTTACTAACTAGAGAACCTGGTGGAGAACCATTAGCAGAAGAAATTAGAAGAATTATTCTTGATGAAAAAAATAAAATAAATCCATGAGCAGAAACTTTACTATATGTTGCAGCTAGAAAACAACATTTAGATTCAATAATCTTGCCTGCTCTAAAAGAAGGAACAATTGTTATCTGTGATAGATTTATGGATTCTACTTCAGCTTACCAAGGTTATGCAAGAAATATAGGTATGGCAGATGTTACTGAATTACAAAATATAGTTTTAGGTTCAACAAAACCTGATCTAACAATTTTTTTTGATATAACACCAAAGGAATCTCAAATAAGATTAATGAATAGAAAAAGAAGTGCTGATAGAATTGAACAAGAAAATCAAAAATTTCATGAAGCAGTTTATGAAGCATATCAAATTTTAATATCTGAAAATTCAGATAGAATTAAAGTTGTAGATTCTAGAAAACCAATAAGTGAAGTTTTACAACAAGTAGATTTCTTAATTGAAAATGCAATTAATGAAAGAATAAAAAAATAATGAAGAAAAAGGAAGTATTTAAAATTGTTAATGAGATGATAAAAAATAATAATTTTTATCATTCAATAATAATTTCAAGCGAAAATCAAAAAGATTTAGAAAATGTATCATTAGAAATTGTAAGGCAAATATATTGTTCTAATAAATCAATTGAAAATGATAAATGTAACTGATGTTTAAAAGTTATTAATCAAAACAATCTAAATACTCTTTTTATTGGAAATGGTGTAAATAAAATTTCTAAAGAAGAAATTAAAGAACTAATAATAAAGTTTTCTTCAACAGGAATTGAAGATAATAAAAATAAAGTTTATGTTCTAACTAACGGTGAAAATTTAAGTGAAGGTGCATCAAATGCAATTTTAAAATTTTTAGAAGAACCACCTAATAATACTTATGCAATAATTTTAACAAACGATAAAAATCAAATATTGCCAACAATTAGATCAAGATGTAAATTGTTCTCTTTAGAAAATGAAATATTTGAAGAATCTGAGGAGTCTAAAATTCTAAATCTTATATCTAAAAAAGATAGAAATGGTCTTTTTGAATATTTAATAGAGTTTAAGAAAATGAATAAAATTGATATATTGAAAACTCTTAATAGTACATTTGAAAAATCAGTTAAATTGGATTTAAAATATTTACAAGAAATTATTTTAGATACAATAAATGAAATAAAAATATCAAATTATATAAATCTTATTTTAGAGAATTTATTTATAAAAATATATGAGGTAATTTAATGAATGTAGAGAATAGTGTTTTAAATTATAAAGATCTGAAAATAATTCAAAATAATGAAATGTTTAATTTTTGTATTGATTCAGTTCTTCTTGCTAGATTTTGAAAACCTTCAAAAAAGTTTCAAAGTATTATTGATTTTGGAACTAATAATGCAATTATACCTTTGCTTTTATCTAAATATACAAAAGCAAAAATTGTGGGAGTAGAGATTCAAAATGAAGCTTGTGAAATAGCTATAAAAAATATTGAGTTAAATAAACTTTCAGATCAAATTCAAATTATTAATGACGATATTAAAAATTTTGCTAAAAATAAGAATAATGAATTTGATTTATTATTTTGTAATCCACCTTTTTTTAAGGTTGCAAAAAACTCTAATTTAAATAAAAGAAGTGAACTATTAACTCCTGCAAGACATGAAGTTTTTATAAAATTAGAAGAAATAATAGAAAGTGCAAAAATTGCACTTAAAAATGGTGGGCGACTGTTAATGATTCACTTAAGCGAAAGACTTGATGAAATAATATATATACTTAAAAAAAATAATTTTGCTATTAAAAGAATGCAGTTTGTATATTCAAAGAAAAATCAAGATGCTAAAAGAGTTTTAATTGAAGCTATAAATGATGGAAATGATGGTATGAAAATTTTAACTCCACTTTATATTCATAATAGTGATGGAAGTTACAAAAAAGATATTTTGGAAAAGTTCGGTGATTAAATTGTTAGAACAAAATAAAAAATATATTTTGGGACTATCGGGAGGACCAGATAGTGTTTTTCTTTTTTATTATCTTCTTGATAGAGGAATAAAAAACTTTATTGCTTGTCATGTTAATTATAATTTTAGAACTGACTCTAATAAAGACTTAGCTCTTGTAAAAAAAATGTGTGAAAAAAATAATATTAAATTAATATTCAAAAATATTAATCAAAATTATTCTGAATTAAATCAGAATTTTGAATCTTGAGCTAGAAAAATAAGATATGATTTTTTTTGCAAGGAATTAGAAAAAAATGGTGCACAAGCAATTTTAATTGCTCACAATTTGAATGATCATATAGAAACATATTTAATGCAAACTCAAAATAATAAAAAGGTTTCTTTTTATGGTATTAGAGCTGAATCCATTTATGAAAATAAAAAAATTATAAGGCCAATTATTTCATATAAAAAGTCTTTTATCTTGAAATATCTCAAAAGTCAAAATATTTCTTACATAATTGATAGCACTAATTCGGATATAAAATATGAAAGAAATAAAATTAGAAAGAATTTAAGTGAAAAGAGTTTTGATAATTTTATAAAAGAGATTGATTTAAAAAACGAGAAGATTAAAGAATATAACATTAAAATTGACTTACTGCTAAATTCTAAAGAGTTAGATCTATTAAATTTAAATAATAATGAAGAGTGAAACGAGTATTTAATTTTTAGGTTTCTAGAATATAATGGATTAAATGTAGAAATATATTGTTCTAAAAAATCCTTTATTAAAGAAATTATAAAACAATTAAAGTCTAATAAAAGTTTTATAGAAATCTCAAAAGGAAATTTTATTTTAATGAAGGATTATAATAAATTTAAAATAATAAATAAAAAAGAAATAAATATCTTTGAACTTAGTGATTTTGAAGATGAAAACTTTAAAAAATTTCTAATTGATAATAATATTAATGAAAATTCAAATATAATTATTACAAATAATTGAAAGAAATATCAATCTAAACTCTATGTAAATGATAAACTGCTTTCAAAGATTTATAAAAATAAAAAAGTAAATTATTTTGAAAGATACAAAAATGTTTTAATTTTTAATAAAACAAGCAAAATAGTTTTAAATAAAATAGACATATAATGTTAAAATTATTTATGATATTAGAAAAACGGTGAAATAATGAAAAAGAAAAAATCTGCATGATTATGACTTTTATTTATAGCGATGATAATAGTAATAGGAATTGTAATATGACAATTTATTGCTGCAACATCAGATAGACTAAGTTATAGTGATTTTCAGGATTTGATTAATAATAATAGAATAGAAGCTTCAAAAACGAGTGAAAAAATTTATAACTCTTTACATGTTATTTCAGGAGTATATACAAATTCTCAAGGAAATTCACGTAAATTTATAATTACTTTAAATAGTACACAATACAATGATTTATGAAATTCTTCAGAAGCTTTCAAAGTATTGGCACAATCTATTACTACACTAGAACAAGTAAATTCACCATATATGACACTTTTATTTAATTTATTACCAGTGGCAATATTAATGGGATTCTTTATTTGAACATTCTCTTCTATGTCTAAAGGTGGAATGGGCGGAGGAATGTTTGGCCCAGGTAAATCTACAAGACCTAGAGAAATTAAATCAGATGTTAAATTTACAGATGTTGCGGGAATAAATGAAGAAAAAACTGAATTAGTTGAATTAGTGGATTATTTAAAAAATCCAAATAAATATGCACAAATGGGTGCAAGAGTTCCTAAAGGAGTTCTAATGGAAGGTCCACCAGGAACAGGAAAAACTTTACTTGCTAAAGCTGTCGCTGGAGAAGCTGGAGTTGCATTTTTCTCAATGGCAGGTTCAGAATTTGAAGAAATGTTTGTTGGGTTAGGTGCAAGTAGAGTTAGAGATCTATTTAGTGACGCAAAAAAAGCAGCACCTTGTATTATTTTTATTGATGAAATTGATGCTGTTGGTAGAAAACGTAGTGGTGGAATGGGTTCATCAACAAATGAACAAACTTTAAACCAATTACTTGTTGAAATGGATGGGTTTGGATCAAACTCTGGTGTTATAGTTATGGCTGCAACAAACAGAGTAGATGTGCTTGATAGTGCATTATTAAGACCTGGAAGATTTGACAGAACTATCCAAATATCATTGCCAGATATTCGTGAAAGAGAAGATATATTAAAACTTCATGCAAGAAATAAATCAGTTTCACCTGAAATCAATTGAAAACGTATTGCTGAAAGAACTCCTGGTTTCTCTGGAGCTCAATTAGAAAACGTTCTTAACGAAGCTGCTATTCTTGTTGTTAGAGATAAAAGAAAAATGATTACAATAAATGATATTGATGAAGCAATCGATAGAGTTGTTGGTGGTCCTGCTAAAAAATCTAGGGCTATGACTTTACAAGATAAACAAATTGTTTCATATCACGAAGCTGGACATGCATTAATGGGATTAAAATTAGATTCTGCATCAAAAGTTCAAAAAGTAACAATTATACCTAGAGGTAATGCTGGAGGTTATACAATAATGACTCCAAAAGATGAATCAAATTTCTCATCTAAAGAAGATTTATTTGCATCAATAGCTGGTTATCTTGGAGGTAGAGCGGCTGAAGAAATTATGTTTGGTAAAAACAAAGTTACAACAGGAGCACATGATGATTTAGATAAAGCTACAAATATTGCTAGAAGAATGGTTACACAATTTGGTATGTCTTCATTAGGACTTACAAAATATTTGACTATGCAAGAAGAATCATATGGACAAACAAAAGGTGTATATTCAGATGAGGTTGCTTATAAAATTGATACTGAGATAAACATTATTTTAGAACAATGTTATGAAACTGCAATTGAAGTTATTAATAAACATAAAGATGTTTTGGAATTAATTGCAGAATCATTGAGAGTATTAGAAACACTTACAGCTGAGCAAATTGACTATATTGATAAACATAATCAATTACCAAAAGAAGTTATTGAAGAAAAAAATAGAAAAGCAATTGAAACTAAGAAAAAAGAATCAGGAGAAATATTAGAATTTGAACCTGATGAAGAAGTAAAATAAACACTTTAGTAAAAAGTGTTTTTTTATTGTTAAACAAGTATAATAAAATAGTTAAAATTATAAGGAGAATAAATATATGGACATGCAAATTAGAGCTTTAAGTGAAAAAAATAATGTGAAGATTTCAATAGTTGATATTACAGAAGGATTTAATGAAATAGTTAAACTTCAACAAACTAATCCTTTAGCATCTGTTGCTTTAGGAAGAACTATAATTAATAATTCTTTATTAAGTTTATCTTTAAAAGATGGAGAAAAAATGACATCAAATATAAATGGAATGGGATTAGGGGGTACAATTATTGCTGAATTTCAAGATAAAAATTTCAGAGGTTATATTCAAATACCCAATTTTGAAGTTGAGAAAATAGAAAAAGACAATGGTAGTCCCTTATCACAAGTTATAGGAACACAAGGTTTTTTGCAAGTCTCAAGAGATAATGGTGAAAAACAACCATATGTTTCAAGAGTAGAATTAGTTTCTGGAGAAGTAAATTTGGATTTTATGTATTATTTACAAAAAAGTGATCAAATACATTCATTAATAAGTTCAACAGTAAAAGTTGCAGATGATGGAACAATTGAAAAAGCATGTGGAATAATAATTCAAATGTTACCAGGATTTGTTGATGAGAATATTGACTTTATAGAAGAAAAAGTAGGTTCTCTTGATCACTTAGTAAAAACTTTAGTGGGTACAACAAATTATGAAGCTTTAATAAAAGATATTTGTGATGATGCGCAAATTTTAAATGTTGGAGAATTAAAATTCCAATGTACTTGTAATATTGAAAAAGTAATGGATTCTATAAAAATGTTAGGAGAAGAAGAAATTAAAAAAATTATTGAAGAAGGTGAAATGGTAGAAGTAGTTTGTGACTTTTGTAAAAAACAATATAATGTAAAATCCGAAGAAATTAGTAAATAATCTATGATAAAATTAGTTTGGTGTATTTAAGTTCTATATTAGGGAGATTAATATGGAAGATAAAAATTTAAAGCAACCTTCATCAAAAAAAGAAAAAGTTGCTAAAAAGGCTAAAGACACTGCAAGTTTAGAAAAGCCTCGTTTAAGAGAATTTGAACATATTCAGTTACCAGTTGTAACTGAAGAAGGTGTTAAAGGATTAAAACAAAAAAATAAAATCCAAAAGCAAAATACTGCAAAGTATTCAAAACAAATTTTAGAGGGTAAAATAGTTTCTACAACAGGCAATAAACCTGAAATAGAAAAAAATGTTATTGAGTTATACAACGTAAAAAGATGATATGTAACTGGAGATATGTTAACTCCTGTGTTGCGTGGTGTGGACTTGAAACTTGAAAAGGGTAAATTTATTGTAATTCTAGGACCATCTGGTTCAGGAAAAACAACTTTATTAAATACAATCTCAGGATTGGATAAAACATCTGAGGGTGATGTTTTTGTTCTAGGTAATAACTTGTCTTTATTAAAAGACTCACATTTAACAAAGTTCCGTAGAGAAAATGTTGGATTTATTTTTCAACAATATAATCTACTTTCAAACTTAACTGCAAAAGAAAATGCAGAAGTTGGAGAAAATCTAAGTAAATCAAAAGATAATAAAATGTCAATTGAAGAGATCTTTAAAACAATTGGTATGGAAGAACAAATGAATAAATATCCACACCAAATGTCAGGAGGGCAACAACAAAGGGTTTCAATTGCTAGAGCACTAGCTAAAAACCCAGAAATTCTATTTGGTGATGAACCAACTGGAGCTCTTGACGAAGAAATGGGTAGAAAAGTACTAGAAATTTTAGTTGATGTTAAAGAAAAATATAACACAACTGTAATTATTGTTACTCACAATCCAAATATTAGTGAAATTGGAGACACCGTAATTCATGTTAGAAATGGTTTAATTGATGAAATTAAACATAATGCTAAACCAAAAAGACCTTCAGATATTGATTGATCTTAAAAATTTAACTATAAAGCAACTCAATTGCTTTGTAGTTTTTTTATCTTAAAAGGTTTTAAAAAAGTATATAATTATATTTGTTAAAGGTGGGAAAAAATATGCCAATTTTTACTTTCAAAGGTGTAAGCCAAAATGAAGTTAATAAATATTTTGAAAAAATAGAAGAGCTAGCATCAATTATTGATACTGATATTAAAAAAATTGTATTTTGACATGATCCAAGCATATTGATTGCAAATGGTTATGAAAAAAATGCAATTGAAATAAGCATAAAGTGAATAGCAAGACCATCAAAACAAGAAGCAGTTGCTAAACATATTCAAAGTTTCTTTGCAAATATATCTAAAAATATCTATGTAACATTTCGTGAACTTAATAGTTTTTTATATTTAAATGGAGAATGTGTAGGTTAATGAAAATTAAAAATATTGATATTAAAGGTCAAGTCTTTTTAGGTCCTATGGCAGGAACTACTAATGCTGCCTTTAGAATTATTTGCAAAGAAAAGGGAGCATCTTTAGTTTATGCTGAAATGGTTAGTACAGAAGGTTTAGTTCATAATAATCAAAAAACTAAAACTATGATAGAAGTATCTGAATTAGAACATCCTATTACTCTACAAATTTTTGGTTTTGATGTTAACTCATTTGTTGAAGGTGCAAAAATAGTTGAAGAATTTTCAGAATGTGATGTTATTGATATAAATATGGGCTGTCCTGCACCAAAAGTAGCTCTAAGAAGTCAAGCTGGAGCAAATTTATTGAAATATCCAGAAAGAGTTGGAGAAGTAATAAAAGCTGTTGTGAAGAATACATCAAAACCAGTTACTGTTAAAATGAGAATTGGTTGAGATGAAGATAATAAAAATGTTGTTGAACTTGCAAAAATAGCAGAAGCAAATGGAGCAAGTGCAATTGCAGTTCATGGTAGAACTAGAAATCAATTTTATAATGGTAAAGCAGATTGAAGCTGAATTAAAAAAGTAAAGCAAGCAGTTAAAATCCCAGTTATTGGCAATGGTGATGTAACTGATGGACCATCAGCAAAAGCAATGATTGAAGAAACTGGATGTGATGGAATAATGATAGCAAGAGCTGCACAAGGTAATCCATGAGTCTTTAGAGAAATTCAACATTATTTGGATACTGGAGAATTTTTAGAAAAACCAACATATAAAGAGTGAAAAGAAACTGTTCTAAGACATGCAAATCTTTTAATTGAGATGCGTGGAGAAGAGTTTGCAATTAGAGAAATGAGAAAGCAACTTCTTTGATACTTAGGAACATTAGGTAGTGATTTGTTAATAAAAGAAATGAAACAAAAAGCTACTGCTATTGAGTCTTTAGAAGATATTAATAATATATTTGCAATTTATGAAAATAAGAATTTAGGAGAATAAAAAAATGAGTACTAATTTTGAACGAAATTTTTCAGAACAAGAAAACATTAGAAGAAATAAATTAAAAAAGCTAATTGAAAATAATAGAGATCCTTTTATTGAAAATCAATTTAATAGAACTCATTCATTAATAGAATTAAATGAAAAATTTAGTACTTTTTCAAAAGAAGAGTTACAAAAACAAGATAATAAAGTTTTAATAGCTGGAAGAATTAGATTATTTAGAGAAGCTGGTAAAAAAGCTCTTTTTCTAAATATTCAAGATCAAAATTCTTCAATTCAAGTTTATGCAAGACAAGATGAATTAGGAGAAACAGAGTTTGAATACTTTAGAGATTTAGATCTTGGAGATATTATAGGTATTGAAGGAATCATGATGAAAACAGATCATGGTGAACTAACAGTAAGAGTTAAAAATGCAAAACTACTTACTAAAGCTTTGAAACCACTACCAGATAAACATTCGGGAATGACAGACATAGAAGAAAAGTATAGAAGAAGGTATGTTGATTTAATAGTTAACCCTGAATCAAAACAAGTTTTTATTGATAGAACAAAAATTATAAGAACTATGCAAAATATTTTGGATTCTAAAGGATATATGGAAGTTGAAACTCCAATTTTACAATCTGTTAGAGGAGGAGCAAGTGCTAAACCTTTTGTAACACACTATAATGCATTGGGCAATGATTTCTTTTTGAGAATTGCAACAGAATTACACTTAAAAAGATGTATAGTAGGTGGTTTTGATGGAGTTTATGAAATTGGTAGAATTTTTAGAAATGAAGGAATTAGTACAAGACATAATCCTGAATTCACTTCAGTAGAACTATATGTTGCTTACAAGAATATGGATTTTTTAATGCAATTGTGTGAAGAATTATTCAGACAATGTTCTATTGCAGTAAGAAATACAACAAAAATTAATTATGCAGGTCATGATTTGGATTTAGCAAAACCTTTTAAAAGATGACACATGGTAGATGCAATTAAAGAAATTTGTGGAATAGATTTTTGAAAAGAAATGTCTTATGAAGAGGCATGTAAAATTGCAAAAGAACATAAAATAAAAGTTGAAAAACATCATTTTTCTGTTGGTCATATAATTAATTTATTTTTCGAAGAATTTGTGGAAGAAAAAATTATAGAACCAACATTTATTTGAGGACATCCAAGAGAAATATCACCACTTTCAAAATTAAATGAAAAAGATTCAAGATTCACAGATAGATTTGAATTATTCATTATAAACAGAGAATATGCAAATGCTTTTGCTGAATTAAATAATCCAATTGATCAGTATGAAAGATTTGTAGATCAAATTAAAGAAGCAAATGCAGGAAATGATGAAGCAAATGATATGGATATAGACTTTATTGAAGCTTTAGAATATGGTATGCCTCCAACTGCAGGTATTGGAATTGGTATTGATAGAATGGTTATGCTATTAACAAACTCAGAATCAATTAAAGATGTTTTATTATTTCCTCAAATGAAACCGAGAGCTAATTAATGAAATATGGTATAGGTTTAGGTTATGTTTCTAAATTAAATTTTCAAGAAACTATTGAAGGAATAGAATACATTAAAGAAAATATATTCTCATCTTTAAAAAAGAAATTCAATTTAATAAATATATCTAGTGGTTTAATAACAAATAAATATATATGGTTAAACGATGATTTTCAGCAAACAAAAAGATCAATTGATTTTGATATTTTAAGTCAAAATGAATATGGGGAAATAATTCAAGCAAATAATAAATGAAGAAGATATTTTTTAAAAAATTTTGAAGAAACTAATGAAAATATAAAAGGAATAATTACAACATTTATTTCAGTTAATAGAGATAATATTTTGGATAATGTTAATTCTTTAATATTTGAAGAAATAGGTTTAGAAATTCTTTGCAATGAAGTTAATATGGAAGAATTAAATAAAAGTTTAATTGATATTTATAAAATAATTTGCACAATAGATTCTAAAATAAGTGCTCAGTTTGAATCTTTAAATGAGTTTCATTTTTCCAAAACTCTTACATTTATCACTTATAAAAAATTAAAAGAACTTTATCCTTTTTTAACATTTTCAGAGAGATTAAATAAGTTTGGTAAAGATAATGGAAGCTTTGTAATTCAAGATTATGCTGAAAAAATATTTAATCAAAAAAATGTTGTTCAATTCTCAGAAGATGTTTTTAATCTAAAGACTTATTCAAAATTATATGTATATAATGGAGAATGTGAAAAAGCTATTTCTATAGCTTATGCAGGATTTCAAGTTGATAGAAAAACTCTTAAAAATCAAAATCTTATCCTTAAAGAAAACAGTAAAATTAATAATGAATATAATCACTTGATAAAGTCAAATGAATTGCCTCTAACTTTATCTATGGGTATTTTTACAAATAGAGTAGTTATGACAATTCTTGAAAAACAACATATCGGAGAGGTTCACTCATCTATATGAGGTAATGATTTTATAGAATATTGCAAAATAAATAATATTAAAATACTTTAATCACATTTAGCTGTGATTTTTTATTTATAATTAAGATGGTGATAAAATGGTATCTTTAATAATTGTAGCTAATGGAGCAAGCCAAAGATTTGGTGAAAATAAAATGTTAATAAAAATAGAAAATGATTTTTTAATAAATAAAACAATTAAATGTTTTGAACAAATTAAAGAAATTAAAGAAATTATTTTAGTTTCTAATGAAGAAATTTTTAATAGAGTAAAAAATAAAAAAACTCTTTTTGTAAATGGAGGTTTAACACGAACTGAATCAGTTAAAAAAGGATTGGAAAAAGTAAGTCAAGATTTTGTTTTAATTCATGATGGTGCAAGACCTTATGTTTCAAAAAAAATTATAGACTCTATAATAAGTAATTTAAAAGAAAATGATTGTGTAGTTCCTGTTTTAAAAGTTACAAATTGTTTAAAAAAAATTACTAATAATAAAGTTGAAACAGTTAATCGAGACAACTATGTACAATCACAAACACCTCAGGGATTTAAAACTGCAATTATTAAAAAAGCATTAAAAAATAATTTTTCTGACTTCTATGATGATTGTCAAATTATTGAAAATATGGAATATAAAATTAAATTTATTGAAGGAGATGAAAAAAACAAAAAAATCACCTTTATAAATGATTTATAGTTAAAATACTGTTTAAATAAGATTGCAAATATTGTTACTTTTACTATATAATAAATAAGCGAGTTAATTTTTTAATTAACTCCTTGCCTTTAAATAGGCCAAAAGACCATAAGGAGATAGAAATATGATTAGAAAATACGAAGTAATGTACATTATCGATCAAGATACAACAGATGTAAAAGCTGTTCAAAAAAAATTACATGATGTTCTTATTGCTAATGGTGGAAAAATATTAGAATCAGAAGACTGAGGACTAAAAGATTTCGCTTATTTAATTAAGAAAAAAAGAAAAGGTTATTACTCAGTGGTAATTGTTGAAACTGATTCAGCAAATATTAATGAATTTGAACGTATATCAAGAATTGATAAAAATGTTGTTAGGTATCAAGTAATTAACACAGAAAATGAAAAAAAATACATTCAATCAACAAAATTATCTAAAACAGATATGTCAAAATTTAAAGAAGAGAAAAAACCTTCAAGAGGATTCGATAAAAGAATGCCAAGAAGAGAAGATAATAATTCAGAAGAAACAAAATCAACTACTTTTAAAAAGCCAGCAGCTAAAAAAGTTGAAGAAAAAGAAGCTTAATAGCTTCAAGGGAGAAGTCAAATGAATTCAGTAAACCTAATTGGAAGAATAACAAAAGATCCAGAATTAAGAAGTTCATCAAATAGTAAATCATTTGTTGCATTTACATTAGCTGTAAATGAATTTTCTGGAGGGAATCAATTTACACAATTTATTCCTTGTTTTGCTTGAGAAAAAACTGCAGAAAATCTTGCAAAATTTGTTAAAAAAGGTGCTCAAATTTCTGTAGAGGGAGCAATTAATGTTAGACAAGAAAATAATAATGGACAATTTTCACAAATTGTTACAGTTAGAGCTAACAGAATTGAATTTTTGGGTGGTACTGGAAATAATCAAACAATGACAAACAATTCATTTGATTCAACTCAACCAAAACAATCAACTCAGGGGCCATCAAATAACTTTGATTTTGATTTAATAGATGATGCAAAACCAAATGATGATGATTCAATTTTATGAGAAGACTAATATAGGAGGAAAAAAATAATGAAAAAATTTGTAAGAAGAAAAAAAGTTAATTTTTTTGCTAAAAATAAAATAGATTATATTGATTATAAAGATGTAGATTTATTGAAAAAATTTATTTCAGCTAATGGACAAATCTTGCCAAAAAGAATTACTGGTACATCTCCAAAACATCAAAGAATGTTAGCTGTAGCAATTAAAAGAGCAAGAAGCATGGGATTATTACCTTTTGTAATTCAATAATAAATTATTCAAACACCAACAAGGTGTTTTTTTATTTGTTATAATTATAAAGGTGAAAAAAAATGAAAGTAATTCTATTAGCTGATGTAAAAAATTATGGTAAAAAAGATGAAGTAGTAAATGTATCTGATGGATATGGAGCAAATTATTTAATTCCAAAGGGTTTAGCAATTCTTGCAACAAAAGATGATCTAAGTCATTTAAATGTTAGAAAAAGAAAAGAAGAAGAATTAACTAATGAAAGAAAAGAAGAAATAAATTCTTTAAAAGAAAAAATTGAATCAATAACTTTAAATTTTAAAATAAAAACAATGAATAATAAACCATTTGGATCAGTTTCTCTTTCACAAATTACAGATAGATTAAAAAAGGAATTTTCAGTTGATATAGATAAAAGAAAATTTGAAAAGCATGAAAATATTAATAAATTGGGTTTATTTTATTTAAAAATTAAACTTGAGTTTAAAATAATAGCAACTTTAAAAGTATTCGTAGAAGGTACAGAATAATGAATGATAATTTAGATTTAAATACTGTTTTAATAGATTCAGAAAAAGCAATACTAGCAATTGCTATGCACTCACCAAAAGCAAGTTTTGATATTTTAACTCAACTTAACTCTGAAGATTTTAGTTTAGAAAAACATCAAATAATTTTTGAAGCTATAAATGAGGTTTCTCAAAATAGTCAAAATATTACTATTACAAAACTTGCCGAATTTTTAGAAGATAAAAAAACTCTAGAAAAAATTGGAGGAGTTTCTTATTTATCTGATGTTTCAGGTTATTTCTATACAGATGAAGGATTTGAAGATTATGTTGAAATAGTTTTTAAAAACTCAATAGGAAGACAATTAGATAGAGCTTTAATACACATTAAGCAATTAAGAGATAGTAAATCTCCAATTGATGAGGTTTTTGTAATTGCTCAACAAAAAATTTTAAATATTAAAACTGATATCAAAAAAGATGATGCAACTGCTGTAAAAGAAACTATTGTTGATGTTATTAAAAAAATTGAAGCATTAGAAAAAAATGGTGGACTTGTTAATGGGGTACCATCAGGATTTTCAGATTTGGATCAAATTACAAATGGTTGACAAAAAGGGGATTTTATAATTTTAGCTGCACGTCCTTCAATGGGGAAAACTGCATTTGCACTTAATTTAGCAGTTAATGCTGCTGAAAGACAAAAAGGGGTTGCTTTTTTCTCATTAGAAATGCCAAAAGAGCAATTAGTTCAACGTATTTTAAGTTCTGTTTCAGGAATAGATTCAAGTTCACTTAGAAATGCGCAAGGATTAACAACAGAAAAATGAACTAGAATTACAGCAGGTGGAGAACAAATCAAAAATATGAATATTGTTATTGATGACACTCCAGGAATTAATGTTTTACAATTACAGTCAAAATTAAGAAAAATGAAAAGAGACTTTGGCGTAGAAATTTGTTTTATTGATTACTTGCAATTAATATCATCAATGACAAACAGATTTGATAGTAGACAAAATGAAGTGGCAGCTATTTCTAGACATTTAAAAAAAATTGCACGTGAATTAAATATGCCAATAGTTTGTCTTTCACAACTATCACGTAGTGTTGAAAAAAGAGAAGAAAAAACACCATTAATGTCTGACTTAAGAGATTCAGGAGCAATTGAGCAAGATGCAGATATTATTATTTTCTTATATAGAGATGCGTATTACAAAACAAAAGAATATAGTGTAGCAAGTGATGATCCCACTGATGAAACAGATATTATTATTTCAAAGCATCGTAATGGAGCAACAGGACTTGTAAAAGTTAATTTCCTTAGAAGTTATGGTAAATTTATAGATCAGTCAAAAAATTCTTAGGGTTTTTTGATATTTTAATGTAGAATAAAGAATAGAGATTTTTAAAAGAGGTTATATTATGAAGAAATTATTTTCAGTTTTAGGAGCATTTGCTATTGTCACAACAAGTATTTCAGTTGTAACTTCATGTTCAATAGCAACAACTAATATTGAAGTATTAGTAGATGGAAATAATAATTTTAAAATTGGTGATGATAAAGTAGGTATAGAAAAAGTTTTAGGAAATAAAACTGTTCTTTCAGTTTTAGGATATCAAATTCTTGATGCTATTTCATTTACTGAAAGTAAATATCAAAATCAAGAAAAACTAGAAAAACAAAAAAGTGTTTTGGGAGCAAAAGGACAAGCTTTATCCTTAGATAATTTAAAAAAAGAAAATCCTAATTCATTAGGTATTGAGTTTAAAGGCGATATAGCAAAGTTTTCAAATGCTTATGATTCGCCTACAGATTCTAGATTCACTCAATTGGATTTTAAATTAGGTATTAATCATGAAATAGCAAAAAATCAAATATGAACTTCTGATAAAGTAACTACTTTTACTGCTAATAAAGCAAAAGTTTTAACAACTGAAATAAATTATGTTGATAATAAAGCTAGCAGTATTGAAAAAATAAGTGCAAATGAAAAAACATTGCAAGACTATTTTGATCTTACTTGAGAAAATAAATTAAACGATAAAGAATTAAATGATAAATATAAAACTTATGGATTCTACTCAATGGAAAATGACCATGCAAATTCACTATATGATGAAATTTCACGTTCTAATAACCAATCAGATAAAGATACATTTATTAAATATTTATCAAAAGAAGAATTTAGAATTTTACATACACAATTAAGAACTAAAAAAGAAGCTTTAAAAAATGGTATTGTTATGCCTGGAAAATTTGATAATAATTTCAATAATCAAGATGATACTAAACTTGAGGATGTTATTAAAGGTGGAAGTCACGATATCTCTACAGGAAGTACATTTTTTAGAGCAGAAGATAAAAAAACTTTACAATCACAAGTTGTTGGAGGTTCAAATAATAAGCAAAGAACTTTTGTTTATGGAAAAAGTGACTCAAATGCTCCTTTAGAAATTGATTTTACTTTTGTTATACCTGCTAGTAAAGCAGATGGAACTTCAGAAGAAAAATATAATATTAATTTAAAATTAAATAATATTGTAGTTAGTTATCAATTAACTGGAGTAGTTTTAGATAAGGGAAAAGAAGAAGATAAAAAAAGAACTGATAAAGCTATATATTGATATGAACCAGTATTTTATCAATTTACAACACAAGAAATGTTTAAAGTTAATTCAAGTAATAAAAATGATGATGGGACTAAGGATGTTTTTAAAGACTTGAATGGGGCAACAATTAATATTACTAAAAAACAATAATAAATATGAGATAATTATTTAAGGAAAAAAGGGGCGTTTCTTATGAATTATTACATTAAATTTGAAAATAATTTTTACAATGTAATTGATGTTAATACAGGTCAAATGATTGCATCTTTCATTAGTGATATAGAAGCTAATGAATTTGTTCAATCACTTTTTGACATGTCAAATGATTCATATGGATTAGGAAAAACTAATCCTTTTAACCCTTACAATAATATTAATTATCAAAGTTTGACTCCTAAAATGGGGCCACCTTTAGGACCTTTGCAAAATCAATTTGATTTTGGACAGCAACCACAACCTTGAATCGCTAATCCTCCTTTGCAAAATCAACCTCAAACTCCTAGTTCACAAAATGGGGGACAAACAACAGTTTTTAATAATTATTGACAAGCACCAAGTCCACAAAACTCTTTTGTACAAACAAGTCCTTCTTTACCAAATCCTTTAAATCAAAATCAATATTTTGATCAACAAAACACTAATCAAATAAGAGTTCCTAACAACGGGAATCAAATGTATCAAAATCAAAATTCTTATCCATTGGAAAACCAGTATGATATGAATTTAAATAATCCAAATTTAACAAATAATTTAAATTTACAAAAAAATAAAATTAATGAAAATGTTTCATTAGATAATAACAGGAATTTCTTAAATTCTGGTCAAACCAATTTTAATCCACCAGAATCTCACTCTGGTGGGGATTTTACAAGAAATTCATTTGATAATACAAATAATTTAAGCTCTAATTCAGGTCAGGGTCAGAATCAAAGATTAAATGAAAACTTATCAAACTCTAAAAATTTATATCAAGAATCTTTTAATGGTCAAAACTTATCTGTTAATGGTAATCAAAAACAAAAAATGTATGAGCAAAATAATTCTAATCAAATTAATTCTGTTGAACCAGATTTACATTTAACTAATAGTTCAAATGAAAACTTATCAAATAATTTAGCTCATAATCAAATGTTGAATGAAAATCAAAAAATGTATGAGCAAAATAATTCTAATCAAATTAATTCTGTTGAATCAGATTTACATTTAAATAATAGTTCAAATGAAAGCTTATCAAATAATTTAGATTCTAATTTAGCTCATAATCAAATGTTGAATGAAAATCAAAAAGGATATGAGCAAAATAATTCTAATCAAAATAATTTTGTTCAACCAAATTCACAACTGCATAAGGATTTGAATAAAGATTCATACAATGAAAATCATTCTTTAAACTCTGATAATAAAATAAACTCATCAGAATTTCAAAATAAAGATCAGATTATTAATAATCAAAATAATCGCTTATTTGAAGAGTCTAGAAATAGTGAAATTGAAATTGTTGAAAAAAACATTTTTGAAGAAGTTGAAAATGATTTCAAATTTGATTTTAATGATAATACACTTTCAGTTGACTCTAGTTTATTTGAAGAAGATAAAATGGGAGCAATAATTTATGTATCTAAAAACTTCATTAATAACACTGATGATGACAGTTTAGGTGAGGTTGCAGCTTATCAAGATATAAAACATATCCCTAGAAATGAAAGACAAACAGAAGAAGTAAAAGAACAAAAGATTCATTATAGTGAACCATTAGTATCAGATTTAGAATATGATGATTTTGAAGATTCTATTGAAGAAATTGAAAATAAAGAAAAAACTATTTCAGAAATATATGAAAACGATTTAGTTTCTGACACTTATTTATCTCCAAAAAGAGATGTAGATGTTATTGATTTGGGACCAATTAATGAATATGATGAAGTATATTCAACTCCAAGAAAAGATACGGAGAATGATGATTTAGAAAATATCATTTTATCTAAAAAAGAAAAAAATATATTGAAAAAGGCTAGAAAACTAGAAAAACGATCTAGAAAAAAAGAAAAGTAGTATTAAAGTAATGAATATGATAGAACAATTACCAAAAGAATGGATAGAATTATTTTTACAAGATAATATTTATAATGAAATTGAAGTAGTTCTTAAAAAAATTGAAAATTTCGAGAATATATACCCTTTAAAAGAAGATATTTTCAAAGTATTTAAATTAATTAAACCAAAAGATATTAAAGTAATAATAATTGGTCAAGATCCATATCATGGTCCAAATCAAGCTAATGGTATTGCATTTAGTGTTTCAAATAATGTTAAAACACCTCCAAGTTTAAAAAATATATTTAAAGAGCTTAAAAGTGATTTAAATATTGATCATTTTAAAAACAATGATTTATCGAATTGAGTAAGTCAAGGAGTATTTTTAATTAATTCGTGTTTAACAGTAGAAAAAGGAAATCCAAACTCACACAAAGATCTAGGTTGAGATAAAATAATTCTAAAAATATTGAATAAAATAAATGAAATTAATAAGGATATTATTTATTGTTTGTGGGGAAATTATGCAAAAAAACTATATAATAGTCTTGTATATAAAGATGAAAGAAAAATTATTTATTCTCCACATCCATCACCATTTAGTTTTAAAAAAGGTTTTGAAGACAGTAAACCATTTTCAAAAATAAACTTAATGCTAAAAAATATTAATAAAAAAATAATTAACTGAGAAAATTAAGGAGCAAAAGCATGAATAATATTAGTAAGTGGTTGCTTGAAGGAAATAATATGGCCTATGCTATGGCAGGGTTTATAGGTTTCTTTATAATTCTATATTTCTTGTATAATGCTATGTCTTTTTGAATTTTAAAAGAAAGATATCATGGAATTAGATTTACAACTAAAAATATTGCTTATATAACTATGTTTACAGCTATTAATGTTAGTGTAACTGTTGTGATTTCCTTGACTGTTCCAATTACGGTTTTTCCTCCAATTAGAATTGCTTTTGAAGGAGTAATGGTTAAAATAACTGGGTTTATTTTTGGACCAATAATTGGAGTTTTAGTTGCTTTAATTACAGAAGTATTAGTTATGATTTTTGTTCCATCATTTATTCACCCAGCATTTATAATTGTAATTATTTGTTATGGATTTATTGCAGGTATTGGTTCAAGTTTTTTAAGACTTGGAAAAGGTTATAATTGAGTACCAGTTCTTTTAATTAATTTATTCTTAATTGTATTTGCTGCATTTATGGTTTTTATTATTGATGCGTATCCAGATGATCAAAAAATAAGTGTATTAAGTTTCCAAGTTGACAAAGATACTTATAAATGAATTTTTTTAGGTTCAATTATTGCATGTCTAGGAATATTTTGAATAATTTATTCAGTGTTATTATTTAAGGGCCAAAGGAAGATTTTACATGTATTACTTCCTGTTATTTTATTTGCAACCGCGTCAGAGTATCTCGTAACAGCAGTAATTTCTGCTTGAGGAGATGCAGGATTCTTAGGAATACCTTCTGAGGGTGGATATACAGCTATGTTTATTGGTAGACTTGTTCAAGCACCTTTAAAAATTATATTTAATTCGGCTGTTTTATTCTTAACATATAAAGCTGTGGCACCATTAATCAAAAGAGATAGATAATGGAGGACTTTTTAAATGAAACTATATGATTCATTAACAAGTGATTTTAAGGAAATAGATTTATCCAAAGTTCGTATTTATACTTGTGGACCAACAGTTTATGATTATATTCACATTGGTAATGCAAGACCTTTAATTTTAACTGATATTATAGTTAGATATTTAGAAAGTATGGAAATAAAATATAAATACCTTTTAAATATCACAGATATTGATGACAAAATTATTAATAAAGCTTTAGAAAAAAAAATTAGTGAAGATGAATATGCTAAAAAATTTACAAAAGCATTTTTAGAGGATATAGATTCTTTAAATATAAAAAGACCATCATCAGTTATTCCTATATCTACAAAAATAAATGAAATTTTATCTTTTATTTATGATTTAGTAGATAAGGATTATGCATATGAGATCTCAGGAAATGTTTATTTTGATATAAGCAAATGAGAAAATGAATATGGTGCTCTTTCCAATCAAAATATTAAAAATTTAAATATTGGAGAAAGAATAGAAAAAGATGAAAATAAAAAAAATCCTCAGGATTTTATTTTGTGAAAAAAAACTAAAGTAGGTAAAAAGTGATTATCTAAATGAGGTTTGGGAAGACCTGGATGACATACTGAGTGTGCACTTTTGATTGATGATTTCTTTAAAACATCAATTGATATTCATATTGGTGGAATTGATTTAAAATTTCCACATCATGAAAATGAAAGAATTCAGTATATGGCTAAGAACTCAAGAGAGATTTCAGACGTTTGATTGCACAATGGTCATTTATCATTGGAAAATATTAAAATGTCAAAATCTCTTAAAAATACTATTTTAGTTAGAGATTATGTAAAGGAATATGGAAGTAACTCGTTGAGATTCATATTTTTAAACTCTAATTATAAGCAACCTTTAAATATTACTAAAGAATTAATTAAACATTCAAGAGAGTGATTATTGAAAATAGAATCTATGCTTAAAACAGTTAATTGATCAACAAAAGTTGGAGAGATAATTTTAACAAATAATACTCCAATAGATGATGATTTTAATTCGTATAAATATATCACGAAGTTTAGAGAAATTCTCAAAGATGACTTAAATACTCCTTTAGCAATCTCTTTAATTGATGAAATGAGTAAAAGTATTAACAAACAGATTAAAACTAGAATGTTAGATCGTACTTATTCAAAATTAATAGACATACTAAAAATTCTTGGTTTTTCTTTTAATATTAAAAATTTATCAGATAAAGATATTGAAAAAATCAAAAAATGAAGAGAAATGATACACAAAAAGAATTTTCAAAAAGCTGATAGATTAAGAAATGAACTTAAGCAGGAGAATATTATTTAATGAAGAACTATATTTATGGTAAAAATGCAGTTGAAAATACTATTAAAAATTTTAGTTATGAAATAAAACAAGTATTTATTTTAAAAGGTCATTCATTTGATCCAGATGTTTATAGTTTAATAAAAAAAAATAAAATTGAGTGAAAATCTTTAGAGAAACAAGAATTTAATCTATTAATAAAAGAAGGTGTAAATCATCAAGGTTTAATAGCACAAGTTAGAGATTTTAAATATTTAGAAATGAAAGATTTTTATAATGACTCTAAATTAAATCAAACAGTTCTTATTTTAGATAAAATACAAGATCCACAAAATTTTGGTTCGATAATTAGAACAGCAAGTTTATTTGGAGTAGATGCAATTATAATTCAAGAAACTAATCAAGTTCAAGTAACACCTGCAGTTATGAAAGCATCTGCAGGAACAATATATAATGTACCAATTATTAAAGTTAGTAATTTGAAATCTGCAATAAGCAATTTAAAAGATAGGGGATTTTGGATATACAGTTCTTATTTAGGAGAAAAAAGTATATCTATAAAAGATGTTGATTTTGACAAAAAATCAGTAGTTATTATAGGGAATGAGGGCAAAGGAATTGGAAATAAAATCTTGGAGTTATCAGATTTTATGTTTCAAATAGATACTAACAATGTAATTGATTCATTAAATGTTTCAGTAGCAACAGGAATTATTCTTTTTAAACTATTTAATAGGTAAAATATTGAAAGGAAAAAAGAAAATGAAGACTATAATTGCTGAAATTATAAAAAGCGAATTTCAAAATGAAGTTACACCAGATGTATTAGTGCATCTTCAAAGATCTACAATAAAAATTATAAACACAGAAGATCAGAAAATTAGCTATTTAAGATTAGATAAAGAAGATTTAATTACTAATGTTTATCTTGCACTTAAAGAAGTTAAACAAAAGTATGATGTTGATAAAAAGGTTCCATTGGTAGCCTATGCTAATTTTATTATTAAACGAAGAATACTAGACTATGCAAAATTTTTAAGAAGAGATAAAAGAAAGTTAACCCTTAAAATGATTAACTCTTATAGAAGTAATCTGACAGAGGATGGGCAAACTTTTTTGGAGCGAGATATAGATCGCTATTCTTATGAAAACGAAAGAGAAAACAATCAAATAAAAGCAATAAGAGAACTTGTAATACATTTCTTAGAAAACGAAGCAACTGAGCTAGAAGCAAAAATTATTAAAATGTTGTATAAGGGTTTTTCTCAAAAAGAGATAATAGAAACTCTTAAAATTAAGAGGAAAGATTTTTTACAATGTAAAGAAAAGTTAAAAAAAGTTTTTAACTATTTTAATAAAGATATATCTAATATATAATATCTATGAAAAGAAAAGAGTGTTTTTATGCCCACAAAATCCAATAAAAAGGTTATACTTGTTTGTAGTGAATGTTTATCAAGAAATTATACAATTCAAAAAAGTACAATTTCTCAAAGAGAAAGATTACAAATTAAAAAGCACTGTATAACATGTAATGCGCATGTACTTCATAAGGAGACAAGATAGAATGTCTAAGAATAATGATATCAAAGAGCAAAAAGCTCAAGAAAAACTAAAAAAAATTCAAGAGAAACAAGCTCAAAAGCAAAACAAGAAATTAAATAAACAAAATAAAAAAGAAGAATTTAATAAGCTTTTTAATGAGTTTCAAGGGCATGATGGAACTCAAGAGGGTAAACTTAAAGCTGCAAAAAAGAAAAAAATTAAAAAAGAGAAAAGCAAAATTGATTATAAATTAGCATTTAAAGAGGCACCAATTAAGTTTCTTAAAGAAGTTAATAAAATACAATGATCTTCAAGAAAAAATTTGGGAACTAAATTTTTGTGAGTTATAATATTTATTGCTATCTTTGGTGTGTTCTTTTTCTGTGTGGATTGAGCTTTCCAAGCTTTATTTGAAGTTATGAAAATTATTTAAAAGGAGATTATCATGGAACAAAATTTATTTGAATTAGAAGATGAACTAGCCTCATATAAAGGTCAATGATTCGTTATTAACTGTAATAGTGGTCATGAAGATAGAGTAAGAGGAGACTTACTTCAAAAAATTGAAACTTCAGGTTTAGAAGATAGAATATTCAATATTAGAATTTCAAAAGCACCTGTAATGGGAAAAAATAATAAAATTAATGAAAAAAACAAGTTTCCTGGATATTTATTTATTAATATGAATATGACAGATGAAACTTGATTTATAGTTAGAAATACTCCTGGGGTTACAGGATTTATTGGTTCTTCTGGTAAAGGTGCCAAACCCTTACCATTAACTATTGAAGAAGTTTCAAGAATGCTTGAGCAAAGTGAAAATCAACAATCAAAAAATGATAAAACTTCAAAAGGTAATGCAAATCAACCTAAAAAAGAAAAAGTTTTATTTACAGCTAATTATGACACAAAAGATGTAGTTCTTGTTAAAGATGGTCCTTTTGCAGGTACAGAAGGTCAAGTTATGGAAATGGATTTTGAAAAAGGAATTGCAATAGTTAATATTGAATTATTTGGAAGAATTACTCCAACAGAATTTGAATTTTCAAATTTAGAAAAAGCATATAAAAACTAATTTTTTATATTAAATTAAACTTTGTAGATATTTTTAGGATTTACAAAGTTCTTTTTTTTCTTGTATTATTACTTATAAAGGAGATAAATTATGAAAACTATTGCAATTGAAATTATTTTAGAAGATGAAAGAAAGATGAGAGCTGATTTATATCCAGAATTAGCTCCTATTTCAGTTCAAAACTTTGTTAATCTAATTAAAAAAAATTATTATAATGGATTAATATTTCATAGAGTAATTAAAGGCTTTATGATTCAAGGTGGAGGAATGTTTTCTGATCTTAGTGAGAAAGAAACTTTAGAACCAATTAAGGGTGAATTCTCAATTAATGGTTGAAATAAAAATACATCAACTTTGTCACATGTTCCTGGGGTTTTATCAATGGCAAGAACAAATGTCATGGATAGTGCAACTAGTCAATTTTTTATTGTTACAGGAGAGGCTAAATTTTTAGATGGGCAATATGCATCTTTTGGTAAACTTTCAGATGAAGAAAGTTTAAAAGTTGCTCTTTCAATTGAAAATGTAAAAACAGCTATTAAAGATTTTTATGAAGATGTGCCAATAGATCCGATCATTATAAAAACTATTAATCTTATTTAATATAAGATTTTTTTTATTTTAAAAATATGTTATTATTAATTATGGCAGATTTTAATTGTGGAAGTATGATAAACAAATGTTTATGATTACGTTAGGACCACAGCGAAAACAGGGAGGTGTTGTTCGTGGCAAAAAGAATCACACGTATAGCAAAATTAGAATTTATGGCAATGCAAGCAAAACCTGGTGCAGAATTAGCTTCATTAGGAATTAACATGCCTCAATTCACACAACAATTTAATGACGCCACTAAAGATAGAGCAGGAGAGGTAGTGCCTGTAGTTATTACAGCTTATGACGATAAATCATTTGATTTCGTTTTAAAAACTACTCCAGCAGCATTTATGCTTAAAAAAGCAGCAGGTATTCAAAAAGGATCATCTAAATCAGGAACTGAAGTAGTTGCAACTATTACAGCTGATGAAGTGAAAAAAATAGCTGAATATAAAATGCCTGATTTAAATGCAAATACAATTGAAGCAGCTATGAGAATTATTGAAGGATCAGCAAGAAATATGGGTATTAAAGTTACTGGAATGCCAGAAAAAGAAGGTCAAAAATAATGGCAAAATTAAGTAAAAAATTAAAAGTTGCTAATGAAAAAGTTGACAAAACAAAATTATACCCAATTGCAGAAGCTATAAAATTAGCAAAAGAAACTTCAATTACAAAATTCGATTCAACTGTAGAAATAGCTTTCAATTTAAATGTAGATCCAAGACATGCAGATCAACAAATTAGAGGAGCAATCGTAATGCCTGGAGGAACTGGAAAAACTCAAAGAGTTTTAGTTCTAACAAAAACTAAAGTAAAAGAAGCTGAGGAAGCAAAAGCAGACTTTATTGGAGCAGAAGATTTAATCCAAAAAATTGCAAAAGAAAACTGATTTGATTTTGACGTTATTGTTGCAACTCCAGAAATGATGGCAGAATTAGGAAAAATTGGTAAAGTTTTAGGACCAAAAGGATTAATGCCTAACCCAAAAACTGGAACAGTTACAATGGATGTAGCAAAAGCTTTAGATGAAATTAAAAAAGGTAAAGTTGAATACAGAACTGACAAAGAAGGAAATGTTCATTCAATTCTAGGAAAAGTATCATTTAAAGAAGATAACTTAATGAAAAATTATTCAGCTCTTCTAGATGTAATTAGAAAAGCAAAACCAGCAGCAGTTAAAGGTACATATATTAAAAATATATCTGTATCAACAACTATGGGTCCTGGAATAAAAGTTTTAATTGAAAACTAATTTTAAATCTCACATAGGTGAGATTTTTTATTTTATAATTATTAAGAAAGATTAAGAGGCAATCCAAATGAAGTGGTGATTTTCTGATTATGATGGAACAATCAATTTAAAGCATAATGACTATATTGATTCAAGAGATTTAGAATTTATAAAAAGATGAATTGCAAAAGGTAATAAATTTGCAATTGCAACTGGTAGAATGGAACACGAAATCAAACCTGTTTTGCAAAAGGCACAAATTCCATATGATTATATGATTTGTAATAATGGTGCTGTTGTTTATGAAAAAGAATATGGAGTTATTGCAAATGCTTCTATTCCTATGGAATCAAGAAAAGAAATAATTGAATTATTTGATACTTTAAAAGAAAAATATATTTTAGGATATTGTTTAAAAGATAAAAGGATGTCTTATTCAAAAATTGAGGAACCTGAAATTTACACAAATCCCTTTTTAAAAAAATATGCCCCAAGTGAGAATAATTTTGAACAAGGTAATGAAGATATTTCTAACTCTCCTGATTTAAATTTGCTTTATTTCTATGTTCCTGATTCTAAAGTTTTACAAGTAAAGGAAATGTTAAACGGAAAAATAAAAGGATGTAAAGCTGTTAGAACTCATAAAAATGTAATTGAAATTATGAGAGAAGATGTCTCAAAAGCATATGGCATAAAAGTTATTCAACAATTAAAAGGTTTTGATACTAAAGATATTTATACAAGCGGAGATGGAGAAAATGATATTGAAATGTTGAAATATACAAAGAACTCTTTTGCAATGAAAGATCATCAACCTAACGTTGATAAAGCAGCGAGTTATATAATTAAAAATGTTTTTGAAATTGAAGGCTTTGAAAAAAATTAAATTAGCTATTGCATTAAAGTTACTTTAATGCAATATACTTTAAATTGAGGAATATCCTTATAGAAAAGTAAAAGTATATGAAAAAAGTTTATATGAATGAGTTGGCAAATATTTTAAATATTAATGAATCTGCTTTAAGATATTATGATTCAAAAGGTATCTTACCAAAGGTACAAAGAGATGAAAATAATTATAGATTTATTGATTTTGAAGATTTAGATTACCCAAAAACAGTTATTTGTTTAAAAAAAACAGGTATGTCTTTAAAAGATATAAAAAAATATCTTTACTATGTTGAACAAGGTGATTCCTCTATAAAAGTTAGATATGAAATGATATTGAATCAAGAGAAAATGGTTTTAAATAAACTAAAAAATATTCAAGAAGAGATAGAATTTATAGAATATAAAAAAAGTTTTTATAAAAATAAACTTGAGAAAAAATAAAAAGAGGTAAACATGAAAAAAAGAATATTAGGAAAAGATCTAGAAGTCTCTGAAATAGGTTTAGGATGCATGGGTTTGAGTTTTTCTTTTCCACCTTTTCCAACAAAACAAGAAGCTATTTCTTTTATTAAAAAAGCCTATGAAATGGGAGTAACATTTTTTGATACTGCTGAGGTTTATGACCTTTTGATAATGAAGAGATCTTAGGAGAAGCTTTACAAGATGTTAGAGATAAAGTAGTCATTGCTACAAAATTTGGTTTTAGTTTTACAAAAGATGGAGAACGAGATGGTGTTGATAGTAGCGAAAAGAATATAAGAAGAGCAATTGAAGGTTCTTTAAAAAGATTAAAAACAAATTATATTGATTTATATTATCAACATAGAATTGATCCAAATATACCAATTGAGCAAGTGGCAAAATTAATGAAGGAATTTTATGATGAAGGTAAAATAAGACATTGAGGTTTGAGTGAAGCTTCATCAAAAACAATCAGAAAGGCACATGCAATTTTTCCAGTGACTGCACTTCAAAGTGAATACTCAATGTTTTGAAGAGATCCGGAAAAAGAAATTATTCCTAAATTGCAAGAATTAGGAATAGGATTTGTACCTTTCTCACCTTTAGGAAAAGGATTTTTGACAGGTGCAATTAATTTAGATACTTCTTTAGAACCAGGAGATTTTAGATTAACTATACCAAGATTTCAAAATAAAGAATATATGAAAGAAAATTTAAAATTAGTAGATTTCGTGAAAGAATTAACTCAAAGAAAAAAAACTACTCCAGCTGCAATTGCGTTAGGATGAGTATTAGCTCAAAAAAATTGATTTGTTCCAATACCTGGTACAAAAAAAATTGATAGATTACAAGAAAATTTATCTGGAGCTGAGGTTATTTTCACAACACAAGAATTAAAAGAGATTAAAGATAGGTTAGATAAGATTGAACTTATTGGCGAGAGATATAATCAGGATGCAAATAAAATGATTGATAAAAGTTAAAAATATTTTTTTAAATCTAAAATTATTATTTAATTAAATTTAGTATTATTTTTATGTATTGAAAGTAGGTAAACTTTAAAATGAAAATGAGTCAAGTAATTAAAGATTCTTTAGAGAAAGAATTAAAACGTCAACAAGAACATATTGAATTAATTGCTTCTGAAAACTATGTTTCAGAAGCAATTTTGGAACTTAATGGTTCTATACTAACAAATAAATATGCTGAAGGTTATCCTGGTAAAAGATATTATGGAGGATGCAAATATATTGATGAAATTGAATCTTATGGAATAGAGCTTGCTAAGACTTTATTCAAAGCTGATCATGCAAATATTCAACCTCATTCCGGAAGTCAAGCAAATGAAGCAGCGTATAGAACTCTTATAAAACCTGGAGATACTGTTTTATCAATGAGTCTTGATGCTGGAGGACACTTAACACATGGTTATCCAATTAATTTTTCAGGACAGCTTTATAATTTTGTATTTTACAAAGTTAATAAAGAAACTGAAGAAATGGATTTTGAAGAAATAAGAGATTTAGCATTAAAAAATAAACCTAAACTAATATTGACTGGAGCAAGCAGTTATACAAAAATAATTGATTTTAAAAAGTTTAAAGAAATCGCAGATGAAGTAAATGCATATTTTATGGTAGACATGGCACATATTGCAGGTTTAGTGGCAGGAGGAGTTCACCCTAATCCTTGTGAATATGCAGATGTTGTTACAACAACAACTCATAAAACTTTAAGAGGATCAAGAGGTGGTATGGTTCTTTGCAAACAAAAATTTGCAAAGGAGTTGGATTCAGCTATTTTTCCTGGAATACAAGGTGGACCATTAGAAAATCAAATTGCAGGAAAAACTCAAGCGTTATATGAAGCTTCAACACCTGAGTTTAAAGTTTATGCAAAGCAAATAGTTATAAATGCTAAGGCTTTGGCAAATTCACTTAAAAATAATGGTCTTAGATTAATTGCAAATGGTACAGAAAACCACACTGTAATAGTTGAAGTTAAAGATTCTATAGGTATAACAGGAAAACAAGCAGAAACAATTTTAGAATCAATAGGAATAATTTCAAATAAAAATATGATACCTTTTGATAAAGAAAAACCAGTTCACACATCAGGTATTAGATTAGGAACACCAGCAATGACAACTAGAGGTTTTAAAGAAAACGAATTTGAAGAAGTGGGAAATATTATAGCAAGTGTATTAAAGAATCAAAGTGAAGAAAATTTAAAAAAAGCAAAACTTTCTGTATTAAACTTATGTCAAAAATTTCCAATATATAAAAATTTAAAATAGAATATAGTTTTATATTAGATTTGAAATTTGTAAAAAATATCTATTTATACAATAAATAATTATGTTATTATATTAATGCTATTCGTACCGAAGAAAGTAACTGGGATTTATCCCTTAATTTGTTACCGAGGAATGAAATTACATATATAAATTGTAAGTTTTTACAATATTTATTGTATTTTTAATTGACCTCGGAAATTATCTGAGGTTTTTATTTTGATTTAAAAAAGCGAAAAGTAAAAAAAGGAGGTCGTTACGAGTGTCAAACGCAAGACCAGCTCATGCTAAAAAGAATGAGATAGTTAAAGATATTGCAAACAGAATCAAAAACTGTAAAGGTATGGTGATTGCTGAATACAAAAATTTAACTGTAGCACAAATGACAGAATTAAGAAACAAAGCTCGTGAACAAGGAATTTTTATTAAAGTTTATAAAGATTCTTTAGTTAGAAGAGCAGTTGAAGAATTAAAAATTAGTGGATTAGATGCTTACTTAATACAACAAAATATTTATATTTTTTCAGATGAAGAAGCTTTATATCCTGCAAAATTAGTTTCAGATTTTGCAAAAATAAATAAAGATTTAGTGCTTAAAGCAGGAATCTATGAAGGAAATATTATGGATACAGCAGCAATTAATGAAATTGCTTCTCTACCATCAAAAGATGAATTATACTCAATGTTTGCTTCATCACTTATTTACCCATTACGTCAATTTATGTTGACTGTAAAAGAAATAGCAAAAACAAAATCAGAATAAAATAACAATTAAGCGTACAAATAGCAAATAATAAAAAAGAAAATATAAGGAGAAAAAAATTATGGCAATTACAAAAGATGATATTATCAAAGCTTTAGAAGAAATGAAATTAACAGAATTAAATGATTTAGTTAAAGCAATAGAAGATCACTTCGGAGTTGTTGCAGCGGCAGCAGTTGCAGCACCTGCAGCTGGAGCAGCATCAGCAGCACCTACAGAAGTTTCAGTTATGTTAACAAACCCAGGAGGAAACAAAGTTTCAGTAATTAAATTAGTTAAAGAAATGACTGGTTTAGGATTAATGGATGCTAAAAAATTAGTTGATGGAACATTACCTGTTGCAATTAAAGAAAACGTAAAAGTTGAAGATGCAGAAGAAATGAAAAAACAATTAATGGAAGCTGGAGCATCAGTAGATTTAAAATAATAAATTATTTATAATAACCTTAAAGGTTATTTTTTATTTGAAGGGATTTTAATTATGTCTAAATCATCAAAAATATATCTATTAAAAGATTACATTACTAATGAAGGTATAGAAGTTGGTGAATATACTTATTTTTATAGTTTTAAAAATGAACAAGGTATAAAAGAATTTCAAAATAGAAATGTACTCTATCATTTTCCAAAGATACATAAAGATAAATTAATAATAGGAAAATTTTGTGCAATAGCAGATGAAGTTAAATTTTTAATGAATGGTGCAAATCACAGAATTGATTTAGTATCTACTTTTCCTTTTGCTATGTTTGATGAATTTAAAGCAGATAAAAAGACTTTATTTCCTTCTAAAACAAAAGGTGATACTGTTGTTGAAAATGATGTTTGAATTGGTTATGGTGCAACAATCATGCCAGGAGTTAAAATTGGAAATGGATCAATAATTGCAGCAAAAGCTGTTGTAACTAAAGATGTAAAACCATATTCAATAGTTGGAGGTAATCCAGCAAAACTTATAAGAATGAGATTTGATGAAAATAAAATTAAAGAGTTAGAAGACTTGAAATGATGAGATGAAAGTATAGAATCAATACGTAGCATGTTAGACAAATTAACTAAATAATCTAAAAAATGCAAAAAGATAAACAAGAAAAGTTTATTTTTTTGCTATTTCTTATTGAATTTAGTTCAAAAATAATATAGAATTTGTTTGCGTATGTTTTATTTGAACGGGGGACAATAATAAATGAATTACAAAATTAAGAAAATTAATGCGCTTGTGGAAAGACGTGATTATGCAAAAGTATCTGGTGACTTAGAATTGCCAAATCTTATAGAATTACAAACAGACACATTCGATTGATTTAAAAACAAAGGAATCAATGAAGTATTTGAAGAAGTTTTTCCAGTTGTTTCAGCTGATGGAGACATTGTTCTTTCCATGACAGATTGAGAGTTTAGAGAACCAAGAATGTCAATCACTAAAGCGAAAGAAGAGTCAAAAATATTTGAAGCTCCAATTTATGCAAACTTATCATTAACTATTCATATGGAAGATGTAGAAGTTTTTAAAGAAGAAATTTCAGGTTCAATGGAAACATTTTTAAAAGGATGATTACAAGAAAAATTGGAATCAACAGGTGTTGATTTTAAAGATAGTAAAGGACAACTTTACTTTTTTGAGTTTAAAGGTAAAACAGGTGAAAAAGATACTATTCAAATTGAAATTAAAGAAGAAAAAGAAGAAATGTATCTAGCAAATATTGACGTTTATAAAACAGGAGAAGTATTTTTCGGTGAATTCCCATTAATGACAGATAGAGGAACATTTATAATCAATGGAAGTGAAAAAGTAGTTGTTTCACAATTAGTTCGTTCTCCAGGAAGTTATTTTAAAGAAGAAATGAATCGTAAAAATGGTGAAATGATTTATTTTGCTGACATAATTCCATCAAGAGGAACATGATTAGAATTTGAATTAGATTCTAAAAAGTCATTAGATAATAAAGTTTCAAATGTTTTTTATGTAAAAATTGATAAATCAAGAAAAACAACAGCAACAAGTTTATTAACTTCTTTTAAAATTCAAAAAGAAGAAATTCTAGAATTATTTGATAATAATGAAGTAATTCAATCAAGTTATGAATTAGATACACTAACTGGTGATATTGAAATCGATTATGAAAATCAAGTTCAAGAAATTTATAAAAAAATTCGTCAAGGAGAAACTGCAACAGCTGATGGAGCAAGCAAATATTTATACGGATTACTATTTGATAAAAGAAAATATGATTTAACAAAAGCAGGAAGATTTAAATTACAACAAAAATTATCTGTTAAAAATAGATTAATTGGTCATGTTCTTGCAGAAGATATTGTTGATGTTAAAGGAAAAGTTGCTTTTGCAAAAGGAACTGAAATAACAAAAGATATTTTAGATGATTTAGACAAAGTGCTAGAAGCTGGAGCAATGGTACAAAAAATTAACTTTAATAAAGCAATTTCATCTGGTGATGAAATTCAAAAAGTTAAAGTTTTTAAAGACAATGATTTAAGAGATGAAACAGCAACAATTATTGGTATTACAAAAAAATCAAATGATGAATTTGTTAATTTACCAGATATTATTGCAACAATTTCATATGCAATTAACTTAATGGATGGAATAGGTGAAATCGATGATATTGATCACTTAGGAAACAGAAGAGTTAGAACTGTAGGGGAGTTATTACAAAACCAATTTAGAATTGGTATGATGCGTATTGAGAAAAATGTAAGAGAAAAACTTGCAACATCAAATCCATTCAAAATGAAACCATCAAGTATTATTAATAACAAACCATTAACTGCTATAATAGGAGAATTCTTTAATCTTTCTCAATTATCACAATTTATGGATCAAACAAATCCTTTAGCAGAATTAACAAATAAACGTAGATTAACAGCTTTAGGACCTGGTGGTTTAAGTAGAGATAGAGCTGCACTTGAAGTTCGTGACGTTCACCCTTCTCACTATGGAAGAATTTGTCCAATTGAAACACCAGAAGGTCCAAACATTGGGTTGATTAACAACTTATCAACTTATGCAAAAATTAATGAATATGGATTTATTGAAACTCCATATAGAAAAGTAAAAAATACAAAAGTTATGTCAGGAGAATATGAATATCTAACTGCTGACAAAGAGAAAGATTATGTAGTTGCTCAGGCAAATATTAATCTTGCAGAAGATGGAACAATTTTAGATGATCAAGTTATTGCTCGTTATAGAGGAGATGACATCATGGTTTCTCCTCAAGATATTGATTATGTTGACGTTTCTCCAAAACAAATAGTTTCAATAGCTACATCATGTATTCCATTTTTAGAAAATGATGATGCAAACCGTGCTCTTATGGGTGCTAACATGCAACGTCAAGCAGTGCCATTAATTAATCCAGAATCACCAATTGTTGGAACTGGTGTTGAACATGAAGCTGCTAGAGACTCAGGAGATGCTGTTGTTGCTACTGAATCTGGTATTGTAAAATATGTTGACTCTAAAAAAATTGTTATTGAACAAAAAGATGGAATTAAAACTTATGATTTAAATGATTTTAGTCGTTCAAATAATGGAACTGCTATAACTCATTTACCAATTGTAAAAATTGGAGACAAAGTAAAAGCAAAAGATATTTTAGCTGATGGACCTTCAATGGAAAAAGGAGAATTAGCTTTAGGACAAAATGTAGTTGTAGCATTTACAACATGAAATGGTTATAACTATGAAGATGCTGTTATTGTTTCAGAACGTATTGTAATTGAAGATAGATTTACTTCTATTCATATTGATGAATATACAATTGAAAGAAGACAAACAAAACAAGGTCCTGAAGAAATTACAAGAGATATTCCAAATATTTCTGAAGTAAGTAAAAAATATTTAGATGAAGATGGAATTGTTGCAATTGGATCAGAAGTTAAAGTTGGAGATATTTTAGTTGGAAAAGTTACTCCAAAATCTCAAACACAATTATCACCTGAAGATAAATTGCTACATGCAATCTTTGGTGAAAAATCAAGAAATGTTAAAGATAATTCATTAAGAGTTCCTAATGGTGGAGAAGGAATTATTAAATCAATTAAACGTTTCTCAAGAGCTGATGGGCATGATTTACCAGCAGATATTTTAGAAATAATTAAAGTTTATATTGTTCAAAAACGTAAAATTCAAGAGGGAGATAAAATGGCTGGACGTCATGGTAATAAAGGTGTTATTTCAAAAATCTTACCTATTGAAGATATGCCACATATGGAAGATGGAACACCAGTTGATATTATGTTAAATCCACAAGGGGTTCCTTCACGTATGAATATTGGACAAGTATTAGAAATACATTTAGGTATGGCTGCTAAAAAACTTGGAATTAAAGTTAATACTCCTGTTTTTGAAGGAGTAAGAGAACAAGAATTACAAGACATTATGCACGAAGCTGGAATGGATAACTATGGAAAAGTTAAATTAATTGATGGAAGAACAGGAGAAGCATTTGATAAACCAATTTCTGTTGGAGTTATGTATATGTTAAAACTTTCTCACATGGTTGATGATAAATTACATACAAGAAATATAGGTCCGTACTCATTAATCACACAACAACCATTAGGAGGAAAAGCTCAAAATGGGGGACAAAGATTTGGGGAAATGGAAGTTTGAGCTCTAGAAGCTTATGGAGCTGCTTACACATTACGTGAAATTTTAACAATTAAATCAGATGATATTAAAGGACGTATTAAAACTTATGAATCAATTGTTAGATCTAAAGCAATTCCTAAACCAGGAATTCCAGAATCATTTAATGTTCTTACAAAAGAAATTATGGGATTAGGATTTGATATGCATATGATTGATGATGAAGGAAACAAAGTACAAATTAATGCATATGATGATGACGATGAGTTTGACATTGATACAGAGTTTTTAGATGAAGAAGCAGCATTTAATGACGCTGATATCAAAGATTATGTTGAAACAAGTGAAGATGATGAAATAACTTTTGATAGCGAAAGTATAGAAGACTAATAAGGAGAAGTTTTAATATGGGAAATTCAAATAAAAGAATGATTAAAATTGAACTAGCTTCTCCAGATGTGATCAGAAGTTGATCACGTGGTGAAGTTACTAAACCAGAAACAATTAACTACAAAACATTAAAAACTGAAAAAGAAGGTTTATTTGATGAAAGAATCTTTGGACCAACAAGAAATTATGAATGTACTTGTGGTAAATATAAAAAAGTAAAAAATAAAGGAAAAATTTGTGAACGTTGTGGAGTAGAAATTACTGAATCAATTGTTAGACGTGAAAGAATGGGTCACATTGAGTTAGAAGAACCAGTTACTCATATTTGAATGTTAAAAGTTGCTCCTTCAAGAATTGCTTCAATTTTAGATTTAAAAACTAAAGAAGTTGAAGAAGTAGTTTACTTTGTAAGTTATATAGTTTTAGATCCAGGAAATTCAAAACACCTTAAAAAAGGTATGGTTTTAGATTTAGGAAATGCTAAAGCAAGTTTAAAAACTAGAGAAAAATTATTAAAAACTTTAGAAGATATTAGAGTTAATATTGAACCAGATACATTTGCTTGAAAAAGAGCAGATAATTTAATAAATCAATTAAGAACTCCAAATGTGCCTTTCTCAATGGATGAGGCATCTACTTTTATTTCAAGATATATTAATGCTAAATTTGGTATTGGAGCAAGTGCTATTGAAGACTTACTTAAAAATATTAATTTAGATAAAGAAATTGAAAGAATTAGAGAAGATTTAAAAGATAAAAAAGGTTCATCAGAACAAAATAAATTAATGAAACGTCTTGAAGTTTTAGATTCATTAAAAAAATCAAAATCAAGACCAGAGTGAATGGTTTTACATGTAATTCCAGTTATTCCTCCAGACATTAGACCAATTATTCAATTGGATGGTGGTAGATTTACTACTTCTGAAATTAATGACTTATATAGAAGAATTATCATTAGAAATGAACGTTTAAAAAAAGTTAAATCAATGGGAGCACCAAGTATTATTGTTAACAACGAAAAACGTATGTTACAAGAAGCTGTTGATGCTTTATTAGATAATGAACGTAAACCAAGACCAGTTACAGGTAAAGATAAAAGACCATTAAAATCTTTAACATCAATTTTAAAAGGAAAACAAGGAAGATTCCGTCAAAACCTTTTAGGAAAACGTGTTGACTATTCAGGTCGTTCAGTTATTGCTATTGGACCAGATTTAAAAATGTATCAAGCAGGTATTCCAAGAGATATGGCTATTACATTATTTAAACCCTTTATCATTAGAAGATTGCAAGAAAGAGACTTTGCTGAAAATGTAAAAGTTGCAGAAAAAATGATATTAACAAATGATTCAAAAGTTTGAGATATCTTAGAAGAAGTAATTAAAGATAGACCGGTATTATTAAACCGTGCTCCTACTCTTCACCGTTTAGGAATTCAAGCATTTGAACCGAAACTAGTTAAAGGTAAAGCAATTAGACTTCACCCTCTAGTTACAACAGCTTTTAACGCCGACTTTGACGGGGACCAAATGGCTGTTCACTTACCAATAAGTGATGAAGCAGTTGCTGAAGCTAGAGCACTTATGTTAGGATCAAAAGCAATTCTTGGACCAAAAGATGGTAAACCAATTGTTACTCCTACTCAGGATATGATTTTGGGAAATTACTATATAACAACTGAAGAAAAAGATGTTAAAGGTCAAGGAACATTATTTACAAGTTATGAAGAAGTAAAAATAGCTTACGAAACTGATTCAGTTTCACTAAATGCTATTGTTGCAATTCCAGTTAGTGAATTAAAAAATAAAAAAATATCTGATGAACATAAAAATAAATTTTTAATTACAACAGTTGGGAAAATCTTTTTCAACCAAATGTTTGTAGAGGAATTCCCATGAATTGTTAATTCAAATATTAATAATGCTGAAATGGAAATTGAGAAATTTATTGTTGATGAAAATACAGATATCAGAAGTTTTATTGAAAATGAATATGTAATCCAACAACCAATTAAGAAAAAAGAATTATCTTTAATTATTGAAAGATACTTTAAATTATTTGGGGCTCAAAAAACAGCTCAAATGTTAGATAATATGAAGGATTTAGGATTTAAATTCTCATCTAAATCAGGAACAACAATCAGTGCTGCTGACGTTGTTGCTTATACAGAAAAATTTGATGAATTTAAAGTAGCAGATGAAAAAGTTTCACAAATCACTGAATTCTATAATATGGGTATGTTAACAAAAACAGAAAAAAAACGTAGAGTTATTAATGTTTGATCAAATGTAAAAGATAAAATTCAAAATAGACTTGAAGAAGTTCTTAAAAAAGATCCAAAAAACCCAGTATTTGTTATGGCCGATTCTGGAGCTCGTGGTAACGTATCTAACTTTACACAATTAGTAGGTATGAGGGGTCTTATGAACGACCCTAAAGGTGATATTAAAGAAATTCCAATTAAATCATCATTCCGTGAAGGTTTAACAGTGTCAGAATACTTTATTTCTACTCACGGAGCAAGAAAAGGGATGGCCGACGTTGCCTTGAAAACTGCTGACTCAGGTTATTTAACAAGAAGACTTGTTGATATTTCACAAGAAATTATTGTTACAGAAGATGATTGCAAAACTTCAAAAGGTTTTGATGTTCACTCAATTATTGAAACAAAACACGACAATATTATTGTTCCATTGAAAGATAGACTTGTTGGAAGATTTACTTTCAGCGATGTAATTGATTCAAATGGAAATTTAATTGTTGAAGAAAATTCATTAATTACATTATCATTAGCTGATGAAATTATTAATGCAGGTATTGAAGAAGTTCAAATTAGAACTGTATTAACATGTGATACAAACCGTGGTGTATGTAGAAAATGTTATGGTGTAAATTTAGCAACTGGTGAAGTTGTTACAATTGGTGAACCAGTTGGAGTTATTGCAGCTCAATCAATTGGTGAACCTGGTACTCAGCTAACTATGCGTACTTTCCATACCGGAGGGGTTGCTGGGGGAGCAGATATTACACAAGGGCTACCTCGTATTAAAGAATTACTTGACGTTACAAATCCAAAAGGTTCAATTGCTATAATTTCACAAATTGATGGAGTTATTAAAGAAGCAACTGAAGAAGATGGAATTATAACAATTGTTGTTTCATCAGATCAAGATGAAAGAAAATACAAATCACAATATGGAGCTATTTTAAGAGTAACAAAAGGTGAAACTGTAACTCGTGGTCAAAAATTAACTGAAGGGGCAATAAACATAAAAGAATTATTGGAAGTTGCAAGAATTGAAGATGTTCAAAACTATATCTTGAAAGAGGTACAAAAAGTTTATCGTCTACAAGGGATTGAAATTTCAGATAAATATATTGAAATTATTGTTAAACAAATGTTGAATAAAGTTAAAATTATTGATTCAGGAGAAACTGAATTACTTCCAGGAGAAGTTATCTCATCAAGAGCATTCAGAAATGAAGTTAAAAATGCTATTGTTGCAGGTAAAAAACCACCTCTTGCAAAACACGTAATCTTTGGTATTAAAAAAGCACCACTTGAATCAGATTCATGATTGTCTAGTGCATCATTCCAAGATACAGCAAGAGTTCTTGTTAAAGCTGTTATCAAAGGAAAAGTTGATAAACTTGAAGGATTAAAAGAAAACATTATGTTAGGAAATTTAATTCCTGCAGGAACTGGATTAACTGGTAGTGCAGATATTATCAAAAAAGGTAAGGAAACTTACAATTCAGAATATTAGAAATCTTAAATTTCTAATTAAGAAAATAAAAAAATACCATTAGTTTGGTATTTTTTTATTTTATCTCATTTTTTAGATCACATTCAAATTCATACAATGATGAAGCTACTATAAATAATATTCCTGATATAGGATTGAATAGTATAAGTGTAAATATTGAAAGTGTAAGATGAGCAGTTTCATTTTCAGTACCCACATTTTTTAAAGCTTTTTTTCCCATAATATACATAGGAATTAATCAAGCAAGTGGTATTAACATAACAATAAAAAAAAGTAAAAATCCAAAAAAATTTGATCTCATAGCAATTCCTAAAATTATAGCTGTAATAGCTAAAGATACTGCCATTAAAATAAGTACTATCAGATTTAAAATATTTCCTACTTTATAAAGTTTTGTTCTTGTTTTCATTTTTCTCCTTAAATATAAATACATTTTTTTAACTTAGTGAGTTTTAAATTAATAAAACCCACGTATATTATACTTTTTAAATTAAAATAATAACTCTTTTTTTAATATAATAGTGTATATTATTTTTTAAGGGGGATTGGAAATTTGAAAATTTTTATAGGAAATGATCACACAGCAACTGAAATGAAAAATAAAATAGTAGAATATTTAAAAACAAACGGACATGAAGTTGTAAATATTGGAACAAATTCTAATGATTCAGTAGATTATCCAGATTTTGGTAAAGAAGTTGCAACAAAAGTTGTAGAAGAAAAAGCAATGGGAATAGTAATATGTGGAACAGGTATTGGAATATCAATATCTGCAAATAAAGTTAAAGGAGCAAGAGCAGCTCTTTGTTATGAAGATCAAACAGCAATTCTTGCAAGAGAACACAATGACGCAAATATATTAGCACTTGGTGCAAGAATGATAGCAATTGAAAAAGCAGTTAGATTAGTAGATATTTTTTTAAATGCGAAATTTGAAGAAAGACATTCTTGTAGAGTAAACAAACTTAACAATCAATAAAAGGGAGAAAAAAAATGGCATTTACAATAATCAAACATCCTCTTATTTTAGATAAATTAACTAGAATGAGAAAAGAAGAGACATCTTCAAAAGATTTTAGAGAGAATTTAAATGAGATAGGACAGTTAATGGTTTATGAAATATTTAGAGATGTGCCCTTGGCAGAAATAGATATTAATACTCCAGTAACTAAAACAAAAGGATATACTATTGATATTCCAGTAGTTTTAGTACCAATCATTAGAGCCGGACTTGGAATGACAGAAGGAATTCAAAGATTAGTTCCAACTTCAAGAATAGCACATATAGGACTTTATAGAGATGAAGAAACTTTAGAACCTGTTCAATACTATGCAAAAACTACAAAAGATATTGAAACAAGTTATGTAATTGTTGTTGACCCAATGTTAGCAACTGGAGGTAGTGCATCAAAGGCAATTGAAATTGCTAAAGCATGAGGAGCTAAACAAATAAAATTTGTTTGTTTAGTTGCTGTACAAGAAGGTGTTAACAGAATAGTTAAAGATCATCCAGACGTTGATATTTATACAGCTAGTTTAGATCCAATTCTAAATGATCATGGTTATATTGAACCTGGTCTTGGAGATGCTGGAGATAGAATATTTGGAACAAAATAATTATTAAAAGATAATTATTTTTTTTAATTATGAATAAAATTTTCATAGATTTTGCAAATTAATAGGAGTATTATTAACTAGATGGAACTTGATAAAGGTGATTATAATGTTGTTTAAAAATAAAAGAACAATTATATTTCTCACATTTATTTCAATAATTCTAGTTTTAATATCAATTCTTACTTTGTTTAAAGTTGTTGATTATACATTTATTACAGGGTATATTTTAGGGTCAATTTTTTTGTATATTTCTTTTATATTTATGAAATTATCAATAAAAGATTTAACTGCTAATTTAAACCCTTATAATTTCATGTTTTTTTCCACTTTAAGAGTTGGTTTTTACATTGTTCCATTCCTTATAAGTTTTTATTTACCGATTATATTCAATATATATGGACTATTAACGGCATTTTTAATAAATTGAATTCCTTTAATTTTTATAAATAAGCAAAAGTAAGTAAATTTTTATATGGTACCAAAAAAATAAAAAAAGGAGGTTTTTATGTTCCTTTCAGAAAAAAGTGAAAGTATGTTGGGCGTTTGAAGCTCAATAACACCTCAGCTTTTATCTATTCTATTAACTTGTATTATTATTTGTACATTTTGTATAGTTTATAATGTCAAAATCAGAAATTATAAAGAAGATAAAAAATTAACTGGTTTTTTAGTTTTAACAGAAATGTTTATTACTAAAGTTGAAAATATGGTAGTTACAATTATGGGAAAAGCTCATAGAAAATTAACACCATATGTTATGTATCTATTTATGTATATTATGGTTTCTTCAATAGTGGCAATTTTAGGTATAGAACCTTTAACTAGCTCATATACTGTAACATTCTCAATGGGAATGGTAACATTTATAGGTATTTATTACTATGGATTAAGATATCAAAAATTAGCTTTCTTTAAAAGATATTATAATCCAATTGAAATTATTGGGCAATTCGTACCTCTAGTTTCAATTTCCTTTAGGTTATTTGGAAATATTCTTGGGGGAAGTATTTTACTAGGATTACTTTATGCTAGTTTAATAAAACTTCAAGGAAATATATTTTGACCAAGTGGTCCTGGAATGGTGTGAGAAGATAAATTAAGCTACTGATGAGCGGGATTTAATATCTTCTCAGTTATTTCACTTCCTTGATTACATTTATACTTTGACTTATTTGACGGAGCAATTCAATCGATAGTTTTCTCAATGTTAACTTTATCATATTGATCTGGAGCAAAAAATGGTGAAGGTGGAAATGAAGGAAAAGAAAAATTAGAAAGATAGTTTATAAAAGGAGAAAAAATTATGTTTGTAGAAACACTTACAACACTTACAACAACAATGGGAGGTAACATTATTTCAGTTATGCCTCTTTATACAACTTTGTTAATGTTTTTAGCTGAAAAAACAACTGGTGATGGATTAAAATTAATGGGTGCAGGTCTTACTGGAATAGGTATGATCGGAGCATCAATAGGACAAGGACTAGTTGGATATGGTGCATGTATTGCAATTGGAAGAAATCCTGAAACTGCACCAAAAATCACTTCAACATTAATTATTACTGCTGGTTTTGCTGAATCAGGAGCAATTTATGCATTAGTTATTGCAATTTTATTAATTTTCGTAGCATAAGAAAGGTGTGAGAATTATGCTTTTAGTAACTGCAGGAATTCCTAACGTCATTGAAGGATTATTTCCTAATTTAGCTAATTTTATTGCACATATCTTATCCACAATAGTTATTTTGATATTACTTACAAAATTAGTTTATAAACCATTTAGAGAAATGATAAAAGAACGTAGAAAAAAAATTAATGAGCTATTAGATGATGCTGCAGCAAAGCTAGCAAAAGCTAATAGAAATAATAAAGAAGCTTCTAAGTTTTTAGATTCTGCAAAAGAAGAGTCTAAACAAATTATTAATTCAGCTAAATTATCAGCAGATAATTTGAAATTAGAAATAATTGAAAATGCTAGAAATGAAGCTACAAATATTCAAACACATGCTAAACAAGCAATTGATTTTGAAAGAAATGAGATGCAAGAACAAATGAGACAAGAAGTAATTGATCTTGCATTCGTAGCAGCTGAAAAAATAATGAAAGAAAATATTAGTAAAGAAAAAAATGAAAAAATGATTAAAGATTTTATAAAAAGTTTGGACTAATTAAATGATAAAACAAGGTCTAATTAATAATTGAGCAACAGCAATTTGTGAATTGGCAATTGAGGAAAATAAAGTTAAATCATTTATAGAAACATTGGAAAATCTAAAAAATATTTTTGAAGAAAATGAAGAAGCTATAGTTTTTTTATCAAACAAATTTGTTCCTTTAAAAAGGAGAATAAATTTTATTAATGAGATTTTTAAAAAAGAAATAGATATATTACTTTTAAATTGTTTAAAACTAATAATTGAAAGAGAAAATTTCTCATCTGTGAATTATATTTTTAAAGCTTCAATAGATAAACTTTGAAAAACTTTGAAAATTGAAAAGGGAATTGTTTATTCAACAATTGAAATAGATAAAAAATCTATTTCAGAAATAGAAGAAAAAATTCATAAAAAAATAAATCAACAAATAAAATTGGAAAATAAAATTGACAATTCATTAATTGCTGGAATCAGAATTGAAGTTGCCAATAATATTTTTGACTATTCATTAAAAGGAAAAGTTGAAAATATGAAAAACAGTATTTTAGAAAATAGAAAATAGAGGTGATTACATGTCACTTAAGATAAATGAAATATCTGAAGTCATAAAAAAACAAATAAAAGAATATGGTAAAGAAATTATTGAATCTCAAGAAGGTACTGTAGCAAGTATTGGTGATGGAGTTGCTTTACTCTTTGGATTAGATAACGTTATGATGGGTGAACTTTTAATTTTCTCAAACAATATTTACGGAATGGCTCTTAACTTAGAAGATGGAGCTGTTGGTGCAGTTATTATGGGAGATGATTCAAAAATTCGCCAAGGTGATAAAGTTATAAGAACAGAAAAAGTTGTTGAAACACCTGTTGGAGATCAATTACTTGGAAGAGTTTTGAATGGTATAGGATTACCAATTGATGGAAATGGACCACTAAATAATGATAAATTTGCTCCTGTTGAAAAAATGGCATCAGGAGTTATGTCAAGAAAATCAGTTAATGAACCAATGGAAACTGGAATACTTGCAATTGATTCAATTATCCCAATTGGAAAAGGACAAAGAGAGTTAATTATTGGAGATAGACAAACAGGTAAAACTGCTATTGCAATTGACTCAATCATTAACCAAAAAGGGAAAAATGTTAAATGTATTTATGTAGCTATCGGTCAAAAAGAATCAACAGTTGCACAAGTTGTGGAAAAATTAAAACAAGCAGGTTCAATGGAATATACAACAGTAATTTCAGCATCAGCTAGTGAATCAGCACCAATGCAATATATTTCACCTTATACTGGTGTTTCAATTGCAGAAGAGTGAATGTCAAAAGGTGATGATGTTTTAATTATTTATGATGATTTATCAAAACACGCTATTGCTTACAGAACATTAGCTTTACTTTTAAGAAGACCACCAGGTCGTGAAGCTTATCCTGGAGATGTTTTTTACCTACACTCAAGATTGTTAGAGAGAGCTGCTAGAGTAAATGAAAATTATGGAGGAGGAAGTATTACTGCTCTTCCAATTATTGAGACTCAAGCTGGTGATATTTCAGCATATATTCCAACAAATGTTATTTCAATTACAGATGGACAAATTTTCTTATCAGAACAATTGTTTAATTCAGGAATAAGACCTGCAGTAGACACAGGTTTATCAGTATCAAGAGTTGGTTCATCAGCTCAAATTAAAGCTGTAAAACAAGTTGCAGGTACTTTAAAATTAGAATTAGCTCAATATTATGAACTTCAATCATTTGCAAAATTTGGAAGTGATTTAGATGAAACAACAAAAGAAACTTTGAATCATGGTCAAAAAATTGTTGAGTTATTAAAACAAAGACAATATAAACCTATATCTCAAATAGAACAATCAATTATATTATTAGCTATTAAAGAAAGATTAATAAGATGATTACCATTGAATGAAATGATTAATTTTAAAGAATCAATTATAAATCATTTTGAAAGTAATAAGGAAGCAAAAGCACTTAGAAAATTGCTAGCAACAGAAAAAGATTTCTCAAATGAACTTTATGAAAAAATAAAATCTCATGTTGTTTTAGTTTTAAAAGATATGACTTCAAAAATAAAAGGTTATGAAGCATCTGATTTTGGTAAAGAAGAAGAGTTTAAAAAATTAAGCTAGTATGCCAAATCTTAGTGAATTAAAAAATGAAATAAGTAATATAAAAGATATTAGAAAAATTACAGGGGCAATGGAGTTAGTTGCCACTTCAAAATTAAAAAAAATATCTAAAAGAATGGGTAACATTCAAACTTATTTAGATGAAGTTTACGAAGTTTTTAACTATATTATTTCTCACTCTGAGGACTCAATATATTTAAAAAAACCAAATCAGAAATTATCAAGTACTTTATGAATAGTTATTGGATCAAATTTAGGACTGTGTGGAGGATATAATTCAAATATTGTTAAAGTATTAAAACCTTTAATAAATAAAAAAACAGATAGTGTATTTGCTATTGGAACAAAAGTTATAAATTTTTGTAAAGCAAATGGTATAAATATGAAAGAGCAATTTACAGATATTGATGTAGATTTTTCAAATGAGTACTCAAGAGAAATGTCTGTTAACTTATTAAACTATTTTGTTCAAAAAGAATTTGATCAAATTAAAATAGTTTACACAAAATTTATTAATAATGTTACTTTCGAACCAAAAGTTTTAGATATGTTTCCAATAGAAAAAAAAGTGGACAATTCTGATACATATGAAGATGTAATATTAGAACCAGATCCAGAAACAGTATTAACAACAAGCGTTTCAATGTATTTGAATACAATTTTATTTGGAACAATAATTGAATCGCAAGTATCAGAACAAGCAAGTAGAAGAATGACTATGGAAGCTGCAAATAAAAATGGAAAAGAACTTTCAGAAAGTTTAAGAGTAATGCTTAATCGAAAAAGACAAGAAAATATTACTCAAGAAATTAGTGAAATCATTGCTGGAGTTAACGCTCAAAATGAAGATTAGAGGTAATAAAAATTATGGAAAAAATTACACAAGGTAAAGTTGTTCAAGTCATGGGTCCTGTTGTTGACGTTAAATTTAAACAAGAGGATATGCCAAAACTTTACAACACAATAGAATTAGATAATAACGGAGTTAAATTAGTTCTTGAAGTTGTTCAACATATAGGTGATGATTTAGTTAGAACTATTGCTATGGGTCCAACTGAAGGATTAGTAAGAGGAATACTGGGTACAAATACTGGAGGACCAATTAGTGTTCCTGTTGGAGAAAAAGTTCTTGGAAGAATGTTTAATGTGCTTGGAGATCCTATTGATGACAAGCCTGAAGTTGAAAGTGAAAGAATGTCTATTCATAGATTAGCTCCAAGTTATGATGAGCTTGCTACTTCTGCTGAAATTTTAGAAACAGGAATCAAAGTTATTGATTTAATGATGCCTTTTGCAAAAGGTGGAAAAATTGGATTATTTGGTGGAGCTGGAGTTGGTAAAACAGTTTTAGTTCAGGAATTGATTAACAATATTGCCAAAGCACATGGTGGAATTTCTGTTTTTGCAGGAGTTGGAGAAAGAACAAGAGAAGGTAATGACCTTTATTATGAAATGATTGATGCAGGTGTTATTGATAAAACATCTCTAGTTTTTGGACAAATGAACGAACCACCAGGAGCAAGAATGAGAGTTGCGCTTACTGGATTGACAATAGCTGAATATTTTAGAGATTTTAAAAATCAAGATGTGTTGCTATTTATTGATAATATATTTAGATTTACACAAGCAGGTTCAGAAGTTTCTGCCTTACTTGGAAGAATGCCTTCAGCTGTTGGTTATCAACCAACACTGGCAACAGAAATGGGAGCACTTCAAGAAAGAATTACTTCTACTCAAAAAGGATCAATTACTTCAGTTCAAGCAGTTTATGTTCCTGCAGATGACTTAACAGATCCAGCACCTGCAACAACATTTACTCATTTAGATGCTCGTGTTGTTTTAGACAGAACGATAGCATCTCTTGGAATATATCCAGCTATTGATCCATTAAACTCAAGTTCAAGAATGTTAGATCCTGAAATAGTTGGTGAAAATCATTATCAAATTGCTTTAAAAGTTCAAGAAATATTACAAAAGTATAAAGAACTACAATCAATTATTGCAATTCTTGGTATGGAAGAACTATCAGAAGAAGACAAAATAGTTGTTAATAGAGCAAGAAAAATCAGAAACTTTATGTCACAACCATTTACTGTTGGTGAAAAATTTACAGGAAGAAGTGGTAAATACGTTCCTGTTGCTGAAACAATAAACTCTTTTGATTCAATTTTAAAAGGGGATGTAGATAATATTCCTGAAATTTTATTTATGTATGCAGGATCAATTCAAGAAGTTATTGAAAGATTTAAAAGTAAAAAATAATGCAATTAACTAAATTGAAAATAATTACTCCTGATGGTATATATATAAATGATTTAGAAGTTGAAAATGTTAGTGTAAGAACAGCAGATGGACAAATTACAATTTATGCAAATCACTCAGCTATAGTTTCTACTTTATTAATTGGAGATATGAGATATGAAATAAATGGTACTGTAAAGTATATTCATTTACATAGAGGAATATTGAGAGTTTCAAAAGAACAAATTAAAATATTAACTCAAAGATTATATGAAGTAGATGAAAAAGGTCAAAGATTAAAAAAATAAAATAGTTATTTTATATAAATTTTAATAATAAAAAAGCAGATTTAAGATTTCAACTCTTCCTCTGCTTTTCTTTTTTCTCTAATTGCTAATTGTTTTTGTACTTTATCTTCAATCATTTTTGTGAATGCTCACATTTTTTCTCTTTTTAAAAATCCCATAAATCTAATATAGTTAACTTTTAAAGGTTTAAAATTTATTCTTCCAATTTCAACATTTTTTAAAATACGAGCAATTTGCTTATTCATTAAAACTTGATCTTTACATTGTTCAAGTTTTTTTCTTTGTTCTTCTGGAAAATCGTTTAGATTCTTATAAACATTTTCAATACAACCATATTTTGAAATAAGTTTTGTAGCAGTACTATAATGCATACCTCTAACACCTTTTATATTATCGGATTGATCTCCCAATAGAGATTTAATATCTGGTATTTGACATGGCTTACATCCAAATTTTTCAATTACCTCTTTTGTTGTTATTATTTCTTGTTTACATTTCTTTGATTGTTGTGAAACAATTCTTACATCTTCTGATACTAATTGATATGTATCTTTATCATTTGATACTATATCTACTTGATATCCTAGTTTTACTGCTATTCTAGCAATTGTTCCCATGATATCATCACCTTCAAATTTCACTTTTTCATATCATGGAATATTTGCTGAGGTTAAAAAATCTCTTACCAATTGCATTTGAGGAATCAAATCAGATGGTGTTTCTTTTCTTGTAGCTTTATATTCTGGATAGATTTCTCTTCTTCAACATTCTTTACCAACATCAAATGTTACTATAACTGTATGATATTCATTTGATTGAATTAATTGAAAAATATTTGCAACAAATACATATACGGCATTTATTAAATAACCTTCTCTATTTATTGCAATTTTTTTTCTTTTTAAACTTCCATAATAACCCTTATGAAGAAGGTGATATCCATCTATGATTACCACTTTTTTCTTATTCATTTTTATTCTCCTTCTAGTAATATCCTTGTTCTTTTTTTGTTATTTTAATTTTATTTTTAATTGAATCCAATTCTTCTAATTCTTTTAGTTTAAAATTGGCATAAACAGTTTCATTTACAAATTTATAGTTAATTTCATTTCATATATTTTTTAAAAATAGATTAATACTTTTAATATCAGAGATATTAAAACAGATTTCTATATTATAAAGAAATTCTAATTTTTTAAAATTAATTTCTTTTATCATTTTAATAGCACTAGCACTATAAGCTTTTTGCAAGCCCCCAGTTCCTAATTTAATACCTCTATAATATCTTTTTACGAAAATAATTAAATTAGTTAAATTATTTACTTCAATTAACTTTAGCAATGGTTCACCTGCTGTTCCGTTAGGTTCTCCATCATTATTGTATCCATAAGTTAATTTTTCATCACCATATCTATATGCATAGCAATTATGGGTTGCGCTTTTATCTCTATTATTTTTTAAGAAAATATCTAATTCTTCTTTACTTTTAATTTTTGAAATATAGGTAATGAATTTTGATTTTTTAACTGTGTAATCTGATTCAACAACTTTTTCATTGTTTAATATTTTTAAAAATATCATAACTTTTACCACTTATTATTTTACCTTTAATAAGAATAAAATATAATAAAATTTGCATTTATTATAAATTCTTTCAAATATTAATACTATAACTTTATATTTCTTAATAATAATTGTATAATTATTAAGATTTTGACTTAATAAAAAGGAGTAGTTTTAATGGCAAGAGATAAATCGATAATTAAAAAGCACGGAAAAATAGCTGATGAAATTATCTCACTAGAATCAGTTTATGAAAAATTAAGTGATTCAGATTTAGCAAAAAAAACCCAAGAATTTAGAGAAAGATTAGAAAAAGGAGAAACTTTAGACGATCTATTAGTTGAAGCTTTTGCAGTTGTAAGAGAAGCTGCATTTAGAGTTTTAAAATTAAAAGCATATAAGGTTCAACTTATTGGAGCAATTATCTTACATCAAGGAGATATTGCAGAAATGAGAACTGGGGAAGGTAAAACTTTAACAGGTCTTTTTCCTGCCTATTTAAATGCTCTCTCAGGTTTAGGAGTTCACGTTGTAACAGTTAACGAATATCTTTCTCAAAGAGATAGTGAAATAAATGGAAGTGTTTATAATATTTTAGGTTTAACTGTTGGTTTAAATGGAAGAGATCTTTCAAAAGAACAAAAAAGATTTGCCTATGCACAAGACATTACTTATACAACAAACTCAGAATTGGGATTTGATTATTTAAGAGATAATATGGTTTATCGTTTAGATCAAAAAGTTCAAAGAAAATTAAATTTTGCAATTATTGACGAAGCTGATTCAATTCTTATAGATGAGGCAAGAACTCCATTAATTATTTCTGGAGGTAGTCAAAATAGAATTAATTTATATAAAGCAGCTGATTCTTTTGCAAAAACTTTAGATCAAAAAACTGATATAGAAATGGACTTGGAATCAAAACAGGTTTATTTAACAGAATCAGGAATAAAAAAAGCTCATAAATTCTTTAGTATTGAGAATTTATTTGATTTTAGAAATACTGAACTATTCCACTTAATTATGAATGCTTTAAAAGCTTTATTTACATTTAAATTAGAAGTTGAATATACTGTTCAAGATAGTGAAATTATTTTAATTGATCAATTTACAGGAAGAACTATGCCAGGTAGAGCATACAGTGATGGATTACAACAAGCACTTCAAGCAAAAGAAGGTGTTGAAATAGAAGATGAAACTACAACACTTGCAACTATTACTTATCAAAATTTTTACAGGCTTTATAGTAAACTTTCTGGTATGACAGGTACTGCAAAAACTGAAGAAGAGGAATTCTTAAAAATTTATAATACAAGAGTAATTGTTTGTCCTACAAATAAACCAATTATTAGAGTGGATGAACCAGATTTAACTTTTGGAACAATAAATGCAAAATTAAAACATTTAGTAAGAGATCTAGAAGAAGTTACACAAGCTGGAAGACCTGTACTTATTGGTACAACTTCAGTTGAATCTTCAGAACAAGTAGCTCATTATTTACAAAAAGCTAATTTAAAGTTTGAAATGATTAATGCTAAAAATCACCATAGAGAAGCAGAAATTGTTGAAAAAGCAGGACAAGTAGGATCAATTACTTTAGCAACTAACATGGCAGGTCGTGGAACTGATATTAAACTTTCTGATGAAGCAAAAGCAAATGGTGGATTGTTTGTTATGGGTATTGAACGTAACGAAGCAAGACGTATTGATAATCAGTTGCGTGGTAGAGCAGGAAGACAAGGAGATCCAGGAACTTCAAGATTTTATATTTCAATGGAAGATGAACTTATGGTTCGTTTCTCTTCTCCAAAATTAAGACAAATGTTTTTAAAACTTGGAGATGATCATATTAAATCTAAATTATTTACAAGAGCAATTACAAATGCTCAAAAAAAATTAGAAGGTTTAAATTTTGATCAACGTAAAAATGTTCTTGACTATGATAATATTCTTTCACAACAACGTGAAGCTATTTATGCACAAAGAGATTCAATTTTAGAACAAGAATCTTTAAAAGTTGTTCTTTCAAGATTCCATTATACAATTGCATTTGAAATTGTAGAAAGAAACTCTGAGTTGGTTCGTGGAGAAAGAACAATTAATATTCCATTGCTAATTCAAGAAATAGATGGAAAATTTGTCTTTGAAGGAAGTTTAACAGAAGTAGATTTTATAGGTTTAGAAAAACAAGAAATAGCTAAAAAAATATCAGAAAAAATGATGGAACATTATTTAAATAAATCTAGCTCAGTTCCTCATGAAGTAATTTCTGAAATGGAAAGAAGAACAATTCTTCAAACCTTAGATTATCATTGACAGAAACACATTAATTTAACTCAAAAATTAAGAAGTGGTATTTACTTACAACAATATGCACAAAATAACCCATTACATGAATATGTAGAAGAATCTGCAAAATTATTTAATAAAATGAAAGTTATGATTGCAGAAGAAACAATTATAAAATTAAATGGTTCATTTGTTAGAGAAATGAAAATGGATGAAGATATTAATTTTGTAGATTTACAACCTAAAACTGTAAATATAACAGATAAAGATATTGATGATATTCTAAAAGAATGAGATATTCCAAAAGAAAACTTTGGAAGAACAGCTGTTGAAAAAAGACTTAAAGAATTGCAAAAACAATTCAAAAAAGATAAAGATCAATTAGAAAAAGTAAATTTCCAATTTGCAGTTCTTGATGGTTTAATGAAAAAACTTGACGAGATGTTTGCTCAGCAAAATAAACAAGCAGCTGAGTTATCATTTGAAGCAGTAGAAAAAATAACTAAGAAATTTAATCTTGATAAAACATTCACAAAAGAACAAGTTAAAGAAAGCTTTGATAAATTGATAAAAGAAGCTGAAAAAGATGAAGAAAAAACTAGTCTTTTAATAGAAACTCAAATATTAATGGCAATAGCAACTCAATTTGAATCTAACCAAAAAGAATTCACAATAACTGATGAAGAGGGAAATGTGAAAAAAGTTTTCAAAACAAATCCTGATGGTTCAATTTCAGAAGATGATATTGAAGATACAGAGCAAGTTCAAACAAAAACAAAATTAGGATAAAAAAAAATTTTATAATTACTTTATATAAACAAGAACTATATATTTTTCTTGTTTTTTTCATTTATCTATGTAAAATAATTGCTAGGAAATGACATCTCTAGGGGCTAAGCTCTAGATTTTTTAGTTCCTGTAATGGAGATGAGTATGAGATATGGAAAATTTAAAACAAAAATTTGAATTGGTCACTGATTATAAACCCAGTGGGGATCAACCAAATGCAATTATAAAATTAATTGATGGCTTAAAAAATAATGTTAAAAACCAAGTATTAATGGGTGCAACAGGTACAGGAAAAACTTTTACAATGGCAAATGTTATTAAAGAAATAAATAAGCCAACCTTAGTTTTAGCACACAATAAAACTTTGGCAATGCAATTGTATATAGAATTAAAAGAACTATTTCCAAATAATAGAGTAGAATATTATGTTTCAAATTTTGATTTTTATCAGCCTGAAGCATATATTCCCTCAAGAGATTTATATATTGATAAAGATGCAAAAAGAAATAATGATTTGGAAATGATGAGATTAAGTGCTATGAATGCATTAATGATTAGAAAAGATACAATAGTTGTCGCATCAGTTGCTTGTATTTATGCAACTCAAGATCCAAAGGAATATGGAGATGTATTTTTTGAACTACAAGTTGGTCAAGTTTTATCTAAAAAAGATTTATTAACTTTTTTAGTTCAAACAGGATATACAAGAGATGAAAATGATCTTGCAATGGGATATTTTAGTGCAAAAGGTGATGTAATTAGAATTGCACCTAGCTGAACTGATAAATATCATATTAGAATTTCTATGTTTGGTGAGGAAATAGAATCTATAGAAATGATAGATATTTTAAACAATCATGTTTTAGAAAAATTAAGAATGTTTACAGTTTATCCTGCTGCAGCTTATGTGACTAATTTTGACAAAATGAAATTAGTTGTGGAAAATATTGGAAAAGAACTTGAACAAAGAGTTATATGATTTCAAGATCAGAAAAAATTTATTGAAGCAGATAGATTAATGAAAAGAACAAAATATGATATGGAAACAATGAGCGAGTTTGGAATCTGTAGTGGAATAGAAAATTACTCTCCTCATTTGGATTTTAGAGCTCCAGGTGTTCCTCCTTTTACATTAATAGATTATTTTGGAGATGATTTTTTAACAATTATTGATGAATCACATATGATGATTCCTCAATTGAATGCAATGTACAATACAGATAGAAGTAGAAAAGAAACTTTAATTGAGCATGGATTTAGATTACCAAGTGCAATTGATAATAGACCACTTAAATTTGAAGAATTTGTAGGAAAATTAAAAAATGTAATTTATACTTCAGCTACACCTGGACCCTATGAATTAGAGTTAACAGAAAATAAAGTTATTGAACAAATAATTAGACCTACTGGTTTAGTTGATCCACAAATTGAAATTCGCTCGACTATAAATCAAATGAATGATATAGTTGATGAAATAAATAATGTTGTAAAAAAAGGACAAAAAGTTTTTATAACTGCTATTACAATTAGAATTTCTGAAGATATTACAACTTATTTACAATCAAGAAATATAAAAGTTGCTTACCTTCATTCTGAATTAAAAACTTTAGAAAGAAATCAAGTTTTAACAGATTTAAGAAAAGGAGTTTATGATGTTATTGTTGGAGTTAACTTATTAAGAGAAGGTTTAGATGTACCTGAAGTAAGTCTTGTCTGTATTTTGGATGCAGATAAACAAGGTTTTTTAAGAAATACTAGAAGTTTAATTCAAACAATTGGTAGAGCTGCAAGAAACTCAGAGGGTAGAGTTATATTTTATGCAGATTCAACTTCTCAAGCTATGAAAGAAGCTATTGAAGAAACTGACAGAAGAAGAAAAATTCAAGAAGAATATAATGCAGTTCATGGAATAACTCCAAAGACAATTATCAAAAAAATATCAGATATTATTTCTGATTCAGCAATTAGAAATAAAGTTGATGAGTTAAAAAAATTAAAAAGAAAAGACAAGGAAAAGAAAAAAGAAGATTTTATTTCAGATTTAAGAAAACAAATGTTAACTGCGGCAAAAGAACAAAATTATGAAAAAGCTGCAGAACTTAGAGATCTTATTTTAGAACTACAAGCAGAAAGTTAGAAGGTATAATTATGAATAAAAAAATTATTGTAAAAGGTGCAAGAGAACATAATCTAAAAAATATAGATATTGAAATTCCCAAAGAAAAACTTGTTGTATTTACGGGTCTTTCAGGAAGTGGAAAATCTTCATTAGCATTTAATACAATTTATGCAGAAGGTGAAAGAAGATATATTGAGTCATTATCTTCATTCTCAAGACAGTTTTTAAAATCTGTAGAAAAACCAGATGTAGATGAAATAGAAGGTTTAAGTCCAGCAATTTCAATTGATCAAAAAACTACAAGTCATAATCCAAGATCAACTGTTGGTACTACAACAGAAATTCATGATCACTTAAGATTATTATTTGCAAATATAGGAACACCATTTTGTATAAATGGTCATGGTCCTATTAAAACTTCTTCACTAAAAGAAATAATTGAAACAATTAAAAAAGAAACAAAAGAAGATGATCAAATTTTTATTTTAGCACCAGTTGTAAGAGATAAAAAAGGGACTCACAAAGATCTATTATTAAAATTAAAAAAAGAAAATTTTTTAAGAGTTCAGATTAATGGAGAAATAAAAAATTTAGAAGAGGAAATTGAATTAGAACAAAATAAAAGACATAATATTGATATTGTTGTTGATAGATTAATATACAAATCAGAAGATGAGGATCTGCAATCAAGAATTTATTCTGCTATTGAAGTAGGTTTAGGATATTCAAATGGTTTAATAAAAATTAACTATCCTAAAAGAAATGACTTTACAAAATTATTCTCAACAAAATATTCTTGTAGTGAATGTGGTTTTTCAATTCCAAATTTGGAAGCAAATTTATTTTCCTTTAATAAAAAAAATGGAGCATGTGAAACTTGTTCAGGTTTAGGTGTAAATTTAGAAGCTGACCCAAGTTTAATAATTCCTGATTCATTACTTTCAATTAGAGAAGGTGGAATTTTATATTATAAAAATATTATTGATACAACAAATATTGAATGACAAAGATTTAAGCTACTTTGTGATTATTATCTAATTGATTTGAATTCACAAATAAATCAATTAAATGAAAAACAAATTAATGTAATTCTTTATGGAAGTGAAGAACCCATTGAAACAAAAATTGTAACAGTCAGTGGTAATGTTTTAAGAGCTTTTGATTATATTGAAGGTGTAGCAAATTTAATTGAAAGAAAATATATAGAAACAAAATCAGAAGAGAACAGAAAATATTATGGCAAATATATGATGTCTAAAATCTGTAAAACTTGTAATGGTAAAAGATTAAATGATGTGGCTCTTAGTGTAAAAATTAATGATTTATCAATTGCTGAATTTGTGGAAATGACAATTGAAGAAGAGTTAGAATTTTTATTAAATTTAAACTTAACAGAGCAGCAAGAAAAAATTGCAAACTTAGTTTTGAATCAATTAGTATCAAGAATTAGTTTTTTAAATGAAGTAGGATTAAATTATTTAACTTTATCAAGAAGTGCAACAACTCTATCAGGGGGAGAAGCACAAAGAATTAGATTAGCTAAACAGCTAGGTTCAAAATTATCTGGTGTACTTTATGTTTTAGATGAGCCATCAATTGGATTACATCAAAGAGATAATGATAAATTAATTAGTACTTTAAAAAAATTGAGAGATTTAGGAAATACATTAATCGTTGTTGAACATGATGAAGATACAATGAAAGCTTCTGATTGAATTGTTGATATTGGTCCTGGAGCTGGAGTCGAAGGAGGATATATTACAGCTCAAGGTACTTATGAAGAAATATGTAAAAATCCAAATTCTTTAACAGGAAAATATTTATCAAAACAGCTATCAATACCAACTCCAAAAAAACGTAGAGGTGGTAATGGATTAAAAATTGAAATTAAAGGTGCTACAGAAAATAACTTAAAAAATATTGATGTAACAATTCCTTTAGGTAAATTCATCTCTATTACAGGAGTTAGTGGAAGTGGAAAATCAACTTTAGTAGAAGAAGTTATTTACAAAGGTTTAAAAAAAGAACTGAACAAAGAATTAATTCGTCCTGGAAAATATAAATCAATGAAGGGGTGAGAAAATATAGATAAAATAATTTATGTTTCTCAAGATCCTATTGGTAAAACTCCAAGGTCAAATCCAGCAACCTATACATCAGTTTTTGATGATATAAGAGATCTTTATACTGAAATACCTGAATCTAAAATTAGAGGTTACAAAAAAGGAAGATTTAGTTTTAATGTTCCTGGTGGAAGATGTGATGCATGTTGAGGTGATGGTGTTGTTCGTGTAGATATGCAATTCTTAGGTTTTGTTGAAGTTGTTTGTGAGATTTGTGATGGAAAAAGATATAATGAAGAGACATTACAAATAAAATATAGAGGAAAAAATATTTGAAATGTATTAAATATGACAGTTCAAGAAGCTCATGATTTTTTTGAAAATATTCCTAAAATAAGAGAGAAGCTAGAAACAATTTTAGCAGTTGGTTTAGGATATATTAAACTTGGTCAAAATGCAACAACTCTATCAGGGGGAGAAGCGCAAAGAGTTAAGTTATCAACATTTTTATTAAAAAAACAAACTGGAAAAACTTTATTTTTATTAGATGAACCAACAACAGGGCTACACATTGATGATGTAAAAAGATTAATTGAAGTTTTAAATATTTTAGTAAATCAAGGAAATACTGTTTTAACTATTGAACATAACTTAGATTTTATAAAAGTTTCAGATTATGTAATAGATTTAGGTCCTGAAGGTGGAAGTGGTGGAGGAACTATTCTTGCTACAGGAACACCTGAACAAATAATTGAAAGTAAAGAAAGTTTTACTGCAAAATATTTGAAGGAGTATTTAAATGATTAATGTAGAAGAAGAGTTAATTTCATCAGATATAATTTTTAAAAAGAATTATAATTTAAAAAAACTTTTAAAAGATTTAGGAAATCCTCAAAATAACTTTAATATAATTAGTATTGTAGGTACAAACGGAAAAGGATCTACTTCTCAATTTATTTTTAGTGGACTTAAAAAAAAGTTTAAAAAAGTAGGCTTATTCATCTCACCTGCTTTTATATATCAAAATGAAAGAATCCAATTTAATACAGAAATGATATCTGATAATGACTTAAAAAGATTGTTATTAGAAAATGAAGAATTAATTAAAAAATACGAACTTACTTTTTTTGAAATATGAACTTTTATTGCAATACTTTATTTTAATGAAAAAAAAGTTGATATAGCAGTTATTGAAGCTGGTATTGGAGGAGTTAAAGACTCTACAAATGTTTTTGAAAAACAACTTGCTGTTTGTGTTACATCTCTAGGTTTAGATCATCAAGAAATACTTGGTTCTTCTATAGAAGAAATAATTCAACAAAAGTTGCTAATTGCAAAAGAAAATGTAAAAATTTTTATAAGTGCTGATAACTTAAAATATAAAGAGATTATTGATAAAGTTAATAATAATGCAAAAGTTTATACAAAACAAATAAATGATCCAATATATTTTCAAAGTTTTAATAAGGGACTTGCTTTAGAATTATTACAATACTTAAATATATCTGTCACACATTTTGATATATCTCCACTTGGTAGATATACTATATTAAAAAAAGATCCCTTATTTATTTTAGATGGCTGTCATAATTATGATGGAGCTTTAAAACTTTCTAAACAAATAAAAGATATAGATAATTTGATAATTTTATTTGGTTCTAGTGAAGGAAAAGATCAAATAGAAATGTTAAAAGTTTTTAAAGAACTAAAAAAGGAAATATTTCTAACAGAGTTTGTTCATAAAAAAGCTTGAAAAATAGATAAGAGTAAATTTGCTGAATTCAAGATTATAGATAATTGAGAGATATTTTTAGCAAATAATAAAGATAAAAATATTTTAGTTTGTGGAAGTTTATATTTTATTCCACTAGTTTATAAATGATTTGAGGGACAATAACATGAACTTTTATTTATATACAAATATAGGAGCTGGAATTTTAATTATGATAATTTTTGTTTCAGCTCTTGCCTTAGAGAATTTTACATTTAAAAAGATTAGTTTAAAGCACTTAACAGTTATATCTTTATTTGCTGCATGTAGTGCTATATTAACAGGACTTACATATAAAATACCTCCAATATTTGGAAACATTCATATTGCTTTGGGAGACTGAATAATATTTTTATTAGGACTTATTTTTGGTCCTTTGTGTGGAGTTATTTCAGCAATTTGTACAGATACCTTAATGGCAATTGTATTGCCAAGCAATTATGGTTATCATGCTGGATATATGTTTGGAAAGTGTGTTTTAGCGTTTTTTGGTTCGCTTGTATTTTTAACAAGAGGAGAAAAACGAATTTTATTAAAAGTAATTGTTTTGTATACTGTGGCCTATATTCTTCAAAGTCTATTTTTAAATCAAATATGAATGATGTCTTGGAAAGGAATGGCAGCGTGATTGGATTTTATAAGTAAACTTATTAAGTTGCCTATATCTCTGCCAATATACATATCAATAACTTATTTATCTTATTTGCCAATAAGAAAATTATTGGAAAATTGAAATAATGAATTTGTTTGGTGTTTTAAATCCGAGTATTTAAATAAAAATCTAGATTACTAAATCTAGGTTTTTATTTCATTTATTAGTTATAATTACTAAAGAGGTAGTTAAAAATGAGTAAACTTTATGCAAAAAAAATAATTGAATCCTTTAAATTAGAAGTGGTTTCTGGAGAAAATAAATTAAATAATATAATAGAAGTTTATGGTATAAATAGAGCTGGACTTGAATTAACTGGCTATTTTGAAGAGGGTGAAAAATCACATAGAGTAATTGTTATGTCAACAAAAGAATACTCATATATTATGAATTTCGAAGAAAGTGAAAGAGAAAAAAGATATGAAAAGCTATTTTCAAGAAATATTCCAATGATTATTCTTACTGACAAATTTGAAGATAATATAGCAATTGAAGTTGGTAAAAAAACTAACTCATTAGTTGTTAGAACAAATACTGAATCAACTAGTGATTTTACTCAAAATGTTTTGGAGTTTATGGATGATTATTTTGCTCCTTTAACAGAAGTACATGCCTCTTGTATAAATATTTTTGGTAAGGGTGTTTTATTAATTGGTGAATCAGGAATTGGTAAATCAGAGATTACACTAGACCTAGTTAAAACAAATCACTTATTTGTAGGTGATGATAGAATAGTTATTACAAAAAAATCAAATGAATTATATGGTAAAAGTCATGAAATTTTAAAGAACCTAGTAGAAGTTAGAGGAATTGGAATTGTTGACGTTTCTCAAACAAATGGATATCAAGTTATTTTAGAGAAAACTAAAATAGATTTAGTAATTGAATTAACTCAATTTAAAAAAAATGGAATAGATGATTCAGAAAGATTAGGAAATGCTTTTGTTGGATATAATATTCTGGGTGTTGATGTTCCATATATAAAAATTCCTGTTTCTTCAGGAAGAAATATACCAAATATTATTGAAGCTGCGGTTGCTAAACTAAAAATTAAACAAAGTGGTTTATATCAAGATGAAGCTCAAATTTTAAGCGAAAGAGCAATGAAATTTAATGATGATTAATTTTTTATCAAATATTATTTGAGATAATGGTCAACCAATACCTTCTGATTATTATGATTCTTTAAAATTTATGTATCCTGTTTTAGTAGGAATTGGTGTTTTTTCTGTAATTGGTGTATCTGCTTTTAAAATTTGAAAAAGGGGAATCCCATTAAAAGAATTTGTAAATGCAATTTATATTTCTTTGCCTGTGGGAATTCTTGGTGCAAGTATTTTTGGTAAGTTGGGATCATATGGAGATCAATGAAAAATATATATGCTACTTTTCTTTTGACATGGAGGTATGAGTATTTTTGGAGGACTCTTGTGTGGTGGAACTGTAGCTTTTTTATGGTTTTGACACAAAAGTAAAGTTACAAGAGTTTCTGTATATGTATATGCTGATTGTATAGTTCCAAATATTTTATTAGGTCAAGCAATTGGTAGATGAGGGAATTTATTCAATCACGAAATTTTGGGAAGAAGAGTTGATGATGTAAGCAAAATAAATTGATTACCTGATTTTATTTGACATAGACTTTTTTATCTTCATGATTTGTCTCAACCAGGTCAACCTGAAATGACAGAAATGCAATTTTGTGAACCCTTATTTTTATATGAATCTATGGCAACATTAGCTTTGTTTATTTTAATAACTTTTGTTTTTTCAAATATAGGAAAATGAATTAGTAAAAAACCATGAAAAATAGATCCAATAAACTTTCCTTGTAAAGCTAATAAAACTTATAAATCTGTTGAAAGAGATAGTTTAGATGAATATCCTACTCAAATACCAGTTAAATATTTAATTGACAAAGATGGAAAAGTTTATTTATCAAAAAGTTGAGTTTGAAAAAAAGCATATCTTTTGTATGAACCAAAAAAAGCTTTAGTTGAAGCAGAACAAGTAAAAATAAATAATCAAAAATCTATTGCTTTAAAAGCCAGAGAAAAATATAATAATATGGTAAGCAAAATAAAACAAGAAATAAATAGTCAAAAAGCAAAATTAGATAAAAATAAAATAACAAAAAATCAATTTAAATCAGCTAAAAAAGACATTAAAAATAATTATAAAAATGATATTAAGATGTTAAAAAAACAAAAAAGTCCTTTAATGAATTTTATTAAGAGAGATTCAAAAGAACTTTATAATTTAAATAATCCAAATAATTATAATGTAGTACATTGTGGAGTTTTAACTAGTATTTATATTTGTGGATATACTTTTATAAGATTTATATTAGATCCACTAAGAAATCCATATGAATTAACTGTAAAAGAAAATTCAATTTTAAACTATTTATTCTTAACAGCATTTTTACTTTTTGGAATAGTGTTGTTTATTTGCTCACAGTTTATAGCTCCAAAAAAATGAAGAGAAGAGGGTTGATTATATGAAAAATCATATTAATACAGATTATGATTTAATAATTGCAGGTGCAGGACCAGCTGGATTAAGTGCTGCAATTTATGCTGGAAGAGCAGGACTTAATGTTTTAGTTTTGGAAAAGGAAGCACCTGGTGGAAAAGTTATTAAAACTGGAGAAATTGAAAATTATCCAGGTTTTACAAATATACAAGGACCGGATTTAGCAATGCACTTTTTTGAACAAGCAAATGCAATGGGAGCGAAATTTGAATTTTCAGGACTTAAAGATTTTGAAAAAAAAGAAATATTTGAAATTGAATTAGAGAATGGAAAAGTTTTAACTGCAAAAGCATTAATAATAGCAACAGGAACAAAAGAAAATTTACTAGGTGTTCCTGGAGAAATTGATCTATATGGAAAAGGTGTTTCATACTGTGCAGTTTGTGATGGAAGTTTCTATAAAGATATGCCTGTAGCTGTTGTTGGAGGGGGATATAGTGCTATTGAAGAGTCACTATTTTTGACAAGATTTGCATCAAAAGTTTATCTAATTCACAGAAGTCAAAAATTTAGAGTTGATCAAAAATCATTGCAAAAAGCTAAAACAAATGAAAAAATAGAATTTATTTTAGATACAATTGTTGAAAAAATAGAGGGAAAAGATAAAGTTTCATCAATTAAGATTAAAAATACAATTAAAAATGAAGAAAGTGAATTAAAAGTTAATGCAATATTTCCATTTATTGGGCACTATCCAGTAACAAGTTTTATTAAGCAAATTGAAGTATTGGATGAAGAAAAGCACATAATCGGGGATGAAAGAATGAGAACCAAAATTGAGGGCTTATTTGTTGCTGGAGATGTTAGAAATACTCCTTTTAGACAAATAGCAACAGCAACAGCTGATGGGGCATTAGCTGGTCAAAATGCTGTAAACTATATTGAAAATAAGTATTAAAATATCAAAGTGTTTTTATTCTTTGCTATGTTAAAATATACAAAGTTAAAAGGTGTTGATTATAGATGTTATTTAGTTGAATACAAGGCGATAACTGAAAAAGCCCTACAGATAGTCAATGGTGAACAGTAAGAGACGACTATGGTTTTTTTCATGTATATGCTTTTACTATGACATTAGGTGTAATATTTGCTATTGCTATATCTGCAATTAAATTATATAGAAGAGGAATATCCTTAACAGAACTTTGAATTGGAGCAGCAATAATTGTTCCTGTAAGTTTATTAGGAGCAAGTTTTTTTGGAAAATTAAATGCTGAGGGAATTGGAATGAATGCTAATGGAGCAGGCTTTTTTGGTCTATTTGCTTTTTGAGAAGGTGGAATGGCAATTCACGGAGGAGTTTATGCAGGAGCTTTTGTTGGATTAATAGTATTTTACTTTCTTGGTAGAAGAACAAAAGTATCTCTATGAGTTTATTCAGATTGTATAATTCCAAATATTCTTGTTGGACAAGGAATTGGAAGATGGGGTAATTTCTTCAATCATGAAGTAATAGGTGGGCCAGTTGCACAATGACATGGAAAAGACACAGATGCTTTAAATTGGTTACCTTACTTTATTAAAAGAAATATGGTTTGAGAATATAAAGGTGCAAATGATAGTTTAAATGGAGTAGATTTAGTAAAAGGACAAGAATATCTTATGTCACCGATTTTCCTCTATGAATCAATAAGTTTAATTGCTGCTTGAGCAATAATTACATTTATTATTCCAAATATTGGAAAATGATTTGGCAAAAAACCTTGAAAATTACATCCAGATAAATACGATATAAAATATCCTAAATATAAAATTTGAAGAAATGAAGTTTTTGCAAATCATAATAATAAAGAAATAGAAAAATATAAAAGTGAAATAAATAATATTAATGATAAAAATTACATTGTAAAAAAATGAAAACAAGGAAAATTATTATCAGATTGTAATAACCCCGAAAAATATATGCTCGTAAGAACGGGGGTGCAAGCTGGAGCTTATTTCTTTGCATGGAATTTAGTTAGATTTATTTTAGAATTAGGACGGCCAGATGATCATTTATTCTTAATGTATAGAAAAGAATTATCACTAGTTATAATTGGTTTATCGATGGCAGCAGGTTTAATAGTTGCGCTATTAGCTCAATTTGTTATTCCATATTTATTTAGAACTACTGGATTTATATATGAGCAAGAATATTTCTATTTAGAAGATAACAATAAAACAAAAAACAAAGATAAACTAGTAATTAGTAAAATTGAAAAAAATAAAATTAAAGAAGAAAAAATTAAAGAAAAATTAAATAAGAAGCTTGGTAAGAAATAAGGTGAGAGTATGTCTTTTGCAATGGAAGTTAAAGAAGAAATTTTAAATCATACATTCACTAAAGAGCAAAAAATTATGCTCTTATCTGGTTTTATTAAATATAACGGAGAATTAATTTACACAAGTAAAGGTGCTGTTTTAAAATTAACAAATAATAGTAATAATGTTATTAGAAATATTTTCTCAATGCTAAAAACAATTTATGATGGAAATATTGAAATATCAATTATTCAAATTCAAAAACTTAGAAAAAATAAAATTTATCAATTAATGTTAACAGATGAAGTTATTTTTTTCTTAAAAAGATATAATATTTATGATATTAATTCAAGCACCAAAATTATTGAAATAGATTTAGAAAATTATGACAAAAAAATAAAACAAGAATTAATACGAGCATATATTTCAGGAATTTTTATAGCTATTGGAAGTGTAAACTCTCCAGAGACTACAAATTATCATTTAGAATTGCAATTCAAAGAAAATGAATCTTCAACTTATATTACAAAAATTCTTAAGAAATATAATTTTACTTTTAAAACAACAAGTAAAAAAAATAAATTTGTTTGTTATATTAAAAAATCTATAGCAGTTTCTGACTTTCTAAAATTCATGGATGCCTCAATTTCTGTTATGAAATTTGAGAATACAAGAATTAATAGAGATGTTAGCAATAACATAAACAGAATGATAAATATTGATATTTATAATCAACAAAAATCTTCTGTAACAGGTTCTAGACAAGTTGAAGTAATAGAACTAATTAAAAAAAATAATCTAATGTCAGAGTTATCGCCAAAGGCGCAATTACTTTCACAAATAAGATTAGAGAATCCAGACGCATCATTTTCTGAATTAGAACAATTAATGAATGAAAAAAATGTATCAATTACAAAGTCTGGAATAAGCAACTTATTTAAAATTATAGATAAGATTGCAAATACAATTGGAGACTAAAAAATGAAAAAAGACATTATTATAACATTTAGTAAAAACATGAAAAGAATAAGGGTAAATGCGCAACTAACTCAGGAAGAATTAAGTTTCAGATCTCAATTACATAGAAATTATATTTCAGATTCTGAAAGAGGTAAGAGAAATATATCACTTAAATCTGTTGAGAAAATTGCAAAAGCTTTAAATGTTGAACCAATTGAATTTTTTAGGGAAATAGAAGAATAAAAAAAATAGAACTTAGGTTCTATTTTTTTATAACTTGCACAAATTTAAAAAAACAACTTATAGTATTTAATTTTTTTATAAATATAGTATAAATATTATTAAGAATTAGGGGTAATTAATTATGAGAGATGAGAGCATACTTCAAGATATTGGAAGTTTAATTAGATATGATAGAAAAATAAAAGCTACTTTAAGACATATACTTTTTTTAAGAGTTTTTTGAAAATTTCTGTTTATGTTTTCTCTAATATTTTTTATTATTTTTGTATTATCAATTTATTTTTTAAAGACAGCAAGTATAGAAAATTTTATTATTAAAGCCAGTCTTGGTTTGCTTTTTTCTCTTTCTATTGGTCTTTCTTTTATTTTTTTATTCTTAGATACATTTTATTCACCAAATCTAAGTAAAAATATTAATAAAATTATTCATAAAAAAGAGAAGATTGAATTAATTTACTCTAAATTTTTAAACTCTAGAACAGATTTACAAGATATTACGGATTTCAAATTAAGTATTGTAAATTTTAAATCTGAACCAAAAAGAAAAAGAAAGTCATATGCAAATTATATGAGTACTTTACTTAATAGAGAAACACCAATAAAAAAGAATAATGAAAACTCACTTGATTTCAAATTTAAAAATTATCAAGCTAGTTTTGTAATTGAACATCCACTTGAATTTACTAGATGAACACTAAAATACTCATGAAAAGAATCTAGATCAACAATAGGATCAAAGAAACTTTCAATGAGTGTTTTATACATTGAAAATAAAGAATTTAGAAAAATGTATTATAATTTAAAAATTAAAAAGAGCGGTGAACTATCAGGAGATTATAGAACTGAATCTATAGCATTCAATAATAAATACTCAACTAATTTAGAATCAAACGACCTCGAGGGTGCTAAATTTTTAAACCCTACTGTTGTAAATAATTTAGTAAATTTTAACGATATTAATTTTTTTGCATTAGGAGTTTATAAACAATTATATGTTGAAAGATATGAAACTAAAAGAGAAAATTGTCAAATAGGTATATTTAACTTTTTATTATTGAAAAATAGAAATAAAGTCATAGAATATATCTACGATAAAATAGTTAAGGATATAGATTTTCTTAAAAAATCTTATGATTATATTAATTTTATTCTTTAATTAAATAAAAGAGTTTTATATCAAAAATGATATAAAACTCTTTATAATTATTTGTACTTTTAATTTTTAATATAAAACTACTTTTGTTAATTCATCAAATTCTGGATTATTTCTTATTTTTTTGTATCCCTCATAAAAAATATAAGCTTTAAATCCTTTACTTTTTAAATTTTTATAAATAGAAAGGTGACTTCTAGAATCTTCATCAATTATAAGAATTTTGCTTTTTTTATCTAGAACTTTAAAATATTTAAAATTGAAATTTATAACTGGAATATTAATTGTCTCTTTAAGATGATTTTCATTATAAGATAATGAGTTTCTTATATCTATAACTTGTCATTTTTTGCTCTTTAAAATATGAGTAAGTTTTTTACTACCCTTTGTTTTATACTTTGCTTTAAAAGCATTTGTTTTAAAGATTTTTTCTAAAAATTTAAATACATATTCTAGTCATTGCATTTTTATCACCAAAATTATTATATATTGAAATACAAAATAATATACTTCTAGATTAGAATATAGTATATAAAAATATTAAGCAAATAATTTAAAGATTTATAAAATAATACTTATGGAGATTCTTTAAAAAATACTATTTTCTTAGAATAAAATAGATAAGCAAATTTTAATAAGAGAGCTATTTTTTTATAATTTAAAGTATACTATAATATTTAAAGTGAAAAAATAAGTTTAAAAGTCAAATTATTTTGAGATAGAATGGAATTTATTATATGATTGATGAAAAATTATATAGTGATATAAAAGAAGTTGTTAACAAACGACCAGAAATTAATAAAATCTGAAAGCAGTTTAAAAATGAAAGAAAAACTAAAATTATACTTTACACTTTTCTTTCTGTATTTTTTGGAGCTTTTGTATTTTTAGCTTTTATGTCAAATATTATTGATATGAATAATGAAATAATATTTTTTCTAATTGGTATGTTTTTGTTTCTAGGATTTTTAGCATTTTTAATAGCTTCAATAGTAGTTTATTTTAAGCTAAAAAATATAAATGTAAGATTAAATAAAATTGTAAATGAAAAATTAGATTTAGAATTAATTTATTTCAATTTTTTTAATTCATCAGCTAATTTAAAAAATTGTTCAGATTTTAAAATGAATATTATAAGTTATTATCCAAAAATTGTAGATATTGATGGAAGCTATAAAGTTTATTTAGCTCATAGAAAAGTTCCCATTAAAGAAGATCATTATAATTCACTAGAATTTACATATAAAAATAGAAAAGTTACTTTTATAATTGAACATCCTAAGAATTTTATAGAACGTCACTATTATACTTCTAATGGACGTTCAGGTTGTAGTAGAACAGTTACTCCTCTTTCTATGACTGTTTTGTATGTTACAGATGATAAATATGTGAAAGATTTTAAAAGTTTGAGAATTGAAAGGAAAAAGGGCAATCTTAAAGGGGATTATAAATCTGAATCAATTGTTTTTAATGATAGATATTCAACTAATTTGACTATGAATAATATTGTGGCTGCAAAATTTTTAACACCTTATGTTTTAGACAATTTAGCTAATTTAAATCAAAAAGATTTTTTCTCATTAGGAGTCAATAAGGATATATATGTGGAAAAAGCTACAACAAAGTACCATATTCTTCCATTTGGCATTTTTGATTTTTATTCATATTTAAATGAAAAAAATTTAGCTACAGTTATATGCAAAGAAATGATAAGTCAATTAAATTTAGTTAAAAATTCTTTGGAATATGTCTCTTTTCTAGAAAAAATTAAATAATATTGCAACAAAAGTACTTTTTACTCTTAAATGTAGTATTATATATTTAAATGAATGGAGGGCCTTGTATGAATTTACTTGCCGGAACTGCATCGCAGCAAACACTTGCAAACCAAATAATCCTAGGTTTTGAAATTCTATCTTTAATTGTCGCAATATTGATGATAATTGTAGGTTTAGTGCAAAATAAAAGTTCACAAACAGGATTAAGTGCTTTAAATGGTGGGAATGATGAATTATTTTCTAACTCAAAAGAGAGAGGAATGGACAAAACAACATCAATTTGAATGTTTAGTTTAGGAGTTTCACTCTTTATAATTACAATTGTAATAGGAATAATTACAAACACTGTACTAAACTAATGATGTTTTTTAGTAGAAAGAAATGTTATGAAAAATACAATACTATCACGGGTAAAAGAAAAGGAAAAAATGCATCTAAATGATTTAATTAAAAGTATTAAATCAGATTATGAAAGTGTAACAACTATATTAAAAGAATTTCAAGAAGAACATTTAATTGGTTGAACAAAAGAAAACGTTATATACTTCATTGGAAAAACATATAAAATAGGGTCTATAAAAATTAATGATAAAGGCTTTGGATTTGTAAAAGAGTTTAATATTGAAGGAGAAGATTTTTTTGTTCCTCCAAATGGATTAAATGGAGCAATTTCATCTGATGAAGTTGTTTTTACAGTTCAAAAAGAAAAAGACGATAGAATGAAAGCTATGGTTGAAGATATAGTTTTGAGAACAAAAATATCATTGGTTGGAGAAATTGTAAAAAGTAAGGATGGAAGATTTTTAGATTTTGTAGCAAATGAACCTGGTTTTAAAAATTATCGAATTGTAATGATAAACTCAAAAGATTATTCATTAAAAGAAGATTTAATTTTAAAGGTAAAAATTCTAAATGTTAGAGATAAAAAGCTATTTGTAAGAATTCAAAAAATTATTGGTGATGCTAATAAAGCTGTTGATAGAATTTTTTCAATTGCTTATGAATATGAAATTAAACCAGAATTTAATAAACTAACAATTGATAATGCAAATGAGGTTGCCAAACCTATTGATTATGATGATCCAAAAATTAAAAGAAGACTTTCAAACTCAATAGTAAATAAAAATTTAGTAACTATTGATGGATCAGATTCTAAAGATTTAGATGATGCAATTTATGTTGAAAAAACATCTAATGGATATAAATTGATAGTAGCTATTGCTGATGTTAGTTATTATGTCACTCCATTTTCACCTTTAGATAGTACTGCCTTATTTAGAGGTAATTCAGTTTATCTTGCCAACAAAGTTATACCAATGCTTCCAGAAAAATTGTCAAATGGTGTTTGTAGTTTAAATCCAGATGAAGAAAAGCTTTGCATGGTAGCTGAAATGGATTTTGATTTACAAGGAAATGTAATAAAGAAAAAAGTTTATGAATCAATTATGATTTCAAAAGCAAGATTAACTTATAAAGAAGTAAATGAACTTTATGAAAGTGGCAAATCAAATAGATCAAAAGAAATAATAGATATGTTAAGGCTCTCAAAAGAACTTCACGACATTATAGATTTATCAAGAAATAAAAAAGGATCAATTGAATTTGATGTTGCAGAGCCAAAAATTATTTTAGATGCTGATTCTAATGTTATTGAAATAGCAAAACGTGATAGAGGAATTAGTGAGAAATTAATAGAAAACTTTATGGTTAGTGCAAATGAATGTGTAGCAACAATAATTTATGAAAAAAAGCTTCCTTTTATTTATAGAAATCATGATGTTCCAAAAGAAGAAAATTTAATTGAATGACATTCAATTTTAAGAGCACTTGGTATAAATGTAAAGTTAACTGATTTGGATAAAATTAATCCAAAAGCAATTAAAAACGCACTTCTTCAAATTGAAGAACAAATAAAAGATCCAACAGAAAGAGATGTAATTAATGTAACTCTTTTAAAATTTATGGAAAAAGCAGCTTATGAATTAGAAAATATAGGTCACTTTGGTTTAGCAAGTGAATGTTATACTCACTTTACAAGTCCAATAAGAAGATATAGTGATTTAATAGTTCATAGATTCTTAAAACAATATTTAGTTGATAAAGACATAAGAGAATTTAAATTAGAACAAAATGAAAAGTTTGTTTTAAAAGCATGTAGTATTATTAATGATACTGAAAAACAAGCTGTGTCTGCTGAAAGAGAAGTTAATAAGGTTTGTATGGCAGAATATATGCAATCAAAAATTAATCAAGAATTTGAAGGCATTATTGCAGCTGTATTAAAATTTGGGATATTTGTTCAGTTAGATAATTGTGTTGAGGGTTTAATTCATATATCAGAACTGCCTGATTTTAGTTTTGATGAAAAAACAAGTATTATGGTAAATAAACAAAACAAGATTTTTAGACTAGGTCAAAAAATAAAAATTAAAGTTAAAAATGCAGATGTTAAAAAAAGAATTATAGATTTTGTGCTTGCTTAATGGTGGTGAATAAAAATGGGAGAGCATCTTTTATTAAAAAATAAAAAAGCTTATTTTAATTATGAAATATTAGACACATGAGAAGCGGGTATAGTTTTAACTGGTCCAGAAATTAAATCTATAAGAAATAAAGATGTTTCAATTAATGAAGCTTTTATTCTTATAAGAAAAGGACAAGTTGAAATATTAAATATGAATATAAAAAATTATGAGTTTGCAAATCATATTAAGCATGATCCAACTAGAAATAGAATATTGCTTTTGCATAAAAACGAAATAAAAAAAATTTTAAAAAGAATTCAATTGGAAAATCTTACTTTGATACCATTAAAATTATATTTGAAAGGTAATTATGCGAAATTAGAAATTGCTTTAGGAAAAGGAAAAAGAACAGTTGATAAGAGAGAAACAATTAAACAACGAGATATTGAAAGAAGATTAAACAAAATTAGAAAATAAAAATAACTTTTATATATGTTAAAAAAATGATAATATTACTTGGGAGGAAAATGAAATGAGAAATGCAGCATATATACTTTGTATAATATCAACAGTTTTATGTTCTTGAATGTTAATACCAATGGCTTGAATGATTCCAATGACATTGGCAGCAAAAAAAGTATTGGTGATGGTCAACAACATATTGCTTTAGGAGTATGTAATATATTATTTATGGCTATACCATTTGGAATTATATCTGGAATTTTAATATTAATTCCAGAAGAATAAAAAAGAAATTTATTAAGTAAATAGAACCTGCAAAAGCTCCTAATAATGAAAGTCCTGCAATAACAATTGAAATTATTCCAGCAGCAAGTATTTTTTTATTACTTTTATTTTTAGAAGTTAAGAATACTAAAATAATAATTGGAAATATTAATGTTATAGCCATAATTATAATTGATATTATTACTGCAATAGTTCCAGCAGCTATGTTAGTGCTTCCACCTGCTGCTATTAGAGTAAAGCCAGCTAATATTGTTATAATTGAAGCAATTGCTGTTGTTACAATCATAACTATTGAACCAGCAACACCTAAACCTTTTGATGTCTTAGTCATTTTTTACCTCCTTCCCAAAATATTTTATATTAAAAATAAAAATCTTATAAGTTTATTAAAAAAATAATTTAATATTCACTATCATCTTCTTCAATTTCTTTTACTTTTCTATCTTTTTTTTCTTTTTCTTGATTATCTACTGGCGTTGACATTAATATTATTCCGCTTGCTAATGTCAGTCCACCTGATATTAATTGCCCAAATAATAGTGATAGTCCTCCAATTACTATTTGAAATACGCCTAATCCTGCATAGTTATCCTTATCTTTCTTAGATAACATAACTAAAATTGCAATATTTAAACCTAAAGAAACTCCAAAACCAATTATAAGTATAATCATCATTGTAAAAATTAAAAATCTTGCTCCTGGATTTGCGTCTTGATTACCTACTGCTAATATTATAAGAGTAATTATCAAACCTAATGATACAATTGCTCCTGCTAATCCCAGACTTTTTGCTGTTTTATTCATATCTATTCCTCCTTAAATTTATTTTATACTAATAAGTAAAACTAAAAAACCTATTAGTAAATTCACTAATAGGTTTTTTTATTTATTTTCAAATATAGACTAAAATATTTGCAGGTTTTCCACAACCACAAATTCCACAATTTTCTTTTTCTTCTTTTAACTCTATATATGCATTTAAGTAATCAGAAAATCCCTTTGCTAAACTATTGCTTACATGTTCACCTTTTTCTAATGCCATTAGAATAGTTTGTCCTTTATCCAAAATTTCTTTTATATCTTTTAATTCAAATTTAGACATATCAGAAATTTCAAAAACATTATTTAAGTTTTTGCTCATTTTTTCACTCCCTAATTAAATTATATTCTTAAATATAAAATATAATAGAAACTTTATTTATTAAAATATTGTTTTATAATATATGTATGGGGGTGTCCCGGTTTCGACAGGATACATCTGATCCATAACTGCAGTGGTTTGGTAAACCTTAATACTACTAGGTTTGATAAAATGCAAACGAAGAAAAAAATGAATTTGAAATGCCAGCATTCATGATCAATAATGCATCAGCTGGAGTTGCTTTAGCAGCTTAATAAACTCTCGAAGTTTATAGCAATTCAACGTTATGAAATGTGTTTGTGCTTCATTGATTAACGTATTACCTAGCACAATAGAATAAATGATTTTAATGATAAATTTATTTGAAATATAATCATTAACGCTATAAAATTGAATCTTGTTGAATCTGTTGTTTTATAGTGTAAGTTAGATACAACTAAACTGTAGATGTTATGGGTTGGAGTATTTTGGACGCGGGTTCGATTCCCGCCATCTCCACCATTTTTTATTTTTAATTGTTTTATAAGAAAGGAATGTAATTTATATGAATATTGTGTCAATATTAATTGCATGTTTTTCTTATACAACAATTATAGCTATGTGTTATACAATATTTTGAGGTTTAACAAGACATTTATTTACTAAGTTAAAAATTTATTATGAAATTTTTTTGGGATTTGTTCTAGGATTTATTTCAACATTCTCAATTATTTTAATAAACTTACTTAGTGGAAATAGTAGTAATTTGGGTCTTACTATTTTAATGCCAACTTTTTTATATTGAGTTGCTATTATTTTTATTTCAACATTCTCAAGTATTGGAATATTAACTTGTAATATATTAAATTTAGTTTTATTTTCTTCATTATTTGGTGAATACTTTGGAAAGCCAACAGATACTTGAACAATTACAATGTTAACAATAGCTTATACAGTTCCTCTTTTAAATTATTTAATATCAACATTTTGAAAAAAAATATCAAATTGATCTAATTGATCAATAACAACAATTATTTTACTTCTTGTGGGTCTAATCTGAAATTTATTTAGAATAAAAACACCACAAGATCTTCCAAATTTAGCTAATTTATTATTTTGATTAGGTAGTGGGTACTTAGCATATGCATATATTACACTTATTAATCAGATATATCTTCATGCTCTGAAATTACAAAATATTGTTAGATATGATAACTTATATTATTTAAATTTTTCATCAGCTCACGAGCAAATTCTAAATAAAATTCAAGAAGATAAAATAAAATATGGAATATATTTAACATATTTTATTTCTGATTTTGAGAATTTTGAATTAAAAGTAAATCGAGAAATAAAAGATATAATTGTAAATTCAGTTTCTGAAGAAAGTTATACATTAATAAAAAATAGTTTCTCAAATGCTATATTTTTTAAACCTAATTACAAAACTTTTGGTACTTTTATTCCCTTTGAATTTAATGAAAATTTTAATGAAAAGGAAAATAATTATTTAGAAAGAATAAAAAATATATTTAAAAAAATAAATGTAACTTTTAAAATTGAAAATTATAAAATATCTGTAAAATTAAAATCAGTTTGATCATATTATGGTTTACATTCTAATAATTTAGATACTTTATTAGAATATAATAGACACGTTGCCAATGATTTTTTATTAACTTATCATGATAAAAATATTATTGTAAATCCTATGGAAATTTTAAAAGAAAAAAATCAAAATAAAAAAATGCTTTCATTGAATGAGGTAGCTAATTTAAATCAATTTGTAACTTTATTTGAACCAATATTTTCTATAGAACAAAAGGATTTTACTTCATATTTTTTAAATGGTATGATTGATGGAATTGAAATAGATTCTGAATTATTTGATAAAAAAAATCAACTTATTTCAGATATGGGATTATCAACTTTATTTTTAAGATACACTTCATTTCAATCTTTAAAAAAGTTATCAAAGCAAAATAATCTTGTTAAGGAAAAATCTATTTTTATAGATTATGATAGCAATTATTTGTCAAATGAAAACTTTGATACAAATGAATTTTTATTAAAACTAAAAAACTTAAAAATAGACTTATCAAAATTAATATTAAACTTTAATTTAAATAAAGAAATTGATAATCAAAAGTTATTGGAGAAAAATATTCAAAAATTAAAAAAACATTTAATTAGAATATCTGTTTCAAACTTTGGCTCATTAAAAACAGACTTTTCTTTAATTAGTTTATATAAGCCTGAATTTATTTTTTTAGAAAAAGAAATTTCAAAAAAAATAAATTATATTAAAGAAAATGAAAATATAGTATTGGAAAGTATTAAAATTGCGAATAAAATAGAAGCAAAGTTAATTGCAACTTCTGTAAATAGTTATATAGTTTATAAACATCTAAGATTTTTAGGAATTAAAATGTTTACAGGAGAACTTATTGGTAGTTCAATTGAACCTAAAGAAATAATTTCAGAGGAATTAAAATATTTATTAAATAAATAGAAGGAAACTTATAAATGTTAGAAAAAAGCGAAAATATAAAGCACTTAAGTGAAGAAATTGAAAGATTAGTAATTGATAATGATATTAAAAAACTTAGAGAATTTGAAGAAACACATTATCCTCAAGATATTGCAGAAGCACTTGAAAAATTAGATGAGAAAATTATTATTATTGCTTTGAGATTATTTACAAATGATACAAGCAGTGAGATTTTTCCACATCTTGATGCGGATATACAAGAAGAAATTATAAATAAAATGTCTTCTAAACAAATATCTGAATTATTTTCAGATTTATATACAGATGATATTGTAGACATTTTAGAAGAAATGCCATCAAATATTGTTAAAAAGGTTTTGCGTTCATCAACTCCAGAGGCAAGAGCACAAATAAACAATATTTTAAAATATAATGATGATACTGCAGGAAGTATTATGAGTGTTGATTATACAAGATTTAAAGTAGACTGAACAGTAACTGAAGCGATTGAAAAAATTAGAGAGCGTAATGAAGAATCAGAAGATCATAATACATTTTATGTAGTGGATGATTTAAATAATTTAAAGGGAACTGTAGAATTAAAAGATTTAGTTTTTTCTAAAGGGAATTTAAAATTATCTGAAATTATGGATGAGCGTGTTCTTTTTGCTTTTACAAAAGATGATCAAGAAACTGTTATAGATAAGTTTAAAAAGTATGACATAACAACTTTACCAGTTATTAATATTCAACAAAAATTAGTAGGGATTGTTACAGTAGATGATGTTCTTGATGTTATTGAAGAAGAAGTAACAGAAGATATTCATAAAATGGCAGGTATTAGCCCAACAGATGATGAATATTTCAAAACAAGTATTTGAAAAATGGTTAGATCAAGAAGTATTTGATTAATGTTTTTAATGATTTCTGCAACTTTGTCACAAATTATAATATCTATGTTTATGAGAATTTATAGTGTAAATCAAACAAATAATGGTCAAAGTTCAGCAAATGAAATTAGTTATATTATTACAATGTTTTTAACTCCTTTACTAACAGTTATATCAGGAACGACTGGAAATGCAGGTAGTCAATCATCAACTATGATTGTTAGAGCTTTATCTTTAAAAGAAGTAGAGACCAAAGATTTTGCAAGAGTGTTATGAAAAGAATTTAGAGTAGCTCTTATTACTGGTTTAATACTAATATCTGTTAACTTTGTAAGAATGGTTGTAATTTATTCAATTGAAACAAAAGGAAATCTTAATGACCCAAGAATTTGATATACGATAGCAACACTTTCTATTTCAATGTATTTATCTGTAATAATGGCAAAGGTAATTGGAGGAACTCTTCCAATACTTGCTAAAAAATTAAAATTAGATCCAGCTGTTATGGCAGCGCCTTTACTTACAACAATTGTTGATGCTTTATCTACTGCAATATTCTTCTCAATTGGTTTAATATTCTTTGCCCAATATATTTAAAGATGGAGGTTAAAAATGAGATTAAGAAATAAAAATTGAACTAAAAACTATATTGAAGAAAATTCAAAATATATGATAAATGCAGAGAAAAAAATTAATATTGATAAATTATTTAAAAAAAAGCAAGATACTTATTTAGAAATAGGTTGTGGAAAAGGTAAATTTATAATTGAACAAGCAATTAAAAATAAGGATAAGAATTTTATAGCAATGGAAAAAGAAACTACAGTAATAGGTGTGGCTTTAAAAAAAGCTATCACAACTGAGGATTTTGATTTAACAAATTTATTATTTTTAAATAAATATGCTGAAAATTTATTGGATTTATTTAATCTAAATTCACTTAATGGAATCTTTCTTAATTTTTCAGATCCTTGACCTAAATCAAAGAGTTTTAAAAAAAGATTAACATATATAGATTTTTTAAATATATATTGAGATTTACTTAAAGATAATGGAATTATCGAAATAAAAACAGACAATGATAAATTGTATGAATTTAGTTTAGAAGAAATTGCAAAATCAAAATTTAAATTAATTTATAATACAAATAATTTATATTCTGAAAAAGAATTATTGAAAGATAATATAGCAACTGAATATGAAGAAAAATTCCATAATTTAGGCAAAAATATAAATAAAATAGTAATAAAAAAAGAGGTTTAACTTTTAGTTTCAACCTCTTTTTTTGGTGGATTTTTAATAAAATCTAAATAAGCTTTTTTAAAATCTTCATTTAAGCTTATTAAATATTTAGTGATTTCAAAAAATAAAATTAAATATGTAAAATTTATTCAAAATAATATGAAAAATATCCATCATGTTTTTTTTGCATTTTCTGCTCAACTAATTTTGTTTATTAATGATCCACTAGTTAATTCAATAAAAAAAGCACCTACAGTAAATAAAATTATGAAAGTATAAACAAATCTATTTTTAATAATTTTTAATGTTTTTTCTTCTGTTTCAATGTTTGTTGTTACTTCCATGTTGTAAAACAGAGAAACCGATGTTTTACTTAAGTTTGTAGTCAAACAAACTAGATAAATTAAAATAAAATTAAGATTAATTTGGCAAACAAGAGTTATTTTTTCTTTAGTTGATAAAGGTATACTTAACAATATTATTGAGCAAATTACAATAAGTGATAAAGTTATTGAACCAAATCACAATATTGGTTTTCTAAGATCTGTTTTGATTAATTTAAAATCCATTTTTTTCACCTTAATTATTATATTATAAATATCTCTTTATAAGAAAAAAATCTAACTCTCTAAATATATATAATGATAAAAAACATAAAAGAAATATATTTACTTAAAGTATTGAACAGATTTTAAGAACATAAATAATTATTGATTCATAAAATTATTCAAATAAAAGTTTTTATGTAAAACTATTTGAAATGAACTAATCAAATTTTTACAATTTATTTTATTAAGTTTAGCTTATAATTTTGTCTTTACAAAAACACGTATAAGCATATTTCTTTTAACAAAACTTTAAAATAAAATAAAAAAGAGAAGTTCTATTTAAACTTTTTATTTTTTGTTTAAAATTAAAATTATAAAAGGAGATTTTAATATGTCAAATATACCTACACCCCATATTGAAGCTAAAAAAGAAGATATAGCAAGAATAGTATTAATGCCAGGAGATCCATTAAGAGCAAAAAAAATTGCAGAAACATATTTAGAAGATATAAAACTTGTAAACAGTGTTAGAAATATGTTTATGTATACAGGAAATTATAAAAATATAAAAGTAACTATAGCAGGAAGCGGTATGGGTTGTCCTAGTATTGGTATTTATTCTTATGAACTGTTTAAATTTTATGATGTTGATTATATTATTAGAGTTGGTAGTGCTGGAAGTTATAGCGAAAAAATAAATGTCTATGATATTTTCAATGTTAAAGAAGCTTTTGGTGAAAGTAATTATGCAAAAATTGCAGCAAATATTGATTCAAATATTATTCAATCAGGAGAAAAACTATTTAATAAAATTGAAGAAGTAGCTAAAAAAAATAATATAGAAATTCATTCAGGAAGATGTCATTCATCTGATGTTTTTTATAGATATGAAGACTCAATGAAATTTGCAAAAGAAAATAATCTTGATGTAGTGGAAATGGAATCGTATGCTCTATTTGCAAATGCTATTGCAACAAATAAACAAGCAGCTTGTTTATTGACAGTTTCAGATAGTTTTATTACAAAAGAAGTTACAACATCTGAAGAAAGACAAAATAATTTTTTACAAATGATTGAATTAGCTTTAGAAACTTCATTAGAACTTAAATAAAATCAATAACAGAAATAAAATCAATAAAGTCACTAAAAATTGTAATTTTTGGTGATTTTTTTCATTTGGAAAAAAATTCTACTAACTTATTACACAATTATTTAAAATGTAGTAAAATATTTATGATTTTATAAAAGGGGTATCTAAATGAAAATTTTGGCAATTGAATCAAGCTGTGATGAATTTAGTGTTTCAATCATGAATAATGGTAAAATTTTGTCAAATATTATTTCAAGTCAAATAGAGGAACATTCAAAATTCGGGGGAGTTGTACCAGAATTAGCTTCAAGATTACACGTTGAAAATTTTCATTGAGTCTTAAAAGAATCACTTTATCAAAGTAAAATACATTTGAAAGATATTAACTATATTTCTTATACTTCAAATCCTGGATTAATAGGAAGTTTAATTATTGGAAAATTAGTTGCACAAACATTAGCAATGTATTTAAATAAACCACTTATGGAAATGAATCATATTCAAGGGCACATTTATGCAGCAAATATTGAAGAAAAAATTCTATATCCAGCTCTTGCTCTTGTAATAAGTGGAGGTCATACACAAATACAATTATTAAAAAAAGCTTTAGATTTTAAAATAATTGGATCTACTCAAGATGATGCAGTTGGAGAATGCTATGATAAAGTTGCCAGAGTTTTAGGATTAAAATATCCAGGTGGTCCAAAAATTGATAAATTGGCTCAAAAAGGGGATTCAACTAAATATATATTACCTATTAGTAAAAATGATGATACTTATGATTTTTCTTTCTCAGGATTAAAAACTGCAAGTTTAAATCTTATAAGTAAATTAAATCAAAAACAAGAAAAATTAATAATTGAAGATTTTTGTGCAAGTTTTCAAAAAACTGTTTTAGAAACTCTAATGTTGAAATTTGAAAAAGCTGTTAAAGAATTTAAACCAAAATCAATAGCAGTTGTTGGTGGTGTTAGTGCTAATTCAGCAATTAGAAGTAAATTTTGTGAAGTAGGAAAGAAATATAATATAAATAAAATTATTATTCCAAAAATGGAATATTGCACAGATAATGCAGCAATGATTGCGGAATTAACTAATGAATATTTGAAAAAAGATAATCAAGGGGGATTATAATATATGAGATCATTTTTAAGTAAGTTAACAACAATTGATGATAAAGATTTGACAATTAAAGAAAAGAAAATTGTAGAATATATTAAAAATCATTTAAAAGAAATTGTTGACACAAATATGAAAATTGAAAGAATGGCACAAGAAGCTGGAACAGGTTATAGTGCCATATATGGACTTTTAAAAAAATTAAATATTAAAGGATTTAGAGATTTTGCAATTTCACTTGCAAATGATGCTGAAAATCAAGAAATTAATGTTGCGAAGAATGATGAAAATGTTGTTTCAGGATATATAAATATAATTAAACAAAATTATGCATTAATTGAAAAAAAGTCAATTTTTGAAACTCTAAATATAATTAAAAACTCAAAAAGAATTTTCTTTTGTTATTGAGAAAATTTACTTTGAGGACCAGCACATGAATTATCAAACTTTTTTTATAAAATAGGATTTAATGTTTATTTATTAGACAGTGATCAAGAAACTATAAAAGATAGAATAAAATTCTCAAATGAGGATGATGTATTTATTTTCTTAACAAGATATGGTAATTCTTCAAGATTAGATAATGTTATTAAAGAACTTGGAGAAAAGAAAAGAAAAATTATTTATATATCAGGTAAAATTGCTTCTTATGATGTTACAAAATATTTAAACTCAATACATACATTAATAGTTGATAATCCAGATGAAAGTATTTATAAAGGACATATTTCTCACTCAGTTCCTTTTAATTACTTTAATGATTTATTAATTTATCATTTTTTAAATTCTGAAAATTAGTTTTTTATAAGTTATAATTAATTTATGAAAAAGAAGAAGAGAGTTAAGAAAAATAAGCTTATAAATGCTATTAAAAAAAGTTTTAAAGCTTTTTATGGAGTTATGGAAAAGCCATTTTGTGCACCTAATTTTGAGGTATCTAAAAAAATTAAACAATTTGAAAAAACAAAAGAAGACAGAAAATGAATGAAAGAAATTTTAACTACTAATAGAATAGTTAGAAAATTTTACAAAAGATCTGAACTTGAAATAAAAGATCTTGAAAATGTCTCTCTTTTTTCATTTAAATCAAGAGATAATCTTGATCTTGTTGGTTTGATTTATGAACCAAATAAAAATTCAAATAAATGGGTTATAGCATCTCATTGATTTGCAGGACATAAAACATGAGCTTTACATCATGCTATGATATTTGCCAAAATGGGTTATAACATTATTGCATATGATTTTAGAGGTCATGGCCAATCACAAGATTACTCAACTACAATGGGTGGTAAAGAACATTTGGATTTAATGGGGGCTGTTGACTGATTAAAAGAAAATAAACAAATTGATCAACTTGCGTTTATGGGTACAAGTATGGGAGGTTTTGTTTCAAATTATTGCTCAATATTTTATCAAGAAGAACTGCAAAAACTAAATTTTAAATTTGTTATTTCTGATGTTGCATATGCAAGTATATTTACTTTATTTTTACACATAAAAAAAGTTTATTTATGAATAATTCCTAAGAAAAGAACTAAAAAATTTATTAATAAAATTATTGAAAAACAAAATAAACAGGAATCTAATATAAATCTTCATGAAATAAATATTTTCACATTATTAGAAGAACAAGAAAAGAAGAATTTATTCCCAACTTTATTTTTTCACTCAACTGATGATAAGGTTACAAGTCCTACAGATACTTATGAACTTATGATTAAAAGAAATTTTGAAGAAGATGATTATGTAATGTTTAATTTTTCAATGCATACACAATCCATTAGATATCATTTTAAAAATTTTAATTATAAAATAGCAGAATTTATTTCCAAATTTGAACAGGATAATACTTCATTTGAAAATATTGTAGAGGAATGAAAATTAATAGAGTTTGAAAAAAGAGATGAAATTTCTATTCTACTAAAATAAAAATAAAGAGGGTGTAAACTTTCTTTTTTTGTATAATATTAATATATAAAAAGGAAGTATTGGCATGAAAGATATTAAAACATTATTTTTGGAATTTAAAAATACTAAAGAGATTACTTTAATAGCAAGAGTAAGAAGTAACAGACAAGGAAAAGTAGTAAGTTTTTTAGTTTTAACAGATGGAACAACAGTAAAAGATGTACAAGTTGTTTATAAATCTGATGTTAAGGGATATAAAGATGCAGTGCAAGCAAGAGTAAGTTCAATTGTTGAAGTAAAAGGAATTGTTGTTTTAACACCAGATAAACAACAAGATTTTGAAATACAAGCTCAAGAAATTATTTTATTAGATCAATCTATTGAAGAATATCCACTTCAAAAAAAAGAACATTCACCAGAATTTTTGAGAGAAATTTCTCACTTGAGAGCTAGAACAAAAACATTTCAATCAATTTTTAAAATTAGATCAGTTACTGCATTTGCGATACATAAATTTTTTCAAGAAAAAAATTATGTATATATCAATACACCAATAATTACAGAAAATGATGCAGAAGGAGCTGGAGAAGCTTTTATAGTTACAACAAGACAAGATGGAAAATATGAAGAAGACTTTTTTGGGAAAAAAGCAAATCTAACTGTTTCAGGTCAATTAAATGCAGAAGCTTATGCTCAAGCATTTAAAAATGTTTATACATTTGGCCCAACATTTAGAGCTGAAAATTCTAATACATCAAAACATGCAGCTGAGTTTTGAATGATAGAACCTGAAATGGCGTTTTGTGATTTAAAAGAAAATATGCAAATAATTGAAGATCTTGTAAAATACTCAATTAATTATGTTTTTGAAAATGCAAGAGAGGAATTAGAATTCTGTAATGAAAACTTAGAAGAAGGTCTAATTGATAAATTAAATAATGTTAGAAATTCTAAATTTGTTATTAATAAATATGAAGAAGTTATAAAAATTCTTCAAAAAGCAGTTTTGGATGGACATAAATTTGAAGAATCATCTATTGAATTTGGATTAGATTTAGCAACTGAACATGAAAGATATATTTGTGAAGTTGTAAATAAATGCCCTACTTTTGTAACTGACTATCCTAAAGAAATTAAAGCTTTTTACATGAAACAAAATGATGATAACAGAACTGTTGCTGCAACAGATTTATTAGTGCCAGGAATTGGTGAATTAGTTGGTGGAAGTCAAAGAGAAGATGACTATGATAAAATAACTGATAGATGTAAAAAAATGGGTATTAATATTGAAGAATTAAGTTGATATAATGATCTAAGAAAATTTGGTTATTATAAATCTTCAGGTTTTGGATTAGGTTTTGAAAGACTTATAATGTATATTACAGGGGCTTCAAATATAAGAGATGTTATTTCATTTCCAAGAACTCCTAGAAATCTACTATTTTAAAAGCAATTTATTTGCTTTTTTATTTTCAAATTACTTGAAAACATTATTTTGTATTTATAATTTAGTGTAAAATTAATATGATACAGGGGGCGAATAGATATGTTAGTTTCATTTGTTATTACATGGCAAGAAATTGAAGAAAATATTAATGCCACATTACAAAGTGTTCTTGATCAAACTGATAAGGATTATGAAATAATTTTAATTTCAGATAAAATGCTAGAAGATAATGATGAATTATCTATATTGAGAAATTATTTTTGAGATATTGATAATGTAAAAATTGTTATAAATAGTTCAATTCAAGGAGCAGCAGTTTGTTGAAATACAGCAATTGATTTAGCTGAAGGAGAATATATTAAGTTTATTTCTCAAGGTGATACTATTAATTCTAATTTTGTAAAAACTATTAGAGAAAACTTAAATAAATTTAAAAATAAAGAAATTGATTTAATTGAGTATAATGTTCAACTAAGTGGATTATCAAATAAATGCATAGATACTTATTTAGAAAAAGGTAAAATTTATAATTTAAATGAAAATTATGACCCACTTGCTCAAAGTGCTGCAACTATTTCAAATAAATTATTTAGAACAAATTTATTAAAAAAATTTGGTTTTAAATTTAGAAGATTTGTAAGATTTGATATGTTATTTGTATACAAAGTTTTAGGTCAAACAGAATCATATTTATTTTTGGATTCAGAACCATTAGAAATAATGTTTTTAGGTCCAATTCAATATTCAGCATTTGATTTAGTAAATCAATGAACACATATTTTAAATTATTATAGAAGAATTGGAAAATTTAAAGATTTAAAAGATTATTTAAATTATGCTTATTATAAAACACTAATTCATACATGATTGTGAAATATTAGAAAATATAATAATAAATTATTAATTAAAAAAGCTGGAAATTTTGCAAATAGAAAATTTGAAGATAAAAGAGAAGATTTTTTAAAAAATAATAAAGCTTTTAAAAAATCAAAAGATACTAAATTTATTGAAATAGTTGAAGATTTCCCTAATTATATTAAAAAATTATTAAAGCTTGCAAAATAAAAGGTAAATTTTATGGAGAAACAAAATGACAAAAAACCTTTAGAAAAATCTTCTCATAAATTGGTAAAGCCACATTTGGGAAGAATTTTTTTATCTAGACTTTTTGATATTATTATTTGCTCGATACCAACAATAGTTTTATCATTTTTAAATCCAATTCATGATTGAAAAACATTTCTGATAAATATTCCAATAAGTCAAACTATATTGTTTTTATATTTTATTTTAATTCCTTATTTTTTAAAAGGAAATACACTTGGAAAATTAATTTTCAATTTAAGATTAAAAAAAGAAGATGAATCAAAAATTAAATTAAAAGATATTTTTTTTAGAGAGTTTTATTTTCTGTATATTCCTTTATTATTCCAAATTGTAGTTCAAATAATTATGGGAATTATAATTTTTACTAATTCTAAAGATACAGATTTGAATTTTGTATTAAAAATTATAAATAGTATTGGTTATACATTTTTGGCTATGTGATTTATATATATACCTTTAACAATATATTTACAAAAAGAAAATATATCTTCTATAGATTTAAAATTAAATACAAGAGTATACTATTTAGAGAAAATATTAGTATTTGAAAAAAAAGAAGTTAATAAAAAACATGTTCATTTAGAAAATGAGAAACCAGGAAAAATAGATATATCTGAAATTGATAAAATAATAGGAGAAGAAAATGAATAAGTTTGATAATGTCATAAATAAAATTCAAGAGTTTGTGGAAAAAAAATATTTTACAGGAGCTGTTTTAAAAATTAATCAAAATAAAGAAAATATATTTTCTTATTCTTTTGGAATAAATGACTTAGAAAAAAATACTTTAATGAATGAAGAATTAATTTTTAGAGCTTATTCGATGACAAAAACTATAACTGTTGCAGCATTTTTAACTTTAGTAGATGAGAATAAAATTTCTTTAAAAGATCCTTTATCAAAATTTTATCCTGAATTTAAAAATATGAAAGTTCTAGATAAAAAAAATTTAAACGAAGTAGTAGAATGCAAAAATGAAATTCTAATGAGTCATTTACTTACAATGACATCTGGTTTTACCTATTTTGGAAACAAAAATAAAACTCAAAAAGAAACTACAGTTTTACTTTCTCAATTTGCTAAAAAACAGAATAATAAATTTATGAATTACGAATCTTTTATGAAAGAACTAAGTAAAATACCTTTGGAGTTTGAACCAGGAACTAATTGAAGATATGGTTTATCTTTAGATGTCATTGCAGCTGTTATAGAAAAAGTAACTAAAAAATCTTTCCGAGACTTTGTTAAAGAAAAAATTTTTGAACCTTTGAAAATGAATAGTAGTGATTTCTTTTTAGTAGATAAAAGTCGTGAGGCCAAAGTTTACGAATGAAGTTTAAATGATGATAAACCTAATTTAAAAAAGATTGAAAACTTTAATTTTTTTATTCAAGAACTTGATAAAGTTCCAAATATGCCAATGGGTGGAGCAGGTTTATTCACAACAGCACCAGATTATTTAAAATTTTTAGATTTTCTTTTAGATGGAAAAGATTCAAAAAAAAATGAATTGCTAAGTTCTAAAATTCTTAAAGAAATGACAAAAGATCAATTGAACGAACTTAGAAAAAATTTTATATGAACTTTAAATAAAGACTATAGCTATGGTTTTGGTGTCAGAGTAAGAATAAAAAATGAAAGCTATCCCTTAACAGCAATTAATGAATTTGGTTGAGATGGTCTTTTAGGTTCAACAGGTCTTGTAGATCCAAAAAATAAAATTACAATGTGTTTAATGTTAAGTTCAAAACCAGGACATAATAAATTAGTAGAATCAGAATTTTTTGAAGCTCTTTATAAAGATTTAAAAAATAATGAAATAATTAGTAATGTAGATAAATTATAAGGAGTATTTTGTATGATAGAAAATTTATTAAAAGAATTAAATGATGAGCAGTTAGATTCTGTAATTACAACAGATGTTCCTTTAAGAATTATAGCTGGAGCAGGAAGTGGTAAAACAAGAGTTATTACAACTAAAGTTGCATATTTAATAGAAAAAGAAGGAATGAATCCTTCTAAAATACTGGCTGTAACGTTTACTAATAAAGCAGCTCAGGAAATGAAAGATAGAGTAAAAAAAATACTACCTAGTTTAGATAGAAATCCTATCATTACAACTTTTCATTCTTTTTGTGTTAGAGTTTTGAGAGAGGATTGTGAATATATTGGTTTATCAAAGGATTTTACAATAATTGATAATTCTGATCAAAATAAAATAATTAGAGATATAGTAAAAAAATTAGATATTAGTGATGATAAAAATAAACCAGAAAAAAAGATTCTATCAAAAATTAGTAATTGAAAAACAAAGCAATTATCTTGAGAAGAGGCTTATGAAGAAACATATAATATAGTTGAAAAAAAATGAGCAAAAGCTTATAGAGATTATGAACAACATTTAAGTAATAAAAATTATTTAGATTTTGATGACTTAATTTTAAAAGTACATAAATTGTTTAACGAAAACATAGATATTAGAGAAAAATGAAAATCACGTTTTGACTATGTTATGGTTGATGAGTTTCAAGACACAAATTATACTCAATTTGATTTGATTAAATGATTAACAAAATCAAAAAATAATCTAACTGTTGTTGGAGATCCTGACCAAACAATTTACTCATGAAGAGGAGCAAAAGTTAATATAATTTTAAATTTTAAAAATGAGTTTCAAAATGCAAGAACAATTATGTTAACTGAAAATTATAGATCTACAAAACCAATTTTGGATATTGCAAATCATTTTATTGATAATAATAAAAATAGAGAAAAAAAAGATATCTTTACACAAAAAAAAGAGGGAGAGATAGTTCATGTAAAAGAAGTTGCTTCAAGAAATTTTGAAGCTAAATTTGTTTCAAAAAAAATTAAAGAATTAATTGAAACAAAGGAATATAAATACTCAGATATATATGTTTTATATCGAACTAACGCTTGATCTCAGGAATTTGAAAAAGAGTTTCAAAATCAAAAAATACCTTTTCAGTTAATTGGTGGATTTAAATTTAGAGATAGAAAAGTTATTAAAGATATTACTGCATTATTAAGAACTGTAGCTTTTAAAGACGATTTAGCAATAGATAGAGTTTTTAGTTTTACACCAAAAGTTGGAGTAGTGACAGCTTCAAAATTAAAACAAGCAGCTTTTGATTTAAATGTTAGTTTATTTGATTTCTTAACAAAGTATAAAGAGGAAGTTTATTCAATTTCAAAAAATTTAAATGAGTTAATAAATTGTTTAATAAAAGCTAGAGAGCTTTTCAAAGAAAATAAAAGTTTATTAGAATTAACAGAATTACTTGTTAAAGAGTCAGGTTACAGAGATAGATTGGATTTAAAAGATAAAGAAGATGTCGAATCTTTGCAAAATTTAGAAGTCTATTATGATCAAATGGAAAAATATGATTTTGACTATAATCAATCAGAAAATGAAATTAATAGAACTGTAAATTTTTTACAAGAAGAGGCATTATCAAGTGATGAAGATAACTTGAAGGAAATTAATAAAGTAACTTTATTAACAATTCATTCAGCAAAAGGATTAGAAAATAAAGTTGTTTTTATTGTTGGATTAAATAAAGATGTTTTTCCATCAAAAATGAGTTTTTATTCAATAGAAAGTTTAGAAGAAGAAAGAAGAGCATTTTATGTTGCAATAACAAGAGCTCAAGAAAAACTTTTTATTTCTTATGTTTCTGGAGAATATTCTTACATTTCAAGTGGGGAGTTGGGACCTTCTAGATTTATTCAAGAGTTAAATCCAGAATTATACGAAATTGAAAAGAGTATTTATTTCCATTCAAATAATGACATATCGAGCAGTTACAGAGGTAGTGCTAAAAATTTAGATGTTAAACCAATAAAATTAGAAGCTGGTGTTATTAAGGGAGATAAAATTAAACATATGATCTTTGGAAAAGGAAATGTGATTAAAGTTATAGAAAAGCATATTTCTGTTGCTTTTGATGACCCTAAACAAGGAGTTAAAATGATACCTATAAACTCGAGCTCATGAGAAAAAGTAGACTAATTTATACAAGAAAAAAAATCTTTTTCTTGTATAAAGAACTTTTTTATATAAAATAATATTGTTAAGGAGGATAATACATGACTTCATTCACAGCTAAAGTAATTGATCCAGTAGGATTACATGCAAGGCCTGCATCAGTTTTAACTAAAGAAGCTTCAAAATTTGCTTCAGAAATTAAAATTAAATGTGGAGACAAAGAAGGTAACTTAAAATCAATTATGAACGTTATGGCACTTGCTGTTAAAACTGGTGCTGAAATTACAATTGAAGCAAATGGCGAAGACGAAAAAGAAGCTATTGAAGCAATTGAAAAAGCAATGAAAGATAACTCAATTATCTAGTAATAACAAAACCCTTCAAAAGGGTTTTTTGTTTAAAAAAATAGTAACTTATAAAAGACTAATTTTAATATAATTTTTTTATATTAATTTTTTTTAAAAAATGGGGTACCTTTTTTCCTTTTTTTTAGATATAACAATATTGAAATTAAAAACACAATTTCACAAAAAAAGACCTTGCAAATTTGGTGAAAGTCCAAAACTGTACCAGCATCTCTAATAAGAACATAAATTAAACTTATAGTTTATAACAATTTGAGTCAGATAATTTGGTCTTTTTATTAAATCTTTTACTGGCTATAAAAGAGAATATTTATTTGATAATATTTTAGCCACGATACAAATATCGTGTTTTTGTTTCACTAAAAATGTATTTTATGACGTATTTTGTGAAATGATTAATTTTTAAAATAAATCATTTTTAGCAACTTTATTTTAGGTATTAATTTAAGGTGTCTTTGAGGCACACAATTCTATAAAAATATAGAAATTTTAAGAAAGGTAACACAAGATTATGGCAAAGAAAAAAAATCAATATTACTACGATTCTCTTTCTCCAATTGAGTTTGCAATGAATAAATTTAGTGGAAGAATGAGATCAGTAAATTGAAATGTTATGAATGATGATAAAGATTTAGAAGTTTGAAATAGAGCAACTCAAAACTTCTGATTACCTGAAAAAGTTCCAGTTTCAAATGATTTAGTGTCTTGAAAGACTTTAACTCCAGAATGACAACAATTAGTTACAAGAACTTTTACAGGATTAACATTGCTAGATACAATACAAGCAACTGTTGGAGATGTGGCACAAGTGCCAAATTCATTAACAGATCATGAACAAGTTATTTATACTAATTTTGCATTTATGGTAGCTGTTCATGCAAGATCATATGGAACAATATTTTCTACTTTATGTTCAAGTGAACAAATTGAAGAAGCACATGAATGAGTTATTAATTGTAATAGTTTACAAGAAAGAGCTAAGGCTCTAATTCCTTACTATGTGGGAAATGATCCTTTAAAATCTAAAGTAGCAGCAGCACTTATGCCAGGATTTTTATTGTACGGAGGATTTTATCTACCATTTTATTTATCAGCACGTGGTAAATTACCAAATACTTCAGATATAATAAGATTAATTTTAAGAGATAAAGTTATTCATAACTATTACAGTGGATATAAATATCAAAGAAAAGTTGAAAAATTACCTCCTAAAGAACAAGCTGAAATGAAAAAATTTGTTTTCGATTTATTATATGAATTAATTGATTTAGAAAATAAATTTTTATATGAATTATATGATGGATTTGGAATTGCAGAAGATGCAGTAAGATTTAGTTTATATAATGCTGGAAAGTTTTTACAAAATTTAGGTTATGAGTCTCCATTCTCAGAAGAAGAGACAAGAATTGAACCTGAAATATTTACTCAATTATCAGCTAGAGCTGATGAGAATCATGATTTCTTTTCTGGAAACGGTTCATCTTATGTTATGGGTGTTACAGAAGAAACTTCAGATGAAGATTGAGAATTTTAAAAAATGCACGAAGATGTAATTAGAATATCCAAGAAATATATTAAAAAACCAAAGGGAGAAATATTTGTTGTATATTTTTCTTCAATATCAAATAACACACATAGATTTATGGAAAAGTTAGATGTAAATGATTCAAGAATTCCTTACGATTTAGATGAAGAATTAATTGTAGAAAAGGAATATGTTTTAATAACTCCAACATATGCTGGTGGTGGAGGAGATACAAAAGGAGCTGTACCAGCTCAAGTTGTAAAATTTTTAAATAAAGAAGTTAATAGAAATTTATGCAGAGGTGTAATAGCATCAGGAAATACAAATTTTGGTGACACATTTGCCATAGCAGGACCTATAATTTCTAGAAAATTAAAAGTGCCTTTTTTGTATCAATTTGAACTTTTAGGAACAAAACATGATGTTAATACAGTTAGAAAAATCTTAAATGATTTATGAGAGGGAAAAGAAAATGACTAAAGATAATATTAAAAGCCTTTCTGGAACAAATGAATCTGAAGAGTATATAAAATTAAATGCTAGAGCAAAATTATTTGTTCCAGGACAAGATAATTTTAAATTAGATATTCAAGCAGCTGATCTATATATGAAAGAACATATTGAACCTAATATGATGAAATTTTCATCAGTGAAGGAAAGAATTGATTATTTAATAAAAAATGAATATTATGATGAAGAAGTTATTAAAAAATATTCTTTGAAAGAAATAGAAGAGTTAACAGAATATGCATACTCATTTAATTTTAAATTTCCAAGTTTTATGGGAGCATTAAAATTCTTTAATGCTTACGGATTAAAATCATTTGATGGAAAAAAATATTTGGAAAGCTATGAAGATAGAGTAATTTCAAATTCTTTATTTTTAGCTGGAGGTAATTTTCAAAAAGCTAAAAATATTTTAAAACAAATAATTTTGGGACGATTTCAACCTGCAACACCAACATTTTTAAATGCTGGTAAAAAGCAAAGAGGAGAATATGTTTCTTGTTACTTATTAAGAGTAGAAGATAATATGGAATCAATTGCAAGAGCAGTTACAACTTCATTACAATTATCAAAAAGAGGTGGAGGAGTTGCTTTATGTTTAACTAACTTAAGAGAGTTTGGAGCACCAATTAAAAATATTGAAAATCAAGCAACAGGTGTTATTCCAGTAATGAAAATTTTGGAAGACTCATTTTCATATGCAAATCAATTAGGACAAAGACAAGGTGCTGGAGCAGTTTACTTGAATGTTCATCATCCTGATATTTTATCTTTCTTAGATACAAAACGTGAAAATGCTGATGAAAAAATTAGAATTAAATCATTATCATTGGGAGTAGTTGTTCCAGATATTACTTTTGAATTAGCAAAAGAAAATAAGGAAATGGCTTTGTTCAGTCCTTATGATGTTGAAAAAGTTTATAAAAAACCATTCTCAGATATTTCTATAACAAAAGAATATGAAAGTATGTTAAAAAATACACAAATAAAAAAAACCTATATTAATGCAAGAAAATTATTCCAAGCAATTGCTGAATTACATTTTGAAAGTGGATATCCTTATTTATTATTTGACGATACTGTAAATAATAGAAACGCACATCCAATAGCTGGAAGAATTGTTATGAGTAACTTATGTAGTGAGATTGTTCAAGTCTCTACACCAAGTGAATTTAACTCAGATTTATCTTTCTCAAAAGTTGGTGAAGATATTTGTTGTAATTTAGGAAGTATGAATATTGCAAAAACTATGGAAAGTGGAGAAGAATTTTCAGAAGTAATATATAACTCAATTGTTGCTCTAGATCACGTTTCTAGAAATAGTGATATATCAAGTGCTCCTTCAATTGAAAATGGGAATAAAAATAATCATGCAGTTGGTTTAGGTGCTATGAATTTACATGGATTTTTAGCAACAAATCATATTTACTATAATTCTCCAGAAGCAATTGATTTTACAAATATTTTCTTTTATACAATGGCTTTTCATGCATTTAAAGCTTCAAATAAATTAGCAAAAGAGTTTGGTTCATTCTCAGGATTTAAAATTTCTAAATTTGCTGATGGATCATATTTTGATAAATATACAAAGTGTGAAAAAGATAAATGAACTCCAGAATCAGATACAGTAAAAAAATTATTTGAGAAATACAAAGTTGCAATTCCAACTCAAGAAGAATGAATTGAATTATCAAATGAAATTAAAAAATCAGGATTGGCTAATTCTCACTTAATGGCTGTAGCTCCAACAGGATCAATTAGTTATTTATCTTCATGTACACCAAGTTTACAACCTGTAGTTGCACCAGTTGAAGTAAGAAAAGAAGGATTACTTGGAAGAGTTTATGTTCCTGCATATAAAATTGATTTTGATAATATGGGTTACTACTCATTAGGAGCATACGAAGTTGGACCAAATCCAATTATTGATATTGCAGCTGCAGCTCAACAACACGTTGATCAAGCAATATCACTAACCTTATTTATGACAGATCAAGTAACAACAAGAGATTTAAATAAAGCATACATTAGAGCATTTAAAAAAGGATGTTCTTCAATTTACTATGTAAGAGTTCGTCAAGAAGTACTTGAAAATAGTGAAAATTACGAATGTGATGCTTGTGTTATATAAAAATAAAATAAATGTTATATAAAAATAAAATAAAAACAGTAAAATGTTTTTATTTTTTTTTAAAAAATTATGAGTAGGGTATAATAGTTTTTAAAGGAGTTAATTATGATTGAAATAAAAAATATATCGAGGAAGTTGGGAAACTTTGGATTAGAAAATGTAAGTTTTAACATTGAAAAAGGTTCCGTAGTAGCATTCGTTGGAGATAATGGAGCTGGAAAAACTACAACTATTAAAGCTCTTTTTGGAGAACTTAAATTAGATAGTGGAGAAATATTAATAGATGGAGAAGACTTATTTAAAAATAATAATTTATCTAAGGTAGCTTTTTTTCCTGACTCAAATAATGTCCCTTTAGATATTAAAGTACATGAATATTTACACTATATTTGTGCAGCAAATAACATGAATAAAGAAAGAACAGAATTAAGCATTGATAATGTTTATAGATTATTAGAACTTAGACCTTATAAAGATAAAAGAATTAAGGAATTATCTTCTGGTTGAAAAAAGAAAGCAATTATGGCAAGCGTTTTGGTTAGATCACCAGAATATATTATTTTTGACGAACCAACAGCAAATGTTGATGTTGAATCAAAATTATATTTTATGGATATTTTTAAATTATTATCAAAAGTTGGTATAACAATTTTAATTACTAGTCATATTATTGAAGAACTTCAAGAATTAGCAAATTATTTAGTTTTAATTAAAAAAGGACAAATAGTTTATTCAAATAATTTTGATAAAAGTAAAGAGCATATTATGGATGTTTATAAGAGACATATGAATGAACCGATTAAAGATTTGCATATTTTAAGGGATTTATATAGTAAAAAGGATAAAAAATAATGGAAAAATTAATAAAAGAAAATAAAATAAAAAAGGAAAATAAATCAAAAGAGTTTAAAAACTTTAGTTTACTTTACTTAATTAATTTAAAATTGAGTCTTAAAAATGTAGGTTCAATTATTAGTGGAATTATTTTTTCCTTAATAACAATCATTTTTTTTATAATCGAATATACAAAAGTTATTGAAGCATCTTCTTTAAGCAGTTATGGTGTTTATAAATATTTAACATTTTTACTTGGAGGAATGGCTTTAATATTTCATATACTTTTAAACTCTCTATATTTATTTAAAAAACAAGTAAAAGATGGTATATCTTCAATTGAATTAAGAGCTGGTTATAAAACTTGAAAGTCTTATTTAATTAGAGTCCTTATTATCTTTACAGTTGCAACTATTTACATAACATCAACATTAGTAATAGCTTTAATTTTAAACTTTTCTAGTTTGAGTAATACTGCATTTTTCTTTAATCTGCATTATTCACAAGTTTTCTTTTTCTACTTTTTAGCTTACTTTTCAACAATAGTATTAGTTACTATTATGGTACTTTTTAAAACATCATTAGCAACAGCATTTGGGATGTTATTTATGGTAGTACTTACAATGGCTCCAATGTTTGCTTCATTTAAATATATGTTAGGATATAGCGTTACAGAAAATTATAAAACAAATATTAAAATGATTGGTGCACAAGATTTTTATAAAACTACAAAATCAAATCAAGAGTGATTCAATGATAATGATGGCAGTGATAATTCTAAATCTTTAAAAGGTATTAATTCATACTTAAAAGAAGTTTTAGATCCTCTAAAAGTATATGAAAAAACAGGAAATGAAAATGAAGGAAAATATAATCAAAAAATAATTCCTGAAGAGATGCTTCCAAGCTGAAACTTAAAAAAATATATTAAAAAAAATGAATTTATTAGTGGTGGTTTATATGACTATGAAAAAGCAATTAGTATAATTATGAAAAATATGGCTTTTGGTCAAGTTTATTATAATTATGATGTATTTAAAAGTGAAAGTAGTGGAGACTCAAAAAAACTTACAAATAATTATTTACTAGAAACTACTCCAATATGAAATTTATTAAAAGATATAAATAAAACTGTATTGGATAATCAAAATAATATAAAGAATACTAACCAAGATTTAATTCCTTCAATTTTTGTTAAAAACTTAGATTGAACAGGAAAAACTATTGATACAGTAGATATGAATATTGATAGTTTTTCAAAAGAAATGTCTTCATTACTTCCTCAGTACTCAATAGTGTTTGATTTTATAAACGATTATTATAATAAATATAAAACTGCTATTATTGCAGAAAGTAAAAATAACTCTGGTAGTTTTAATTCAAGCACTGCAATATATCATGGAATAATGGATACTCCTTTAGCATATGAATACAATAAACAAAATAAAAATAAAATACAGTTTTATTCTTGAAAGAAATTTTATGAATCTCGAAATCAAAGTTCAAATAATTATGGAGATGATGATTTTTGTTATTTAACTTTGAATAATAGTAGAGAACCTAAAAATGTTTGTGATACAACTTCAAAAAATATAAAAAGTAATGACGAAATGGCTGAGGTTTATAAAAAATTTCCTGAATTAACAATTATTAATCAATTAATAATTAATTTATGAAGGGATTCAATGGAATTTAGTATAGGAGATTCTATAGAGGATGGTTTGTACAGTTATCATGAATCTACTATTAAATCAAATACTTTAAAAACAGATTTATTTAGACACTTTGCTGCAATGTCAACTGGATTATTTTCACCAGTACTGTTAAATGATTCATATAATACTCAAAGTTCAATATTCTATCAAGGTCAGTTTTTAAATATATCAAATATATTTGACTTTGAAAATTATAGTTCTGAAAATAAAAGTGCTAAATCACCAATGGCACCAGTATATGAAAAAGTACAAATTAAAAAAAGAGTTGTATTTATGATACCTTTAGCATATGCAATGTATTTTATATTAATAACTCCATTAGCGTATGTTGGATATATTTTCTTTAACAAGAAAGCTAAATTATAGAAAGGAGCTTTAAGAATATGATTGAAATTAAAAATATAACTAGAGATTTAGGTGGTTTTGTTATAAATCAAGTAAGTTTTAAAATTAAAAAAGGTTCAGTAGTAGCATTTGTTGGAGATAATGGTGCTGGAAAAACTACAACTATTAAAGCTCTTTTTGGAGAACTTAAATTGGAACAAGGTGAAATACTAATGGATGGGAAAAATATTTTTGAAGAAGAGAATCTTCAAAGAATCGCTTTTTTCCCTGATTCAAATAGTGTTCCTTTAAATATGAAACTTAAAGATTATGTATCATACATTTGTGCTGTTAATAATATTCCAAAAAAAGAAGCTAAAGAAACAGCTGATAAAATATTTAAAATGCTTTCTTTAGAACCGTATATTAATAAAAAAATTAAAAGTCTAAGTGCGGGTTGAAAAAAAAGAGCTATAATGGCAAGCGTTTTGGTAAGAACTCCTGAGTATATAGTTTTTGATGAACCAACAGCTAACGTTGACGTAGAAGCAAAATTATCATTTATGAATATTCTTCATGAACTATCAAATATTGGAGTTACAATTTTGATTACAAGTCATATTCTTGAAGAACTTCAAGAAGTTGCAAATTATGTAGTGTTAATTCGTGATGGAGAAGTTGTTTTAGAAAAAGATTTTGATAATAAAAAAGAATCAATAGCACAAATTTATAAAGATGTAATGGCAGAAAAAAATAATGGAGAAAAACTTTTAAAAGAAATTTACAGTTTAAATGAAGGGGTGGTTAGTTAATATGGAACAAGCAACATTAAAACTTGTTAAAACTCAAAAACCTAAAAAAGAAAAAAAATTTAATGGTTTTAAAACTTTGTATCTAATTAATTTAAAGAGACTAATTAGAAATAAGGGTATATTAGCCACTTCAATTATATCAATGATAATTACATTAATTTTCTCACTAACTGTTGCTAATACTATGAAAAGTCCAGAAACTGCTATGGAAATTGGATTGATAATGTTATCTATTGGATTTATTATTCAAATATTTTTCTTTATATTATTTATGATAATTATGTCAACAGAATTAATTAAAAAACAAATGTTAGATGGTATTCAAAATATTGAAACCAGATCTGGAATGAAATTTAAAACCTCTTTTTTATTAAGATGATTAGTATTTATTACATTTGTTGGAGGAGTATGGGCTATAAATACACTAATTACTATTTTAACCTCATCTTCAGTTTTGTTTAAATTCGATTTAATTTCTGGAATAATATTTGGAACATGTATTTTCTATTTATTCTTAGTATTTTTTTGAACACCAATAATATTTTTTATAACTATTATTTGTTCTATTGCTTGAAGTGTTATGTTAAATATATTTATTACATTAGTTTTAGTTTTTTCAGGAATGATATCATCAATACCTATGCTATTTAGTAATGATCAAATACGAAATAATACAATGGTAATGAATTTAAATTTAAGATTAGAAATTGCAAATTCTTTTTATAACACATTTAAAGATGATGAAAATATAAATTTTATTTTTAATGATAATGAAATGAATAATCAAACATCAAAGTTCTCAGCTGCAATCAATTCAAATAAGTCATTAAAGACACAAAATATTAATGTGACAGATCTTTATTATTACAATTTAATATCTAATGATAATATAAAAGATAAAAGAGATGTTCAAATATTGGAAAGATCTTTATATGGGGGAAAGCCAAATTTAAAATATTCTTATAATAGTGAAGATGCATCAGTTACACCTAAAAATGTATTAAGTGGAACAGATATTTTTGAAAAGATATTAAATCCAATTTATGAGGAAGTTTTAAAAGGGATGAAATCTGACAATAATAAACCTCCAGTATCAAAACCAGCTTACATGGGTGGTTTTATAAATAAAAGAGAAACTTCACAGGGATTTCATGATTTAGCTCCTTTATCTAAATGATTATCAAAACAAGAAGATACAAAGAAATATGCATCTCTTCTTAAATGAGTGGAGAAAATTTATTCTAATTATTCATTTACATTAACTGCTACTAGACCTTATGGAAGTTATTCTTCTGGCAGCGGAACTTATGAGCCATATATTTTTGCAAGTAAATTTATCTCAAATAATAATCAAGAAAATTTTGATGATGAAATAAATACAGAAGCTAATAGAGTTTACAAGAGATATCCAGAATTAATGATAATAAATGATATTATTACTGAAACTTGATTAAATACAATGATGTCAAGAACTGAACTTTATAGAAATACAATGTATGGTTCTTCAAGTGGATCTTCATTTAAACAAGATGAAGTTTATTCAACTTATCAAGAATGAGTTAATAAATCTATTTTAAAAAATAATTTAAATATATTTCAACATTTTTCTATAATGTATGGACAATTATTTGGTAAAGCAATGAATAAAGATTTAATTTTTTCAAATTCAATACTTGCTTATTCAGGAATAACAACTGGATATTCAAATTATCAAGATTTAAATAAAGTAGATATAAGAAATCGTAGTTCTCAAGATCAAAACAAACCTTTAGAACCAATTTTCAAAGATGTAAAATTAAAGAAAAAATTTGGATTTAGTGCACCATTAGCTTATTTAATGTATTTATTAGTAAGTTTTGCAATGATGTATCTTGTTTATCTATTATGATCTAGAAGATCAAAAATTTAAAAAAAATAATAAAAAACTACTAAATAACTTTTAAGTAGTTTTTTATTTATAATTTTCAAAGAAAGAATAAAAAGAAAAAAAGTATTCAAAAAAATGAAGAGAATTTAAAAATTTTAAAAATTAAGTATGAAATAAATTTTTAGATATTTTTTATACTTAGTTTCAATTATTAAGTCTAATAAATTGTGTATAATATATTTGTTTAGCAGGAGGATTCTTAATGTCTAAAAAATTATCAGGAATTGGAGCAAGTAATGGTATATCTTTTGCAAAAGTATACGTACTTGATGAAAAACCAATTATTATATCAAAAGAAGCAACTAAAAATGTTGATTCAGAATTGTCAATTATAACTTCATCAATAGAGAAGGCAAAAAATGATTTAATAAAGCTACAATCTATTGCAAAAGAAAAACTAGGTGAAGAAAAAGCAGCTATTTTTGAAGCGCACGCTTCAATTTTAGAAGATCCAGCAATGGCAGAAGAATTTACAAATTTAGTAAAAGAAAAAAATTACAATGCAGCAAGAGCTATTAAAGAAGTAGCTGATAAATATGTCTCAATGTTTGAAGCAATGGATGATGATTATTTTAAAGAAAGAGCTGCAGATGTTAAAGATGTAACAGAAAGATTAATTAGATATGTTTTAAATCTACCAGTTGCAGATTTAGCAACAATAAATGAAGAAGTTATTATTGTTGCAGAAGATTTAACACCATCACAAACAGCACAATTAAATCCAAAATTTGTAAAGGGTTTTGCATGTAATATTGGAGGAAGAACTAGTCATGCTGCAATTATGGCAAGAAGTTTAGAAATTCCAGCAGTTTTAGGATTGAAAACAATTGTACATGATGTAAAAGAAAATGATATTCTAGCATTGAATGGTGAAACAGGAGATGTTGAAATAAATCCTAAAAATAAAGAAGAATGAGAAAAACTTGTAAAAGAATTTGCAAAAGAAAAAGCAGAATTACAAAAATTAAAAGATCAACCAACTTTAACTAAAGATGGATTTGATGGTTTTATATTGGAAGGAAATATTGGAAGTCCAAAAGATGTAGCTTCAGTTTTAGAAAATGGTGGAGAGGCAATTGGATTATTCAGAAGTGAATTCTTATATATGGACAATGATCATTTCCCAACTGAAGAAGAGCAATTTATTTCATACAAAAAAGTTGTAGAAGAAATGAATGGTAAAATTACAGTTATTAGAACTTTAGATATTGGGGGAGATAAAAAATTATCATATTTTGCATTTCCAGATGAAATGAATCCATTTTTAGGATATAGAGCTATTAGATTTACTTTAGATAGAAAAGATATTTTCAAAGATCAAATTAGAGCTTTATTAAGAGCCAGTGCATTTGGCCCAGTAGGAATTATGTTTCCAATGATAGCAACTGTTGACGAATTTTTAGCAGCAAAAAAATTTACATTGGATTGTAAAGCTGAATTAGAAAAAGAAGGTCAAAAAATTGGTTCAGATTTAGAAATAGGTATGATGGTTGAAATACCTGCAGCTGCAGTTAATGCAGAAAACTTTGCAAAACATGCTGATTTCTTTTCAGTAGGAACAAACGATTTAATTCAATATACAATGGCTGCAGATAGAATGAGTGAAAATGTAACTTACTTATATCAACCATATAATCCTTCAATTTTAAGATTATTAAAAATGACAATTGATGGAGCACATAAACATGGAAAATGAGCTGGTATGTGTGGAGAAATGGCAGGAGAACCAGATGCAATTCCATTATTAATGGGATTAGGTCTTGATGCTTATTCAATGTCAGCTACAAGTATTTTAAAAGCAAGAAGTATTATGTCAAAACTTACTTTAAAAGAAACACAAGAATTAGCTAATAAAGCACTTGAATGTGAAACTTCAGATCAAGTATTAAAATTAGTTAAAGAATTAATGAAAAATAAATAATTAAGGGCCATTAGGCTCTTTTTATTTATTTAGCAAAATTTAAAAGGAATAAATAAAATGGAAAACAAAAGATGTAATTGAAATAGTCAAAATGAACAGTTAATTAAATATCATGATAATGAATGGGCAAAAATCGTACATGATGATAAAACTCTTTTTGAAACTCTTATACTAGAAACTATGCAAGCAGGATTAAGTTGATTGACAGTTCTTTTAAAAAGAGAAGAATTTAGAAAAGATTCGATAATTTTGATTTTATTTTAATCTCACAATGAAATCAAAATAAAATAGAAGAGTTATTAACAAATAAAAATATTATAAGAAATAAGTTAAAAATTCAATCAGTTTTATCAAACTCTCAAAGCTTTATTAGTATTCAAAAGGAATTTGGAACATTTGATAAATATATTTGAAATTTTATTCAAAATAAACAAATAATAAATAACTGAGATAAAGAATCACAAATACCTTCTCAAACTGATCTTTCACTTAAAATTTCAAAAAATTTAAAGAAGAGAGGTTTTAAGTTTTTAGGTCCTGTAACTGTTTATTCCTTTTTACAAGCTGTTGGAATGATAAATGATCATATAAATGATTGTTTTGTTAAATATTTATAATTTAAAAAGTAAAGAAATTGAGTTTTTATTGTAAAATTAATTTTGAGGAGAAGTTAATATGGGATTATTTACAAAAAATAAAAGTTTAGATGTATTTGCACCAGTTGATGGTGAAATAATAGATCTTTCAAAAGTTGAAGATGAAGTTTTTTCAGAAAAAATGTTAGGGGACGGAATAGCTTTCATTCCTGAAAATGGAGAATTTGTAGCACCAATAGATGGTAAGTTAGTAACAGTTTTTCCAAGTGGTCATGCTTATGGAATAGCAAACTCAAATGGAGTTGAAATTTTATTGCACATTGGTTTAGATACTGTTTCATTAAATGGTGAAGGATTTGACATAAATGTGAAACAAGGTCAAAGTGTAAAAAAAGGTGATTTATTAGTAAACGTTGACATTAAAAGCGTGTTTGCTAAAGTTCCTTCAATGCATACACCATTGATATTTACAAGTGATTCAATGAACGGAAAAAATTTTGAGATTCTTAAAACTGGAAAAGTTAAAAAAGGTGATTTAATAGCTCAAGTAAAATAGTTTAATAATTATCTAAAACCTCTAAATGAGGTTTTTTATTTATTTATATTACTATTTAGTAGTAAAATAAATAAAGGTGATTTTTATGAAAGAAAATTCAAATAACTTTTGAACGAATTTAAAAAATAAGAACAATAACTTTAGATCTAAACATTTTGATTTAAGTGAAGAAGCAAGATTTAGATTTGATATTTTAAATTATAAAATTGATGGAATGATTTTTGTTACATCAGTTTTAATTGTGCCTTTAATTCTTTCACTATTTATTCCACTTGTAGCTGATTCTAATTCAGCTATTTCTCGTGCTTCAGCATTTTCAATTTTATATATTATATCTGTTTCTATTGGAATGATATTCAATTGTATTAGAAATCGGGCAGGATTTTTTAAAGGGGGCTATTTATGAATTTATATGTTCATATTAGGTCCACAAATTGTCTCTATAATTATTTTTCCTTTATTAAGGGTTTTTTTAAAGGGAAATGTTGAACTTACTAATTCTTTTGCTTCTTTAATAACAATGATAGTAACAGAAGTAATTATTATTACTCTTGCTTTAATTTATGATAGAAAAATATTTAAAAGAGTAAAAGAAACAATCAAAAATAAATGAAAAGAAATAATTTTAGTAACAATTATCTGTACTGCTTTAATGTTTATTTTTGTTACTTTCATAATTCAAAATTTAATTGAAACTAAGTTAATAGGAGTAGGGGAAAGCAATAATCAAGGTTCCTTAGTGAGTATATTAAAAGAGGACAAATATGGATTAAATGTAAAAATAGTTTATGCCATTATGTTATTTATATTAACTGTAATAGTTGCATCATTTTGTGAAGAATTATGTTTAAGAAATAGTTTTAATTTAAATGCCTCAAATAGATGACTTGGCTTTGTTTCAAGTTCACTGTTTTTTGGTTTTATTCATTGAGGTCCAAATTTTGACTTTGGTCATATAATGAGTTATAGTGCAGCAGGCTTTATTTTATCAGGAATATTTTTATACACAAAAGGTAATATGACATTTTCATGATTTGTTCATATGTTAAATAATTTAATAGCCTTTATATTAATATTTGCTATATAAAAAATAGAAAAAAAGAGGTTATTTATGACAATAATTAAAGTTAATCAAAATGATGTAGATCAAACAGTTTTTAATTTTATTAAGAAAAACTTTAAATCAACAAACTTATCTATTATTTATAAATGATTTCGAAAAGGAAAAATAAAAATAAATGATGTAAAAGTTAAAGATGGTAAAGTAAAAATTAAATTGGATGATGAAATTAAAATATATGACAGTAGTCAAACAGAAAAGAGAGATCAATTTGTTGAAGTTGATTTCTCAAATTTAGAAATTATATATGAAGATGAAAATATATTAATTGTTGACAAACAACCAAATTTAGAAGTTCATTCACCAATTAATATTAATTTAGATCAAATGGTTAAAAGTTATTTGAAAGATAAGGGAGAATATAATCCTGAACAAGAAAATAGTTTTGTTATAAGTCATGTTCATAGAATTGATAAATTAACAAAAGGTTTAGTGATATATGCTAAAAATAAAGTTACTTTAGATATTCTTTTAAAAGAATTAAACAATAAAGATAAACTTATTAAGCTATATTTAGCAAAAACAGAAAATAATAATTTACAAATAGGTAAAATAAATGGTTATATAAAATATGACAATGATAATCAAAAAGCAAGATTTAGAGTTGAAAAATTTAACAATACTAAAAAAGTTGAACAAATAAATACTTTAATTGATGATAAAAATAATATTTATGAAATTCAAATATTGACAGGAAGAAAGCATCAAATTAGAGCTGTATGTAGTTTTTACAAATCACCAATATGCAAGGATTTCAGATATGGTGCCAAAAGAAGTGAATTAAAAGAAATTGATTTGATTGCATATAAAATAATTTTTAAAAATTTTGAAGGTCATTTAGCTTATCTAAATGAAAATGAATATAAATCAAAATATAATTTTTAATGTTAAAATTAATGTAATGTTTTTTCTAGGAGGTTGCCAATGTTATCTACAAAACAAGGTATATTCAGTGTAATTGTTGGTACAACAATTTCCACACTTAATGCTATAATTCAGTTTTTAACTATGTACTGAGTTTTAGAAAAATTTGGTACAGAGTTTAACGGGTTTGTACGTTTAGTAACCTCTTTTTCTGCAATAATCTCAACTGCAGAAGGAGCTTTAGGTATTGCAGCTTCTATTTTACTTGTTAAACCCTTAGTTAATAATGATTGAATAAGTGCAAATGAAATTTATTCAACAACTAAAAAAAGCTTCAAAAGATCAGCAATTACTGGATTAATTTTAGTTTCTTTAACTGCTATTGCTTATCCACTTTATGCTGGAGTTAAATCTGGGGGAGGAAATATAATAGATCCTACTTCTTGAACAGATATATCAATGGGTTTAGTTGATAAAGATGGTACTATTTATGCCAATGCACAATATTGAATGTTAATGTTAGTTGCATTAATCTTTGGAACAAAAAATTTTATTTCAGCTTATTGATTTAGTGTTTATGAAACAATAATTATTGCTAATAATAAAAATGTTATTAGAAGAATAATAATTTTATTTACAGATGTTTTAGTAAGTGGTTTGACTTTCTTTTTACTTGCAAAAACTAAAAATCCTGTAATTCCTTTTATTCCAACCTTCTTTTATTCTCCTATTAAAGGTCTATTAATTTATATGTATGTCAAAAGAAAATATTTATGATTGAAATATTATAAAGATTTTAATAGTTTTAAACTTAATACTACACAAAGTAAAATTTCATGATCAACATTAGGTTCATCACTATTGTTAAATTCAGATATAGCAATAGTTTCAGTTATTTTGGGGTTGAATGTTTCGTCAACTTTATCACTTTATTTAGTTGTTGCATTAAATGTTAGATTAATTATGACAAATTTTGTAGTCTCCTTTAGAGAATTTTTTGTAACATTAGTTGCAAAAAAAGGAAGAATAAATTGAGAAAGTTATACAAAATATGAATTATATACTTATTTAATAGCTGCCTTTACATTTATAAACATGTCAATTTTATCACCATATTTCGTTAGTGCTTTATATGGAGAAAACATTAATATTAAAAATGATATAGCAAGTCAAAAAGCATTTGAATATATGTTCTATACTCCTAAATTTTCAATATTATATGCTGCTGTAACTGCATTTACTATTTTGTGTGATGGACAAATGACTTTAATACAAGCAAAAGGAAGATATGGAGAAGTATCTAAATTTCAAAATATTGTTGGTATTGTTTATATAATTTCAGCTCCCTTGATTACCTTTATTTTAGTTACTAGTGGTGTAGGGGGAATAAATAAATTAATTGTGGGAATAGTTATAATGTATTCAATAAAATTATTATGCTTAATTGTTAGATACTCCTATTTATGAATTTATGTTTGAAAATATGTGACATATAATTCAAATAAAAAATATGTTATAAATAACTTCTTAATTTTGATAGTTCCTACATCTATAGCAATTCTACTAAATCTTTTATATATTAGTAAAAAATTGAATATTGAAACTGCAACATCATCAGAGGGACATATCGCTCCTTTAATTGGAATGTTTTTTGGATTAATTTTTACATCTATTTTTGTACTAATTTTATTTTCTTATATTTTAAATGCAAAAGCATTTAATGGAATTATAAAGAATTTACCAGTAGTTCAAAGAATTTTATTAAAAAAATCAACTGAAGCAAGAAAAAAACGTTTTGAAGAGTATGGTATAGATATTGATGAAATAGTTGATAACAGTGATAAAATATCTCAAGCTATGTATGGAATTGAAGATTCTACAATTACTACTGAGATTATAGATGATCTTGCAGAAATAAAAATAAATCCTAAAAATGATAATATTTATATATTAAAAGGTAAATAGAAAATCAATCGATTAAAATCGATTTTTTTTATTTACTTTTTAAGAATCTTTAACTTGCTTTGAGATGCTATAATTTATAAAGGTGATAATATGTTGACAGGCTCATTGTTTATTGCTATTGGTATCTCTATTTTGTATTTATTTATGTTTTATACATCAGGGTTAATTGCAATAGAACTTTTTAAATTTAAAATAAAAAATTACTTTGTAGCTATTGCTACAGGTTTTTTCAGTTATTTTACATTTCTTTCTGTATTTACATTTCCATTGCAACTTATTTCAGTTTTACCTTATGTATTCTTTATTTACTATATTTTTGCAATATCTATAATATATTTACTATTTTGTTTTGTTTTTATGAGATTTTGATTGAATACTAATTTTTTAAAATTAGACTCTTTATTTTTTATACTTGTGGTTTGTCTCTTTATAACTTTAAATTATTTTTCTATGACATATATTTCAAAAGAAAATTTTAGTAGACATAAAAATACATTAGCTATTTTATACTGATTGAAAGGAAACTCAGTTTCTTTTTTCAATGATTCTACACTATATAACTTTTTAGGATTTAAACCATTTCAAGGATGATATAGTTTTCAATTATCAACTATCATGATTGCAAATGTTCAACCTTATCAATATAAAGATTTATTAATTCCTTTATCAATAATTTTAGATGCATTTTTATTATCTTCAATTTTCTTTACCTTTTATGAATCATTTTCATTGAAAACTAGAAATAAAAATAAAATTATTCTATTTTTATCAAGTTTGATATTGTTTATGATAACAAGATTGGTATTTTGAAAATTAGAATACTCAATATTTAGTGGAGATATGATTTTACTCTACTTGATCTTTTATGCTGTAATTATGCTACTTAGATATACAACGTTTAATACTAGAGAAAGATATAATCCTGTCTTGATTGGTTTAGTGCTTGGAGGTTATATTTCATTTTCATGAGAAAGTTCATATCAAATACTTTTCTTGTTATATGCTTTTATTTTTATAATTCAGCGAAAATTCAGTCAAAACTTTACCAAAGATATTTTAAAGATTGTATTATTTCCAATGGTTTGTTTTATCTTCTATAATATTATTTTAAATCTTTATATACAAGTAATTGTATTTGGAGCAATTCTCTTTCTTATGATTATTACTTCTATATTAATGAATAGAAAATATAGTTTTGTTATTAAGTTTGAGAATTTTTTAGAAAATAGAAGTATATTTACAGTTTTGTTTGTACCAATATTTTTTATGACCCTATCAACAGCTTTTATTTTAGCTTTTAATGAAAATATAATTTCAGATAAATTTAACTCTCTAAATATTTTATATATTTGGCTTTCTGTAATCAAAAATAACATTGCAAAGCAAACCTTAACGTTTATAATTTCAATGTCTTTATTAGCAATATCTTTCGTGTGAGTATTCTTTAGAAAAAGAGTAAAATGTGATTTATTAACAAATATAGTAGACTTATTTTTAATAAGTTATTTAACATTTTATAATCCAATATCAGTAAGATTTATAAATGTGTTTTATCCAAACATGTTTGAAACAAATGGAATAGTTTTACTTGTTCTAATATTTTCACTTCTGAACTCTATTCCATATTCAATTAAACAAAAAAAAGCAAAACAGGAAAATACTGAAGTTGTTGTGATAAAAAAATATTCAAGATTAAGTTTTTAAAGGAGCATATATGAAAGATATTAAAAATAGAATTGAAAAATTAAAAGAAGATCTAAATGAATGAAATTATGCGTATTATGTTTTGGATAACCCTATAGTTGATGATTCTGAATATGATAAGTATTTAAATGAATTAATAATGTTAGAAACAGATAATCCAGAATTTAAAACTGATGACTCACCAACACAAAAAGTAGGTGGTCAGGTAATGGATAAATTTGAAAAGTATAAACATAAATTGCCAATGTTAAGTTTATCTAATGCATTTAATAAAGATGACTTAGAAACTTTTGATGAACAAATTTTTAAAGAAATTGAAAGTAAAAAATATAACTTTTTTGTTGAACCTAAAATTGATGGATTATCAATCTCGTTAATTTATAAAAATGGTAACTTTTTTAAAGGTGTAACAAGAGGTGATGGAATTTATGGTGAAGATGTAACTTCAAATGTTAAAACAATAAAAAGTATTCCTTTATCAATTTCAGATAAAAGTGATTATGTTGAAATTAGAGGAGAAGTATTTTTATCTAAGGTTGAATTTGAAAAAATAAATAAACAAAGACAAAATAATGATGAAGAATTATTTGCCAATCCAAGAAATGCTGCTGCAGGAACTTTAAGACAATTAGATTCGTCTATTGCAGCTTCAAGAAAACTTGATGCTTTTTTATATTATTTTATGAATAGAGAAAAATTTCATACACATAGTGAGTCACTAAATTATTTAGAGAAAATGAATTTTAAAGTAAATAAATTAGGAAAAATCTGTAATGATATTGAAGAAGTTTACAATCATATTAAATTTATTGAATTGCAGAGAGAGAAATTAGAATATGAAATTGATGGAGTAGTAATCAAAATAAACGATTTTGATCTTTATGAAAAAGTGGGATATACTGCAAAATCTCCAAAATGAGCTATAGCCTTTAAATTTCCAGCTGAAGTTAAAGAAACATTATTAAAAAATATTTATGCTACTGTAGGAAGAACGGGAAGAATAACTTATAACGCTACTTTAGAGCCAGTTCAAATTTCAGGAACTATTGTCCAAGCTGCAACTTTACATAATGCAGATTTTATTATTCAAAGAGATATAAGAATTGGGGGAAAAGTTAAAATAAAAAAAGCAGGAGATATAATTCCTGAAGTAATTGAACCTATCCAGGATAATAAGTATAAAAGTTTAACCAAATGAGTTGAAGAAATAAAATGTCCTGTATGTAACTCAAATTTAGAAAGAGTTGAAGGAGAAGTAGATCAATATTGTATCAATTTTGAATGTCCAAGAAAAATTATTAGAGGACTTGAACATTTTGTTTCTAGAGATGCAATGAATATTGAAGGTCTAAGTATTAAAATTATTGAAAAGCTTTTTGAAAATAAGTTTATTAAGAACGTTGCAGATATTTATAAATTAAGTAAATTTAAAGATGAACTTATTCAACTAGATAAAATGGGAGAAAAATCTGTGTCTAATTTATTAGAATCAATTGAAAAATCAAAAAATAGCTCATTGGAAAAATTATTTTTTGGTTTAGGAATTAGACATGTAGGTAAAAAAACTGCAAAAACTTTAGCAATAAGTTTTAAAACAATGGAAAATATCTCAAAAATAAACTTTGAGGAATTAGAACAAATTAATGATGTAGGACCTATTGTTGCAAAATCAGTTTGTGATTGATTTGAAATAAAACAAAATTTGCAATTAATCAATAAATTGAAAGAAGAAAATATTAATATGATTTATTTAGGCAATGAAGGTTCAAAAAATAATGATAAAATAACTTTGAAAAGTTTTGTTATAACAGGTACATTAAGCAAACCTAGAAATTATTTTAAAGACTTACTTGAAGAGTATGGAGCTAAGGTAATTGATACAGTTAGCAAAAAAACAGATTTTTTATTAGCAGGTAAAGAAGCTGGTAGTAAATTAGAAAAAGCTGAAAAATTAGGAGTCAAAATTATTTCAGAAGAAAGTTTATTAGAAATGATTGGTGAATAAATAATGAAAATAAATTTAGAATTATTAGAAGAGCTTCAAGAAGATGCAATGTTAACTTTAAGTAAAAAAGAACTGGAAAGTATTCTTAAATATGAAAATGATTTATTAAAAAAATTTGAAAAGGTTTTATCAGTTGATACAAACAATGTAGAGGAATTACATTATCCATTTGATATTTTACAAACACACTTAAGAGAAGATGATAAGATTAGTGTTTTACCTCAAAGTGAAATTTTAAAGAATGCACCAACTATAGATGGTGACTTTTTAACAATTACAAAGGTGGTTAAATAGGATGAATTTTAAAAAAACTACATTAAAAGATGTTCATAATAAATTAATAAACAAAGAAATTAGTATTACTGATTTAGTAGAAGATGTTTTAAAGACATCTGAAAAAGAAATGAAAAGTAATTTTTTAATTACTTTGTGTAAAGAAGAAGCATTAAAAAAAGCAAAAGAACTTGAAAAAAATATTGATAAGGAAAATATTTTGTATGGAATACCTTTTATTCATAAAGATAATATTTCTACAAAAGGAATTCTAACAACAGCTGGTTCTAAAATTTTATCAAACTATGTTCCTTCTTTTAATGCGACTATTGCAGAAAAGTTTCTAGAATCAAACTCTATTATGATTGGAAAAGCTGCACTTGACGAGCTTTCAATGGGAGGAACAGGATTATTTTCATTTAATGGGGAAGTAAGAAATCCATATGATAGTAATAGAATAGTTGGGGGAAGTTCAAGTGGTAGTGCTTATGCTGTTGCAAAAGGTATTGTTCCCTTTGCAACTGGAGGAGACACAGGAGATTCAATTAGAAAGCCAGCAAGTTTAAATGGTATAGTTGGTTTTAAACCAACATATGGATCAATATCAAGGTATGGTGCAATTCCTTATGCTCCAAGTTTAGATCATTTAGGTTTTTTTACAAATAATGTTGAGGACTTGACTTATTTATGCGAAGCAACATATGCAAAAGATGATAAGGACTTTACATCAATTGATAATAGAGATGAGTTTGTAAAGAATATTAATAATTTAGATAAAAAAATTAAGTTTGGATATATTAAACATATTGAAAAATATTTAGATGGTCAATTAAAAAAAGATTATGAAAAACTATATGAGATTTTAAAAAAAGAAGGTCATGAAGTTCTAGAATTAGATTTTGACAAAAAATTATTACATGCTGTTCCTGCAACATATATGATGATATCTTTTGCAGAAGGAGTTTCAACACATTATAATTTAGATGGAATTAAATTTGGTCTAAGAGCTGAAGGTAAAGATTATAGAGAAATAATTAAAAATTCTAGAACTCAAGGATTTGGAGATACTGTAAAGAGAAGATTTATTATAGGAAGTTATCAGCTTAAATCAAAAAATCAAGAAATTCTTTTAGCTAAATCAAAAAAAGTTAGAAGGTTAATTGTAGAAACTTTAGATAAATTATATGAACAAGTAGATATTTTAATCATTCCCCCAACATTTAAACCAGCACCAACTGTTAATAATGTTTATGGAGTAGATGTTGAACAAAAAGATGATAATGAAGGTTCGTTTGTTGAAGATGTTTTAATTTTAGCTAACTTTAATGGTATGCCCTCAATTACAATTCCTTTTACAACTCAAGATAATATGCCAATAGGAATTAATTTAAATGCAAAACCAAAAAAGGATTTAAAAGTTTTACAAGCAGCAAAATTTTTAGAAGAAATAATTTCAAAAAATTTTAGACAAGTAGGTGATTTAATTGAATAACTTTGAAGTAATTATAGGAATTGAAAATCATGTGGAATTAAAAACTAACTCTAAAATGTTTGGATTAGGTCCAGTTACATATGGAGAAATTCCAAATTCACAAGTTTCAGAAATTGATATGGGTTATCCAGGAACAATGCCTTCTGTAAATAAAGAGGGAGTTAGATTGGCTTTACTTGCATGTAACGCATTAAATATGATAATAGATCCTGTTTTAAGATTTGATAGAAAAAATTATTTCTATCCAGATTTAGTAAAAGGTTTTCAAATTACACAACAATTTTTTCCTATTGGAAAAGAAGGTAAACTTGAAATTACTTTAGAAGATGGAAGTAAAAAAGTTATTGAAATTGAAAGATTGCATATTGAAGAAGATACTGCAAAACAAACACATAAAGGTGATTTAACTTACATAGATTTTAATAGAAGTGGTGTTGGATTAGTTGAAATTGTTTCAAAACCATTCATAAGAAGTGCAAATGAAGCAGTGGAATATGTAAATAAACTTAGAGAGATTTTATTATATCTTGGTGTAAGTGATGTCAAAATGAATGAAGGCTCATTAAGATGTGATGTTAATATTTCTTTAAGACCTTATGGATATTCAAAATTTGGTCCAAAAGTGGAAATCAAAAATTTAAACTCTTTAAATAATGTTAAAAAAGCAATTGAATTTGAAATTAATAGACAATCAAAAATTTTGCTATCAGGTTATAGTGTTCAACAAGAAACAAGAAGATTTGATGAAAGTACTCAAGAAACAGTTTTAATGAGAAAAAAAGATAATGCTATTGATTATAAATATTTTAGAGAACCAAATATATTTCCAATTCAACTAAATGAAAAATGAATTAAAGAAGTTATAAATAGTTCTCCAGAGTTAGCTTCACAAAAAAGAGAAAAATATATTAAAAAATATCAACTTTCTAGTGAAGATACTAACTATATTCTTTCAGATTTATCCTTAGTTTACTTTTTTGAAGAATGTATAGAGTTAGGATCAGATGCAAAAAAAGTTGCAAACTATTTAATAACAGATATTAAATCTTTATTAAATAAAGATGGTATAGAGTTGAGTCAATCCAAACTTAAACCCAAAGATATTAGTGAAATAATTAAAATGTTAGAAGAAAACTTAATCTCTTCAAAACATGTGAAAGTAATTTTACCAATTGCTTTTGAAACTGAAAAAACTATAAAAGAAATTGTAGAAGAAAATAATTTAAAATTAATATCTGATGTAAAAGAAATAGAAAAAATGTTGAGCAAAATTATAGAACAAAATAGTTCTTTAATAAAAGAACAATATGAACAAAGACAAGAAAGAGTTGAAAAAACTCTAATGGGTCAACTTATGAAAGAAACTGGAGGAAATGTAAATCCAACAGTAGCAACAGAAATTCTTATTAAAATGATTAAGGATTATTTAAAAAAATGCTAACGTAGTTAGCATTTTTTTATTCTTCAGCTTCTTGTTCACCTCTAATTTTTAGAACTAAATCATTTACTATATTATTTTTTGCATATACTCCAAGAATATCTCCTTCTTTTAAAATTGTATATTCATCTGGAAGTAAAGTTTTACCATTTCTTTTTATTTGAATAATATTGAAGTCTTTATTAGAGCTTAAGCCAGCATCAAAAATTGATTTATCAATAACTTCTTCTTCTTTTACTGTAATACTTGTAAATACATATTCATTATCAATTGATTGAACTTCACTTTCAATGTCAAACAATGATTTTGTAGCAACCATTTTACCTGTTATAACATCAGGAATAATAACTTTATCTTCTTCTAAACCAAGAGCAAGCAAAATTCTTTTATGTCTTTCATCTCTTGCTTTAACTATAATATTTTCAACACCTAAATCTAAAAGATTTAAAACTGTTAAAATACTTGATTCCATATTTCCACCAAAACAAACAATAACTCCATCATATTGAGCAATACCATTTTTTTCTAAGGCATTTTTATTTGTAGCATCTAACACTATACCTTCAACAGATTCAAATTCATTAATATGTAAATTTAGTTTTTCTTCATCATAGTCAAATATTTTAATTAATTGTTTTTTTTCATCAAGTGTTTGAGCAACTGATAAACCAAAGTAATTTGCACCAAATATAGCAAAACTTTTTTTTCTAGCCATACGAGCACCAACTTTCTAACTCTTTAAATTATACAACTCTTTTGAGGTTTAATGTATAATTTAATGTAGATTTGAAAGAGGTAGTTTTTTGTGAAAAATTCTTTAAGCACAGAGCAAGAAAATAGTAAAAAAAATAAAAAAGCTAAAGAACCAAAAAAACAAAATGAAAAGTTTTTTTATAAATTAAAAAACTGATGACCTTTTTCTCGTGTTAGTGGAAGGATCATTATAGCATATGCACTTGCTATTATAATTGGAGGTTTTTTACTTTCAATTCCTGGAGTTGTAAAGGATTCAAATAACTATTGAAACTTTATTACTGGAATGTTTACTGCATCAAGTGCAATATCAGATACTGGTATTACAATTGTACAAACAAATACAGGATATTCATTTATTGGGCAATTATTAATTATTATTATGTGTCAAATTGGAGGTATTGGTATACTGACAATTAAAATATCACTTTTAGTTATGATTGGGAGAAAAATATCTCTGGATGATCAAAATATAGCCTCATCAGAAAGAGGTAACAATAGTTTATCAAATACAGTGGAAATGATTAAAGATGCATTTATTTTTTTAATTGGTTTAGAAATAGTTGGGTCAATTATTCTATTTTTTGGATTTTACTTTACTCCAATTGATATTAATAATTTAGATGTATCAAAAGATTCTATTACAAATGCTTATAATGATTTTGGAAAATCTCTTTGAGCAGCTATTTTTCACTCTATAAGTGCTACAAATAATGCAGGATTTGATATTGTAAGTGGAACTTCACTTGTTCCGTACAATCAAGCAGGTTCAGCTGGATATTTAATACAAGTGACTTTTTTATTTCAATGAGTTATTGGAGGTTTGGGTTATCCAACTTATCATGATATTAAGAAAAAAATTAAAGCAAGAAAACAAGGAAAAACTGTTAAATTCTCTCTATTTACTAAATTAAATTTTATAACATATATAACACTATTTATATTAGGCCCAATATTGGTTTTTTTAACTGAATGATTAACTGTAGAAAATAGTAAAATTCTATTAGATGGTGTAGAGCAAAAGTATACTAAAATGATGGATGGGGGACAAGTTGTTGAAGTAAAAAAATGAATACCAACTGGTTGAAAACCTACAAATGTTTGAATAATGGACTTAATTTTTAATGTCTCTTCTACAAGAAATGCTGGTTTTGCAACAGTTGATGTTAATAACTTTACTGCTGGAAGTAAATTCATATTATCCATTTGAATGTTTATAGGAGCTGCTCCTTCCTCAACAGCAGGAGGAATTAGAACAACTACTTTTGCAATATGTATTTTAGCTATTTTCTCAATTATAAGAAATAAAAAGTCAGTAGAAGCTTTTAAAAGAAAAATTCCAGATGAAACTGTAAAAAGATCATTTGCTGTAGTATTTATTTCATTCTTTATTGTTATTACAAGTATTTTTGTAGTTTATTTAGATAGTAATAAAATGCTATATGGAACTGACACTACTGAACATACAGAAGCAACTATTATTAAACTGATAATGTATGTATGTAGTGCTTTTGGAACGGTTGGGTTTCAACCATTTCCAAATGAACAAATAATTCAGTTGGGTGTTTTAAGCAAAATTATGCTAGTTCTTACAATGTTTATAGGACAATTAGGTATTTCAAATACATTACTTGCTTTTGTAAAACCTAAAAATAAACAGAATTATGGATATTTGGAAGAAGAAGTTACTATAGGATAAAATTATCTCAAAAAATTGAGGAATCCATTCATTTTTAACATTTATAAATGTTATATAACCAAAAAAAGTTTGACTTTTAAATTTAAAGTTGTATGATAAGGTGGTTAAGATTTTAAATCTTTTGAGGTGTCAAAATGAATATAAATGAAAATAAAAATGAGTTATCAGATGTAAAAACTGATAACGTATCTTTAAATCAAGAATGATATAAACTTTCAAATAAAAAAATATGCAATATTTTTGAAGTTAATCCTGAAACTGGATTGAGTAATAAAGAAGCTAAAAATAGATTAGAAAAATATGGTCGAAATATTCTTCCTAAAAGTAAAAAAACTAACTGATTTAAAATTTTTCTATTGAGTTTTTTAGATCCGTTAAGTTTAATTATGATTTTATCTGGATTGGTTTCTGGATTGGTTTCTATTATTTCACAAAAAATTGAAGTAGTTGATATAACAGGTTTAGTTATTATTTTAGTTATAGTTTTAACTAACTCTATTATTGCAACTATTCAAGAAGTTAAATCATTAAATCAAGTAGCACATTTAAATGAAAATAAACAAACTGCAATTGTTTTAAGAAGTTCAAAAAAAACTGAAATAGATATTGAAGAATTAGTTCCAGGTGACATAATCTTTGTAAACTCTGGAGGTTTTGTTCCTGCAGATACAAGAATTTTAGACAATCAGTTACTAAAAATTGATGAATCTGCTTTAACTGGTGAAAATGAACCTGTTAAAAAAATCTCTGATTCTATCAAAGAAAAAAATTTGATGTTGGGAGATCAAAAAAATATTGCATTTATGTCAACATTAGTTATTGAAGGAAAAATGATGGGTGTTATTTTTGGAACAGGGCAAGAATCTGAAATTGGTAAAATTGCTACAAAAATTACAGGTCATAAACCTGAAAAAACTCCACTTGAAAGAAAAGTAACTCGTTTAACAACAATAATAGGTTTAACTTCAATAGTTCTAGGACTTATATTATTCTTAATTTCTTACTTCTTGTCAGATAGAATTCATGATGTACAACCTGGTAAAGCAGATATTAAAAATCTTCTTCTTATTGCAGTTTCTTCTGCTATTTCTTTAATTCCTGAATCATTAACAATTATTGTCAAAATTTGTTTAATGGTTGCTACAAAAAAAATGGCAAGAAAAAATGTTATTATTAAAAATCCAAAATCAATTGAAACATTAGGAAATGTTAATGTTATTTGTTCAGATAAAACAGGAACATTAACACAAAACAAAATGACAGTTGATAAAATCTTTTTAGATTTTAAAGAAGATGATTATAATAACTTTGATAAAACAAAATATAATGATCTAATTAACTGTATTACTTTATGTAGTGATGCAATTGTGGAAAAAGAAAAAATTGGTAGTGCCACTGAAATCGCAACTATTGAATTTGTTAAGAAATTTAATATTAATTATAAAAGCATTAGAAAAAATAACGAAAGATTGGATGAAATTCCATTTGATTCAAAAAGAAAATTAATGACAACAGTTAATAACGTTGATGGCAGAAAAATGGTTTATGTTAAAGGTGCTGTTGATTATCTTTTAGATATTTGTACTAATAAATTAATAGATGGAAAAGTAACTCCTTTAACACAAGAAGAAAAAACCAAAATTAATGAACAATTATATAGTTTTGCTAAAAGAGGGTTAAGAGTTTTAGGTTTTTCTCAAAAAGATATAACTGAAGAAAAACAACGTTATGAAAATAATTTAACTTTCCTAGGTTGTGTAGCTATTATTGATCCACCAAGAGAAGAAGTTAAAGCATCAATTGAAGAAGCAAAATCTGGGGGAATTCGTGTAATTATGATTACAGGAGATCACAAAATTACTGCTTTTGAAATTGCTACAAGATTAGGTATTACAGATGAAAACTTTGATGGTGTTTTAACAGGACAAGATATTAATGAATTATCTAATGAACAATTAAAAGAGAGACTTCAAAGAACAAATGTTTTTGCAAGAGTTAATCCAGAGCATAAAGCACTTATTGTTGATTTACTTCAAGAAGATAACAACATTGTTGCTATGACAGGAGATGGAGTAAATGATTCACCAAGTTTAGTAAAAGCAGATGTTGGTATTTCTATGGGAATAACAGGAACTGAAGTTGCAAAAGGTGTAAGTGATGTAATATTAGCAGATGATAATTTTAAAAGTATTATTTCTGGGGTTAATTCAGGGAGAAATGTTTATGAAAAAATTAAGTACTCAATTTCTTTTTTAATTGCAGCAAATATAAGTCAAATTTTAACTTTATTATTAATATTGGCAATTAACCAAGATATTGCTTTAAATTCAGTAAATATATTATTCCATATATTTATTATTGAAACAATTGTTGCTGTTCCAATCGGAATGCAAAAAGAAAGAAGAGGTGTTATGAAAAATCCACCTCCAACTCATAAAAAAGAAAGTTTATTAAAGGGAATAAGAAGTCAAATTATTATAACTACTTTATTTAATACTTTGTTTGCAGTATTAAATTATGAAATAGCTGTTTGATGATTCAATGATGATTTTCAAACTGCTGCAAAATTTGGTAAAACTGGAGTTTATATAGCAATTATGTTCTCTCCAATATTTTATTCAATTCTTTATAATAATTTCTTTTTACCTATTAAATCAACAAGACAAAATAAAGATGTAGATAAATATAGACCAAATAAATGATTATTAATATTAATGCTTGTAGCATTTGTTTTTACTACATTAACATTAATACCAATTGAGAAAGTCAATACGTTCTTTGACTTTACAACTGTTGGATTAAATCCTTGATTAGCATTAATATTCTTTATTAACTCATTATTACCAACTGTATGTATTTATGGAACTTATAAATTATTACTTAAATTAATTTAATAATTACAAAGGGTACCTTTTTGGGTACCTTTTTGTTTATAAAAATATATAATTTTTACTAGAATAAAAAGTAGAGGAGAAATATGGAAAATATAGAAATAGAAGTTGGTAAGGGAAAGTTTTTTAAAACTTTGGCCTACTATTTTGCAAAAGAATGAAAATTATCATTAGCTATGTTATTTTTATGCTTAATGTTTGTTGTATTGCATTTGTCATTGCCGATATTAACTTATCAAATGACTCTTGCAATAACAAGTGATAAAAGTGGTTCTAAAGAACCAGTAAAAAACATAATAACAGATCTTTGAACTGATGATTGGGGAATGTTAATTTATTTATCAATTGGTATTGTTATCTTATATTGTATACTTTCTTTTATTTATGACTATTTAGCATATATTATGGGTCGTAAAATTGAAATAAGTCTAAGAAATAGAGCTCTTGAAAACTTAGTAAGACAAGACATCTCTTATTATTCAGATAAAAAAATTGGAGAGATTTTAACTAAAATAGTTTCTGATACACAAATAGTTGGTGATCAAGCAGTTCAAGTACCTTTACAATTTGGTTTATCATTTTTTGAAATTATTGGTGCAGCTATTTTAATGTATATTTTAAGCTGACAGTTAGCATCAGTAACTGTTGTTACTTTTGCAATAATAATGTTCTTAATGATGTTTTGTTTTTATGCAACTAGAAATAAAGTTGTAAAAGTAAGAGAAAGCATTACAGAAATTAATGGAAATGTAACAGATAGAATTGCTACAGTAAGACTTATTAAATCATCAGGTACAGAAAATTATGAAACTGAAAGATTTAATGAAGTACACAAAGATTTTTACAAAAAGTCTAAAAAAGTGGGTACAAGATTAGCACTTATGTTAACAACAATGTGAGGTGGAACATTTGTTCTACAGTTTGCAACTGTAATTGCAACTATGTTAATTTATGGAAATCAAGGAGCAGGATCAGATTTCTTAAAAAATAGATTTGCAGCTTACAATTTAGCACAAGGACTTATGATAGGGCCATTATTTAATGTTATGGCTGCTCTATTTGGTTTAGCTCAGGCTTCAGTTGTAGCTCAAAGAGTTGATGATACAATTAAGGCTAAATCAATATTAAATTCTCATTATTGAGATGGAGAAATTGTAGATTCAATAAAAGGAGATATCTTATTTAAAGGTGTAGAATTTGAATATCCTGAAAAACCAGGAAAAATTATTCTTCCAAAATTTGACTTCAAATTTGAAGAGGGAAAATCTTATGCTTTTGTTGGGGAAACTGGAAGTGGTAAATCAACAATTGCAAAATTATTGTTAAGATTCTATGATCCTTCAAAAGGAGATGTAATTATTAATGGTAATACAAATTTAAAAGATGTTAAATTATCTAGTTACTTACAACATGTCGGATATGTTGAACAAGATCCTCAAATTCTTTATGGTGATGTTTTTGAAAATGTTAAATATGGTTCTTTTAATGCAACAAATGAAGAAGTTATTGAAGCATGTAAAAAAGCAGAACTGCATGAACTTGTTATGACATGACCTGGTCAATATGAAACTATTTTAGGAGAAAGAGGTTTCCTACTAAGTGGTGGACAAAAACAAAGATTAATTATTGCAAGAATGTTTCTAAAAAATCCAGAGGTTCTAATACTTGATGAAGCAACAAGTGCTTTAGATAATATTGTGGAAAAAGAAATCCAAGCTAAATTAGATTTATTGATGAAGGGTAGAACTACAGTGACTATAGCTCACAGATTAAGTACTATTAAAAATGCTGATGAAATTATAGTTTTAGGTGGAAATGGTAAAGGAATAGTTCAAAGAGGTAAATTTAATGAACTAAAATCTCAAGATGGTCATTTTAAAAGACTTTATCAAGCAGGTTTAATTGATTAACAATCATAAAATATAGAACATTTAATATATATTTTGTAAAGCAATTTACACTTAAAAAATATATTTTGAATGTTTTTTATTTTACTAAAAATTTTTTATGTGTAAATTAGTATGCTTTTTTTTTTTTTTTTAATATACAATAAAAAAAAGTGGGATAAATATGAGAAATAGTAAATTAAATATAAATTGAATAGTGATTTTTTTATTATTTTTTTTAACTTTACCTATCCAAAAAATTTTATATAATAAGAGAGCTATATTAATAACTTCACTAATAATTAATCTTTGATTAATAATATTTACTTTATATTTTGTAACAAATTTTATTATTAAAATTTTTAAATATACTGAAGAATATAAATTTGAAATATCGAGAAAAAATATATTTAATATGAGTAATTTAAATAATAATTTTAGATTTTTTATTTCTCTATTTGTTATTTTTCTTCTTTTCTTTTTATGTGCAGTTTTTACATATAATTCAATTCAAAAAACTAATGTTGCCTATGAAGAGATGTCTTGATGAAGAGCTTATAGATTTTATAAATATATTAATTTTTCTTATATAAATAAAATTTTCATAATGTTTATTGTGGCTTTAAATGCCTTTCTAGTTTTTTTAATTTGTTATGTTTTTATGTGTTTTTTAATATACACAATAATTAAAACTGCTATTATCTCAAACAAAAATTTTATAAATATAATTTATAAAAACTCAGTAAAGTTAAATTTGATTTTAAAAAGTATTTTTGAAAAAATCAAAATTAAAAAAATTAAAAAAATACTGAACATAAATTATTGAGATAAGGTTTTAGCCTCAATAATAATTTTAGAAACGGATAAATTAAGAGTTCATAAAATGGAAACTGATCCACCAGATCGATCATTATATTTTTAAAAGTAGAATAATTAAATTGACATTTTATTGTTTTTTTAGGTACTTAGCAATTAAGGAGAGAAAAAATAAAATGAAAAAGTTATTAAATGTACTTGCTGTAATGGTTTTAGTTGGTTCATCTGCTACAGTTGTTGCTTGTGGAACAAAAAAAAGTGGAAATGATAATAATGAAAAACCTAATACTAATGAATTACAAAAAGAAATGCTTCAAGGAGCAGAATTTATATCAAGATTAATTATTGGGGGAAGACATGAAAATTTAAATTATAATATTAATGAAATACTTTCAATGTTTTTAACACCTTCACCATCAGCTATGAATATGCCTATTTCATATAAAAATGGAGATAAAAACATAAATTTAGGAACAAATATAAGTAGATTTAAAAATTACTTAGCACCTTCTTTAACTAATTATAATAGTGAAAATTATGCAGGAATGTTTGCAAGCTATATTATGGGTATGTACGACAATGATTTTTATGAAAGTATGATTAATACTGGAGAAGATGGTGCATACTATTTTAATGATACATTTTCTACAACTGGTAACCAAGGTTACAATAAGAAAAATGGAAATAATGCAATGGGATATGCAGCAGGTTTAGGAAAGGACATTAATTTATCTGATAATGAAGAAAGAAGGAATTTAGCTTGAGGAATACAAGATACAGGAGCACTTTCAAACTACTTATTAAATTTAGGATTTGATGGAGCAAATCCAACAGATACAAATGGTACTTCTTCACCTAAAAGTAGTGCTACAGAAAAAGTTGGTACTAATGGTTCAGGATATGCTTGATATAATTCTATATTAATGAAAGGATCAGCAACAAGAAGTAAAGATTATAGTGGTATTAAAATAGCTCAAAGTAAATTAAAAGATCAACAATTTCAAGCAGCTAATGCTGATAAAAAATCAAAAATAAATGGTAAAGAATTTAACTCAACTGGAGGATTAATAACAAAAGTTGCTGGAGAACAAAATATTAATGGTTACATAAGTTTATTTGGGTCAATGCTAGATAATATTTCAGATACTAAAAATGGAGCATTAGTACTTTCAGAATTTATGAATACTTTATTTCCTATGATTAATACAAAAAAATCAGGATTAGGAGCAATTGGGAATTCTAATAATGTTTCACAAGCTGTTGGTTTAACAATGACAAGTGGTGTTTGAAAGGGAATAAAAAATTTGGAAGAGAATTCTTTAATAACTAGCGAAGCTTTAAAAACAAAAATAAAAAGTTTAGATAAAGCTCCTACATATTCTTTTCTTGGAATGGATATTCCAAAATTAAGTAGTTTATATAAAGATGCAAAAAGAGATAAGGATAAGAGATCTACCAATGCAAAAGATATTGTGGAAATAATAGATGAGTTAATAAAAGTTTATCAAGAAAGTTCTAATAAAAAAGAGTTTAATGAGCAGTTTTTCTGAGGAGAAAATGCACCATTTAAAGAAGCTTATTCAAAAATTATGGAGTATACTGGTCATGATAATTGAAAAGAAACAATGATAGGTCAAAATGATGATGGAGGTATTAATCTTCTTAAATTGGCTCAAAGTTTTTATAAAATGTTAACAGAAGATAAAACTATAAGTCAATTTGAATTAATTATTGAAACTTTTAAAGATTCTGAGACTTTTAGAGATCTTTCTACATCTGAAAAAAATAAATTTTTAAAATTAATAGGATGAACTGAAAAGGGATATGAAGAAGATTCATTAGCAGGTAGAATCTATAAAGGTTTTACTAATGAAGAAAATACAGGTCAAAAAGACTTTAAAAGATTTTTTGCTGGTTTTAAAGATTATGTAGCAAAAGCTATGAAAGAGGTACATGATCCTGTATTAAAATACCTAGTTGAGGATGACTATTGAAAAGTTAATGATTTCAAAATAAATACTACAAGTAATACTCAATTAGGGGGAAAAATGGAATTCACACTTGACTATAAAGGTATTGGTGATGTAACTTCAACAGCAAGTGAACAAACAGAAAAAGTTACAGTAGGAAAAAAATTTAATCCATATCAAACAATTGCTAAAAACCAAGAAGATAAATGAACAGATAATTTAAAAGAAAAATTGGATCCAGAAAAAGTCCAAAACTCAGGAAAAATTTTAGGATATGGAGAAAATGGACCTATAAAAAATGAACAAGACTTAATTAAATATGATGGACTTGGAAATTATCAAGATTACAATAATGTTCAAAACTCTTATAAAATAATTTGAGAAAATATCTCAAAAAACTCTGAATCACCTTATTGAGTAATTACATCTGTTAAATGTTTTAATAAAAACGGACAAGAATTCTATAATATTTATTAATAATTAATGCTTTTATTTAAAAACGGTTTAAGAAAATTACTAAAAGACTATGTCCAATTTGGAATTTATTTGATACTAATAACAATTTCTGTTGTTTTTACTTCAACTTTTGGTATTGTTTCTTCAAATCTTGTTAAAAAAAATAATGAAATAAATAGAAATTATGAAAAGTTTGACTATTCATTTAGATACACATCAAGTGCTTATAAATCTAATGATACTCAAACTTTTACTCCGTGATTTGCATTTAACATAGAACTAATAGAAAATCAAAAAGGTAATTATTTTCCGACCTTAACATTTGGTGAAAAGGGAGTATTGAAAAATTATATTTTCACTGAAGGTTGTGAGAAAAATGAAACTCAGTGTTATGAAAGCTCATATATAAAAGATGGTAATAAAGAATTTATAAATTTCCACTTTGGTGATGTAGAGTCAAAATTGAGCAGTGATAAAACTAAACCATATATTCCAAATTCTGAAAAAGCAGTTTTAAATTATACCACTGAACAAAAAATAGATATTGTAAGAAAAGCTGAGTTTGGAGATCTTTTTAGATTTAATTTGGATTCAGAAAATTTTAAAAACTCATTAATTGGTAAATTATATGAGAAATATAATAGTTTTAGAGACGAGAAATTATCTAAAGAGGGTGAAAAAACAGCTTTAGATATATTTAACTATATGTTTTATTTAAACAACTCTGCTATAACTGACTCAATAAAATTAGATTTATTAGATTTTATGAAAACTAATAATAATCCAGAAGATTATTTTAAAAATAAGACTTTAGGAGAGATTGATCAAAGCGGAAATTATAGATTTACGAAAAATCCAATAAAAGTTGATGGTAAGAAAGCTTGAAATAATGAAGAGGTTAATCTTTTCTCAAACAATGCAAGTTTCTATATAAATAAATTTGATAATAAAAATATTTTTTATACAAAATTAAATAACAATGGTTATATTATTTCAGATAATCATTTAATACATAGAAATTGATTTTCTACATACTTTAATTTATTAGGAGATTTAACTAATTTTAAAATTAGATCTTCAAATGAAGCAGTTAAATGAGATTCAGAGGGGAAAAAATATAGATATATATCTTCTTTTTACAATACAAGTGTGATAGGTTCTGATAAAAAAGAAACTCACTTTTATAATGAAGATATATTAAAAATTTATACAAGAACATATAATGAAAATAGTTTAACAGAAAACTCATTTTTAACATCAAGTGGATATGCAAAATATCATGATATGGAGTTAGGAAAAACTTATAATATTTTTCCTGGCTCTGATAAAAAATATGTAATGGATGGAACTGCTGTTGATTCATTAAACATATATCCTACAATTTATGAAGAAGATTTACTAACAAATCAAGAAAATGAAGCTATTTATTATATTAGTAGCACAATTTTTAGTAAACAGTTTAATCAAGAGGGAGAAGAGAAAAGCTATCAAGATGTTAGTAGAACTTATTTAACTTATAATAAAAAACCAAAAAAACATAAAAAGCATATAAATGAAATGAAAGAAGATATAAATTTATTTCAAACATATTTTGCAGATAATGTTTCTAATTTAAATAAAGTAAGAGATAGTATTACTTCAACTAACAAATCAGAAAAATTATCAAGAGCTAAATTCCAAGCTTATGCAGAAACAAAATTACTAAACATGAGAAATAGTTTATTTTTTGGAGTGGTTAGGTTTTTTCTATACTTGGCAATAATATTTTGTATTATATTTGCTCTATCTCTTTGTTTTGTAGTTTATAATATTTTTAAAAAAATTCTTATTTCACAAAGAAGTCAGATAGGAAATTTAAAATCTTTGGGTGTATCAAATTCTAAAATTATATTTAACTATATTTTATATATGACCTTTCCAATAATTTTTTTAGTACCTATTGGCTGAGCAATAAGTTTGTTTTTACAAACTTCTCTTATGAATATTTTTGAGAGATATTTTAATATTTCTTCAACTTTTTCAATTAATTGGCAGTTATTATTAATTGAATTATTAGCTTTTATAGGTATTATTTCTTTATTAGTTTTTGTTACGAGTTACTTTACTGTAAAACAAAGTCCTTTGGTACTGTTACAACCAAGTAAAAGTCATAAACCTAATTTAGTAATTTCTAAATTCTTTTCAAAAATAAAAATAAATCATTTTACTTCAAAATTAAGATTAATAATTATATCTTCTGCTGTAAAAGATTTAACAATATTCTTTTTAATACTTTTCTTTTCAAGCTCTGTAATAACAGCAGCTTCATTAGCTCCACATACATTGAAAAACATGAAAAATGAGTACTATAGAAATATTAAATATAATAATGATTTTAATTACTCTGGAATTGTTGTAAATAACCCATTAACAAGATATTCTTTTTATCAAATGGATGAAAAGAATAAAGCTAAAAGTAATTTAAACGCCTCTGTATTTAATCCCTTAATTGGAGTAGATAATAAATACAAAGATTTATATGATTACAACTATTGAAATTCAGATCAAATTAAAAAGGCCGAGTTTAGAAAGAATTTTGAAAATATAGTTTATAACAATATTTTAACTTTTAAAGGTGGAACTCTTTCAACAGGTATTATGGATCAAATGGTAGAGATATCTAATAAGATTGATAACTCATCATCGAAATTAGTTCAAACAACTTTTAATAACTTTTCTTGTACAGTAATTCCTCAATTATTTGGTCAATCACCTATAACAGAAGAGTCAAATTATAATAGTTGTATTAAAAGTACATCTAATAATATCTTGCCTTCAACTATAAAAGAGCTTTGAGATAAAGATGATAACGAGTTTAAAAACTTTACATTTAATTTCTCAAATATCTCTGTTGATAAAGATAAAGATGAAATGTATACAAGATTTAACTCTAAAGTTGATAATTTAAAAAATACTCCAGTTACTATTTATGGTTTAAATTTGGATTCAAATTTAAATAATGTAATTATTAAAAATAAAAATAAAATTAAATATGATGAGTCTTTAGAGTATATTCCAGTGTTAATTAATAAAAAAACTGTTTTAGAAGGTATAAAAATTGGAGATGAATTCAATTTAAATACACCATCTCAGTTTTTATCAACAGTGGATCAAAATAATCAACTAAATGTTTTAAATTCAGATTCATGAAAATATCAAAATGATAATTTATATTCAATGGATTTAAGTAGATTTACATATTTGAGTGATCAAAGAAATAACTTATATTTTAAAAAATCAGATAATGAATATTCAAAATATTATAATATGGCAAATATAGAACTTCATATTAGAAAAAGTTTAATGGATGATAATGCTTTATTTGAAAAAGTAAATCAAGAATACAAAGAGTATTCAAATAAACAAAATATTTTTACTGAAAGCAGTGATAAACAATCTTATGTAGTTAAACCCTTTGATATTTATACTTATGAAAAGGATGGAATAACTCAAAAAGAAATAGGTTTAGAAACATTAATGATGGGAGGAACAAATAATTGATTTAATATAGCTTTAAAAAATGGACTATTAACAAATAAACTTGTAGATTTAAAAGGCTATAAAAAAATAAAAGTCGTTGGTATTGAGCAATTATATGATGGCAATAAATTATATATGGATCAATTGTATGCAAATAAATTAATGGGTATTAATGAAAGTTTTGATATAAGAAAAAACTTTGAAAATGGTTCATCAATTAGCATATGAAGTAATGCAAAAATGAGTAATAATATTCAAAATGCAGATCAAATGCAAAGACTAATATTAAATACTTTCAATGGGAATAATGCTACATTAGGATTTGATAAGTATATGGATCAAGCGATAGGTTCTGCAGATTACATCAATATTAAAAAAATAGCAATGAATAATTTGATTACTTCTATTGTATCTCTTTCTGTTATATTTATTTCACTTTCGCTGATAACAGCTATTATAATTATTTATTTAATTACAGATATGTTTGTTGGAAGATATAAAAGATTTATGAGTTATATGAGAATTCAAGGATATTCTATGAAAGAAATTAATTCAATAATGCTATGAATCTTTTTACCTATAACTATTCTTGCAGTTGTAATAGGAATACTTACTATTTTAAGTCAAATATTCTTAATAATACCTAAAGTATTATTGTCTATAAATATAGCTGTTCCAATGATTATTGGTTGAGAAGTTATTCCAATTGTATTAGTATCAGGAGTTCTAATATTTTTATTAGGATATATTGTAGTTATGTTATCTATTAAACGTACTAAACTCTCATCTTTAATTGGAAATGAGTAGTTTTAAGAAGGCATTTTTTTCAAAAATCACACTTAATAATGTGGTTTTTTTTGTTTTTTTTCAAAAAAATAAAAAATTTCTTGCTTTTAATATTATTAATATGCTATTATGAATAGGTAGAAATCTATCTATGGCTCTTTAGCTCAGTTGGTAGAGCAACCGGCTGTTAACCGGTTTGTCGCAGGTTCGAGTCCTGCAAGAGCCGCCATTTTTATGGCCTGTTGGTGAAGCGGTCAACACACACGGTTTTCATCCGTGCACACACGGGTTCGAACCCCGTACAGGCTACCATTATTATTTTTATATTTTTTTTGGAGTGTTAGCTCAGTTGGGAGAGCTCCTGCCTTACAAGCAGGCGGTCGGCGGTTCGAGCCCGTCACACTCCACCATTTTTTTTGCTGATGTGGCTCAATTGGCAGAGCAACTGACTTGTAATCAGTAGGTTGTAGGTTCAAGTCCTATCATCAGCACCATGTAAGAAATCATCAACCATAAATGGTTGTTTTTTTATTAATAAGTTTATCTATAATTTACTTATTTATAAAATAAAAATGATTTAAGCGAATAATTTATTTAAAAAATAAAAGAATACTTATAAAATTTAAATTAAGTATTTTAATAAAATAAAAAAAATGTTATTATAAATTTGTTATTTTTAACGTCTCGTTAGCTCAGTCGGTAGAGCAACTGGCTTTTAACCAGTGGGTCATAAGTTCAAGTCTTATACGGGACACCATTCATCCGGAATTGGCGGAATTGGCAGACGCACCAGACTTAGGATCTGGCGTGGTAACACGTGGGGGTTCAAGTCCCTTATTCCGGACCATAAAGAAAGTTAATCACGAAAGTGATTTTTTTTATATTTTGGAAATATTTTTCATTTTTTAAAATTTTTATTTTTTTCCATATATATATGTGAATATTTTTATAGTGTATTATTTAATCGAAATACCAAAAGAAGGAGACAAATTGAGTTGTTTAAATATAAAAAATATAGATATAATTTTGTAAAAATTATTATAACAATATTGTTACTTCCGCTAATAATTTTCAAATCAAATAAAGTTTTTAGTAATTATAAGATGTTTTGTTATACTTATCCACGTTTTGGAAAATATGAATCAAAAAATGGAGAGTATAAAAATTTAGAAACTGAAACTAATTGCTTGGATTACTATTATTGAGATATAAAAAAAATGAATATTAAGCAAAACTCTTTTTCCAAACAAAATTTAAAAGAATTTTCAATTGATACATCTAAAGGTCCAATTAGCTGTTTGCAAGCAAAAAATAAAAATAGTAAAAAATGAGTTATTGGTTTACATGGATGAACAGAAGATAAGTATTTAGCTTTAAGACTTACAAGTCATTTTTACGATCAAGGTTATAATGTATTAACATTTGATTCATTTGCTCATGGAAAAACTTATGGTGAATATACTGATATTGGATTTTCCAGTGTGGAGATAATTAACTCAATAATTAATTTTTTAAAAGCAGAAGATGATATATCAGTTATTGGTTTAATTGGAAATAGTATGGGAGCTTCAACTTCTATTCTTTATTCACAAATTGGAAAATATAAAGTTGACTGAGTTGTAGCTGATTGTGGTTTTAGTGATATTAAAACACAATATAGATATTACGTTCAAAATAACTTTTTAAAAAAATCTTGATTATTTAATACATTTAGATTTACTTCTAAGTTTAGTAAATTGACAAAAACAAATCAAAGTAAATATAATTTACTTAAAAAAATGAGGGAAAATAAAAATATACCTATATTTTTTATTCATGCAAAAGGAGATACTTTTATTCCTTTTGAAATGAGCTTAACTATGTTTAATAAAAAAATAAAGTTTGAGAAAGATGTAATAAGTCAATTTTGAAATCCAATCGGATCAGAGCATGTATATGTTTTAAGTGATTATAATGATGAATATATTTCAAAGACTTTATTTTTTGCAAAAGAAAGTGAAAAAAATAAAAATGAAACAAAATAAAAAAATGGGTTTTTGAACGGTACTTGCTTTAACACTTACAGCAACTATTGGTTCAAGTGTAATAATATCGTTTTCAAGTGTTTTTGGCTCTGTAGGGAGTAATCCACTTCTTATGATTATTGCTTGAGTAGTAGGAGGATTAATAATTCTGCCTGAAACTTTTTTAATGGTTGAACCTGCAATTTCTTTTAAAGAGAATGGAACTAATTATAGTTGATTGAAAAGATCTAATTGAAAAATAATGGCCTTTTGATTTGGATGAGTTTTAACTCTTTTTGTATCTGCATCTGCTATAGCAACTAGTTCTTTAGCATTATCTAGTATAACAGCAGCTCTTTTAAAAATTGATAATATATATTTTATAAAGTTTTTTGCTATAGCAATATTAGCTGTGATTGGTTTAACACAAATATTTATAAGAAATAGCTCACAAGTCACACAGTTTGTCTTTTTAGTTATTAAAAGTTTGCCAATTATTTTAATTCTTATCTTAGCAGTTATATTTGGAACTAGTGATAATTTATTAAATGGAAAAAATATGACTCAAGATTTAACAAAAATTTATATGTCATCATTAATGCTAATTCCAGCTATAACTTTAACTTCATTTGCATATTCAGGAACAGAGGTTCCTACGTATGTAGCAGGAGAAATTGATAAGCCAGAAAAAACAATTCCAAAATCAATTTTAATAGGAGTAGCAGTTGTTATTGTAGTTTATCTAGTTTATATTGTTGCAATTCTTTCAATTGCAAAAAACTCTAGTGAATTAGAACAAAGTGGAATTAGTGGATTTAGTGCAATTCCAAATTGGGTTAAAATCATGTTTAATGTTCTTGCAATACTACTTTTTGCAGGATCTATAAATTCATTTTTACTATATCAATCAAGATTAGTATATAAAATGGCAGAAGAAAAGGACTTACATAATGTCTTTTTAAAAACTAATAAATTTTCTAGTCAACCTTATTTATCAATGTTATTACTTATGTTAGTTGCAGTATTTTATATTGTATTTAATCAAATAATAGAATTGCTAAATTATTTTGCTCTTACAGTTAGTTTACTAAAAGTTTTAATGATTACAAATGTGATTAACTTAAGAAAAAAAGATGAAAGCTATATAAAAATTTATAAACCATGAGTTTTTTGAACTTTTGTAGTTTTTGGTTATTTGACATGTTTTTTAACATTAGCAGGTTCTATAATTAATCTTGTATCAATTGTAAAAGTTGCAGGAATAGTTGAAATTTGAAAACCTCTTGTTATGATTTCTATAATTTTATTAATTTTTCCAGTAGGTTATTTAAAATTTTATTTACAAAATAAACTTGCAAATAAATCAAAAGAAGAATCAGAAAATAAAATTGAAGAAAAAAAATTATAAAAAAAAGCAACTTTTTGTTGCTTTTTTCTTTTTAATTATATATATTCATTTTTAAGAAAAGTTTGGAGAATTTATGAGAAGCATTATTTTATCAATACAAGTTAATAAAGTTTATGTGAAAAATTCAATAATTTCTCACTCTTTTCAATTTTCTAAAATATTTATATTTAATTAATCAACCATTTTATTGGTTGTTTTTTTGTAAATTTTTTTAGTAATAGAAGGAGAAAAATATGGTAGAAGATAAAAAAATAGATTTAGTTCTTGAACCACATCAGAGACCCAAAAACTTTGGTCAATGAGCTATTTTATCTATTCAACATGTATTTGCTATGTTTGGTGCCACTGTTTTAGTACCAATAGTTATTAGTCAAATAGCAGGTGAAGAGGTAATTAATATTTCTATGGCCTTATTTTGTTCTGGGATAGGAACATTAATTTATATAGCTTTAACAATGGCAAAAGTTCCTATTTATTTAGGAAGTAGTTTTGCTTATATGACAGTGCTTGGAGCAGGTTGAAAGCAATGACATAATTCAATTTTTATTGCTGTATTTGCAGTTGGTGTTGTTTATATAATTATGGGATTTGTAATTCATTGAACAGGAATTAAATGAATTAAAAAAGCCTTTTCACCAATTGTAGTTGGTCCTATAATAATAACTATTGGACTTAGTGCAGTTCCAAGTGCTCTTGGAAATATTGGATTTGTAGCTGGAACAGCTACAAATAATGATGGAAGTGTTGCAAATGCATGAGGTAATTATCCTCAATGATTGGCAATTATAATTGGTGTTGTAACATTTCTTGTAGCTACAATTTGTATGTTGAAAGCAAAGAGTTTCTTGAAAGTAATTCCAATTCTTATGGCTTTAGCAATTGGATATGTATTATGCATAATCTTGCACTTTAGTTTAATAAAAACTGATTATAATATTATTCAAACTGAATATATTACAAACACAAAAGAATGACAATGATATCCTAGTTTTAAAAAAGTATGAGATGTAGATCCAAAAACTATTGGTCCTGCTCTTGTAGCAATTGTTCCAATATCAATGGTTACAATGGTAGAACATTTGGGAGATCATATAAATATTGGAACTATGACAGGAAGAGATTTTATAAAAAATCCTGGAATAAGTAAAACATTAATTGCTGATGGAGTGGCAATGAGTTTTGCAGGTTTAATTGGAGGTCCAGCAAACGCAACATATGCAGAAAACACAAGTGTTGTGGGTTTAACAAAAGTTGCAAGTGTTTGAGTAACTGGTCTTGCTGCTGTGTTTGCCATAATTATGAGTTTTATAGCTCCAATCAATCAGATAATTAGAATGATTCCAGCTCCAGTAATGGGTGGAATAAGTTTAATGCTATTTGGAATGATTGCTTCTAATGGAATTAAAATAATGCTAGATGCAAAAGTAGATTTGAAAAATGCAAAGAATCTTGTTGTCTTATCAGTAATTTTAGCTATCGGTGTAGGTATGTCAATAATGCAAAAAGATATTGAATTAGGTTCATTCCACATTACAGGATTATTCTTAGCAACATTTTTAGGAGTAACTTTAAATTTATTACTTCCAAATCACGATAATGCAGGTATTTTGAGTATTTTTAAAAGAACCAAAAAGAATGATAAAAATAAAGAATAATAAATAATATATGTATAGTACTTAAAAATAATTAAGTTTTAGCAAAAATTTTAGTTAGAATCTAGAAAATAAAATAATTAAAAGTGATTCTTAATAAAATAGAATCATTTTTAATCTATAATTTATATTAGTAAATTGAGGTGAAAGAGTGAAATTAAAAGAAAATGTTCTTATTTTTTCAGACTTAGATGGAACTGCTTTGGCTAGCAATCATAAGTTTAGTGAGGAAACTAAAGAAATTGTAAGAAAAGTATATAAGAAAAATTACTATTTTATACCAGTAACAGCGAGATGCACAATGGATACATTTGAACAACAATCGATTTATTTAGAATTAGATAAATTAAAGGGTATTGCATCGGCTAATAATGGAACTCATATATATGATTTCAAAGAAAATAAGTGAATTAGACAAGAATATATCAGTCAAGAAACTTTAAAAGAAGTTTTTGATATTACTTTTGGAAAAGTAGGAAAATATAAAGCTCATTTTATTGGAGATGATACTTATTTTGTCTATGGACATGGTGAAAATTCAAGATATTGAAGTGATATCATGGGAACTGAATATAAAGTTGTTCAAAATTTTAAGGATATAGATAAAAAAATAAATCACATTACTATAATTCTTGAAAAAAATCCAAGTGATAAAAGTATTGAAGAATTTTATAAAGATTTTTCAAGTATCTTAAATGCACTTGATATAATTAAATATACAGATAGAGTTTATGAATTAGCAATTAAAGATATTCATAAAGGGTCTGTGGTTAAGGAAGTTTTAAATTATTTAGGATTAAATGAGTCAAATACAACAACAATTGGATTTGGAGATAATTTTAATGATTTTGAACTAGCTACAAAAGTCGATATTTTTGTAGCAATGGAAAATGGTTTGCAAAAACTAAAAAACATTGCAACATTTACAACTAAAACAAATGATGAAAATGGTGTTGCTAATTTTATTGAAAAAAATATATTATAAAGGAGAAAAAAGATGGCAGTAAAAGTTATTAATACAGTAGAAGAATTTGATGAAGAAATAGCAAAAGATATAACAGTTGTTGATTTTTATGCAGAATGATGTGGACCATGTAAAATGATGGCACCAATATTTGATTTAACTTCAGAAGAAGAACAATCAGTTAACTTTGTTAAAGTGGACACAGATAAATTACCAGAAATAGCACAAAGATATAACATTATGTCTATTCCAACTTTAATTTTGTTTAGAAGAGGCCAAGTTTCTAAACAAAATAGTGGATTTATGTCAAAAGAAATTTTAAAACAATTTATAAAATAAAAAAATAGGAGAGTTAAATAAGTTGATTAAGTTAATAACGCTTGATGTTGATGGAACATTAGTTAAAAGAAAGAATAAAGTCTCAAAATCAAACATAGAAGCAATTAAAGAAGCAAGAAAACAAGGGATAAAAATTTGTATTGCAACAGGTAGGAATATAACTAGAACAGAAGGAGTGGCTAAATCAATTGGTATAGATTTAGCGCAAGAATATTTGATAACTCTTAATGGCGGAGCAGTTTACAAGTATGATGGAAATTCTGTTCCTAATTTAATAGAGGAACATTTATTTACTTTAGAAGATTTTAAATTTATTTATGATAAAGCTAAAGAAAATAAATTAAGTACTTTTAGTTATGCAAAAGATCCAAAAATTTCTTATGTGGTTAAAAAAAATCTATTTACATATGTTTTAAAAAAGGTTTCACATCGAAAACTTATAAAATATGATAGAAATACAATAAAAGATACTTCATATAAAATAATAGTTTATGGAAATTCAAATGGTATTGCTAAATTAAAAGAAGAAATTAAAGATAAAGAATATGAAATGTTTTCTTGAAGTTACGTACCGCATTCTTCAAATATTGAAATAAACCCAAAAGGTGTAGATAAATTATATTCACTACAAAAAATTGCAAAAATCTATGGAATTAAACCAGAAGAAATTATGTATTTTGGAGATGGAGACAATGATAAAAGATCTTTGGATTGAGTTGGTCATAGTGTTGCAATGGGAAACTCAAAAAAGGATTTAAAAAGTATTGTCAAAAATACAACTAAATCAAATAAAAAACATGGAGTTGCTTATTGAATAAAAAAGGAAATTTTAAAATAAAAACATTACAGATAATCATTTGTAATGTTTTTATTTTTATATATTTTATAAAAAAATGAATTATATGTATAATAATGTTATGTAAAAACAAAGGAGAGTTACTATGAACTTGAGAAAAGTAATAAATATTAATCAATATTTAATTTCAGAATGATTTAACGTAGTAATTACTCGTGTTGAATGATTCGAAAAAGTTTTAGAGACTGAAATGCTCCTCCTGATTGCGTAATGAATTTTAATAAAATTACGCGTTAAAAATTTAATATTTTTTAAAGGAGAACATATTATGAACAACAATAATAATATTTTAGAGATTAGAAATCTTACTAAAAGTTATGATGGAAAAGTTGTTTTAAAAGGTGTTAGTTTTAATATTAAAGAAGGAGAATTTATAACTCTTTTAGGACCCTCAGGGTGTGGAAAAACAACTACTTTAAATATTATTGGAGGAAGAGAAAAACAAGACTCTGGTGAATTACTATTTGAAGGAAAAGATTTAACTCCTATTCCAAGTAATAAAAGACAAATTAACACAATCTTTCAAAACTATGCTCTTTTCCCTCATTATGATGTTTACGATAATATTGCTTATGGATTAAGAATTAAAAGAATGAAAGAAGATTTAATTACAAAAGAAGTAATGCAATATATTAAAAAATTTTCATTAGAAGGTATGGAAAATAAAAGAGTTCATGAATTAAGTGGTGGTCAAAAACAACGTGTGGCTATTGCAAGAGCTCTTATTTTGAAACCCAAAATTCTACTTTTAGATGAACCAATGTCAGCTCTTGATGTGCAATTAAGAAAAAGAATGCAAGATGAATTAAAAGAATTACAAGAAGAAATCGGAATTACTTTTATTTTAGTTACTCATGATCAAGAAGAGGCTTTAACACTAAGTGATAGAATTGTAGTTATGAATGATGGACAAATTCAACAAATTGGTTCACCAGAAGAAATTTATAATGAACCTGAAAACAGATGAGTTGCTAATTTTATAGGAGTTTCAAATGTAATTGATGATGGAGAATTTGTAAAAGATTTAAAAGTAAAATTTGATGGAAAAGAATTTGACTCTACTGATAAAGGTTTTGGAGAAAATGAAACCAATATTGATATAGTTTTAAGACCAGAAGATTTACAAATATTGCCACCAAATAAAGGCTATTTTAATGGTACTGTAGAAAATATAATTTTCAAAGGTGTACATTATGAAATTACTATTAAAACAGAAAATAGATTTTATACAGTGCATACAACAGAATTTCATGATTTTGATAAAAAAGTTTCTATTAAGTGAAATCCAGAAGATTTACATGTAATGTGAAAAGAAATAGATGAATAATTTAGACAACGAAAAAAACATTATTGATCAACAAAATAATGTTGAAGTTGAAAAAGAATTAGACGACATTGAAAACATTGAATCTGAAGGAACAGAAATAGAAATAGAAGTACCAAAAATTAAATTTAAAGATAAAGTAGCTGATTTTAAAATAGTAAAAGGACTTAAAGGAAAAGTTTGACCTATATTATTGCCTTTTATGGTAGTTATGGGATTTTTAGTTGTGCTTCCTTTATTAGGAATTATTATATTCTCAATTGTTGAAGCAACAGGCAATAGTATAAAATTTAAATTAGATTTTTCAAATTTTGTAAATCTTTTAACATCAGGATCTATTCTTTATGTCTTATTTTTATCTTTACTTTATGCTTTTGTTGCAAGCATAATTTGTGTAGCTTGTGCATATCCAATAGCTTTGATTATGGCACAATTGAAAAATAAAATGCTTGCAAAAAATGTATGAGTGTTAGTAACTTTGCCAATTTGAATAAGTATGATTTTAAAAATACTTGGACTTAGAAGTTTATTTCTATTAATTTCTCCAAGTGCTTTAGGAACTCCAATTGCAGTCATTATAGGTATGGTTTATATGTTTTTACCTTTTGCCATATCTCCAATTTATAATGCAATTGAAAATCAAGATAGAAATTATTACTTGGCAGCACTTGATTTAAAAGCAAGTAAGTCAAAAGCTTTTTGACATACAACTTTTAGACAATCATTACCAGGAGTTTTTGCTGGATTTACTTTAGTTTTAATACAAGCAGCAACTTCTTTATTAATTGTTAGATATATGGGTGATGGAAAAATTAAATTAATAACTTCAATTATTGAGAACTACTTCTTTAGAGGTACGGACTTTACATTTGGAGCAACTATAGCAATTGTTCTTGCATTACTTTTATTTGCAATTATGGGAATTATGAAATTAATTTCAAATAAATTCGAAGTGAAAGGAGCATCAAAAAAATGAAAAAATTCTTCAAATCAAGTTACTTCTTAATAATGATGGCATTTATTTATGTGCCAATAGCTGTTATGATTGTTTTTTCATTTAATTCTGGAAATAGTACTAGTAGCTGAAGTGGATTTAGTTTAGCTTGATATTCAAAACTAGTTTCAAATTCACCATTTATGAAATCAATAACAGTATCACTATTTGTTGCTATGGTATCAACATTAATATCACTGGTAATTGGAATGATGGCTGTTGTAGGACTTACAAAAATTAGAAAAAGATCTGCAGATAATTGAGTAAGAATTGCAAATATTCCACTAGTTAATGCTGATGTAATTACAGCTGTAGGATTAATGTTATTATTTGTTCTTGCAGGGGTAAAGTTTGGAATAATAACTTTAATTGCAGCTCACGTTTCATTTAACGTGCCTTATGTAATTATTACAGTTCTTCCTTTTATGAATAGAATTGATAAAAACATTCTTGAAGCATCAAAAGATCTTGGAGGAAATCAAAGACAAACTTTTTATAAAGTAGTTCTACCAATCTTAACTCCTTGTATAATTACTGCAGCTGCAATTTGTTTTGCAATGAGTTTTGATGATTTTATTATTTCTTATTTTACAGGTGGAGGACAAACAAACGTTTCTACTTTTATTTATACTGCAAAAAGAATGCAACCCTATATTAATGCTTTTGGAACATTATTAGTAGCTTCAATTGTAGTTATTATTTTAATTTGAAATATAATCCAATTTTCTTTACAAAAATCAAAAGATGTTAAGTTACAAATTAAAAAAGGTGAATATAAAATTAAAACAATTAGTAAAATAGAAAATGAAATTAAATATTTAGAAAAATGTCTTTTAGCAGGAACAAAAATAAAAAAATCTAGAAACTTAAAACTTTTAGCACAGTATAAATTACTAAAATTTCAATTAAAAATACTAAATAATAAAAATAATAATAAAAAAATTAGTAAATTAGAATGAAAAAAAGCAATTATCGCTGATGAAATTAGAAGTGAAAAAAGATATTTTACTGTATTTAAAAAATTGAATATTAAAAAATCTCAAATTGAATTAAAAATCTCAAAAATGACTAGTGAGAAAAAAATTAAAAAATTTAATCAGGTTTTATTAAAATTAGATCAAAAAATTAATAAATATGAAAAAGAGATAGAATGAATCAACAATAGAAATGAACACGATAAAGAAAGAGCTTTAGAAATTGGACAAGAAATTATTGATTTAAGAGAAGAGTTGGAGATATTAGATAATCCAAGCTCTAAATTAATTTCTTGATATAATAAAAAAATTAAAACTCTTTCAATTAAAAGAGATCGATTATTAGAAGGAAGAAATCAATATAAATTAAGAACTACTATTGAAAAACTTGCTTTAATGCAAAAAGAAAATACTGAAAAAAGTGATGCAAAATATGAACAATATAAAACAGTTAAAGAAAAAGTATTTAAAAAAGTTTCAATTGTGGAATTAATAGATAAACAAATAGAACTTTTAAATAAAGAAGATGTTAATTACGAAATAAAATTAAAAGAATTGCAAACTTTAAGAGAAACTAAATTAAAAGATGCAATAGAAAAACTAAACTCTAAATTAACTATAAAAGAAGAAAAACTTGAGAAAGTTAATAATTATGTAAAAGCTAAAAAAGATAAATATTTCCCAGATGTTTTGGAAGAAAATTATGTTCCAAAATCAAATAAATGAATTAAAAGAAACTGAAAACAACTTACAATGGGAACAGCTATTTTAACATCATTTTCTTTATTAACAACAGCATATATAATGAACAATATTTATGATTTGGTTATTGGAAATTGAGGAAGCTATATTGATGTTAATTTAATTACAAAATTTGAAAAAGAATATGGCTATAAAGTCAATTATCAACAATATGATTCAAATGAGTCATTATATAATAAAACTTACACATTTAATTATGACATTATGGTTCCAAGTGACTATATGGTTCAAAAATTGGCAACTGAGGGTGGTTTACAAAAAATTAATTGATGTAAAGTAGATAAAATTGTAACATCAGAATCTAAAAGATTAGGTAATTGTGATGATCCAAAAGTTCCACCAGTTGGAGAAAGATTAACTTATGATAAAACTTTAGAAGAAGCTCATCAAAATTACAAATTTAAGGATATAAATGGTGAACATGTTAATTTAATAGATTATTCAATTCCCTGATTTTGAGGAGATGTAAGAATTGTCTTTAATCTAGCAGATTATAAAAATGGAAATTTTGTATTTAACGAAAAACTACGCAATTTTCTTTTAGAAAGTAATTTAATTAAAAAAGGTGAAACTGTAAATGAACCATATGAAGTTATTGAAGAACAATTATCATGAGATATACTTTGACAAGCAGCAGCGCAAGGATTTAATTTAGCTTTAAATGAAGATCCAAAAAATGTATTTATGTATGGTTTTCAAAAATTATATGGAACAGTTGAAGCAAAAGCTGATTTAAAAGTTGGCAATAAAGTGATTAGTAAACAACAACAAATAGATCAAGTTTCAAAAGAAATTGAAAAACTTGTAGGTTATAAAAATGTGGGATTATATGGAGATGAATTAATTGATAAAGTTCATGACAAAGATTTTGATATTGCAGTTATGTATAACGGAGATTTAATTTATGCCAACCAAGATGATTATGAAAGTGAAAAGGAAAGTGAAGATGATGTACTTGCCTATAGTGATGAAAAAAAAGCAGAAGACTTTAAATTTGCAATGATCTCTGGAGTTCCTGGAAAACTACTACCTCAAAGTGAGGATAAAAAAGTAACTATAGATAATAAAGTTAAAACAAATGAATCTACAAATTTATGAAGTGATAATTTAGTTATTTCAAGTACTAATAATCATTTAAAAGCTACTTATGATTTTATTAATTTTATGTATAATGTGGAATCACAAAAAGCTTTAATAGATGAAACAGGAATGCCTACTGGTTTTGAAGAAATGATAAAATATGGTAAAGAAAAGGGCAATGAATGAGAAAAATGATTCTCACCTCAAAAAGGAGATTCATTTAATTTTGATGAAAAAATGGACAATTATTTAGTAGATAAATATAATAAAATTATTTCAACTAAACATTAATTTGAAATATTTTAGATATTACTTTTATTTAAAAATGTATTAATATAAAACCTATGAAAATAGAATTCCTATATGGATGTAATTTTCATAGGTTTTTTAATTTTTAGTTTATATTTATTTCTTATTATATTTCTAGTTTTTACTTTTTTTTAGTATAATCATTTAAGTAATGGTACCATAGCCAAGAGGCTAAGGCATGGGACTGCAACTCCCTGATCGTCGGTTCGACTCCGACTGGTACCTCCAAATAGATAATAAAGGAGTTTAAATTACTCTTTTTTTATTTATTTTGCAAAAAAGATACATATTGCTTTTTAATTTGCTATAATAAATATTGTCAATTTTGTAGAAAATTGGTAAAAAAAAGAACAAAATGTAATATAATATTTTTGGTTGTTTTCAGAAAAAAATGCGCCCTTAGATCAATTGGATAGATCGTTTGACTACGGATCAAAAGGTTAGGGGTTCGAGTCCCTTAGGGCGCGCCATTATTGAGAGCAATTATGAATATTATTAAATATTCATAAACTTCGGGAAGTGGCTCAGCTTGGTAGAGCATTCGGTTTGGGACCGAAGGGTCGCAGGTTCGAATCCTGTCTTCCCGACCATTTAATTTAATATTATTTTATATATGGGCCCGTAGCTCAGCTGGGAGAGCACCTGCCTTGCACGCAGGGGGTCGACGGTTCGATCCCGTTCGGGTCCACCATATATGGCGGGGTAGCTCAGCTGGTTAGAGCGCTCGGCTCATACCCGGGAGGTCAAGAGTTCAAGTCTCTTCCCCGCTACCATATATTTTATTGTTTTTATTATTTTGGACCTTTAGCTCAGTTGGTTAGAGCATCCGGCTCATAACCGGATGGTCATTGGTTCGAGTCCAATAAGGTCCACCATCATGATGACTCTATTATGATCATGAAGGGGCATAACAAAATACGGAAGATTACCCAAGCCTGGCTGAAGGGGTCGGTCTTGAAAACCGAGAGTCGGGGAAACCCGAGCGGGGGTTCGAATCCCTCATCTTCCGCCATTTTTATCGCGGGGTGGAGCAGTTGGTAGCTCGTCGGGCTCATAACCCGAAGGTCGTAGGTTCAAGTCCTGCCCCCGCAACCATTTGGCCCCATAGCGAAGTTGGTTATCGCGCCTCCCTGTCACGGAGGAGATCACGGGTTCGAGTCCCGTTGGGGTCGCCATTATTGGTTTTGTAGCTCAGTTGGTAGAGCAATTGATTGAAGCTCAATGTGTCGGCGGTTCAATTCCGTCCAAAACCACCATTTATGAAATTAAGAGGACGTCAATAAATGACGTTTTTTTATTGAAAAAGATTTAAAAAAATTTAATTTCTGTTGAATTTTAAATGTTAATATTCTATAATTAATATTGTTTTACGGAGTATAGCTCAGTTGGTTAGAGCGCACCCCTGATAAGGGTGAGGTCGGTGGTTCAAGTCCACTTATTCCGACCATTTAAAAAATTTATTTCACCCTGAAGGGGTGTTTTTTTCTTTATATATATGTATAATAAGATAGTTTAGAAATGAGGTGGTAAATATGAGTATTCCTTCCGTCGAACAGTTAAATATATTAATAAAAGAAAATACGGTAAGAAGTATTGCTAATTTGCCACCTATTTTTGTGTTGTCAAAATAGGTTTTAAAATTAGCTTTCATAAATAAGGAGAACGATGTTATGAAAACTAATAAAAAAAAGTTAAATAATAATTATAATAATCAAATAGCAGAGTTTGTAAATTTGGATCAAACTCAGGCATTAAAAAAATTGGAAGTTTCAAGTTTTGGACTATCAGATACAGAAGTTGAAGCTCAAAAAAATAAATTCGGAAATAATAGTTTAAAAGAAAAAAAATTTAATTACATATTATCATTTTTTAGGTCACTTTTTAGTCCTTTCAATTTAATATTGATAGTAATTGATACTTTCAACTTTTATAAATATGCAACAGCAAAAAATGATGATGGTATTCGTTCATTGGAACCATCAGATTTAGTTGCAGCATTACTTGTTTTAACTATGATTATAATTAGTACAACAATATATTTTGTTCAAGAAATTAGATCATTTCATGTTATTAGAAAAATGACATATGAAAATAAACATACATCAAAAGTAGTTAGAAATATTGATTTTAAAGTTAAAGATATTGATAATGCAAATTCAATTAAATTAATTAAAGAGCATGAACAAATTGAAAACTCAGAACTTGTTCCAGGAGATTTAATTTATGTTTCAAATGGAGATTTAATTCCTGCTGATGTAAAAGTTATTTGATCAAATAACTTATATTTGAATCAATCTTCTTTAACAGGAGAAGCATTTCCTGTTCAAAAGAAAATAACAAATGAAAAAGAAAGTTATTTAGAATATCAAAATATTTGTTATATGGGAACAGAAGTAGTTTCAGGTTCTGCATTATGTTTAGTAACTCAAACAGGAGAAAAAACTTATTTTTCTGCAATTAATGATAAAGTTACAGAGAAAAGGGGAAAAAACTCTTTTGAAAAAGGAGTTGCAAGAATTACACTATTGTTAATTTCATTTATGTTAGCAGTAACACCAATTGTTTTTTTAGTTTTTGGTCTAAGACCAGGAGAAATTGATGATAGATGATTTGCAGCTGCAATGTTTGCAGTTTCAATTGCTGTTGGATTAACTCCAGAAATGTTACCAATAATAGTTACGGCTAATCTATCTAGAGGTTATTCAAAAATTAAAAAAGAAAATGTTATTGTAAAAAATTTAAATGCTGTACAAAATATGGGAGCAATCGATATTTTATGTACAGATAAAACAGGAACAATAACAAGTGGAGAGATTAATTTAGACCATGTATTTGATATTAAAAGTCAAAAAAATGAAATGATAGAACATATTTTATATTTAAATAGTTATTTCCAATCAGGATTTCAAAATCCAATAGACCAGGCTGTATTGCTTAGTAAAAAAATAAATGCACCAAATATTGATGAATATACAAAAGAATGAGAAATTCCTTTTGACTTTAAAAGAAAGATATTATCAGTAATTTTATCTAAAAATAATGAAAAAGAAATTTTTACAAAAGGTGCAATTGAAGAAGTATTAAAAGTGTGTAACCGTATTTATATTAATGGCGATATTGTAAAAATTACTCAAGAACATATTGATAAAATAATCAAAAAAGCAGATGAGTATAATAACGATGGATTTAGAGTTATAGGAATAGCTCACAATCATTTAAAAGATGAAGATGTTGAAGAGGAATTAGTATTTTATGGATTTGGTACATTTTTTGATGAACCAAAAAAAACCTCTAAAAAAATTATTAAAGAATTAGCTCAAAAAGGAATAGCAACAAAAGTTCTTACAGGAGACAATGAAGTTATCACAAGAGCTATTTGTGGAAAAGTAGATTTTAAAATTGAAAAACTTTATACTGGAAAAGAAATTGAAGAAATGAATGAACACCAATTGCACAAAGCAGTTCTTAGAGGAAATGTATTTGTTAAATTAAGTCCGATTCATAAATCAACAATAATCAGAGCTTTAAAAGAACAAGGTCATGTTGTTGGATTTATGGGTGACGGAATTAATGATGCTCCAGTTTTAAGAGAATCTGATGTTGCAATATCTTTTGATGAAGCATCAAATATTGCAAAAGAAGCAGCAGATATTATTTTAATGGAAGAATCATTGTTGCCAATTAGCCATGCAGTTCATGAAGGAAGAGTATCGTTAGCAAACATATTAAAATATATTAAAGTTACAATTGCTTCAAACTTTGGAAATGTTTTAAGTGTTCTTGTTGCATTATTTTTAACAATGGCAGAACCAATGCAACCATTACATTTACTTACACAAAATTTATTATATGACATAGTAATGTTTGCCTTTATCTTTGATAAAGTTGATAAAAAATTTACAGATAAACCAAGACCATTAAGAACAAAAAACATTATATGATTTACAGTTATAAATGGTCCAGTTAGTTCAATATTTGATATTTCAACTTTCTTAGTATTGTTATATGGATACCATATTGTTCAACCAGGAATTGGTTCAGGAGTTGGAAAACCAGATCCTGCAGCATTAGCTGTATTTAATGGTAGCTGATTTGTTGTAGGATTGATGACTCAAACTGCAGTAATGCAAATGTATAGAACTGAAAAAATTCCATTTATTCAATCAAATGGTTCATGACAAGTTTCTGCATCAACAGTTCTTGTTTGTTCATTAGCTGTAATAGTTCCTTATGGATTTATGAGCATTCCTGCTGTTAGTGAAGGTATGGGAATGGGTGTTCCACCATTAACATTTTTACCAATTGCCTTATCATTTGTAGTAGCATATATGTTCTTAGCACAAGGAGTAAAAATGCTTTACATTAAAAAATTTAAAGAATGATTATAAAAAGTTTAAACAAAAGTTTAAACTTTTTTTAAACTCTTAAAAATATATTTAAATATAACTATTTTAGATATATTTACTAAATTAGTACTATTGATAATCTTTCTTTAAAAAAGAAGATATAGCAATTCTAAGTTGTTAGCTATATTTAATTAACTTCTTAAATAGTCTATTTGAAACAATATATATTTAATGTAAAATAATAAAGTTATAAAAGAGGTAAGAACATGGAATTTTCACATAAGGCAATTGAAAAAAAATGACAAAAATTTTGAGAAGAAAATAATACATATAAAACAACAAGCAATAAAGAAAAAAAAGCATATATTTTAGATATGTTTCCTTATCCAAGTGGAGCAGGACTTCATGTTGGTCATCCCAAGGGATATACTGCAACTGATGTTTTTGCAAGAATGAGAAGAATGCAACAATATGATGTTTTACATCCAATTGGATGAGATGCTTTTGGACTTCCAGCAGAACAATATGCTTTAAAAACAGGAAATGATCCAAGAGAATTTACAAACAAAAATATTATTACTTTTAAAAATCAGTTAAAAAAACTGGGATTAAGTTATGACTACAATAAAGAAGTAAATACAAGTAATCCGAATTATTACAAAATTACACAATGAATATTTCAACAACTTTATAAAAAAGGATTAGCAGAAATAAGAGAAGCTAATGTTAACTGATGTGAGGGATTAGGAACTGTTCTTGCAAACGAAGAAGTTAGTTTGGAAAATGGAAAAATGGTTTCGGAAGTTGGTGGTTTTGAAGTAATTAAAAAACCTATGAAACAATGAGTTTTAAAAATTACAGAATATGCAGATAGATTACTTGAAGGTTTAGATGAATTAGATTGACCAAGCTCAGTTAAGGAAATTCAAAAAAACTGAATCGGAAGATCAGAAGGAGCAATAATTAGTTTTGATGTAAAAAACAGTGATGAAAAAATTGCTGTATTTACAACAAGAGCAGATACTATTTATGGAGTATCTTATATTGTATTGGCACCAGAAAATAATTTAGTTTTAAAATTAACTACTAAAGAAAATAGAGAAAAAATAGAAGAATATATTGAAATTACTAAAACAAAAGTGGATGTTGAAAGACAAGATGATTCAAAAGAAAAAACGGGAGTTTTCACAGGAAGTTATGTAATCAATCCAATTTCAAAAGAAGAAATACCTGTTTGAGTTGCTGATTATGTATTAAACGATTATGCAACAGGAGCTGTAATGGCAGTTCCAGCTCATGATGAACGTGATTGAAAATTTGCCACAAAATACAATTTATCACTTAAATATGTTTTAGAAACACAAGATAAAACAAAAGCATTTGTTGGAGAATCTCCAATAGTGAATTCAGATTTTTTGAATGGATTAAATAGAAAACAAGCAATTAAATTAGTAATTGAAAAGCTCGAAAATGAAAATAAAGCAGAAAGAAAAGTTAATTATAAGTTAAGAGATTGATTGTTTTCAAGACAAAGATTTTATGGAGAACCTTTTCCTGTCATTTTTTTAGAAGATGGTCAAATTGCTTTAATAGATGAAAAAGATCTTCCTTTAGAGTTGCCAAAAACTGATTATATTAAACCATCAGGAACTGGTGAATCACCGTTGGCTAATCTAACTGATTGAGTTAATATTACTTATAAAAATCAAAAAGCAAAAAGAGAAACAAATACAATGCCTCAATGAGCTGGAAGTTGTTGATACTACTTAGCATATATTTTAGCAACAGGACCAAATGAATTTATGGATATTAAATCAAAAGAGGCAATGGAATTATTTAAAAAATGATTGCCTGTTGATTTATATGTTGGTGGTCAAGAACATGCTGTTCTTCATTTACTGTATGCAAGATTTTGACACCAGGTATTATTTGATTTAGGAGTTGTTCCAACAAAAGAACCATTTCAAAAATTAGTAAATCAGGGAATGATTTTAGCTGATAATGGCGAAAAAATGAGTAAATCAAAGGGCAATGTAATTAATCCTGATGATATTATAGAATCACATGGAGCAGATACTTTAAGATTATATGAAGTATTTATGGGACCTATTGAAGCATCACTTCCTTGAAGTTATAAAGGACTTGATGGAGCAAGAAAATGATTAGATAGAGTTTATAGAATGATTGATAATTTGGATCTTACAAATGAAAATAATCATAATTTAGATTATGTTTACAATGATGTTGTGAAAAAAGTTACTCAAATGATCGAAAGTTGTAAATTTAATACAGCAGTTTCTCAACTAATGGTATTTGTAAATGCAGTTTATAAAGAAAAAGCTCCTGTATATAAAGAATACATTTTGAATTTTATTAAAATGCTTTCAGCTTACGCACCTCATTTAGCAGAAGAGTTATGAGTTAAAACAGGAAACTCTGGAAGTGTTTGCTTGCAAACTTGACCAACTTATGATGAATCTAAGTTATTACTTTCAACAGTTATAATTGCAGTTCAAATTAATGGGAAATTAAGAGCTACATTTGAAATTAATAAAGGAACTGAAAAAGATGAATTAATTGCTTTGGCAAAACAATTAGATAATGTAAAGGAACAAATCAGGGGAAAAGAGATAGTAAAAGAAATAGCTGTTATAGATAAAATTGTAAATATTGTTATAAAATAACACCTTTAATAGGTGTTATTTTTTTACTTTGAGCATATAATAAAAATTATTAAAAAGAGGAGGAAGATTATAATGGATAAATTAATTTTAACTAATCTACAAGATTATATTAATGAACATATTAAAATGCAATTAAATTGTTTTAATTTAAGTAAAAAGTGTGATGAATTAGGATATCCTGGCTTTACACACTTTTTTCAAGTGCAAGCTCAGGATGAATTCTTACATCAAAGAAGAATAATCAACTATCTTTTAGACAGAGGACAAAATTATAAAATCGGCTCAGTAGAAATAACTACTCCTGATTTAAAAAATATAGAAGATATTTTAAAAGAGTATATTAAATGTAGAACTCATTTTGCAAATATTACAAATGAATTTACAAATAATGCAAAAGAGAAAATGGATTTTACAACAGTTAAATTTTATGAATGATTCTCTATTGATTTCTATGAAGAAATATCAGAAACAAATGATTTATTAGATTGAATTAAAATGTCTAATGGAAATCATTATGCAATTGATAAAAAAGTTTTAGGAAGAGAAAATCCAGATACACTAGCTGTAGTTGATCCTTTTGCTCCACATCAAGATTAATTAGCAATTATAAATATGAAAAATGACAAAAATATTTTTTCTAATTTACCAATTGCATTAACAGGTTGTGCTTTAGGGGTAATGACTTTAACTAATGCTTGAAAGTTATGAGTAAATAATCAATTTAAAGATAGTTATAATTTTTCCAATATATTTGGAATGATTATAACTAGTAGTGGTTTTTTATTACTAACTTTGTTCTTAACTTTAATAATTATTAAATATTTATCAAAACCAAAAATTTTTGTTACAGAATTTAAATCACCAATTATAGGTTCTTTAATACCAACTTTATTTATGGCAACTTTTTCTTGAACTGCTTTTTTAAATTCAATTAAAGTTCCATGATTAGGAGAAATAATTTGATTATTGGTACTTTTAATTTTTATTATTTATATAATTTGCTTTTCAATTTATTATATAAAAAACTTTTCTTGAAAATCTGTTTATCCTTCTTGATTTGTAGTTTGAGTAGGAATAATAGTATTTTGTGTCACAGGCTCAACAATGGGAAGTTCAGATACAACAATTGGTTTAACTATTGATCAACAAAAAAATTTTAAAGAGTTTTTGCAATGTTTATCTAAAGTTATTTGATATTTTGGATTTAGTGCATATCTTATATTACTGCCAATAGTTTTAATTAAAGTTTTATTTATTCAATTAAAAATTAAAAGTAATGAATTTCCTACTTATGGAATTTTTGGAGCACCTGCTAGTTTGTGTTTAGCAGGTTATCTAATTGCTTTTTTTAACACAACAAATAAATTAGGAGAACTTCAAAAACCAATAGTCCTATTTTTATTTATTTTAGGTATTATATTTATAATATTTGATTACTTAATTATAATTCCAATAATGACTAAGAAATTTATTCCACTTTTTGCTTGCTTTACATTTCCTTTAGCCATAACTTCTTTTGCTTCAGAAAAATTATCTCAATTTTTAATAAGTGATAATAATAAAACTTTTTCTAATATTGTTCACTGAATTAGTTTTGTGGAAATAATAATTGCTAGCTTGTCAATTTTATATGTTACTTTTGGTTTAATAGTTTTTTCAGTTAATAAACTAAAATATGAACCTAATAATAAAGAAGTAAATAAAAAATTTTTCAAATGATTTATTTAAAACTACTCTAAAATGTATGAAATGAATAGGTATTTATGCCTATTTTTTTTTAACTCATTCCACTTCTCTAGATAATTTTTATGATGCTAAGAATAAGTTTAAGGGATAACAAATCAATAGATTTCAATTTAGATAAATTAGAGATATTAGGGTTAAAAGATGTAAATCACAAAACACTAATGGAAAAAAATCATTAAAAATAAAAATATAAAATTTTTTTAAAATTTATTAAAAATGAAAAATAGACTTTTTATTTTCATTTTTTCTATTAATCACTTTTATAAAAGATTGCTTTTTTAATTTTATAAATTAATATTTTATTATAACAATCATGTCTTAAGGTTGGTAGGGTGGGATGCTGAAAGAAAGGTATTTGTATATGTTAAAACTTTTAAGTCTTATAGGAACATTAGGAGTTTCTACTTCTGCTGTTGCACCAGTTATTATGTTAGAACAAAATATTAATGATAATATTTCAATTCGTGTTGAGGCAGGAATAATGAGAGTTAATGTAAATAATAGTAAACATTTTGATAAAGATGGAAAAATAATTGTTGGTACATATGATTATAAAGAAGTGCTAATAAAAGCAATTGAAGAACAAAGAGCCTTCAACAAATCAAATAATGTAACTAATTTTGTCATTAAAAATAGTATTGTAAGACTTCCAGGTATATCATTTGATGGAACAATAAGAGTTGGTCGAACACTTACAGAAGTAATTAATGCAAAGAATTATGAAATATTGAATATGAATGTTACAGTAGATAAACTAGACAATTGAGGAAATTATACTTATGCTATTAGTTATGAAGCTATAGCAGATGGAAAAATGATTGGAGAAAATCTTTATGGCTATCAAAGACTTCAATCTTTAGCTGATTTCCAAATTAAACCTGGATATAATATGATATTTGAAACAGAATATAATATATCAGAATCAATTGAACATACTGATACATTATTTAACTCAAATATTTATTTACCAGATTTAGGTATAAATTTTTTATCAGAACAAATAATTGACATGTTTAATTCTGAAAAAAATACTTTAAATGATCAAGCAATTAAATATATTAATTCTACTTTAAAAGTTAAACTGAATGTTGTTGAATCTTTAAATGTTTATAAAGCAGTTTCTAATAATAATGATTCTTTTTCAATAGGAGAAGCTTATTCAAATCAAGAATATGTAAAAGATCAATATTTTTATGTCTCATTTAGTTCAAAAGATGCAATTGGAACATTTAATATGTTAGTAAGTAATAACAAAAAATAAAGCATAAAAATGATTTATATCTATAAATCATTTTTTTACTTTTAAAGTATTATTTAAATATTGTCATTATTAATGTATTAAGAATCTCTATTTGCTAGTTAATTTTTTTAGTTTTTAAAAATGTTATAATAAGAAGAGTGTAAGATAGGGGGCCAATTTTATGTCAAACATAATTGAAAATAATGGTGTTAAAGAAATAATTTTGGATTTCTCATTTTTACAAAATGTTCAATTCAAAGATAACCCAGCAACTTTAGATCAAATAATAGAAGAGTTAGGTATTAAAGGCATTTCAACATGTTTAGATTTTCAAAACTTTTTAAGAAACTCTCTTGCTAAAAAATCATTTATATGTCTTTTAGATGATAAAACTAAGCAGTTCTCTAAAAAAGATAAAAATAAAACTTCATATAATGGAATTTTAAGAATAGAGTTTGATTTTAAAAATCAATCATTGTTATCTGATGGAACTTATTTAGGATTTTATGTTAATATAGATACCAAAAATGCATCATTAACAATTAGCTCTATATTTGTAACAAGGTTAAAGCCAATTGCTCAAGAGTTTGAAACAATGATTCAAGAATCACAAATACTTATAATAAGAAATCAAGGACAAATCAAAGATGATGAGTTAATAAGACGAAATGTATTAAATTCATCAAATATTTTAGAAATTGGAAAACTATTATCAACTTTTGAAGAAGAAAGAGAAAGATGATCAAACTATTTAGACTTTTGTGAAGATTTACTTAAACTAGAAAGAAAAAAGTCGCTTCCATATTTAGGTGTTAATTATTCAAAAGCAATTAAAATTGATAAACTTCATTTTGAGAGCGACTTATTAACATATGAAAAAAAGAATTTAAAATCAAAAAGTCTTAAATATTTAGATATAAAAGCAGAGAGCTTATTAAAAAGTAAAGATATATCTTTTGATTTTACAAATATTGTAGTATTAGATTTACTTGTAGATGATATTGATAAGGTTAATAAAATAAAAAAGACAAAGGAACTCTCATTAGTTTCTATTAATAAAAATAAAAATATTAAAACTACTCATGAACTTGTTAAAAATATTCATGATATTTTTGATTTTGATTTTGAAAAAACTAAAGATATGCAAAATATTTTAAATGTTTCTACAATGTTAGGAGTTTTAGAAGACTCAATTAGTTTTGAAGAATATTGATTAAAAAATATGGAAACCATTTTTCTTGGTGAAAATAAGGAGCTAGAGTTTTTATTAAAAGAAAATCCAAGAGAAATGAAAGAATGACAAATAAAAAAAATAGTTTTTGAAATTGAACAAGAATTTAATGAAGAAATATTTGAAGTAAAAAATAATTTGGACTATTTAAGTTCAGGTTATATTGCCTATACAGGAATTGGAGATGATATATTAATTGAACGCTCTAAACAGGTTATTAAAAAAATATCTGAGGGAAATACTAAAAATCCATATCTTGTAAATTACTTATTTAATACAAAATTAGTTGAATTATCTGAATTATCAGATGATATTAAAATTAATGATGAAGAGTTTCAATTTGATTTAAACTATGAGCAAAAAGAAGCTGTTAGAAAAGCTGTAAATACAAAAGATATTTTTATTTTACAAGGTCCACCAGGAACAGGAAAAACACAGGTAATATGTGAAATAATAACTCAATTATCAAAATTAAATAGGAAAGTATTACTATCAAGTCAAAATCATGAAGCATTAAGAAATGTAGTTAATAGATTACCACTAGATCCAAACTTAAATAAAATTAGATTAACAAATCAATTAAATTTAAAAACACAAGATACTAATAATTTTTCTCCTGATAGAGTTTTATACAATTATTATAAATCAATTGGTAAAAAGGCATTTGATGACATGAGTAATGATGAAAAAACAATTGAGGAGTTTTATTCTTATAAAAGTGATTTAGAGAATTTAATTAATATAAATAAAAGTTTTAATCAAAATAATAAGCAAATAAAAACTTTACAAGAGGAAATTGATAAATTAAATAGAGAAATAATCTCTTTTAAAGAAAAAAAATTGGATACTATAAGAATTAAAAACAGCTTAAAAGAAGAGTTAATTAATATAGAAAATTTAATAGAAGTTTTAGAGACTAAAGATTTTTATTCAACAGTTAAAGTAAGTGAAAAAATTGAAGAATGTTTTAAAAATACAATACAATATGAATTAGAGAATTTCATTTATAAAAATCTAAACTTTAATCCAAAGGATTTTCAAAATATTTATTTTTTAATAAAAGAAGTTGTAAATGAGATTTATTATAAAAATGAATTATTTATTGAAATAAGAAACGCTAAAAATAATGCCAATAAATTTAGAAGAAATGCAGATTTTGATTTAGCAGAAAAAGAAGAAAGTAAAATTTTGGGTTTCCAACAAATTATAAATCTGGATAATAGAATTACCGAATTGGAAAATCTATTCTCAATTTTTATTTCATCTTTAAAAAATTTAAAAATGGAAGCTGAGTTAGATTTACAAGATGAAGTAAATATAAACTTATTTGACTCTGATTTAAATCAACTTGAAATTAAAAAAAATGAATTAGTGATTTCAAGAAATAACTTAATTGAAAATTCAGGTGGAAATACAAAAGAACTTAGAGATTTAATCAAAACAGTAAATTATAAATTTAATATAAATTTAGGTTTAGATGCTATGGATTTGGAGAATCAAGTTAAAGGAGAATTAAAAAAACTTGAAACTAAATTGCAACAAAGTAAGAAAAGAAAAGAAAATTTCTTTCAGATTTATACAGAAATAATTAAATATCTAAAAGATAACTATAAAATAATAAATAATTTTAAAGAGGAATTAGCTTCAGCAGATTTTACAAATCAAATGTTTAAAGATAGTCAAAGATATATAAAAACAGTTTTAGATAATCTAGTTAATGTTTACTCCATGACTTTAACTTCAACAAACTTATTTAAATTTAATAAGAATAATTTTGCCAATAAACTTGGATTAGAGGAGTTAAATTTAAAAAATATGAATGTTGATGTTGTTATTATTGATGAAGCGTCTAAAGCAACTCTATTAGAAATTTTAATGCCATTGATTTATGGTAAGTCTTTAATTTTAGTTGGAGATTATAGACAACTTCCTCCTATTCTTAAGTTACAACCAAATGATGTTGAACAAGTAAATGAATTTTTTAATAAAGATTATAGTTATAATTTGATGTATGAGTTACTTGATGAGTCAGCTTTTAAAAAGTTAATTAGTGCAGGTAATAAAACAATAACTACTTTTTTAAAAACCCAATATAGAAGTCATGAACAAATTATGAATGTTGTTAATAAATTTTATGAAGGAAATTTGAAAGTAGATTCTCAAGTTAGTAATCAGAAAAGACATGATTTAAAAATAACTAATAGCTCTGGAAAAAATATTATTGATTCACGCAGTTCTGTTTATTGAATTGACTCATCTAAAAACTTACAAAATGAAATAAATTTTGAACAAGGAGAAGAATATTCAACAAGCTTATTTAATGAATTAGAATTACAGATAACTAAAAAACTTTTAAATAAAATAAATGAGGCAGTTAAAGAAAAAAACTCAAAAATAAAACCTTCAGTAGCTATAATAAGTTTTTATGGTTTACATGTAGAGAAATTAAAAAGAGAAATAAATTTAAAAAAATATGAAAATATTAATATTATTATTAACACAGTTGATGATTTTCAAGGTAAAGAAGCTGATTATGTTTTAGTTAACATTGTAAGAAATCCAGAAAAATTATCAAACAAATCGGGAAGAGAATTTTTAAAAAAATATGAGAGAATAAATGTTGCTTTTTCAAGAGCAAGAGAATTATTAATAATTATTGGTGCTCAAAGAGCTGTTAATGATATTACTGTTAAAATTCCAACTATAGAGAATCCTAATGTTTCAAACAGTTATCAAGTTTATGCAGATATAATTGCAAAGTTGGATTTTGAAGGTTGTCTATTAAAACCCATTGATATTTTGGAGGACTAAAAAATGATATTTAATAAAATTGAAATTCTATATGATAAATTATATTTAGCTTTAAAAATTAAATATTCAGAAATTAGAAAACCAACATTTATGGAATTTTTGATTTTATTAATTATTATAGAATATCCAAATAAAAGAAAAACTCTATCAGAAATTTTGAAACAGGATTTTAATATATTAAATCAAACAGTGTTTGAAAAAGCTTTAAGAGATTTAATTAACTTTAAAGTTATTGAGGTAAATAAAATTAGACTGAGTGTTGATTTATTAAATATGAATATTCCAATTAATAATTTTAAAATAAAAGAACAAATTGAACAAAAATTCAAAACTGGAGACTATACAATTTCTCAAGATAATAAGACTCAAGATTTTAAATATTTTTTTGATCCAATTACAAAGGAAATAGAAGTTTTAAAAGAAATTAACTGAGATAAAAGAATAACTGATTTAAAATTTAGCCACAAAATTAATATTCCAGTTGAGTATTCACAAATTAAAAATAAAAATTTAATTTCATCTAAACTAAGTGAATTAGTTAAACAAGATCAAAATTTATTTGGAGAAAACTGTGTTTTAAAAAATATCTCAATTGACGATGAATTAATAGAAAATATTAGAGCATTTGAAGAATACATAAAAACAGAAAATGTCGCAATAGAAGCTTCAATAGAAATTTTTAATAACGGGGCTTTTAAAATTAAAACAGATAATAACTTCTTTAATAATTATCTAAGATTAAACTCTGAAATCTCATTAGAAATTTTAAAAGATGTTTTAAATAAATATGATGAAAAATTAAAAAAAATATTTGTTCCGGAGATCTCTTTTAAAGACAAACACAAATTTATTTCATCTCCAGAACTGTTATCTAATTTAAATGTGAAAACAAATTATAATTTACTTTTAATAAATGATCAATTTATTAAGTCAGATACAGAGATTATAAAGAATAAAGATTTTACTAAAAATATTCAAATTATTATTTTTTATAACTCTAAAAGAAATACTAAAGTTACAGATATAGTTGATGACAAATTAATCTTTTATGTTGATTATATTGATAATGAAGTTTTGCAATCAAACTCATTTATTTATTTAGATTCTCAAAATTTAATGAATGGTTTTTTAGTAGCAAATAAACTAGTTGAAATTATAAATTTGAATATTCCTGTTTTTTTCTTATACAAAAATCCAACAGATCCTTTAAACTTAGTTTCACTATTTAAATCAAATATTAAAAATGCTTTAGAAAAGTTTGAACATTCTTTATTAAATTCAAATTATAAAACTTCAATGAGCATATATATAATTTTGGAGAGACTTAGTTTAGAAAGGGAAGTAATTGCAATTCTAGAAAAATTTTTATTAGATACTGTAAATAGTGGATCAAACTATATTGAAATGAGAAATTATTTATTAGAATCAGAAAATAGAAAATTATCTTTAACTCTTGAAAAAATAGCAAAAGATTTAATTATAGATATTTCAAAAAATAAATCAGATGAAGAGATGTTTGAGATAATTAAAAATTATGAATTTAAAGACTCAAAAAATATATTAGATATTTTTAATAAAATTGATGTAGAAAATAATATTGAAAATATATATAAAATGAATCATTATTTACAGGAAAATTCAATTGATGGCTGAAAATTTAATGTAAAGAACTCTTTGATAGTATTAACTAATTATTTTAAAAATAATAATAGAGCTGAAATGTTTAATGATAATAAATATAACTCAGATGTTTGAATTCAACATGCAAATACCTTAAATTTAATTGGAAAACTAACTAAAGAGTTGTATATGTCTAACTATCAATTTGTAGAAGATAATTATAGTAGATTATTGACATCTTTAATAGATTTAGTTAAAAACTCATTAGATATAAAAAAACTTGATACTTATTTAATTAATTTGTCTGAATCTCTAGTTGATTTTTATAAAACATATTACAAGTATAAAATTACTGAACTTCAAACTCTTTTAAATACTAGTATAAATTACAAAGTCCAACTTATTGCAGGAAAATATATTAATAATATTGAACAAGCTTTAAATAAATTTTTAGATAAAAGTATATATAATATGCCAATTGAGTTAAAATTAGAATGAGTAAAAAATATTGAAAATAAATCAGATGAAGTTGAAAAAATTTTAAAAGATGATGAACAAACTTATAAAATAGCTCTTAATATAATATTTGGTAAAAAAAGAGAATATACAGAAGATGATTTAATAAAATATACTACTTTATTTGGAGGATAATAGTTATGAGTATGACAGCTGAAGAAATTTTAGTTAATTGTGAAAAGCAATTTAATTTTATAAAAAAAGATATTGATTTTTTAATAAAGTATATCAATCAATTAATAGATGAATGTAAACAAATTGATAGTTCAGGATATTTTAAAAAACAAATAGAGCAAATCTTAGAAGAATTAACTAAAGAACAAATGGATTTAGCTAAAAATACCTATGAAAGAGAAGTCTCTTCTAACACTCATGTTGCAATTGAAACATATAATGAAATTCAAAGATATGCAGAAAGAAAAAGAGAAGTTATTGCCGATTTTAAAGCAAAAGTATTCTGTTTCAAAAAAGATGTTCTTGAAAAAGAACAAGAAAATTTATTAAAAGCATTAGATAAAAATGTATTTGAAGATATAGAAAACTTAAAAAACTCTTTGATTGCTAAGTATTCTAACTCTGAAGATAAATTATATATAAAAAGATTGTTTGAACAAAACCAGCACACTTTGATTAATAAAAAAGACAATGAGTTATATGACTTTGTTTTGCAAAATTTAAAAAAATATAAAGCCTCAAATAGTTCTATTGTAAAAGAAGTTGTTTCTTCTTCAATTGATCTTTACAAAGATGATCAAGATATTGTAAATTCTATAAAACAAGATGCAAAAGAATTTATGAGTTTAATTAACTTAATTAATTTACAAGGTAATATTAAAGATTATTTTCTGAAATCATCAAAAACAGCAGAGCAAGAAGCTGTAAGAAAAGATAATGTAATAAAAATTGTTAAAGCTATTAGAGAGGTTGGGTATATTGTTAATGAAGACAATATTAGAAAACTAGCGGAAAAAAATTTAGTTCTAATTCATGGAGAAAAGTTAAGTGGGGAAACTGCAGACTTTGCTGTAAGATTAGATGGAAGTTTTGTTTATAATTGAGAAGGTTTTGAAGATCATAAACATGATGTTGATGCTCAAAATTTTCTTAATAAACTTAAAGAATTTAATCTTCACTCTAGTGATGAATTTAAAAAACAATATAGAGAACCAAAATATATTGCTAAAAATAAAAAAATAATTAAGGATAAAAATACTAATTCTAATTCAAGTAAGTAGGTGAGAAAATGAGTGTAAAAAGAGAATTAAATCAGTTAAAAAATTTAATAGGTATTAAAAAAGCCATTATTATTGAAGGAAATATAGATGATATTTATGAGTTCGAGGGTAATTACATTAATATTCATGAAATTATAATGAATATTTTTGATCAAAAGAATTATTTGGATAAATTTGTTTTTGATCAAAATTCAGGCTTAAAAGGAAAAAAGATATCTAATTTAATTTTACACTCAGTTTCTGAAAATCAAGGTGACTCTATTTCAAATGATTTTGAAGAGTTATTTTCTAATGACAATGAGTCTGAAAGTTCTGATTCTTTAGTGCTAAAAAAACCGATTGATTTTTTTAAGATTTTAAATAAGAATATTAATAGAGAAGATGAAAAAAAAGTTGGTTTTATAGCAGATTATACAAATTATGTTTTTAGTGATCAGGGATTGGATGTTGATGATAGAAGTGTTCTTACAGAATTTTCAAAAACATTAAAAGAATCTAATTTTTTAATTTCCAAAATTGATGAATTAACTAACTGTATAATTTTTTTAACTAAAAAAATCAATCAGTTACCACCAAGTTTATATTTAGATAATCCAGAAATAATAATATTAACTTTACCAAAACCAAGTAGAGATGAAAGAAAAGAATTTTTAGCAACAATTAAACCAAGAGTTCAAGTGATAGATATAGCAAGTGAATTTAACAATATTGTTGATGCAACAGAAGGTTGAACTTTGAAAGAAATCTCACATTTTGCAAAATTTAGTTGCAATTTTGAAAGCCCCTTAAAGTTTAATAAAATGTTCAATATTTATAATTATGGAGAAAAAGTTTCTCCATGAGAAGAATTAAGTTATGAAAAAATGTTGAAGATTAAAGAACAACTTTCATCAAAAGTTATTGGACAAGATGAAGCAATAGAAAAAGTAGCGAAAGTTATTTATAAGGCATATACTGGTTTAACTGGTATAACTTATTCTTCAAAAAGAAGTAAACCAAAAGGAACTTTATTCTTTGTTGGCCCAACAGGAACTGGTAAAACAGAATTGGCAAAAGCTATTACAACTTTTCTTTTTAACGATGAAGCAAATCTAATTAGATTTGACATGTCAGAATATGGACAAGAAAACTCAGATCAGAAATTAATAGGAGCACCTCCCGGTTATGTTGGTTTTGAAGGTGGAGGACAACTTACAAACTCTGTAAAAGCAAGACCATTTTCAGTAATTCTATTTGATGAAATTGAAAAGGCAAACCCAAAAATATTTGATAAGTTTTTACAAATATTAGAGGATGGTAGATTAACAGATAATACAGGACAAACAGTTAGTTTTAGTGAAACTTTTATTATCTTTACTTCAAATATAGGAGCAGCTGATGTAAATCCAAATCAAAACAAAGAGAATGTTTATAATGAATTTATTAAAAGAGTTCAAGATCATTTTACAAATGAGTTAAATAGACCAGAACTTTTAGGAAGATTTGGAAACAATATTGTTCCATTTAATTTCATAAGTGATTTAAGTTTAAAATCTAAAATTATTCGCCAAAAAGTAAAACCAATACAAATTGCAATCTATGAAAAATATAAAGCAGAATTACATATTGATTTAAATGATCAAAATTTAATTGCAATTATTTTAAGAAATGCAGATGAGAGACGTGGAGGACGTGATGTGTTAAACTCATTAGAAACAAATTTAGTTGATCCTCTCTCAGAATTTATTTTTCATAATTTACAAAATATTAGACAAGGAACTAAAATTTTAACTTCTCATAAAGAGGGAAAAATTAATTTTATAATAAATGGCTAATTTAAATATTGGAAAATTTTTAATGAATAGTGAAATTGAAGGTCCTGGAACAAGATTTGTAATATGATTTCAAGGATGCAATATTGGGTGTAGAGGATGTTCAAATCAAGAACTACTTGCACTAGAAAAAAAAATGTTTATGCCAAATGAATTTATTTATGAGAAAATATTAGAAGCAAAGAAAAAATTTAATATTGAGGGTATAACTTTAATAGGGGGAGAACCCTTTTTACAGCCTGATGGTTTAAAAGAACTTGTTCAGTGGAGTCAAAAAAATAATTTAACAGTAATTTGTTTTACGGGATATATATATGAAAATTTACTAGAAGAACATAAAGAAATACTAGAGTGCATTGATATATTAATTGATGGACCTTTTATTATGAAACTGTTAGATAAAAATAGAAGATTAATTGGAAGTAAAAACCAAAGAGTTATAAAAATAACAAGTGTGTATAAAGATTGTGATTATTTTGATAAACCTCATTCAGAAGTAGAAATTCAAATTTATAACAATAGAATTTCAATGAATGGTGATGGTGTTGTTTTCGATAATGAAGATGGAGAATTTAATTTCAATATAAAGTAGGGAAAAAAAGTGAGATTTTTAGTTAGAAGTATGAATGATTTTTATTCCTAATCCTTTTTTATTTATAAAAAGGAAGGAAAACATAAATGGAAAATAAAAAAAATATAATTTTTGATATGACAATAAGCGCAATGCTATTATCAGTTGGTATCTGTTTAAAATTAACTTTTTTAGCTTTGCCAGGATTTGATTTGACTTTAATTATAATTCTTATTACAGGACTATTTTTTAAGTCAAATATATCTATAATTTCAACTGCTGGAATATCTGCTTTAAGTTTTTTAATATCAAAAGATATTATTCTTTGAGCATCAACAATCACTGTATATTTATTATTAAATATTTTTCTTATTATTATGAGAAAAATAATTTTAAAAAATAATGCTATTGCTTACATTATTTTACCTATTTTTGGTTTAATGATAACAACATTTTATTTAATAATTTCAATATTAGTTTATGGAAAAATAAATGGTTACTCAATGTATTTGGTTCATTTACATGAAGCTTATATAATATTTTTTATGTATTGTATTTTAACTCCAACTATTTTTAAAAAAATATTTCAAGTTATGACTCATTTGAATTATAAATATTCAACTATTTTTAATAAAAGTTTTAAAAAATATATAGAAACAATAGAAGATAGTACTTATAAAGTAAGTGACAAAAAAATTAATTATAATGTTCAGTTAGTATCAATGATTTTCTCAATGATGCTATTAATTTGCTATTTTAGTTTTGTACCTTATAAAATGGTAACTGTACTAAATAACATAAATTATTTGGCAACTATTATTATAGTTCCTCTATTAATGTTATTTGTAACTCCACTTTGAATGAAAAGTGCGAAAAAAATAGGTAATTTAAATATGCTCAAAATTAACTCTGTGGGTTTACTATTAGCAATTATTTTTACATTTAGTTCTTTTACATCACAAAAGTATAACATTACATTAGCTTTTTCAATAACTGGTTTAGTTCTTTTTGGTGTATTCATTGCAGGTTTTTTACCTATAAATATTGAAACTATCAAGAGCTATGAATATAGAAATAAGTTAAAAAATAAAACTTCAAAATATAACTCTATTTTTGGTTTTTTACTATTGCCATTACCATTTCTAATTAATTATTATCTTGGAAGTATTTATGTTTTAATATTTTTTATGCTGATTTCAATTTTAATTTTATTTCTACTAATGCTTAATAAAAATATTATGTTGGATGGTAATGTTTTAAATATTGATAGAAATTCATTTTCTACCCTTAAGAAAAAGAAAGTATTTTTTTTAGAAGTATTGGTTCAGAACTACTTTATAGGATTTTTTAAATTTTTAGATTTATCATTAGTTTTATTCTATTTTATAATATTTGACAATAATAAAATTTTTATCGAATGAAATAATAAAAATGGTATTGTTCTTATATTTTTGGTTTTAGGCTTTTTGAGCAAATATATAGCTCAAGCAATATTTGCAAATATAAAATACAATAATAAAAATATTAATAAAATAGCAATGTTAGTAACTATAGTTTCTGTTTTAACTTTTATTGGATTTTTGGTATTAAATTATTTTCTTGTTACTAAAAATGTAAATTACTATTACTATTCTTTATTAACAATACTAATGTTTATTTTTGGAGCTAGTTATTCTATTATTGAGAAAACAAAAGCTAAGACATTCAGATCTATTGTTTCTGAAAATGAATTTTCTTTAGCTATGATAATAGATCATGTAGCAGGAAATGCCTTTTTTTCTTTAATTATTACTGCAATATTTTTTACAACTATGTTATTAATAAAAAATTCATTGATAGGTTTAATAATTTTACTTACATTATTTATGATAATTGCTTTAATTATGATGTCTATAAAAATAACTCTAAATAAAAGACAAAAAAATAAAACTATTTCTCTATAATATATTTAAATAATTTATTTATCTCTTTTTTAAGTATACTGAAAATAGGTCTTATTATTTAAAACATCAGAGTTGTTCTTATATGTTTAATCAAAAACCGAAAAAAATGTATCTTAATTTGATTAAATCTAGAGTTATACTGAATACTAACTCTTTATAGAATTTATTAAAATGGGAATAGTGCATAAAATGTCTATAAATATGAATTTGAGTAAAAGTTGGATGTATAATGGATTTTTGGAAAAAAATAAAAAGCTTATTAATAACTAATAAGCTTTTTATTTTTTAAATTTTTAATGTTTAAATTATATTTAATTTATGAGATATTTTCCTTTTCTTTATACAAAATAAAAGTATTTTGTAACAAACAAGCAATTGTCATTGGACCAACTCCACCTGGTACTGGTGTAATATATTTTACAATTTTTGAAACCTCATCAAATTTAACATCTCCAGAATATTTGCCGTTCAGAAAATTTGCTCCAACGTCGATAACTATCATGTTTTTATTAACAAATTTTTTTGTTACTAAATTTGCTGCACCAGCTGCACTTATTAAAATATCTGCTTTTTTACAAACTTCTTCTATTTTTTTTGTTTTTGTATTACAAGTAGTAACTGTTGCTGATTTATTTATTAGCATATTAGTTAATGGTTTTCCAACAATATTGCTTCTTCCAATAATAACAACATTTTTTCCACTCAGATCAATATTTTTTCACTCTAAAAGTTTTAAAATTCCTAAAGGAGTTGCAGGATATATTTTTGAATTATTTAACATAATATTTCCTAAAGTTAAAGCATTAAAACCATCAACATCTTTTAAAGGAGATATGAAATTTGTAATTTCTTTTTCATCAATATGCGAAGGTAAAGGTAATTGTACAATTAATCCATCTACTAATAAATCTTTATTAATTTTTTCAATTTCTTTTTTTAAATTCTTTTCACTTATATTTTCATCAAATTTTTTAAGTTCCCCAATTATACCAACTTTTTGACAAGCTTTTAATTTGTTTTTTATATATTTATTACTTGCTAAATTATTTCCAATTTGAATAATAATAAGTTTTGGTTTTCTTTTTGCTTTTAATTGCTCTATACTATTTTTGAGGTTAGTATTTAGAATTTGAGCGTATTCTTTGCCATCAATAATTTTGCTCATGATTTAAATCCTTTCTAAAAAAGATATTCTAAAGGTGATTATAATGGAAAAAATATTAAAAGCATTAAGTAAGTTCAAAATTAATCAAAATGATTATGAATTTTATGGCAAAAAAATAGTAAAAATTGATTATGAAAAGTATATGAAAGATAATAAAGGAAAATTAATATTGATGACTTCAATAAATCCAACTCCAGCAGGAGAAGGAAAAACAACAACAGCAATTGGATTAGCTGATGGTTTGCAATATATAGGGAAAAATGTAATTTTAGCACTTAGAGAACCAAGTTTAGGTCCTGTTTTTGGAAGAAAAGGAACAGCAACTGGAGGAGGAGAAAGTGAAGTTATACCAATGGATGAAATAAATTTACATTTCACTGGAGACTTTCACGCTATTACAACAGCAAATAATTTAATTTCAGCTCAAATTGATTCAGAAGTTTATTGAAATACAGATTTAAAAATTGATTCAAATAAGGTAGTTTGAAAAAGATGTATGGATGTAAATGACAGAGCATTAAGAAGAATAGAATTAAAAATAGGAAGTAAAATATCAAGAACTGAAGAATTTACAATAACAGCTGCAAGCAATATGATGACTATCTTGAGTCTGTCAAAAAATATTAAGGATTTAAGAGAAAGATTAGATAATTCACTAATAGCTTATAATTTGAATGGAAAAGAAGTTTATTTAAGAGAACTAAATATCACAGGGTCATTGATGGCTATTCTGAAGAAAGCTATTCAGCCAAATCTTGTTTTAACAAAATATGATACACCAACTTTAGTGCACTGTGGTCCTTTTGCAAATATAGCAACAGGAACAAATTCAATAATTTCAACAAAACTAGGGTTAAGTTTAGCCAATTATTGTATAGTAGAGTCTGGTTTTGGAAGTGATTTAGGATTTGAAAAATACATGAATGTTATAAATAATGATAATGACTTAATTCCTGATTGTACTGTAATGGTAGTTACTTTAAGAGCGTTAAATTTACACAATGATTTTGAAAATAACTTTGATCATTTAGAGAAACATTTAAAACATATAACTCAATACAATTTAAATTTGATAGTGGCAATTAACTTTATTCAAGGAGATAGTGAAGAGCAATTAGGAATTTTAAAAAGATGATTAGATGAAAATAAATATAACTGAGAAATGAATAAAGCTTATACTGATGGAGCTAAAGGTGCAGAAAATTTAGCACAAAAAGTTGTTGAACTTTGTGAAATAAAGCAAAATTTTAAAAAGCTGATAAATTCAAATGAAACAATAGAAGAAAAAATTGAAAAAGTAGTTAAAAATTTCTATTATTTAAAAACCTTTAAAATCACTAAAAATGCACAAGAAAAAATAAATGCCATTAAAAAAACTAAATATTCACAGCTGCCAATCTGCATGGTTAAATCTTCAAATTCAATTGATGGAAATGATTTAAAAGAGCCAAATTATGAAATGATAATAAAAGATGTTAATGTAAATACAGGAGCTAAATTTATTCTTGTTTATACTAATAATGTAATGAGCATGCCTGGTTTGAACAAAAATCCTAATTCAAAAGATATAGATTTAGAGAACGGAATAATTGTTGGACTTAAATAGAAATTTGAAATATAATATTTTTATTAAAAGGAATATAAAAAAAAGAAAACATAAGAGTTTTCTTTTTTTTAATTTTCAATTACCATATCTTTGGATATAATCTAAAATTAATTTGCTAGTTAACTATATTTTCTATTATAGAAATATTGTCTTTTTCAAAATCTATTTTCATAAGACAATTATAAGGAATTATAGTTCTTGGATAACTATGACCAAAATTCATATTTAAAACAATAGGTAAATTATACTTTTCAGAAATTTTATTTAGTATATTTTTATATTCAAAATAAAAGTTATTATCTTGAGGTTTACCTACAATAAGAGCTTTTATATATTTAAAAATCTTCTCCTTTTCTAAGCACATAATCATACGCTCAAAATCTTTTGGTGATGCAGATTCTTCACTAGTTTCTATAAAAAATATTGTCTCTTTTAAGCTCTCTGTTTTTGGAAATATATTATATTTTTTTCAAATATCTTTTTGGTCAGCATATCTTTTTCCTGTCAATCCATCATATAAACTTTCTAAACAACCTCCAAAAAGCTTACCAACTATTGTATTCTTATCATTTAAAAAGTCATATCCATTTTCTTCAATATGTTTTAATCTAGATGTATTAAGTGATTTAATTGAGAAATCCTTTCTCTCTTCAAATCACTCAGCACTAGATTTAATGTCTATATTATTTTCTGAACTAAAAAGAACTTCAAAAGCTTTTTTAGAATAAATTAACATTTCTTGATCAAGTTCTGCAAAATCACTTAGAAAACTATGTCCATAAAAAGTATTAAGCCCTAGTTTATTAAACATTAAATGGTTATTTGTAGAATCAGAAAAACCTATAAAAATTTTTGGATTTTTCTTAACTGATTCTATAAAATCCTTATCATCAAGTAAAAAAAGTATGGTCTTATAAGTATCTTCACCACCAATTGCACATAATATAGCTTTGATTTCAGAGTTCTTAAAAGCATCTTTTAAATCTTTTGCTCTTTGCTCAGGGTGTTCCTTTATATATTTAGAACCTTTTAATGTCGAGTTCATAAATACGGGTTCAAGTCCAAATTGTTTTAATCTCTTTGTACCAATTTCAAGTTGATGACTATAAAAATCTTCTCCTAATATACCAGAAGAAAGACTAACTATTGCAATTTTATCTCCTGGTTTTAATTTATTTGGTTTCATTATTATTACTCCTTACTTTAATAAATTAAATATATCATTTTTTTAATATCTGTTAAAAAATATATATTTTTCTGCCTATGATTATAGGTTATTTGATTTTCTCCAAAAAAAATATTTTAGAAAGAATAAAATGAATTTGTAAAATTATTTCTATAAAAATAAATTAATTTAGAAATAATTCTATAAGAAAGGATATAAAAATGGGAGTATTAAAAGTAAAAGCAGAGTCTGAAAATTATCAAGATTACAAAATTTTAAGAGACTCTGTTGGAGGCTCAAAAAATATTGATTCTATTAATAGATGTTCTACAAGAATTAGAATAGTTTTATTAGATATTTCAAAATTAAATGTAGAGGCTTTAGATAATACTGTATTATTTAAAAAGTATGTAATAAAAGAAAATACTTTACAATTGTTAATTAGCAAAGATATAGAAAAGATAACAATAGAGTTTTTAAAAGTTTTAAAAATATCTTATGATTCAGTACCAAACGACTTTGACATTAGTATCACAAGAAAAGATAAAATTTTTAAAAGATTAACTGATGGAATTTCAATAATTATGAAACCTATAATTCCTCTTTTAATAACGTTGGCAATAGTTTCTACTTTGGCAAATATTTTTACAGGTATAAAGTTTGGAGCACAGACTTTAGCTGAATTAAATAAGCCACTTGAAGTTATAGGAAATATATTTCTAATGCTACAAGATGCTTTAAATTTAGCATTTTCTGTATTAATACCATGATCTATTTTTAGATTAATGAAGGGTAGTGAAGCAATTGGTATTTCATTGGGAGTTGTTTTATGTTTTTTCCAATTAGCAGGAATAACTCAAATTATTGACACAAATAGTACTACATTTCATTGACCATTAGCTTTTATTAAAAATGGAGAAGGGTGGGCACAAGAACAAGGTTATCCTTGAAGAATCTCTCTAGAAGCTCAAATTTTACCATTAGTAGGAATAAGTTTTATTGCAGTTTATTTAGAAAGATTATTTACTAAAAAAAGTATTCCAGTCTTTAAAGAAATGGTTGCCATTCCTGGGATTACAATAGTAACATTCTTTTTATCAATACTTGTTATTGCACCAATTGGTGTAATGATTACATTTGGAATTAATTATGGAGTTCTTTGAGCAACAACAAATTCAATTGCCAAATATATATTTAACCCATTATTTGGTTTAACCCTACCTTGAATGGTTGTTACAGGATTTATTCAAATATTTGTTGTTGTAAATATGCAACAATTCACAATGTACAAAGGTACAACTATTATGCCAATGTTTACACAATTAAACATTGCTGTTGCAGCAAGTGTATTGGCTGTATCAATTATTAATAGAAAAAATAAAGATGTTCAATCAGTTTCAATACCTGCTTACTCTTTAGCTTTCATAAGTGGATCTACTGAACCTGCCTTATTTGGAATAGGCTTAAGATTCCTATATCCAGTACTTGCAGCAAGTATTGGAGCTGCTACTGGAATTATTATTACAACTTTTGCAGGAATAGGGTGTACATTGGGAAATGCATCTCTATTAATATTCTTATCAATAACTCAAAACTCATCAGTTTTAGAAAACTTGAATATTAAAACAATTGCAGGAGGACCATACTTGTGAATGGCAATTGCAATTATAGCCACATTTATTGTTACTTTTGCAATGACTTTCATATTCTCAAGAATTAAATACTTTAAAAATATAAACGATAATGTTTTAGAAAGAGACTTTGGAGGAAAACTAAATGAAATTAAATAAAAATATATTATGAAATAAATATAATGAACATAAATCAGAAGATATTAATAGAGCAAATAAACTTGTTAAAGAAGATAAATACTACAGACCAAGTTATCACATTGCTCCACCAAATGGATTATTAAATGATCCAAATGGGTTACTATATAAAGATGGTTATCATTATATTCATTATCAATGAAGTCCTATTCAACCTTATCATGGTTATAAACATTGAATGCTTTTAAAAACAAAAGACTTTGTTAATTATCATGACTTAGGAGTTTCTATTGTTCCAGAAATTGAAGATGAAATTCACGGAGCTTTTTCTGGATCAGCATATGAAGATGAAAATGGAGATGTAACAATTTACTATACTGGAAATATTGAAGATGGAAAAGGAACTATGCTAAGAGAAGTTCAAATTGCAGCAGATTTTAAAGATGAAAAGGTTGTAAATAAAAAAACTGTAGTAGAACATGATGAAAAATTATTCACAGCACATGCAAGAGATCCAAAAATATTTAAATATAATGGTAAAAGTTATCTGATATTTGGAGTTCAGTGTAAATCAGATATGAAAGGTGGACTTGCTTTTTATAAGCAAACTGAAAAAGACAAATTTGAGTTTGACAGAATTCTAAAGCCAAGTCTAAAAGATGATTATGGTTATATGTGAGAATGTCCAAATCTAGATTATATTGATGGCAAATACTTATTCTTTATATCCTCAGAAGGTTGATTTAATGAATCTGATAGATATGAATTAAATGGTTCAAGAAATGTGGTTTATACATTAATTGACGATTTAGATTTTGCAAATAATAAATTAAATGAAAAAGAGCCTTTAAAAATGTTAGACTATGGTCACGATTACTATGCTCCTCAAACCTATTGGGCTAACAATAAGTTGTTGTCCATTGCTTGAATGGGAGCAGTTGATGTACAATATCCAACAGATGAATATTCATGACACTCAATGCTTTCAATTCCAAGAGAAATAAATATTGAAAAAGGTAAATTAATTCAAAAACCATACAGTGATTTTAAAAGTAATGTTTTAAAAAATTCAAAAGAAGTTAGTGTAGATAAATTAAAATTAAATAAATCTCTTCATTTAGAATTTGATTTAATAGGGCAATTAAGTTTAGAGATTGTAAATGATCAAGGACAAAAAGTAGAAGTTTTATTTAACAAAGATGAAATAATTATTGATAGAACAAAACAAACAGCTGCTCCAAAATGAGACTTTGAAAGTTCAAGACAAGAAAAAAGACTTTGTGATTCACAAAAAGTAGAAATATACATTGATGCATCTTCAATTGAGATATTTTGCAATAATTATGAAACTACTTTTACTTCAAGATATTTTGTAAAAGATGCAAATCAGATTAAGTTTAATAAAGAAATTAAAGTTCAAGTTTCTGATATTAAGGATATGAAGATCACTAAATAAAAAAATAAAAGAAAATATAAAAAGGAAAGTTATAATAAAAACTTTTCTTTTTATATTCTCTTTAAAATGAATTTATTTATTTTAAAATAATTAATAAAAAATCACCAATAAAGGTGATTTTTTCTTTTAGACTTAACAAAAGTATTTTCTTCTATCAAGTTTTTCTAATTTACTAATTATTTTTTAAAGTAGTTTAATCCTAATACTTCTAAACCAGCTAATGTAATAAAATTATATGGTTTGTTAAAGTGTGGTAAGAAGAAAATATCTACTAATGGTAATTCATCAATTGTTAATCCTTTTTGAATACCTAATGCAAACATATACATTATTTCAGTATGATTATTTACACTAGCAACTTGTGCTCCAATAATTTTTCTTGATTTTTTTTCTCAAATAATTTTTATGTATACATCTTTGTAAGTTGACATAAACTCTGGTCTATCTGAATCTTTAAACATAATTTCTTCAGCATCAATTCCAAAACGTTTACATGCTTCCATTGATATACCAACTGAAGCCATTTTTCAACCAAATACTTCAATACCATTTGCTCCAGTAAATCCAGGACTTTCTAAAGCATTGCCTTTAACTATGTTAGCTGCTGCTAAAATTCCTGTTCTTACAGCTGTTGTTGCCAAAGCAATTTGTGTGTCTTTTTTCAATGAACAATTATAAACTTGTGCACAATCTCCAACTGCATAAATATCTTTGTTTGAAGTTTGCATAAATTCATTTGTTTTAATTGCTCCTCTTTCATCAAGATCAATTACTCCTTCAAGTAATTTTGTTTGAGGGACAACTCCAACTGAAAACACAACATAATCAACTTCAATTGTTCCTTTATCAGTAACTACTTTTGTTACTTTTCCATCTTTTCCTTCAAATTTAACAACTTTCTGTCCTAGTGCTAAATTAACTCCTTTTTCTTTGATAGTTGTTTCAACCAATTGTGTAAATTCACTATCATAATACACTGGCATAATTCTGTCAGCAATATCAATAAGTGAAACTTCTTTTCCACTTTTAACAAATGCATCTACCAATTCAACTCCAATATATCCTGCCCCAACTACTGCTACTTTTTTAATAGCTTTATTTTCATTTGCTGCTTTAATTACTTTAGCATGGTGATAATTTTTACAAATTTGTATACCTTCTAAGTCAATTCCTTCAATTGGAGGAAAAATTGGTCAAGTACCTGATGCAATAACTAATTTATCGTAGTTATCATCAAATTCTTCTCCTGTTTTCATATTTTTAACTCTTACAGTTTTTTTCTTTGCATCTATTCCCACTCATTTATGTTCCATTTTTACGTTAATATTTTCTCCTGCAAGAATTTCTGGAGATGCATAGAATAATCCATTTGGATCTTTAACTTCTCCTCCAACTCATAATGCTATTCCACAACCTAAAAATGATATATTATCATTTTGATCATATGTTGTGATATCCATTTTAGAGTCTAATCTTCTTAGAGTTCTAACAGCTGTTGTACCAGCATGATTTGTCCCTATAACTATAGTTTTCATTTACTTTGCTCCTTTATCTTTTTATATTATAATAATATATGAAATCTAGGGGCTTAATTAAAATTAATGAAAAAATTTTTAAAAAAATAGGAAAAATTAAAAAAAATTATTGAGGTGGTATATAAGTGTTTTTAAGAATTAATGGAGATATTAACTATTATTTAAGAAGATCAAGTTTTATCAAATATTTTGATGAGCATAATTTATCTAGAAAATCAAAATGATATATTAAAAGAGTGGAAAAAAAGGTAAATGATAAAAATACATTTACATACTTTAAATATTGAATTCTTTGAAGATGAATTAATTTGCACTTTAAACTATCTGAAAATTTTGTTACAAAATTAAATAGAAATATTAAAAAATTAAGTTTAACATTAACTTCAAGAGAAGAAAAATTTATACGAGATTTAGAAGAATTAATTTTTAATTCTTGAAGACCTTTAAAACAACTACCTGTAAAATTTGATTTAGAGAGAAAAGAAAAAATAAATCTAATTCAAACAAATGTTAATATTCATAACTATAGTCCAGAAAAGAAAGAAAAAAAGCTTAAATTGCTTGGTAAATTTGATTGCTATTTCTCTAATTTTAATATTTATTTGACTGATAATAATCAAAAAGTTATTAAAATAATTAAAAATAACTCTATAAGTGAAGCTTATATTGAAACTTTTGGTGTTGTTATTATTACAGATGAAGCAAAATTTCTATTTAGGGGTAAAAATAGATTATTAACATGTGTATTATTACAAAGAATGATACCAAGATTAAACTTAAAATTAGAATCTACAGAAGACTTATATAATTATTTTGACTTTTGAAATAAACTAGTTCTAAAATTTAGTTAATATATATTTATAGGAGAAATAAGATATGAAAATTATTAAAGTTACAGATAACAAAGAAGCAGGAAAAGTAGTAAGTGATTTAATTCTTAAGGAAGTTAAATCAAAATCAAATATAGTTTTAGGATTGGCAACTGGAAGTTCACCAATCACTACATATGAAAATATTATTTCAAAATCAAAAGAAGAAAACATTGATTGAAGTAATGTTACAACTTTTAATTTAGATGAATATAAAGGTTTAGAATCAACTCATAATCAGTCATATAGATATTTTATGAATGATAAGTTGTTCAATCATATAAATATTAAAATGGAAAATACTTTTGTTCCAAGTGGAATGATTAATTCAAATGAAGAAGCACAAAAATATGATGAATTAATTTTAAAACATGGAGGAATAGATCTGCAATTACTTGGTTTGGGAATTAATGGACATGTTGGTTTTAATGAACCTGGAAGTGATTTTGAAGGTTTAACTTCAATTGTAGATTTAACAAAATCAACAATTGAGGCAAATTCAAGATTCTTTGATAATGAAAAAGATGTTCCAACAAAAGCAATCTCAATGGGATTAAAATCAATTATGAATGCAAAAAAAATTATTTTAATTGCAACAGGAGAGGCAAAAGCACTAGCTGTAAAAAATTTAATAGAAGGACCAATTTCAAAGGATTGACCTTGCTCAGTTCTTTTAAATCATTCTGATATAACTGTTGTTATTGATAATGAAGCAAGTAAACTATTAAAATAAAAAATCCCTTTAATTAGAATGCTAAGAAATTAATAAAGAGAAATATTTAAAAAAGAAAGTTATGCTTTCTTTTTTAAATATAATATAGAGTCTCCTTAGAATTAAAAAATATTTCAAAAAATTTTTGAAAAAGTATATTAAAACTGCTATTCAAACTAAAATTACTGTTCTAAGAGTTTATTAATAATAAAGTAGATATTAAATATATAAATATTAAAATAGTGGAGTTATAATTAAACTATTCCGATAATAAATTAAATAAAATCTTATTTATTTAAGTTTAAAAATATAATTAAAAGAAACTTAAGAAATATATAACTAATAAATATTTTATTATGGAATTTAAAATTAAAGAGTATAACTAATAAAAAAAATTATTTACTATTTTATAGAATTTTATTTTAAGAACTCATCACTACAATTATTTTAAAAATTATAAAAATATTATTGTAACTATTTTTAGTGATAAGCTAAATTTATATATCAATTATATCTATATAAGTTAAGAGTTTTTTAAATTAGATTTTAAAATTAAATAATTTATAAAGAAGGGTAAAGTTATGGAAATTAAAAAGAAATTTAGAATTTATAAGATTGATAAAGAAAAATTTAACTCAATTATAGAAAATGAAGAAGATGAAAAATATAAAGAAAAAATTTGCAGTTTAATAATCGATGAAGTAATAAAAAATAACAATCTTGATAAAAAAGACAGTAACTTTGTAAAAATAAATAAATTAGATAATCAGAGAAAAAATGAAGAAGGGAATTTTTATTTATTAGTTTATAAAAAACAAAGTGATCCTAATTGAATACAAGGCTTTATTGGAAAAGAAATAGAAGAATATAATGAAAAAAATCAAAAAAATAAAAAAGAGATTATGGATTTGAAAAATAATAAGCTTTCCTTTTTATTACTTAAGCCAGTTAATGATGACATATATGCTTCAACAGGAGGGAATGCAAGTAGTTATATAAGTCAATTTATTGTAAGAAATTTTGGTACTGAAATAATATGCAAAATTTATGATGAAGACGATAATGTTTTCGAAGGAATAAAACAAACTTACAATAAAGGTAAAAGACAGTATAATGCTTTTTATAATAGAAGACCCTCTAATTATAGAAGTGAGAGAACATTTTGGGATAAATTTGGAGGTGCAAGAGTTAGAATTAAAAATCAAATTGCATGTGATTTAGGACTTATTTCACAGGAAGATTTAGAAGAAATGGATCAAAAAAATGATAGTGAATATATTAAAACAAGAATAGAAGCAGGCGATTCATTAGAAATTAAAGAAACTATGTCCATAGAAAAGTATTTTTCAATAATGTCAAAAATAGATGAAATAGATAAATTACCTTTAAAAATTCTTTTATCAAATTTCATTGATGTAAATGAAGAGGGAATAAAGAACTCTGATTTATTCACAAAAATGCATGATGAAATGAGCAATAAACTAAGTGATTTAAATAAAAGAGATATAATTTATTCAAAAATTTATATTAATTTCTATTTATATGAAAATTTTACTAAATTTTCTAATTATCAACTTTTAGATGATAAAGGAAGAGAAATTCTATCTAGTAGAAATGCTATTGAATTTAATGATATTTTTGAAGAGTTTATTAAAAATTTTAAAAAAGATCCTGATAAAATTTCTCGTACTTCAATAGAAACTTTTTTTAATAAATGAAAATTAAAAATTTATGAAGATAATGGAAATGAAGTGCTAAATGCGAAAATTAAAGATACTATAGAGGTTGAATACTATTTTGAAGAACATCAAAAGACTTTTTATTTGGAAAATGGAAAATGATATTCATTAGCTAATAATTATATAAATTTAATTAATCAAAATATAAAAAAATATTTTGAAGATAATCAAAAAAAAATAGACATCTTAAAACAAAACAGTCAACTAATGAATTTAGAAAATATTAATAACGAATCAGAATATAATAACCAATTTAATTCAATTAAAGCAAATGAATTAAAAGGTATAATACACAGTGATCAAGTTACTATTAACAAAGTAGAAATCTGTGACTTAATATTTATTTCTGAAAGTAATCAAATGTATCTTATATGTAATAAAAGTGAACCATCCGGGAAAGGATCTAGAGATTTATTTTCTCAAATTAAAGCATCAGCTCTTTTGATGAATTCTTCTAATCAAGAATTTAAAAATGAATATTACAATACATTACTTCAAAAAGGTAAAATAACTAATAATATTTCTAAAGAAAGGTTTATAGAATTGTTGAATAATTCTATATATGTATGTTCTTTTATAAAGAGAGAACTAACTCAAGATACAAATTCTATATATTCTAAGATTATGTTTTTAGAAACAAAAGAGGAATTAGATAAAATGTTGAAAGATTTAATTTTGTTTAGTCCACAAATTGTAAAATCAAATAATGATAAAGATGAATAAAAAAAGCAAGAAATTATTTTAATTGTAATAAGAGAGGAAAAAGTTCAAACTGTTAAAAAAAAAGAAATCCCTTAAAAGGGGATTTTTTATTTTGGAAAATATCAATATTGAATATGGTGTAAAATTATTAAGTAGTTACTAAAGGAGTATATAAAATAATGAGAAAACAAATTATTGTAGGGAACTGAAAAATGTTCAAAACTAATTCACAAGCTGTTGAATTTATTAAATCAGTAGATTCAAAAGTTAATAAAGATTCAAATATAATTGCAGGTATTGCTGTACCTTCAATTATGTTAAGCGATGTGCAAAAAGTTGCAAAAAATATAGTTATTTCAGCACAAAATTGCTATTTTGAAAAAGAAGGAGCTTTTACTGGAGAAATATCAATTCCAATGTTACAAGACTTAAATGTTAAATACGTTGTTATTGGTCACTCAGAAAGAAGAGACATTTTTGGAGAAACTGATGAAATGATAAATAATAAAGTAAAAGCTTTACTATTATCAAATATTACACCAATTTTATGTTGTGGAGAAAGTTTAGAAACTTATGAAAGTGGAAAAACAATAGAGTGAGTTAAATCACAAATTACTAAAGATTTTGCAGGTGTTTCACCAGAAGATGCAAAAAAAGTAGTTATTGCATATGAACCAATTTGAGCAATTGGAACAGGAAAAGTAGCAACTCCAGAAATTGCACAAAATGTATGTAAAGAAATTAGAAATATTATTAAAGATATTTATAATGAACAAGTAGCAAACGAAATTTTAATTCAATATGGTGGAAGTGTGAAACCAGAAAATATTAAAGATATTTTAGATCAGGCTGATATAGATGGGGCACTAGTTGGTGGAGCTTCTTTAATTGAAGATTCATATTTAGGATTAGTAAACTATAAAGGATAATTTAATATGAATTACAAAATTTTAGCACTAGATATGGATGGGACTACTTTTAAAGCATTAGATGACATTGTTATGGAAAATGTTGAACCTATTAATCAAGCTATTAAAAAAGGAATAAAAGTGGTTTTTGTTACTGGAAGACCAATTCATACAAAAATAAATAGACTTGAGCTTTTTGATTTTTCAAATGATGGAGCAATTTTTGTTGCATTTAATGGAGCTCTTATTTATGATTTAAAAAATAAACAAGTAGTTGATGCAAATCCTATAGATAAGCAAACTGTTTTAAAAGCTTTTGAACTTTTAAAAACATCAGAGGAATTTAAAGAAATCGAACTTTGAGCTTACACAGTTGATGACACATTAAGTTACATAAATAGACCTATAAAAGGATCAAAAGTTTTAGAACACGAAACACATTTTTTTGATTATGAACCAGTAGTTTTTACATCTGATATGGAAATGTTAGATTGTCATAAAATTCTTGTAATGAATACAAATATTAAGTTTGTCAAGGAATTAAGAAATTTAGGTTTAGAAGTTTCTTGAACTGAGGGTTCATTGGCAGGAGAAGTAACTAAAAAAGGTATAAATAAAAAATATGCTTTAGAATTTTTATCAAAAAAATTCTCAATAAATAAATCAGAAATTTTAGCAATGGGTGATGGAGCAAATGATTTACCTATGTTTGAATATGCAGGTTTATCAATAGCACCAGCAAATGCTCATCAAGAAATAAAAGATAAAGCAACAGTAGTTTCTGAATATACTAATTTAGAAGGTGCAGTGGCAAAAGCAATTAATAAATATATATTAGGAGAATAAACATGAAAGCAAAAAAACCAGTAGTATTGGCTATATTAGATGGATGAGGACTTGCAGAACCAGGTAAAGGAAATGCTGTTCTTCAAGCAAATATGGAATTTGTAGAAAGTTTAAAAAAAGAATACCCATGAGTTTCATCACATGCAAGTGGTGAATGAGTAGGATTACCAGAAGGACAAATGGGTAATTCAGAAGTTGGTCACATTCATTTAGGAGCAGGAAGAATTAAATATGAATCTTTATCATTAATTAATAAAGCAATTTCTGAAAATAAATTTGATTCAAATGAAGAAATTCAAAAAGCAATTAAAAACTCTTTAGATAAAAATAGTGCATTTCATATTATGGGATTATTTTCAGATGGTGGAGTTCATTCACATATGAAACATATGTTTGCAACATATGAATCAGCAGCTAAAGCTGGAGTTAAAGAAATCTATTTACATTTATTTACAGATGGAAGAGATACAAAACCAACTGTGGCATTAAATTATTTAAAAGAATTAAACACATTAATTGAAAAATATAAAGTTGGTCAAGTAGCATCAATTTCAGGAAGATTTTATTCAATGGATAGAGATAAAAGAATGGAAAGAGTTGCTGAAGGTTACAAATCAATGGTCAATAGAAATTGTGAAAACTCATTTACAGATCCAGCATCATATATTCAATCACAATATGATTTAGGAAAAGATGATGAAGGAATTATTCCTGCATATAATTCAAATTGTAATAATGGTTATGTTAAAGAAAATGATACTGTTGTTTTTATAAACTTTAGACCAGATAGAGCTATTCAAATGGCAAGTACATTTACAAATCATGATTATGCTGCATGAAGTGATGCTTCATTTAAAGATTTAACTTTCTTAGGAGATAAAATTTATTTCCTATGTATGATGGAATATTCAGATTCAGTTAAAACAAATCATATTGCATTTAAATCAATTGAAGTTGTAAATGGTTTAGGAGAATGATTAAGTAAAAAAGGATATAAACAGTTAAGAATTGCTGAAACTGAAAAAATAGCACATGTTACTTTCTTTTTTGATGGGGGAAAAGATTATTTTAAAAATGGTCTTGCAACTCAAGAAGAAATTAAACTTGATGGAGCTTCAATTGACTTAATTGCATCTCCAAAAGTAGCAACTTATGATTTAAAACCAGAAATGTCAGCTGTTGAAATTACAGATAAATTAGTTGAAAGAATTGCATCAGAAGAATTTGATTTAATTGTTTTAAACTATGCAAACTGTGATATGGTTGGTCATACAGGTGTGTTGGATGCTGCAATTAAAGGTGTAAAAACTTTAGATGAACAATTAAAAAGAGTTTATCAAGCATGTGAAGAACATGGAGCAGTAATGGTTATTACAGCAGATCATGGAAATGCAGAAATTATGATTGATGGAGAAGGTGGGCCAAATAAAAAACATACAAGTCAACCAGTGCCAATTATAATAACTGATAAATCAATAAAACTGAGATCAAAAGATGCAGCTATTGCTGATGTTTCACCAACAATTTGTGAAATATTGGGAGTAGAAATACCAGAAGAAATGACTCAACCTTCATTAATTGAAAAAAATTAAAAGGTTTTTCTAATACAAATAAACATACTCTAGTTTTTTAAATGTAGAGTATGTTTTTTTATATAAAACTTTTCTTATTTTTTAATGAATACTATATTATTATTAATTCGTAGGGAAGAAATAGTTCTAAATTTACAGCATATAAATTTAGAAAGGATTTTTACATTAAATGATTTTATCGACAAATGTTGGACAAACAATTGTAAAAGTTTTGTCAGATTGAGGTTTTTGAGGAGCCATAATATCTACTCTAGTAGTAATAACATTGGGTTTTTTATTAACCAAAAAAAATATTTTAAAAAAAGAATGAGATAAGGTTTTTGTTAAAGTTGTTATGGTAATAGGATTGCCAGCATTAGCATTAGAAGGTTTTTTAACAGATATTACAGTTAAAGATTTAATAAATCAAATGGGAGTTTTAGCAATAGGTTTTTTATTTTATTCAATTATGATGTTTACTTCAAGATATTTCTTTTTAAAAACTAATAAGGATATCCAAGATACATTAGCAATGTGTGTAGCTTTAGCTTCCACAACATTTTTTGGTCTACCAATAGTTGGTGTAATTTTTGGTTTAGAAGGAACTGTATCAGGGAACATATTCAATGTTCCTTATAGAATCTTTTTATATAGTTTAGCTTTAATGATTATGAGTAAAAAAAATCTTACAGCTACTTTAACAAAAGAACAAAAATTAGAATACAAATTAAAATTTAAACAATTAAGTGTAGAAGAAAAACAAACAATTAGAAATGAGAAAAATACTAAAATTAAAAATAGTTTAAAAACTATTTTTGTGAATCCAATTTTAATTGCTACATTTATTGGATTATTTATCTGAATTACTCAGTTAATTCCTGGTATTGATGTTTTAAAACATGAAGGAAAAACATATTCAGTTTTAAGAATTGATATATTATTCCCTCCAATAAATAAAACATTAAAAATTATTTCAGGAATTTGCACTCCTTTAGCATATCTTGCTGTGGGAATGAGTTTAGCTTCAAGCGATATTAAAGCAGCTGCAAAATCAAAACTAGTTTGATATTCAACTTTTATAAAAGTTTTAGTTGCTCCAACAATTATATTGTTAATGGCAATTGCATATTCATCAATTGGAAAAGCAATTACAGGAAATGGTATTCTTACAGAAGCTAACTTAGGAGCATTAGTTGTTATGACAGCAGCTCCACCAGCTTCAGTTGTAGTTTCTTATGCTATTTCTTTTGATAAAGAAAAAGTATTGGCAAGTAATCTAGCTGTCTTATCAACTCTTATGTCAATAGTTATGATGCCATTTTGAATTGTCTTAGTTAAAGTACTAGGATCAACACCATTATTTAGTTAGGAGAAAAAAGTATGACTAAAAAAATTGTATGTTATGGTGTCAGAGACACTGAAAAAGCAATATTTCAAAAAGTTGCTTCTAAATTTCCTTATGAGTTAGTTTTAGAAGAAAAACTATTAACTCATGAAAATGTTGAAACTGCAAAAGGAGCTTATGGGGTGATGCTAAGAGCCAATTGTGTTGCAGATAAAGTTAATCTAGATAAATTTAAAGAATATGGAATCGAATATGTTTTAACAAGAACTGTAGGATTTAATCATATTGATTTAAACTATGCAAAACAATTAGGATTTAAAATGGCTAGAGTTCCATTTTATTCACCAAATGCAGTAAGTGAATTGGCAGTTTCATTAGCTTTAGGGTTAATGAGAAACACATTTTATATGGCAAAAAAAAGTAATGAAAAAAACTTTATAGTAGATAATTTTATGTATGCTAAAGAAATAAGAAACTCTACAATAGGAATTATTGGAACAGGTAGAATTGGTATGGAAACTGCAAAAGTTTTTAAAGGAATGGGAGCTAACATAATAGGTTATGATCTTTATCCAAATAAGGATAATGAAAAAATACTAAAATATGTAGATTTTGAAACAATAGCAAAAGAAAGTGATGCAGTAATACTTCATTGTCCTCTTATTGAAGGGGAAAACAATGAGTTCATTAATAAAGAATTCTTTAATAAAATGAAAGACAACTCATTTCTTTTAAATCTTTCTAGAGGAGAGTTAGTTAATAATTTAGATCTTTTAGAAGCTGTAAAATCTAATAAACTTAAAGGAGTTGCACTTGATACTTTATCAAATGAGGGTCAAATTTTCTTTAAAGACTTTCAAAATAAAGAACTTCCAATTAATGTTTACAATGAGCTACTTAAATTTTCACCGCGAGTTATTTTTACGCCCCATATTGGTAGTTATACAGATGAGGCAATTAAAAATATGGTTGAAGTCTCTTTAGAAAACTTACAAGAATTTGAAAAATATAACAGTTGTAAAAACGCTATATAAAAAAATATCTTCTATGCATTAGAAGATATTTTTTTATTGTTATAGCACCTTTCAAGTTTTAATGCAGTTATTATTAAAACTAAATTAGTAGATATTTTATTATGCTCTCTATTTTTTTTTATTAACAAATAAATTATTTATTTAAAATTATTAAATATTGATATGCTGTTATTATAAATACACATTTCACTGTTCCAAAATTAAATAGCTCTAAGTTATTTTTAGTAAATAAATTAAATAAAAAATAAAGTATTGAAAGAACTGAGATATTTAATTCTGTAACTCATTAATGATTATTTTCAAGTAGTTAATTAGAGTTTTGTTTGAAATATTGATATACTTGCAGTTTTAATTATTAATTATTCCAATAAAAAAGCAATTATTATAGTTTTTATCAACCATTATTAACTGCTTTTCTATCTTTAATAATTTTTTCAATGTTAACAACTGCTTGCATTGATTCATAAACACCTGAAATAAGATTTCTTATTTTTGTTTCATAAATACAACAATCTCCTGATGCATAAATTCCTTGTACTGAAGTTTGCATTGTTTGATCAACTTCAAATCTATTTAATTTATTTATTTTTAAATCTAAATTTTCAAATTTCTCTTTTTCAATTGTTGAACCAAATTGAACTATAATAGAGTCAACTTCTAATTCAACTTCTTGATTTGAATCAATTTCTATTATTTTAATTTTTTTTACTATGTCGTTATCATCTTCACTAATTTCTTTAAAGTTATAAGGAGTTAAAAATCTAACATGATTTTTTTTAGCTTCTTCTATACTTGCTGGTTTTGCTCTAAATTCGTTTCTTCTGTGAACTATTGTAACTGATTTTGCTATACTTGTAAGTTCATTTGCTCAATCCAATGAAGAGTCTCCTCCACCAAATATTGTCACATTTTGATTTTTAAACTCTTGCATATTTGTAATTGAGTAGAATATATTATCATATAGTTTATCAACTAATTGTATTGGTTTAAAAACACCCATTCCATCTGTAAATAATATTCTTTTATATTGTTTAACTTCTTTATTTGAAAATTTAACTTCAAATCAGTTAATATGTTTTTCTTCTTCAGGTTTAATTGTTTTTATTTCTAAAACATATGTATTGTAAGTTAAATTAATGTCATCATTTTCTTTTTTAATTGATTTAAACATTGCATCCATTGCTTCTTGCCCTTGAATTTTAGGAATTGCTGGAAAATTATATATATATTTTTCTGGATAATAAGTAGTTACTTGACCTCCATAAGTGTCTTTGGCTTCAACTACGTCACCCGTTAATTTTAAATCTGCTGCCATTTTTCAAGCATACATTCCAGCAGATCCACATCCAATTATTAAAATATCTTTAACCATAATTGCCTCCAAAATAATGCAAAATCATTATATCATATATACATACGTTAAAAGGAGCAATAGCAAATGAGATTTGAAATTAATAATTTAGATGAGTTAAATAAAGTTGTTAAATATATTCTAGATAAGTTAAAAGAAAATGTTTGCTTAATTCTTGATGGACAAATGGGTGCAGGGAAAACAACTTTCACAAAGAAAGTGTTAAAGGAAATGGGATTAAATGAAATTGTAACTTCACCAACTTTTACAATTATGAATCAATATCAAATAAAGGAATTAAAAATTAATCATATAGATGCATATAGATTAACTTTACAAGAAGATTCACAAATGTATTTAGAAGAAATGATGAATTCATTAAATATTGTAGAATGAAGTGAAAACTTGGCAATTAATTATAGTTCTTATTTTAAAGTAATAAAAATTGAAATTGATGTAATTGATGAAAATAAAAGAATATTTACAGTTGAGGAGGAAAATTAATATGAATCTTTTTTTAGATACAAGCAATAATAAATTAATTCTAATTTTAGAAAAAAAAGAGGAAATTGTAGATTTTTTATTTTTAGATAATCAAATAAGAATTAGTGATATTGCTTTAGAAGAACTTAATAACTTTTTGCAAAGAAATAATTTAACAATACATGATATTAAAAATTTTTATGCAACAAAAGGGCCTGGAAGTTATACAGGAGTAAGAGTTGCCATTACAATTGTTAAAACTTTAAAAACTATTAATAATAACTTTAATGTTTATTTAATTTCTTCACTTGCTTTTCAAGCTTCTAATAAGAAAGCAATTAGTATTCTTGATGCAAAAGGATCAAAAATTTATTTGGGAATCTATGAAAATGCTAAAAACATAATTGCTGATCAAGTTATACCTTTAGATTATTTAGAAGATTTTAAATCTCAATTTAAAGATTTTGAAGTACTTCAAGATTATAATAATATTGATTTTAAAGAAAATTATTTAAAAACTAAAAAGATGTTTGAAAAAGCTACTGATATATCAAGTATAAATCCAGTTTATATAAAGCATTTTATATAAAAATAATGAGGTATAGATTATGAAAGAAAAAGGTCAAATTGGAGTACTACCAACATGAGCAATGATTTTAATTGTTGTTTTTTTCATAATCGGACTTGCTATTTCTATTTGAGGATTCATATCTGCTTTTAATTCAAAGAAAAAAAGAGTTAAAACTAATTTAGAATTTTTATTTAAAGATAAACAAATAATTAAATATGGAAATACTTTTAAAGAGAAAAACGGGATTTATGCACTTATTTTTACAAATTTTGATGAAAATGATTACTTTAGACCAATATTTATTTTTCAAGCACAAGATTTTGATTTAATATCTAAAAATATTATAGAAGAGATTAAGTCTGAAAAAAATTTATCAATTAAAGAATATATGAATGAAAAAAACTTAAAAAAAGAAGATATACATTTCGTAAAACTAGAAAAGGAAAATAACAAAGAGCTATTAGAAACTTGAATAAAAAAAACTAACTCAAAAACTAGAGGCTTTAATCAATAAAACTTTTTTTTAAATCCACTATATTATGGAATAATTTTCAATTGATATATATAATAATAAGGTGGGGGTATATCATGTCACAAAATCAAATTATAGGATTATCAATTTTTTTAATTGGACTCTTAATAATGGCTATTTTTGGGGGATTAATTTTTTATTTTAGAAATAAAAATAAAAATAATTCAATTTTTGTTGCAAAAAATCAAGAAAGCCAAACTATTTGAGAATTCACTAAAAAGAATTTTCCAGTTTTTATTACCTTATTTGGTCTTATTATGAGTATTACTGGAGCAATTATGATGTTTTAAATGATTTACTACCATACAAAATTAAAAAGATGATTTAAATAAAGAAAGAGAGAATTTTTTATGAAAAATGTTTCTTCACAGGCTGAAGGAAAATCTCAAAATAAATTTGTAAGCTCTATGAAAAGGATGGGTAAAGGTATAATGCCCACTCTTTCAAAGTTAAGTAAAGCATTTTTATTACCAATTGCCTTATTACCAATTGCTGGTGTTTTTTTAGGTGTTGGTTCTGCTATCGCAACGAATTCTGCAGATGGTAGTTTTGGATTTTATTTTGGATCTGTTTTAAACAAAATGGGTGATGTCTGTTTTGGTAATTTACCTGTTTTATTTTGTATTTCTGTTGCTTTAGCATATACAAAAGATTCAGGTATTGCAGCTCTGACAGCAGTTGTTGGATTCCTAGTTATGAATGGAATGCAAGCTGCATTGCTACATACACAAACAGTTGATGAATCAAGTGTATTTGTATATGCCAATGGAGCATGACATCAATTTTATGCACAAAATGAGGCGGGACTTTGAGTACCAACTTATAATGGTTTTAACCTTCAAGATATAGAGAAATATGTTAGTGCTTCAGGTTTGAGTAACGCAGCAAATGGTGTTGCTATTAACTCAAAATTAGAGTTAATTGATGGGGCAGGTAGTGTTTATTATTCATTATTATGAATTGATAAAATCCCTAATGGATTAATAACATCTAATATTGGTGTTAACTCATTAAATACAGGAGTATTTGCAGGTATTTTTGTTGGTGCAATTGCTGCATGATGTTACAACAAATTTCACGCTACACAATTGCCAGCTGCAATTAGTTTCTTTTCAGGAACAAAATTAGTTCCTATTATTACTTTTGGAGCTGTTATACCTTTATCATTTTTATTTATGTTTATATGACCATATTTAGGAATGGGATTAGCTGCTTTTGGTAGAGCTTCAGGACAATTACCTTTTGGAGTTGATTCATTTATTTATGAAGTTGCAGAGCGTTCATTAGTTCCATTTGGACTACATCACGTTTTCTATGCACCTTTATGATGAACAAATGCTGGGGGATCAGTTGCTGAAGCATTTAATGAAGCAACTGATGCTCAACAAGCTGCTTTTGTTCAAGCTTGAACAGCAAATCATAATGCAGCTGAAATTTTAGGTCAAGGAGTAGAAGCAACTTTTGAAAATATTAAAAGAGCAATAATTATGAAAACTCCTGATTTATGACAATCAATGGGAGATCAAACAATTGCATATAAAGTTATAGCAAATTCAAAAGTACTTAACTTTACAGATTTAGAGATGTTAGGATTAAATATTGGTCGATTCCAATCAGGAAAATTTGGATTTATGTTACTTGGTTTACCAATGGCAGGACTTGCTATGTGGTTAAATGTTCCTAAAGAGAATCGAAAATCAGTTATGGGAATTTACTTTTCAGCTGCCTTTACTTGTTTCCTAACAGGAATTACAGAACCAATTGAATATACATTCTTATTCTTGGCTCCTTGATTATTCTATGGTGTACATATGCCTTTAGCTTCAATTTCATTCCTATTAGCTGGATTATTTAAAACTCACGTTTCAATGACAGTTTCTGGAGGATTTATTGATTATATTGTATTTGGTGTAGTACCATTCTTTGGAAGCAAAGCAATGAGTGCAAAATCATGTTTTGCAGTCTTAGGTGTGGCTGGAATAATGGCACCAGCTTACTTCTTCTCATTCTACTTTGCTGTAAAATATGGAAAAGTAATGGTTCCAGGTCGTGATGGATCAGCAGAAGCAAAATTAGCAACTAAAGCTGATTACAAAGCTTCTAAAGGACAAAACCTAGATGGTTCAAAAATTGAAAAAAATAAAAGTTCAGCAGAAACTGCTAGAATTGAAAAAGCTACAAAAATTATTGAATATTTAGGTGGAGAAGCAAACATTGAGTATGTTGATGCTTGTGCTAGTCGTTTAAGAGTTACAGTTAAAGATTCTTCTATTGTTGATAAAGAAGGTATTCTTTCTTTAGGTGGGGCAAATGGAGCCCTTATAAAAGGATCTAGCGTACAAATAGTTTATGGTGGAGAGCAAGAAGCCATAAAACCTCGTATGATTAAAATACTTGGAGAACAAAGAAAAGAGAAAAAATCATAGTATTTAAAAAAAGTTCTAAATTTTAATTTAGAACTTTTTATTTTTATATAATAATTGTGTTATTTATTTTAAAAAAAATGTATTGGTATTAAATTAATTTTTTTTGATATAATGAATTATGTGTATGGATTGATACTCAAGTTGGTGAAGAGGGCACCCTGCTAAGGTGTTAGGCCGGGCAACTGGCGCGAGAGTTCGAGTCTCTCTCAATCCGCCATTTAAGAAAATAGACCAAGATTTAAAATCTTGGTTTTTTATTTGATTATAGAAATAATACCTATAAAATAAATATTATAAGACTGCTTTGGAGGAACGTAATAATGAAAAAAACAGATATAAAAAATAATTTAAGTGAAAATAAACCAAAAAAAGGTTTTTTTAAAAAAATCTTTAATAGTAAAGAAGGACAAAAAAAAGTTTTATCAATTATTAAAACTAAAAAAATTAATAATCTTTATTTTTATACAGACGTAAATAATGTTTTATTAATTTTAGAAAATGGTATTAGACTTTTAAAAGATCAAAAATTAAGAAAAGATGAAGAATATACTGTATGAACATATTTGGAAAATGAAAATTCAATAGGATTAGAATTTGACAGTTCTACAAGAGCTCATTTCTGAAAGTGAGCAAGTGAATCAAAAGTTGATATAGAAAAAATAACAGTTATTGGAATTGATCCTGAAAAATTAGCTAAATTATCAAAAAATGACTGAGCAATGGATGACGTAAAAAATATAGTTTATGTATATGAAACAATACCATTAGATGCTATTGATTTTATTATGATTAAAGATAAGTCAAATTTGAAAAGAATTCAAACATATGTTGAAGCAAATGATATTCAAATTGATGTATTTTATGGTGAAACAGGAAATGTAGATACAAAAAAGGAGAGAAAATAAATAATGGCTAATAAAATGGAAAAAATAACATCAAGAGATGTAGATTTTAGTCAATGATATACAGATGTAGTTAAAAATGCAGGATTAATGGATTATGGGCCAGTAAAAGGAACAATGATTTTTAAACCTCACGGTTATGCAATTTGAGAACAAATTCAAAAATTTGCAGATAAAGAGTTTAAAGATTTAGAAGTTCAAAATGTATATTTTCCTCTTTTAATCCCTGAAAAATTATTTTTAGCAGAAAAAGAACATGTTGAGGGATTTGCACCAGAATTAGCAACTGTAACAAAAGTTGGAAATAAAGATTTGGGAGAAAATTTATTTATTAGACCAACAAGTGAAGTTATTATTGCAGATTTTTTGTCAAGAGAAATTAAATCATACAGAGATTTGCCTGTTAAATATAACCAATGAGCCAATGTTATGAGATGAGAAAAAACAACTAGACCATTTTTAAGAAGTAGTGAATTTTTATGACAAGAAGGTCACACTTTTCACTCATCAAAACTAGAAGCAAGACAAATGACTTTAGATATATTAGAAGTTTACAAAAAAATAGCAAATGAAATTTTATTATTACCAGTTGTTGCTGGAAGAAAAACTGAAAGAGAAAAATTTGCAGGAGCTCAAGAAACTTATACTATTGAATCACTAATGTATGATGGTCAATCATTGCAATCAGGAACAAGCCACTATTTTGGAGATAATTTTGCCAAAGCATTTAATATTAAATTTCAAAATAAAGATCAAAAAGAAGAAAATGCTTATTCATCAAGTTGAGGTATATCAACTAGATTAATTGGTGCAATTATTATGACTCATTCAGATGATTTTGGACTTGTTTTACCAAGTAAAGTTGCTCCAATTCAAGTATCAATTATTGCAATTAATAATTCAGATGAAGTAATGAATGTATCAAATGATTTAAAAACAAAACTATCTTCAAATTATAGAGTACAGTTAGATAAAACAGATAAATCTTTTGGATTTAAAATTTCTGAAGCAGAAATTAAAGGTGTTCCAATAAGAATAGAAGTAGGTCCAAGAGATTTAAAAGATGGAGTTGTTACAATTTCAAGAAGAGACTTGAGAAATAAAGTTCAAGTTAAATTAGAAGAAGTGGAAAATTATATTGAAAAAGAAATAATTGAATATGATAAGAACTTATATAATAAAGCTTTAGAAAATAGAAAAAATAAGACTTTCAAAGCAAATACTTTAGAAGAATATAGAGCAATCATTGATAAAACACCAGGGTTTGTATTAGTCCCATTTTGTGGAGATATTGAATGTGAAAATGATATTAAGCAAAAAACTTCAACAAACTCTAGATGTATTCCAGAAAATGAAAAACAAGTTAAATCAAAATGTTTTAATTGTAATAAAGATTCTGAACTTATGGTTTATTTTGCAAGAGCCTATTAGTTATTTTTTTGAATATATATTTGTTTTAAGAAAATTAAAATACTAGATTAATAATATAATTGGTATTTAAAAAATGTTTATTAAAGATAAAAGTATTTTATCTTTTTTTTATTTTTAAAAAAACTCTCTTTTTTTAAAAGAAAGGAAAAAGACTTTTAAACTTAGACATTTTATGGCATATATTATTATTTCTTTCAGTTTATCTAATATATTTCATAACTTAAAGTTGGAAAATTGTTTACTTTAATTATATAATCTATTTGTATACGGAATCACTTATGAATTGTGATGTAACCTGGTATTTATCAATTAAAAGAAATGAACAACTGAAAAGGAGGTTTTTGAATGAAATCAAAAACTGGAGATTTAGTTCTTGTTCATGCATATAAACATAGTGGAAAATTATATAGGTCTTGAGAAAAAGTAATAGTTTTAGAAGAAACAGAAGATTATTTAGTATTAATTAATGAAGAAGTTTTAATTACTGAAATTAATGGAAGAAAATGAAAAACAAATGAACCAGCTATATGATTTTTTTTTAAAGAGAGCTGATACAACATAATATGTATGTTTAAAGAACGAGGGATTAACTATTACTGTAATTTAGCTTCACCGTATATTTTTGAAGAAGGAACAGTTAAATATATTGATTATGATTTAGACTTTAAAGTATTCAATGATTATAGTTATAAAATATTAGATTTAAAAGAATTCAATAGAAATAGAATGACTTGAAACTATTCTGCTGATATTGTTGATAAAGTTTGACAAAGTGTTGATGAAATAAAACAAATGATTAAAAATAGAGTAAAACCCTTTGATCATCAATATGTCAATGATATATGGAAGAAATATGAAGAGTTAAAGAATAAAGACTAATGTCATAGTTTTTATTTTTTAATTATAATAGAATATTGGTTATAATAATTAAAGAAAATATGGAGATGATTATTTATGAATAAATCAAAAATTAGAAATTTCAGTATAATCGCTCATATTGATCATGGTAAATCTACTTTAGCTGACAGAATTCTTGAATTAACTGGAAGTGTTGAAAAAAGAGATATGCAAGCTCAACTTTTAGACTCAATGGATATTGAAAGAGAACGTGGAATTACAATTAAACTAAACTCAGTTCAATTAAAATATAAAGCAAAAGATGGTGAAGAGTATGTCTTTCATTTAATTGATACTCCTGGTCATGTAGACTTTACTTATGAAGTATCAAGAAGTTTAGCAGCTTGTGAAGGAGCTCTTTTGGTTGTAGATGCAAGTCAAGGAATTGAAGCTCAAACATTAGCTAATGTTTATTTAGCATTAGACAATGATTTAGAAATTGTTCCTGTAATTAATAAAGTTGATTTACCAGCAGCTGAACCTGATAGGGTTAAAGAAGAAATAGAAAAAGTAATAGGAATAGATTGTTCAAATGCTCCAATGATTAGTGCAAAAACTGGTTTAAATGTTGAAGATGTATTAGAAGCAATTGTAAATTTCATACCTTCTCCATTAGAAGCTGATGATTCTAAACCTTTAAAAGCATTAATATTTGATTCATATTATGATAAATACAGAGGTGTTATGGTTTCTGTTAGAATCATGGATGGAACTGTAAAAGTTGGAGAAACCATAAAAATGATGCAATCAGGAGCAACCTATGAAGTTACTGAACTTGGTGTAAAAACCCCTTTTGAAGTTAAAAAAAGCAGTTTAGAAGCTGGAGAAGTTGGATGAATTGCAGCTTCAATTAAAACTGTCAGAGACGTTCAAGTTGGAGATACAATTACAACTAAGGATAATCAAGCTAAGGAAGCCTTACCAGGATATAAAAAATTAAATCCAATGGTTTATTGTGGAATTTATCCTGTAGATACTGCAAAGTATAAGGACTTAAAAGAAGCTTTAGAAAAAATATCTTTAAGTGATGCAAGTTTAGTTTATGAACCAGAAAGTTCCCAATCATTAGGTTTTGGATTTAGATGTGGATTTTTAGGTTTATTACATATGGATGTCATTCAAGAAAGACTTGAAAGAGAATATGATTTAACTTTAATAGCAACTGCACCATCAGTTGTTTATAAAGTAACACAAACAAATGACGAAATAATTGAAATTGATAACCCAGCATTTTTACCAGATCCTCAAAAAATTAAGTTTATTCAAGAGCCTTATGTAAAAGTTACAATCATGACTCCAGATCAATATTTGGGAGATTTAATGAGTTTGTGCCAAGATAAAAGAGGAAATTATATAGATATTGAATATATTGATGATTCAAGAAGAACTTTAGTTTATGAAATGCCTTTAAATGAAATTGTTTTTGATTTCTTTAACAAATTAAAATCTATGTCAAAAGGTTATGCGTCATTTGATTATGAATTAGTTGGTTATAAAACGTCGAAACTTGTAAAAATGGATATTTTATTAAATGGAGATATAGTTGATGCTTTATCAACTATTGTCCATAAAGATTTTGCTCAAGGGAGAGGTAGAATTTTAACAGAAAAGTTAAAAGAAATAATACCAAGGCAAAATTTTGAAGTACCAATTCAAGCAGCAATTGGGGGTAAAATAATTGCGCGTGAAACTATCAAAGCAATGAGAAAAAATGTTCTAGCAAAATGTTATGGGGGAGATATCTCTCGTAAGAAAAAATTACTTGAAAAACAAAAGGAAGGAAAGAAAAGAATGAAAGCTATTGGTTCAGTAGATGTTCCTCAAGAAGCATTCATTGCTGTTCTTAAATTAGATGATTAAGTATGATGAAATTTTTAGTAGATTTTTCTAATGTAAACTTGGTCTTTGATCAAGCATTAGAAATTAGAAGAAAAGTTTTTTGTGAAGAACAAAATTATCCTTTGGAAGAAGAAATAGATGAATATGATGAATTGAGTTTTCATGTTGTAGGTTTTTATAATGATAAACCAGTTAGTTGTGCTAGAATTGTTAAAAAAGATGATGAGTGATATTTAGGAAGAATTGCAGTTTTAAAAGAATTTAGAGGCAAAGGATTAGGTTTAGAGTTAGTAAATTATTTAGTTGATTTCACAACAAATAAATTAAAAGCAGAAGAAATTTATTTAAATGCTCAAGAAACAGCAATTGCATTATATGAAAAAGTGGGATTTAAAATTATCTCAAAACCGTTTTATGAAGGCAAAATTAAACACTTTAAAATGGTGAGATAAAATTAAACTACTTTTTTATTTTATTTTTACAAAGAAAATTATATAATTAAATTTAAAGGTGGAAAATAAATGAAAAAAATTAGAATCTGAAGAATCATAATAACATCAATAGTTTCTATAAGCTTAATTGCTATTATACCTTGAATAACTGTTCACATTACTGATGAAAAACTTTCATCAGTTACTTTTTCACTAAAAAATACTTATTTAATAAATTGAGTAATTTTAGCTAGTGGAGTTTTTTACTTTATTATAACTTTACTTTCAAATGTATTAAGAAATAATACAGCTAAGATTTTTTCAGTTTTTAGTACAATTCTTAGTTTCATAATTATTCTTATTTTATCACTTTATTATTACCTTATTATTTCTTATACTATGCCTTTATTCTGCTTATTAAGTATAGACTCAGTGCTTTCAATTATTAGTGTTTCAATTAAACCAGCTACAGCTGAACAAAAAGTGCAAACTGCCGTTCAAAGCCAACAACAAGTTCAAGATAATAGTAGGGAAAACTCTCCAAATATTAATACAACTGAAGCTAAGGATGTTTCAGAATTGAAAAACAAAATTCTTAGTATGAAAAGTGGATTAAACAAATCCTATGAAGAAGCTGTAAATGAAATTGAAATGACAGGGGCATTAAATGGTCTTGATATGTCCGAATTATTGAATGAGAGCCAAGATGAAGATCAAAATAAAATAATTCCTTTTTCTATTGGAGAACAAAAAAATAATATAAACTCAGATTTCAATAGAAATAAAGAATTAGTTTCATCTGCTGATGAAAATTTAATTATTCAAGATCCGCTTGCAAATTTTTCTAGTGATTATGAAGATACTCAACCTTCAAATTTATTAGATAAAAATTATAAATATACTTCAAGAAGAAAAGATGTCGATGATAATAAAAATTAGAAAATTTAAGCATTAGTTTGTTTAAATTTATTTTTATGTAAAGCAAGATTGATAGGTGAAAAAAATGAAAAAGGAAAAAAACAAAGAGCAAAAATTGAAAAAAATTAACTTTAAGAATTTTAAATCAACATCAGTTTTTTTTATGATAATTATAGTAGTTTTTAGAACTACTATGATTGCTTTTTGATTAGTAGCACCAATAATTTTAGCTTTAAATGTTGGATTTGATCATGGTTTAAAAACCTTAGTTGAATTTATATGAGCATTAATTTTAAAAGGAGAAAATACTACCTTAGCTACAAGAATAACAATTGATGTTGCTGCACCTGTATTATGATTTTTAATGATGATTATAATGTTATTTGCAAGTGTAAAACCTTTCTTTAATAAGAAAACTTGAGGAAAAAGAGCTTATTTAGCTTTTAGTTATATTTTTTGACCAATTTTATTCACTGGTATAATATATGGAATTTATTTCACAATTCCTTTCTATGAAGTAGGAAAAGAAACTAGTCCTACAGCTCCAGATGTAGATAAGACATGACAGTTATGAAAATCATTAAAAGATACATTTACACCATATAGTGGATGGATGATTTCTTTACAGTGTATTTATGCAATATTTGTTTTGTTTGGTATATTCTCAATTTTTGAAGCGCATATGGTTAGAAAAAGAAAATTAGATTACAGTGACTTTTTTGTTAAAAATAAAGATCAAAGAAGTTTGTATAATCAAGTTATTGAAGGAAAAATTGAATTTGGAGAATTTGATCCAATTCAAGTTGATAAAGAAGTTAAAAGAATAAAAAAAGAAACTATTGCTGAAGAAAGAAGAGAAAAATTTGAAGCTATTAAAAAAGCTGAAGAAGAAAGAATAAATAAAAAGAATGAGAAAAAGCAAAAAAAATTAAAAGGTAAAAAAGCAAATGAAAATGAAAAAGACATTAAGCTATAAAGGACAAAAAATTGATTATTATTTAACTTTAAGAGATCAAAAGTTTATTAGATTAAAATTGGAAGATACAAATATTTATGTCTCTGCACCATATCAAGTTTATGATTGAGAAATTGAACAATTAATATATAAAAATATACAAAAGATTCAAAAAATAATTGATTATAGAGAAAAAAATCAATTTTATTTCATAGCTGATGAAGGATTTATTAAAATTGATGATAAAAAAATAGTAGCTAAATTTCTTGAAAAAATTGACAATAAGGATAAAATGAGTTTTAAAATATATGAAGATAAAGAAGAAACAGTTAAAAGAATGTATAAAAAATTGGCTATTTCGCAGTTAAATTATTTTGAAGAAGTAGTTAATAAGTATAAGCAAATAATGAATCTAGATTTTAAAAATTTAACAATTAAGACTATGAAGGGAAAATGAGGAGTTTGTTATCCTGAAAAATCTAAAATTGTTTTAAATACTAGATTAATACATTTTCCTAAAATAGCTTTAGAATATGTTGTTATTCATGAATTAAGTCATTTAGTTCATAAAAATCACTCTAAGGATTTTTGAAGGTATGTAGAAAAATATATGCCTAATTATAAAAACATAAGTGAAATATTAAAAGTCAATGTTTTATAAAGTATAATAATTTTATGGAGATAAAAAGCAATGGGATGAAAACGGGAATTTAAGAAAATTAAAAAAGAGAGCGAAAAAAAATCTAATATTTTTGATTACTCTAGTGGTGTTTCAAGCAATATCATTTGAAAAAGGAGTATGAACCCTGTTGATCATTGAACAATAGAAAATTTATTAGCTAATATTTCTGACTTTAATGAAAATATAAAAAATATTTTAAGTATTCAAGAATTACCAAAGGGATTGGAAACTTATTCTGCAGAAATTGAAGTAATATCAATTAATGAAATTTTTTATTTCTATCCAATGGCAAGTTATTTTAAAGAAACTTATAATACAATTTCAAATAAATTAGGAAATTATGAAGCAGCTATTATTCTTGCAAGTTTAAATAAATTTTCATATTATATAACTGAAAAATTCTGAAAAGTATTTAATTATACTTTTGCAAATAAAGATATAAATGAAAGACCTCTTTTAAGAGTTTTTGAAGTTATGCAAAGAACTTCAGTTGAAGCAGTTAATGGTATTATTGAAAAATCACTTATGTTAATTGATAATAAAAATATTGACTCATACAAGAATCATTTATTAATTGAAGAAATTATTGATTTAGGAGAGGATTTTACTTATCACTGATCAAGAATGTTAGAACAAGTTGTAGATTTGACAGTTGAAACATTTGTCTTTCAAAAGCAATATGGTCAAGCAAATTCTTATTCTCACTCTTCTACTTATTCTAATTTTTTTGAGCAAGTTGATGAAGATGATTTTGAAGACTTCTTTGAAAAAACCAAAACAATAGTATTTAATGATGAAGTTAATGATGCATTTAGTTACTTTGGAATTTCTAAAATGGCACAACCAAGTGAATTTAAGAAAATCTATAGAAAAAAAGCAAAAGAATTTCATCCAGATTTAAACTCTGATCCAAATGCAACTCTTGAAATGAAAAAAATTAATGTTTTTAAAGAAATAATTGAACAATATTATAATAAATATGACATATCTTAAAAAAAGGGGACAATAGCAATTATGCAAAAAAAGGTTTGAAATAAATTATTTGAATCATCTCAGGAACTACTTATTAATTTTTCACAAGATCAAGATAAATTGATTAACTCTGTTAAAAAATTCAGTGAGGATTTAGTAGCATTTTCAGAAGTATATTTTTCTAATAGAGAAGAATTCTTTAAATTTTTAAAAAGTAATTATAATAACTTTTATTTACAAGCAACTTCAATAGTTTCAAGTGCAGATTCAGTTTCTGTTATTATGCAACTAAACGAAGGAGCTAATGATTATTTAATATTAATAAATTTATTTAGGCAGTTATTAGTAACACTTGATACTTTAACAAGTAATTATTGACTAAGAGTTGCAGAAAAAGTTAAAGAATCAAAATCTATTAAGGAAATTATTAATATTTCAAATTATGCTCAGTTTGAAGACTATGATGAAGTTTCAAACTCTGTTTTAAAAATATTAGAAAAAAATAATATAAAAATTAATGATTTTTTTAAAAACTATATGAATAAAGAACTTTGAAGAGAAATAAAAATATTAGAGGGAAAAATTTTAAATAAGCCAGATGGGGATTTTGAATATTTTAAAGAACTAGTTTCAAAATCAGATGATTTAGCAGATGATATGGTTATTAACCTATGAGCAATTTTAGCAATTAATATTAGTTATTTAGAATTTTTAAACAATATAGTAGGTGAAAAGTAATGTATATAAAAGAATATGAAGAATACACTTTTATACAAAATGATTTAATAAGCAAAGAGATGTTTATTCTATATTCAATATTTGGTGAAAATAGTAAATTTTTAAAAGCAATTCAACAAGAATGATTTGAAACAAAAAATATTGAAAAATTTAGAGAATATATTGAATATAAATTTGAAGAGATTGAAATAAAACAAAAACCTCAAGTTGATAGAGATAGCTTAAGTTGTCTTTTGAGAATGATGTCTATTTGTGATTGTTTTTATGAATATGAATTTATATATGACTCTACAAGAACTTTATTTTTAGAGTCAAAAAAAGAAATGATAGATAGTTTAAAAACATATGAATTTGCTTTTAAAGAATTTATAGATTTAAATTATAATGGTTTTATTGAGGAATTAGATACTTTGGAAATTGCAAAAAAATATTCTCCAATAGTAAAAGATATTAGAAAAGTAATACATAGAATCTCTGAAATAAATGAGTATTCATTAATAATTAAAGAAACTTATAAAGTAAATGATTTATTAAGTGATCTTTTAGATATCTTAGAAGATGATGAAGATAATAGCTTTGAATTTGGATCTGATTCAGAAGTTATTTTATATAACTTTGCAATTTATCATTCTACAAAAATTTATTTCTCTTTATTACTAAGAGAATATATAATTTTGGAAGAAGAAAGAATTGAAAATGTAGTAATTGAAGAATCAAAACCTCTAATTCAAGAAGAAGAATTAAGATTAGCTGAAACGAAAATTATTTCAGATCAGTCTAAGGAAATTTTTTATAAAACTTTAAAAAATTAATTATAGAGAATAAAGACAACTTAAAAAAAGTTGTTTTTATTTTTTTAAAAACTTTTTATAAGAATAAAAGGACAATAAAAAAATTTATTTAAAAACCTTTTAAAATATGAATTTAAAATCAAAAAGCAGAAATTAATATAAAATTATAGAGAAGAAATAAAAAATTAATTTTTAATAAGAAGAGGATTTTAAATTCATATATCATACAGAAATTAGTAGTTCAAAAATAATAAAATACTGTAATACTTTATTTATTAGAAGTAATTAAACTAAAATAAACTAATTAATTTTTCATAAAAATCTGCTTTTATAATAAAAGCAATTATAAAAAATATAGAGTTATTAGGTTGGTAGGGAGGGTTTGTTGAAAAAATAAATTGTTTAGCAAGTTAAATATATATTATTTAAAGATTAAACTTTATTAAAAAGAATAAACAAAGATATAATGCTAATTTAAAAAAAGTAAAACTAAACTTAATAATAAGTTTTAATTATAAATATCTTTATAAAAATATTGATTTCTTTCTTATTAAATACATATATGTTTTCAAAAATAACAGAAGTTATAAAATAAATTTTTATACATAAAGTAAGTCAAAAATAGACTGTAGATATTAACTTTTTTAAATAATGTTAATCAATTTATTTAAGAGGACTTACAATAAAAAAGAGTTATTTTGGGGATGAGAGTTTTAAAGTTTAAATCTGATTTAAATATTATTTATACAACAGCTTTTATAAAAACTAAAATTATGTATTGAGGGTCTCTAATATTTTTAAAGATATTAGAAAAAATATAAAATATAAACTACTTCAAAAAAACTTAAAATTTTTAAAGCTCAAAAATTTTTTCTAAAGTTTATATCATATTTTTTTACTAAGGCTAGAATAATTAAAAATGTGGTATAAGTAAAAAATAAAGGAAAATTTAATGAAATAAGTACTAGTCTTTTATCATTAAATTTTGTAATAGCAAATTCACTAATTTTAAGTATCTCTAATTATTTAAGAAATATTAGTATTAAAGTAAAATTGAGTGATTAGGTTAGACTTTAAAAGTAAAAGTTTAACATGAAACAGTAATAGATAAAATTTTTGTATTAAGCTATATATACAAAATTAAGTACTTGGATACTCTTTAATTAAAAAAGATTTAGATTCCTAATGTTTTTAAAGTTAAGAAGATACACAAGAAAATGAGTATAAAACTAAAATATTAATCACAAATAAATCTATATTATATAAAAAACTTTTAGATCAATTTTCCTTTGTATAATTGCTACAAATGAAAAATCTACTAAATTTAATAAATAAAATTCTCTAAGTATAATAATTTATGCAAAGAGAATTTTTCTATATCAGTCCTTAGTTTAAATTAAAAATTTAAAACAGTAACAATTGGAATATATTAATTTTAAAATAAACACTTTTTATATTAAAATTAATATGAAAGGGGAAAAAGTATGGCAAAGAAAACAACAAAAAAAATTGCTTCTAAAGCATCTAGGGTATTAAAAGATGGTAGATTCTCTGATCAAAGTAAAAGTGTGGCAGCAAGTGCACTTTCACAAGTAGAAGATAACAAAAATACTTCAGATGAATTAGCTTCAAAAGCATCAGAAATACTAAGAGACAAAGGAACTTTTAGTGATACTTCAAAAAGTATTGCAGGAAGTACTTTATCTCAAAAGGAAAAAAAATAATATTATATAAGAGAGAATAACTTTTGATAAGTTATTCTCTCTTTTGTTACTTTATACTTATTTAAAATTTTTTTTATAAGACTCTTTACTAAAAAATTTTACATTTAATACTAAAACATATTTTAAATGTATCTAGTATCATAATAAAAATAGTATTAAATAAATTACTTCATATTATTTTTGGTGGTAGGGTGGGATGTTGAAAGAAAGGGAAATAATTTATGTTTGGATTATTAAGTTTATTATCAACTAGTATATTGGGAGTAACTAGCGTTTTTGTAGCAGATGGACAAATATCAAAAAATAATGTAGAGTTATCATCTAATAACTCTACATTAATAAATGAAAACGATGTTTTTCCAATAGTAAATGAAATAACTGTATATATTGATAGCAAAGGTTCTATGCATAAAACAGATGCCAAAGATTTTTTACTTATAGATGCTCAAGAAATATTAAAAATGGGAGTTTGAGAAGATGGTACAACAATTATAAATTGTAATGCAAAAGAAATGCCTAAAGTATTGCCAAAAGAAATTACATCTTTAAAAAAACTATTTTGATATAACGAAAATGAAAAAATTGAAGGAATACAATATTGAGATACTTCAAATGTAACAAACATGGAGTATATTTTTATGGATGCTATCGATTTTAATCAAGATATTGGGTCATGAGATACTTCAAATGTAACAAACATGAGTGGAATGTTTTTATACGCTTATAATTTTAATCAAGATATTGGGTCTTGAAATACGTCAAAAGTAACTAATATGTCAAACTTGTTTAACAATGCTTTTGTTTTTAATCAAGATATTGGGTCATGAGATACATCAAAGGTAACTGATATGGACAGTATTTTTGCTAATGCAACTAATTTTAATCAAAATATAACTTTATGAGATACTTCAAATGTAACAAACATGAGTGGTATGTTCTATCAAGCTTATAGCTTTAATCAAAATATTGGTAATTGAGATACATCAAGTGTAGTTGATATGAGCTTAATGTTTACTAGAGCTCTTAGTTTTAATCAAGATATTTCAAATTGAAATGTGGATAAAGTTGAAACATGAGATAGTTTTGCAGTAGGATCAAGTCTAAGAAGTGAGTTTATACCTAAAAAATTTAGATAATGTAAACTAAATAAATAACAAAAATAAATAATAAATTTTTAATATAAATAGTATCACTATTTATATTAAAAAATGTATAAGAGAGATATTAGAAAATAATAGCTCTCTTATTTTAATTTACAGGTATATTTATTCTAGTAAATTTCATATATCAAAACAAATCAAATTAGAATAATAATCTTCTAGTTTCTTATTAATAATGATAAGAACTTATTAATGACATTTATGCTAATATATTTATGAAATAAAAACTAAAAAATAAGAGTTTTTAGTTTAACTAAATTAAATTTAAATTAGAAAGGGTAAAAAATGTATCAAAAATTAAATACTAAAACTTTGTATTGGGGATTTCCAATTGTTGTAATATCAAGTTTAAATGACAAAAATAAAACAGACATTACACCAATTAGTTCAATTTATAATGTAAATGATTCAATTATGATAGGATTAAATATTAGTTCAAAAGCCTATGAAAATATAAAATTAAATAAAAAAGCTATTATTAATATTGTTCCTGATTCTATGTGAAGTAATATTGAAAAAATTGCAAAATATACTGCAAAAAAAACAAATGATCAAAAAACTAAAAACTATATTGAAGATAAAACAAAAGAGGGAAATTTTAATTTATTAAATTCAGAACATGAAATTCAGTTTTTAGAAGGAACTTTGTTATATATAGTAGTTGAATATATTGATGAGTTAGTTGTTAATGGAATAGCAAATATCTGTTTTAATGTAAAAGAAATCTATGTGGATGCAGAACTTCTTGATGAAAATAATTATATTTTAGATGATAAATTCAACATACTTTTATATCAATTTAGAAAATATAAAAAAATAAACAAAGAATCTATGGGCAAATCTTTCAGGTATGTTAAATCAAATTAGCTCTGTTTTTAATTTTTCAAAAATATATTTGTAAATTACTCTTAATATTCTTTTAAAAAGTAGAGAAGCCAATAGTATGAGCAATATAAATAGTTTTGTAATTTTGGCAGTTTATATTGTCGATTATAATGGAACAAGTTTTAAACATCTCAATGATATCTTGAGATTTTTGGGTTTTTAAATTCTAAATTAGGTGAGGATGCTTTTACATGATAAAAAAATTAATTTAGTAACTTTAAAAGTGTTTTTTTGATATTATTTAATTAAATAAACATAAAGGAGTTTCAATGATTATAGAAATAATTTCAATCACTTTTTCAACCATATTAACTCTAATCTCTATATTTTTAATATATTGAGTTGATTTGAAAAATAGGAAAATTCAAAAAAATGTTGAATTAAATGAAAGTTTAAAAATTTTAAATGAAGTTAATATTAATTTTCAAAAAGAAATATTTGATATTAATTTAAATATTAGTGACATTTTATCTGATTTTCAAAAAGATTATTTGATGAGTTACTCTTTTAATGATGAAGTAGAAGTTCAATTTGAAAAATTAAATACTAATGTTAGTAAAAAAATTTTTAAATTAAGATTACAGCTATCTACATTATTTAAAAAATTATTATTAGATCTTAATAAACTATTGCCAATAAAGAAAAACTTAATTTATAACTATTATAGAAATAAATTTGTATGAGAAAAATACTCAAAGTTATATACTAAATTAGATTTGGAAGTAACATCAGAAGGAGTAATTGAATTTAATTGTTATAAATGTGAAGAATTTGTTAATATTGAAGAAAATTTTGAAACATTAGTAGCAAAAATTAGTACATTAATTGATAATTTATGCAACATTAAAAATGTCTCAAAAAGTTATACAAAAGATTTAGAAGAAATTTATCTTGAAGTGGATTCTATATTAACAGAATTGAATTTTGGAATAATATTGAGTGTAGATAGAGATTTTTATTTAAAGGACTTATTTTATATAAAACATAAAAACTGCGTATCTAAAGAAAATGAAGATGAAATTTAGTAAAACTATATAAGTGATTTATTTATTTTTTACAATAAATAAAAATATATAACAGAAGATTCCAAACTCTTTATAACTTTAATATTTATTACAAAAAATTTAATCAATATTGATTATTTATAATAATAACTATTAAGTAGAATTTAAGATGTTATTTAAGCAATTTATTTAGTTCAGACATTGGTTATAAACACACATATAGCACTTATTTTTTTTAAAGAAAATGCATAAAATTATTAAAAAATGAAAATATATCTATTATATAAACTATTTCTTATAGTTATATTTTCAAAAATTAAATATTTCAGTAATTTTTTCATAAAAGTTCATCTTTTTTTAAATATAATTGTTTTTTTTTTTTTTTTTGATTATTATTATATAGAATGAATAGTTTTCCTATTTTTTTTTGTGTCAAAGGGGAATAGAAAATATTATTTAAGATAATATTTAAAATAAAATGAGAAAGAAAATTTTTTTGTGAAGTTCAGTTTCAATAATAACATTAAGTTGCATTTTTAATATGAGCTTTTTTATAGTTAATAACGTCTCGATTAAAAATTTGCAAGCACAATTATACTCAATTGTTAATCCACAAAGGGCTTATCCTCCCCTAGAAAAAGAGTATCTTAATATATGAAAAAAATTAGCAAATGAGTCAATTGAACAGCAAAATAAATATAATGATAAGTTAATAAATTTTTATAAAGATAGTTATCTAAGTCTTTTTTATAAATATAATCCTAGTCCAGAGAATGGTGAAATTGTGTCAATTCCTGACGAAGATATTAAAAATATAATTCTTGATGTAACTAAAAGTGATACTTTACAAATATTTATTGCTTATTATTTAAAAACAATTTTTATTGAATCAAGAATAAATTTTTTAAATGATCCATCTTTACCATTAATTTCAACTGATAAAAATATTGTTATATGGGCATTACAATATTTTTCTGCAATTACTTATTTTCAATGAGTTAAAATTTGAATTTATGAATTAGGTTCTACTGTTGAGAGAGACTTTAATATTGATTTCTATACATTTGGAAGTTATGTTCAATATGATAAAAATGGATTTGTCGATTGAACAAAAGAACCAGTATATAGAAAAACTTTAGGTTGTGACTTAGTAAATACTAATATTAATAAACCAATAGATGAAAGCAAAATTAAAGCTGAATTGAAAAAAAATAATGAAAATTTAATAATAGATGATATAAGTATAATTAATAAAAAAGAAAATTATTATGCAAAAGTCAATCAATACAGTAGCAATTATTATTGAAATACAGATAGCGAGATACAACTTAATTCTACAAATTCAAAAAGTTGTACAACTACTAATAAACCTGAGCCTATGGCTATCATGGATGATGTTTTAAAACCGTTTGTTGAAGAAGTTTATAACTTTATATATGATAAAAAGTTTTAGAAAGTGGAATATATTATGATAGAAATTAAAAATATAGTTAAGAAATACAAGAAAAATGAAGTTTTAAGAGGTATTGATTTAACCATTTCTGATAATGAGGCAATAGCTATTTTAGGATCAAATGGATGTGGAAAGACTAGCTTAGCAGAAATAATAGCTAAATTTATTAAACCAACATCAGGAGAAGTAACTTATTTTGATCAAAATAAAAAAAATGCTAATAAAAAAGTGGGTATGCAATTTCAAGATGGTTCATGACCAATTGGAACAAGAGTATATGATTTAATTAAATTCTTTAAAAATAAAGAATATTTTGAAACAGAAGAATTTAAGGAATTATCTGAAGTATTTAGTCTTCAAGAAATAATAAAAAAAGATATGTGTTCTTTATCAGGAGGACAAAGACAAAGAACTAATTGCTTTTTGTCAATAATCAATAAGCCAGATATTTTAATATTGGATGAACTTATTACAGGTTTAGATTTAGAGATGCAAATAAAGCTAGTAAACTTTTTTAAAAAATATAAAGAAGAGAATAAAATTATTTTATTAATTGTTTCTCACATTCCTGAGGAAGTTGAATCTTTGTGTGAAAGAATTATAATTCTCAAAGATGGATTAGTTTATGAAGATGAAAAACTTAAAGAAGTACAAAAAAAGTATGGAAGTTTAAGAGAAAGAATGATACATTACTATGAAGTTGAGAAATAAAAACTGAATTAAAGTTTTCTTATTACTCTTTAAAAATACTTTAAGCTCATTCAAAACTTATGTTTATGTCTATTTATTTTCTTCCATACTATGTTTTTTGTTAATTTATATTTGATTAAACTATTCTTTATATATACTTTTACCCCCACAGTTAATTTCCTTTTTAGCATTACCTTTTATAATTGCACCTTTATATGTTTCTTTAAATTTAATTGAATGAAAAAAGCGAAATTATCTTATAAAAATAAATTTTGGATTAATTACGAAAATAAATTTATTGATTTCTTTAATTTTAATTTCTTTAATATTAGCAACTAGTTCTTTTATAATAAACTTATTTTTAAATTGAATACTAACTATCTCTCATGTTTTTCAATATAATTATGTTTTGCTTGGAAATATAGAAGCAATTATTTGATTATTTGTTATTTTAAACCTAATTTTTGAAACAATTTTTATATCATGCTTATTTTTTGCACTAACTTCAATGACTTCAAAAACTGTAATTAATATTTTAATTATTCTGTCATTATTTATTTTTATGATAACTACATCAGGTTTAATCATACCTCCACATAGTTTGAGTGGTAATGTAGTTTATGAATCTTTAGGCTATATTAATCCATTTAAATATTTTAATTGAACAAACTTACTCTTTTCATCATATCAATTTGTTGATAAGTATGGAATTACTCAAATATTGCCAGATTATAAAGAAGGGGATTGAATTTCATTTAAAGGAATATATATAACAATACCTTTTGAAATTGTATTTGTAGTTTCAGCCTTTTATTTTTATAAATATTATTTTAGAATAGGAGTTAAAAAATAAAAATGAAAAAATTATTATCTCTTTTTTTATCAATTCCACTTTTAATTTCTCCAACAACATCACTTATTTCGTGTTCTATTGGAAGTAGAGGAACTAATTATTTTTTGTCAAATTTACCAAATTTTAATTGAAATGATCCAGAGCTTGGAGATGGAATAATTTATGATAATTATTCAAATCCAGTAAATGTAAATTTAACAAACAGTAATATTGAAAATGTAGAGCCTAAAAATCTAAACTCTTTTTTAAATTATGATGAATTTAATACAGGTTTTCAATGAAATCAAAATATTAAAAAACAAGCAGTAACAGGAGTTCCATTAAATAAAGGGTTTATGCCAAATGGAAATTTTGCATCTGATTTTGGTGTTGAATCAAAAGCTCAATCATATCGTAGATTAAATGGTATTTTAGATTGAAATCCCAATACAGATAATGATGCAAAATTTAATACTTCAAATGAAGAATTAAAACAAAGAGTTGTAGTACCAAATAGAATTTCAGCTAATCAAGATGAGCGTTTAAAGTATAATCCATTAGGCTTCTCTTCAAGAAAACACAGAACTTTTGATAATACAATAGTTGGTACTAAAAATCCATTTGAAAACTCTACAACAAATTGACAATATATCAATGAATTTATAAACTGATCAGGGTCATGATTTGAAGGACCAATAGTTCCTCCTCCAGCTGATGTTGTTGATTTTGCTCATAAAAATGGTACACCAGTTTATGGAAATATTTTTTTAGATGGCTATCACGGTCTAACAAGAGAAATGATTAGAAGCTTTATTTTAAAAGATAATAAAGGAAATTACAAAATTGTTGATGTACTAATAAATATTGCAAAAAGTTTAGGTTTTGATGGATGATTTATTAACAATGAAGCTAATGGTCAACTTCCAAATGGAACAATTCTTGATTATAATGAAATGTTTGAAATAATAAGACAATTTCAACAAAAGACAGCCACTTCTAAAGATGAAAAAATCAAAAATTTAGAATTATATTATTATAGAAATGATGCTACTTTAGCAGAAAATAATGGAGTTTATTCAGATAAAGAAATGGTTAAAATGGCAGATGCTAATTATCTAACTGGAGATAATAAAAAAACAATAAAAATGCAAGTAAATTTTGGTGAATTGCCAGAAAGTTCAAAATATTTTAGAGAAGAGCATAAAGAATATCAACAAAATGATATTTTCACTATGGTTGACCAAGGATTTAATAATTTCTTATATGGTAGTTTTGATTTTAAAGAATTGGCATATAAATATGATCGTGCTAAACAAGAATATGATCCCAGTGTTTATGCAGGATTTTCTTCATATTTGGATAATGGTTCTGGAATATTTGCCAATGAAGCTTACAATTATGTTAAAAATAATTCAAATGATGAAATTAGAAATTACTTATTTGCAAATCAAGTTGGGAATTTATTTAATGATATTCAATTTAGTGGAACAAACTTGTTTGTTTCTAGTACAAATAAGGGTTTATCAAAAAATGAATTAAGTCAAAAATTAAAATCAAGTGAATTTAATAGAAATGCTTTTATTGCAGATCCGCGAGTTAAACTTGAAAATAAAGGTAGTTTGCAAAGAGATGTGCCAAATAGTATTTTTGATACAGTTTATGATTATAAAAGCAATAATTCTAAGACAAATACAAATAGCTATGGAATAGCAGATTTAATTCCTGAACAAACTGTAATAACTGATCAAAATTTATTAAAAAGTGATTTTAAAACAAATTTTTCAACTGGTAATGGAATTAAATTTAAAACAGATGAATATACAATAGAAGATTATCCTTGAACTAATAGGAGACTTGCAGATGTTCTACCAACTTATAGATGAAGAATTTATGACAAAGAAAATTCAAATCGAGCTTTACCTATTGATCAATTTTATGGTGGTTTTGATTATGATGAAGTATATAATAAAGGAAACTCAATAGCTATTGGAAGTGGATTTGATGAAAAAGGAAAAATACTTCCTGTTAATGAATGAGATACAAACAAAACTTATAACTGAGATATATTAGGAACTGATTTCTCAAATAAAGACAAAAAAATAGAATTAGTTTATAAAACTGATTCAGATAGTCTTGAAAATATGAAATTAAATTTAACAATAGTCAATAAAGAAACTAATTCTACAAGAAAAAAAGAAGTAGAAAATAAAAATTATAAAAAATTAAATAGTGATTGAACTAAAATTGAAAGTGATTTAAATAATTTGAATTTAAGTACTTCTGAAACAATAGCAGGAATAGGATTAACTTTTAAACCTAAAAAGAAAGAATTTAAATTAAATGTGGGAGAAGTTCAAATAATTAATCAAAGCAGTTTTTATAAAAATTTAAAAACAGAAAATCAAAATATAAATCTTGAAGTAGAGTATGCAATTAAAAGAAAGAATTTAGAAACATATAATTTACGCTTATCATGAGAATATTTTAAAGATAAAAATTTTGATTACTTTGAAATTTTAACTTTTTTTGATAATAAGTGATATCGAGTAGGTGAAACAACATCAACAAACTATTTCTTAAAAGATTTAAAAGCACAGGAAGATAAAATTTTATTGTGTATTAGACCAAAAAGTAAAACAAATATAGAAAGTGAGAATTATAAATTTTTTATAAATTTATAAAGGATATAACTAATGAAATTTAAAAAGACATTTTCATATATATTTAGAAGTACATTAATTTCTGCATGAACTTATATTTTTGTTATTTTTATTCCAGTAATTGTTTGTACAAGTTTATATTTTATTTTTTTAAAAAATCTAATATTAATAGAAAATAAAGAAAAATTAATTGCTTTTTCTTTGTTACCATTAATTTTAATGTCATTCTTTGCTTGTCACTTTCTTATTACATGGAGAGAAACAATATTTTTAAGACAAATTAGTAACTTTGGTATTACTAAAATGTGTTTCTTTATAAATTTCTTTTTCGTTTTTACTTTGTACAGTTTTATAAGTTATTTCATAACTAATTTATTTCTTTTAATATTTGATTTAACATTAAGTATTGGAAATTATAAAAAGATACTTTTTGATTTTAATGATATAGGTGGAGCTTTTATTTTTATACTAGCTATGTTCTTAATGATTTTATTGTATTTCTCAATATCATTTTTAATTGCAGGTAACATAAAAAATGTTTATTTAATTAACTCAAGTGTTTTTATTATAATTGTATTAACTTTCATTTTCTCAGATTTTTTCCTAGAATCTTCTTTATATCAAAGTCCTTTCTCTGGAGTTATATCTTTTCTCTCTCCACAAAAGTACTTGAATTGAATATTTTATTTAACTTATAGTGGAGGTTTTTTAGATCAAATATTAATTTATAAATTTATTACAAAGATTGAATCAACTGTATATTTCTATAATTTATTAATTCCTATTCTATCCTCTTTATTTTATATTTTCTCTTTATCTATATTGTCATTTATATTTTTTACAAATTCACTTAAAAAATAAAATACTTTAAGATAATAAAACATGTAGACATATTTATGTCTATTTTTTTATATAGTTGCTATTCTATAAAAGAAATTTTTATTTAGTCTTTAAAATTCGTAGTTACTTATTTTTTGAGATTTATTAATTCATATAGTTCTCTAATTACATTTTATAATTTCTTAATTTAATAAAGTTTATATTTTTCTCTTTTCAATATGTAGATTTTGATGCATTCAAATGCTTTTAAAAATTTTACAGAAATCTTAAAGATTACTTTTTTTAAATTAGTTTAAAATTGATAAATTAAAACTTATTCAACTTATCTATATCTTTTTTTTTTTTTTTTAAAAAAAAAAAAAAAAAAGTGATAATTTTAATTTAATAGTAAAAAAGGATATATATTTGCTTTTTTCATTTACTTGTCTTAAGAAAGGATAATAAAATGAAAAAAATATTAAGTGTATTGACAACATTTGGATTTGTATCATCATCAACTGTTAGTGTAATTGCTTGTGATACAAAGGAAAAACCTAATCCAAAAATAGATCAACCTAAAAAAGATATTACTAAAATAGTTCAAGACTTTGAACAAGATGTCACAAAAATTTGAACAGAGCATTATGAAAAAGAAATTGTTGGGAATTTAATTGGTGTGACAGCTTCAGAAGAAAGTAATGAATTTATAAATAAAGTTAATATTCAGAAATTTTCAAAACCAGAAAATAAAAATAAACTAACAGCTGAAAATAAAATTCAATTAACAAATGATGTTCAAAAGTTGTTTAAAACTAAACTATTAGAAGAAAAGTTGAACACTCTTAAAAAGGTAAATAAATATAAAATTATTCTTGATGAAGTCGACTCAGTTTTTGATAGTATAAATTTGCTTTTTGACAATAATAATTTTTTAATTAATTCAGGAGAAATTAATACTGGATTGTATATTGGAAATATAGTAATTGATTATAAGGTTGTAACAAAATATAAAGGACTTAATAGTATTGAGAAATTTGCACAATATTCAACATTAAAATACACTTCAACAGATAGTGAAACTTTTAAAAAAGTTGGAGAGGAAATGTATAAAAATATTGCAAAAGATGTATTTATTTCAAAAGAAACTGAAGAGTTTGTGAATTTGCAATGAAATAAGATTAAAGGAAATAGTGGAGATTCAGCTGCGTATTTAAGTTCAAACACTCAATTAAAAAAATACTATAATGAAAATAATCAATTTCATAATGCTTTACTAAAAATAATGAAAGAGAACTATTTAGAAAAAAAATTTGGTTCATTAAAAATAAGTTATGAAAAAAGCAGTGTTTATAAAACTGAAGATTTTGCAGAGCAAAATAAAGATTACTTAATTATAAATAATCTTTATAAATCTGATGACGATATAGTTAGTTTTGATATGTCCATGGCAAAAGATTACCAAAAAATTAGTAAATTACTTTTATCTGATAAAGAAGAATTAACTCAATTTTTATATGAAAATCAATTCTCTCCTTATAAATGAAATAAAATTAGAAATAACTATAAAATTATTCAAGATAGTTTTCTAACAAAGTTTTTAAATAAAAATGAAATATTCAAATATCAAGAAAGTAATAATTATAAATTGGCAATAGCAATGGGATTTGTTGATTTTATAGGACCAGTTATTAAAATCTCAAATGGTAAGTCTTCTTATTTGCACGAATTACCTGATTTTAAACTAGCTATTTCTTATTCTCTAAATGGAATGGTTGATTCAAATTATGAAAGTCTTGTTGATTTTTTTACAAATTTATTCAATATTTATAAAACTATTTATAATCCCACATTTAGATCAGATAAAAAATATTATTTTAATATGAGTTTTGAAAAAAATAAGATATGAGAATTGCTAAATAAAAACAAAGTAGAGCTTAAAAACTCGGAGATTAATAATTTACTAAAAAATTTTAACGATAATTATAATTTCTCAAAAAAAATGTTATTAGATAAATTAAAAATATCTAATAAGGCATTAAAGGAAAAAGATATATATTTTTGAGTTGAAAATTATGATAAGAACTTAAAAAATGAAAGAGTTATGATAGGTTCCAAAACAATAGATGACTATTTTTGAGTATCTGCTAATTGAAATATTGAAACAATTTATCCTTATAAAACTTTTAAAAATTTCAATTATATGGTATTTAATTTATTTGGAATTTTAAAAATTAAAATAAATTTTGATAGTAGTCTAGAGCATTGAAATGAATTAGTTATTTTTTAAAAAATTTATATATTAATAATATAAAAGATATTTAATATTTTAAAAAATAGTTTTCCTAAAAAGTGAAAAATAAATTCTATATCTTCAAAAAAATAATGAAGAGTAGATTTTTTTTATATCCAAACAGATAATTATTAGTCAAACAATTAAAGTAATTGAAATTAAAAAAAATGAGCAAATAAATAAGCATATAAATACTATTTAAACATTAATGATTAGAATCTAACTTATAGAAATTTTATTAATTTATCTAGTAAAAAAATAAAATAATAAATAATAGTATGAAAACATTACAAAAAAAGTAGGTTCAGGTTTTAAATCAACAAAGAGAAAAAAATGAGATGATTTAGATATTCTAGTAAATTTTCTTGAAAATTATATATATTTTAGTAAGAATTAGTCATAAAACTAAAAAATTTAATAATGTAACAACAAATATAGATGTTAAATTAAAGAGTTATTTTCATTAAATATTGAAATTACTTGCAAAAAATAATAAAGTAGGAATATTAATAGCAAGCTATATAATAGATAAATTAAAAGTCTTTATAAATAAATTAGTAATAATTGAAAAAGGTATAAAAAAATATGATTTACAGTGTGATTCCAAAAATGAAAATATTTTACCTATTTATAAAAAGTATACTGAGATTAAGGAAATTAAAAATTTTGAAGACTTATACTAATTTATAAGAGGTTCTAGAATTATATTACTTAAAAAATCCATGATATACTTCAAATAATGTAAATAGAGTTCTAGTATTACTAGTCTCTTTTTTTTAAATTAAAATCTGAGAAGATTTATTTTTACTCTTTAGTCATGTAATTTCTGATGAGGCTAAGGACTTTTTTAAGGATTCATATTTATTCTTTAGAAGAAAATAATGAGTTTATAAATAAATTTAAATGACTATAGCTGGAAGATTCTTTAGACAATAGAAAATAGAATATTTTTTTATTGCTTAAAAGGAGAATAATTAAAACTTTTGAATACCTCAAAAATAAATTTTTGAAGAGATTCATAATCATATCAAAGGATATAATAATAAAATAATATAAAAAAAGTTAAATTAAAAACATTCGCTTATGCGAATGTTGATAATTGCTTATAAAGTCTAAAAATTTATTTTTTACCTTAGAAGTTGTTTTTTTATTACACAGTTATTGATAAATTTTTAAAGAAAAGTTGATTTTTTGCATCAGCTCAATATGCATTTATTCATGAAGCATATGATTCTGCTGTTACTTTAAATTTCATTTCAAGTATCTCATTTTCAATTCACGCATATTCAAAATACCCATAAACTTTCATATAATTAGTACCTGAATATATTCTATTATAAAGTTCTGTCTTTCCTTGATTTCCAGATAAAGATATTGTTCTGTTTGTATATGAAACAGAGTTCTTAGAACCGTTCTTGTTCATTTCATTATATCAAATATCGCCACCTTTTCTTTTTCTTCCGTTATTTCAAGTTTTTGAATATCATTCAAAATTTATGTTTTTAAAATATTCAGTGAATTTTTGTTTACCTAATGATGGTTTATAAGTTAATAAAATTGTATCTTCGTCATTTTGTGTAGAATTATATGCATGAACATAAATATTTTTTGTTTCATTGCCTTGTTCATTTACTATAGATCTTAATTTTGTTTTATATGTAACTGATGTTGTACCTGTATATATATGATCCTTGTATTGCTTTAATTTTTGCCATTCCATAACCAATATCTGTAATTTCAATTTCATTTGTATTTATTCCATAACTTTTCTCTAAATTTTGAATTAGCATATCTTTTGTGAAATCTTCAAAATTTCCAATATCTGTTCCTCTTGGAATTATATATTCCAAATCTTTTATTGCTTTATTTGAAAATAAATTTATATTTGAACTTTCAACTATAACATTTGAAGTTGAATTAGTTAAAAACATCGCTGATAATAATTTAGTAATCATTTTTTTCTCTCTTTCCTACTATATTAGTATATAATAAAAAAAAGGGGATTTAATATTAAAATGAAAAATTTACAACTTTTTAGTTTTACTTTAAAAAGAACAATATTTAATAAAAATTTTATTTTATTTACTTTTATAACTTTTTTTTAATATTTTCTTTAAATATAATATTTTTTACAGTTATAAAAATTGAACTAACTTCTAGTCAAATTGTAATAATAATAAATGTAATATTATCTTTAATTTGATTAGCATTTGTAAATATAAATGGAGTAGTTAATATTGTAATAAAAGATGAAAAAACAGGAATTCAAGGTTTAGAAATTAGAAGGGGAATAAAATCAAAAAATATTTTTCTTTATAAATTTGGATCTTTAAAATTAATATCTTGATCTTATATTTTAATAGTTTATATTTTATTTTTATTTACAGTATTATGCTTTAAAATGGCTTTAGAGAATTTTATTATAAAAAATTTATCAATAGGACTTTTAAGTTTGTTTGCTTTTGATTTATTTATATCTGGTTTAGCACTTTTAATATGTGTTTTTTCAAAATCAAATAAAAAAACTATATCAATTAATTGATGTTTAACAATGATAATGTGCTTCTCTATAATATTGGGACCAATTGGTTTTGCAATAAGTCCTGGAGATTATGCTTATGCAATAGATAATCTTAATTTTCTTATTGTTGAAAGAAATTAAAAACTTGATACAGAAAATGGTTTTATGAGAAAACTTGAAAATGATTTTTTAAATACAGAGAAATATATCTATAATAAAATTATGTTATTAGATTATAAATCTATTAGTTATCTTAAAGATATTAGTTTTAAAAAGGGTGGATTTTTCTTAATATGTATTATATTTTTATGAATGAAAAAAACCCTTTATCTAGATATGTAAATGCTGAAATAAGAAATATTAATGAAGTTAAAAATGTAATGGAAAATTCATTAATATTTCAGTATTTATCTTTCTTCTCTATAAAAAATTCTGAGAGTCATAAAAAGAATTTTAAAAACTCTTTTTATAATAAAATTAGTAAAAGTAATTTTTATGGAGATGAACAATTAAATCAAGTTTTAAAAAATTTCTCTCAAGAAAAATGAAATGTTTTTATTGAACAAGATAAAGTTAAACAGTTTAACTTAAATCAAACTGATTTTAATGAAGTTATGATAGTAAATAAGTACATAGAAAAAATCTTTTTTAGTTATACAACAACATTTGGAAATACAGAAATATATCCTAATGATGAAAAAGGTTCTGAAGTTTATGATTTCTTTTCTGATATAGATTATTGAATGGATAATAATTATTTAAATTATTCATTTGGTTCAGATTTATATGCAAAAATATTATTTGAATCACTAGGAGCTCCAAATAATAAGGATTATCCAAAAGAAGGACAAGATAATTACGATAATTATAAATATAATCCTTTTATGTGAATATATGAAATGATATTTTTCTCAGGTAAAAATGATTTTTTAACAGATTCACAAATTTTATCTACTTCATTGCTGCCACTTGGAAATTATAGAATATTTGCATTGGATGAAGAAAATAAAATAGTTAAAACAAAAAGACCATTTAATATATATTTAAACTATTCAATTTTTTTACTATTTGGAATTTCTTGTGTATTAATTTCATATTATGGTTTTAATAAAAAGATCTATACTAAGGCTGGTGAAGAATAATGTTAGAAATAAAAAGCATGAGTAAAAAATTTGATAATGAAAAGGGTATTTTTAATTTCTCTTTAGAATTGAAAGAGGGAGAAATAATAGGACTTGTTGGTGATAATGGAAGTGGAAAATCTACAATGCTAAAAAGTTTATTTGGAGAATATAAAAAGGATGAAGGAGAAATTCTTTTAAATGGTGAGTCTCTATTAAAAAATCTTACAAGTATAAGTTTTTTTCCTGATCAAAGTGTTTATCCCAAAGATATAACTATACTAAATTTTGCAATATATGATGGAATTCTTTGTGGTATTGAAAAGAAAGAAGTTGAACAAAGATTAGATATTTTACTTGAAAAATTTAATTTATTAGACTATAAAACAAAAAAGTTCAATTCTCTTTCTGCTGGTATGCAAAAAAAAGCACTATTAGCAATAACTCTAATATCTAGACCAAAATTTATTTTTTTAGATGAACCAACAGCAAATTTGGATGTTAAATCAAGAACTGATTTTCATAAAATATTGAAATCACTTGCAAAAAATAATAAAGTAGGAATATTAATAACAAGTCATATAATAGATGAATTAGAAGGTTTTATAAATAAATTAGTAATAATTGAAAAAGGTATAAAAAAATATGATTCACAGTTTGATTCCAAAAAAGAGAATATTTTACCTATTTATAAAAAATTTACTGAGAATAAGGAAATTAAAAATTTTGAAGATTTATACTAATTTTTTAAAAGGTTCTAAAATCATATTACTTAAATAATTCATGCTATATTTTAAATAAGTTAAATAGAGTTCCAATATCATTAGGGCTCTATTTTTTGTATAAACTAATCTTTTAGAAAAAAGATGCTGCTAGTTTTTATTTGCCTATTTTAAATAATTTTTTTAGATAAAAGTAGAATTAGAATATAGGAACACTCTAGTTTCAAAAAAAGCTGGAAATTTAAAAATTAAAGAGATTTAAAAAATAGAACTTTATTTATTATGTATCTTTTATTATAATAGTTCTTCTTATAGTTAGTCTATTAGCAATATTTGGTATTATAGAATAAATAACAACTATTATATTAATTTTTTAGTTTTTTTATCCTTCCTATTACTAAAAGTAAAAGATAGTATAATATTTTTATTTATTTTATTTAAAACATAAATTTTAAAATAAATATACAAAGACTTACATTTTTTAAATTATTAAGTACTTAATAATTTTGAATAATTTTTATTTGTAAACACATTTTAAAAAAATTACTTTATAATAAATATAACACTTAAAAAGGTATAAACTTAAGTAGGGTGAAATAAAGGATAATATCAACTTCTTTAAGAAAAATAATTTTTATTTGTATACTTTTGAGTGTTGCAATAATTAAAAATTTTAAAAGGAGATAATTTATGAAAAGATTAACAATTTTTTTTGGTATTTTAGGAATATCTACAACACCAGTTAGTTTAATTTATAATTCAGAGAATATTAAAAATAAACAATTAGATACTAATTATGATTTTTCAAACTTAGAAACACGTTCTAAGATTGATTTAAATACTATAACAACAAAGGATCTTAAAATGGATGTAGGACCTTTAAAGGGACTAACTGAAGATGTAATAAAAAAATCAGTATTACTTGAGATTGTTCAACAAAATGACAAAAATAAAACTATTAATGATGTAATTATGGGAGCAATTTATCAACCCCAGTTTTGAGATATAAGTGGAATACAATTTATAGTACCAGAGAAATATAAAAGCGTTAAATATAGTCTTAAAATAACAGCTGTAAACTATAATCCTGATTTTTTAAATACATTATTTATAAATGTTGAATTATGTAATCAAACAGTTTATGATGTTGTTTATAATCCGAATATTTGAGCAGATACCCTAAATGTTGATAAATCATGGGGAACAGGAAAAGCAAGCATGGAAACTCGTGAAGTGCAACAAGAAATTGACTTATCAAGTTTTGGAGGAATCAATTTACTTAAAGAAAATTATGAATCAATAGATGTAACTTTAAAGGGAAATTACTTCTTTAAAAAAGGTAAAAATTTTGCTTGAAGTGAATATGATTATGGTAAAAATGGCTTTACAATTGTAAAAAACTATAATTTTTCAAATAAAAATGATTTTGAACCATGACAACGAATTATATTTAAAACATCAGATAGTGGATATGAATGAGGAAATTATTACAAAGTTTGAATTAACTTAGAAATGTTACAAAACAAAATTAAAATATCAAGTACATATCAGATTGCAGCTTATGGTGTTGGTGCAAGTAAACACTGAACTGCAGGAGATCTTTGCTTATCAGAAATTAAATTTAAAGCAAAAACTTCTTAAAAATAAAAAATTTTAAAAGACAAATTTAAAATTAATTATTCTTAATAAGTAATTTATTTAAAAACTCAAAAATATGAAATAAAAAATAGTTTTATGTTTTGAGTTTTTTTTTTTTTTTTATATATAAAAAAAAAAAAAAAGTAAGAGAGGTAAAAAAATGACAAGTACAGAATTGGAAAAATTAATGTCTTCTCCAAATTTATATGATTATATTACTAAGGAATTTAATAAAATAAGAGAGGCATTGCAAAAATTTAAAATTTGAGAAAAAAAAGAAGTGGATATATATCTTCAAGGATCACATAAAAATCATACAAGTTTAGGGCGTGATAGTGATATAGATATTGTTGTTTTTACTGATGTGACTTTCAGAAGCAATGTTAAATGTAAAATTAATTCAACTTTAAAAAGTGAAAAATTGGATATTAATTTATTATGATAGAGTATTTAGTCCAGGTGAGTATTCTTTTAGTGAATTTAAAAAGGATCTATTAGATTTTTTGAAGAAAAATACAAATTATTATATTGAAATTGCCAGGAAGTATAGTCTGAACAGATGGCATATGAGGTTATTCATATGTTACTGCTGAAGAAATTATTAAGGAAATTAAAACTACTAAATATTCTAAAAAACTTTTATTCAACTCAACTGACTATTCAATTTTAAAAACAAATAGTTTAGATAATCCAGAAGTTATATATTTGACAGTTCCAATAGAATGAATATCTAATGGTGGTAATTTAGAAATTAGCTTTGTAAATTAGAAAAATTTATTAGTTAAATTAAAATAAAAAAATAGAATATAAAAATTTTATAGGAATTTAATTATTAATATTATTTTAAATATTAGTGTAATTTTTTTAAAATAATGCAAGGTTATAAAAAGAATTCCAGCAAAAAGAATATTTATAATTTAGGAGTTCCTATTCATCAGTTTTTTGAGTACGTGAATATGATTTAAATTCTGGGGAGTTATTAAATAAAAAATACTGTTATTATTATGAAATTGTAAATATCTTAGAATTAAATAATAAATACAATTTAGTAATAGCTAGTAAACAAAAAGATAGAAATAAAACTCCAGAAGAGTTAAGAAAAATTAAAGAAGAATATGAAAGAATGAAAATATGATATGAAAATGAATATTCTTATGAAAATAATCAAAAACAAAACTCAATTAAAAAAAGAATATTTAAACATAGAAAAAGATATTGGATCTGATATTAATGCTTCTTCAAATTTAATAATTCAGAACATATTTTAAGATTAAAATTTTTAAAGAGTTAATGAGTTTAAAAAAATTATTTAGTTAATTATGACTAAAAAATTTTTACTTTTCAAAGATTATTTTCTAATTCGAGTTAAAACTTATTTTTTATTCAATTATGTCAATTAACTCTATTATGTCAATTATTTAAATTAGAGACTCTATTTATATAAATAAATAATTTTAAACTTATCTTTAAGAATAAAACTATTAAGATATTTTTCTCTAAAATATTTTTAAAATGCTAAAATATTTTTAGTAGATAATCTACAAAATGGAGGAAAAGGAATTGAAAAAAATATTAAGTTTATTAGGAGGAATGTCTTTAGTAATTTCTTCATCATCGACTGTTGTTTCATGTTTTAATACTAGACCAACTAATGATCATACTTTTAAAGATGAATTTGAAATATTTGATTTAGGAGCAATCTCAGGAGTTGAAGATACTCCGAGTGTAGAAACTATATATAATGGAATTGCAAAAGCACATGAAAATGTTGTAGATTGAAGATGAGCAGTACCAATAGAAGATATTTTGTTTGTTAATGAACCAACAACTGAGTCATGTACTATCAGAGTTGTTGAAGGTCATGATCAACCAACTCTTACAGGAGAAGTACAATTTACATATAATTATAAGAAAATAGAAAATAATGAAATTGACTTTTATTCAAGTGGTCAAAATAAAGGTATTATAAGAAGAACTGGAACAATGGAAGAAATTAGCAAGTTTTCAAATTTAGTAACCAATTGAGAGTGAATAGAAAAAATAAATTCAAGACCAAGTTTGGCATATACAGATCTTTCCAATTATGGCTCAACAGGAGGAACAGGATTATGTGAATATATTGCACTTAATATGCTAATAAATTATTCACAAGTTTTTGGAAAATATAATTTATATTCTAATTCTGATATAAAAAAATATTTCTATCAATTAGATTCTAGAGGTATATATCATTATGCAAGTGGTAGTGGTAATAAAGATGCAGTTCCTTATTTAATGTATAAAAAGGTATCAGATAAATACGGGGGAAGATGGTACGATATTAGAACAGGAAAAAGTATTAGAAAAATCATGAAAACATGATTAGGGGATTACTCAAAAAACTTAATTGATGATTATTCAGTTAGTTGATCACATACTTCAAATCCTGAGAATTGAATCAAAAAATATAACAGACCAGTCTTATTGTCATTTTTTGTTAAAGGTGATGCACATTCTGTAGTTATATATGGATATAATGAGTCTACAAATGAATATGCTGTTAATTATGGTTGACCAGGTAGTCAATATGGTAGACAAATAATTAAAAAATCAGAAATTTGATCTTATTTTAGTATGGGATTTTGATATGGTTTAAGAGATAAATAATACAATAAAATATAAAATTCACTATTATTAAATATACTAATATTTTTTAATATATAATAAAACAGTTCATAAGAGATATGTCAGAAATGACAAATCTCTTTTTATTTTTCTGACATATTATGAACAAATAAAAATATGTTAGGAGTATCAAAAAAATGACTAGAAATCCAATGATTCCAGAAAATACAAATAAAAGGAAATTTATAATATGACAACAATTAAATTTAACTAATATTAATCTTTCAATATGAATAATCTTTATAGGTTTAGGAGCAATATTAGGTTTCTTTTTGTGAAAACTAGAAGGAGTTTGAAAACTTATAGATATATTATTTGCTAGTTTATATTTGATTTCAGACTTCTTATTAAATACTAAAAGTCAATTTCACAATAAAAAATTTTATGCTGTTATATTTGATTGATTTTAATAAAGAAATTTAGTGCTTAAAAGTTAGTGTTTCACCAATTGAAAAATTAAGAGAAAATATTAAAGTTGATAGTTTAGAAAATAAAAAATCTTATTTAAAAAGAATAACAATCTTAAAATTTGAATAGATTCAGTTAGTAGTATTGCAAAAATAAGCTGGTAATATGAGAAAAAATAGAAAAAGAAAACTAATATATTTTTGTTGTAACAACTGAGACTCTAAAATTTTCTAGTATTTGAAAATTATTAAAAAATAGAGTATTAAACTCAAATAAAAAATTTTAAATAATTACTAAGTAATTTTAGAATCTGTATATAAATCTTTTAGAATTTTATAAAATAATAACTTAAAGTATAAAGGAATTTTTATTTTATAAATAATTTTATTTTTACTATAAAGCTATTTTTAATTTATATTAAGAGCATAAGATTAAAGTGTTATATAAATGTGTACACAAATTTTAAAAAGATAAATTTAAATACAAGAAAGAAGGAAAAAATATGAAAAAAATGTTAAGTTTACTTAGCTCTATTACTATTGTTTCATCAGGATCAAGTGCATTTGCAAATGCTACTAATCAAAAAATAAAAACAGAAAAAGTTATTAATTCAGAAAAGAACAGTGTAAATTGAAATAATGTAAGAAAAGAAACTGAATCAGTTTTTAAAGAAACTAAAGATTCTTTTAAAAAGAACTTTGAGATTAATAATTTTATTAATTTAAAGACAAGTAAAAATCAGCAAATTGATGAGAACTTGAAAAATGAAATGATTAACTATGCTCAAAAAGAAGCAAATAAGATTTTAGCATCATTTCAAGAAAGTAATTATCAGTTGGATACAATTATAGATATAATAAAAAATAATTATCCTGATTTTAAGCAGGAGTATGACAGAAATTTAAATAACATTATAAGTGATATTAAATTAGAAAATCAAACTGTTCATCAATTCAATAATTATCAAATTAATAATTTTAGTTCACAAGAGTATTCTCTTTCATCAGCGCAGCAAAATAATAAAAAACTAGTTTCCGATTTAAGAGTAGCTAAAGCAGCTTTAACAACAGGATGTGCAGCAGCAGCAATTGCCGCAGCAGGTTTTTGAGCAGCAGCATGGTGATTTGGAATTTCTACTCCTTGAGCAATTGGTTGTACAGTGGCTAGTACAGCATTAGGTGTTGCAAGTGCTGGAGTAGAAATTGCACTTGTTAAATATGATCAAAGTATGAACAAATGAATAAAATTTGGTACAATTTTGCAAGCTACATTAAAATTAGGATTAAGTTTAGCAATAACTAGTTATGTTATTCTAGTAAAAATGACTGCAGTAGTTAGCACTACAACATGATGTTTTCCAGCTGCAATTGCAATTTTAGTAGCTTCTGGAGCATTAGCAGCATGAATTAAATATACATATAAATAGGAGAGAATAATAATGATTTACGATATATTAATTATATTTTGTTATTTATTAATTAATGTTATTTTACCTATTGGAAGTTATTGAGTTTTTTCAGAGTTTTTTGATTTTAAAGTTAAAAAAGCAGATATATTTTTTGGAAATTTTCTTCTATTTAATAAGGAAAAAATGCTTCTATTTAAAGGCGAGAAATTAATGTTTTTTATTTCATACTTTATAAACTTTTTATTATTAATTACTGCATATATTATATATGTTATGTTAATTGCTTTACCATCAACAAATTTTGTTTTATATATATCATTAGTCTCTTTAATTTTTTTGTTAGGTATTCTATTATTTTGCCTCTACATATATTTAACTTTTAAAAAAATAAATAAATTTAAGTTTTATAGTAGAACCGAAGTAGAACTAAATTATTCAATTCCAAAAAGTAATGAACAGTATAAAACAATATTATTACTTGAGGGCAATAATAAATCTCCATATAATAATGTATTTAAGTTTCATCAAAATAGACTTAAGAAAAAATTAAATAAAGATATTAATAATAAAAAAGACAATTATAAGAACTACATAATTTTTTTGAGATATATCAGAAATTATAGTACTTTTATAGATAGAATTATTAGATCTAATAGAAATATTACTGTTATTTCTAATGATTTAACTATAAATATTGAAGAATTAGAAAAAGTTTTGGTGGAGAATTTTTATTCATTGAGTAGAGTGTAATTAAACTCGATTAAGTAATTTTTCAATATAAAATTAAATCAGAATACCAAAATAACTTAAAGTTTCTTTATAGATTATAAAAATTACTTTTAGTTGTTATTTTAAGTTATTTTTATAATTTAAATAAAAAAGTTGAAATTTAGTTTACTTTCTTTTAACTTTTTTATTTTTTATTCAATCACATCTTAGGTTGAATAAAAAATGTGGGGGGATAAAAGTTGAATTTTAAATAGAAAAGTGCTTTCCCAAGCACTTTTTTTGCGTTAATAATTATTGTTGGTTTAAATTAATTTAATATTTACATATCTCAAATGACTAAAACTTTATAAATTTCAACGTATTAATGCTTAAAAAGTAAAAGGAAGAAAAAAATGAATAAATCAAATATTACAAGAAATAACTACAAAATGTTTTGCCTTATTATTAAGGATTTTTGATTTAAAAAAGATATCCAAGGTTTATTGGATATAGTTACAAAAATTTGTTTCTTATACAAGCAAAATAAAGAAGTTTGAGACCTCTATAGAGATTATCAAATTATTGAAAAACTTGAAAGAAATCAATTTGCTGTTTTAACTTTTATCTGTAAAGATAATAGTTTTAGTGAAATAAAAAAGGAAATTTTAATAATTTCTTTAAGATATAAAAATAGCTTTTCTAATAAAAAAAAGCAATTTAAAGATGATTAAGAAGGTGACATTATGAAAGAATTTAATGTTGATCAAGATTTAGAATACAAATCTTTTGCAAAACTATTGAACTTTGAATCAAAAGAAAAGGGTTTATATATCTATGGTAAACCAGGAGTTGGAAAATCTACTTTCTTACTTAAATTTGCCAAGAATATAAAAAATCAAAAAATAAGTATTGATAATTTTCTAATTGATAAGTATAAAGTCATGTATTTAAATGTTAATAATTGAATAAAAGATATTCAGAAAAGTTGAAAATCAGAATATGATGATCCAATAAAAATAAATACTTCAGCTAATGTACTACTTATTGATGACTTAGGAAGTGAGTTTTTTCACAATTCAACTATGCCTTATATTTTAGATTTATTTGAATCTAGATATGAATTCATTAAAAAGAATCAAAAAGAAGTAATTACAATAATAACTTCTAATTATTCTGTTGAGCAGTTAAAAGAAAAATACTCAAAAAATCTAAGTGATCAAGTTGCACTTGAAAGATTGTTTTCAAGAATTGAAGGAGTTATTAACTTAAATATTAAATTTATAGGAAAAGATAAAAGAAAAGAGAATTCTTATTTAGAACGATAAAATGATTAGAAAAAAAGGTGAGAATTAAGATGTGAATTATGAAATATATTTTATCTACATTAATATCATTTCAAATTAGTTTGACTATATTTTTTATTATAAATTTTTCAATTTATTTTTTAGAAGGTAAAGTTGATTTATTTGTATACTATTTATTTTTAATTTTTTGAAATTTAAGTTTTATATTTTTAAATATTTTTACAATTATTGATTGTTATAAAAGTAAAAATAATTAAAGAAAAAAGAAATTGAAATATAAATTAAAAATAAAAGGAGGAGAAATTATGTCTAATAAATTTATATCGCCATTAACTTGACCTGGTGGAAAAGCAAAAAAATGAAATTTAATTAAATCTTATTTTCCTAAAGATACAAAAGATATGACATATTTTGAAGCATTTTTTGGTGGTGGAAGTGTTGGTTTAAATGCTTTAAAAGAAAAATTATTTAAGGAATATTATTTTAATGACATAGATTTTAAATTAATAATGTTTTGAGTCGGAATATCTGAAACTAATTGACTACAATGAAAACATTTATTTTACCCTAATGTTAAAGATATAAATATTTTAAAAGATCAAAAGGTTCAAGACAAAACAGTTTATTATTTAATGAAAAATAATTTAACATTTAATGGGCAACAATGGGGTACTTGAACTCAAAAAAGATTAGAACAAAATTGAAATTTAAATAAATTTGATAGAATAATAAATTGTTCAAATTTATTAGCTTATAACAGAAATAAAATAAATTGAAAATGTGATAACTTTTTAGATATTTTAGATTATGAGTGAAAATTTGATAGTAATACATTTATGTATCTTGATCCTCCATATTATTTAAATAAGGGAAAACCTTATAGATATAAATTTACAGTTGAACAATTTAATTTATTTAAAGATGTAGTTGATAAGCATTCTAAAATGGGAGTAAAGATTTTAATTAGTTTAGATGATTGTTTTGAAGTTAGAGAATTATTTAAAGATTATTACATTTATGAAGCTGAATGAAAGTATACTTCAACTAATACTAAATATCATAAAGTTAAATTAGGAAAAGAACTATTTATAACAAATTATGAGGTTAAAAATATAAATGAAAATGAAGACATTACCAAAATTTAATATAATAAGTTTTGAAGTAGCTTATTTGTTTGAGTTTCAAAAATGAATACATGTTTTTTGCAATAAAAAAATTATGGATATTAATGAATTTTGTTCAAAATGTAGTAAATCTTTTAAAAGTTTTAATTCAAATAATATTTTATTTTTTAATAATGTAAATAATTATAATGACGATACAAATATTTTATTTGAGGATACAAATACTTTATTAAATTTAAAATCATATATTAATGGTTCTGCTACAAAAGAATATTCCTTTTTATACTTTAAATCAAATTCCGTTTTTAATTTATTAGAAGATAATAAATTTTTAAGAATTTTTTATAATGAATTTGAAATTGAAATTAAAGTTTATAGAAATAATTTTATTGAATATTTTTGATTTTGCAATTATTACAATAATTTTATTATTAATAAATTAAATTTAGTATTTTATAAATATAATTTTACTAAAACGCTTAGTTTTGATTATAATCAAAAAAAATGATTTATTAATAAAGATAATTATATTAAAAAACATAATTTAATTTATTTTTTTGAACTATTAACAAATAATATTTTTGAATTAAATAAAAATATATTTTTATTTAATAAAGAAATAAATAAAAATTATTTAGAATTTTTAGAAAATGTTAGAAATTCTTTTTTAAAGTTAATTGAATATAAAATAAACAAAAATGAAATAATTAATACAGAAATGTTAAATTTTTATTTATATAAAAAAATTATTAAAACTAAAAAAGATTTTGAAATTAATTTTGAAAATTATAGAAACTTATTTTATTTACTTAAATATTTTAAAATATCGGTTATTTTAAATGCCTGAGATATTAATATTATAAATAACTTTGGTTTGAATAAATTATGACAACTAATATTTTTGGGTAAAAATTTTTATAAAAAACTAACAAGAGCTGAATTAAAAAAACTTGATCAACTAACAAATAAATACTATATTAATAATAATTTATTTAGTTATAAATTATATTTAACTCTTATTATATTTATTTCTTATTCAGGAGATATTAATAAAATTAATAAAGAAATTAATTGTTTAAAAAATTTAAATATAAATTTTTTAAACAATAAGTTTTTATTTAAAAATCAGATAAATAAAGAAAATCAAAAAATAGCATTATGATTTTTAAAATATTTAATTAATTTAAGTAAAGAATATAAAATTTTATTTTATAAATTTATTTTTAGATGATTAAAAGATAAATTAAATACTTCTTATGATTTATTTAATTTAATATCTAAATTAAAAAAAATAAAAAATTTAAAAACACATAATTTTATTGAATGTAATTTTTGTAAAAATAAAAATGTTAAAATATCTGATCTTCTATTACATTTAAATAATCTTAATTTAGAGAAAATTAATTTAACCGAATTAAAAATTAGTACCAACTTATTTAATTTTGAATTAATAACAACATACTCTAAATTTGAATTAGTTTCATTAGAGCTTAAAAATTGTTTAAAAACTAACTACACTAATAATTTTTCAGAATATAAAAAAAATCTATTTTTTTCTATATTAGATAAAAATTTTAATTTAATAGGAGCTGTTTATATTGAAAAAATAAAAAAAGAATGAGTTCTTAGAGAAGCTAATTCTAAACAAAATAAGGGATTTAGTAATAATTTTTTTAAAGATATAAAAGTTAATTTTTTAACAAAAATTAATAAAACATTAAATAACTTAGTTATAGAAGGGAAATAAAATTATGGCAAGAATAACAAAATATTGTTTTAAATGTAAAAAGAAAATTAAAGAATCAGATAAATACAATTCTTATAAAACTATTGATGTATTTGGAAATTCTAATTATGAAATTGTTCATAATAATTGCAGAACTATAAATTAGATTGAAAGGAGAAAATAATTGTGCCAAAAAAAGAAACCTTAAAAGAAATGTATGAACAATTAGAATACTGAAAAGCAGGAAAAGAAGCAATCAAATTACAAAATAGTCATGCAATTTGAATGTGAGAATTTCCAAATTTATCAGTTATAGAATACGATACCTTAATAAAAATTCAAAAAGAAAAAATTAAGAAAAGAAAGGCATTAAATAAAAAACTAAAAATAGCTAAATTAAATAAAGAAAGAGAGAGAAGGAATATATATGAAACTAAACTTAGAAACTTTAATTAAAAAATTAGACTTAGAAACTAAAGAAAAAACAACAGATAAATTTTGAATAGAATCAGCTAAAAAACTAATAATTGATAATTTTGAAGAAAATATAAGTATTAAACAACTAGAATTAAAAATTAGTAATCTAAAAGCAAATAATGAAAATGAAACTTCTATTATAGCACTAGCAAAAAGTATTTTAAAAAATAATTAAAGCACATTTTTTAAAAATAATGTGCTTTAATTAATATTTACTTTACATCAATTTTTTTCAAAAGTCTGAGTTTTCATACCTACATGTTATTTTTGAACCCTCTATGGCTTTTTCTAAACCATCTGTAAAACCACATAAAATACAATTACTACAAAAATTAACATATATATCACCATTTGGATCAGATTTTACATAAAATTGACCCATTAATTCTTTTTTTGTTTTTACTTTACACATATTTAGTGAACTAAATTTGCTTTCGTTAAAACCACAAGAATAGCATATTGGAATGTTTTTATTAACTTTGTATTCTTCGTAATATTTATTATTTTTTATTCCATTAATATCCATTTATTTACCTCCTATCCTTTAAAAATTATATCAAAGCTAAACATAGAAAGAAGTTGATTAAATGACTAAACTAGTTATATTGGAATCTCCAGGTAAAATTAAAAAAGTAAGTCAATTTTTAAAAGAAATTGATAATACCAATAATTATATTGTTAAAGCTTCAATTGGACATATAAGAGAACTTGCAAATGTTGGAAAATATCAAATAGGTATTGATTTAAATAATATTGAACCAAATTTCATAGTAAGTAAAGAAAAAAGAAAAGTTGTCAAAGATTTAATAGAAGTTTCTAAAAATGTTGATGAGATAATTCTTGCAACAGATCCCGATAGAGAAGGTGAAGTTATTTCTTGACATTTATATGAGGTTTTAAAATCTTATAATAAAAATTTTAAACGTATGAGACTTAATTCAATAACAAAAGATTGTATTAAAAAGGAATTGAATAATTTGGATAATATTAATATTAACTATGTTAATTCTGGTCTTTCTAGAAGTTACTTAGATAAAATAACAGGTTATATATTGTCTAGAATTTTACAAGATAACTCTATTGGCTTATCTGCAGGAAGAGTACAAAGTTCTGTTTTAAAATTATTGTCAAATAGAGAAGAAGAAATTCAAAACTTTGTAAAAGAAGAATGATTTATTTTACAAGATACTTTAAAAGTTAATTTTAAAAATGTAACTAAAATTAATAATAAGTATGAAACTGTAAAATATAATTCATTTCAAGAAGCTTTAAATATAAAACAACAACTTAATAATTATTATATTGTCGAGTCACTATTAGCAAATGAATTTCAAGATAAACCTTTTATTAATTTTACAACTAGTGATTTTTTACAAAATGCAAAAAATAAATTAAAGTTAAATGTTAAAGAAGCAACAAGTACTGCTCAGAGTTTATTTGATAAAGGACTTATAACTTATATAAGAACTGATTCAACAAAATTGGATAGTGAAACTGAAATTAAATTATTACAATTTGTAAGTTCTAAATTTGGAAATCATTCTGTTGGAAAAATTCATTGTAAATCAGAAAAGGTTACTGATCAAGAAGGTCACCCTCCAATAACTCCTACTCATTTAGAATGAGAACCAGAGAATATACAAAAAATATCTGTAGAGAATAATATTCAGCTAACAAATAAAGAAATTGATGTTTATAGTCTAATATGAAAAAATACTGTAAATTCAGCTTTAAAACAACCAATAGGAACTAAAAATACTTATATTTTAAAAAACCAAGATAAATATTTTTTAGGAGAGACTAAGGAGTATATAGAATATGGATACTATAATTTTGATAAAAGTTTAACTACTCCAGAATCTCAAAATCTTAATTGAAAAGTAGGACAAAAAATAGAAGTATTTTCAATTCAAACAATTATGCAGAATTCAAATCCTAAATCAAGATTTAATGAAGCAACTCTAATAAAGGAACTTGAGAGATTAGGAATTGGAAGACCAAGTACTTATAAAACTTCTGTTGAGATAAATCAAAAAAGAAAATATGTAGAAACTGACGAAAAAGATTCAATGTTAGTTACTAAATTAGGAATTCAAGTAAATAAATTTTTAACTAAAAACTTTAGTGAGTTCATAAATTTAGAGTTCACAAAAAATATGGAAAAAGATTTAGATCTAATTGCATGTGCAAAATTAGATTACAAAAATTATATAAAAGATTATTTCAAAAAATTAGAAGAGAAAGGAAAAGAATTTATGATAGAACAAATTAAATGTCCAAAATGTCAAAATGGATTTATAAGACAAGCAAAAACTAATACAGGAGTAGATTTAGGTTTTAAATCTTGCTCTAATTATAAAAACTGTGATTTTAAAGATCAACCTGAGTTAAACTTAGAAAATGCAAAAGATTGTCCTGGATGTAATAATGGAAAAAGATTTATGAAAAACTATTTTGATAAAAATGAAAACTCTATGAAACAATTTGAAACATGTACTAATTATCCAAATTGTAAATGAGTTCCAGGAGCAATTCAAAAATGTTCACTTTGTGATATAGGCTGATTAATTGAAAGAACAAAAAAAGATAAATCAAGTAAATTTATAGCATGTAATAATTATCCAAATTGTAAATTTACTCAATTTTAAAAATAAAGGAGAATAAAATATGTCAGCAGAATTTACATCAAAAATAAATATTATTTCTAATAATGAAAAAGATATTGTAAATTTTGTAAAAAAGAATATTGAATTAATAGAAGCAAAATATACAAACGTTTTATATTTAAAAATAGATACATTATTTGAAATTACTGAAGAAAATATAGATTTAATAAAAGAAAATGAAATTTACAGTATTAAATTTAGTGGGTTTGCATTTAGTAAGAATTGCAAAATAAATTGAAATACTCAAACTAAATTTATTAATTCTTTAAAAAAGTTTAATTGTGATGCTTATATATTTCAATATCATGATGCGTGTTTAAATAAAAAAGAACTTGCAAGCGAATATAAAATAGGTAAAAGTTTTGAAATTAAAGAAAAAGTAATTGAACTTTTAAAAAGAATTAGAAAAAACAAATAAAAAATATTATACAAAATAGAAAGAAAGTAATTTAATGAATAAAGTTGAAACAAATGAAAATAAGAAGGAAATCATAATAACAAAAAGAAACTTTGATTCTACTAGATTATGTAGAAAAGATTTTTTAAATGATCAAGATTATAAAGAATATAATAGTTTTATTAAAAAATTTTCAAATAATACTAAGTATTATTTTAATTATAAATGTATAAATTGTTTAGGTAAATTTGTAACTTATCATTGGGTTTTAAAATGCCCACATTGTAAGAAAAGTTTAAATAGTTTAAATAGTTACAAAACCCAAATGTATCAAAATTTAAAAGGATATTGAGATAAAAGAAATATTCAAATTAGATTTAAAAATACTAGTATTTATTAATAATAAAATTATATTTTATAAGGAGAAATTTATGAAAATATTTAATCAGTTAGATTTTTCTAAAGAAATAAGTAATTTAGAAATTTTAGAAAATAATATAGTCAATAAAAACTTTGCTAAAAATAGCATTTTAGTAAGGTGTTTTGATGTTAAAAATGAGACTTTTCTTGAAATAAGTTTTGCTAAAGGAAAAAAAGTAAATAATGGAAATAATTCACTTTTTAAAATAATGCAAGGTTATAAAAGTAATTCTAATAAAAAAAGTGTTTATAATTTAGGAGTTCCTATTCATCATTTTTTTTGAGTACGTAAGTATGATTTAAATTCAGGAGAATTATTAAGTAAAAAATACTGTCATTATTATGAAATTGTAAATATTTTAGAATTAAATAATAAATATAATTTAGTAATAGCTAGTAAACAAAAAGATAGAAATAAAACTTCAGAAGAGTTAAGAAAAATTAAAGAAGAATATGAAAAAATGAGAATATGATATGAAAATGAATATTCTCATGAAAATAATCAAAAACAAAACTCAGTTAAAAAGAAAGAATATTTAAACATAGAAAAAGATATTGGCTCTGATATTAATGCTTCTTCAAATTTAATAATTCAAAATATATTTGAAGATTAAAATTCCAAATAAGTTGATGAGTTTTTAAAGAATATTTAGTTAATTATGACTAAAATTTTTTACTTTTCAAAAATTATTCTCTAATTCGAATTAAATCTTAATTTTTATTCAATTAAGTCAATTAACTCTATTATGTCAATTATTTAAATTATCCAAATTTATTGTGCTAAAATTATTGAAATAAAAATAATTTTTAATTTATTTTGTTTTTAGTAAAAATAAAAAATGTATAATAAAAATAGTTCACAAGAGATATGTTAGGAATACTGACAAATCTCTTTTTATTTACTTTCTAACATATCTTAAATTGACAATTAGAAAGGAAAATAAAAATATGGGTATGTTTCAAGGATTAATTAATTATATTTTATGATTACCATGTAAATGAATTTTACAACTTTTAAATGCTGTAAATGATGTTGTAAAATATTTAGCCACAGATTTATTTGAATCAATACTATTTGGAAATAAAGTAAGTGATTGAAATCAAGTTTTAATACCTTCAACTTATTATCGAATATTGATAGTAGCTGCTGTATGTTGATTAATATTTTTAGTATCAACATTTATTTGTCATTTAAAAAAAGATATTATTGAACATGAAGAAACACCAATTACTAAAAAAATTATGGAGTCTTTAAAATACTCTACATTTTCTGCAATTTTGTTAATATTTATTCCTTTATTTGTTTGAATTTTAGTAAAAATGACTTCAGTATTAACACAAGGTCTAATGATTGCTTTTGGTTCAAAAAATACAAGTATTGCTGATTTACTTTACAATATGGGAAATCCAAACTGAGATGGAAAAATAGTAGAACAAAATGGAAATTATCCTGTTCCAAGTAATTTAACTCAATGAAATATGGTAGTAGAATTAGTAGGATTATCTATAGTCTTTATTTGTCTATTATTGGTTATGATAAATATTGTTACAAATACTTTTGCAACTTTCTTTTATTTCATATTAACTGGTTTTTATGCTTTAACTGCAGTATTTGACCAAGGTGCAAGAATGAAAGATTATTCCAAAACTATTATTGCAAATAACTTTATAATTTGCTCAACTATGGTTATATTTAGTGTTTATTCAAGTTTAATTCAAATATCTTTTAACTCTATGAGTAAACTAGGAATGAATGGATTTACAAAAATGTTATTACAACTTGCATTAGCTTGTGGAGGAGGACTGTTTGTAGTTAATGGAGATCAATATGTTTCTAGATTAGTAGGAGAAAATATTAGTGGTGTAAGTAGTGCAATGCAAGGATTGGGTGCTTTAAAAGCAGGAGCAATGTTAGCAGCGGGTTTAGGAGTTGCAGCTATGAAAATGAGTAAAAAAGGTTTAATTGGTAGAAAAAATTTTAGTAACTCATTAAAAAATGATTTAAGTAGTTTACAAGGTTCTAATGACTCTATAAATAATCAATCAAATGAAGAGTCTTCTAATGAAACTGTTCAAAATGGAACTCATCAAAATAAAATGCAACAAGCGAAAGAGAATTTTGTTAAAAATAGACAACAAGCAATGTCAAAATATCAAAAAGGTGGTATTTTAGCTTTAGCAGGTTTAGGAGTAGCAACAGCATTTCATGGTACAAAAACTGCTAAGAATTTAATAGGTTCATTTGTTGGTACAAAAGCAAGTAGAATGATGAGACGTGAACAGTTAAAAGAACAAACTAGAACTTTAGGGAAAGGATTAGCAAATGTTGGAGCAAAAACCTTAGGAGTAGCAGGAGCTACTTTTGGAGGAGTTGCAAAAATGACTGGATTAGATGTTACAAGAGGTAAAATATTAAATGAGCGTGGTAATGTTTATAAAAATGCAAAAGCTGAAAAATATAATGAAAAATTAGAGTCTAAATTTAATGAAAAAATAAATAAATTTGATGCAATGACATCTAATCAAATAATAAATAGTAATGGAATTAATAAATCAAAAGAAATTAAAAAGGCTAAAGAATTATTACTTTTAAAAAGAGAACAAAGAGTCTCGTTAAAAGAGTTTAAAGAAGATTTTTCAATTAAATCAAAAAAATGAGAAAAATATGCTGATAAAGAAAATAGTGATAATAAATAATTTCACTATTTTTTTTTAATTCAGGAGTTATAATTATTAAAAGAAGGAAAAAGGAAAAAAATTTATTTATGGGACAATCTTTGTTAAGCAGGTTATTATTTGGAAATCAAGATCCAGAAAAAGTTGCAAAATATAATGCACATCAAAAATGAATAAATTCTAAACAATATAGAGATTTAGAATGGCAAAGAGAAGCAAACAATGAAGCAAAAAAATTAATAAGAAAAATACTTTTAATAAAAAAATTATCTAAATCTAATTCTGATAAATCTAAAGTATTATGAAATAAATTTTGTGAAAAAGAACCAAAGTATTTTTTAGATACTTTAAATGGTTTTAAAAGAACAATTCCAGAAAGAGAAAGATGAGGATGTGACAAAAAAACTATTGAAAATTTTAAAAAAGGATATACATCTCTTAAAATATACCACTTCAATATGTGACTTTCCTATGAAATTCTAAGAAAAGATAAAGTATATGAATGAATTATGTCTCCAAGAACAAAAAATGAATTTGAAAAAAATAATCAAGAATGAATTGAAAATAAATATAGTCCATGGGGATATAAATTAAGTGAGAAAGAAAAAAATAAGAGGGAAATTAATAGAGAAAAAGATTTTGATTATTTAAAATATTTAAAAGAGCAATTTTATATTCCATTATTAATAAAAAAACAAATTCAGTTTGGAGTTTATAATTTGATTTCAAAAGAAATATGTCATTCAGAATTAAAACAAGTTAATATTAATTCCAATGAACAAGTTGAAAAACAATTAAAATTATTAAAGCGTCAACAAGAAATTTTAGATAGACAAATTGAGTTGGAAAAATTAAAAGATAGAAATAATAATAGAGGATAAGAAAATGAATAATAGTATTATAAAAAAATCATTTATAAAACAATTCGCTCAAAAAATATTAGAAAAAAAAGCTTTAGTTTTTTTGGGTTCTGGAATAAATAAAGAGGTTGGTTTACCGGATTGAAAAGAATTAATGCAAGATTTATATGAAGATTTGGATATTAAAAATAGTGAACAAAATTACATTGATTACATTGATTTAGCACAATTTTTAATACATTCAACTAACGGAAGACATGATTTAATAACTAAAATTTTAAAAAAAATAGATATTGATAAAGATCCTGGACCAAATCTTTTAGAAATTTGTAAATTACCTGTAAAAGAATTTTGAACAACGAATTATGATAATTTAATTGAAAAATCAATGCTAAAATTGAATAAAAAATATAAAAAAATTGTTACAAAAAATAATTTTGCTTTTTTGGAACCATATTTAACTAATATTTATAAAATGCATGGTGATATTGAAAATGAAAATAAAATAATAATTAGTAGAAAAGATTATGATTCTTATGCTAATGAAAATTTATTTTTTTGAAATAAATTAACTCTTGAATTAAGTTATAAAAGTTGTGTATTTGTAGGTACATCATTTAATGATTATAATCTTAATATTATTTTAAGTAAAATTTCTACTTTATTAGATAAAGAAGAAAAACCAAATCATTTTATTTTTTTTGAAAAAGATAAAAATGAGGAAATATTTAAATTACAAAATTATAAAAGTATTGATTTATTTAAAAGATTTAATATAAAAACAATATGATTAGAAAATTGAAATGAACTTCAAAATATTTTTAAAGAAATTAATAATAAAATTATAGAAAATAATATTTTTATTTCAGGTACTGCTATTGAATTTAATAACAATTTTAATAAAAAGGAAGCTAAAAAATTTATTTCTGAATTAACTTATAAACTTATAGAAAGACAATTTAAAATTTTTAGTGGATATGGAATAGAAATAGGAGATAGTGTAATAACAGGAGCAATGTCAAAAATTTTGGAAAATAGTGAATTAGTAAGTACCGATAAATTAGAAGTTTTACCTTTTCCACAATTTGTGAACGATGAAAATAAAAAAAATGAAATATGACAAAAAAATAGAGAGTATATGATTTTAAATTCTAATGTAGTAATTTTTTTATTTGGAAATAAAAAGGACAAAAATTCTGAAAAAATAATAATTTCAAATGGAATGATAGATGAGGAATTTAAAATTGCTAAGCAATTAGGAAAAAAAGTAATTCCTATTCCAATTACTGGTTATGCAGCTTTTAAAATTTTTGAAAAAATTGAAAAAGAAATAGAGAATTTTCCTTATTTAAAAAAACATATTGATACTTTAAAAAATACTAGAGATATAGATCAAATAATAAAAATAATTGAATCTGTAGTGGAATTTTAATTTTTAGAAAGGAGGTATAAAATGAAAAAAGTATTTTATAGTTTTGACTATGATGATAATTGAAAAGTACAACAAGTTCGTAATATTGGAGTAGTAACTAATGAAAATGTAGTTGAACCCTCAAAATGAGAAACAGTTAAAAGATCAGGAAATGAAGCAATTAAAAATTGAATAAATAAGGAAATTAATAATTCTGATGTAGTTGTAGTATTAATTGGTCAATATACTTATAATAGTAGATGAGTTAAATATGAAATTCAATATGCTTTAAACAGTGGAAAAAAAATTATAGGAATACATATAAATAATTTAGGAGATAAATATGGTCGAAAATGCTTAACTGGAAATAGTCCTTTTAATGAAATAAATGATTATAGAGCACGCTCTATTGAAATTTTTAATCCATCTATAAGTAATGCATTAAATGAAATTAAAAGTATACTTTTAAAATTATAAGTTATATGCTAATAAATGATTTATAAGAGATATATTAGAAAATTAATAAATCTCTTTTTTATTTTTTCAATAATTATTTTTATTATAATTTTTAATAAAAAAGAATAGACAATATATGTCTATCCTAATAATTTATTATTTCTTTTTTGATTTATTTGTTTTTGTCTGAGATAATGCACTTCCTGCAATACTTTTAGTTCTTGCATTAGAGCGCCCATCTCTTAAAGCAGCAGAAGCTTTTGTTGCAACTGATTTACTTGTTTGTTTTTTATTTGCCATTATTTCAAAACTTTTTTTGTTATAATTAAATTATGAGAATTAATTAATTTTCATAATTTTCTTTATGCTTATTTTTAGAGTTAAGCAATCATTTTGTTAAATAAACTAAAGTTATTGGGATTGATATTATTGTAAGAAATATTAATCCTATTTTTATTTCTATATTTGCAAATTGATAACTAATACATAAAATCAAATTAATAAAAATAAATAATAAAAATTTTTTAAAATATTTGTTAATAATTTAAACCTCCATTTCTATGAAAATAAAAAGGTTATACACTTGTGTCTATAACCTTTAGTTAACTAATAAGAATCTATATATTAAAATTTAAACATTTTTACTAAAAATCAAAATATTTGATATAATAATTATGTCTAGATTTTATTTTGAAACCTATCTAGCATTTCAGGTTAAGCATCGCAAGTGCTTAACTTTTTTATTTCATAATTATTTTAACATACTATAGTATTAAATATTTAAATTTATATATTTATTAATTTATTTTATATTTGACAAAAATTTAAGTAAATAAAAATTACTTATAAAAGTTTAAACTAATATATAATATTAATAGTTCACAAGAGATATGTTAGGAATACTGACAGATTTCTTTTTTTATTTTCCTAACATATTTATGAGCAAGGAGGAAAATAATATGACTAGAAATCCAATCATTCCAGAAAATACAAATAAAAGAAAGTTTATAATATGACAACAATTAAATTTGACAATTATTGATCTTTCAGTATGAATAATCTTTATAGGTTTAGGAGCAATACTAGGCTTCTTTTTGTGAAAACTAGGAGGAGTTTGAAAACCTATAGCTATATTATCTGCTAGTTTATGTTTAATTGCAGGCTTCTTATTAAATACTAAAAGTCAATTTCACAATAAAAAATTTTATGCTGTTATATTTGATTGATTTATATTTTTATTTGTAAATAAAAAATACAAATTAAAAAGTAAAAATAGTACTTTAAATTTAATACCTTATAAATATATTGAAGGAGAGTACATTTTATTAAAAAATAAACTCTACATGAGTTTAATAAAAGTTCAAGGAAACTCTTTTTTTGACTATGAACAAATTAAACAAAATAATATATTAGAAAAAATTTGAGAAATTTATAATAGTTTAAAAATGGGAGGAAGCATAATAAAGCTTGATGAATTAAAATCAAGAAATCAAAGCTTATTCTTTTTAGAAGAGAAACGTCATGAATGAGAAGTAAAAAGAAAAAATGGAGAGATAAATGACAAACAGTATTTTTCTAGAGTAAGATTAATTGAAAAGGATATTGAAAAATATTCAAATTTTGAAGCTAATAGTGTATTAGAATGAATTGAAAAATCAATTTATATTGTTTTTTATGCAGAATCAATTGATCAGTTAAAACAAATGGAGAATAAAATAATTAATGAATATAGAAGAGCAGATTTAAATGCTCATAAAATAGACATATCTAAAAAAGTTAATGTTTTAAATAAAATAGTAGATATTGATATACTTGATGATAATGAAAATAACATTTTTAAATATAAAGATACTTTAGATGAATACTTTGCATATGATAGTTTAGAAAATAAAGCATCCTACTTAAAAATTGATAATAATCTTAAAATTTCAATAGGTTCAGTTGATCATTATCCAGGAGAGCCAGATTGTGGTTGACTTGGACAAATCTTTAATGTGGACAGTCCTGTTATAATTAACTTTAATAAAGTAAGTGACAAAGTTTTTCAAGAGACTTTGAGTAAAGCAAGAAGAACAGCAATAGCAACTGCTAATGCAACAAGTAAGAAAGAGATTTTAACACAAAGAAAGCGTCAACAAGAAATTGAAAAATTAGAAGAGTTTGCAGACACTATCGGTTATGGACATGATGAATTATATAAATTCAATATTTATATAATTAATAAAGGAATTAATAATAAAGAGTTAAATAGATCTATAAAAGAAACTAAGAAAATATTAAAACAACAGAAATTAACTTTATTTGCAAATCCATATAAACAAATTGAAGCATTTAGTGGTATGTTACCAAAACCTCATGATCCTTTAATGGAAATAAATGGAAGAGAAGTACCTTTATATTCATTAGTGTGAGGAATGCCTTACATTAACAATTCTTTAAATGATTTTCAAGGTTGATTTATAGGAAACAGTATTGTAGGAGATGAACTATTTTTTAATCCTCATATAAGAAATGAAGAAAGAAGAAATGCCAATATGTTCTTTGTTGCAACAACTGGAGCTGGAAAATCCACAACTATGCAAAGAATGCTAAAAAATGAGATATTAAATGGAAATAGAGTCTATGTAATTGATCCTGAAAATGAATACTCAAGATTTGCTGATTATTTTGGTGAAGACAAGATATTTTTAGGTGATGGAATTTATAAAATTAATCCTTTGCAAATTATGCCAACTTTATCTGATTTACAAAATGAAGAAGAAAAAGAAAAGATTGAGTACAATAAAAAATTTTGAAATATTGATAAAGAAAAAATAATTAGTAAAGAATTTAATTTAAATGAAGCTTTAATTTTAAATCATCAAAGTATCATAGAAATATTGTTTAAAAATTTCTTTAATGATATTAGTGAAGAAGATACACGTTATTTAAAGAATAAATTTTGATTCTTTTATAATTACTGATTAAATAATGCTTCAAATAAAAATATATTAGAATGAAAAAATAATGAATTTCCTATTTTACAAGATTTTTATAATTGACTAATTAAGAATAAAGAAAATAATAGTTTATATAATAAATTATTAGAGCTTTTAGAAGATGGTTTTGTTATATCTCAAAATGATCTTAAAAAAGGTAGTTATTCTATGTTTTATAATGGTTATACAAGTATTGATATTTCAAATAGATACTTAACTATTTTTGATATGAGTAGTTTAAAAGATGGAAGTGACAAAAGATTACTTTCAATGCAAATGTTTTTAGTAATTAAATTATTGGAAAGACAAGTAAAAGTAAATCATGGAAAAGAGTCAAATGTTGCACAAAGAATAATAGTTGATGAAGCACATTTATTAATGGACAAAGATTTTCCTATAGCTTTAGATTTCATTTTTAGAATGGTAAAAATGATAAGAAAAAGAAATGGGGGAATAACAATTATTACTCAAAATGCTGAAGATTTTCTTTCTAATGAAGAGATTGAGAAAAAAACTAAAGCTATTATTAATAACAGTCAATATGCTTTTATTATGAAATCAACTGCAAAAAATATTGATAAAATTGAAAGTTTATATTCAGACAATGATGGATTTACTTATCAAGAAAAGAGTCATTTAATAGATGCTCCAAATGGAGAAGGTTTACTTATTACTTCAAGAACAAAAAGATTTTTATTAAAAATTGATGTTCAACCAGATGATTTTAAAATCATTTCTGGAGATGAAACTGATTTAGTAAAGTGAACTTTAAATTATTTAACTACCAGGTTATTTAATATAATAAGTGGTTTAAAATTTATTGATATTGATCAAGAAAATTGTGTAGATGTTAATAGGGAAAAAGAAGAAAAAACTTTAATTATTAAGTTAAAAGATAATCACAAAATTAATGAGAGTTTATTAAAAAATAATATTGAAATTAATAATGTAAGAATTATTAATAACTCTTTAGAAATTAATTTTAAAGAGTTACATAAGGAAATTGCTATTAAATTTTATGATAAAGTAAGGAAAAAAATTGATTTAATAAGAGGAGAAAAAGAAAATGATATCTAGTACTAAAAAAGTTTATAAGAGTGAAATCTGTAATACCATTTTTCAAAAAACTAAAATAAAGAAAAAATATATAAATGTCATTTATGATGAAATTTTTAAAGAAATTAAAAATCAACTTTTAAAAGAAAAAAAACTTACAATTAAAAATTTTGCTTCTTTAAAAATAAAAAAATATAATAATTCATTTTTTAAAAATTGCTTATCTTTAAGAATTAAAAAATCTTGTAATGGGTGAAAAAATGAAAAATAAATATACTCAAATTTTAATAAGATTTAAAACAGATGAAGAAGTGGAATTATTAAACAAATTTAAAGCTATTTTTAAAACTAAAAGTGAAAGTTTTAATAAATATATTAAAGGCATTATAATAAATATTATTGAAAATAATTTAGAAAATAAAGAAATAAATAAAACAAAAAATAAATTGAAAGATAATTTTAGTGAAATTTTAGAAGAAAATATTATTCCAAGATTTTATGGAATGGTAAAAACCATAAATGAAAAAAATTTAATAAAAATTGAATTATTAAATAGAAAAGTAAATTTCTTAATTCATGAATTAGGATTTAAGAGAATGATTGATGGTAGACCAATAATTAATGATATTACTGAAAAAGTAAAAGAGAAAAATTGAATGCTTGAAGAGGAATTAAAAATAAATGATGAAATTCAAATAAAAAAGAATTAATAATATATAACTTTTCTTTCTACTTAATATAAGTTTTTTAGAATTGAAAATAAATTAATTAGAAAATAGTATAAAATATAAATAGTTCACAAGAGATATGTTAGGAAACTAACAAATCTCTTTTTTTATTTTCTAACATATTTTTGAGAACAAAAATATAAAGGAGAAATAAAATGTCAGTATATACAAGAAGTAACTTAACAGATAATTTATGAACAGCTGGAGAAATCTGAATACCAAATGAAAAGAAAGAGCAAAAAAACAATTTTATAGCAGTTAGCGGTTTTGGTGTATCAGTTTTTAATGTAAAAGTTATAGAAAATAAAGAAAAGAATAAATATCAAGTAGTTTTCTATACTTTAGGAAAATACAAAGCTTTAATTGGAGAATGTACTTATCAAGATGCATATAATGAAAAATTAAAATCTAATGAAGTACCTTTTATATTTGGAATTTATGATTCAAATTATAAAATTGATGATAAAAAAACTCAAGAAGTTTTTAAAAAACTACCAGAGGAATTAAAAAAATTAACTAATAGATACAATGAAAAATATGTAAAAAATCAATTAAAAAATGTTGATAAAAATATAGAGAAAGAATATTCAAGATAGAGGTGTTATAATATGGATAGTAAAAACATTATATTGTGTTTTTCAAAAGAAAACTATGAAATAAAGGGTTCTATGACACTTGATGAATTTAAAAAGTACATGAGTTCTCTTCCAAAAGAAGAAGCAATTAGGATAGGAAAAGCAATGAGAAAAGATGTTAATGAATATTTAAGTTTGGTTCCTAAAAGAGAAAGAAAAATTATAGAAAAACCTGTTGGACCACTTGGACCAATAATTGATATTGATCAAACTGATTGAAAAGAAAAATATTTAGAAGAAAAGAATAAAAGAGAAAAATTAGAAAAAGAATTTAACGAATTTAAAATTGAAGTAAAGCAATTAATAACTGAATTAAGACAAGAAATCAAGGTTTTAAGAGAAGAAAATCAACAGTTAAGAGAGAAAGTAGAATATTACGATAAAAAATATAAAAATGAATATGATAAGAAACATGATTTTTCTAGAGGGAGTAGATAGATATGAAAAAACTTTTAGCTTTAGTTTCTTCTATTACTTTAATAACAGCTCCAATTATTTATGTTACTAGTTGTAAAACATTTGATAATAATGGAACTGTTAATAAAGAAAGTGGAGATAAAAAAGAACAAGAAGCTATTAAAGAGTTAAAACAAACTGATACAAATTGAGATTATAAATATAAAAATAAACTGTCATATCAAAAAGCAAGAGACTATTATTTAAAAACAGCAAATGACTTTTATGGTAATTTTATTAAGAATTGAGTAGATGAAGGTAAATCAGAAAATGAAATATGATATTCATATGGTGATATTTATTTTCAATCAATAATATGATATGCAAATGAAGCACAATGAGATTTAGTTAGAATTGATGAATTTGATGGTAATTATACATATGAACAAATTGACATTAATCAATTAAAACAAAATAGTTATTCTAAAAAATGATTTCAACTTAGATTAAAAGTTTTAAATTTATATATTTCTTATTACTTGGGAGGAAATGAAGAAATTAAATCTCAAGGTAAATGAGGTATATATGCTATGGGTATGAATTCAGCTTTAGCAAGATATAAAACTGCTAAACAAGCTCAAATTGATAATCCAAGTGAAGGAGTTAATGTGACAGATTTACAAAAAGATATGAAATTTATAGATGATTTAACTACATTTTGAAAATTAAGATTTGATAAAATTCAGAAACTACATAATAAGATTAATGATATTTTAGTAAACTGAGAATAAAAATAATATATAATATAAATAGTTCACAAGAGATATGTTAGGAAACTAACTTAACTCTTGTTTTTTTGTTTTCTAGCATATTCTTTTTAAATAGAAAAGGTGAGTTTTTGAAAGAAAAAGTTTTAAAATACTTTGAACAAATAAAAAGTTTATGAAATCAGTTTTTAGAAAAGTACAATTTTATTAATGAAATAGATAAAAAGTTTTTATCTAATTATCAAAAAACATTAAACAAAATTGAAATTATAATAAAAAAAATTCAAATAATAGTTTTCCAAAAAGAAAACGAAAAAGTGAATCAAATAGATAAAGTTAAAGATAATAATTTTTTTTATGAAAAGGAGAAAGAATAATATGGATACACCCTTTAGCGAATATAAAAATTTTAAATCTCCTGTAATTTTTAAAATAAAACCAAAAGATAAGTTGGGAAAAGCTAGAAGTGATATTTCTAAAAGAATAGAATATTATTATTCTGGAAAAGCTCAAAAAAATAAGAAAACTAAAAATAGAACTTATTTAGATTACATAACACGAGATGATGCTATTTATAAATTAAATTTAACTAATGATGAATTAATAGATTTAGATAAATTAAGAAAAACTAATTCAAAAGAATATTTTAAAAAATTAGAATATTTAAAAACTGTAAAAGAAGAAGTAACTGGAGTTTGAAGTAAAGAAGGATTAGCAAATAATAAAAGATTAGAAGAAATTAAATCTAATTTATTAAAAATAAATCAAGAAAAACAATTTGTATGAGATACAGTTATTTCTTTTGAGTCTGCTTTTGTTGAAAAATACAAAATATATTCTCCTGAAATTGTTCATGAAGTTCTAAAAGATAGAATAGATATGCTCTTTAAATCTAAAGGTATTAACTCAGATAAAATGGAGTGATTTTTTGCTTTTCATAAAAATACTGACAATCCTCATGTGCATTTGTTATTCTTCGAAAAAGAACCTACAAGATTCTCAAAAGAGTATGAACCTAAATATCATTTTGATAAAGACCTTTTAGAAGATTTTAGATTTAGATTTGCAACTGATTTAATTTTAAAAAAGCAACATATAGAATATAAAGACTTTATGAAAAGCAGAGGAAATCTTGTAAATCATTTTAAACAAAGTTTAAAAGAACCAATAATTTGACAAAACTCTTCTTGAATGGATGTAAAAGAGATCTACAATGATTTAACAAATGACTATGAAAAAATAGTATATGAAATTAATAAATATAATTATGAAAATAATAGAGCTAAATTTAGAAAAGTAAATTCCTTAAAATACAATTTTTTAAATAAAACAGAAAAACAAAGAATTAATAAGATTATCGATCATATTTTAAAAAATGACAAAAATATTAATCAAGAGTATAAAACTTATGTAAAAAATTTAGAAGGTTATCAAAATGCAGTCAATGAGATAAATAATAATAAAGATACTAAATTCATGTATGAGTCACTTTATGGTAAGGATGGACTGTACTCAAGAATAGGAAATAGAATTTTATATGCAATAAAAAGAAATATGGATATATCAAAAAAAGGTATTATTCCAGCAAAGTATTATCCCAAAATAAGAAAAATAAGAATCTCTATCATAGGTGATTTATTGATTAAAATTTCTAAGTTAATAAAAGTTATGAATAACTATGTTTCATTTGAAGCAAATAAAACAGAAGAAATATTTAAAGAAAGAGAAAGAGCTAAGAATTAGATATGCAGATTTTAGAACAAATTATTTCTATAATTGGAGCTATAGTTATTCTATTCTTAATAATTTTTATTTGAAAATATTTAAAATATCAAAAAATACTTAGAAAAATGAATAAGGCTGAAGCTGATGAAATTACTATTACTGTATTTTTTAGAGTAAAAACTTATTATCGTTTTGTTCTAAAAAAGAAAATTAGATTATATAAATTAATTTTATTAATATTGTTAATTATTTTTGTAATACTTTTAGCTATTAGTGGAGGAGTTAAATATGCATAAGATTTCAAAAAAGAAAAGATGATTAGTTACAACAATTTTCTTTCTTATTGGTTTGATTATATTAATTAGTCTATTTTTACTAATTAAACATGAAATAATAAAAGTTAAACTTTTAATAAAATATAAAAATTTTCTACTTATTCCTTTTATTGCTTTAGTTGGATGATACTTTTATATAACTTGAAAAATAATATTTGATAATAAATCAAAAAGAGCTGTAAAAAATGTTGATACAAATAAAATTAAGGATTTTGGACTTGCAAGATGAATGCACAATGAAACAGAAATAAGTAATTTAAATAAACAAGAAAAAACCTTAAAAGAATTTCACCATTATTTTGGTTGTGATACTAAAAAATGTTGCAAACCTAAAAAAGAAATAATAAAAAAAGCTGCTTGAGTTATAAATTGTCAGTATCGAACAAAAGATAAAAATACTCTTGTTGCTCCTCCATTAGCTAAAGACTTTGAATATTATGATGGAGAGAACAATATTTTAGATACTGAGAAATATTTAAAGAGTTTAATAAAATGAGAATCAGAAATTAGCAAACATCATTTTAAATATAACATTGTATATCATACTTTAGAAAAACTTCATTTATTAGTAATGGGTTCAACAGGTAGTGGTAAAACTCAAAAACTTATTTTTCCTGGTATTATTAGAAATGCTTTTTTAAATAACAGTGAACAACCAACAATGGTAATTACTGACCCTAAGGGAGAAATTTATGAACAAACTAGTGGAATACTTGAATCTCAAGGCTATGATGTCAAAGTATTAAATTTTAGAGATACTACAACAAGTTATTCATGAAATCCTTTATACATTAGTTGAAAATATAGAAAAGAAGCTATTAATTATAGAAAAGAATATACTTTTGTTAAAACATTTACGAATTTAGTTACTGTAAAAGAATATATAAATAAAGAAGTAATTGAGTTAAATAATTCTCAAACTCAATTATTGTGTTCAATTCATGATACTAAAAACTGTATTGACTGTGTTGAAAACTTTGAAAAAGAAATATTGAATAGTGGTTGAGAAAAGGGAGAAGAAATAAAATTATATGTTTCAAATGCTAGATTTCATATAAATGAATATGACTTTGAAATAAAAGTAGAGAATCATATTAAAAATTTAAAATCCTTATCAGAAAAAGAGATAATGAACTTAGCAAGTATTATTATTCAAACTTCTAATAATGGAGATCCTTTTTGAGTTAATGCATCAAGAACCTTTTTTATAGGAATAGCAGTTATTATGTTAGAAATTATGGATAAAAATCAAGATGCTTTACCTTTAGAAAAATTCAATATTGTAAATATAATCAAAATGATGGATGAAACAAATTTTGAAGAATGAATAGAGAAATTTAAAGATGTAAAAAATAAAGATGGAGAAGACTCTTTTGGATTAAACCAAATTCTTACAGTAGTTAATTCAAGTGAACAAACTCAAAAATCAATTATAACAACAGCTAAAGCAGAAACAACTCTTTATACTTTTACAAGTGTTCAGGGAATGTTATGTAGTACACAAAACTTAATAAATATGGAAGAAATAGCTTATGGAGAAAAACCAACAATTTTATATTTAATTGTCCCTGACGATGATAAAACATTTCATCCTTTAGTAGCATGCTTTGTAGATCAATTATATAAAACTTCAGTTAAAGTAGCTACAAATAATAAAGTTAGTGGTAGATTAAAAGAAGCTACATTATCTAGACAAATTCAGTTTTATTTAGATGAATTTGGTAACTTTCCTAAAATACCAACTTTTGCACAAATGATTACTGTAGCTAGAAGTAGAAATATTTTCTTTATGTTAATTTTGCAAGATTATGGTCAATTAAAAACTGCTTATGGAGAAACTGAATCACAAACCATTAAATTTAACTGTAATGCAAGTATTTATATTAGAACTAATGATTCATCAACTGCAGATGAGTTATCAAAAGAATATGGAGAAAAACCAATTGTAGCTTTTAATATTAATGATAAGTTTAATAGAGTAGAAAAAAAAGATTATAAAAATAAAAAAGAAAAGGAAACTACTAATGTTACAACTGTTCCTTTAATTAGGGGAAATGAAATATTAAATTTAGATGATAATTTTATGATAGTTAAAAAAAGTGGTAAAAACCCTGCTTTGGTTCATTCAATATATTCTTATAAAGTTAAAAAGTTTAAAGAGTATATGAGTTATAAACGTAGTTTTGTTCCTTCTAATGCAATCAATTATAAGAAAAATCACTATTTTAATTTTATAGATAATGATTATGAAGAATGAATTAATTATATTGGAGCAGATAAAGAATTAGCAGAATGAGAATCTTTAAATAATTTAGATACTTTAGAAATAGAAAATAACTTGGATTTTAATAATAGTTCAATTGAAGATTATCACAATTATAATTACAAGTCTTTATTAGAAGAGCAAAATAAGAATATAGTTTTGCAAAAGCAAAATATTAAATCAAAACACTTAAAAGAAATAGTTCAGCAAGTAGAAGAAAATGAGGAACTAGATGATGAAAATGAAGAGTTAACTTCAATGTTTTATGACATTGAAGAAAAGTTTAGAAATAAAAAAAGTATGAGAGATCAAATAGAAAAAAATTATTTTAAATTAGAAAAAATTAAAGAAAGTTATTATAAATATTGCAATTTGTTACCAAATGAAATGACTACAAAACAAAAGCAAGAATATAATAGTTTATATGAACAACAGCTGAAAATAGCTGAAGAAAATAAAAAAATACTTGAGAGATGTAAAAACTCAAAATATTAGTTTATATATATTTATTTTCTTAGTTTCGGTTTCACCGAAAAAAATGATATCACTTAACATAGTTTGTGAGAAAATACTCCTTTAAAAAAGGGAGTATTTTTTATACAAATATGAAGTGATATCATTTTTTAAAGAGTGATATCACCATTTTTTCCATATTTTATATGGAAAAAATTAAGGTGTGATATCACTCTCTATCCTGCTACACTTCGTGGGAGCTAGTGTATAATATAAAAGTAAGAATAAAGGATTTAAAAACATGAAAAAGAATAATTATTCAGAATGAAATATTTTTGATTTACATTTACATTCTCCATTATCTAAAAACGATTCAAAAAATAAGGATATGTCATTAGATGAATGAACTGATAAGTTAATAGATAAATTAGAAAAAAATAATATTAAGTTAGTATCTGTTACTGATCATGATTTATTTTTAATTGATTTATACGAAATGCTTAATAAAAAAATATTGCAAAAAAAATTAGATATAAGTTTTATTCCGGGTGTAGAGTTAAACGTGTTACCAACTGAAAATTGAAGAGATAAAATAGATAAAGATTGACAAATTCTTGTTTATTTTAATCCTGATAATATAAATGATATTGATAGTGTTATTAAAGATATTATTAAAACGGCGAACAAAAACTTTGAAGTTATTTTGCAGAATTTGGAAAAACTTGATTGCATAATTGTTGGAGAAGGATCAAAAAGTAATGGAATTTTTTCAATTACTAAGGACGATGAAGAAACATCTGAGTTTTCAAATAATTATGTAAAGGAATATGGAACATTAGGTGTTTTATGAGGGTTTAATGATAGCCCAAATGGACATTATGCAACTAGAAATCGAATATTGAATTTAGTGGAAAAAAGTGATTCAAATTTTACTTTTGTAAATTTCAGTGCATCAGATAATCATGATATTAATGAATATTTAGAGGAGAAAAATAAAAATAATTGAAAGTTAACATATTTTAAAGCTCTTCCAACTTTTATGGGTTTGAAATTTGCATTATCTAATCAAAATCGTATTTCAGAAGTTAAACCAACTACAATATCTAGAAGTTCAAAATTAAAATCAGTAGAATTTAAAAATAAAAGTACTATTCAATTTTCAGAAGGTTTGAATATATTAATAGGACCAAGGTCTTCGGGCAAAACTTTTTTAAATACTTTATTAAATGCGTTAATTAATAATGATAAAGAGCAATTTAAAAAAGATGATTATAAAGATGAATTTTCTTTACTTGGTAATGAAGCTTTTATAAAAGATTTTAATGATAATAAATTTAACAAGCCTGGTTCTAGTATGTTAATAGAACAATCATCTATGATAGAAAAAGCATATGATTTAAAAACTAAAATAATAGAAGATTTTGATTATAATAATTTAGATTATTCAAATTTTGATGAATTAAATAAGAAAAATAAAGATTATATTTCAAATTTAACTGAAATGGTAAGTAAAATCTATCATATTTGCAATACTTCTAAGTCTCCGTTTGAGTCTTTAGAAATTATAGATGATAATATTGAAAGTGTTGAAGCTTTTAAAAATAAAATTATGATATCAATTAATGACGAAATAAATGATAATTTTTATAATGAATATGAATCATTAAAAAATAATGTAATAAATAATGATGTACACATAAATAAATTGAAAAAAAATTTAAAAGCAGATTTATTAAAAATTAAGGATATTGAAATTCAAAAAAATACTTTTAAACATTTTAATCTAAATATTGAAAATGCTAATTTTAATCCAGTAAAAGATGAAATATTAAAACAGATAGATGTATTATTGGAAATTAATCAAAAAACTTTAATTAGTATCAACTCTAACGCTTTTTTTCCTGAATTTATAAAAATCATAAAGTCAATATATACAGATTATGACTCTAGTAAATCAAATAATTTAATTAATAAAGACTTAAAAATTGCTGAACTTAAAGATTTAAATGCTGATTATAAAAAATTTGGAGAAATAGTTTCAAAGTTTAAAAATAGTAAACTGAATTTTCAAGATCAAATAAACGAGCAAGCAATAATTAAATCTTTTGGAGCACATAGTACTTTCATAGTTAAACAATATACAAAGCATACTTATAAAGAAAATTTATTTAAAAATTTAATATATACTGATTTTCTTGATATAGTTAAAAAAAATGATTCAATCTCAATAGAAAAGTATAAATTATTATTAAAATATTCCATTAGATATAAGGGAAAGTGTTTTAAACAAGAAAAGACGGATAAACAAATTAATGTATTAAAAAAAAGTTATGAAAGTATTTTCTCAACTAGTATATCTCATGATGGAATTGAAACAGAATCAAGTTCACCAGGAATGAGAGCTCAAATAGTATTTTTAACTAAAATTGATGATTTTGATAGTAATACTAATAAAAATATATTGTTTATAGATCAACCAGAAGATAGTATTGATAATGCATATGTAAGTAAAGAAATGGTAGAGATTTTAAAAAACAGTTCACGTCATAAGCAAGTATTCTTAATTACACACAATTCAAATTTAGTTGTGAATTTGGATCCTGAAAATATAATAGTTCCTACTAGAGAAAGTGATGGCTCAATAAAATATCAAAATGGAGCTATGGAATCTGAAATATATTGAAAGAATGGAGAAAAGAAAATGATTTCGATAATTGCAGATGAAGTTGAAGGAGGACTTGAAGCTTTGAATAAAAGAATTAGTAAATATGAAATAGGAGGTATTAAAAAAAATGAATATTAATATAAGTTTTAATGAAGATAAGTTTATCATTAAAAGAGATACTTTAAAATATGAAATTGAATCAGATGTAAAAACATTTACAAGTATTGATTTTTTAGCTTTTTTATATAATTTTGACAAAGATGATAAAATTATAAATAATTTATCAATTGATAGTCTTGATAATGAAAAAAAATTGGATATTAATAGAAAATATAATGTATTAGAAAATATCCTTAAAAGCTATTTAGAAGGAATTTTAAAATATTATGAAAAACAAGAAAGTACTTCATAAAAATTTCAAATAATATATAATATAAATAGTTCACAAGAGATATGTTAGGAAACTAACTTACTCTTGTTTTTTATTTTCTAACATATTTTTTAAGGAACACGAATTTCGGAGGAAATACTATGAAATTAAAAAAACTTATATTAAAGAATTTAGCAAAATTAAAATGAATAAAAAAAATAATAAAATTATATCTAATTTATTTAATAAATGATAAAAAAGTAAATATAGAAATAGATATTAAAAATGTTTAATCAAATTTTATTTTATTTTTCTATGGGAATAAATTTCTTAGCTGATTCAACTGAAGCAGGTATTAGTGGAGAGCCTATAAAAGAGTGAGTATTAGGTAAAGTTACTCCAATTTTAGGAATCTTTTCTTTTGCTGTAGTTATTTGTGTTGTATTTTGAATTGCAGGATTTTGAATAAGTTATGCAGTTGCAGATGAAGATGCAAAACAAGAAAAAATGGAAAAGTGAAAAAAGTCTTTAAAAGGAATAGTAATTACATTAATTGTTTGTACATCTCTAGGAACTTTAATGACTGCAATAGGATCAGTTTTTGGAGTATCTATAAATTTATAAAAGCTAAAAGTATTAGAAGAATTAGTATATAATAAAAATAGTTCAAGAGAGATATGTTAGGAGACTAACTTATTCTCTCTTTTTATTTTTTTATACCTTAATTTATGAAATTATAATTCATTTTAAAATAATAGAATAAGTTTCACTTAACATATTTTTTTTGGACAATATAAAGAAATATAAGGAGTGAATAAAATATGTCAAATTATATAAATACACCAGTGTATTCAAATCAATTATCAAAAAAACATATGAATAAAAATAATAAGGGTTTTTATTTCTTAAAATTAAATGCACCTGAAACTTTAAATAGTAAAACTATTAAAGAAAAATATGGAAATGTTAAAGCAATTTCTATTATTGTTCCAGATTTTGCTGTTAAAGGTTCAGTAATTGCAAAAGAGTCAGATAAAGTTTATAAACTAGATAAAGATAAAGAGGGAAAAGTTGTAGATTTTAATCCTTTAATTTTAGATGAAAATAAGAAAAAAGTAGATGGTAAACATATATTAGCTACTGTTTCTTTAAAACTACCAGAAGATGAAAAAGAATTAAATGATGAAACAAAAGTTAAAGTAGTTTTATCAGTTTTCAATGAAGAAACTAAAACTTATGAAAATAAACAAATGACTACTTCCTATAAAAAATTAAGTGAAGACTTATTCAAACAAAATACAAAATCAGTTTCAGAGTCAATTAAAAAATATAAAGATAGTGCTAAAGATATATTTAATGAAGCTGAATTAGCAAAAGAAATAGAAAAAGAAGAAAAAGTTAATAATGTGGAATATGATTTAATTGATGATGCAATATCTAGATAAAATATCCTAAAATAGCAAAATTCATATTTTGCTATTTTATTTACATATGAAAAAAGTAATATTAAGTTTATTTTTATTTATGAATTTAAGTTATGTTCCAATAAAACAGTTTAATAATAGTATTCAACAAAAAGAATTAAAAAACAATTTAGAAGACATTTCAAATTATAGTTATGATCCTTCATATCCTAGTTTCAATTTATATTCAGATTTTTATTCAAGAACTCAAAGACTTTATATTGATAGTGGTAAAGATGATTCATTGCCAAATTGTTCAAATTGTAGTGATCAAAGACGTAATAGAGTTAATAATGGAGAATGATATTATTTTGAATGACAAGCAAAGGAAATAAATGTACTAAACTATGCTCCAAATAAACAAGTTTTTTTAGATAATTATAAAGAGATTAAAATTAGTTTTTATTATAATTACAATACATGAGATGGAGGAACAGGATGAAGTGATAATGATGAAAAAAATATATCACCCAGACTAAATAAAGATATAGATTATAATTTTTCATCAAATAGTGGATGAATATATGCACATTCTTATCACAATGAAATTAATAAAGCTCATTTACAAATAGAGTTTGGACATTCATGAAGAGGTAATAATTTAATATTAAAATGAAAATTAGGAGCTTCAGTATATTGAAAAGGGGGTTCTTGATATAATCACTCTAGTTTTGTCATGTTAAGTAAAGATTCATTTCAATTTAAATCAAATTTTAATCAGAATAATTTAAAAAGTAAAATACAAAGTGCTTTGTCTAAAAATTTTACTATAAAAAGTGATACATCTCCTGATGTTAGCAATAATGAAAAAAATGGTTTACCTGGTAAACCTTCAAAATCCAATAAAGAATTAGTTATTTCAGAAATTGATAAAAGATTAAGAACATCTTTTGGAATAGATTATTCTGCTTGATTTAGCAAACCTATTTTAAAAAGAAATGATACTTTTAATGATGAGAAAAGTTATGTCTCGATAACTTTTAAAGATGAACAACAAATTTCAGGTTCAAAACAATTTTTAACAAATGTTATAATGCCAGTTAATATTACTTTAACTGATTTATATTATCAAAGATCCGCACAAAAAAGACTAGTAATTAATCCTGGGAAAATTGTTAATCCAAATTCTCAACTTAATGAATTAATTATTGATAAACCAGAATATGATGCTAAAAATAATACATTTGTATATCATAATTCTATTGATGTTACTTTTACTGCAATAAGTGAATCTGAAATCTTAACTGTAAATGGTCAAGAAGTTCCTGTATTTAATAATATCTATAGAATTAAATTAGATAATAATTTGAATACTTATAAAATTGAAGTAAATGGTATTAAAAATTTAAAAGGTATTACAAAACTAAATTTAAATATTAATATTCAATCTCTTGCTAATAAATTAAATTATAGGTGAGTTGGTTGAAATCCTAAAGAAAATTTAGAACAAAGTAAATTAATAGAAAAAACTTTAGGAGATGGAAAACCAAATCCTGATTATGATCCTTCCATTAATTCCAAAACTGGAATGAGAAATGAATATATTTATATTGAAAGAAATATGAAATTTCCTTTTTATCAAGACCCCTTAGATAAATTTGGTAACATAATAACTGATTATAAAAATATTAATAAATCTATAATAGCTGAAGCAGCTGTTGCAAATAGTGGAGTTACATTATTGGAAAAATTTGATAAAGCAAAAATTTATAGAGTTGATAGATTAAAGTTAGATGAAAATTTTAAACTTATCAGTAAACAAGAAAATGTAAATATAAAGGAAAATGAACAGTGATCAATAGAGGGGCTTTGACATTATGTAATTTATTTACAAGATTATGTTAAAGAAACTATTGACCCTTCAAATCCAGGAAGTCAAAATATAAATGCAACTAAGGGAAGTACTATTCATAAATTGCTTTATATTTCCAATAAATCAAAAGATTATACAAGATTTACAAGTCTTGATTTTGTTTCAAAAAATCAATCTATATTTAAATTTTGAGATTCCTTAGCTGGTATTCATTTAAAAAATTATCTAATTTCTTATACAACTATAAATACAAGTCAAAAAATTGAAGATTTAACTTATGAACAAATTATTATGTATTGAAAAAAATATGTGAGTGACCAAATAAGTCAAAAAATTGATGTACCACAAAATCCTGTAAGTTATAAAGATTTAAAAAATTTAAATATAAGCAGTTTAAAAATGAATGAAATTAATCCTTTAGAAGTAAAAAATAAAATTATTAATCATGTTAAAAAGTATGTAGAGAAGTTTATTAAAAACTCTGTATATAAAACAGACTACATAATATGTGATGAAAATGAAAATCAAATTGAAGAATTAGATTTTCAAGATTTTATAAATTTATCAGAGAATAACAAATATAAAAAAATTACTTTATTTATTAAAGCATTAGGCACTTCGTCATTATTAATAGGAAGACAAAATTTCAATATTATTAATAATAAAGAATTTGAAGAAAGTAAAAACTTTGATTTATCAACAATTAAAGATTTAAAATCAATTAGATATAACTTTACTAATGCTGATAATCAAATAAAGAGAAACTTTTTAAATAATTATATCTATGAATATGTTAAAAAAATATTGCAAATATATAAACCTAAAAAAATAGATTGAGAATATGAATATGATAAAGATTACTATATTTCTTTAAATTCAAGTCAGGGAAAAGATATAAAAGTAGATACTGATTTAGAAAAAATATTATATAAATTTCTTAATTCAAAAACTCAAGTTGTTTTAGAAGTATTTATAATTTCAAGAGATGAATCAATTAAGTTAAGTGGTTTAACAAATTATAAAATTATTAATGATCCAAAAAATAGTAATGTTGCACCTGAAGTTCCTGAACCTCCTTTTAAACCAGAAGTTAGTAAGAAAAATAATATTTCTAATAGAACTGTAAGGTGATGAATAATTCTAATTATTTGTTTTTCAATATTACTTTTAATTTTATTTGGAGTTATTTTATGAAAACGAAGAAAAGTAAAAAAAGTAAAATAGTTTATTTAAAATTATTTTACTTTTTTTAAAACCTTTTATTTTCTTTGAAGTTAAAATTTACCTATAAGAGATTGAAGGTGTATTTATGAGAAAATACAATTTTACAAATTATGAAAAAACAGCCTATTTTAATCAAAATATTTATTTTCAAAATTTCGAAGAAAAATTAGTTGATAAAGCTAAAAAAGATATTCAAGAAGAGTTTGAAAAAATAGATTTAAGAATAAGATATGACAAAAAGAGAATTGCATGTGGATGACAAATAAAAGATTATAGATATAGAAAAATCAAAACTTTGTATGGTGATGTAAGTTTTTTAAGAACTAGATATTGAAATAAATTTACAAAGGAAGTTAAAGTTTTAGTTGATCAAGAAATTCCTATTGAAAAGTACCAAAGAATAATACCAAATTTAAAGATAGAAATTTTAAATAGAGTTGGAAGAGGTAATAGATATTGTGATATTGTTGACTGCTTAAGGAACAGCAAAATTAGTGAGCAAACAATATCAAATGTAGTTAAAAGATTTAATATAGCTAAAGATACAATTGAAGATTTGAGAGGAAAAAAAATAGATGTTTCGAATAAAGAATATATTTATATTGAAACTGATGATACTTTTTCAAATTTTATTAAAGATAATAAAAAAACTAATTTTAGAATTAGAATAGCAACTATTCATACTGGTGCAAGAAGAGGTATCCATAATAGAAAATATTTGGAAAATAAGAAAATAGACTATATGTTAATTGAAAAGGGTAAAAGAATATCCACATTAGATTATTCAAAAAGAATTAAAGTTTTTATAAATAATCATTATAAAAACTATGAAAATAAGCAGCTAGTTATTTTAGGAGATAATGCAACATGAATAAATAATTTGGCATATGAGCTTGGAGGTTTTTATGTTTTAGATAAGTATCATTTAATAAAAAAACTATCTAGCGTATTTCCTTATAATAATCGCAATAGATTTATTTGTGAAAAATGAAAAAAACCATTTTTATACATAAAAACTTCTATATTAAAAGGTTTAAGCTATAACTATGTTCTAGATGCTTTAAATGAAGTATTTTTATGATTAGAATCGAACAATGAGAAAGAAAAATTAAGAGAGTTTATTAAATTTATAAGTTTTATTAAAAGAAACAGTTCTGCTATAAAAAATTATTATAAGAAGTTTGATTCATCATCTCATACTGAAGGACAAGTATCATCTTTTGTAAAACAAACACTAGGTTATGGAAAGAAAATATATGGTTTTAAAACCTTTAGTAATTTATTGAAAATTAAACAAATACATGCTAATGGTTATGATATGTGTGAACTATTAGAATATGAAATAGAAACTCTACAAATTAATAATTTGGACTATATATATAAAGAAGTAATAGAATACAAAACTATAGGCTTATTATGAAAAGACAAAAAATCAGATATTTCAACAAAAGGTTCATGAGCTAAAATAAAACAACCAGGATTTAAAAGAGTTTAAGTACGATGTTTCTTGTAAACGTAGTAAAAATTAACATAGAAATATGTCCTTTTTGTATTAATTTTTTTAAATTATTAGTATTTTATATACATTTTTTTAGAAAAAAATAATATAATTACTTTAAGAAAGCACTTTTCATATAGAATAAATCAAATTATCCATAATATATATACCCCACATTTTTTATTCAATCACATCTTATATTTATTAGCATAAAAGTTAAATATTTGGTATTATCTATAAGTTATTAAATTATTAAAGACTAAATAGGAGAACATTATGGATAAAAAAATAATAAATATAGCAGTTATTGCTCACGTAGATGCTGGAAAATCAACTTTAGTTGATGCTTTTTTAAGTCAATCAAACGTTTTTAGAGCAAATGAAGAAGTAAAAGAACAAGTTATGGACAGCAATGATCAAGAAAGAGAACGTGGAATTACAATTTATTCAAAGAATTGTGCTATTGAATATAATGGTTACAAAATAAATATTGTTGATACTCCAGGACATGCTGACTTTTCAAGTGAAGTTGAAAGAATAATGAAAACTGTTGATACAGTAATATTATTAGTAGATTCAGCTGAAGGGCCAATGCCTCAAACAAGATTTGTTCTTTCAAAAGCATTAGAATTGGGATTAAGACCAATACTTTTGGTGAATAAAATTGATAAAAAAGATCAAAGAGCTTTAGAAGTAGTTGATGAAGTACTAGAATTATTTATGGAACTTGATGCAAATGATGAACAAATTGAGTTTCCTTCACTGTTTGGAACAGCACGTGAAGGTATTGTTCAATATTCAATGGAAGAAAAAAGTGATAATTTAGTTCCTTTATTTGAAACAATTATTAAACAAGTAGGAAATTATCCAATAGAATTGGCAAAAGAACCTGTTCAATTGCAAATCTCTTCTCTTGCATATGATTCATTTATTGGAAGATTGGGAATTGGAAGATTATTTAAAGGTGTTCTAAAAGAAGGACAACAAGTTGCAATTTCCAAAAATGATGGAAGTGTTGCAAAAGGAAAAGTTTCAGGATTATTTATCTATGAAGGGTTAAAAAGAGTAGCTGTAAAAGAAGCTCAAGCTGGAGAAATTGTTGTTATTTCAGGAATTAGTGATTTAACAATTGGAGATACAGTATGTGAACAAGACAAAATTGATGCATTACCTCCAATTGTTATTGAAGAACCAACTATGAGTATGAACTTTTTAGTAAATACTTCTCCTTTTGCTGGAAGAGTTGGTAAATATGTTACTACAAGAAATATCAAAGAAAGACTAGACAAAGAATTAGAAGTAAATGTTGGTTTAAGAGTTGAAACTCTAACTGATTCATCTGCTGATGGATTTAAAGTACTTGGTAGAGGTGAACTTCATTTATCTGTTTTAATTGAAACTATGAGAAGAGAAGGTTTTGAATTAGGAATTTCAAGACCAGAAGTTGTTATTAAAATTGATGAAAAAGGCAATAAGCTAGAACCAATGGAAAAAGTAATAATTGATGTTCCAACAGAATATTCAGGAACAGTTATTAATAAACTAAATTTAAGAAAAGGTATAATGACTGACATGGACTCTGATGGAGTAAGAGATAAAGTAACATATCATATTCCAACAAGAGGATTAATTGGATTTAAATCAGAATTCACAAATGATACTCGTGGTGAAGGGGTTATGGTTAAATCAAGTATTGGTTATGAAGAATACAAAGGTAAAATTGAAGGAAGACAAAATGGTACTTTAGTTTCTATGGCAAATGGTGTAACTCTACCTTATGCATTAAATAACTTAGAAGAAAGAGGTATCTTATTTGTTGGACCTCAAGTTGAAGTTTATGATGGAATGATTGTTGGATTGCACTCACGTGATAATGACTTAAATGTTAATCCAACAACAGGAAAAAAACTGACAAATACTAGAGCATCAGGAAGTGATGATTCAGTTAAGTTAACTCCACCAAGAAAGTTTACTCTTGAAGAAGCTTTAGAATTTATTGAATGAGATGAACTTGTGGAAGTAACTCCTGAAGATATCAGATTAAGAAAAAAATGACTTTCAGAAAATGAAAGAAAACAACATAGAAATGATCCACACTAGTGAAAAATTCCATAAAGGAATTTTTTTTTGAAAAAAGTTCCACTCATATCAATAAAAAATTCTAAATAATCTATATAAATAGGGTTATTATAGAAGTGTAAGGAGAATTTTAATATGTCAAAAATAACTAACATTGTTGCACGTGAAGTACTTGATTCACGTGGATTTCCAACAGTTCAAGTTGACGTAACAACTGAATTTGGTGGATTTGGAACTGCAAAAGTTCCTTCAGGAGCTTCAACTGGATCAAGAGAAGCTTTAGAATTAAGAGATGGAGATAAAAAACGTTTCAATGGAAAAGGTGTTTTAAAAGCTGTTGCTAATGTAAATAGTAAAATAGCTAATCTAATTATTGGAATGGAAGTAACTGATCAAGTTGCTATCGATACAGAAATGTGTAAATTAGATGGAGATGACTTCAAAAAAAACTTAGGAGCAAATGCTATTTTAGGTGTTTCTTTAGCTGTTGCTAAAGCAGCTGCAAGTGAATTAGAAATTCCATTATACAGATACATTGGAGGAACAAATGCAAGAAGATTGCCAGTTCCTATGTTAAATGTTATTAACGGTGGAGAACATGCTGATTCAGCAATTGACTTCCAAGAATTTATGATTATGCCTGTTGGTGCTCCAACATTTAGTGAAGCTTTAAGATGAGCTTCAGAAACTTTCCAAGCTTTAAAATCATTATTACATGATAAAAAAGATATTACAGCTGTTGGAGATGAAGGAGGATTTGCTCCAAACTTTGCATGAGCATATCCAGAAGAAACTATTGAAGCATTCAAAGCAAAAACTCCAGTTCATGTTGCTTTAGATTTATTAGTAGAAGCAATTGAAAAAGCTGGTTACAAAACTGGAAAAGATGGAATTATGATTGCAATGGATTGTGCAAACTCAGAATTATACATCGATGGAAAATACCATTTCAAAAAAATTGAAAAATTAACTGGAAAAGAATGAGCATTAACAACAGATGAAATGGTTTCATTCTTAGATCAATTAGTTGATACATACCCAATTATTTCAATTGAAGATGGATTGGCTGAATCAGATTGAGATGGATTCCAAAAACAAGTTAAAAGAATGGGACACAAAATACAAATCGTTGGAGATGATTTATTTGTAACAAATCCAAAAATTACTGCAGAAGGAATTGAAAAGAAAGCTGCAAACTCAGTATTAATTAAATTAAACCAAATTGGAACTTTAACAGAAACAATTGAAACTATTCAAATGGCTCAAAAAGCTGGTTGAACAGCTGTTACTTCACATCGTTCAGGTGAAACTGAAGATTCAACAATTGCTGATTTAGCTGTTGCTTTAAATACAGGACAAATTAAAACAGGTTCAATGTCAAGATCTGATAGAATTGCAAAATACAATAGATTATTAGAAATTGAAGCTGAATTAGGTGAAGCTGCAATTTATGATGGTCTAAAATCATTCTATAATTTAACAAAATAATAAAAATATAATTTTTACTCGAACCTTAAAAAGGTTCGTTTTTTATTTATAATTAAATAAAGGTGATTTTTATGTTTAAAAAGAAGAAAAATTGAATTTTAATAAGTTTATTGTCAGTTTTTCTAATATATTTTGTAATAATTGCAATTTATGATTATAAAATTGCATCAATGATAGGCAATAGTTTTGCAAATAGCTGATTTTCTCTTTTTTTTGATAAAATAGGTGCTCTTGTAGTAATTTTTCCTATTTATATAATTTTTTTGGCCTATCTTTTAAAATTTATAAGTAGAGAAAAATTTAACAATATATTTAAAATATCAACTATTGTAGTATTTGATTTGATTTATATTGCTCTTTCTTTTTACCTATTTTTTAGTATTAAAAACTCTAGCAATGATTTAGCAAATAAAATATCTACAGCAATTATGTGTTTTTTGTTAACATTATTAATTATTTTAATTAGCTATATATGAATTAAACTTTTAATATTTAACAATATTGAACAAATAAATAAAATATTTTATTGTGCAAATATTAGTATTATATTTATGCTTTTGTGCTGAATAAATTTAATTTTATTTAAATACATATTTGGAAGAAATAGACCAGAAGCAGTAATTGAATTAAAAAACCCATTTCAATATGTATTTCAAATAAACTTTATTAGACTTGGAAAACAAAGTACAAGTTTTCCTTCTGGACACACAATGGCAATGGGGCAACTAGTTATTTTCATATATTTTGTATCTTTTAAAAATAAAAAGTGAGAAAATATATTCAAAGTTTTATTATTTTCAATAGTAATAATTTTAACTTTATTAATGGCATGTTCAAGAATGATAATGCAAAAACATTTTATAACAGATGTATCATTTTCAATGTTTTTACTTGTTCTATATTATCTTGTATCACCAATAATAGTAGAAAAAATATATAAGAGGATAAAAGCAAATGGCTAAATATATCGGATTAGATTTGGGAAGTAAAACAATAGGAATTGCCACAAGTGAAGGTTATTTTGCAAATCCAAAAGAAACAATTAGATTTCAAGAGAATAATTTTCTTGAAGCTGTTACAAAGTTAGATATTTTTCTTAAAAAAGAGGGATTTGAAAAAATAATAGTGGGCTATCCAAAAAACATGGATGGTTCAACAGGACACAGAGTTGAAATGGTTGAAGAGTTTATCGCTAAAATGGTTGAACAGAAAGTTATTTCAAGTGAATTAATTGAAAGAGTAGATGAAAGATTAACAACAAGAATGGCAAAACAAGTTATGATTTCAGCTGATTTAAGTAGAAAAAAACAAAAAGAAAATAAAGACCAAATTGCTGCTAAATTAATTTTAGAAACATATATCAACTCAATTAAGTAAGTATATAATTAATTTGTAAATAAGTGGAGGTATAAAGTATAAATGGAAAATCATCCTTTAGTTAAAGAAATTCTATTTTCAAAAGAAGAAATAGAAGTAAGAACTAAACAGTTGGCAAGAGAAATTGAAAGTTATTATAAGAGTAGAGATGTAAAAGAAAATACAGTTATTCTTATTGGACTTTTAAAAGGTTGTATTCCTTTTATGGCAGATTTTATTAAGAATTTTGACCATGAATGTCAAACAGAATATATGGTTGTTTCTTCATATTTGGGAGGAACAAAGACAACAGGAGAACCTAAAATTAATTTAGATTTAAATATTTCTATTAAAGATAAACATATATTAATAATAGAAGATGTTATTGATTCTGGAATAACATTAGAATATATTAAGAATTATCTTTCTTTAAAAGGAGCAAAAGAAGTTAAAGTAGTAACTCTTTTAGATAAACGTGAAGGAAGAAAAGTTAATATAGAAGCTGATTGAAGTGGATTTGTTATTAAAAATGAATTCGTTATTGGTTATGGATTAGACTATGATGAAAGATTAAGAAATCTTCCTTACGTTGCAGTTTGTGATGTGGACAAACTTAAAGACTGAAAATGATAATCAGATATCATTTTTTATTATTTAGTTAGATTTTTAAAAAAGTATATAATCAATATGTATGGAGGTAGTTATGATTAAAAAAATAGGTGTTTTAACTTCAGGTGGAGATGCACCAGGTATGAATGCTGCTGTTGCTTCAGTTATTAAAACTGCAATTTCAAAAGGAATTGAAGCTTATATTATTAAAGATGGATATAAAGGTCTAATTAATAATTGAATCGAAAAAGTAGATATTAATTTTGCATCAGATATTATTTCAAAAGGAGGAACTGTAATAGGTTCTGCAAGATTGCCTGAGTTTAAAGAAGAGTCAGTTAGACAAAAAGCTGTTGAAAATTTAAAAACAATTGGAATAGAAGCTTTAGTTGTAATTGGTGGTGATGGAAGTTATCAAGGTGCTGAAAAATTAACAAAGATGGGAATAAATTGTATTGGTCTTCCAGGAACAATTGACAATGATATTGTTTCATCAGATTATACAATTGGTTTTGACACAGCACTAAATACTGTAATAAACTCATTAGATCAAATAAGAGATACAATTCAATCTCACAATAGATGCATGGTTGTAGAAATTATGGGAAATGCATGTGGAGATTTGACTTTATATGGAGCAACTGGAAGTGGTGCTGAAGTTTTTTCAACAAAGGAAAGTTATTTAACAGAAGAACAAATAATTGATCAAGTTAAAGAATTACGCAAAAAAAACAAAAGAAGTGTAATTGTAGCTGTTGCTGAAAAAAACTATGATGTAAATGAATTGGCAAAGAAAATTGAAAAAGAAACTGGTTATGAAACTAGAGCAACAATTCTTGGTCATATTCAAAGAGGTGGAAAACCTACTGGTATGGATAGATACTTAGCAGTTAAATCAGGAATATTTGCAGTAGAACAGTTAATTGCAGGTAAAGGTGGATTGTATATTGGAATGAGCAATAATAAATTAGTTGCCAGAGATATAGAATTAACTTTAAATATGCCAAAAGTTGATAAAACTGAAGAGTATGAAAAACTAAGAAATATTAATAAAGCAGTTTAATTTTTAAGGAGGAAATAATTATGAACAAAGAAATAGAATTTTATGAACCAAGTAAAATTGCAAAAAAAATTAAAAGAACTAAAATAGTTACAACAATTGGGCCAAGTACTCATTCAAAAGATGATATTAGAAAATTATTTGAATCAGGTATGAATGTTGTGAGATTAAATTTTTCTCATGGAAAACAAGAAGAACAATCAGAAAAAATAAAATCAGTAATTGAGTTAAGAGAAGAATTAGATAAACCAATTTCAATAATGTTAGATACAAAAGGTCCAGAAATTAGAATTGGAAAAGTTCTTGATGGTGCACAAGAAATTAAAGCTGGATCAGATATTAGAGTTTATACAACTCAAGAAGAGTATTTAAAACGTGAATGTAAAGCAACTGAAATGACAGTTTCATATGATATGAGTATTGATTTAAAACCAGGAGATACTGTTTTAGTAGATGATGGTAAATTAACATTAAATGTTATTAATGTAGAATCAGGATTAGTTAATTGTAAAGCTTTTAATACACACACTATTAAAACAAATAAAAGAGTAAATTTACCAGGTGTTGATTTTTCACTACCATTTTTAGCTCAAAAAGATATTGATGATATTAAATATGGAGCAAAAATGAAAGTTGACTACATTGCAGCATCATTTGTTAATACAGCAGATAATGTAAAAGAAATTAGAAATATTTTAAAAGAATGTAAAGCTGAACATATCCAAATTATTTCAAAAATTGAATCAAAAATAGGTATTTTTAATATTGATTCAATTATTGAAGCATCAGATGGAATTATGGTTGCTCGTGGAGATTTAGGATTAGAAATTCCTTATTATGAAGTTCCTTATTGAGAAAAACAAATGATCAGAAAATGTAGAAAAGCTGGAAAAGTTGTTGTTGTTGCAACACAAATGTTAGAATCAATGACTGACAATCCTCAACCAACAAGAGCTGAAGTAACTGACGTTTATTATGCAACTGAACTAGGAGCTGATGCAACTATGTTAAGTGGTGAATCAGCTGCAGGTATTTATCCATTTATAACAACAGAAACTATGGCAACAATTAATAAACGTGCAGAATTAGGTTTCTATGGAAAAATTTACTATGACAGAGCATTAGAAATTGCAAGAAATAGTTCATCTGGTAAAAGAGCAGAAATTGCAGATGAATTGGCAAACATTACAAGAAATGGTAAATACGAATTTGCATTAGTACTTTCAAGAACTGGTGAATTATTAAGAACTATTTCAAAATTTAGACCAAATGTTACAATCTTAGGTGTTTGTGACAAAGAAGAATTATGAACTGGATTTGGAGCAATGCATTCAATCTTTATGAATAGAGTTAAAAGCATTGATAAAATTATTGACAATAATGATGAATTATCTGAAATTGCAAGATCATGAGGTGCAAAAAAAGGTGAACAAATTCTTATTGTTAGAAATGAAAATATTAAAGTTCATACTGTTTAAAAATACCACTATGTGGTTTTTTTAATCATTCTATTTAAATAAAACAAATATATAATGTTATAATTTTTTTGTTATAAATAAGGAGAAATAAAATGAATAAATTTAATTTAAATGAAAAAATGAAAAGAACCAAAGTTATTACAACTATTGGTCCAAGTGTTCACTCAAAAGAAGCTATCAAAGAATTATTTGATAAAGGAATGACAACAATACGTTTAAACTTTTCACACGCTGATTTTCAAGAACATGGAGAAAGATTTGAATGAGTTAAAACTTTAAGAAAAGAAATAAATAAACCAATTTCAATTTTATTAGATACAAAAGGTCCAGAAATTAGAATTGGAAAAATGAAAGATGGAAAACAAGAAGTTAAAGCAGGAACTGAAATAACTGTTTATACTGATCCAAAAGATTTTTCAACAAGAGAATGTTCAGCAACAGAAATGCAAATGTCATATGATATGTCTCAAGATGTAAAAGTTGGAGATGTAGTTTTAGTAGATGATGGAAAATTAACAATGCATGTAACAAGTGTTGATAAATATAAAGTTATATGTAAAGCATTTAATACTCATTTAGTAAAAACAAATAAAAGAGTAAATTTACCAGGTGTTGAATTTACATTGCCATTCTTAGCTGAAAAAGATTACAATGATATTCATTTTGGAATTGAAAATAATATTGACTATATTGCAGCATCATTTGTTAACTCAGCAGATAATGTAAACGAAATTAGAAATATTTTAAAAGAAAAAAAAGCAGAACATATCCAAATTATTTCAAAAATTGAATCACAAGTTGGATGTGATAATATTGATTCAATTATTGCAGCATCAGATGGAATTATGGTTGCTCGTGGAGATTTAGGATTAGAAATTCCTTATTATGATGTACCATATTGAGAAAAACAAATTATTAGAAAATGTAGAGAACAAGGAAAATTAGTTATTGTGGCAACACAAATGTTAGAATCAATGACTGATAATCCTCAACCAACAAGAGCTGAAGTAACTGACGTTTACTATGCAACTGAATTAGGTGCTGATGCAACTATGTTAAGTGGTGAATCAGCAAATGGAGATTTCCCATTTATTACTGTTGAAACTATGTCAACAATTAATAAACGTGCTGAAATTGAATTTTATGAAAAAAACTACTATACTAAACAATTAGAAAATGCTAGAAAATCAAGTTCAGGAAAAAGATCTGAAATTGCAAATCAATTAGCAAATACTACTTTAGGTGGAAACTATGAATATGCTGTTGTTGTTTCAAGAACAGGAGAATTGCTAAAAACTATTTCAAAATTTAGACCAAATGTTACCATCCTAGGTGTTTGTGATAATGAAAAATTATGAACTGGATTTGGAGCAATGCATTCAATCTTTATGAATCAAGTAGATAATTTAGATTCATTCATGGATGATCAAAAAGCAATCTCAGAAGTTGCAAAATCATGAGGTGCAAAATCAGGAGAAAGAATCTTGTTTGTTAGAAATGAAAATATTAAAGAAATTACAGTATTATAATTTTAAAAAAACTAAACATTTTTATGTTTAGTTTTTTTTATCTCTATTTAATAAAATTAGGTATAATATAAATTGGTGCATTAACTATAGGGAAATGAAAAAAAGGTGGAAGTATATATGAAAATAAAATTACTAGATGGAAAAATAATGAGTTTTGATATTCCAAAAACTGTTATAGAAATTGCTCAAGAAATATCTATTTCATTAGGTAAAAAATGCGTAGGAGCAATTATTAATGGCAAAGAAGTGGTTCCAAGCAAAGCAACTATAGATAAAGATTGCAAATTGGAATTAATTACAGAAAGACATGAATTATTTAATTCAGTTGTAAATTACACTGCAAAAATAATTACAGGCTTTGCTTTAAAAACTTTATTTCCACAAGGAAGTCTTTATCCTGAATCAGAAGGATATGATAAATCAGAGTTCTTTGTGTATTATGACTTACCAACCAAATTAACATTAGAAGACTTGAAAGAAGCAGAAAAATTAGCAAATGATCTTATTAGTAAAAAAATAGAACTTAAATTTGAAGATGTAACTTTTACAGATGAAAAATATAATGAATTAATGAGCTCAATTAATGTCAAAAAAGAATATATTGATATTATGTTGGAAATGAATAAGAACAGATATATTAAATTTCCAGTTGCATCATTAAATGGTGTTGTATATTACTCTAGATATGCTAATTTAAATAATACAAGCGATTTATTTAAGATTGAATTAAATGAAATAACTGCCTTTCAAATAGAAGATAATAAATATGTATATAAAATTCACGGTTTGACTGCAATTAGTGAAAAAGAATTAGAAGAAAAGAAAAGAAAAATTGAAGAATTAAAAGAAAATGATCATAAATACATTGCCAAAAATTTGGAAATATATCATTTAGATCCTTTAATTGGACAAGGTTTACCTATTTGATTGCCAAATGGTACTGTTTTAAAACAAGAAATCAAAAAATACTTAATGGAAAAAGAATTTGAATATGATTTTATTCAAATTGAAACTCCTGTAATTGGAACAAGTGAACTTTATAAAACTTCAGGGCATTGAGATCATTATAGAGATGATATGTTTGCTCCTATGATTCTTCCAAAAGAAGAAATGGTTTTAAAACCAATGAGTTGTCCTCATCATATTTCAGTTTATAGATATAAACAAAGAAGTTATAGAGATTTACCTTTAAGATTTGCAGAGCATGCATTACAACACAGATATGAATCATCTGGAAGTTTAACAGGGCTTGAAAGAGTTAGAGCAATGGAATTGACAGATTCACATATTTTTGTAAGAGCAGATCAAGTTAAAGATGAATTTATAAGATGTTTTAATTTAATAACAGAGGTTTTAAAAACTTTTGATATTAAAATTGATTACTTATCTTTATCATTAAGAGATCCAGAAGATAAAGAAAAATACTTTAATGATGACAAAATGTGAAATCAAGCTGAAGCAGAACTTGAAAAAGTTTTAAATGAATTAAAAATTGATTATAAAAAAATGATTGGTGAAGCTGCATTTTATGGACCTAAATTAGATATTCAAGCAAAAACTGCTTTAGGACATGAAATTACTGTTTCAACAATACAATTGGATTTTTTATTACCTCAGAAATTTGAGCTTAGTTATATAAATTTTGAAGGGGAATTAGAAAGACCTATTATGATTCACAGAGGTCTTGTAGGAACTTATGAGAGATTTATTTCAGTTCTTTTAGAACAAACAAAAGGTGTTTTACCATTATGATGTAGTCCTCAACAAGTTGAAATAATTCCTGTAAATATTGCTAAAAAAGACTATGCAGAAAAAGTAAGAGAGGAATTAAAATCAAAATTAATAAGATCAAAAATAGATCTTAGAGATGAAAGATTGAGTTACAAAATTCGTGATGCACAAATTAGAAAAATTCCTTATCAATTAGTATTAGGAGATAAGGAATCTGAAAATGATATGGTAACATATAGAAAATATGGTAGTGAAGAACAAATTACTGTAACTCTTAAAGAATTTATTAAAATGATTGAGAAAAAAGTGAAAGAAAAAATATATAATTAAATTTAATTAGGAGATTAATAAAAATTATGAATAAAAACAACAATATAGAAGAAGAAATTAGGTCACTTAAAGAATTAGATTATGGAGTTTTAGATGCACAGCATTCATTTATGGTGGATGGTGTATTGGGTGGATTTAAAGCTGCAATTCATAAGTTGCACTATACTTTTATAAAGCAAATATTGCTTGGAATTATGAGTGGTGTAATTATAGGTTTTGGATATGTTGCATGTATTATTGCAATGGTATCACTTAAAGGTACTGGTTTTGAAGCATTTGGAACAATTTTATTAGGTTTTATTTTTCCAGGGTGTATTATTATGATTACATTTCTTGGTGGGGGATTGTTTACAAGTCATGTTTTTAGTACAATTCCAGTTTTTAAAGGTTGTGGAAGTAAAAGATTATATTTAAAAGGAATTTTTGGAGTTCTTTTAGGAAATTTTATTGGAACATTTATTTTTGTAGCAATCTTTTCAGGAGCAGGAGGACTTTGAGATAATGTTCCTTTTCTAAATAAAGTTTTTGATATAGCAATGCATAAATTATATTTAGTAAATCATGATTTACAAAGTAATGGATCAATTAAAGCAGTAAGTATTCTTGCAACAATTGGAATAGGTATATGTTCAGGGATTTTGTGTAATATAATGGTTTGTTCAACATTGCCATTAGCAAGTACAACAAAAAATGCAGCAGCAGTTATTTTATTAATGGTTTTCCCAATTGCTTATTTTGCAATTGGAGGTTTTCAACATGGACCTGCAAACTCTTTCTTTATGTGAATGTTATTATTTGAGGCAATTTTTAATCATAGTCAAGTAGCAATAACAAATGGTAGTGGAGAAGTTCTATTACGTCCAGAATTTTATCATTTTGCTTTATTTATTGCTTTAAGTACAATACCAACTTTAATTGGTAATTGAATTGGGGGAGCATTATTGCTACCAGGAGTTTTATATTTTATTAATAAAGAATATGCATCAATTTTATTCAAAAAAATTAAATTGGAATATTTAGAAGAAAAAATGGGTAGTTTCAAAGAAATTGCTGATAAACAAATTAAAAAAATTGATAAAAAGTTGAAACAGAAAAAAGCTAATATTGAAGCTAGAGAAAGTGAAAACAAATCAGAATAAAAATAAAACTAACTTTTTAAAAAGTTAGTTTTATTTTTATAAACTAATAAGAGTCAAAATTTAACTAAAATTATATATTCATTTTCACCTATGTTAATATTAATTTGAAAGAGATAAAAGTAGGGTAAAAGAATGAATAAACAAAATTTTATAACTATGCCTAAATTTGAGATGCATTTACATATTGAAGGAACAATGTATCCTGAATTTTTTGTTAAAAAAGCAAAAGAAAAAAATATCAAACTTGCTTTTGATACTCCAGAAGAATATTATGTTGATTATAGAACCAGAAATACATTACAAAAATTCCTAATGACTTATTATGGAAATATGCGTGTATTGGAAAATAAATGAGATTTTTATGATTTAGCTTGAGAACATGCCAAAAGAGCTTCTGAGCAAAATATTAGATATGCTGAAATATTTTTTGATCCTCAACCACATCTTTATAGAGGTGTTAAATTTGATGAAATTGTAAATGGATTATATGAAGCTTTTCAAGATGCTAAAAAAAAATTAAATTTTAGAGCACAATTGATTATGTGTTTTTTAAAAGATTTACCAGAGTATGAAGCTGAAGAAGTTTTAGAATTGGCAAAATCTGCAATTAAGCAAAATAAAATTATAGCTATTGGTTTTGATTCAAGTGAATCACCAAATTGAGTACAAAGGTTTCAAAAAGTTGTTTTAAAAGCAAGATTCTTAGGATTAAAAGTTGTAAGTCATTGTCAAGAAAATGTTACAGATCAATCAGCATGAGATGTATTGCATTATTTTCAACCTAATAGAATTGATCATGGTTTTTTATACACGAGGATAAAGAAATTTTGACAAGAATAAAAAATGATAATATTCACATAACAATGTGTCCATTTTCAAGTACAAGAGGAAATAAATTCGAAAATAAAAAAGATTATCCAATTAAAAAATATTTGAATTTTGGAATTCAATTAAATATTAACTCTGATGATCCTGCATATCATGGAGCTACTTTAACTCAAAGTTTTAATTATGTAGATGATATGTGAAATCTTTCAAAAGAAGAGTGAAAAACAATAAGTCTAAATTCTGTTAATGGTACATTTCTAAATGACAAAGAAAAAGAAGAATATAGAAAAGAAGTAATAACTTTCTTTGAAGAAAAGTGACAGATTAAGAGTTTAAAAAAGCACTTCTTTAAGTGCTTTTTTAAACTCTATATAAAGATAATAAGTGATAAAATAAGCATTAATATTACCCCAGATAGTAAAGGAATGCATGTTCTTTTTATTAATTCGGTAGTTGTTACATTAGTTTTTTGTGAAACAATAATAACTACTGAAGAAACTGGGGACATAGCTCTAAAAAGATTTCCTGCCATTTGGAATGGTACTATTGCAGCAGCTGAACTTATTCCTGATGCTTGTGCCATTGATGGAAGAATTGGAGCAAGTGCAAATAATAATGCTGTTCCTGATCCACTTAATAAAACAATAAATGCTGTAAATATAACTAAGATAATAGGTAGCAATATGGAACTGCCCCCTGTTAATTTCATAGCAGATTCTAATTTAGCAATTAAACCAATATTTGTTAAACCTTTTATAAAAACATCTGCTGCTACTCTCAAAGCAACAATAACCATATTGGCACCCATACCTTTTCAAAAGGCAGCTGTTTCAGTTGATACAACTTTGAAAGATTTCTTATTAATTCACTCACAAAATATGGCAATAATAAAACTTAAAAAAGTTACTAACTCAACTGATATTTCTAAACCACCATTAAATGCAAAAGTGCTTAGAATAAAACTTATAATAACAAGTATAATTGGTAACATTGGTAAAATAGTATAAACAATTTTGTAAGTTTTACCTGACTCAATAGTTACTATTTTATGAATTTCTTCATTAAAGTTATATTGTATACCTTTTTTTAAATCTCTTTTATCACAATACAATTGTCAAAATAAATGTACTAAAGACATAAAAACAATTGTTGGAAGTGAAATCATTGCGTGATATTTTATTACATATTCAGTAGCAGATATTCCTAGCTATTCTGCAATAAATACATTATCACTTCCTAAAGGAGTAGGCATAATTGTTGCTGTTGTTGCTATTACACCACCAGCAGATAATGGAGATATACCTGATTTAATTAAAACTGGAAATAAAGTAGTCATTAAAATTAAAGCCAATGTTGCAGCTGAAGGAATAGTTAAAGATAAAATATGACCAAAAATAAAAACTATTGGAATTAATAAATATTTTTTCTTAATCTTTACTAAAGGTTTTGTTAAAGTTGCAACAATAACATCATTTGCTCCTATTTGTCCCATAAAAGCACTATAACCTCCAAGTAAAAGTATAATAAATCCTGCACCAGAAACACCTTTAGTAAAACTTTTTGTTAATTCTTCTAGTGGATAAAAAACATCAATTGGCTTATTTATTTGAACTTTGCCTAAACACATAGATATTATTAACAAGAATAAGCCTAAAACAAAAAGGGAAATAATTATATTAACCTTTTTTATTAAAAAAAAGATAAGTAAGCCAATAGCCAATGCTCCAAATATATACATAAAAATATCGTTTATCATTTGTTTAATATGGTCAAAATATTTTTTCAAATGTTAAAAACTTTCATTAAATAACCCTCTCTCAATCTATCTTAAAAAAGATGCTTGAAAAAAGTAAAAATTACAGAAACAAAAAGTTTCTGTCAGACTCATAGTATTTTGATAGGTCAAAATGTAGAAACACCAACCCATTATGTTGGTTTATACAAGCATTTTATTAAGTTAAAATTATTTTAACATTTTTTTAACAATGATTATTAATCAAAAAACTTATAAGTCTTTATATTTTATTTATTAAAAAGCTAAAATATTTGTATAATATGAAATTTTAATTATAGTTTTCCTTTTTTTTATATATAATAAAAAAAGATAAATGCATAGGAGTATTTTATGAGATTAACAATCAAGCAAATCAGTAGGGGCAAACGCAAGTAGTTTTATTAACTATTGATTTTTTGATTACAATTACAATAATACTTATTTTTAAAAATTTAAATAATAAATACAAATAATAAATAATATAGGAAAACTTAAACTTAATATAAAAAAAATTAACAATTAGAATGAGAGACTAAAAAAATGAATAATAAAGAACCTAAATTTAAAAAGAAATTTAAATTTAAAATACCCACCTCATTTACGATACTTTTTGCAGTATTGATAATGATAATGATAACATCTTGAATATTGTATTATTCAGGAGTAACTTATAATAAACCGGGAAAAAACGAAACAGACCCATCAGTTCCAACTGTAATTACAGGTATTGGAATTGTAGATTTATTTGTATCTATATTTAAAGGATTTGAAGATAAAGTAGAAATTATTGTATTTGTTTTATCAATTGGAGCATTTATTTATATAGTAATGAAGTCAAAATCACTAGATGCGTTGACTCAAAAAATAGCGTGAAAATTTAAAGATAAGACAATCTGAGCAATTCCAATTATTGTTATATTTTTAAGTTTTTGTGGTTCTGCATATGGAATGGCAGAAGAAGCTTTGGGATTTCATATGATAGTTATTCCATTAATGTTAGTAGCAGGTTTTGATGTTTTCACAGCATTAATAACAGTATTACTTGGTGGGGGAATTGGTCCCATGTTGGCAACATTTGATCCTTTCTTAATTTTTACAGCAGCAGATGCTGCAAATTCTCAAGCAATGGATGGTTTAATTTTTAGATTAATAGCTTGAGTTCTTGTAACAGGATTTACTTCAGGGTGAATAATGTTTTATGCAAGAAATGTTAAAAAAAATCCTCAGCTTTCATATACATTTTCAACATTAGAAGAGGATAAAAAATTCTTTTTAAAAGAACAAATTAACGAAGTTGCTTTAACTAAAAAAAGAATAACAATCAGTGTAATTTTTTTAGTAATGTTTTTAATAATGATTGCATATCTATTTCCTTGAGATGAATTGTTTAAAACAACTGCCATGAAGGATTTTGGAAATTGAGTTAACAAATATATTCCTTTTTTAACAGGTTTAGTTCCTGGTATGGGATATGGCGATATGTTCATAGTTGCTGGTTTCTTTTTAATAGGTTCATTAATAGTAGCTATTTTAAATTGAGAAGGAGAAGAAACTTTCATTGAAGATCTTCTTGCTGGTGCAAAAGATATGATAGGAGTTGCATTTATTATTTCAATTGCAGGAGCTATTACTTATCTTTTAAAAGAAACAGGTATTCAAGCACTTATGTTAGCAGGAATCAAAAATTCAAATATAGGTAATATGAATCCATTTTTATTTATTATTATAACTTTCTTATTGTTTATACCTATGTCGTTTGCTTTACCTTCAACTTCAGGTTTTTCAAGTGCAGTATTTCCTGTTTGAGGACCATTAGCAGGTTCAATAAGTATAGGTTCAACTGGAACAAATATGATTTCTGGAAGTATAACAGCATTTGCATATGCTAATGGAATGGCAAATATGGTTTCTCCAGCTTCTGGAATTGTTGTTGGAGCAGCACAAATTGGTAGAACAAGTTATGGTACAATTATAAAAGGAACTTGAAAATTTCATTTAAGTTTATTTATAATAAATATAGCACTACTTTTAATTGGAACAGGTCTTAATTATACAGGATCTCATATTTTTTAAAAGATATTAACATTCAAAAACCTAACGGTTTTTTATTTTTTTGGGGGTAATTTATGAAGGAGAAAAAATTTAAAAGTGAAAAAGCTTTTTCAGCAAAGAAATTTTTCGACTCATTTAAAATGATTGGAGAGGCAATTAAAAAAAATCCTAAAACATTTACAGGTTATTTAATTTTTACAATAATTGATGCAATTTTATATTCTTCAATGACTATTGTTGTAAGTCAAATGACAAAAAATGTTACAAGCCAAGGTTTACAAGCAAATCATTTTTTATGATTTACAATGAGCTGAATTAGTTGAATTTATGTAGGCATAGTTCTGCTTCTTGCAATTATATTATTTGATTACTTAACAAATATCTATGCAGCTATGTTTGCAAAAAGAGTAGAAATTTATTTAAGAATAAAAGCACTTAAAAAATTAGTTGATATTGATATTAGTTATTATTCAAAAAATCAAATAGGATTAATAATGACTAGAGTAATAAACGACAGTCAAGGATCAGGTGATGCATTTAATGATTTTTTATTAAACTTACTTTTTAGTAGCATCAGTTTTATAACAATGATATTTTTTATGATTTCAATTGATGTTACTCTTACTCTAATTGTTATAGGTATTTTTGTTCTTTTAGTAATAATAATTTGAACTATTTTTATATATTATAGAAGAGCAATAATTATTGCTTTTGATGTTAAACAAGCAATTGATGCAGATATTACAGATAGATTAATAAATATTAGAGCAATTAAAGCTAATGCTTCTGAAAGTAGAGAAACTGTTAGAAATAAAAAGTTGCATGAAAAGTATGATCAAAAACTAAGTAAAGCTATTTGATTACAATCACTTTTATCATTTTTTTCTTATACTTTTGCTTGAGCTTTACCAATTGTCACAATTATTTCAGCTATTGGCTTATATAGTAATTCATTGAAACCTGAAGAACTTTCAAATTTACTTGTAGCATTTACATCAGCTACAAACAATGTCTTATATGCATTATTGACATTGCCAATATGAATGAGAGGTTTAACTAGATTATCAAATTGTGTTATGAGACTTAACTATATTTATAACTCAAATTCATTGTTGAAATTTATTGATAATCCAGAAAAAATTGGAGATATTAAAAATATTACTTTTAATAAAGTAACTTTTAATTATCCTGAATCACCAAAAAAACAAATATTGGCAGAAATTAGCTTAAATTTTGAGAAAAATAAAAGCTATGCTTTTGTTGGAGAAACTGGTGTTGGAAAGTCAACAATAGCAAAATTATTATTAAGATTTTATGATGTTACAACAGGTGAACTTTTAATAAATGGTAAAAATATACAAAAAATAGATCATAATGACTATTTAGATAAAGTTGGATATGTCGAACAAGAACCACAAATACTTTATGGAACAGTTATGGACAATTTAAAATATCCATTTTTTGACAAAACAGATGAACAAGCAATTGAAGCAGCTAAGAAAGCCAAGATCCACAATTACATAAAAAAACTACCAATGGGCTATGATACAATTTTAGGAGAACGAGGATTCATGCTAAGTGGGGGACAAAAACAACGTTTAGTAATTGCACGGATTTTCTTAAAAGATCCACAATTATTAATTCTTGATGAAGCTACAAGTGCTTTAGATAATGTAGTTGAAAAAGAAATTCAATTAGAGCTGAATAAATTAATGTTGGGAAGAACCACTGTTGTAATAGCACATAAATTAAGCACAATTATAAATGTAGATGAAATCATTGTTCTAGACAAAAATGGGATTGCTCAAAAAGGTAACTTTAATGAATTAAAAGAAAAAGAGGGTCATTTTAAAAAACTATATACACTAGGTTTAATGAAATAGAGGTTAAAAAAGTATGAGTGAAATTAATTGAAATCAAATATCAATGGAAATGATTTCTTGCATAGGAAGTTCAAAATCAAATGCAATACTCGCTATTAGAGCAGCAAAAGAAAAAGATTTTGATAAATCAAAAGAATTAATTAAATTAGCTGAATTGGAAATGAATAAAGCACATAATTTACATTTTGACATAGTTGCAAGAGAAGCAAATGGAGAAAATCTTGATCTGAAACTAATTTTTTTACACGCAGAAGATCAAATGCTTACAACTCAAGCTATAATTGATTTAGGTAAAGAAATGATTGAAATGTATAAAATAATATATAAATAAGAAATAAAAGAAATAAATGATGTATATTTATTTCTTTTATTTTTTTTAAGGAATTATTATAAAATAAATGTAAAGGAGTTTTTACATGAAAAAAATATTATCTTTATTTAGCATAATGTCTTTGACAGCTTCTCCAATCTTTTTATCTAGTCAAGTAATTTCGTGTAATGGAACTTGGTCTTTAGCTTTTAAAGATATTTTGAGAAAAGATATAGAGTCTTTAACTGATCTTAGTTATTATAATATTGCAAGAGAATGTGTTGAAGTTAAAGATAGCGAATGTAGTACAACTGAAAATGGACAAATAATGTCAACATTATCTTTATCGATTAATGAAGCTATTGTTACTAATAATGAAGGTATGTTAAAAAAAATTACAGATGCATCATTGGAACTATTTAAAGAAGCCAGTGCTTATTTTGATAAATTAGTTCCAAAATTTGATAAAAACAATGAAGATGGAAATGCCTACTATTATTATGTAATTGATGATAAAGGAGAATATGGTAGTGCATCCACTGAAATTAGTTATGATTCAGAAAAAAATTTACTAGAATATTTTGGTGATGAAATTATAAAACCTGAATTTCAAGTAAATACTGCTAGATTTGCTGTTTTAAAAAATAATTTAGAATATACTAAGGCATTTTATAAAAATAATTTAAGTATTTTGAATGAAACTGACGAATACATGAAAAATGTTGACTATATGAATAAATATATTGAAAATGGATGATTTGTTCCTATGTTTAAAATAGTAAATAAAGGTAAAGCAAAAAGTCATGGTCCTACTTTGACAAAAATTAAATTTGATCAAAGATTAGTTGATTATATTAGTGTTGGTCAACTTGGACAAGAAGATATTAGACAATATGAAGGGTACTGATTTAAAGAAAATAACTTAATTAATGATCCTAATAGCGGAATAATTACTTTTGAAGATACTGATAAAATAAGTTCAACAAAAAAACTAAGAACCATTTCTGCAATAGAAGTATCTGCTAAAATGAACAACGAGCAAGTAACAAGAATTTATAATTATGGATTTAAAGATATCTCGGGAGGTAATGTATAAGTATGCTTAAATATGAAAAATACCCCGATATATTTGATGCTTCAAATTCAATTAAATCAAGTAAACAAAGAATTAAAAAAGTAAAAAAAGAAATTTTTGAATTAAAAAATGAACTTCATCTTAAAAAAATTAAGCATAAAGAAATCTCATCAACTTTCAATAAAATTAGAAAAGAAAAAGAAAAAGAGCTATCAGCAAATTTTAATATTGATTTATTAAACGCTAAATATAAGAAAGCAGACATTAATAAAATATATGATGACTACAATTCTAACATTGCAAATTTAAAAGAAGAATATGCACAAAAAAAAGAGTTAAGACTTCAAAAAAGTGAAAATAGTATTCAAGAAGTTAAAGGAAAAATTAAATCTTTAAAAATTGAATTAGATGAAATAGTTAAACAAAATAAAGAATCTAAAATTCAAATTAAAATAAATTGAAATAATAAAAGAGAGCAAATTAAAGAAGAAGATTTAAAATTAAGATTAGAACTTCAAGAAATTAAAAAACAATTTAAAATTGAAAAACAGCAATTAAAAGCTGAATATTTTAAACAATATAACATTTTAATAGAGCAATGAAAAAATGAAAATAAAACTACAGAGAACGTTCATTATCTTCTTTCAAAATTAGGTCATAAAAAAAAGCTTAAGCCTTTAAAAACAGAAATCGATCAAACAGTTTATGAATTATCTTTAAAAATTAATGATTTAAAAGTAAATTATGAAAATAAAGTTTCTCAAGAAAAAAGTAAAATAAATAATCAAAAACTATTAATTAGATATAATGCAGGTAAAGCAGATTTAATAACTATTAAAACATCAATTGATAAAATTACTTGAGCATCAGGTAAATTATCAAATTGAAAATTTATGGTAGCTATAAAAAATGGTTTTTTCTCATTAATGCCTCTAGTGATTGTTGGAGCTGTATTTATTTTAATAAACAATATTATTTTAGGAGCAGGAAATGGGGGATTATTTAACCTATTTTATCTAACAGCAGATCAACTTGCAATTTTAGAAAAATTTAAAACAATTGGTTCTTATATATGAAATGGAACTTATGCTTTTTTCGGATTTTTATTAGCTGGAGCAATTGCATATCATTTAGCTCCATATTATAAAGTTAATCAATGAGCAGCTGCAATTATGGCATTTGTATCATTTTTAATTATGAATCCATCATTTTGAACAAATCTAGCAGTTTTTGGAAATACAGGAATGTTTACAGCAATGCTTATTGGTATTTTTTCAACTATTTTATTTGGTCAACTTTCAAAAAATCAAAAGCTAAAAATAAAAATGCCAGATTCAGTTCCAGATGGAGTTGCAAAATCATTTAATATTTTAATTCCTTATGCAATTACAGCTATAGTTTTTGGAATCACTGCTTTTTCAATTACTTGAATAGGACAAAGCGTTGGAGAAATAAATATTGGAAAAAATAAAGTAACATTTATAGACATTAATGGTTTAATCACTGTTGCAATACAAAAACCTCTTGTAAATGCAGTATCAGGATTTGGAGGAATGATCTCTATTGTCTTTTTATGACAAGTCTTGTGATTCATGGGAATTCATGCAAGTGGAATCTTGTCACCAATTGTGGAACCAATACAATTAGATGGTTTAATTCAAAATCAACAAGCACTTGCTGATGGAACCAATCCTCAATATGTATTTACAAACCCTTTTATGAATAACTTCTTATTTATGGGAGGAACTGGAGGAACGATTGGTTTAATTATAGCTATTTTCATTTTTTCTAAACGTGGCGATTATAGAACAATGGCTAAAGTTACATTAATACCAGCAATATTTTGTATTAATGAACCATTATTATTTGGATTACCAATTGTTCTTAATCCAATCTTTGCTGTACCATTTATATTTGGACCACTATTAGCAGGTATTTTTGCTTATTTAGCAACTACTCTAGGAATGATGCCTCACTCTAGTGTTATTGTTCCTTGAACAACACCTCCAGTAATTGGGGGAATATTGACGACAAAAAGCTTAATGGGTGGTCTTGTAGCATTAATTAATTTAGGAATTTTAATTACTATGTATTCACCATTTGTTATGCTTGCAAATAAAATAGAACAACGTGAACTTTTAAATAAGTTTGCTCAAAACAAAAATATATCAGATGAAAATATAGTAAAATTAAATAGTAATTTAAAAACTTCACCAATTTAGTTTATTTGAGAGGAATTAAAAGAATGAATAAAAAAGTACTTTTAGCATGTAATGCAGGAATGAGCACATCTATTTTAGTGAAAAATATGCAAAATTATGCTTTTGAAGAAGATATTAATGTAGAAATTAAAGCAGTATCAACAAACGAAGCTAAACTTAATGGAAATGATTGAGATATAGTCTTATTAGGTCCACAAGTTGCATATGAACTTGATGAAGTAAAAACATATTTTGAAACACCAGTTTTTGTAATTGATAAAGAAGATTATGGAAAAGCAAATGGTGAGAAAGTTTTAAAATTTGCATTAGAAAATTGTAAATAAAACTAATAGAAATATTTTATTAAATATAAAATTAAATAATTAAAAAAAATTATCATAAAAGCATTTTTTTTTTTTTTTTTAATTAATATTTTAATAATAAAAACTATAATTTAAGTGAATAAGAAAAGGGTAAAGAATAATGGAATCAGTGTTAGAAAAATTAGAGAGAATGACTAAAAATATTGAAAATACAAGTTATAAAATAATTTCAAAAGAAATAGTATCTAAATTTTTTAAAGGTATATTTTATAATCAAGAAGATCTTGCAAATTCTTGTTATGTTTCAGTTTCACAAATAACTAAATTTGCCAAAAAAATTGGATATTCAGGATATAGAGAGTTATTATTTAATTTAAAAAATGAATATAGTCATTATGGATGAGATAAAAAAAATTTAGAAATATCAACAATTGAAAAATTTGATCAGCTTTCTAAATGAATAATGAAAAATGAAAAATTTGTAAAAACTATAGCAAAGGAAATTAAAAATAAAGAAATAATAAATGTTTATGTTTCTTATCAAGTTAGACATGCAGCAACGTTCCCCCCAAATTGGGAAAGTTTTTTTTTTTTTTTTATCATTTTTTATTCATTCTAATTCTATCATTATTATAAAAGTCCAATCATGCTCATGCTATTTCCATACATTGATTAATGTTTTCAATATGACATGTTCTTATAGTTTCATCTTTTAAACGACCATGAAAACTTTCATGTTTACCATTATGATGAGGTGTTCCTGGTTTTGAATAGCTTCTAATAATTTGAAAATCAATTTATAAACTTATGTAATCCAGAGAGGTATATTGATTTCCATTATCTGAATGTAATAATATTGAACCTAAATATTTTTTATTTTTATATGCCATTTCTACAGCTTCAAGAACAAAATCTGTTTTTTGATTATCAATTCTTTTAGATTTTCCTATTATTTCTCCAGTTAAATTATCTTGAACTGTGCAAATATAACCTTTTTTTGTTTTAACTGAAAATTCAGTTATATCACTAGTTCAAATATTTTCAAAACCAATTTCTTTTGCTTCTTTTAAATAATTCTTTCTAATAGTTTCGTTATATCTTTTAATCTCATGTTTAGATTGTTTCTTAATGTAATATGCAATATGATTAAATTTTTTAAATATACGTTCTAATTTTTTATGATTAATTCTGAAAGGGTCAATATAATTTAATTTAAAATATAGGGCTCATCTTTTAGCACTATAAGCACTAAGGAAATTATTCCTTTCAATTTCTGAAATAACTAAATTCATAATTCTTGTATCATCCAGGAAATTCATTAAAGTTTTATTTTTTTTATATGTTGATGTTCTATTAATATTTAAAATTTTACAAATCATTGTTCTATTGCTCTTGGTATTTATCAATAATTGTTGAACTATTTCTTTTTGGTTTTGGCCTTGGAGGCTCATTGCTTTTTTAAAATATCATTCTCCTTAATTAATTCCTTATTGTAATCAAATAGAATTCCTACAAACAGATCATTTGCCTTTTGAGATATACTGTAATCTATTTTATAAGGTAAACGAGTTTTTGAATCACCAATATCTGTATTTTTGTATTTGTTTATTATTGTTCCAATTGATCCTGTAGTTGAGTTAAATTTTAATGCTATTTCCTTTAGAGAATAACCATTCAAACTTAATTCAATAATTTTTTCTTTTTCTTCTTGAGTTCACTTTCTAAACTTTTGTCCTTTTTTTGCCATATACTTTATCCTTTTCTATTATTGTATAAAAATTGTTGCCTAAATGGGGGGAACATTCCAGCAAAATATATAGTTGAATTATTTTCATCTTTAGATAAAGTAGTTAAAATAATCTCTCATGAGTTGAGAAAAGATATGAAGCTAAATAAAGAAGAAGAAATAAATTTGGTCATTCTTTGTTCAAGAGATAATGATTCATTGTTAGCAGTTTATGAAATTCAAAATAATCCTAAACAAAAAAGTTTTTTAATAACAACTGAAAGACAAAGAGAAAAAATTAAAACTTTTTTTACAGATCAAATAATAATTAATTATGAATTTGACAATTCAAAAAAAATATATAGAAATATAGGTTTAGAAATGTTATTCTTGCATATCTTTGAAGTTGTTCAAGAACTTTCCATATAGTAAAATACTTTCTTAATATGGAAAATTTGTTACTTTTCTATTTATAAAGTGGAAAATATCACTGTAAGGAGGATAGAAAAGTGGAAATAAATTTATACGCGCCAGTTGAAGGTGAAATAAAAAATATTGAACAATGTAAAGATTCAATGTTTGCAGATCGTATGCTTGGTGACGGATTAGTTATAATACCTTCAGAAAATAATTTTAAAGGCTTTTTTGATATAGCAACAGTTACCATGATTTTTGATACAAAACATGCTTATGGATTTGAAGTTGAAGGATTGCAGTTTTTAATTCATTGTGGAATGGATACTGTTTCACTTAATGGAGAAGGTTTTGAAACAAATCTTAAAATTGGAAGTAAAGTTACAAAAGATGATATTTTGTTTAGTGTTGATATTGAAAAAATAAAAAACAAAAAACTTTCAATTGAAACTCCAATAGTTTTTGAGTTTAATGAATTAAATGAGTATAAAATTAAAAACCTAAAAGTTGGAAAAGTTAAACAGGGAGATTTAATATGTACAATTGAATATTCATTTGAAGAAAAAGAAAACAATGATTTAAGAACAATTATTGATCCTGTTGATTTTTTTAATACTTCGAATAAATATGAAAAAGGAGCAATACAAATTAATAAAAGCGTAGGAAGTCAATCTAATTATGGAGAAGTTTATAATTGTATGACTAGATTGCGTTTTACTATTAAAAATAGAGATTTAGTAAATGTAGAGGAGCTTAAAAAAATAAATCTTGTAAAAGGTGTAGTTTGAAATGGAAATGAACTACAAGTTGTTATAGGACAAGATGTATATAAAGTTAAAGATGAAGTTATTAAAAATAATAATGAAATAAGTGCTATAAGAACATCTTTGGGAATTACAAATAAGAAAACTCCTTTAGGAAGAAGAATGTTAGCAATGTTTTCTGGTATTATGGTAAAACTTATTCCAATTATGGTAGGGGCGGGATTAATACAAGCAATAATAGCTATTTTAATTCAAGTAGGAGTTATGCCAAATATTGTATTTAAAATTACTGAAAGTTCAGGACCTAACGATGTTCTTTTAACTCAAGCACCTGTTGGATGAGCAGTATTATATGCAATGGGAAGATCAACAACTTTCTTTATGGGTATATTATTGGCAGTTTCAGCAGCAAATTATTTTAAATTATAAGGATTAATGGGAGTTGCTTTAGGAGTTATTTTATGTTGCCCAATGTTTTTTTATGATGGAGGAGCAATGGGTTTAGGAAGTGATTTTGTTTTATTTGATTTAGGAACAATTGATACAGGAAATCCTATGTTAGATGGAATAACTAAGATAAAAGTAAATGCAATGAACACGAAAATATTTGTTATTATTGCAGCTATTTATACTGCAAAATTACTAGATACTTGATTAAAAAGTGTAATACCTGTAGCTTTAGAATTAATGTTTAGACCTTTTATTGTAATATTGGTTGTTGCACCACTAGCTTTTTTTGGTTATGGAATACTTTGAAACTTTGTAGAAACTTTATTTGGTGCTTCAATGTTTTATGTTGGTAAAATTCCATTTGGAATTGGAGTTGGTATATTTGTAGCCTTATGACAAGCTGCTGTAATATTTGGTTTACATATGATGCTTGGAATAATCAGTATGTTAGATCTTATTGCAAATGGTGGTCAAACAGCTTATGGTATTGCAGGATCAATTTCTGTTTGAGCACAAGTTGGAGCATTAATTGGTGTTATCATAGTTACACAAAACGCAAAATTAAGAAAACAAGGTATAGGAATGTTACCTGCTGGATTTCTAGGAATTACAGAACCAATATTATATGGAATTAACTTACCTAAAAAAAGACCATTATTTTCAGGTATTGCAGCTGCATTTATAGCTGGGGCTTTTGCAAATATTTTGAGTGTAACACAAAGAGCTTCATCAGGAATTGGAGTTTTTGAAGCAATTGGATTCTTTTCAGAACCTACTTTAAATGGAGTTGGAAAAATATCACCTGTTTTAAATGGATCATTCTATTTATTAGCATGTGCTGTTTCAATAGGTACAGCAATTTTATTTAGTATGTTAACTTATAAAGAAAGAATTACTGAAAAAACTCTATTAACAAAAACAATTGAAAAAACAATTTTACTAACAAAATTACAATTAAATTTAAATACAGAAGAAATGAAAACTCTTAAAGAAGTAGAAAAAGAAGTCTTAAATATTTTTACAAAAGACTTTAGCAAAAATATAACTAAAAATGAAAAAAATATCCAAAAATATTTAGCTACATCTGAAAAAATAAATACTATTCTCCAAAAAGAAGAAAATATGAAAGAGAGAATGATTGCAAAAGGTAAAAAATATATTCAAAGAAAACAATTTGAAAAATCTTCTTTATTAATGAATGAATATAATGCATTAGATTTTAGTGTAAAAATCAAAGAACTTGAAATTATAAAAGAAAAAGAGTTTAGATCTATTGATTTTAATCTTTTAAATAAAAATGCTTTACAGATTCAAAAGGATGTTGAAAAAATATTAGAAAAAGCAAAGTATTAGATCAAAAAATTATAAGAGAATTGCAACCTATTATTTTCAATAATTTAAATAGTGTTCAAATTCATTATGGACTGTTAGAATCAAAAAATCCAAATATTAATTTAATAGATTTAATTAATGAAAGAAAAAATGAATTAAAAATAGAGCAAAGGAAAAATAAAGTAAATGCTTAATATAACTTTTGATGTTGGTGGAACAGGAACAAAATGTGTAATTTTTGAGAATAACAAAGAATTTGAAAGGCGATATTTAAATTACATTAAAGAAGAAACAGAAGAGCAGAAATTAATGATTCAAACTCCTTTAGTAGTTGTTTTAGAAGAAATATCAAAAGTATTAGATAGTTTTGATAAAGAATTTAATTTAGCTATATCTTTTCCAGGCATTATAGATGCCAAAAATAAAAAGATATTGTCAGAATCAGCTATATCAAATATTGATCTAGATTTAAATAAATACTTCAAAAAGTATAAAAAATTAAATAAATTTATTATAACAAATGATGCAAAAGCTGCTGTACTTGGTGAATACCAAGAAAGAATTAAAAAAAATAAAAGTATTTTTAATATGGTTCATCTTACAATTGGTACAGCTCTTGGAGCAGGAATTATAATAAATAAAAAAGTCATTGATGGTAAGAATTTTCAAGCTGGAGAATTAGGAAAAATGTATTCTAGTTTAGAAAAAAATAATCCTTCAACAGTTGCTATAGACACTGGTTTAGGGTCATTATTATTAAAGTATTTTATGAAAACTGGAAAATCAATCTCAGGAGAGATGCTTTTTAAATTATTTAACAGTAATGATGAACTTGTTGTGCAAATGATGGATGAATTTACATCTCATATTGCTAAATTAATTATAAATATTGATTTTATGCTAGATTTTGATTTAGTAACAATTGGTGGGGGAATAAGTGTAAATGAACAATTTATAAATATGATAAAAAATAAAATCTCAATACATAAAGATTTTTATTAAGGGGAAAAATTGATTTATTCAAATGAAAAAATTGAATCAAAATTTGATGTGTCAATTTTGAAAAATAAAGCTGCATGTTATGGTGCTTTATATTTATTAAATGAGGAGAAAAATAAAAATGAGTAAATTTCCAAAAAATTTTCTATGAGGAGCATCAACTAGTGCTTATCAAGTAGAAGGAGCTATTAATCAAGGTGGAAAAGTTCCATCAATAATGGATAGATTCGATGAACGAGAATCTTATCCTAAAGGAATAACAGGTTTCAAAGTTGCATCTGATCATTATAATCATTGAAAAGAAGATGTAGCAATGATGGCTGAAATGGGGTTTAAATCTTATAGATTTTCAATTTCATGGCCAAGAATAATTAAAAATACTAAAGGAGATATTAATAAAGAAGGTATTAAATTTTACAGTGATTTAATAGATGAACTATTAAAAAATAAAATTGAGCCTGTTGTAACTATGTTACATTTTGATACACCTGATTTCATAGAAGAAATTGGAGGCTTAGACAGTCATAATTTTTCAAAATTATTTGAACATTATTCAAAAGTTTTATTTGAAAATTTTGGTTCAAGAGTTAAGTGATGATTAACAATTAATGAACTAAATATGTTTGCTTTAGCTGGACAAATTATTGGAGTTATTTCAGAAAAATCAAAAGCTACTAAATGACAAATTATGCATAATTTAAATGTAGCTCAAGCAAGAGCAATTAGATTGTGTAGAAAAATGTTACCTGAAGTAAAAATAGGACCTGCTCCAAATATATCTTCAGTATATCCTGCATCAAGTAAACCTGAAGATTATCAAGCAAAACTAAATTTTGATCAAATAAGAAATTGAGTTTTCTTAGATATAGTTTGCAGAGGAGAATATAGTAACTGATTTAAAAACTTCTTAAAATCTATTAATCAAGAAATTGAAATAACAAATGAAGAAAAAGAAATATTAAAAAACTCAAAACCAGATTTTATTGCTTTCAATTATTACTCAACTATGACAGTAGCTGATGTAACTGTAGAAGAATATAAAAAATCATTAGAAAGTAAATCAGATCAACAAATGGGAATGATAATTCCTGGTGTTGGAAAAGCAGTTAAAAATCCAAATCTAGATAAAACTCAATTTGGATGAGAAATTGATCCTTTAGGATTTAAAAATACATTAAAAGATGTTTGAGATAGATATCAACTACCTATTATGATTACTGAAAATGGAATTGGTTCAAAAGATGTTTTAACAAATGATGAAAAAATTCACGATGATTATAGAATTGAATATTATCAAAAACATATTTCATCAATGGCAAGTGCAATTAATGATGGAGTAGAAATGATTGGATATATGCCATGAAGTGCAATTGATTTAGTTTCAACTCATGAAGGAATTTCAAAGCGTTATGGATTTGTTTATGTAAATAGAGATGAGTTTGATGAAAAAGATATGAAAAGAATTAGAAAAGATAGTTTCTTTTGATATCAAGAGTTAATTAAAAATAATGGAGAAAATATATAATGAGCAAAAAAATAGAATTTCCAAAAGATTTTCTTTGAGGAGGAGCTACAGCTGCAACTCAAATAGAAGGAGCATATGATGTTGATGGAAAATCTCTTTCTATACTTGAAATGATTCCCTTCATAGAATTAGAAGATAGAAAAGATCTTTCTAAAACTCGAAACTTAACTACTCAAGATTTTCTAGATTCCATAGAAAATAAAAAGGGTTTACACTACCCAAAAAGATTTGGTAATGATTTTTATCATAGATATAAATAAGATATTAAATTATTTAAAGAAGCTGGTTTAAAAATATTTAGAATGTCAATTGCATGAACTAGAATTTTTCCAAATGGAGATGAAAAGGAAGCTAACAAAAAAGGTTTAGAGTTTTATAGAAATGTATTTGAAGAGTGCAAAAAAAATGGTTTAGAAGTTATGGTTACAATGAATCATTTTGATACACCATTTCCAATAATTCAAAAATATAATGGATGAAAAAATAGAGAAGTAATTGATATGTACTTTAAATATGCAAAAGTTATAATTGATGAATTTAATCAATATGTAAAATATTGATTACCTTTTAATGAAATTAATTTTGGTGTGCTTTTCTCAGCATTGGGTTTAGAAGGAGAAGTTGCTCCAAAAAGTTTAAGGGAAAGAATTGCTTCCAGTTATCAAGAATTACATCATCAATTTATCGCTCAAGCTAAAGTTGTTGAATACTCTAAAAAATTCAAAAATATCCAAATTGGATGCATGGTTGCTGATGCAACAACATATCCATTAGATTGTAATCCCATAAATGTTTTGGAAAATCAAAGAAAAGAACAAATGAAAAAATTCTTCTACTATGATGTAATGATTAAAGGAGAATATCCAAGTTATTCAAAAAGAATTTTTAAAGAAATGGGAGTAGAAATTAAAATGCAAGAAGGAGACTTAGAACTTTTAAAAAATAATCCTGTAGAATTTATTACATTTAGTTACTATATGTCATCAACAATAGCAAAACAAGAAGGTGAAATGACAGAAGGAAACTTAATGAAAATGGGAAAAAATCCTTTTTTACGAGCAACTGAATGAGGGTGACAAATTGATCCATTAGGATTAAGATATGTTTTAAATCAGTTATGAGATAGATATCATGTTCCATTATTTATTTCAGAAAATGGAATTGGTGTTTTAGAAAAACTAAATGAGAATAAAACTGTTGAAGATGATTATAGAATAGAGTATTTAGCTGAGCATTTTGAACAAATGAATGAAGCTATCAAAGATGGAGTTAATTTATTTGGTTATACTATGTGAACTCCAATTGATGTTGTTTCTGCAGGTTCAAATGAGATGTCAAAGCGCTATGGAATGATTTTTGTTGATTATGATGACTATCATAAAGGTAGTGGAGATAGATTTTTGAAGAAATCATATCATTGATTTAAAAAGTTCAGAGATACAAATGAAATTTAAAATAATAAAAAAATTACTTTTTTAAAGTGATTTTTTTATTGCTAAAATTATATTAGTGAGGAAATTTATGAAAAGAAAAATTGGAATATCAATCTATCCTGAGCAATCAACTTTTGAAAAAGACAAACAATATTTGGATTTAGCCAAAAAATTAGGATATGAAGTAGTTTTTACAAGTTTATTACATTTTGTAGGACAAAAAGATGATAAGAAAAAAGCAGAAATGGTTTTAAAAAGCGTTAAATATGCAAAAGAAATTGGTTTTTATACAATAATGGATGTTGAATATAAATCAATGGAATTAATAGCAATTAATGTCAATGATATAGCAAAATGTAAGCAATATGGAATTGATTGTTTAAGATTAGATTCTCCTAGTTTACCCTTTGAAATAGCAAATATTACGCATAATAAATTTGATATAGATATTCAACTAAACATGTCAAATAATGATAGTTTAATTGATAATGTTATGGACTTTAAACCAATCAGAGAAAGACTTAGTGGATGTCATAACTTTTATCCTTTAGAATATACTGCATTACCTTTTGAATATTTTAAGCAAGCAAATCAAAAATATTTAAAACATAATCTTTCAACAGCAGCTTTTGTGGGAAGTCACTTTGGACTAATGACAACAGCTGTTGATTGAAAAGAATTACCTACTTTAGAAGAACAAAGAAATCTTTCTATATCTGAACAAGCAAAAATTTTGTTTTATACTAATGAAATAAATCTTGTTTTAATTGGAAATGCATACGCAACAAGTGAGGAATTAGAAGAACTTGCAAGTATTGACAGATACGAGATAACTTTAAATGTAAAACCACTTTATAAATTAAGTAAAGTTGAAAAAGATATTTTAAAATTTAATCATTTTAGAAGAGGAGATATTACAGAATATTTTGTGAGATCAACTTTTTCAAGAGTTGAATTTAAAAATGAATCTATTGAAGTAAAAAATACAAAAAAAACTTATAATAGAGGAGATGTTGTCATTATAAATAATAATGATGCGAAATATAAGGGTGAATGTCATATTATTCTAAAAGATAATTTTGAAGATAAACAAGAAAAATATAATTGAATAGGTACTATTAAAGATAGTGAAAAAAGATTAATTGACTTTATTGGTCCATGAAATCATTTCAGATTTGGAATAGAGGAATAAATATGTTATTAGCAGGTTTAAGTACTGGAACTTTTTGAACATTATTTGGTTTTGGAATATTGGGATTATTATTAGGAATATGTTCAACTATTTTCTTTGTAGTTTTTAAAAGAAATAAGAAATTAGAAAAAGAATCATTTAAGGTAGTTTCTACAAAATTTAAGATATTTAGATTTTGACAATATTATGGAATTTTTACACTAGCATTAGTTGGTTATTTAATGGCTTTAATATTTTTAGGTATTTGTCTTGGAGAAATTATTTAATATAAAAATATTTTTATAGTGCATAAGAATAATATTTTTTCAAATTTCATACTAAAAAATGGAAAATTTCTTTACTTTTCCATTTTTTTTTTGTAAAATTTTCTTAGAAATTAATAGAAAGGAAATAGAATATGAAAGATAAAAGTATACATTTAACTAATGAAAAAAAGTTAAAGACGAAAAAAGTTAAAGATGAGAATAACTCTGGAAGTTGAAACAAATTTTTAACAATGCTTCAAGAATTGGGAAAAGTTTTGCAATTTCCAATTGCTGTTTTACCTTTTGCAGCTATTCTAAATAGATTTGGTGCTTTAGGTATTGGATATTCAACAGATGCTGCTGGAAATATTACTAATCAAGTAGGTTATTGAATATCATTGATTATTCAAAAACCAGGATCAATTCCATTTGATAATTTACCAATGTTATTTGCAATTGGTTGTGCATTTGGACTTGCAAAAGATCATAGAGGTGAAGTAGCATTAGTTGCAGTGATTTTTTACTTATCAGTTTCTGCTCTTACTGGAGAAGGAACTTTACCAAATATGATTTATGGAAAAACTTTAACATTTACAGATAAAGATGGAATAGAATGATCTAAACTACTTTATGTTAAAGTGATGCAAGATAAAGATGTTATTAAAGGAGGAACTTATGTATTAAGTACAGGAGTTCTTGGAGGGATTGTAACAGGTTGTCTCTCAGCATATTTTTATAATAGGTTAAAAGAAATTAAACTTCCAACCGCTTTATCATTCTTTGGAGGTCGTAGATTTGTTCCAATGGTTGCTTTAGCAGCATCTATTCCAACAGCATTTGCTTTTGCAATTATTTGACCTTGAATTCAATTAGGATTAATTAGTTTTGGAACAGCTGTTGCTAATCCAGACAATCCAGCTGTTGCTATTCCAGGAACAACAGCTTATGCAGTATTAAATAGATTATTGCTTCCATTTGGTTTACATCAAATTATGAATACATTCTTCTGATTCCAAATGCCAGTAACTGGAAATGTTGTATCACCTGGATTTGGTTCAAATCCAGTTATTGGTAGTGAAACAATAACAGTAATGGGAGATATAAATGCTTTTTCTAAAGGAATAAGTACATCAGGGTTATTCCAATCAGGATTCTTCCCAATTATGATGGGTGGATTGCCAATGGCAGCTGTTGCTATGATTATGACATCTGATAAAGCTAATAGAAAAGAAATAGCTGGATTCCTTGGAGGAGTTGCTGGAGTTTCATTCTTATCAGGAATTACAGAACCATTAGAATTCTCATTTGTATTTATTGCACCTGTATTATTGGGAATTCATGCAGGATTAACAGGAATATTTATGGCAATAACATCAGCAATGAAAGTTCAAATAGGATTTGGATTTAGTGCAGGATTTATTGATTATGCGGCTTCTCTACCTCAATCTTGAGCATTAGCTAATGCTCGTGACTCAATTATTTCAAATCCATTATGAGTACTTGTATTAACCGCAGGAGCAGGAGCTACTTATTACTTTGTATTCTACTTTACAATAAAAGGTATGAATCTAAGTACACCAGGTAGAAATGTTGAAGTTGCTTCAAATAATCAAGTAAATACAGCTAGCAAATTATCAACTATAAAAGAAAATTCATCAAAAACTGATAAATATGAAGTTATGGCAGAAAAAATAGTACAAGCAATTGGAAAAGAAAACTTTGTAAGTATTGACAATTGTGCAACTAGATTAAGACTTATACTAAAAGATAACAATAAAATTGATGATGCTCTTATAAAATCAGCAGGAACATATGGAATTAAACGATTAGGAAATGAAAGTTTACAAATTGTTATTGGACCAGATGTTGAACATGTTGCTAATTCTGTAAGAAAAATCGTTGAAAAATAGTTTAAAATCTAAAAAGAAATGATTTCATTTCTTTTTATTTTTGGAGGCATTTTATGGCATTTAATTTTGATAAAGATACTGATTGAATATTCACTTTTTGTAAAAACTGTTGAGATTTTAAAAAATTTGTATTTTCTAAACCTATAAATTTTGAAACAAGAGACTCTTATAAAGGTATTTGCACTAATTGTAAAAAAGATCAAAGAATAAATTTAAAAGAAGCAAGGGATTATTATGATCATTTAAATGATCATAATAATTAGTTAATATTATGAATAAATTTCCTTGATGAGTAATACTTATAGTTATTGTTGTTCTCTTGATACTTTATTTTATTATTCCTTGAAATAAAATTAAAAAGAAAAGAAAAGAAAAATCAGATTTGATAAATGAACCAAAAGAGTATATAGATTCTGAAATTGATAAAAAAATAACAGAAGCAAAGGAAAATCCAAATAATAAACCTATGTTAGGTATTTATAATTGATTTGGTAAAAAAGAAGCCTTAAGATTAAAAACTATTGTTTATGTTCAACCAGAAGAGGATAGTTGTGAATTGTGTAGACCTTTTGAAAATCAAATACTTTCACTTGAAGAGTATGATAATCAATATATTACAATGAAAGAAGCTATCTCTAAAGGTTATCATCATATAGGATGTAAGCATATTGATCTTGATTATTTTACTGGAACTACAAAAATTCCAGAGAAAAAGTTTAGTGAAAAAGAGCAAATTGAAAAACACAAGATAGTTTTAGGACTTTATAAATTAGAAAATGAGATAAGAAATTTAAAATATGAATATGATAATGTTAAATCTTCAGAAGAGCTAAATTCAAAAATAAGTCAAAAGTCTGATGAAATTGATGAATATTGTAAAAATAACAAAATTAATAGAAATCTGGAAAGAGAAAATCCAAGTATCACTGATCTTGAAAAATTCAGATAAAAAAACCTCATAAGAATAAGTTATTCTTATGAGGTTTTTTAAGTTAAAATTTCATCAATATCAGATTGTTTAATAGAATTTAAATTATTAGTATCTTTTACTATTTTTCCTTCTCTAAAATATATTAGTCTAGTGCAAATTTTTTTAATAATTTCTAAATCATGATCAATTATAAATACTATTTTAAAATTTTTACTCATTTCTATTACTTTATTTAATAATTTCTTTTTTCAAGCATTATCTAAAAAATTAAATGTTTCATCTAAAATTAAAACATCTGTTTGCATAAATTCAATTAACATAAATTTAAATCTTTGTTTTTGTTCTTCAGATAATTTGGAATAACTAGTTTTTTTATAGTTTATAAGTTTATATTCTTTCAATAACTCTTCTAAACTAATATTCTTTATTGTTTTAGATAAACTTGTAAATAATTCAACTATATTTAAAAGCGAGACGTTTACAAAATCACTTTTTTGTTTTAAAATTGTATAACTGTATTCTTTATCTAAATGAATCGCTTTTTTTGATTTATAAGTATTTGAAAGTAACTCCAAAAAAGAGGTCTTTCATGAATCATTTGCTCCCATTATCGCAATTATTTCATTTTCATTTATTTCCAAATTCTCGATTTTTAAAGTGAAATTATCAGATATATTTTTATTTACATTTATTTTCATACTATTTTTTCCTTCTTTAATTTTTCATATTGTTAAAAGCAATATTATAATAAAGTAATTCATTGCTAGTGCAACTCAAAAAAAGTTATTAATACTATTCATAATAGATATATTTAATATTGGAATTAAAGATATTATAATTAACAAAGCATTATTTTCTATTTGCATTATAGGTCCAACAGTTAATTGTGCTATAATCGCCAAATATATCAATAAACTACTTGTTAGAAATATAACAATATCTTTATATTTATGAAAAAATCTAAAGCATATAAATAAAATTGTAACTAACAAAAATAAATAAGTTATAGAAACAAATAGACTATCATTTATTAGATTTAAACACCCATATCTAGAGATGCTAGTACTATAAGCACTCATAACTCAGATAAAATTAATTAATATATTGACAAAAGAAATAATAAAACCATTTAAAAGATAAGAAAAAATAATTTTATTTGATTTAACATTCAAACTAATAAAATGATTTCAAAGACCACTCTTATAGTCCTTATACAAATATAGGATATAGAAAAGTAAAATAATAGTATTTCCTATACTTAAATAGTTAATTCTAATTATTAAAGTTATTTCACTAACATCTAATCAACTATTACTAATTAAATTACCAATATCTATAAAGATTCATCCATAGCTAAAAAATGCAGCAATAAGATATACATATCATAATTTTATAGATCTCTTATAATTAAATGAAACTATTTTAAACATAAATATCTCCTTTTTTATATAATACTCTCATAAAACATAATATAAGTTTTCTAAAAATTTCATAAATATTTTTTAAAAAACTTAGTATTTTTCAAAAAACTATAGTATAATAATTAAGGTTTAAAGAAAGAAGCGCACAGCTCACCGTAATTTTTAAAGAAACGGTAAAACTTATTTATTATTCGTATATACAATAAATAAATTTTAAGTGTGCTCCTAATCTTTTAACGGCACACTTTTTATTTTGGAGGACAAATGGCAGACAATAGAAATATAAAAACAGATTTTGTTAATAGAGAAATTAGAGCAAAACAAGTTTTAATTATCAATGATGATGGTACAAAGAACGGACCACTAAATAAGTTTGAAGCTTTAAAGTTAGCAGAAGAAGCAGGTTTAGATCTATTTCAAGTGGGTATGCAAGATAACTCAACAGCTATAGCTAAAATACTTGATTATGGAAAATATAAATACGAACAAAAACGTAAACAAAAAGAAAATAAAAAAAATCAAGTAAAAGTTGAAAACAAAGAAATTCGTTTAACTGTTGGAATTGGTGAACACGATATGGATACAAAAGCTCGAAAAGCTAGAGAATTCTTATTAGCAGGAGATAGAGTTAAAATTTCATTAAAATTTAAAGGTAGAGAAATTACTTTTCAAGAATTTGGAAAAGAAACACTAGATAAGTTTTTTGCAAAAATAGAAGATGTTGCAAAAATTGAAAAAGAAGCCAAACTAAATACAAGATTCTTAGATATGTATGTAGTGCCAAAAAAGGGTTAATTATAGGAGGAGAGAATTTATGCCAAAAATGAAGACAAAAAGCTCTTTAGCAAAAAGAGTTAAAAAAACTGGTGCAGGTAAATTAAAAAGAGGTAAAGCTTATAGATCTCACTTAGCACAAAATAAATCAACAAAACAAAAAAGACATCTTAAAAAAGCAACTTTCGTCTCAGCTGGAGATATGAAACGTCTAAAAGGATTATTACAAAACTAAAAGTAGGAGGTAGAACAATATGGCAAGAGTAAAATTTGGTAAAGTAACTAGAGCAAGAAGAAAACGTTGAATTAAAAGAGCAAAAGGTTACTATGGAACAAAAAAAGCAAACTATAAAAAGGCTCATGAACAAGTTGTACGTTCTATGGCTTATGCTTTTGTTGGACGTAAACTTAAAAAACGTGATTTTAGAAAGTTATGAATTATTCGTATAAACGCAGCTGTTAGACCATTAGGATTAAGTTATTCAAAATTCATGAATGGTTTAAAAATAGCAGGAATTGATATTAACAGAAAAATGTTATCTGAATTAGCAATTCATGAACCAAAACAATTTGAAGCAATTGTAACTTCATCTAAAAAAGCTTTAGAATCTAAAAAATAATACAAATGAGTTATAAGCTCATTTTTTTATTTGTGATAAAATGTTGTTATATTTGTAAGAGGTAAATTATGGCAAAAATTTTAGAAAACAATGAAATTGAATTTACAAAAGATGATTTAAAATTAGCTTGACAGAATTCTCCAACTCTAATTAACAAAGATGAAAAAGACTTTAGAATGTGTTTTATTTGTAAATTTTTTATGATTAGAGAAAATTTTGAACAAGGAGATCTAGCATGAATTTGTGAATTCATTGATTTAAAGCATTTTAGTTTAGAACCTGTAAATTTAATTGCAATTCACCCTGGATGTAGAGAATTAAGACATAAAGATGATTGTACAAAAATTGTTAAAAAAATAAAAGCTGCACAATGAAGTGCTGTTTAAATAAGATTTCTAAATAGTATTTAAAAAAATAAGTAAAATTTATTTTGACTTATTTTTTTATTTAAACTTAATAAATATTTATATTCTATTAGTTTAATATTAAATAAAAAGGTAATGAAATAATGAAAAAACAAACTAAAAAAATTTTAAAAAAGGCTTTAAAATTAAGAACAAAAAAAGAATATATTGATTCTAATTTATATTTAAAAAATATTATAGAAAGTGACAATAGTGCATATATAAATTATCAAATGGCTTGAAGTTATGATCTTTTAGGTGAAGAAAGTAAAGCAGTTATTTTTTATTTAAAAGCATTACAAGGAGTAGAACTTAAAAAGAAAGATCAATTAGAATGTTTTATTGGTTTAGGAAGTTCATATAGAGTTATGGGAAAATATATAGAAGCACAAAAAAATTTTGAAAAAGCACTATTAATATTTCTTTCAAATTTAGTTTTAAAATATTTCTATGCTATTGCCACTTCAAAATTTAAAAAATTACTCTTTATCTTTTAAAATATTAACTGAAATTATTCTAAACAAAAATTCTAAAAAATTATTGTTAAAATATAAAAAAGCAATTAACTTTTATTCTACAAATCTTGATATGATAACTAATTAATTTTATTAAAAACTTTATTGTAAACTTTTTCTATTTAAAAGATAAAGTTGTTTTAATGATTTAAAAACTAATACAAAAACCTTATACAGGCTATGATAGTGTGTTACTATTTTGATTCAAGATCAATCTTGGGTTTATAAGTGTAAAGGTTTTAACATACATAAAGAAATCTCATTTTTATTTTTAACTTTTTTTCTTGAGTTTTATTTTATCAAATAGTATAAATATACAATTCCAATTTTGTAAAATTTAACCAAATAATGTCATAAAAATACAGGTTTTAAAGCCTGTATTTTTATTTATGTAATATACTTAATTAATAAATAGTATTTGTTGTTGCTATATTTTTTCTTTGATTATTTTCTTTTGTAGTTAATTCCAGTTAAATTTTGAACTTTTGTAAGTTTTTTTCTAGCTATTTTTTTAGCTTTTTCAGCACCTTGTTCTAATCAAGTATCCACTAAATCTGAATTACTTAGTTCTTTAAAACGTTTTTGAATTTTTTCCAATAATTCAACTACAACATTTGAAACTTCTTCTTTTAAGAAACCATAGTCTTTTCCTTCAAAAAATGATTCAGTTTCTTCAATCGAGACATCTTTTAAAGCAGAGTATATTGTCAATAAGTTACTTACACCAGGTTTATTTTCTGGATCATATTTAATTAAATTTTCTGAATCAGTTACTGCTGATTTAATTTTCTTTCTAACTTCATTTATATCATCTAACAGTGCAATGAAACTTTTTGGATTTGCAGCTGATTTTGACATTTTTTTTGTTGGATCTTGTAAATCCATTATTTTTGAACCAACTTTAGGAGTATAGTCTCCTGGAATTGTAAACATTTCTCCAAATTTATTGTTCATTCTTTCTGCTATATTTCTTGCCAATTCAATATGTTGCTTTTGATCTTTTCCAACAGGTACAAATGCAGGATCATAAAGTAAAATATCTGCTGCCATTAAAACAGGATAAGTTAATAAACCTGTTGGAATATATTCAGTTCCATTTTCTGATTTTACTTTAGTTGATTTATCTTTAAATTGGGTCATTCTTTGCAATTCTCCAATTGTAGTATTACAAGTAAGTATTCATGCAAGTTGTGTATGTTCTAAAACCTCACTTTGAACAAAAACTGTTGATTTTTCAGGATCCATTCCACAAGCAAAGTACAAAGTTACCATATTTTTTATATTTTGTCTTAAAGTTTCTTTTTCGATTGGTGATGTTATTCCATGTAGATTTGCAACAAAAACATACATTTCAAATTCATCTTGAAGAGCAACAAAGTTTCTCATTGCTCCAATATAATTTCCTAATGTCATTTGTCCAGTTGTTGTTATTCCAGATAACATTCTTTTTTTATTCATATTTTTTGCTCCTTGATTTACAATTAATATTATACAATCTTTATATATTTTTCTTTTAAAAATAAGTAAAATTAATTGTAGTTTAGAGGTGAAATTAGTGTTTTCTTTTAGCATAATTAAAAATGATTATAAAGCCACAGAAGAGGTAGTTTCTAGTTTAAGAGAAAAACTTGAAAAAAAGGGCTGAAAATATAGTGAATTAAATCCTAATTATGTTTTTATATTCGGAGGAGATGGAACTTTTTTAAAAGCTGTTTCAATTTATAAAGATAAAATAAATGATATTGAATTTGTTCCTTTTAAATCAGGGGGAATTGGTTTTTATACAAATAAAAACAGAGTAGAAAATATTGACAATACAGTTAAATTAATTGAAAGTAAAAAATATAAATTAAATTATTTTGAATTATTAGAAATCAAAACTAAATCAAAAAAATTAATAGCTACTAATGAAATTAAAATATTAAATGAGAAAAATCCTTTATATATAGAAATTTATATAAACGATGAGTTTTTAGAAAGATTTCATGGAACAGGAATAGTTGTTTCAACTTCAAATGGAAGTAGTGGATATATGAAATCAACAGGGGGAGCTGTTATTCTTTCAAAAGATAGTCAAATTTATCAAATGCAAGAATTAGTTCCAGTAAGTACAAATAAATTTAGAACTCTAAATGCACCTTTAATTTTGAATAATAAACACGTATTGAAATTTAAATTTGAAAAACAATCAAATGAAATAATGATAATTGATACTGTTGAGTATCCAATTGATGAGGAAGAAATTGAAATAAAACCTTCAAAAATTAATATAAAAGTAGTAGCAGATGATAACTCTGTAAGCAAAATAAAAATATTAAGAGATATCTTTATAAAAGATAAAGAAAGTATAGAATAAAATGAATCTAATTATATATATTTTATTAGCTATAGCTTTTACAATTTGTTTTATATCTTTATTTGCTTATTTTTCAATAACAAAATTTGTTAAAAATAAAAAGACAAAGTTTGGAATTGATGCTGTTGAAAAAGCTTCAACCATTTATAATAAAATTCTAAAAGAAATTGGTACTATAGAAAATATTGATGAAATTAAAGAAGAAAAAATAATTGTTTTATCTAATCAATTAGTAAATATTGATAATTTAAGAAAATTAAAAATAAAAGCCCAATTAATAGAAAAGGAATTAACTTTAACATCAAAAGAATTTTCTATTAAACTTTTTATTAAAAGATTAAGAGAGGAAATAAAAAAATAAGATATTTTTATCTTATTTTTTTATTGTAATTATATATACCACCTTGAAGCGTTTTTGCATTGTAACCTAATTGACTTAAAAAATTGGCAACCTGACCACTTCTATTTCCAGCATTGCAGACAGTTACAATAGGCTTATTAGTTGGATTATACTCATCAAGATATTTTTTAAAATTATCTAAAAATTGATCTATATGAATATTTATTGCTCAACTAAAATGAGGAAGTGTTTTAAACTCTGTGCGAGTTCTTACATCTAGTGTAAAGTATTTATCCTTATTTAGTGCGTAATCTTCTACTGAAATAAACATACTATGACATCCTTTCTCGTAAATATTTTATTCTTTTATTTAAAAATAAAACAATATTTTTTTATTCAAAAACTTTACTTTAACTTTAAATAACTTATAATTAGAGAGTATTTAATTCTGATTGACGTTTATTTAAAAAGAACTAAACAAACAAATAATAAGAAATAAAGAAATGGAGAATAATATGGCAGATATAAAATTTATGGCCTTAGGTGGTCAAGATGAGAGAGGAAAAAATATTTTTGTTATCAGCGTTAATGATAACTTATATATATTTGATGCAGGAATTAAATTTCCAGAGAGAAGTGTTTTAGGAATAGATGTAATTATTCCAAATTTTGAGTATTTAAAAGCAAATTCAAAGAAAATTAAAGGGATTTTTCTTTCAAATCCAAGTTCAAATAACTCAGGAGCAATTAGTTATATTTTAAGAGAAATAGATGTTCCAGTTTATTGTAATGAACTTACAACAACAATTTTGAAGTATAGAAATATGAAATATAGAATTAAAAATAGAGAAAATAATTTTAAAATTATTAATGACAAAGATATAGTTTCATTTGGGGATGTAAAAATTGAAGCGTTTAGAACAACTGCAGCATTTCCAGAATCTTTTGGATTTGCAATTCATACAGAAGATGGAGTTATAGTTTATGCAGGAGATTACATTATTGATGGAAATGAGCAATCATATTTTTCAACAGATATGAATCATTTAAATCAAATATCTCAAAAAGGAGTTTTAGCTTTTATAAGTGATGCAGAGTATGCTTCAAGAATTGGCTATACTGTTCCAAATCACAGAATTGATAAATTTATTTCAGCACCAATGAAAGATAAAAAAAGACGTCTAATTTTAGGTATGTTTGAAGAAGACGTATTTAAACTATTTGAAATAATAAAACAAGCAAAAGCAAATGAAAGAAAAATTGCTGTTTATGGAAAAACAATTACAAAAGTAGTTGAATCAAAAGTAATTCAAGAGAGTTTACAAATTTCTTCAAAAGATATTATAAGTATTGAAGAGTTTATGAAATCAGAAGATGGAATTTTGCTTTTAACAGGAGCAGGAGATCTTTTATATACAAGACTTGCTAAAATTGCAGCTGGAAATGATGATAAAGTTGAGTTTACAGAAAATGATACAATTATTTTAGCAACTCCTCCAGCAGCTGGAGTTGAAAAAAGACATGCAGAAATTTTAGATGAATTGGCAAGAACAAATGCTAAGTTAGTATCATTGAGTGATAAAAATATTTGATCGATGAGAGCAAGTTATGAAGATATTAAATTAATGACAAGAATAATGAAACCAAAATCATTTATTCCTATTAAAGGTTTATATAAAGATTTTTTAAATGCAGAAAGAGCAGCTATTGAAGCAGGAGTAGACAAAAGAAATATTCAATTAATTAATAATGGGCAAATTTTAAAAATATCTAAAGAAGGTAAATTAGTAATCGCATCTGATTCAATCAAAACAGCAGATGTTTATGTAGATGGAATTGGAGTTGGCGATATTGGTGCGGTTGTTTTAAATGAAAGAAAACAATTGGCAACAGATGGAGCTGTTATAATTGGTGCTAATGTTAATAATAAAACCAAAGAATTAATATCATTAATTGATATTCAAATGCGTGGAGTTATTTATATAACAGAAGAAAATGCAATCTTTAAATTAATGCAAAAACAAATTATTGATATCTTAGAGAAATACAAAAATGAAGCAACTTCAAATCCAAATGCATATGATTTAAATGTTATTAAAAAAGAAATTGTTTCTAGAATTAGAACTACTTTAAAACAAGAAACAGGAAAACAACCTATTGTTTTAGTTATAATTAATGAACTTGATGGATCATTTTTTGAACCAAAATCTAATAAAATAAAAAACTCATAGTCTTTAATAACTATGAATTTTATTATTGATTTAAAAAGTCATTAAAATATATTAAAATTATAAGGTAAGGGCAAACAAATATAAGGTGAAATCATGAATAATTTCAATGGGCAAAATAATCAAAATGATAATGACCGCACAATAGCTTTTACTATTCAAAAAAAGCAAAGAAAAGTAGACTCAGTAGCTTGAATAGTTGGAGCTTTATTATTATTTTTTATAAACCTAATATCATTGGGCAGAATTACCATAATTGGTCAATTTATAGATGATGTAATTTTTAATTTGCCTTTTGGATGATTTAAGTATTTCTTATATGCTCTATTCTTTCTAATTGATTTTGCAATCTATTTTGGAATTAAATTTAAACCAAAAAAGAGATTTATTGCAATGATTTTTCTAACGTGAATTGTTTTGTGTTGAATAATTTCATCAATTTTATTTATAGTTGCATATCATGTGCAAACAGAACAATTTAAAGTTGAAAATATTTGATCAAAGACAATATTAAAAGATTCTATAGGTTCATATGTTTCAAATTGAAAGAATAACTCTTTGTGAGGAGAAGACAATGGAACTATTTGATTGGCTAAACCAAATACATACTTTACTTTTTGAGCTGGTGGGGGATTAATTGGAACAATTCTTTCAGGTATTGGAGCATATACTTCAATTTATTTTGGACTAATTATTTCACTATTTTTCTTCACTTTAGATATGATTTGAATTTTTACAGGAGATGCATTTTTCTTCTTTAAACCAAAATCAAAAAGAGTTGGAAAAAGATTGAGAATTTTATCTTTAAAGAATAATAAAATTAACATTAGAGACCATAATTATTCAAAACCTAAAAGAGAAAAAACAGCTAGAGGTATTTTCAATATTATAAATGTTGAAGATGATGTTACTTTTGATGAAAGACAAATTCTAGCATCTGTAAAAGAATCAGATATAACTATAGAATTGCCGAGCTTTAATAGATATAAAGAAAAAAATATTTATCAAGAAGTAGACAATGATTTTTACAATGATGACTTTGCAAATATTGATTTGGAAAGATATAATTTAAATAGAAATTATCCAGAAGAATTTGTTCAACAACCAAATCAAGGTATGAATAGGGTTGTAGATTTTGATTTGGATAAGCGAAGAGAAGAAGCTAAAAATCGAGCACAATCATTGGTAAAAGAAGAACCAACTTATATGCCAAGAAGAGAAAAAGACTATGAATACAATATTCCTATGCCAATGGAGTCAAAATATGGTCAAGTTTCAACAGAACAAGCACGAGAAGAATTGGCAAAAGAAACTAATATAACACCATTTGGAGCAAATGGTAAAACTCAAGAGCTTTTAAGAACAAGAAATAAAAAAGAAAAGATAAATGATAATTTAAATGGTCAAATTACTTTAGATCATTTTATTAATGAAACTCAAAAAGAAAAAGAAGAAGCAAAAAGACAAGTTGAGGACTATGGAACTTATACTTCACCAATGCAAGAAAATCTTGCAAGAAATATTTTATATTCTTCAAATGGATATCAATCAAGAAATAATTATAATCAAACAATTGAAGTCAATAAAAATAAAGCAGTTGAGAAAAAACAATATGTAAATAATTCTTATCAATTACCTTCAATTGATATTCTTAAAGAAAGTATTACAAATTCTAAGGATCAAGAAGAAACAAGAATGATTGCAAAAGAAAAGGCTGAAAGAATTAATGAGACATTTAAACAATTTGGTGTAAAAGCTGCTGTAAAACATATGAATATCGGTCCAAGTGTTATCAAATTTGAAATTCAACCAGAGCCAGGAACAAAAGTTAACAGTATTACGTCTCTTGAAAATGACTTAAAATTAGCACTTGCAAGTCAAAATGTTAGAATTGAAGCTCCAATTCAAGGTAAAGCTGCAGTTGGAATTGAAGTACCAAATGAAAAACCAGAGATGGTACCTATGAGAGGTGTTATTGAAAATACACCAATTGTTAAAATGTCAAATAAACTACTATTTGCAATTGGAAAAACTGTTACAGGAGAATTATTATTTGGAGAATTAGATAAAATGCCACATTTACTTGTTGCTGGTTCAACTGGAAGTGGTAAATCAGTTATGATAAATGGAATTATTTCATCTATTTTAATGAGAGCAAAACCTCATGAAGTTAAATTCTTAATGATTGATCCTAAAAAAGTTGAAATGTCAGTATATTCTACAATACCACATTTATTAGCACCAGTTATAAGCGATATGAATATTGCAAATAGTGCTCTTAAAAAAGTAATAAATGAAATGGAAAGAAGATATGCATTATTTACAACTCATGGTGTAAAAAACATAGCAGGGTTTAATGCAAAACAAAGCTCTGCTGCAAATAAATTACCTTACTTTGTAATTATTATTGATGAATTAGCTGACTTAATGATGACTTCAAATAAAAAAGATGTTGAAGATTCAATTATGAGACTTACACAATTATCTCGTGCTGCAGGTATTCATTTAATTGTTGCAACTCAAAGACCTTCAACAGATGTTATTACAGGAGTTATTAAATCAAATATTCCTGTAAGAATAGCATTTTCAGTTGCCTCATCAATTGACTCAAGAACTATTCTTGATTCAAATGGAGCTGAAAAATTAATTGGTAAAGGTGACTTGCTATATACAATTCCAGGAAGTACTTCACTTGTAAGAGCACAAGGTGCATATATTAGTGATGAAGAAATTGAAAGATTAGTACAACACTGTTCAAGTCAACAACAACAAATTTTTGAAACGGACTTTATAAAAGAAGAAGAGCAAACATATTCAGTTAATTTGGGAGCAGGAAAAGATTCAATGTTTGATGAAATTAAAGATTATGTAATTAGAACTCAAAAAGCTTCAACAAGTTTAATTCAAAGAAAATTTAATATAGGTTATAATCGTGCTGCAAGAATAATTGATGAACTTGAAGAAAGTGGAATTATTGGACCACAAAATGGTTCAAAACCACGAGAAGTTTATATTAAAAATGAAGATATGTATTAAAAATCAACAAAATAACTGTTGATTTTTTTTACACTATATAATAATAAAAAGGAGAGATTTTATGGAAAACATAGTGAAAAATTTACCAGAAAAACCTGGTTGCTATTTGTATAAAAATAAAGACAACAAAATAATCTATGTTGGTAAAGCAAAAAATCTCAAAAAGAGAGTTTCAAGTTATTTTAATAAAGCTCACAATTACAAAACTACTAAATTAGTAAGAGATATATGTGATATTGAAACAATAGTTACAGAGAATGAAAAAGAATCATTAATTCTTGAACAAAATTTAATAAAAAAATATAGACCAAGATATAACATTGTATTAAATGATGATAAAAAATATCCTTACATTGCAATCACAAAAGAAAAAGATCCAGTATATGTTTATACAAGAAATTATGATAATAAAAATCAGATATCTTTTGGACCGCTTCCTGATGGAACTAGTGCTAGAAATATTTTGAAAACCTTAGAGAGAATTTATCCTTTAAGAAGATGTAAAGGTAATTTAAATAAACCTTGTATTCATTTTCATATTGATCAGTGTTCAGGTGCTTGTTTTAAAGAAATTGATCAACAATACTATCAAAATCAAATCAATAACGTAAAGAATTTTTTTAATAGAACAAACGATGATTTTAAGAATAAGTTGGAAGAAAAAATGTTTATTGCTTCTAATAATTTACAATTTGAAGAAGCACAAAGAATTAAAAATATTATATCTCATTTGAATTTTTCAATTGTTGAACAATTTGTTGATTTTAATGATAATTTGAACAGAGATGTATTTAATTATTATCAAACACAAGAGTATATTTGTTTTATAGTTTTATTTTATAGAAGTGGAAAGTTAATATTAAAAGATCAAATAATAATTAAAAATGAAATAGAAGATATAAATTCACTCTTTGAAAATTTTATTATGCAAATATATTCAAAAAACATGCTCCCTGACTATATTGTTATTCCAGAATCTCTAAATAGTAGTAGTTTAAAATTGTTATTTCAAAATAAAATAACTTATGCTTTAGATGATTCGAGTTTAAAAATTTTGGAATTGGCAGAAAATAATGCAAAAGAATACATAAGACAAGAAGAACTTTATAAAAAACAAAAATCAATTAGTAAAGAAGAACTTTTAGATACAGTTCAAAAAACTTTAAAATTACCTAAATACCCTTATCATATAGAAATGTTTGATGTTGCAAATATTTTAGATGAGTTTGTAACAGGTGCTATGGTTGTTTTTAAAGGTGGTCAACCAAGTTTCAATGATTTTAGAAAATACAATATAATAATTAATGAAAAAGGTGATTTTCAAAGAATGCAAAATATGATTTATAGAAGATATCAAAAAGATCTTTCAAATAGTGCAAATTTACCAGATTTGATAATAATGGATGGAGGCAAAATTCAAGTACATGCTGCTAAATCCCAATTGGAGCTTTTAGATTTGAATATTCCAGTAATTGGACTTGTAAAAAATGATAAACACAAAACAGAGTATATTTTAAACTTTGATGAACAAGAACTATATCTGGAAAAAACATTTGAAGTTTTTAAGTTTTTAGAGTTAATTCAAAATAGAGTTCATAACTATGCAATATCTAGTTTCAGAAAAAAACATACAAAATCTTTCTCAAAAGATGATTTATCACAAATAAAAGGAGTAGGAGAAAAAATGATTCAAAAAATAAATCAACTTTATCCTTCAAGAATGGACTTTTATAATTTAAATTATGATGATATGAAAAAAATAGTTAAACAAGATCATATAGTATTTGCTATTCAAGAAATAAAAAGGAAAATAGAAAGTAAAAAATAACAATATATTGCTTATTTTTAGAATAAAAAAATGTATAATATTTTAGTTAAATAAAAGGGGATTAATATGACAGATAAAGATATTATTTTAACTGCAGAAGGTCTACAGGAATTAAAAGATGAATTAGCACATTTAATTAATAATGTTCGTCCACAAGTTATTGAAGAATTGGTGGAAGCGCGTGCTCAAGGAGATTTATCAGAAAATGCAGATTATGATGCAGCAAGAAATAGACAAGCAGAAGTAGAAGCAAGAATTAAAGAAGTAGAAGCTATGCTTTCTAAAGCAAAACTTATTGAAGACACTAACTCAAAAAATAAAGAAGTTAAAATTGGAAGTCAAGTAATTTTTGCAAATCAAAAAACTAAAAATGAAATGAAAGTAAAAATTGTTGGAGCTATTGAAGCAGATCCATTTGAAAATAAAATTTCAAACGAGTCACCATTAGCAAAAGCTATGATGGGTAAAGTTGTTGGAGATTCAGTTGAAGTTAGAGAACTTAAAGAACCTTACAAAATAACAATTAAAGAAATTAAATAATTTGACCTAATAAAGATATTAGGTTTTTTTATATAAGGAGAAAACTATGATAAAAGTTCAAAGTACATTTAAAAATAACTTACCAACAATTTATCTAGTTGGAACTCCAATTGGTAATTTAGATGATATTTCAAAAAGAGTTATAGATACTTTTCAAAAAGCAGATGTTATTTATTGTGAAGATACTAGAGTAAGTTTTAAATTATTTGAAAAACTAAAAATAAATAAAAAACTTAAATCCCTACATAAATTCAATGAACATTCAATTAGTGAGAGTTTTATTGAAGATATTAATAAATACAAAAATATAATTATTATAAGTGATGCTGGTATTCCTTGTATAAGTGATCCAGGAGCAATAGTTGTAAGTAAAGTTTTGCAAAGTGATATTCAAGTCAATATTACTTCAGTTAATTGTGGACCTGCATATATTCACGCAATTGCTTCAAGTGGTTTTATTTCTAGAAAAAACTTATTTTTAGGATTTTTAGATAAAAAAAACATTGAAAAAGAGTTTGACGAAATTCTTAACAAACATAAAAATAATGAAGTTATTATAAGTTTTTATGAATCTGTTCACAGAATTCAATCAACTATAAATCAATTATCTTTAATGTTAAATAAAAATACAAAAGTAGTAATTGCAAGAGAATTAACTAAAATAAATGAAGAGTTTCTAAGAGGTTCAATATCTGAAATTTGTGATTATATAAATGATAATCAATTAACTCTTAAAGGAGAATTTTGTATAGTTATTGATTCAAACTATGATTTAAATCAGGAATCAAAAATTGATATGGAAAAAATACTAATAGAAGTAGAGAATTTAATAAAAGAAAATGTAAGTAAAAAAGATGCAATAAAAACTATTTCAAAAAAATATAATATTAAAAAAAATGAATTAACTAAATTTTTTTATAAATAATAAAATTTTTAGATATTTATAACGATATAAATATCAGGAGGTTTTTATATGGAAAAATTAACTATAGAACAGTCAAAAAAAGTAGTAGGAGGAAAAGCAGTAAGTGGTGCTTTTTTAAGTGGTATAGGTTCAATCATGAAAGGTGCTTCAGAATTATTTACAAACTTTATTGGAGCAATTTCAACAACTGTATTTGGAGCTTTAACTATAAATAGAAATGATAAAGTTGAATTAAAAATAGGTAATTCTACTTTTAAAGTTGACAATACTGTTTCAAATAAAGCAAATGCGGAAAATAAAGTTTCACAAATGCCAAATGTTGTTAGTTTATTTTAAGGTTCTTAAGAACCTTTTTTAAAATAAATAAAAACTGTAAATCAATAGTTTTTCCTTTATAAAATAATTTTTATTGCTTTTTTTGTATTATTTAATTTTTATTATATAATTTAATAATATAAGGGGAAAAATAATTATGAAAAAACTATTATCATTTTTATCATCAATTGCATTTACAGCTTCTGCTTCATCAGCAGTTGCTAGTTGTAGCAATTTAGGAGATGGTTCTTCTAAAAATATTGATGAAATTATAAAAAACAAAGATTTGGGTAGGGTAAATAATGTTAATGAAAACATTTTAAAAAATGCTCTTAAAGAAAAAAACACAAAAATTGATGTAGACAAGTTGTCATTAACAAATGTTGATTTATTTGAAGGAACAGCTACTTTTGTACCAAAAAATAGAGCAGTTAATTATAATGGACAAGCAATTGTTAATTTTGATTTTGGAAATGTAAGAAAAGATTCTCAATATTTGTGAGAAGTTGTTAACAATACTTGATTAGGAACAATTACTAGTAACAATTCAAATGAAATATTAGAAGAATTAGTTGGATTAAATCCGCTTTTAGATAAAAAAGAACTTGAAGTTAAAGATATTAACACTTGAGGTGCAACAATAGCGGCAAAAAGTTCTTCATCAATGTATAAAGGACAAATAACAGTATCTTATAATGTTATTAATGAAACTGGAGACTCATCTGCAAAATCACTTTATTCAGTAATTACAAATAGTTGATTAGGAGAAATTAATAAAGGTGAAGATGATAGAAAAACTGAAGAAAATATTATTAATGCAGTATTAACTAAAAATAATAATTTAGATAAAAATGAATTAAAAGTTAAAGAATTAAATCAATGAGGTGCAACAATAGGTGCAGTTGAGAATTCAAAAAAATATAAAGATGAATCATATGTAAGTTTCACTTTAAAAGGTGATACTCAAGGAGAATCAAATGAAAATTCTAAATCACTTTATAGTGAAGTCAAAACTACTTGATTGGGAAATATAGAAAATACAAATGAAACTAGCATTTTAAATGCATTAAAGGCAAAAAATCCAAATTTAGATATTGAAAGTTTAACTTTAAAAGAAACAAATCAATATAATTCTATTTTAATTCCAAAATCGGGAACAACAAAATATAAAGATCAAGTATGACTTTCATATAGTGTTTCAGGAGTTGTCATTCCTAGTGAAAAAAAAGAATTAAATCAAGTAATTACTACAAAAGATTATGATAAGAATTTGGCAATTAATTTAAACAAGGAACAAGAACCTACTAGTCAACAAGTTAAGGATTTAATTTATAGATCAAATCCTCAATTAGATATAAATCAAATTGATATTAATAGCATTAGTCAAAAATCAACACAAAAAAATGAAGAAGGTAAAGAATATAGTCAATATTCAGCAAATGTTAAAGCTTTAGAAAATTCTTATAATTATAATGGGTCAGTAGAAATAACTTTTTACACTTCATATAAAAATCAACAACAAAAGGAACTAAGTACAATTATTAAAGAAACAAACTTAGGAGAAATTAGTGAAAACTCAGATTTAGTAATTTTAAATACATTAGTAGAAAAAAATAATGCAGAGAATTTAAATTTAGGAGAATTAGTTTTATCTAATAAAAATGATAGTTCAGCAACAATTAGTGCTGTTGAAAATAGTGCTAATTATAAGGGTTCTGTTAATATTGCATATACTGTTAAAAAGGAAAATACAGAACAACCTGAAAATATAATAAATTTATCAGAGCATATTAAAACTTCTGAATTAGGTGAGTTAAAAGATGCAAAAACAATTACAATTTTAGAAGAATTAAAGAATAAGAATAAAGATTTACATGTTGATGAAGTTGAAGTAAAAAATATTACATCATCATCAGCTATAATTAAAACAATTTCTAATTCAAAACATTATAATCAATCACAAGTAGAAGTAAAATTTTATTTAAAAGATAATGCTGAAAAACCAAAACCTTCAAACGAAGCATTATTAGTTGGTTACTGATATGAATGAGGAGGAGCAAATCAACATAATGATCCTGTTAAACTTTTAGAAAGTTCAGAATTATTAAATAGTGCATATAATGTAATAGATGTTTCATTTTTATATACATGAGAACCATATGCAATGCCAACATTTGATCCATTTAGTCCACAAAGTAAAAGCAGAATTATAGACGCAATAAAAAAATTACAAAACGCTGGTAAAAAAGTAATTTTATCAATGGGTGGAGCAACTGGTGGAGAAATGAGATTTAAATCAGATCAAGTTGATCAATTAACTGCTACATTTGTTAAATATATGGATGAATATAATTTTGATGGAATAGATATTGATTGAGAAGGTGGAGTACTTGGAGATAGACAAAGTCAACAAACTACAATCTCAGCATTAAAAAAAGCAAAAGAAATACAAAACTCTAAGGGGAAAGAATTTTTAATTACTATGGCTCCAGAATTGCCATACTTAAAATATAATACCGAAGCTGGTTCACAAGGAAGTTATATTCCTTTCTTAAAAGGACTTGAAGGTATATATGATTTTATCAATCCTCAATACTATAATGGTTGAGCATTTGGTCCATTTGTTGATCAAGAAGAAAAAGACTATTTAGGAATAAATACATCATACATTTCAAATGATGATGTTGAATATAGAGGAGAATTTTATTACTTAGTAACAAAATATTTAACTACAAAAAAAAGTGCACAAAATGATTTCTATGAAAAAATACCAACAAATAAATTTGTTTTAGGAGCAGCAACTAATGAACCTGCAGGAAGAGGAGCAGCAACTAGAGAATCAATTTATAATGCACATGTATTACTAGAAAATGACAATATTTATATTCGTGGATTAATGACATGAGCTATAAATTATGATGCTGTATTTAATTGACAATTTGAAGCTTAATTCAAAGAAACATGAGGTCAAAAAAATAAATAAAATTATTGTTTAATTTAATAATAAAAATACAAGATTAGATCTTGTATTTTTTACTAATACTCTTAATTTGTCTTTTAATAAATATGAAAAACTGCTTATTACATTTTTTCTATTTAAAAAAATAAAAAAAATGTAAATTTAGACCTAAATTAGTATAAAATAATTTAGGTTGCTAGTTTCAACCGCACTTTTGTATGTAAAAAAGTAGTTTGAAAGATAACTCACATACAAGGCGAGTCTAGACTGGAGGAATAAAGATGTTCGCAATTATAAAAACAGGTGGAAAACAAATTAAAGTTTCAAAAGATGATGAAATCTATGTAGAAAAATTAGACATAGAAGAAGGTAAAAAAGTTATTTTTGATGAAATTTTAATGATAGATGGAACTGTAGGTTCTCCTTTAATTAAAGGAGCAGCAGTTATTGGAACTGTTGTTAAACAAGGTAAAGGAAAAAAACTTAGAGTTGTTAGATATCATCCTAAGAAAAATGTTAACAAAGTATATGGTCACAGACAACCATACACAAAAGTGAAAATTGAAGAGATTTCATTAAGTGGTACAAAAGCTATAACAAATACATCAACTGAATCAAAAACTGCAGTTGCTGTACAAAAAACTGCTTCTGCACCAAAAACAGCTTCAACTGGTACACCAAAAGCTGCACCAAAACCAAAAACAACTACTGGAGCACCAAAAGCTACAGCAGCAAAACCAAAAACAACATCAGCACCAAAAGCTGCACCAAAACCAAAAACTGGAGAATAGTAGATGGTAAAAGCTAAAATTGTTGAAAAAAACAATATAATAAATTCATTTGTAGTAAAGGGACATGCAAATTTTGATAAATTTGGTCAAGATATAGTGTGTGCTGGAATTACAGCAATAGTTTCTGGATCATTAAATGCTTTAGATATTAAGTTTAAAAATAATGTTGAACTTAATGTTAATGAAAATGAAATAAGTATAAAAGTTATAAAAAATGATGATTTATTAAATCATTTATTAGAATTTATGATTATACAGCTAGAAACTATAGAGGTTCAATACCCAAAGAATTTTAAAATAGAAAGGATGATTTAATATGCGTTTCTTATTAGGATTACAATATTTTGCTTCTAAAAAGGGAGTTGGTTCAACTAAAAACGGACGTGACTCAGAATCAAAACGTTTAGGAGCTAAAAAAGCAGATGGACAATTTGCTAATGCAGGTTCAATTATTTTCAGACAAAGAGGAACAAAAATCCATCCAGGTGCAAATGTTGGACGTGGTGGAGATGATACACTTTTTGCTTTAGTTTCAGGTATAGTTAAATATCAAAAATTTGGTAAAAACAGAACTAGAGCAGTAGTTATTCCACAAGAATCTAAATAATAATATAAGACCCCATTAGAGGGGTCTTTTTTAATAAAAATGGAGAAGATGTTAATGTTAATTTGATTATTTGTAGGATTTTTTTGCATAATCTTAATATTTCTAATTTTTTATACTTTTAAAATATATAAACTTAGAAATAAAGAAAATGATAAGAAAAATATAAAAAAAGATTTAGAAGAATTTAAAAAGGCTTTTCAGAATAATCCAGATAAAAAAGTTTTAATTAAACACTTGAATATAACTGAGTATTTTAATATTTTTCCATTTATGAGTGAATTTAAAGAAATCAAAAAATTATACTCCAATGAAGATTTAATAAAATCTCTGAGACATACTCAAGATAGTTTTTATAAATTTTGAGCGAATAAAGAGTTTGATCTTTTTATTATTTTTGAAAAACTTACAAAAGAAAAACTCATAATATTTTCATCAGAAGTTGTGATTAAAATTTATATGGAATTTTCAATAGAAATTTTTAATTTATTTAAAAATACTTTTATTCAAGAAATAATTCCCGCAACTATATGCAAATTTGAGAATAAAAATTATAAGAAATTAAAACCAAATATGATAAATGATTTTATAGATGAACAGTTTATGGAATTTTGTAAAAGAATGGATAAAATAATTCAAATTATTCAATCAGAGCTTTATGGTAAACAAAACGAAAAATATTCAGAAACACAAAATAATTTTAATGATGACAATGAACAAAAAATAAGTAAGGCATATAAAACTTTAGAAGTATTACCATTAGATTCAGATGATAAAATTAAAAAGGCATATTTAAAACTTGCAAAAACTTATCACCCTGATAAAAATAATACAGAATATGCAAAACAAAAAATGGTTGAAATAAATAATGCTTATGATATTGTTCAAAAAGATAGAAAGAAAGATTAAGGTAATTAAAAATGAATGTAGAAAAAAATGTATTACTTGGTCAATATTTTGATCAAGCTTTAGAAGAAACAAAAAAAATAGTGGCAATTCCTTCATATAGAAGAGATTTAACATATGGAGCACCTGTTCATGAAGATATTAAAAAAGTTTTAGAACATTGTATAAATTTATTAAAATCTTTTAATTTTGAAACATTTATAGCACCAGATCACAGATATGGTTATGCTGATTATGGAACTGGAGATAAATTATTTGGTATTATTTGTCACTTAGATGTTGTTCCAACTGGAAACATCGATGAGTGAGAAACTAATCCATTTGAACCAATTATTAAAGATGGAAAATTAATTGGTAGAGGAACTTTTGATGATAAAGGTCCTACAATGATGAACATTTTTGCTTTTAAATATTTAATTGACCATGGATTTAAACCAGATTATAAAATAAGATTTATTTTTGGAACAAGTGAAGAAACAAATTGAGAATGTATGGAAGCTTATGTTAAAAATGAACAATTATGTGATTTAGGATATGTTCCAGATGGACATTTCCCAGTTGTTTATGCTGAAAAATGAATTGCTGATATAGATTTAATTGGTAAATACAGTTCGGAATTTGAATTAAGTGGGGGAGAAGTTTACAATGCAGTAAACGATTTGGTTAAATACAAAGGACCAAAACAAGAAGAAATAGCTTCTTGATTAAAAGAAAACTCAATAGACTCATATGAAAATGATGGATATTTATTTGTTAAAGGTGTTTCAGCTCATGGAAGTTTACCATTTAAAGGTATATCAGCTTCAACTTGATTGTTAAAAGCAATTGATGCAAATGGATTAAAACATCCTTTAGCACAATTTGTTGCAAAATATGGACATTTAAACTTTGATATGAAAGAAATCTTTGGTGATTTAACTGATGAAACTGGTGATTTAACAGCATGTAATGGAATTGTAAATATTTCAAAAAGCGATTTTAGATTTACAATAAATTTTAGAATTCCTTGTACAAGAGATCCTAGAAAAGATGTTGTAGATGTATTAGAAAAATTTGTAAAAGACAAAGGTTTAGAGTTAAAATTATCTGCAATTGAAGATAGAGTTTATTTCCCAAAAGACAGTGATGTTGTAAAAAATATTATGGAAGTTTACAAAGAAGTTACTGGTGACTTAAATGCAGAACCAATTGCAATTGGTGGGGGAACATTTGCAAAATCAATGCCAAATATGATTGCTTTTGGAGCTGAGTTTGATTTAAATGAATCAACAATGCACGCTTACAATGAATATGTAAAAATTGATGATTTGAAAAAAATGATGGAAATTTATGCAAAATCATTGGTTAAATTAACAAAATTAAAATAGTATTTTAAATATAGAAAACTTAAAGAGACATATAATCTTTAAAGTTATAATAATAAAGTGACAACGTTCCCCCCAAATTGGGAACGTTTTTTTTTTTTTTTTTATCATTTTTTATTCATTCTAATTCTATCATTATTATAAAAGTCCAATCATGCTCATGCTATTTCCATACATTGATTAATGTTTTCAATATGACATGTTCTTATAGTTTCATCTTTTAAACGACCATGAAAACTTTCATGTTTACCATTATGATGAGGTGTTCCTGGTTTTGAATAGCTTCTAATAATTTGTAAATCATTACATAAACTTATGTAATCCAGAGAGGTATATTGATTTCCATTATCTGAATGTAATAATATTGAACCTAAATATTTTTTATTTTTATATGCCATTTCTACAGCTTCAAGAACAAAATCTGTTTTTTGATTATCAATTCTTTTAGATTTTCCTATTATTTCTCCAGTTAAATTATCTTGAACTGTGCAAATATAACCTTTTTTTGTTTTAACTGAAAATTCAGTTATATCACTAGTTCAAATATTTTCAAAACCAATTTCTTTTGCTTCTTTTAAATAATTCTTTCTAATAGTTTCGTTATATCTTTTAATCTCATGTTTAGATTGTTTCTTAATGTAATATGCAATATGATTAAATTTTTTAAATATACGTTCTAATTTTTTATGATTAATTCTGAAAGGGTCAATATAATTTAATTTAAAATATAGGGCTCATCTTTTAGCACTATAAGCACTAAGGAAATTATTCCTTTCAATTTCTGAAATAACTAAATTCATAATTCTTGTATCATCCAGGAAATTCATTAAAGTTTTATTTTTTTTATATGTTGATGTTCTATTAATATTTAAAATTTTACAAATCATTGTTCTATTGCTCTTGGTATTTATCAATAATTGTTGAACTATTTCTTTTTGGTTTTGGCCTTGGAGGCTCATTGCTTTTTTAAAATATCATTCTCCTTAATTAATTCCTTATTGTAATCAAATAGAATTCCTACAAACAGATCATTTGCCTTTTGAGATATACTGTAATCTATTTTATAAGGTAAACGAGTTTTTGAATCACCAATATCTGTATTTTTGTATTTGTTTATTATTGTTCCAATTGATCCTGTAGTTGAGTTAAATTTTAATGCTATTTCCTTTAGAGAATAACCATTCAAACTTAATTCAATAATTTTTTCTTTTTCTTCTTGAGTTCACTTTCTAAACTTTTGTCCTTTTTTTGCCATATACTTTATCCTTTTCTATTATTGTATAAAAATTGTTGCCTAAATGGGGGGAACATTCTGAGTAGAAAAAAAGTCAAAAATTTGACTTTTTTTTTTTTTTTTATAATCATTGGTATCAATTTGAATTGTTTATTTGTATTTTAATAGCTCTTTAAAAAGGAGGAAAATGAAAAAATTATTAAGTGTATTGGCAACAATTGGAGTTGTATCGTCATTTGCCACTAGTGCAGTTGCATGTGGTACAAAATCAGAAATTAAAAAACCTGATAAACCAGAAGAACCTAAAAATAATATTGCTCAAATTATTCGAAGATTTGAACAAGATGTAACAAAAATATGAACAGAACATTATGAAAAAGAAATTGCTTCTAATTTAATTACTGTGGAAGATGGAGAAACTAATTATAAATTTTTAAATAAAGAAAATATTCAAAAATTCTCAAAACCAGAAAATAAAGATAAATTAACAACTGAAGAAAAAAAACAATTTACAAATGATGTTGAAAAATTATTTAAAACTGAATTGTTAAAAAAGAAATTAAATGATCTTAAAAAAGTTAATGAATATAAAATAATTCTTGATGAAATAGATTCAGTTTTTGAACATGTTGAATTGGTATTTAATGATAATTTTGAAATTAATTCAGGAGAAATAGTTCCTGGCAGTTACATAGGAAATGTGATAGTTGACTATAAAGTTGTGACTCAATATAAAGGACTTAAAGATGTTGAGAAGTTTAAACAATCTGAAACGTTAAAGTATACTTAAACAGAAAATGAAACATTTAAAAAAGTTGGAGATGTAATGTATAAAAACATTAAAAAAGATATGTTTACTATAAAAGAAACACAAAAATATGTGAATTTAAAATGAAATGATATTAAAGGAACAAGTCCTGATTCTGATGCTTATTTAAGTTCAAATGCTCAGTTAAAAAAATATTACAATAGTAATGAAGATTTTCATCAAGCTTTATTGAACTTAATTAAAAATAAGTACTTTAAAGATGCTTTTTCATCATTAGATATTTCTTATAATCAAAAAAGTATTTATAAAAGTGATAATTTTGCAGAGACAAATAAGAAATATTTAATTGTAAACAATTTTGATGAGCAAAATGCTATAGTTGTAAATCAAGAAAAAGATAGAGAAAAGATATCAAAAATTCTTTTGGGAGAGCAAGATGTTATAAAAGATACTTTAAAAAAAGAAGTATTCAATTCATTAGCTTTACAAAGAAATAGAAAAAAATATGAAATTGCTCAAAATAAGTTTTTGAATAGTTTTTTAACAAGTATTGAAGTTGAAAATTATAAGTTAAGTGATAGTTATCTCTTAGCAATAGCAATGGGATATGCTGATTTTATTGGTCCTATTATTAAAATTGGAGAAAAAGAAAATTCTTATATGCATAAACTTCCTGATTTTAAATTAGCTATTTCTTATTCATTAAATGGTGAAAACGATGAAATTAGTGAATCACTTCTAAATCTATCATTGAACTTATTTAATGTTTATAAAAAAGTTTGAGGTCCTAATAAAGTAAACCAAGATAGTTATTTATTTAATATTAATTATGACCAAAAACGAGTTTGAGATAATTTTTGATATAATACTGTTTCATACTATGTTTATCAAAAAACTATAAATAATTTTTTAAATAGATATAGTGATTTTTATAATGAAAACTTAAAAAAAGAATTGAATGCATTAAATATAACAAAAAATGTTTTTGACAAAGAAAATATCATTTCATATAATTTTGGCTTTAGTTTCACTGACTCTAAAGAAATAAGACAAACATTTTTTACTAATGCTAATGCATCAGATAAATTCTTCTTAAAGTTTGAAAATTTTAAGTCAGATAGTAGTGGAAATAATTGAAGTAATGTACTTGAATATTTGAAATTTAATTTGTTTGGCATAATAGAAATGAAGATTTTTTTAAATAAAAATCTTAATGAAGCAATCTTCTTTTAAAAGTAGAGTTGAGTAAATCTATTTATATCTATTCTTTTATGTATATAGTTTTCTACTGTTATTTATAAATGTTTTTTTCATTCCCATTGATATAAATAAAGTGTTTTAATTCAAAACATTTTCTTAGATCTCGTTTAAGGACTATATTCTTTAAATAATAATTTATTGTAACCAATAATAACACCTATATATTTTATCTATTAGTTATTAATCTTAAGAAAGTTGAATTTCATATTTAAAGATAATGCTTAAAGGCATTATTTTTTGTTTAAAATATAATTCTAAAAAATGATATACTATACTTGTTTGTATATTTATTTTGGGTATGCAATCACATTTGGGAATTTTATATCCTAGTGCTTGTTAACTTTAATTAAACGAGTGGATATATTTAGAACTATAATGGAAGACTAACGAATAAAAATTAAGGAGGCCTTAAAAATGGCAAAAGATTTAACAAGAGAACAGTTATGAGATGCTGGAGCTCAATTTGGACACCAAACTAAACGTTGAAATCCAAAAATGAAACCATATATTTATGGAGCAAAAAATAAAAATCATATTATTGATTTACAACAAACAATTTGAAGATTAGAAGATGTTAAAAAATATGTTACTTCAATTGGACTAAAAAAAGAAAAAATTATTTTTGTTGGGACAAAAAGAAGTGCTAAAAATGCAGTTAAAGAAGCTGCATTAAGAAGTGGAAACTTCTTTGTTAACTCAAGATGATTGGGTGGAACTTTAACTAACATGAAAACTATTTCATTGAGAATTAAAACTTTATGAGATATTGAAAATGAAGAAAAAACTGGAAAAATTAATTTAAGACCTAAAAAAGAACAAATTTTAATTAGAAAAGAAAAAGCTAAATTAGAAAAAACTTTAGGTGGAATTAAACAAATGCATAAATTACCTGCAGCTATGTTTGTAGTTGATCCAAAAACTGATGAAATTGCAGTTAAAGAAGCAAGAAAATTAAGAATACCAGTTATTGCAATTTGTGATACAAACGTTGATCCAGATATGGTTGACTTTGTAATTCCTGCAAATGATGATATTCAAGAATCAGTAAATATTATTACTAATTTTATAGTTGATGTTTATGCTGATGCTGCAGGAATTAAAATGCAACCAAGTAATTTAAAAGTTATTGCACAGAAAAAAGAAGATAAACAATATGATGGTGAAAGAAAACCATATACACCAAGAAACAATGATTCTAACAATGAAAGACCTACATATAAAAAACCTGCAGTAAAAAATGAAGAAACAAAATAGGAGAGATGAAAAATGGCAGTTACACCACAATTAATTAAAGAATTAAGAGAAATGACTTCTGCTGGAATGATGGACTGTAAAAAAGCTTTAGAAGCTACAAACGGTGACATTGACGAAGCAGTAGTATGATTAAGAGAAAATGGTTTAGCAAAGGCAGCTAAAAAAGCTGATAGAGTTGCAGCAGAAGGTGTTTCTTTTGCTAAAACAGATGGAAAAAGAGCAATTATATTTGAAGTTAACTCAGAAACAGACTTTGTTTCAAAAAACGACAAATTTATGGCATTAATTGAAAATATTGGAAATGCTTTATTAAACTCAAAAGCATCAACTTTACAAGAAGCTTTAGAAATTAAATTAGCTTCAGGACAAACAATTAGTGAAGCTTGTATAGAAGCAACAGCAACAATTGGTGAAAAAATTGAATTAAGAAGAATTGCTGCAGTTGAAGGTGGAAAATTATCAATTTACAATCATGCAAATAAAAGAATATCAGTATTATTAGCATTTGATGGAAATATTGGAGAAGAAGATGCATACAATGTATGTATGCATGTTGCTGCTATGGCACCAAAATATTTAGAAGAGTCAGATGTACCTCAAGATTTTAAAGATCAAGAAATGCATATTATTAAAGAAACAACTGATTTAACAGGAAAACCTGAGAATGTTGCTGAAGGAATCTTAAAAGGTAAGTTAAATAAAAAACTTGCTGAAGTTACTTTATTAGCCCAAAGTTTTGTTATGGATGAAAAACAAACTGTTGGAAATTTTGTTAAATCAAAAGGAGCAAAACTAACTCAAATGTTTAGATTTGAAGTTGGTGAAGGTATTGAAAAAGCCACTACAGATTTTGCAGCAGAAGTTGCAGCACAGTTAGCAGGTAACTAATTATGAATTTATTAGCTGCATTAGAAAATAATAATTTATTAGTTCTTTCAGTTGTGTTGCTTTTAATAATACCACTTGCTTCAATTTCATCATGATATATAACAATTAAATTTCAAAAATCAAAATCAGAAGTAAAATTTGCAAATAAAATTTTAGTCTCAACAATGTTGAGTTTTCAAATTATTTCAATTCTTACTTCAATCTTAGTTTTACTTTCATATTTAGGAGTATTAGTTTCTAACGATGCTAGTTTAAGTCAAACTTTAACAATAGTATTTATTGTACTTTCTGTTGTATTATCAGCTGCATGATTTATAATGGTAATTTTCTTTTCAAATCAAATATGATTTTATATTGAAACAGAAGAAGGAAAATTAATTACATTAGGAGAAACAATCAGATTATCTAAGGTAACAAAAATTATTGAAGATGATGAAAAAAGTGCAGTTTATATTAATTACTTAGAAGGAAAAAGAAACCTTAAAAAGCTTAAATTTAGTAAAAAAACAACAATTGGTATGTATTTTTTAGAAAATGTTGAAAAGATGGGTTTTGCTTTAGAAAAAGGTACAGAAATTACTTATTTTAAAGAAGAAATTGCCAAAATTAGAGCATTAGCTTTAGAAAATTCAGCAAAAGAAACTAGTAAAAAAGAAAATTCTAATGAAATAAAAGAATCTGATCAAAAACAAGATTCAAATCAAATAAAAGAATCAACTAAAACAAAAAAAGTTAGCAAAATAAAAGAAGCTAAAAATGACGATAATGATATTTCAAAAGAAGAAAAATAATTTTCAAAACACATTTAATATGTGTTTTTCTTTTATTTAAATATAAAATAATTATGAAAAAGGCAGAGGTAGCTATTGAAAGCTTGAGAAATACTCTTAGAACCTGATCTAGTTAATACTAGCGTAGGAAGTCCTTTAAAAGACAAGTTCTGCTTTTTTCATGGAGGAAATTCATGAATAAAAACACAATTAAATTAACAATTTGCTTATCAACTATTAGAATCTTGCTATTTTTAGCTCTAATAGTTTGAGCAATTATTTCAGTTATTAAAGTAGGCTCTGAGGGAGCAAAAATGCCTATAGGAAAAAATATTACTGTAAGTATTTGTTTTTCATTATTTTTTATATTATTTGTTTTAATGAATATTTCATTAATACTAAATATTATTTTTGATAGTTTAAATGTAAATAATAAAATAGTTATTGCACTTTCTATAATTACATTAAATATTGAAACAATGATTATATATTTAAAAAAAGTCAACTTTAAAAAAATAAGTCTTAAAATGCAAAAATGAACAGCATTTGATATAACATCAATTGCTCTACTTTTAGCTTTGTATTTTGCAATAGGGTTTGTATCAAGTTTAATTCCCCCAATGCCTTTTTATATAACTATTTCATTTAAGTATATACCTCTATTTTTTGGGGCATTTATTTTGCCTTTATCTGGGTGTATAACACTTTGCTTTCTGTCAGCAACTTTAACAGCTCTTATGCCAGGATCATATTTAGCCTTTTGACAATTTTTATTTGATTATTGAATACCCACATTTTGTCTTTTTGTTGCTTACTTCTTTGCACCCAATATTAAATCAAATAAATGAATGAATAAAATAACAATTTGATTTGCTTTTATAACTATTCCCATATTAATTATTTACTTTTCAAGAGTAATTTCAGGAGTTATTTATTGATTAAATCCAAATAAAGTAGATGTATGAAAAGAATTTGATTGAACAAATAATATAGAGTATTCATTTATTTATAACTCTTTTAACAGTATTTTTGACTATGTTTTATTAATGATTTGTGTACCTACTGTGTGTGAATCACTTTGAGTTATTAAAGAAAGATTTTTCTATAGAAATTTGAATAACTAAAAAACAAATACATTTTTGTTAAAAAAATTAGGGATTTTGTTATAATTTATCTAGCGAGGTAAATATGGCATTAAAATTTAAAAGAGTTTTATTGAAAATATCTGGTGAAGCCTTAAAAGGAAGCGGAGATATCTATGATAAGGAAAAACTAGATGAAGTTGCAAAACAAGTTATTCATTTAACAAAACAAGGATTGCAAATTGGTATTGTCATTGGTGGGGGAAATATTTGAAGAGGTAAATTAGCAGATACTCTTGAATTATTTAGAATAGAAGCTGACTATATGGGAATGCTTGCAACAATTATGAATGCTTTAGCATTTGAAGCTACATTGAGAAAACTTGGATTTGATAAAGTAAAAGTATATTCTTCTTTAGAAATCAAAACAGTTACCAGTTCATATAATTATAGAAATGCAAGAGAGAAACTTGACGAGGGTTATGTAACAATATTTGCTGGGGGTACTGGTTATAGTTACTTTACAACAGATACTGGAGCAAGTATAAGAGCTATAGAAATAAAAGCAGATGCTTTATTAATGGCTAAAAATGGAACAAAGGGAGTTTATGATTCAGATCCAAATACAAATGCTGAAGCGAAATTTTTAAAAAATTTAACTCACAATGATTTAGTAAGTAAAAATTTAAAAGTTATGGATTCAACAGCGGCTGCCTTATCAAGAGATGGTAAGTTAGAAATAGTTGTATTTGATATGAATGGAAAAGACAATATAATTAAAATTGCACATGGTGAATTAGAGTGCACTGTAATTAAATAAATAGAGGAGAAAAAATAATATGATAAATGAAATAGTTCAATTAGCAGAACTTAATATGCAAGATTCAATTGATAGTTTTAAAGATTACTTATCAAAAGTTAGAACTGGAAGAGCAAATGCAAATATGCTAAATAGTGTAATGGTTGATTTTTATGGGACTTTAACACCAATTAATCAAACTGCTCAAATTTCATCACCTGAACCACAACAATTAGTCATTAAACCTTATGATAGAAGTCAAGTTGGAGCTGTGATTGCAGGAATTAACAAAGCAGATTTAGGGTTAAACCCAATTGGAGAAGCAGATTTAGTTAGAATTAACATTCCTGCTTTAACTCAAGAAATTAGAAAAGACTTAGTTAAAAAAATGTTAAAAGAACTTGAACAGTTTAAAGTTAGAGTAAGAAATGTAAGAAGAGATGCTAACGATAAAATTAAAAAAGATGCAAGTTCACCTGAGGATATTAAAAAAGATTTAGAAAATCAAATTCAAAAATTAACAGATAAGTATATCGATATTTTAGATAATTTAGCAAAAGAAAAAGAAACTGATTTAATGAAAATATAAAAAAGTTATTAATTTATAAAAATTGTTAAAAAAAGACTGTGAATTCTTAAAAATTTACAGTCTTTTTTAATTTGTATAAAAATATTTTATTAATATTAAATTATTTTTTTAAAAAAAGTTTAGAAACTTATTCTATACATATATTTTAAAATAAATTTAGAATTTTAAATTCAAGAAGGAGAGAAAAAATATGAGAAAAATATTAACAATGTTAGGTTCATTTGGATTAGTTGCTTCAAATGGATTTATTTTATCAAATGTTGTATCTTGTGGTAATAATTTTAAATTACCTTCAGAGCCCAAAGATTTAGAAGAAGCTCAAAAATTATTAGAAGAATTAACTAAAAAAAGTGATGAGTTTCAAAAAAAATTACAAGAAGAAATGAAAAGTACAAATATAGATGATAGAGATGAAAAATTTCCTGATTTTGCTAAAAAAAGTACAGCAGCTCAAGAAATGTATCAATATCAAGCTTTAACATTTGCATACACAAGTAAAATCTCTTATTTTAAAAATGAAGATAAGGATAAAATTATTTCTTTTATTAATGAACTTCAAAAACAGTTTGATAAGCATTTAAAACCTTGTGCTACTGATAAAACTTATAAAAATATTATGTCAATTTTAGAATGACCTAAAAAAGATCCAAGACAAAAATAATCAATTTCTTATATATAAATAAATGAATCTAAGTTTTTAAAAATTTAGATTTTTTTTATATTTTTTATAAAGTTAGGAAATATATAGGCATCAGAAAAAAGCATATTAATTATTCAATAAAATATACTTAAACTTAAAATAATTTATATACTGAGAGATATACTTTTGCTAAAAAATAGTGTATAATTATAACAAATTATTAATAAAAAATACTCAAAAAGTTTTGAAGTGGGGTAAATATAATGAAAAAAATATCTTTTTTCTTTTTATCAATCTTATTATTAATATCAACAACAATGTTTACAAGATCTTGTATCACAATTGATGTAGAACAAAATAAATATGTAACTCAACAATTTTCAGTAAATTACACTAGTGAAAGTGAATATACAATTTCAGATTGGGATACATATAAAAAAAATCATAATAGTTTTAAAATATATTCTATGGATGAAAGTATTTTGCAAGTAACCTCAAATATTGACGATAATGGTTCATTTAAGATGATTGCAAATGGTATTGGGGAAGCAACTTTAACTTTAGAAGCATATAGTAATAGTAAAATTCCTAAAAAAGTAAAGTGAAAATTCAAAGCAGATGTAGTATTTTTTGAATTATCAGAAATAAAAATTAATAAATCTTTTGTTGAAATTGAACCAGAAAAAGGTTCAAGTATAATTGAAATTGAAAACTTTGATGAGTTGGAAGATGTCAAAGTTAGTTCTTTAAATGAGAATGTTGCAACAGCAGAAATTGATGAGCAAGGAAATGTTCAAATAACTGCTTTAAATGAAGGAAAAACTAAAATCTCTGTTAATGCAGAAAATGCAATAGAATCAGTTTCAATTGATGTAGAAGTTTTAAAACAAAAAGTTGCAGTTGAACTTTCAGCAAATAGTTTAAGTATAAATGAAAAAGCTAAAAATGAATCAATTTACATTAAAAATTTTAATAAATTAGAAGGTATTGAAGTTAGCTCAACAAATAAAAATATAGCAACTGCAAATGTTAATGAATTAGGACAAATTGAAGTATTTGGTTGAAATGAAGGAAAAACTGAAATTACTGTTAATGCAGAAAATGCAATAGAATCTGTTTCAATTGCTGTAACTGTTTTAAAAGAGAAATTTGAAATAGAAGTTTCTTCAAATAACTTAACTATTAATGAAAAAGTTAAAGATACATCAATATATATTAAAAATTTTGATAAACTGCAAGATGTTAAAGTTGACTCTTTAAATGAAAATATAGCAACAGTTACAATTAATAAATCAGGAAATATTGAAATATTAGGCTTAATGGAAGGAAAAACTGAAATTACTATTAATGCATCAAATGCAATAAAACCAATTAAAATTGAAGTAATAGTGTTAAAACAAAGATTTTTAATAGAAGTTTCATCAAATAACTTAATTATCGATGAAAAAACTGAAAATAACTCAATTAATATTACTAATTTTGATAATTTAGAAGGTGTTGAAGTTAGCTCTTTAAATGAAAGTATAGCAACTGCAAATATTAATCAAACAGGAAATATTAAAGTATTTGGTTTAACAGAAGGAACAACCAAAGTTGTTGTTGATGCAAAGAATTCAATAGAATCTGTTTCAATTGCTGTAACTGTTTTAAAACAAAAAATAGCAATTCAAATATCATCAAATACTTTAAATATTGATGAAGATGCTAAAGATAATTCAATTAAAATTAAGAATTTTGAAAAATTAGAAAATATAGAAGTAAAATCAGTAGATGAAAATATTGCAACAGTAACAACAAATGAATTGGGATATATTGAAGTTACTGCATTAAAACAAGGAAATACTGAAATTACTATTAATGCATCAAATGCAATAGAACCAGTTGAAATTAATATAATAGTTGTAAAACAAAAAATTTCAATTCAAGTTTCAACAAACAGTTTGAGCATGGAAGAAAAAACTGAAAATAGATCAATTAATATTAATAATTTTAGTGAATTAGAAAACGTTACAGTTAGCTCTAAAAATCAAAATATAGCAACAGCAATAGTTGATAAATCAGGAAATATTGAAGTATCTGGGTTAATGGAAGGAGCAACTAAAATTATTGTTAATGCATCAAATGCAATAGAACAAGTAGAAATTGATGTGGTTGTATTAAAACAAAAAATAGCAATTCAAATCTCTTCAAATAATTTAAGTATTGAGGAAAAAAACAAAGATAGTTCAATTCATATTAATAATTTCAGTGAATTTGAAAATATTGTAGTTAATTCAGCAGATGAAAATATAGCAAAAGCAAGTACTGATCAATTTGGAAATATTGAAGTTACTGCATTAAAACAAGGAAATACTAAAATTATTGTTAATGCAGAAAATGCAATAGAGCTAGTTGAAATTCATATAAATGTTTTAAAACAAAAATTTGCAATTAATGTTTCTTCAAATTTCTTACAAATAGAAGAAGAAAGTAAAGATAATTCAATTCGTATTAATAATTTTGCTCAATTAGAAGATATTGAAGTTAATTCATCAAATGAAAGTATAGCAACTGCAATTGTAGGTCAAAATGGAAATATTGAAGTATCAGCTTTAAAAGAAGGAACAACTAAAATTACTGTTAATGCATCAAATGCAATAGAACCAGTAGAAATAGAAATTAGTGTATCACAAAAAATGTTTGATATAAAATTAAACAAAACAAAAGTAAAAATAACTTTATTAAATGGTATGGGCGGTGAAACTGTTAAAATAGAAAATTACAGTGTTCTAAAAAATGTTCAAGTTACCTCAAAATCTTCAGGAATTATTGGTGTTTCAGTTAAAGATGATATTATAAAAATTAATGGACTTTTAGTTGGTAAAGGAGAAATTACTGTTAATGCAGATAATGCAAAATCAGCAGTTATTATAAAAGTTACTGTAGGACTGTTGATGTAAAATTATTTATTCTGTAAAAATATTTTAAAGCATAAAAATATTTTATAAAATACTTGAATTTTTAGACATGTTTGTAGATAATAATCTTATAATTTAATAAATTTTTAAAGGGGAAAAAGTATGAAGAAATTATTAAGTATTTTAGGAACATTGACTTTAACATCAATGCCTATCACATCTGTTGTAAGTTGTATTAGTCCTGATCCAGGAAATAATTTTGGAGATTCTAACTTACAAACTGGAAATGAATGAAAAGGAAAAAGTGAAATATCAAAAGATGTAACAGAATTAAAATCTACTTCTGTAAAACTACAAAAATCACAAGATGTTTTGTATACTGATTATTCAAATTTCAATAAAACTAATTATTCAGCTAGTTTATCTAATACTGAAAAAACTTCAGGATATAAAAACAAATTAATAAAAGAAAAATATCTTAAAACTGAAGATCATCTAACATTTAATCCTTATGCAGATATGGGTATTGTAGAAGATACTGCAGAGTATCTAATGAAAGATAAAGGTGTTGGTGGAGCTAGTAGAGCTGATGCAGAAAAATGACTTGAAGGAAGAAATAACGCTGTTTACAATGATGTAGGTGAATATGCTACTAAATATTTTAACGAGGGAAATCAAAAAGGAAATGGTATAAAATTAGGATTTATGCAAAATGCTTCAGATACTGGAGAGTTAGTTCCTATGTGAAATGCTGCTCCTTCACAAGGAAGTAAAGAAGGTATTTTAGCAACAGGAAAAAATCAAAAAGAGTATGCAAGATGATTTAATGATAAATATGAAAAATGAACAAATGGAAAACCAGAAGAAAATTGACAAAGACCTTCAGAAGGTGGATTAAATAAAGAAGATGTTACAATATCTTTTGGACCATTTGCAAATTCATTATGACATACTGCATATATTAACAATAAAACTCCAGAAGAGTTAGCAACTACTATTAAAGCTGTTGGTGACAGATATGGAACAAAGAAATTTGATTTCTATTTTTCTTCACCATATTTAACTAAAAGTGGACAATATGGAGATTCTCAAAGATTATTGGCAAGTGCTTTAAAAATTTTAATGGAATCAGATTCTGGATATGATATTACATTATCTTTAGTTGTTTCAACTAAAGATGGAGTTGCAGTTCAAAAAGGATTAGAATCAGTTAAACAAATTGGAGATGAAGCATATCCTTTATGAAACTTCACAGAATATTTAGGTATGAACTTTAGATTAAATTTAATTCCATATTTAACTAATAGTAGTGTAAATGGAGCAGTTTATGAAGGTAATTGAGAATTAGATACAATTAAAAAGGCAATTACAAATACTAAAACTACTTGAACACAAATGTACAAAAATATTCATGGAAATGATGCAGCTCAATATACACCAGAAGAAATAAGTAGAAGAATGTCAATTACACCATGAATTGGAAGAAGAGCTGAAGAATCAGTTTATAGTTTTACAACAGAAGATGCTGCAAAATTAAGAGAATTTGCAGTAACAGAAAAATTAGGTCAAATGTCAATGTTTTATATCTCAAGAGATATTCCTTCATTATTTGAACCAAATAAAGAAGTAAAACCAGGAGAATCAGTTTATGGATTAGCAGATAAAAATGCATTAGATCAAAATATTAGAAGTGGTGCAGGTTATAAAGCTCATTCATTCTCAGATATTCTAAGTGGAAAAGTTCAAATAAATGAAGAATTAAAAGTAGAAGCTAAAACAAAAGAGGACATCAAAAAAAATGGTGGTATAGATTATAAAGAAGATATTGAAGCAAATAAAACTTTAATACCAGGAACAAATGGTGGATGAGAAAATCCAGGAGTGGATCCGGAAAATCCAGGAGGAGGTTCTGCAGGTTCAGGAGCTGGTGGAGGAAACATAGTTCCTCCAACACCTCCAACAGGTCCAGGAGCAAGTTTATACACTAGTTGAGCTCAAGCAAATCCAAATCGTAAAACAAATATCACAAGTAAGACAAAAGCAAATGGTTCTACATACTTTTCACCATATTTAGATGCAGGATTGTATGAAGGAAATGATATTGCAGGAATTAAAAATAAAGTCTCAGGATTTGATAATTTAACATTATCATTTGTACAACAAGTAAATAGCAGTGATAATAAAGAAATAGATTTATCAATTGCAGGTATTCCTAATAAAGATGCTAATTATCAATATTGAGAAGAGTATCAATTATATGGAAAAATGTTAAAACCAATGATAGATTCAAATAACTTTGAAAATATTAAAGTAGCTTATGGTGGAGCAACTACTGGTGGATATGTTGAAAAAAATCCATGAGATGTTGCTTTGAGAATGGCAGGAGCATCAAGAGATTCAAAAGCATCTGATCTACAAATTAGTCAAGCTACAGGTCATTTAGAAAAAGCCTTAATAAAATATCAAGAAGATTTAGTAAAAGTTGGAGAACGTTATTCTAAAAAAACTGGTCTTAAAATGCCAAAATCAATAGACTTTGATATTGAAGGTCATGCACAATACCAAGAAGATGAATTAAAAGTACTTGGACAAACAATGGCAAATATGAAGAAAAAAGATCCTTCATGAGACTTTTCATTAACTCTTCCTGTGCTTCCAACAGGTTTAACAAGTGTTGGATATAATGTAATGAACATTATTAATAAAGAATTCAAAGCCGCTGGTTTATCTCAAAATCAAGTTCCAATTGTTAATTTAATGTTAATGGATTATGGTGATCCAATTTATGTTACTGCAAAAGCAAATGGAGAAACAAACTTTGATTTAGCAAAACAAGCAATTGAAAATACAAGAAATAATTTAGCTACTTCTTTAGAAGAAAACTGAGGTACTGTAGGAGTAAGTGGTAATAAATTATATTCATTAATTGGAGCAACTCCAATGATTGGTGTTAATGATACTGTTCAAGGTGTATTTACTCTTGAAGATGCAAAAGAATTATATAATTATGCTCAAGTTAGAAACTTAGCATATATAGGAATGTGATCAATGAATGATGATAGAGGAAGACAAGGTACTAGACCTGTTAATAAATCTCTTGTTACTCATGGATTAGCTTACTTAGAAGAATATGACTTTGCAAGAGCATTCTCTGGAGATTGAACAAATGAAGTAAAAGTTCCAAGAAAAGAATGAAAACATTAATTTAATATAGAGTTAAAAAAGAAAATATTTTACTATTAGTAAAATATTTTTTTGTTTTATAACAACATTAATAAGTTTTCTTTTTAATAAGTTGTAAAAGATTTATTTATATATATACTAATTATTAGAAGAGGTGTATTATTATGGGCTTTAATATGGGTATGGTTGTTTCATATAATCAACAAAATTATGTAATAATAGAAATAATTGAAAAAGAAGTTACTGGTGGTTTTATTCAATTTTTAAAGCTTAAAAATCTAATAAATCAAGAGATTTTAACTGTTAATTCACAAAAAGTCAATCATATTCAATTAAAAGGAAGCCAAAAAAATTCAGAAATTAATTTTGAAAATGAATTGACTGATACAAGTTATATTGAATCCCTATTTCCAGAAATATTGTCAGATACAGATAGTGAAGATATGGAACTTTTTGACTTATCAGGAGAAAATACGTTTACATTAGATGATGTAATTTTTGAAGAAGAAGATATTGAGAAATTTGAAGTTCAAGATAATTTAGACTCTTTAACAAAAGAATCAGCTGCTTCTAGTATAGGTTTAATTCAAAACTTTCAAACACCTGAAACTAATATACATCTAACTCCAAGAAGATCAACAACTTTTGAAAAAATTTCACCCATTAGTGACACTTTTAGTAATTTAAAAATGGTTGGAGAATTGCCAACTGAAACAACTGAAATAATTCCAAGAAGAGTTTTAAATGAGCAAAAGAAGCAAGTGTTATTTGAAAAGCAAGTAAAACCTAAAGATTCTGAAGAACAAGTTGTTAAAAAGCAAATAATTGAACAACAAGTAAATCAAAATAATAATGTTAAAAAAACTGAAAATATTGAAATAAGAAAAGAAGTAAAAATAGAACCTTTAAATCAAGTAAAATCAAATAATTTGCAAAAAGAAACTATTAATAGTAATATTAATTTCTTAAAAGAAAATAAAGTACAAAATGAAAAACAAGATTCTGCAAAAAAACTTGAAAAAGAAGCAGTTGAAAAACAAATACTTGAAAAGCAAGACTCTTTAAATAAATTAGAAAGAAATATATCTAATAGTTCAAAAGAAGAACAATTGGATACTCTTGAAACAGAACCATTAAATACAAAAGCATTTTTTGAAAATTTTAATAAACAAAAAAAACTACATGAGGATTTTAATAGTCAATTTAAAAATAACAAAGAAAATACAAATACAATATTTGGAAGCAATAATAAATTTGATCAAGATGCACTAAAAAACTCAAGAATCTATAAAAAATTCAAATTAATGAGTAGATTATTAATCTTATTTTTAGTACTAGCTTTAATTACTCCAATTATTGGAATAATAGCAAAAGCAGTTGTAGAGTTAATTAAAACCAAAACTGTTGATTTAAAAACTTTATTCTCATTTGATTTATCAAAAACAAGTAATATAGCTATAACTGCAGTGTCAATTTTAATGTCAACTGTATTTGTTATTTATTTAGTAATATATTTAATTTCAATAAGTGATAAACAATATAAGAAAATTGCATTCTATAACTTCCAATTAAAAAATAATATTGAAATTATTGACTCTATTCAGGAGTATAATAATGAATCAAGTATTTATTTAATTAAAGTTCATAATGAAATAAAAAAAATGAAGAAGGATATTAAAAAAAGTAATAAGCAATATTTAAATCAACCAATATCAAATAATAAACAAGAAAACCAAAAAGTTTCACATTAAAAAGTCATTTATATGACTTTTTAATTTTTATTTGTAATAAAATATATATTGAGGTGCAAAATGCAAGATTGAGATTTAAAAATTCTATTTCCCTTATTATTCATAGCATGTATTATTTCTATGGTCTTTTTGTGTATGAAAGAAAAACTGCAAAAAGGAGCATTTTTATGATTAGTTCAAATTATTTTGTTCTGAATTGCAGCAGGTTTTATGGGAAATCAAATAAAAAATCAAATTAGTTCTTTGAATTCAATAAGCTTTATAATTGCAAGTGTTTTTACAACATCATTTTTTCTAATTATTTTAAAACCACTTGCAACATTTTCAACTGGTATATTAAAAAATAGAAAAATATGAATTCAAATAAGTAGTTTGATTATGATTATTTTATTATTTTTCATATGTTTATTTAATTTACCAGTATGAGCTTTAATAATAGTTTCTCTTTTATTTTCTTTTTGCTTAGCAAGTTCAACTTTGTTTTATTTATTTCTAAATGAACAAAGTTTTTATAGAATATATATATTACCCTCAATTTGAATTACATTTATTTTTATAACTTTCTCAACAACTTTTGGTATATATTTAAGCAATTTAAATATAGTTATTGGAAATAGTTCGAATAGTTCAAATATTTCGTTGTTAGTTATACTAATTTTAATGATTTGTTCAGGTTTTGCTTTAAGTTTTTTATCAAAAGAAAATAAAAATATGGTTCAAACTTTTGATCAAGAAATATTAGAAGATATCCCTAAAAAGAATAATGCTTTATTCTTAATTATCTATTTATTAGCTTTTCTTTTAACAATAACAAGTGCAATAAATAATTCTTTATTTATAAAATTGTATATAGCATTGAATTTAAAAAATCTGAATTTCAATAATGAAGGAATAAGAATGTGACTTAGAATTAATGACTTTGCTTATTTAATTCCAACAATAATAGCTTCGGTTATAAGTTATAAACTTTTAAGAAAATTTTTTGAACAAAAATATTTAGTATTTTTAAATATGTTTGTATTATTTGCTATTTATACAGCTATGGCTTTTGTTCAAAATCCTTTTATTTTCATAGTTTTAAATATTATTGCGGGAATTTGCTTTAACCAAATTATCTATTCTTTATTTTCAGCTTGTTTATTTTGAAATTATAGAGCTAAAAGAAATCCAGTAACAGGGTTTTATGGAAGTGCTATGTTTGCAAGCTATTTTATTGTTGATTCTGTTCAAAGTACATTAGCTGATTTGAAAGTTGGAGTATTTAAAAACTTCTCAAATTTGGATGAACTTTTAAATAGTAAATTTGATTTTCAAACTTCATTAAAAGAGTTTGATGATATATCAACAATAATTATGTCAATTTCTTGTGTTATGATTCTTATAGCAATATTAATATTTTACTTTATGAATAATAAAATATTTGCAGATTATAGCAACTATAAGATAGCAACACAAAATTTAAAAATTTTAATTAAAAAAAGGGTAATAACAAAAACTAAAACAAAACTTGATATTAAATCTATTGAGAAAGGAATAATAGAAAGCAATGAATAAAATCTTTAATAATAGCTTTGAAATACTATATAATATAAATCCCTTTGAAATTAAAAGTATAAAAAAATCTGGTGTAGAGATTTTGTATCAAGCTAATGGAAGTTGAGATAAAACTTGACCAATTCTTTTCCCAATTTGTGGAACAATTAATGGTATTTTAGAACATAATGGAAAACAATTAGGATTAAAAAGACATGGTTTTTTCAATGAAATACAAAACTGAAAAATAATAGAAGAAAGTAATAAAGAAGTTAAAATTGAATATATTTCAAATAATGATTTTTATGATATTTATCCTTTTAAATTTTCTATAATCATTGAAATGAACTTAAAAGAAGAGATGTTTTCTTTAAACATAATTGTTAAAAATTTAGAAAATGAAAAAATGTATTTTTCTATAGGACATCATCCAGGATTTATTTTTAATCAAAATTCAAATTTGAAGTTGTTAGAAGAACAATTATTTACAAATAAATTTAAATCAGGTTTAGTAGAAACTCTTGAAAAAGACATTTTAATTAAAGAAATTAATCATACAAATATTGATTTTTCTAACAATATATCTTATATGACAGATAAATTCAGTGGTAAAGACATACAATTAAATAATAAGAGCATAGAGTTTACCCTTAAAGTTAAGAATTTCAAGAATTTGGTTTTATGAAAGCAAAATAATGAAAGTGAATTTATTTGTGTTGAGTATTGAAATGGTATTCCAGATATGTTGGATAAAAAATCAAATGAGATAAAAGATAAACCCGAAATTCTTTCATTAGAATCTAATGAAAGTAAAGATTTTTTATTAGAAATTCATTTTTAAAAAAAAGATGCTATTGCATCTTTTTTCATTGTTCATAATATTCCATAATTAATTTTTTTAATTCTGGAACTAATTCATCTTGTTTAACAGTTTTAAAAATTTTCCCTTTTTTGAAGATTATTCCACCTTTATTTCCCCCAGCAATACCAATATCTGCTTGACTTGCTTCACCAGGTCCATTTACTACACAACCAAGTATGGCAACTTTTAATGGAAATTGAAGTTCTTCAACAAATTCTTCAACTTCTTTAACAACTTCTCTTAAAGAAAATTCTAATCTTCCACAAGTTGGACATGCGATAACTTCAACCATATTGTGAAAAAGTCCTAATGAATTAAGCAATCTTTTTGCCACTTTTATTTCTTCAACGGGATCTTCACTTAAACTTATTCTAATTGTACTTCCAATACCTTTTTGTAATAAATATCCTAGTCCAAAACTAGATTTTATAGCTCCGTTTAATAAACTTCCTGCTTCTGTTATTCCTAAATGTGCAGGATAATTTCAATTTTCACTTGCCATTTCATAAGCTTCAATTGCCATTAAGGGATCTGTTGCTTTTAAAGAGTAAATTATATTTCTAAAATCATATTTTTCTAAAATTTCAATATGCTCTCTAAGAGATTCAACCATTGCTTTTGCAGTTCACCCATATTTTGCAACCATATTTTTTGGTAAACTTCCAGAATTAACTCCAATTCTAATAGGAATATTTTTTTCTTTACATTTTTCAACAACTGCAATTGTATTTTCTTCAATTCCAATATTTCCTGGATTAATTCTGATTTTTGCACAACCTGCATCAGCTGCTATTAGAGCAAATTTATAGTTAAAATGAATATCTGCAACAATTGGAACAGGAGAGTTGTCAACTATTTCTTTTAATGAATTTGCATCATCAATTCCTAAAACTGCAACTCTAACTATTTGACAGCCTTCTTTAAAAAGAGAGTTAATTTGTTTTAATGTTTCTTTTACATCATGAGTTTTTGAAGTTGTCATTGATTGAATGACAACTTCATTATTGCCCCCAATTTCAATATTTCCAACTTTTACTTTTCTAGTATTTAGTCTATTTACCATATTAATTCCCCATCAAATTGTTTCTCCTAAAATATTATACACTTGTTTTTTTATATGTATTTTTAGATATCAAAATAAGAGTATAAAATTATTTTTATGTATAATTAATATAGTAAGAGGTGAAAAAAGTGTCAAAAAAAACTACATTAAAAGATATAGTTCAAATTAATAAAATACTTACCTCTAAACAATACAACTCATTAGAAGAATTTGATGAATATAGTAATATTATTCAAGAATATGTAGATGATACTTTCTTTAAAAATAATGCTATTGTTGAAAAATTAGTGCAATATTGTGAAAAGAGCAGTAGATATTTAGATATTAATTTTAAATTTTTAAGTGGAATTGAGTTAAAAACAGAAGATGTTCACAATTATTTATCAATTACTAAAAAAGCTATTGAAAAAGCAATTTTTGTAGAAGATAGTATTTTTGAACAGTCAATATTTGTAGAAATCAAAAGTATTTTCAAATATTTTTTAGAAAAAAGTTATGAGTTAGAAGCACTAAAAAATTACGAAACTTTGTATGGAATAAATTCATTAGAATTTCATCAACAAAATGAAAGTTTTAAATATCTTTATACAATATTTGATAAACTTACTTATATTGCAAGGCATTTAAATGACAAATATTGTAAAAGAGAAAATAATCTCACAGAAGCATTAAAATTTTCAAATGACTTTTTAAAAGATATTTCTTTTTTAACAAATAATGCAAGTGATTTTCAAAAACTAAGTGACATTATTGATCAAATAACTTATTCAAAAGCTTGACACTATATTAGAAGATTGAGAAACTCTATAGAACACGATTTTGTAGATCCATCTTATAGATACAATATTTGTTTTTCTTTACAATTATTATTTATAATTATTGGTAGAATAATTTTAGCATTAAATAAATATATTCAATCTGAAAGTGAAGTTAGAAAAACTTTGGACAATTTAAAACAACAAAAATAAGTTTAAAATGAAAGGGTACATAAATGGATAAGTGAAATAAAATAGAATTAAATAATTTTAATGGACCTTTAGATTTATTGCTTCATTTAATTAAAGATAAAGAAATGGATATAATGGATATTAATCTTTTTGACTTATCTTCACAATATATTTCTTATATTAAAAAATATGAAGATTTAAATATTGAAATAGCAAGTGAATACCTAGTTATGGCTGCTTATTTAATAGAATTAAAGTCAAAATTATTAATACCAAAAGAAGAAGTTGAAATTGATTCAAATTATGAAGAACAAGAACGAGATGAATTAATTAGAAGGTTAATGGAATATCATAAAATTAAAGAAGTTACAGACTTCTTTAAAACTAAACAAGAAGAATTTTTAAAGACTTTTAGTAAATCAAAAAGTATTATAAAAATCTCAAAAATAGATGATGATAAATTACCATTAGCAGAAAATAATATTGATATTGAAAAATTCTCAAATATCTTTTTAAGAGCTATTGAAAAGAATAAGTTTAAAAAAATGGAAGTGAATACAATTACTTCTGTTGAAATATCACCAGAAGAAGTTGCAGAAGATATTATAATTTTCTTAAATAATAATAATATTAAAGAAATTGAATTAGGGAAACTTATTGAAATAAAAGAATTTTCAATAAAAATGATGGTAGCAACATTTTTGGCAGTTTTAGATTTAGCAGCTAAGAAATTTATTTCACTATCTCAAGATCAAGAAGAAGTAATTGTCAAATATTTAGATTGTTAAAAGGGAGGTAAATTATGGATAATAAAAAAAGAATGTCAATTATTGAAGGACTATTATTTGTAAATGGTGATGAAGGAACTTCAATTGAAGATCTTCAATTCATTTTAGGTGATATCAAAGAAAATGAAATTAGCGATTTAATTGATCAACTAATTAAGAAATACAGTAAAGACGATTCGTCAGGATTAAGTATTCAAAAGTTTGCTAAAAATAGATATAGAATGATTACAAAAAAAGAAAATGCTGATTTTTATGCAAAACTTGCAAATGTTAAAACTGAATCAAAATTATCAACTGCAAGTATTGAAACATTATCTATAATTGCTTATAGAGGACCAATTTCAAAAGCAAATGTTGAAGAAATTAGAGGAGTAAATTGTGAAGCAATTTTCTACAAACTTAAATTAAGAAATTTAATTAAAGAAGCTGGTAAGTCTGATGAAGTTGGAAAACCAATGTTATATAAAGTTACACAAGACTTTTTAAAGTATTTTAATTTAAATAGTTTAGATGAATTACCTAAACTAAAAGAAACAATAGAAGAAGAAAAAGAAATTTTCACTAGAGGTTAATAATGGAAGAAAGATTGCAAAAAATTATTGCCACTAGGGGATATTGCTCAAGAAGAAGAGCAGAAGAACTTATTGTGCAAGGTAAAGTAAAAGTTAATGGTAAAATTATAAAGGAGCTAGGTTCAAAATTTGATCCAAATGTTAAAATTGATATCAATAATAAAAGTGTAGAAGAAGTAAAAGAAAAAGTTTATTATTTATTTAATAAACCAAGATTAGTTTTAACAACAATGTATGATCCAAAAGATAGAAAAACTGTAGCAGAATTCTTTAAGGATTCAAAATTAAGAGTTTATCCTGTTGGAAGATTAGACTATGATGTTTCTGGAGCACTTATTATGACAAATGATGGTGAGTTTGCAAATTTTGTAATGCATCCAAAATATGAATTTAGAAAAACATATCAAGCTCTTTGTAAGGGTAAAGTACACAAATATCAAATTAAACAGCTTATTGATGGTGTTCTTATAGATGATAATTATAAGACAAAGGCAATTCAGTCAAGACTTTTAAAATATGATGAAGAATATGATGAGTCTGTAATAGAATTAACAATTGCTGAAGGTAGAAAACATCATGTTAAAAAAATGCTAATAGCAGCAGATATTTATTTGAAAAAATTAAAAAGAACTCAAATAGAGTTTTTAACAATAGAGGAACTACCAATTGGTAAATTTAGAGAATTAAAATCTCATGAAATTAAACAATTTTATGGAATTTACAATTCATTGAAAGTTAAAAGAGGTAAGTAAATGAGAATAGCTATTTTTGGTACAGTAGGTGCAGGTAAATCTACTGTAAGTGAAGAAATATCAAAAAAATTAGGATACAAGGTATTTCCAGAACCGATTGACAATAACCCATATTTTGATGATTATTATAAAGATAGAAAAGCAAATGTTTTTAAAATGCAAATATATATGCTAACAGCAAGAAGTCAACAATTAATGGAAGCTGAGGAACTAAAAAATGTAATTTTTGACAGAACAATATTGGAAGATCCAATTTTTGTGGCAACCAATCATGATACAGGTGCAATGAATGATATTGATTATAAAACATACACAGATTTTTATGAAAATGTTGTTGTTCCAAATTTATCTGATAGAGGAAAATTTGATTTAGTAATTTATTTAAAAGTTTCAACAGATAAAGCAATTCAAAGAATTAGAGAAAGAGGAAGATATCAAGAATTTGATTCTCCAAGAGAATATTGGGATGTTTTGAATAAAAATTATGATAATTTTTTTGAAAAAAGAAAACATATGTTTGATTTTTTAGTAGTTGATGCAGAAACTGATGATTTAGAAGAAAAAATGCAATTTATAATGAATAAAATTTATGAAAAAGATTCTACTTTAAAGAAATAATAATTAATGCAATAGCAAAATAAGACATTTAAATTATTAAAATTTTTTAATATAGTTTTTATTGATTAATTATTATAAATTATAGTTACTTTATAATTTGGTTATATATTTTTAGTGACTTTAATAATTTTGATAATTCTTGAAATAATTGGAAATATAAGTTAAAGGAATTTATCTTTTTTAAGATATTATTTTTTATGATTTTTATTTTTTATAAATAAAAAGTATAATATAAAAAGTTATTAAAATAGGAGAATTAAATATGGGAAGAGCACATGAAGTTAGAAAAGCAAGTATGGAAAAAACTGCTGCAATGAAATCAGCAATTTATGGAAGAGCTTCAAAAGAAATATATATGGCAGCAAAAGCTGGAAGTAAAGATCCAGAAGCAAATTTAGCACTTAGAAGTGCAATAGATAAAGCTAAATCAAAACAAGTACCAGCTGATGTTATTCAAAGAGCAATAAAAAAAGCTGAAGGTGGAGATGCAGATAACTATACTTCAAATAGATATGAAGGATATGGTCCTGGAAATTCAATGATAATAGTTGATTCACTTACAAATAATGTTAATAGAGCAATTGCAGAAATAAGAGATGCATTTAATAAAAATGGGGGAAAAATTGCAAATAGTGGTGCAGTTTCTCATTCATTTCAAGCAACAAGTATATTTGCATTTGAAAATAAAAGTGTTGAAGAAATCTTAGAGCTTTTAATGGAAACAGATTGTGAAGTAAATGATGTTCTTGAAGAAGAAGGTTTAACAGTTGTCTATGCACCATTTCAAGCATTTAATGCAATTAAAACAGCATTAGATAATGTAGGAATTAAAGATTATAAAATGGCTGAAACAACAATGTTAGCTGATGAAATGATTACAATTGTGAACTCTGAAGAAAAAGCAAAATTTGATAAATTAATGGATAAATTAAATGAGTTAGAAGATGTTCAAGATATTTATCATAACGTTGAAAATTAAATTATAGTAAAAAAAGAACTACAAATTTAAATTAAATAATAAAATAAATTAAAGAAAAATGGGCTTAAATAGGTCTATTTTTTATTTATATAGTTATTGTGCAATAAAAAAAGTTTTTTATTTTCTTATTTTATATTTAAAAAAACTATTTTGAGATTTTCTTGTTAAAAATCAACTTAGGAAAAACTCTATATACTAATGAGAAATTATTTAAAAATAGTAATTTATTAACTATCAAATTTTTCCCAAATACGAATAATATTCCTTTAAATATTACTTTAAAAACTTATTTGGAATATGTTGGATTTAGATTAGGAATAGAGTTAAAAACAATTGAAGATTCAAAGAAAAAATCCTGTAAAATGACTAAAATGAAAAAATAAGAAAAAATAAATTAAAGGAATTATCTGCTAGATTAAAGAAAAAGTAATTATGATAAACATTTTATTTAGAAGGTTCAAAAATAATAATTTTTGATGAGTCAAAAACAGATTTAAATAAGGTTTCAAAAAAAGAACTTAGAATATTTTTCTAAGCTCTTTTATTAATATATTTTTTACTATCAGATTTTAATTCTTTTTTCTTTTTCTAAATACATTTCATCACCAGGTTGAGTATTATAAACTTCGTGGAAATCATCAATGTTGATTAATACTCCATTACATCTAAATTCTTCTGGAGAATGTGGATCAATTAATAATCTAGTATTTTTCAATTCATCTGTAGATTTTCTCATTCAAATTTTTGCATAATTTTCAAAAAATAATTTAATATCTTCTTTACATTGTTCTTTGCAAATATCTAATGCTGCTGCAACTCCACTTAGATCCCCAATATTTTCTCCTAATGTTAATTTACCATTTACATTAGTTCCATTAATTTCATATTTATTGTATTGTTCTACTAATTTTTCTGTTCTCAAACTATATTGTTTATAATCTTCTTCTGTTCATCAATTTTCAAAGTTACCATTTTTATCAAATTTACTTCCTTCATCATCAAATCCATGGCTTACTTCATGACCAATTACTGCACCAATTCCACCAAGATTTCTAGCTTTTGGCTCTTTAATATCATAGAATGGTTTTTGCAATATTCCTGCAGGGAAACAAATTTCGTTTGAACTAGGGTTGTAATATGCGTTAACTGTTTGAGGATTCATATATCATTTTGTTTTATCTACTGGCAGATTAATTTCTTTTAATTCTTTTTCAAGAAAATGCTTTGATAGGTTTACTAGATTTTGATATAAACTTCCACCTTGTTCATAGCTTTTTATTTCAATTTTTGAATAATCTTCAAATTTATCTGGATAACCAATTTTTATTGTAAATGAATTTAATTTATCAATTGCTTTTTCTTTTGTTGTTTGACTCATTCATTCTAAATTATTAATTCTTTTTGAATAAACTTTAATTAGATCTTTTACTATTTTTAAAACATCTTCTTTTGCTTCTTCTGAGAAGTGCTTTTTAATGTATTCTTTTCCTAATAATTCTCCAAGAGTGGAACTTGTAAATTCTACAGCTCTATCTATTTCTGGTTTCATTTCTTTTACACCACTAAATACACTTGAGTATTTAAAATTTTCTTCATACAAGTCTAAACTTAATACTGAAGAAGAAGCCACTAGTGTTTTTATTTTCAAGAAATCTTTTAAATCTTCTAAACTTATATTATTTAGCATTTCATTTAATTTTTTCATAAATTTAGGTTCAAACAATATAAAGATTGCAGCTTTTGCATATCCTATTTCAGTTAAATATTCTTCTCAATTAATAAATGGACAATGATTAGTTAATTCTTTTAGTGTAACTACATTATAAATATTTTCAGGACTTCTAAGTTCTTCTTGTTTTAACATACTTTGTGATATTTCTTTTTCAAAGTTATAAATTAAATCAAAAATGCTTTTTGTATTGAATTTTAATTTTGAAATTTTTGCTACATTTTCTAAGTAAGTTTTATAACCAGCTTTAATGTCTTTATGTCTTGGATGATTTTCATCATAAAAATCTCTATCTGTCATTCCCAATCCCATTGATCCTATCATTAAAGCTCTCACATCACTGTTTTTAAAATCAGAATCTACTGATTTAGAATGAAAAAATGATATATTAAATTTTTTAAAACAATCTATTAAGAGACTAGTAAAATCTTCTTTTTTGTTTAATGAATCAATTTTAGAAATAATATCTTTAATTGGTTCAATTCCTTGTTTGTTTCTCATTTCTTGGTTTAAATAGTTTTTGAATAAATTGATAATTTTTTCTTGATCTGAGTTTAACTTTTTTTCATTATCTTTAAATTCTAGTATCATTTCTTTAATATCATCAATTGATTTTTTATGTAACATTTCAAAACTACCTCATGATGGATAACCACTTGGTAATTCTGTATTGTCAATTCATTCTTTGTTTATATGTTCAAAGAAATTATCTTGTTCTCTTATTTTTGACATAATTTTTCTCCTTTTATATATAAGATTATAAGACTAATATCAAAATAAACAATAGTAATGAAAATAATCTTATATTAACTATAATTAAGTGATTCAAATATTTTGCTATAATCATTATAAATAAGAGGTATTAAAATGAACAGAGATATAGTTTTGTTGAGAACTGTTGAAGTAGTTGCTATTGCTTCATATAAATATATTGGAAAAAAAGATAAAAATTTAGTTGATAAAGCTGCTGTTGAAGCATTTGAGGTTATGTTAAAAAATGAAAAAGGTTTTAGATTAAAAGTAGTCAATGGAGAAGGTGAATTAGATCAAGCTCCAATGTTATTTGTGGGACAACTACTTGGTGATTTAGAAGATCCAAGTGTTATGACCTATGATGTTAGTGTTGATCCAGTAGAAGGAACTCATCCTGCTGCTTACAATTTTGCAGGAAGTATTGCAACAATTGCATTTTCAAGAGAAAATACTATGTTACAACTACCAGAAATGTATATGGAAAAGTTATTTGTTAGTACAGAATTTATTAATGAAATTGATTTAAAAAAAGGAATAGTAGAATCAATTAAAAATATGCAAAAAAAAGTTAATCGAAAAGACTTAAAATGTATTATCTTAGATAAACCTCGACATAAAGAAATTATTAAAAAAATGAATGATCTAGGAATAATTATAAGACTTATTCAAGATGGAGATGTTCTAGCTGCAATTGATGTGGTAAATGGAGATGCTGATTTTGTTTATGGAATTGGGGGAGCTCCTGAAGGTTCTTTAATGGCAGCTCTTGCAATCTCTGCTGGATGTAAAATGCAATCAAAACTTGTAAAATATAAAGATATTTGACCAAATGAAAAAGAAAGTGAAGCAAGAATGAAAAAAGAAACAGCTTGACTTGAAAAACACAATTTAGATTTTGACTCAATTTTAGAAGATTTGGATTTAGTAGCAGATCATAGAACTAGATTTTTTGCAGCAGGTTTAACAGCTGGAGGAAGCTTAAAACCAGTTGATTATAAAAATGGTAAATTTTATGTAAATGCATTTATGTCTTCACATGGAATTGTAAGAAATTTTAATTCTGTTTATGATGTAAAAAAAGTAAATGATTTAAAACCTGAAATTAAATTTTTATTTGATAAATATAAAAGATAATTTTTAAAAAAATATAATATACTAAAAGAGAAGGTGAATTTATGGACTCTCTAACTAAAGTACTATTGATAGCTTTAGGATTGTCATTAATATCGTTAATAATAATAAGAATATTTAATACATTTAGTTTAAATAGAATAGCTATTCATGAAATTAATTCTGCAGATAGCAATATTTCAAGTAGTAAAATTGATTCAATCATTCAAAAATTTAAAGTATATTTAAAAATTGAAGAATTAAATATTAGTTATGGAGAAACAGAAAGTTATTATAGAATTAATCAAATGCTAAATAAAAGAAAGAAGCAAATTACAATTCCAAAATGAATTATGCCAAGTGTTGGTTATGAATTGGACTATATTTTAGCAAGTATTTGATTCAATGCTAAATTATTTCAAAAGGATAGAGATATAAAAAAAATGCAATTGATCTTAAAATGAATACCTTTATTTTTATATATAGTTTACTTCTCAACTTTTATATTATCTTTTGTAATTTATTTTTTAAATAAAGAAGCAATTATTCAAGCAACTTCTTCAAAATTTTTAATATTCATTTTTTCTAAACCTTTAATGGAGTTAATCTCTCTTACAGTTTTTTTATCTATAGTTATTTTAATTTTTAGCTCTAATATTTTAAAAATTAGATTAGAAGAAAAGTATGAAAATGAAATTATTGGTTTTGTAAAAAATGAATGTGAAAGTTATAAAATGGATATATCTGCAGCTAGAATATATGCAAAAGAATTTAATAAATTAGATTTTAAAATCTTTAGAATTAATGCAAAAACATCTAATTTAAAATTTGTAGGACCTTTCACATTGTTATAAAGATATCTATAATTCAAATTAAAAAATGCAAATAGAATCTTAATAAAAAAAGAAAGCCAATAAGAGCTTTCTTTTTTCTTTTTTTAGCAGTATTTTAAAAACCTACTTTTTATTATCCTTGACCAAGTCCTTTTTTCTTTCACTCAGCCATTATTTCTTCTTTACCATTTGGTTTAGAATATCTTTCTTTATATTCTTCATATCTTTCTTTACATTCTTTTAATTCATGCATTGCTTCTTCTGCAGTTCCTCAACCGTTAATTTTAACTTCTTTTTTTTGTAAAGATTTATATTGTAAAAAGAAATTTTCAATTTCATCTTTTAAATGTTGAGGTACATCTTCTAAAGTTTTATATGCATCAAATCTTCTATCATCTGCAAAAACACCAAATAGTTTTGTATCAATTTCTCCTGCATCAATCATTTTAATAGAACCTAAAATTCTTACATTGACTCCAACTCCTGGAAGAGTAGGGTAAGTTACAAGACTTATAACATCTAATGGATCTCCATCTCAATCAAGAGTGTTTGGTACAAAACCATATTCTCCTGGATAAAAATTAGCTCCATATAAAACTCTATCTAAGCTAATTTCATTAGTATTAATGTCATATTCATATTTATTTGAACTACCTTTTGGTATTTCAACTATCATTTTAATTACGTTATTTTCCATTATTAAAATCTCCTCTACAAAATTATTTTATATTAAAAAATAAAAACTATAAGATTTGTTTCTAAAATAAATGTTTATTTATAAGATTTACAAGAATTTTTACACTAATTACAAATAATAATAGATTACAAAAAAATTTAGCAATTGTAACTCCAAAACCCACAAACATTATTGAAAATCAAAGTGTACTATTTTTTTCTGGAATCAAAGCGGGATAGAGAGTTCTATATCATTCAAATATAAAAGTTTGATTGTATAGAAGTGATAAGCTAGCAGAAATTAAAGTAGCTAATATTCCACTAATTACTATCATTCATAAATAATATTTCATTTTATTGTTTTCTTTTACTCTAAATAATAGAGATCTTTTAAGAAAAAAGAATACAACAGCAAATGCTATTAAAAATGATAAATCTGATAATGTCATTGCAACAACTCCAATTGGATCACTTCCTAAGGGAAGAACAATTCTCATAGAGTTTACTAATATATTTATAATTGCTGAGTAAACAATATTTGAAGATAAGTATATAAACAAAATTCCAAAAAATGATACTTCTATTGAGTAAAAACCCATAATTAAAAGTCCACCTAGAACATATTTGCTAAAAATAGTTAACAAAACTTCAAATGCAAATAACATAGACAATAAAGTAATTTTTTTTATATTTAATTGAAAATTATCTTTTAAAACTAATCTTCAATTATATTTATTGATTTCTGCAAAATCATATTTGTGATTTCAAAAACCATATTCGTTTTCCATTTATAAACTCCTTTAATATAAAAAGCCCCTTTAAATATAAAATGGGGCTCTTATGTAAAACAAAAATCAATCCTTAGGATTTTAAATTTGTTAGGTACTTTCTCACATCCGGACTTTATACCGTCGGTTTCAGAATTTCACTGAATCATGCTTTTTAAAAGCTCATAGACTTTCACTATCGGTAAGGAATCACACCTTGCCCCGAAAGTACTCACAAAATTATTATAAACTAAAATTTATAGTTTTAATAAATTCTAATTTATAAAAATTATAATTTATATTTATAATTTTTATAAATTACTATATAATATTTAAGAACATATAAAAAGGAGAAAAAATATGGAAGATAAAAATCACAATATTCCAGAACATGATGATGTAAAAGAGGGTAAAAAAGATCATTATCATGATGAACACCATTTTGATGCTCTAGGTAACCATGATGATATCGATGAAGGAGATTTTCATTGAAAAAATAGTTTATATACAAGTAGAAGAAATCTAACTTTTAAAATAACTTTAACAGGAGTATTTCTAGCTTTGGCAATAGCAGTTTCTGCATTTGAAATGTCAATAGAAGCTGTTTTAGAGAAAATACAATTTCAAGGAGTTCCAATACCGTTTAGAATCTTTGACTTAATAGTTATAACACTATCATTGTCAGCTTTAGGACCAATATTTTCAGGTTTTATAGCTTTTGTGGCACCTTTTATTCACTTAGCAGATGGATTTCACAATCCTCTCTCTGTTGTTATAGATTGTGCTGGATACTTTGTGTCAGTTTGAGTAATATGATTTTTCTATTACTTTGTATTTAGAAATTCTAGTATACATAAACATCAAATAAAAAGTGTTGATAGATTTAAAAGGTGAACACCAATAGTTGCATATGTCTCTATTATGACAATAGTTTATACATTACTAGTTTTTGCAATTATGTATTTAAATACTTCATTTGCACATTCTCATGAAGAACATAAGGAAGTAATTGCAAATATCTCATCACTTCACTTAGAAGATGAACATAATCATGATCATGGACATTGAGAAGATATTGTAAAAAATTTAGGAGCATTTATTGGAATTATTTCAGCAATTGAGTTAGTTAGATTTTCAATTTGTTATTCATTATTTGCATTAATTGAACCACAAGTTAAAAAAATTAATCATTATTATAAGTAAAATAATTATTTGTTTAATAAAATACAGTCTTTTCATTAATATTTGATAAAATTAATATATCAGTTCAAATAGATTAGTGAGGAAAATAAAATGGCTGGAAAAAAACCAACATATGTTTCTATGGATTTAGGAACAGCTTATACTTTAGTATACATAGCAGGACAGGGAATAGTTTATAATGAACCATCAATAGTGGCTTATAAAATAAGAGAAAATAAAATAATCGCTGTTGGTTCTGAAGCATATAAAATGATAGGAAAAGGGAATAAAAATTTAAGAATTGTGAGACCTATGGTAGATGGTGTTATAACTGATATTAAAGCTACACAAGCACAACTAAATTATATTTTTGCAAGATTAAGATTGGAAAAAACTTTAAAGGGATGTGTAATGGTATTAGCTTGTCCATCAGTTATTACTGAATTAGAAAAATCAGCGCTTAAAAAAATAGCAATTAACTTAGGAGCTTCAAATGTATTTATTGAAGAAGAAGTTAAAATGGCTGCATTAGGCGGGGGAGTAAATATTTATGCTCCATCTGGAAACTTAATTATTGATATGGGTGGAGGAACAACTGATGTTGCTGTTATTGCATCAGGGGACATAGTTTTATCTAAATCAGTTAAAGTTGCTGGAAATTACTTAAATGAAGAGATCTTAAAATTTGTTAGAGCTCAATATGGAATGGAAATTGGAGTAAAAACAGCTGAAACAGTTAAAATTAATATTGGTTCATTAGCAAAACAAGCTGATGAAAAATCAATGAAAGTTTATGGAAGAGATGTTGTTTCTGGATTACCAAGAGAAATTACAATATCTCCTGAAGAATTAAGAGAAGTATTAAAAATTCCTTTGTCAAGAGTTATTGAATTAACAGTTCAAGTACTAGAATTAACTCCACCTGAATTAGCAGGGGATATCTTTAGAAATGGTATCACATTGTGTGGGGGAACAGCTTTAATTAAAGGTATAGCAAAATATTTTGGAGATACATTACAATTGCCAACTAAAGTAGGAGAATTCCCATTATTAGCAGTTATTAATGGAACAAAAAAATATGAAGCAGAAATTTATGCAAAATTAAGAGCTACAAAAACTGAATTAGATTATTAGAAAATGTCTTTGGACATTTTTTTTATATCTAAAATAATGGAAAAAATTCTAAAAAAAAATCTTTTTTCATAACTTTTTTTATTTGTATGCTATAATAAAAATGAAATTACAAGGAGTTGTAATTCTCATATTAATAATAAGGATATTAAAATTGTTCAAAAGAAATCTCTGATTATCTTTTTTAAAAAAAATTATTAATAAATTAAATAAATTTGCTTTTGAATGAGTGGCATTTTTATAATTTGAAAAGTTTTTAAAAAAGATAATAAAAAAATTCTTTAATAAGAATTTTTTTTGTTTTCTATTCGTCCCCAATTTTAACAGCACCAGTAGGACAAACCATTTGGCATTCAACTAATTCTAGATCATTTTCGTTTGCTTCTGCAAATCCATCATCATCCATGAAAAGAGTACCTGTTTCATCTATTTGTACACAAGCCATGCATCCAATACACATTGACTTATCTATCCAAGTTTTTTTCATAAAAAACATCTCCATTTCATTAATATAATAACAATAATTTACAATATTTCTATATTTAATTTATAATATAAATTAATGGGGTGAAAAAAGTGAACCTAACAAGAATGGAACGTAATAAACAAATTCACGATAAAGTTAGAAAAGAAATTTCATATAAGAAAAATATTCAAGATGAAAAATCAGTAATTCATTCTACTTTTGAAAAACTTAAAAAAATTGATATGGATTTTTTTAAGGAAAAACTAGCAATATTTGATGCTAAGCACGAATTTGAAAAACCATATCTTGACAGAGATAAGTCGTCTTGCTTATTTCCTGAAGAGATTAAATATGAAATGAAGTTAGAGATTTCAGAACTTAAAAAGCTTGGAAAAGCTGAAGTTGTAAATAACTCTAAAGTTGAAACAGAAGAAGAAACATTTACTTTAAAAAGTGAAAAATATATTAATTTATATAGAAGTTTACAAGCCAATGAAAAGAATTTTCAAAAGAATATAGATAAACTAAAAGAAAAACAAGCAGGGCTTAAAATTATTCCTCAAGATATCTCAATGACTACTGTACAACAAGTAAGAAGCAAAGATAATAGAAGTACTCAACAAATGATTCTTGAAGTTAATGATAAAAATGAAAAAGGTCAAAATAAGGTTATAAAAACTTGAAAACTTTATGAAAGAAAATATAGATTTAAATGATCATTACCTATTTTAATAATTTTAGCAATTTTAATGATTCTAACTATAATAATTCCAATTTTCATTGTTTAAAAGGGGTAAAATAAATATGAAAAATATCAATATTGCAGTAGATGGAACAGCAGGATCAGGAAAAAGTTCTGTAATGATTAAAGTGGCAGAAAAATTGAAAATGAATTTTATTGATACAGGAGTTATGTATCGTGCTTTTACAAAATTATGTATTAATAATGGTGTAAACTTTTCTTCTGACAATGAAATTCAAGCTCAAATAAAAAATTTTAATTTTAAGTATATAAATGAAAATTCAATAATAGTAAATGGTATTGATTTAGGAAAAAATATTTCTGATTATGATGTTGCAGAAAATATTAAATATGTTGCCAAAAACAATGATGTTAGAGCTTTTATGGTAGAAGCTCAAAGAAAAATGTCAGAAAGTAAAAATAATATAGTAATTGGAAGAGATATAACAACTGTTGTTTTACCTGATGCTGAGTTAAAAATTTATTTTGATTGTTCTATAGAATCAAGAGCAAAAAGAAGATACGAACAAAATAAAGCTAAAAATATTGTTCCAAATGTATACGAAGATATTTTGAGACAGATTGAACAAAGAGATGATTATGATAAAAATAGAGCAGTAGGAGCTTTAAAGATAACAAAAGATGCTTGATATATTGATACTAGTAATTTAAGTATTGAAGAAGTAATTAATATAGTTTTAAAAAAAATAGAAGAAATTAAATAATTTTTATAAATAAAAGAGGTGTAGAAATATGGCAAGAAAAGGAATTGTGGCAGTTGTTGGAAGACCAAATGTTGGTAAATCTACACTATTTAATAGAATAATAAGAGAAAAAAAAGCTATTGTTGAAGATAAACCTGGTGTAACAAGAGATAGAATGTATGGAAGAGCAGAGTGATTGACGATGCCTTTTATTGGTGTTGATACTGGAGGAATAACTTTACAAGATAGTCCTTTTTCAAAAGAAATAAGAATGCAAGCTGAAATAGCTATTAAAGAAGCTGATGTGATTGTTTTTGTAATTAATTTTAAAGATGGAATTACTCCAGAAGATGAAATGGTTGCAAAAATTCTTTATAAAACTCAAAAACCAATTATATTAGCTGTAAATAAATATGATAAAAAAGAGCAATTTGATGAGTCTTTTACTTTTATGACTTTAGGTTTTGGAGAACCTTGTTTAATTTCCTCAACACACGGTATTGGAGTTGGAGACTTATTAGATAAAGTAATTGAAAATATGCCTAAATTTAATGAAGATCACGAAAATGAAGAATTAAAATTAGCTATTGTTGGAAGACCAAATGTTGGTAAATCAAGTTTAGTAAATGCACTTGTTGGAGAAGAAAGAATGATAGTATCTGATGTAGCTGGAACAACAATTGATGCAGTTGACAGTAAAATTAAATATAATGGCAATGATTATATAATTATAGATACTGCTGGTATGAGAAAAAAAGGTAAAATTTATGAAAATCTTGAAAAATATAGTTATCTTAGATCTATTACCAGTATTAACAAAGCAGATATTGTTCTTTTAGTTCTAGATTCAAGTGAAAAAGTTGCAGATCATGACACAAATATTGGTGGTGTTGCTTTTGAAGAAAATAAACCTATAATAATTATTGGAAATAAGTGGGATTTAGTTTCAAATAAGGAAACTAATACAATGAAAAAGAAAGAAGAAGAAATAAAAGCTTATTTTAAATATTTAAATTATGCCAAAGTACTATTTTTGTCAGCAAAAGAAAATAAGAGAGTAAATAAAATTTTTGATGTTGTTGATTTAGTTCAAAAAAATATTAAAAAGAGAATTCGAACAAGTTTATTAAATGAAATTTTCAATAAAGCACAATTAATAAATCCAGCTCCAAATCATAATGGAGGTAGATTAAAAATATTTTATGCTTCACAAGTAGAAGCATATCTTCCAACTTTTGTTTTATTTGTAAATAATCCAGAATTTGTACATTTCTCATATAAAAGATTTTTGGAGAATCAAATTCGCTCACAATTTGATTTCAGTGGTGTGCCAATTACAATAATTTTTAGAGAAAGGAAATAATAAAATGATAAAAGAAAGAATATCAATAATAGGTACAGGAGCATATGGAACAGTATTGGCTAATGTTTTAGCTGATAATGGCCATGATGTATTAATGTATGGTATTGAAGAGTCACAAGTTGATGACATTAACAATAATCATTTAAACTCAATGTTTTTTAAAGATTTATTAATAAATTCAAACATAAAAGCAACAACAGATTTTGCAGTTGCTATGGAAAAAGCAAATATTGTAATTTTAAGTGTTCCCACATTTGCATTAGATAATGCAATTGAAAATATAATTAAATATGGTAAACATGAAATGCATATTATAAATGTTGCAAAAGGATTAGATGAAAAAAACTTGGATTTATTGAGTAAAAAAATCAAAAAGCAGTTTGAAGGTACAGGAATTATGAAATCTTATGGAGCAATTTATGGACCATCAGTAGCAATAGAAGTAATTATGAGAAAACCAACTTGCGTTATGAGTTGTAATGAAGATGAAGAAATAGCAACATATATGGCAAATATTTTTTCAAATGAATATTTTATTGTTAAAGTTTCAACAGATATTGTTGGATGTGAAATAGCAGCTGCTTTAAAAAATGCAGTAGCTATTGGAGTAGGAATTCTGCATGGTTTTTCAGCAGCAGATAATTCAAAAGCGTCATTAATTACTATTGGAAATGCAGAAATTTATAATGTTGCAAAACATTTTGGAGCTAAATTAGAAACATTTATGAATTTTGCTACACTTGGAGATCTTATTTTAACTGCTTCTTCTGTAAAATCAAGAAATTTTTCATTGGGTGTTCAAATTGCAGAAAACGATGACGCAAAAAAAATACTCACTTCACATAAACATACTGTTGAAGGGGTTTTATCTTGTAAATTAGCATATGAGATCTCTAAAAAATATCAAATTGATACTCCAATGTTTGAAATACTATACAAAATACTATACAATAATCATAAGCCTAGTGGGTTAGTTAATGATTTTTTCAAACACGCTAAGGTAGTATAGATATAAGGGGTCGAAAACCATGACAAAAAAAGAATTATCTGAAAAACTATCAACAGAATTTGGTAGCACAAGAGCTGAAGCTGAAAGAATGATTAATTTTGTATTTGATGAAATCTCAAATGCATTAGTTAAAAAAGAAGAAGTTGCTTTGGCAGGTTTTGGAAAATTTGTTACTTCTGAAAGAGCTGCACGTGAAGGTGTTAACCCAGCAACTGGAGCTAAAATCAAAATTGCAGCAACAACAGTTGCTAAATTTAAAGTAGCTAAACAATTAAAAGACGCAGTTGCTAAATAAAAAGGGTATTTTAAATAAAAAACTTGCTAAAAGCAAGTTTTAATTTTGAAGAAAATGTTTGAATTATTCAAAATAGGCTTAATAAGTAAAAAGGCTCTTTTAATATTAAATTACTCTAAAATTAAGATTAATGAAAACCAATTAGCTATTCTATTAATTATTATGGAGTTGTCAAACGATGATCAAAAAAACTTTACACCATCACAAATTGCACAGCACATGATGATATCTAAAGAAGAAATAGAAAAAGAAATATCAGAATTATTAAAGAATAGAATTATTAAACTTGAACAAAAAGGTAAAAAAACTATTCTTGATCTGACCCCATTATTTAATAGACTACTTGTGGAAGTGGAAGAAAAACACTCTAAACTAAGAAATGACAATACGTATAATTTTATTGAAAAAATTTTTAACTATGAACTTAATAAACAAGAAATAGAAAAAATAGAAAATTTCATTGAATTAGGTATTTCTAAACCAAAAATTATGTCAATAATTGATGAATATAAAATTAATAATATAAATGATTTATTCAAGAAATTAGAAGAACAAGCTAAAAAAACATCAGTAAAAATTACTATGTATAATTGATTAAATGATTAAAAATTTGATTAAAATCAAATTTAATACCTGAAAAACTTATTTCAAAGAAATTATCTTTGAAATAGTTATAGGGTATTTTTTTATTCTCCATTTTTTTTATTTCATTTATATGTAAAAAAAATAATTTTTCATATAAATGAAAATAAACTATGATAAAACCACTACCATTGTTTTTATTAACTAAATTCAATTTTTCTATTTGATGTTTTTTAATATTGTTCAAATTAAAAAAATCTTTTTCTGTTTCTTTTGCTTCAAATTCAATGTAAATTCCTTTTCAAAGCCCTATATAATCACAAAAATAGTTTTTGTTTAATCGTGCTGTTACTATATTGTTTTCAACAGAGATAATATTGTTATTTATAGGCATTTTATATATAAAACCTTTGGTTGGATCTAATGAATTAATACTGTTGTTTATAATCATTTCTAAGTACATTCCTTTATTTTTAATAATCACTTTTATCACCCAATTTATTAATCGCAATATATTTACAAAAAATTACAAAATAAGATACAATAAGACTAAATAGGGGGCTAAAAAATGGCAGATTATATTAAATTATCAAAGCAAGATATCTTAGATAAAGACTTCGAAGTAGAATATAAAGGTTATAAAGTAGAAGAAGTTGACTCTTTTTTAGATATGATTGCAGAAGATTACAAAACATTTACAGACAGAGAAATTAAAAAAGATGAAAAAATAGCTCTTTTAGAAGATGAAGTTAAGAGAGTAACCAATGACTTAAAACAAACAATTGCAAGTTTAAAACTTACAGAAAATCAAATTGATGAGTTAGCAAGAAAAGGACTTAACAGTTCAGATATTATTAAAAGAATCTCTAATTTAGAAAAAGATACATATAACAAATAATTTGGTATAAAATAAAGATTGAGATTAAATCTGAATCAACTGCTATATTTGAAAAATAATATAGAGGAAACTCCACGCTTGCACATTCTGAGATGAATGTAGTGATTGTGCTAGAGGAAAAAATAACTCTAGGTACCAATTTTATTTGGTAACGACTTAAGTATAGTCTAAGGGTATTTATACCTATGATAAGCTTTTTAAAGTGCCACAGAGACGATTAACTAGAAATAGTGAAATGGAACGGGTAAACTCCACAAGCAAGAAACTCAAATTTTGGTAGAGGAGCTTAAAGGTGAGGAATTCAACAAACCTTTAGGATTGCAGATGCAATAGATAGATAGTTGATGCACGAAAGTGTTACAAAACGTGGGTTATGATGATTTAATTTCACTATATTTTTTAAGGATTTGTATATGGAAAAATTATTTGAATATTTAAAATTGAATAATTTAACAATATCTAGTTGTGAGTCATTTACTGGTGGATATTTTGCAAATGAAATAACAAATTTATCAGGAGCTAGCAATTATTTTAAAGGAGGATTTGTTTGTTATACTGATGAATTTAAATCACAAATTTTGCAAATTGATATAGAAGTAATTAAAAAATATGGTGCAGTTTCTTTAGAAACTTTAAATTTAATGTTATCTAAAACACAAGAATTATTGAAAACAGATATAGTTTTTGCTTTTACAGGTTTTTCTACTCCAATTGATGATAATAATGTTTTATCAGGATTGAGTTATGTTGGTTTTAAAATGAAAGAAAAAATATATACATATGAATTTAAAGTTTTAGAAGATATTTCAAGAAAAGAATATAAAAAAAGAGCTTGTAATTTTGTTATAAATAAATTACTAGAATTGTAATTTTTTTTCTTATATTTGTCGATTATGACAAATGAGGAGGAAAATTATGATAGAAAAAACATTAGAAGAAAATAAAAATGAGGTGCTTTTAAATATGAATAATAACATTTATGATGATCCAGCTTTTAAAAGCGTCTTAAAAGATATTGAAAAAACTTTTGGAAAAGGTTCAATTATGAAACTTGGAGACTCTGTAAATTCAACAATTGATGTAATTCCAAGTGGAAGTTTTTTATTAGATAGAGCAATTGGAGTTGGAGGTTATCCAAAAGGTAGAATTATAGAAATATATGGTCCAGAATCAAGTGGTAAAACCACACTATCTTTGCATGCCATTTGTGAGGCACAAAAAAATAATGGAAGAGCTGCATTTATAGATGCAGAACATGCTTTAGATCCAAGATATGCCCAAAATATTGGTGTAGATATAAAAAATCTTGTTGTAGCCCAACCAGATTCAGGTGAACAAGCTTTAGATATTTTAGAAATGTTGGTTAAATCAAATACAATAGATATTGTAGTTATTGACTCAGTTGCAGCTCTTGTTCCAAAAGCAGAATTGGATGGAGAAATGTCAGATCAACAAATTGGTTTACAAGCAAGATTAATGTCTAAAGCTTTAAGAAAATTAAATGGAATTGTTTCAAAAACAAATACAACTGTTATATTTATTAATCAATTAAGAGAAAAAGTTGGAGTAATTTTTGGAAATCCAGAAACAACTCCTGGAGGTAGAGCTTTAAGATTTTATTCCTCATTAAGACTTGAAGTTAGAAAAGGTGAAACCATTTCTGTAAATGGAGAAGCAACTGCAAATAAAGTAAAAATTAAAATAGTTAAAAATAAAGTTTCTCCACCTTTTAAAACTTGTCAAATAACAATTGCTTATAATAAAGGTGTAGAAAAAGATATTGAAGTTATTGAAATGGCAACAATTTATAATGTTTTAACAAAAGCAGGAGTTTGATATTCTTATGGTGAAGAAAAAATAGGGCAGGGAAAAGAAGCTGTAAGAGAATGATTTACTAATAATCCTGATAAATATGAGGAAATTCAAAATAAATTAAAAGATTGTATAGAATAATAAAAAAATCGAAATTAGTTTCGATTTTTTTATTATTTAAACTTCTACTCGATCATTTCTACCAATTGTTTCTTCATCTGTAACACTTGGTTTTAAAACTTCATTTTTTTGCATTTTCTTATACCATTTAAATTGTCCTTCAAATGGATATAATTCTCTAACTTTTAAAATAACTTCGGGATAATAATTTTCCTGCATTTTATTTCAATTGTAGCCTTTTTTATTTTGTTTTTTAAATTGCTCTGCTTCTGTTTTCATGTTTAATTCTTCAAAAGCTCTTAAAACTTGTTTTCCTTTAAATGAACCAAATCTAATTTCTTTGTTTCTTTGAGTACTCAAGAATAAACCTAAACTAAACATAAATACTCCAAATATTGCTAAAATTCCAGCCTGTTTTAATAGATACAATGTATCTGAACTGTTAAATCCGTTTTCTCCAATTCCAAATATAATTGAGCCTATACCTTGAATTGAGAATCTATACTCTGATAAGAAACTTATTCCATAGAAAAAGTCAAATTGCATGAAACTTGGAAATGTCCCAGAACCTGCAGCAATATTTATAACTAGATAAATAATAACTAAAAATTTAGAAACCATTTCATCTGTGAATGCAAATCACAGAGCTTGAATTGTAACAGCAAATATTAACTCTATATAGAGTAATCATAATCATAGTGAGAATAAGGCAGCAGAACCAATTGCTGAATATCCAGTTAAAGATAAAACAGCAATAAGTAAACTAACTTGAATTATACCTGTTGTGTACATTAACATCGTCTTTGTAATAAATCATTTTTTGGCCGATAAGTTGTGATTTCGTTTTCCTCTATCATAGATAAAAGTTTGCATAAATGTTCCAACAAATAAACCTATACATATGAAAAATTCTCCAAGACCAATTCCATATATTCCATTTCTAGCACCTTGTTGGTCAAAATTAATCATATTTAGTTCTTCTTTTGAATTGCTATAAATATATTTAATAATTGCCAATATTAATTCTTCTCGTCATGTATTATCTAAGTAATTTCTTTGATCATTTTTTGTTTCTTTTATTTCATTTTTAATTGATTCAGCTGCTTTTTCATCAAATAATTTATCAATTATTTTTAAAACAATTGAAGCTCTATATTCATACATACTTTTCATATAGTAACCAAATATAAAGTTTCTTTCATAAGTTGTTCAAAGATCCATTTTTACTTTTGGAGAAGGTACTAAATCAGAATCAGATCTTAAAAAAGTTCCTATTTTATATACTAAATATTCTAATGTTCCAGTATTTAACTTTAAATCAACATAATATTTTTTTCCTTTTCATTGTTTATTAATCTCTTCTTTAGAAGAAATATAGTGAATATTTGTAAGTGACATTCCTTCTTTTATTTCATTTGAGCTAAATATATTTTTTTCATCTTCAACACCTTGTTTTTTAGCATTTAAATTTGATTTTAAAAGATCTCAAATATTTACTGGCATAATATAATTTTTAAGATCTTCACTAGGTTTTAAATAATTTCCTGTGTTTGTTCTTATTTTATTAGGTTCTCCAGATGGTTGTGCTTTTTGAATAGCTTCTTCTAAAGTAGAAGTATTGTCTGTAGTTAAAGCATCATTATTTTCATCTCTTAGAACACCAAGTTCATATTGTTTTACAATTGTTCCTGGCTTTTTATAAATTCAAACTGTATTATCTTCATTCATTATCGCAATAGGTGCTTTTCCTAGATTATCAATAGGATTTCAAAATCCTAAAATACAAGTAATAGCATAAATAATAGGTATTATTGCAATACCAAAAAATTTAATTAACCTTTTTTTTGATGAAAGAACTCTTGAAGATAACTCAATTCAATAACCTTTGAATATATCTTTCATGTTATTTACTTCTTTCTAATTTTATAAAATCTAAGTCAAGTTGTTACTAAGTTTATTTATAATAAATAGTATTTATAAATAAACCTAATTATTGTAAAATAATATTGTTGTAAATGCAACACCACGCTTTCTAGGATTGGAGAAACAATGCTAGTTACAAATTTAAAAGAAAACATATTTATTGCGTTTTTAACTATATTAATAGTATTTCTAAGTATTGCTATTGGATTTATAGTTTATTTAGTTAAATCTCGTCGACGCAAATATATTTTACAAAAAATAAAAGACGAAGCTAAAATAATTAAAATGAATATAATAGCAGAAGCAAAAGCAAAAGCGGATTTTATAAAATTAACTGCTGAAAATGAAACTAAGTATATTCAAGAAAAAATTCTTTTAGAAGAAAAAAATCTAAAATTAAAACAGGTAAAAATTGATGAAGAGTTAAGTTCTTTATCTAAAAAAGAAGAATTCATAATTGAAGATAGAATTAATCTTAATAAAAAAAGAAAAGAACTTGAAGTTGAATCAAAGAAAATCTTATTACTATTAGAAAATATTTCAAATTTAACTGAAGAGGAAGTCAAAAATGAAATATTTACTTTAATAGAAAACAAATATTTAAGTGATTTTACAAATAAAATTAAAAAACAGGAAGAAAATTTAGCTAGAAATGCTCAAAAAAAAGCTATTAAAATCTTAATAGAGGCAATGCAAAGTGTTCATATTGAAGTTACTTCAGAGAAAAATACAACTTTTTTTGAGTTAGAAAATGAGTCTTTAAAAGGAAAAATTATTGGTAAGGAAGGAAGAAATATTAAAACATTTCAATCTTATGGGGGTGTTGATATCATAATAGATGACACACCAAATAGAATAACTATTTCATCTTTTAATCCAATTAGAAGAGAAATTGCGTATTTAACATTACAAGAACTTTTGAAATCAGCAAGAATTCATCCTGCAGCAATTGAAGAACAATTAATTTTACAAGAAGAAAAATTAGAAAAACATTGTTATGATATTGGAATAAATATATTAGAAGATCTAAAAATTGATGATTTTCCATCTGAAATAGTTATAATGCTAGGTAAATTAAAATTTAGACATAGTTATGGTCAAAATGTTTTACAACATTCTATTGAAGTTGCTATTATTGCTAAAAATATTGCTAAACAATTAAATTTAGATGAAAAGATAGCGCTTAAATCAGGACTTTTACATGACATAGGGAAAGCTGTGGATTTCGAAAAAGAAGGAAGTCATGTTACATTGGGTGTAAATATACTTAGAAAGTATGATATGGATAATATAATTATTAATGCTGTAGAATCGCACCACAATGATGTAGAAAAAAATACCTATTATGCTGAAATTATAGCAATTGCTGATGCAATAAGTGCAGCAAGACCTGGAGCACGAAATAATGATTCAGAAGATTACTTTATAAGAATAAAAAATTTAGAAGATATTTGTTTAAAACAAAAAGGAGTATTAAAGGCCTATGTTTTAAAATCAGGAAGAGAAATAAGAGTAATGGTAAATCCAAATGCTGTAGATGATTACAATATGAAAAAACTATCTTTTAAAATAAAAGAAGAAATTCAAAAAATTAATAAAACTCCAGGGGATATCTATATTACAATTATTCGTGAAAAACGTGAAACTATTAAATTATAAAGCACCAAGAAAATGGTGTTTTTTGTTATAATAATTTGTGATTGGAGTGAAACAATATGGGATTTGGAGATTTTTTAGCTAATAAAATGAAAAAATCTATTGAAAAGAACTTGAAAAAAAGTACTTTAAATAGTGAAAATATAAAAGAAGTATTAAGAGAAATTAGATTAGCTCTTCTAGAAGCTGACGTTAACGTTGATGTTGCTAAAAGATTTATATCTAATGTAGAAAAAAAATCTGAAGGAGTTTTTATTGAACAAGGAGTTAGAGCAGATCAACAAATGATCAAAATAGTTCATGAAGAATTAGTTGACATTTTAGGAAAAACAAATAAGCCCTTAGAGATTGATAAAAAGCCTTCAATTATAATGATGGTTGGATTACAAGGTGCTGGTAAAACTACAACAGTAGGAAAACTATCTCATTTAATTACTAAAAAAAATAAAAAGAAAACTTTAATGGTTGGTTTAGATATTTACAGACCAGGAGCTATTGATCAATTAGTTGAATTGGGTCAAAAAAATAATTTAGATGTTTTTGAACAAGGAAAACAAGATCCAATTAAAACTGCAAAACAAGCAATTGATTATGGTCAAAAAAATGGTTATGAAGTAATAATTTTAGATACTGCTGGTCGTTTACAAATAGATAAAGAATTAATGAAAGAACTAAACAATATTAGAAAAGCTGTTTCTCCTCAAGAAATAATTCTTACAGTTGATGGTATGACAGGACAAGATATAATAAATGTTTCACAAGAATTTAATGATTTATTAAAATTAACTGGAGTAATTGTTACAAAACTTGATGGTGATGCTCGTGGGGGAGCAACTCTTTCAATTACAGATATAACAAAATTACCAATTAAATTTATTGGTGAAGGTGAGGGTATTTCTGCTCTTGCTGAATTTCATCCAAAAAGAATGGCAGATAGAATTCTTGGAATGGGTGATGTTGAGAGTCTATTTGAAAAAGCAGCAGATGTTATTGATCAAAGAACAATGGAAAAAACCATGAAAAGAATGTTTGCTGGTCAATTTGATTTAGAAGATTTAAAAAATCAAATGGAACAAGTTGCAAAAATGGGAAATCTTGGTGGAATAATGAAAATGATGCCAGGATTAAATGGAAAAGTAAGTGAAAATCAAATTAATCAAGCGCAACAAAAACTTTGAGTTGCAAATATTTTAATGAGTTCTATGACTTTAAAAGAAAGAAGAGAACCTAGACTTTTAAAAGCTATAACTAGAAAACAAAGAATTTTGAAAGGTTCAGGTAGAAGTGAAAAAGAATTTAATGAATTATTAAATCAATTTGATAAAGGAAAAAAACAAGTTCTTGAAATGTCAAAAGCATTAAAATCAGGAAAAATACCTAATATGGGTGGTTTAAAATTTTAAACTAGATATTATTCTAGTTTTTTTTATTTTTAAATATATAATTTTGATAAAGGACAATTGAAAAAATGAAAAAGAAATTAGTTGTAATAACAGGAGCATCAAGCGGAATAGGAAAAGAATTAGCTAAATTATTTATTAAAGATGGATATCCAGTTTTACTTTTAGCTAGAAGAGTAGAATTACTTAAAGAATTTGAATCAAAAAATGTAATTATTGCAAAAGTTGATGTTACAAATTTTGATCAATTTGAAAAAGCAGTTAGAAAAGCAGAAGATAAATTTGGATTAACAGATTTAATAATAAATAATGCTGGAGTTATGTATTTAGATAAAATCTACAACCTAGATTTAAAAATGCAAAATGAAATGTTTGATATAAATGTAAAAGGTGTGCTAAACGGAATGAACATTGTTATAAATGATATGAAAAATAGAAATGCAGGAACGATAATAAATGTTGGAAGTGTAGCAGGAAGATGAACAGGTGATGATAGAGCAATTTATAATGGTAGTAAATTTGCAATTAGAGCTATAACAGAACAAAGTAGAAAAGAGATGGCGAAATTTAATGTAAGAGTTCTTACAATTGAACCTGCATTAGTTGATACAAATCTTTCAACAGGAACTAGTAATTCAGAGGTAATTAAAAGTTATCAAGATTGAAAACAAAGTTTAGATAAAGGACTTGAAAGTTCACAAGTTGCTGAAGTTATTCTCTATATGTATAAAATGCCTCAAGAAATTTCTTTAAAAGAAATAGTAATTAGTAGTACAAAACAATCAATATAATAGTTTTGAATTTTAATATAAAAAAATGGATTTTCTTAAAAATCCATTTTTTTTGTTTCAATTTTTTTAATCTCTTTTTCTTGTTCAGAAATAGCTTGTAATTTTCTATTTGCCTCTTCAATAGTTTTTCTAGTAACTTCTTTTTCAATTCTTCTTTTTTCTGCTTCTTTAATTCTTTTTCAACATCCTTCTTTCATTGCATCTGACATTAGCAATATAGATAGGATAGAAATATCAAATATTTGTCCAATAACTTTTTCAACATGTTTTCTTTCTTTAGTAGATAAACTTTCAGATTTATATTTTTGTAATGTATTAATTTCTTTAAAATATCAATCAGTGAACTCTTTACCAAATCTTTCATAAATCACAGCACTACCTTCATTTACAAAGTAAGATATATTTTTAAATAAACTTAATCTTACTTCTGCATCTTTATATGATGTTGATCTGAATTGCTCAATAACATTATTTAACTTATCATCATGATATTGATTTCCTATATCTTCAACTATAACTCTTGTGGGTTGACTTACTAATTTTCAAAGCGGTTTTTTATTTGCAGATTCTGATTCCACAAATTTATAATTCATAGCCTTTGTATATTTTTTAATACGTAAAGGCAAGATATACATATCATATGAGATATATTCTGAATATCTTCACTTTCTTGCAACTATTTCTGAAATTATGTTATATACCATTTCTAAAATAGTTAAGTTTAATGTTCTTTCATTTAATTTAAATTCCAGTTTATTCATTCTTAATAATTGATAGTACTCATAACCGTAATGTTCAAGTGAAATCATATTAAAGTAAGTTTGAACTGTTGAATTATTCAAAATTGCAGAATATGAAAATTGAATATCGGGAACAAGAGCATCAACTATATTTTCAAATTGTGGTCTATAATCTAAAATAGATTGAAATTGTTTTTTTTCTGCCATAAAATCTTCTCCAAAATCTCATTTATATTTTATCATAAAATTATTTAAATAAATATTGTAAAGTATATAATAAGAGTGGCCTTAGGAGAAAAAATGAAGATAAAATTAATTTGTTTTAATAAAATAAATAAAGAATTTAAAGAACCTTATGAATTCTATATTAATAAAATACAAAAACACTGTGATTTAGAAATAATAGAAATTAATGAGTTTGATCATGGAGATATAAAATCTAATATGATTAAAAATGAACAAAATATACACTTAAGGCTTAAAGAACTAAAAAATTTTGAAATATTTTTATTAGATATTAATGCAAAACAATATAGTTCAAAGCAAATAGCTAAACTTTTAGAGGAAAATAAAAACTATAAAGGGGGCAATATTTGTTTGATAATCGGTCCAAGTGATGGATTTAGTAAAGAATTTAGAAATTTGTATCAAAATAAAATAAGTTTTGGTTTAATAACATTACCTTACAATTTAGTGAGAATAGTTTTGCTAGAACAAATTTATAGAGGTTTTAAAATATCAAAAAATCAAAAATATCATAAATAGATTATTTATTTTTTTTAAAAAAATAGACTTTTTTAGATTAATATATAAAATGATATTGTCACTAAGGAGGCAATCCTATGTTTAACGAAAAATCAACTTTTAATTGATTTCCAGGTCATATGAATAAGAGCATTAAAGAGATTGAAGAGAAAATCTCAATAGTTGACTTAGTTATGGAAATCGTAGATGCAAGAGCACCATTTTCTACACAAAATCCTTTGCTTAGAAAAATTCTAAATAAAAGGCCTAGATTAATTATTATGACAAAGTTTGATTTGTCAGATAATGAAATTACAAATCAATGAGCCGAATATTTTAAAAATTCTGGGCATAAAACATATATTGTAAAAGACAAACAAGCAAATATTTATAATGATGTATTAAAACTTATCAATGAGATGACAAGAGAAACTCAATTAAAACAAAAAAGTAGGGGTGTAGAAAACCCTCAATTAAACGTTCTTGTTGTAGGAATACCAAATGTTGGTAAATCAACAGTAATCTCAAAACTTTCAAAGGGAAAAAGTTTAAAAATAGGTAACAAACCTGGAGTAACTAGAGGTATGCAAAGAATTACTATGAATGATAATGTAACTTTAATTGATACTCCTGGAATTCTTCCAGCAAAATTTGAAAATGAAACTGTTGCTTGTAATTGTGCAGCAACAAATTCAATTCGCTTAGATATAGTTCCAAAAGAAAGAATGGCAACAAAATTAATGAGATATATTTATAACTCATATCCTTCATTAATTGAAAATACTTACAAAATCAATAAAAATGTATTAAGGCCAATAAATTATGATGACACATTTACTATTTTTGAAGAAATAGCTAAAAGAAGCAAATTTATAATTTTAGATGAAATACCAGATGTTGAAAGAGTTATTGAATTGTTTATTCATGATATTATCAACAATAATCTGGGAAAAATTTCTTTTGAAAAACCAATAGAAATAAAAGAAATATCAAAACAAGCAATTGATGAAAATGATCTGGATTCAACAGTAGTTAGTGATTTAACAGTAGAATGATAGAAAACATTAGATATTTATTTGATCAAAATATACGAGAGCAATACAAAGTTAGGTTAATAGCAGGAAGTGATGAAGTGGGAAGAGGTGCTATGGCAGGACCAATTGTTGTTGCGTCAGCTATTTTAAAACCAGATTATAATAATTCAAAAATAAAGGATTCAAAATTGCTAAATGAAAAACAAAGAGAAGAACTGTATGAGGAAATAAAAGAAAATTGCATCGCATATAGTATTTGTGAATATGATTCAAAATTTGTTGATCAATATAATCCAAAAAAAACAAGTCAAATAGGAATAATAGAATCTATTAAAAGTTTAAAAGTTAAACCAGACATTTGCTTAATTGATGGAGAAAGTATAGAATTAGCACGGTATAAATGCTTACAAATTATAAAAGGAGATAACTTGAGTATAAGTATAGGAGCTGCAAGTATTCTTGCAAAAGTGTACAGAGATAGAATAATGAATAATTTTCACTTAGAATATCCTCAGTATAATTTTATAAAAAATAAGGGTTATTGTACAAAAGAGCATCAAGAAAAAGTTAAAGAATATGGTGCCTTAAATATACACAGGTTTTCTTATAAACCAATTAAATTTCTAAAGGAGAAATAAAATGAGTTTTAATAAAAGTAATGAAATATATCAAGAATGAATTAATTCTACACACCTAGATGAAAGTTTAAAAGAAGAACTTTTAAATGCAACTGATGAAGAATTAAATGCTGCATTTAATATTCAATTAGAATTTGGTACTGCTGGAATAAGAGGTATACTTGGAGCAGGACCTGGAAGATTTAATTTATATACAATTAAAAAAGTAACTATGAGTTATGCAAAACTTTTAATATCAAAATATGGAGAAGAATTATCAAGAGGAGTTGTTATTGGTCATGACAATAGAAGATTTTCAAAAGAATTTTCACAATTGGCAGCTGAAATTTTAACAAGTTTTGGTATTAAAGCTTATCTATTTAAAAATAATACAATGAAACCAACTCCAGTTGTTTCTTATGCTACAAAAGATTTAAATGCAATAGGAGGAATTGTAATAACTGCAAGTCATAATCCAGCAATTTATAATGGTTATAAAATTTATGATGAGTTTGGATGCCAATTAATTGATGAAGATACAAAAATTATTGCTGAATATATGGAAGAAATTCAAGATATATTAAGTTGAAATTATAAAAGTGATGAAACACTTCTTAAAGTAGTTCCTCAAAAAGTTTTAAACAATTATAAGGATATGATTTCAAATTTACAATTTTATAAAGATAAGCCAAGAGATGGATTTAAAATGATTTACTCTGCTGTTAATGGAACAGGAACAGAATTTACACCTCCTTTATTAAGAAAATTTGGCTATGATGTAATTGAAGTAAAAGAACATGCATTTGAAGACTCTACATTTAAAAATGTTGGTAATCCAAATCCCGAATTTGAGCCAGCATGAAAAATACCATTTGAATATGGAACTAAAAATCAAGATGCATCAATTATTATAATTCAAGATCCAGATGCTGATAGAATTGGTTGTGCTGTTAATCACAATGGAAAGTGAATTAGAATTGATGGAAATCAAACAGGCCCTTTATTGATAGAGTGAAAATTAAGTCAAATGAAAAAATTTAACTTAACTCCATTAAATCCTGCAATGTATTCAAGTTTTGTTACAAGTGACTTAGGGGATAGAATTGCAAACGAAACTTATGGAGTAAAGGTAATTAAAACTTTAACAGGATTTAAATGAATGGGTTCAGAAATTTTAAAAGAGCCTGAAAGAGATTTAAATTTTGTATTTGCATATGAAGAAAGTTATGGTTATGTTTTAGATTCATCAACAAGAGATAAAGATGGTATTCAAGCAACAATAATGTTAGTTGAAGCTGCATGATATTATAAACAACAAGGTAAAACATTAATTGATGTTTTAAATGATCTATATACAAAATATGGTTATTATTACACATATACAGAAAATTTAAATTTTAAACCAGAAGAAATAAAATCTAAAGTAGAGCCAATTATGAAAAAGCTTAGAGAAGAGGAATTTACAACGCTAGGTGGATTAGAATTGAGTTATGTAGAAGATTATATTAATGGTCTGTTCAATATGCCAGGTCAAAACTTAATGAAATTTTACTTCAGTGATGGAAGTTGATTTGCAGTAAGACCTTCAGGAACTGAACCAAAAGTTAAGATCTATTTTATTTGTGTTGATAAAGATGAAAAAGTAGCTAAAAATAAATATGACTTAATATTTAAAGATTTAAAAGAGTTTTTAGAAATTTAATTTAAAAATAATACTTCTGTATTATTTTTTTTTACTTTTAAAATAAAAAAACTGTTTTACTGCAATATAATTATATTGGCAGTATATTTTTTGAAAATCAAATTAAGGAGTGGAAATGAAAACAATAATTATTGGAGGTAGTGCAACTGGAATGGGTGTAGCTGCTAAATTAAAAAGAAATGATCCTAATTGTGAAATAGTAGTTATACAAGATAAAAATTATGTATCTCTTGGAGCATGTGGACTTCCATATTTTGTAGTAAATAATTTTGATGATGAAAATAATTTAATTGCAAGAACAAAAGAACAATTTGAAAAACAAGGTATTAAAATAATTTCAAATTCAAAAGTAAAAACTGTAAATTTTAAAGAGAAAAAAGTTTTTTTCAATAATGAATTTGAAAACTATGACAATTTAGTTATAGCAGTTGGAGCAAAACCTATAGTGCCAAATATTAAGGGTGTTGAAGGAGAAAATGTCTTTACTCTTACAACATTAGAAGATGGAATAATGTTGAAGGAAAAGATGAATAAGGATGAAAAGATAAAGAAAGTTGCTATCATAGGAGCTGGTTTTATTGGTTTAGAAATGACAGAAACTCTTTATGAACTAAAAAAAGAAGTATATTTATTGGAAATGGAATCAAAAGTTATGAAAAGAACTTTTGATGAAGAAATATCTAATTTAATTCAAGAAAAGTTAGAAGAAAAAAAGATTAATAATTTATTTGGAGAACAATTAGTAGAAATTAAGCTAGAAAATAATAAAGTTAATTCAATTTTATTAAAAAGTGGTAAAGAAATTAAAGTGGATGCAGTTTTACTTTCTGTTGGATTTCAACCTAATACAGAATTTTTAAAAGATAGTGAATTAAAAATGAATGAAAGAGGAGCAATAATTGTAAACACAAAAGGTGAAACAAATATTGAAAACGTTTATTCTTCAGGAGACTGTGCTATTTCTAAAAATTTTATTAACAATCAAGATATTTATTCACCATTAGCAACAGTTGCTAGTAAGTTTGCAAAAATTATTGCAGATAATATTTCTGGAAAAGAAAAATATTATTTTGGTTCAATTCAAAGTGCAATTTTAAGATTATTTGATCTTGAAATTGCAAGAACAGGTTTAACTGAACAAATGGCAATAGCAAATAAAATAAATGTTAAATCAGTATTCATTAAAGATAAAGACCACACAAATTACACACCAAATCAAAAAGATTTATATCTGAAATTGATTATAAATGGTGATACAAAAGAAATCATAGGAGCTCAAATGGCGGGAAGTAATAACTCTATTTTAAGAATTTATGCTCTATCAGCTTTAATTTGACAAAAAGCTAAAGTAGATGATGCTTTAGAGCAAATTGATTTACCATATGCACCACCATTTTCAAGAAGTGTGGATATTATTCACATTGCTTTATCAAAATTAAATAAATAAAAAAAAAGGGGGAATTTAAAATGTTATTCTTGGCTGAAGATCAAGGACATAACTTGCTAAGAGATTTTTTGGCAATTAGTACATGACAATCACTTGTATCGATAACTTTGTTTATTTCATTACAAGTGGGTTTATGATTTTTTTTAAAAAAATATAAATTTGCTTTCATGTATAGAGTTATTTTAGGTATGGGAATTGGTTTATTATTCGGTATAATTTTACAATCTATTATAGGTTTTCCAAATTCAGATTCATTTGAAGAAATATCAAAACCTTGAAATGAACTATATTGAATATATGAACTAAATATTTGAGCATCATTCTTTAAAAATATATTTATTAATGGAGTTTACTTATTAACTGTACCTATTGTATTCATAGCAATTTTTAAAATTACTTCTAAACCTGGAGAAACAGGATTAGGAAGAATTACAGCAAAAGGAATTGCTTTATTATTATTTAATGTCGCTGTAATGTTTACAGTAACATTTTTTATTGGAATATTACTAAAAGTTGGGCAAGGATTTAATTTAGCTTCGGACAACTCAGTGTCTGGAAGAGATAATGTGCCATTACCTCAAATTATTTGAGAGTATATTCCAAACAATATTGTTGGAACATTAGCTAAAAACTCAATTATTCCTGTAATGGTTGTAGGTGCTTTAGCTGGTGGAAGTGTAAAAATTTTGTCAAAAAGAAAACAAGTTGAAATGGAAGCTATTAGAAAAGCTATGAATACAGGATGAGATGTAATGATGTCAATCCTAATGACATTTATGAAAATAATGCCATTGGCTGTAATGTCTATGATTACTGTTTCAATTACTTCAAGACCAATTGGTTCATTAGTTACAATTGGAAAAGTAATTGGTGTTGGATATTTAGGAGTAGTTATTGCTCTAGGTCTGTTAACACTAGAAGTTTTCTTAAGTGGAGTAAAAATAGGAGCTTGATGAAAAAAAGCATGAAGACCTTTAGTTCAAGGTTTTTCAACGCAGTCTTCAAATGCTTCATTGCCAATTGCGATGGAAACATTAACAGAAGATATGAAAATTAATGGAAAAGCAGCAAATACTATTCAACCAATATCTACAACAATGGGATTGATAGCTTGTGCTGGTGTACAATCTGGATTAGCAACAAGTATTTTATGAACTGGAGATACAGCTGGAGTAGTACAAGGAATGGGATTATTTACATTCTTTATTATTGCTTTATTTGTAACTGTTGTTGCTTCACTTGGAATTGCAGGAGTTCCTGGAACTGCTACTGTTGTTACAGTTGGAGTTTTAGGTGGAATGGGATTTGGAGGATTTGCAGGAAGTGTTCTTGCAGTTATTGCACCTTTAGATGGACTATTTGATATGGGAAGAACTGGTGCAAATGTTGTTGGAGGAGTTGCCACAGCAACAATTGTGGCTAAATCTGAAGGATTAATAGAAGAAGACTCTGATTTGTTAAATGAAAAGGGATTACAAACTCAAAGAAGAATTCTTGCAAAACATAAAGCAAAAGATGATTACATTCAATCAATTAATTCTATTAGATCTATTGCTTCAAAAGAACTCAAAAATAAGGAATTATCTTCTGACAATAAAAACAAAATATCTATCAAATTAAAAGAAGATATTAAAGAACAACAGGAAAAATATAAATTAGCAATAAAATCATTAAAAGAAGAAAAAAATAAATCTAAGGAGGCTAAAAAATAATGAAAAAAATATTATCTATTTTAGCAGCTGTTAGTATAACTGGAACAACTTCTAGTTTAGTTGTTGCTTGTTCTGAACCAGAAACTGTATTAAAAACTATTGAATTTGATAAAGAACAAGATAACGAAATAAAAGAATTTGATACTTTAACAATAAAAGTTAAAAATAGAAGTAAATTAACTGGTTTATCTATTACTACATCTGGAAATATTACAGCAACTCTTGGTGGAAAAAATAATGATGAAATTAGTGTTAAAGCTGGAAAATATCAAGAACCTTCAAAAAATGAAGGTAATAAAATTGATAATTCAAAAAATGAAGCGTCTTTAACATTAACAGCTAAAAATGCATATACAGAAATTATTAATTTTACAATTGCAAAAAATGATGAAGCTTATAAAGAAATTAAACTTTCTGAATATAACCCTGAATTCAAAGTTGGAGAAGAAAAAGAAATTATTATAGATAATTATTCAGAATTAGTAAATTTCAAAGTTACAGCTAATAGTACTAAAAACATTGCTTATAAACTAGTTAATAATAAGCTTAAGTTTAAAGCAAAGTCAGAGGGATCAATAAGCTTAATACTATCTGCAAATAATGCTAAGGAATCAAAAACCATTGAATTAAAATCAACAAAATAATTACTGAAAAGTAATTATTTTTTTATTTTTTTAAAACTATTAACGATATTAATATGTGGGAGGAATAAAAAAATGAATAATGTGACTATTATAGGACAAATTGAGGGAAATCCTCAAATTGTTTTTAACTCAAAAGATGGAGTAAAAAAACTGTATAAATTTATTTTGAAAGTACCAAGAAATTATAAAACTAAATCAGGAGAATTAATTGATGATTTTATTAATGTAAAAGTTTGGTCTAATGTATTGGGGGATGAATATGAATATTTTGATCAATCATATATTGGCATTGAGGGAAGATTAGTTTCATTTGGAAATACTGAAAATAACAATTATGGAAATGAATTAGTGGCAAGCAAAGTGATTCTTTTAAACTAATGGAAAATGTTTTATTATACTTTTCACTAAAATATAATGGTAATTGAGATAAAATTTATCATGCTTTAGATACTAAAGAAAAAATAACTCATAAGAATTTAGAAGATGTTAAAAATAAAATAGATAGTGACTTCATTACAATATTAAGTCCTTTATATCCAAATTATTTAAAAAATACTCATAAACCACCTTTTGTAATATTTTATAAAGGTGATATTTCATTACTTTCAAAATATCACAAAACTATTGCAATTGTGGGAGGCCAAGAAGTGGATGAATATGGTATTAAAAATATTGAATTTTTTATGCAAGATTTAAGTTTGGAAAATATAGTATTTTCAACTATTGAAAATGATGGAGTTAATAATGAAGTTTTAAATAACTCTTTTAAAAATAACTATAAAATAATTAAAATAATTGAAGAAAGTATGAAAGATTATCTTAAACGAACTGTTGATTTACCAGAAAAAAGTAATTTTTTAGCAATCACAGAAGTATATGAATCAGAATATTCAATTAATGATAAATTCATTGAATATTCTAATAGAATGCTTTGTGGAGTTTCCAAGGGAATTGTCTTTGTTCAATTTAAAAATAATGATCCAATAAATAAGCTATTTAATTTTGCAGTAAATGAGGGAAAAGATGTTTTTGCAATACCACATGCTCTTTTTTCTAAAGATGGAACTAACAAGTTGATAAAAAATGGAGCAAAATTAATAGAAAATGCAAAAGATATACTAAATGAAATTTAATAATGATATAATTTATTTGTGATAGAGATATCACGCTTGTAGGGCGAAAGCCTAAAAAACTAAGTATAAATTAACTAATCATTTTATTCCCGACACACAAATGATAAGAATAATTTTAATTTAAGAGATATTTTATATCTCTTTTTTTTGTTTTTTTAATGTATAATTTTTAAGATATTTATAAGAAAAAAGGTGAAAAAATATAAATGGCTAAAACAAAACAAAAGGATAATTTTCAAGAAGTGATTCCTCAAAATAAAGGTTCTATGCCTGAATTTAAAACAAAAAGAAGTGGTAAATCATTTTTTGCAATTATCTCTCATTACATAAAAAGACATCCAATGATAGGTGTATTTTTAGTAATACTTACTTTGGCTTCTTCAATTACTAGTGTACTAAGTCCGAAAATAATTGAAAATATAATGACTGTTTTAACAGCTCCAACTGGTTTAAATAAGGATTGACCAGGTCTAGAAAATGGATGAGAAAATGCAAATATTTCATCAATTCAAGAGGCACTTAATAGTATTCATAATGCTAGAAATACTCTTTTAGTAACTGTTAAAGGTGAACCAGGTAGTTACTTCTTTACAACAGGGCTTTTTGGTCTTGATTTGCGTTGACAAGATTGAATTTATGTTCAATTAGGTCTATTTGGTTCATTGGCAATATTTACATTTGCTTCAAACTTCCTTGCAGGAATTATGGGTAAAAATATTGAAATTGAATTAAGAAACAAAGCACTTGAAAAATTAGTTAAACAAGATATGAGTTATTACTCAGATAAAAAAATTGGTGAAATTTTAACAAAAATTGTATCTGATACACAAATTATTGGTGATCAAGCACAGCAAGTACCAGTTACAATGATGAGTGCAGCATTTACATTCTTTGGAGCATTAATTATGATGTTTACAATTAATGTTTATTTAACAGTAGTTGTAATAGTTACTATGGCAATTATTGTTACTTCAATTTTCTCTACATTTGGAGTGGTTAAAAAAGCTGCTTTAAAAACAAGAGATTCAATTACAAACATTAACGGAGATGTAACTGACAGAATTGCAACAGTTAGATTGATTAAAGCTTCAGGAACAGAAAACTATGAAACTGAAAGATTTAAAGAAATTCACAAAGATTACTTTAAAAAATCAAGTAGTTTAATAAAATTACAATCAACAGTTATTACAGTTTTAGTAGCAGGGGTAAGTTCAATTCAGATGATTATTGTTATAGCAGCAGCTATAAAATGACATAATGAACCAGGAACTCTTTCAATAGTTTTAACAGCATTTATTTCTTCAGTTGGGACAATGGTAGGTCCAATTATGCAAGTTGCTAGATTACAAGCTGGATTAATAATGGCATCAACTTCTGCTGTTAGAATAGAAGAAATTCTTGGAGCAAAATCAAGAATTGATCCTCACTATGATCCTAGTGAAGGAATTCATATTGAAAATATTGACAAAGATATTATTTTTAAAGATGTTGAATTTAGATATCCTGAAAAACCAGAAAAAGTAATTATTCCTAAATTTTCATTTACATTTGAACATGGTAAATCATATGCATTTGTTGGAGAAACTGGAGCAGGGAAATCAACAATTGCAAAACTTTTATTAAGATTTTATGACCCATATAAAGGTAATGTTTTAATTAATGAAAAATATGATTTAAAAGAAGTTAATTTGGCAAGTTACTTAGATAAAGTTGGTTATGTTGAACAAGAACCTCAAATTCTATTTGGAGATGTTTTAGATAACATTAAATATGGGAGATTTGATGCAACAGATGAAGAAGCAATTGAAGCTGCTAAGTTGGCTGAATTACATGATTTAGTTATGACTTGACCTGAAGGATATAAAACAATTCTTGGTGAAAGAGGATTTATGTTATCAGGGGGTCAAAAACAAAGACTTGTTATTGCAAGAATGTTCTTGAAAGATCCACAATTATTAATTTTAGATGAAGCAACAAGTGCTTTAGATAATATTGTAGAAAAAGAAATTCAAGCAAAATTAGATAGTTTAATGAAAGGTAGAACAACTGTTACTATCGCTCATAGATTAAGTACTATTAAAAATGTTGATCAAATTATTGTTCTTGCACCAGAAAAAGGTATTGCTCAGGTGGGAACTTTTAGTGAATTAAAAAATAAAGATGGACATTTTAAAAAACTATATGATGCAGGTCTTATGGGATAAAAAGTAAAGCTTTTAAAGTTTTACTTTTTTTATTAAAATATTTTTAACTTTTCTTTTATAGATTTACTAAAATTTTTTTAGTATATTATAGAAAAGTAGACAATTTTTAAAGTCATAGAAAGTGTAAATAAAATGATAAATGATGAAAAAATAATAGATAATAAAAAACCACAAATCGATGAAAATAGAGCATTAGTTGAAATTATAAATGTATCAAAAGTTTATAAAAATAAAAAAGCTCTAGATGATGTTAGCTTAATTATTAATCCAGGAGATAGAATTGGAGTAATTGGACCTAATGGTGGGGGTAAATCTACATTAAGTGAAATTATTGGTGGAATTAGAAAACCAACAACAGGGAAAGTTACTAGACAAGAAAATATGACTCTGGGTTTACAATTTCAAGAATCAAAATATCCAATTGGTATAACAGTTTTAGATATGATTAAGTATTATTTAGAGACTTTTAATATTCCAATGACAGAAGAAAATTTAAATGAAATTTTAAAAAAATTTCAAATAGATAGTTTTAAAAAGAAATTTTTAGAAGGATTAAGTGGAGGACAACAACAAAGAGTAAATATTCTTTTAAGTTTAATTCATAATCCCGATTTAGTTATTTTTGATGAAATTTCAACTGGTCTTGATATTGAAGTTAGAAGTGAAATCTTTGATGCAATTAAAGAGAATGTTATAAATAAAAATAAAGCAATGATTTTAGTTACTCATATGATGAGCGAAATTGAAGAACTTTGTGAGAAATATATTTATATTCATAATGGTGTGATTAAAGAAAGAGGTCTTGTAAAAGATTTAGTAGCAAAATACGGATCAGTTCATAATTTCACATGAAAAAAATTTAAAGAAGAAAAAGCCCATGATATGGAATCTATATCAGAGGTACCTAATAAAAAAAGTAAAAATAGACTTGATAGAATAATAAACAGTGAAAAAGATAAAGGTAAAAATATACCTTTAATAAAATTATTATTGAAATATTACTATAAAGGTTTTGCAGTTCCTTTTTTCTTATTTTTCTTTCCACTAATTTTATTATTCTTAGAGGGATTTGTCTTTAAAATGATGCCAGTGGTTGAAGGTCAAGCAAAATGAACTTTATTACATAATTTAATAGGTTCTCTAGCACTTATGCAAATAATATCAGTTGGTATTTTTATAGTTCCACAAACGATTTTAGAATTTAAAAATAGTGTTCTTATGAAAAGGATAGGAGCTACAAATATAAAACCAATTTTCTTTATATTGACTGTTGTTCTTATGGGGATATTCTTTATGATAATTGGTTTCTTATGAACTTTACTTTGAGCTGGAATAATGTTTGGAAATGAATTTGGTTGAGCTAATGTTGCTTTACCATATCAAATTGGTGAATCTTTACCTTTCTTATTGTTAACTTTAGTTCAATCAGTATCATTAGGAATGTTACTAGCAAGTATTTTTAAATCAACAACAACTTATATTGCTGTTTCAAATGTTCTTTATATGCCTATAGCATTTTTAAGTGGATCATTTATTCCAATTGATTTAATTATGGCAAGTAGTGTTTTAAAATATGCCACTTATTTGAATATATTTAAATATTGTATGGATCCATTTATAAGTGCTTGAGCAGGAAGATTTGTCTTCAATGTAACTACAGGAGTTTATCTTGGTGTTTCTCTTGCTATGGTTACTGCATTCACACTAGGAGCTTCATTCAAACTTAAATGAGAGTCATAATAGAGATAAATTTTTAAAATTAAATGAACTTAACAGTTCTTATTTAATTTTTTAAATTTATTTTTTGTTATAATCAATAAATGGAAAAAATAGTTAATATAATTGGAGCAGGTCTTTCAGGATGTGAAGCAGCTTATCAATTATCAAAAAGAAATATAAAAGTAAAATTATATGAAAAAAAATCTATTGAAAGGAATCCTGTTCAAAAATTAGATTATTTTGCAGAATTAGTTTGTTCAAATACTTTAAGATCTACAGATTTAAAAAATGCTGTAGGTACTCTTAAAGATGAAATGAGAATGTTTGATTCATTAATAATAAAGGCAGCAGAATTTGCTCAAATTCCAGCTGGAGGAAGTCTAGCAGTTGATAGAGATAAATTTTCAAAATATATTACTGATACAATGAAAAATGACAATAATATTGAAGTTATTGAAAAAGAATATACAAAAATTAATAAAAATGAAATAACTTTAATTGCATCAGGACCACTAACAAGTGAGAATTTGCAACTTGAAATTGCTTCGTTAATTGGTGAAGATTATTTTTATTTTTTTGACGCAGTGGCACCAATTATTACAAAAGATTCTATTGATATGAGTATTGCTTTTAGAAAAAACAGATATGAAAAAGGAGAGACACAAGATTATATAAATTGTCCTATGAATAAAGAACAATATGAGTTATTTTATAATGAACTTGTAAATGCACAATTAGCTCCAGTTCATTTAGAATCAGAAAAAAATTTAAAATATTTTGAAGGATGTATGCCTATTGAAGTTATGGCTAAAAGAGGTTTTGATACATTAACTTTTGGTCCTTTAAAACCTGCTGGACTTAGAAATTTAGATGGAAGCAATAATTTTGCAGTAGTTCAATTAAGACAAGATAATGCAGCAGATAATTTATATAACTTTGTTGGTTTTCAAACAAATTTAACATGATCTGAACAAAAAAGAGTATTTAGATTAATTCCTGGATTAGAAAAAGCTAATTTTGTAAGATATGGAGTTATGCATCAAAATAACTTTATTAATTCACCAAAACTTTTAAATGAATTTAATCAATTAAAATCAAATCCAAATATTTTCTTTGCGGGACAAATAACAGGAGTTGAAGGCTATGTTGAATCAACTTCTTCAGGAATAATTGCAGCAATTAATATAGCAAGAATGTTAAAAAATAAAGAACTTAAAAAATTTCCAAAAGATAGTGTAATGGGAGCATTACAAAATTATATAATTTCAACTGACTCTAAAAATTTTCAACCTATGAAAGCAAATTGAAGTATTGTTGAAAATTTAGAAATTAAGTTTAAAATTAAAAAAGAAGAAAAGAAAGAACTTTATTCAAATAGAGCAATAAATTCAATGAAAGAATTTATTAAAACTTTATTTTAACAAATGAAAGGCGAAAATGAAAGAAATTGATAAGCAAAGCATTTTTTGATTTGGATTACACAATTTAGTTCAAGAAAATGCTCAATTAAAATATTATATTACTACTCAAAAAGAACTTATTTATAACTTATATCCAGTAGTTTATTTAGGTGTTATTCAATATTCTCTATATAGAGGAATTGTTTTAGAAGAAATACCTCTAGAAGATAGTAATTCTTATACTGACTATATTTTAGAAAGATATGAAGAAATTTATAAAATAAGATATAGATTTGTTAAAGATAAACCTAAAAAGGCTAATTTGAAGGATATAGAAACATATCAACTATGTGAAGAAATAATTTCAGATTTATTGCTCCCTTATATAAATGAATATTGCTTTAGAACATATGATATGTGAAAAAACTTAGTTCAAGCATATATAAGAGAATGTACAATAAATTATGAATATGATATAAACCATAAATCAGATGATGGAAAAACAAAAACCTCAATGCTTTATCCTTTTTTCTTCACTTTAAGTTTAATTGCTATAGAAGAGAAACAAGGTTTATATCAAAGAATTGAAAAATGTTATAAAAAGGAAGTTCTTTTAAGAAAATTTAATTCAGGAAGAGAATGAAAAGAAAAGGAATTAGATTATTTATCTGAGACATATGAATTAATAAAAAATGATGAAGAGTGACTATTATTTTTAAGTAACTTTTCATCATCAAAATGAGATAATTTTGATTTAAAAGAGAGATTTAAAGCTTTATTTCAATTGACAAAACTAACAACAATACTAATGAAAGATGAAATTAGTGCAGTTACTATGCTTGATGATGGAGAAGAGTTATTTGATCAAGTTAAAAATTATTTACCATTGTTTATTTTTGAAGATAAGATATTCAAAAAGGAAAATGAGCTTAAAAGAGATTTAAAAAACTCAGAAATAAAAGTATTGTCACCTTTTGCAAATCAAAACATAAATATAGAGGTTTTAATTCCATATATTGAAACAAAAGGAGAAAGATTTGTAAATTATAATAAAGCTACTTTAGTAAGAACTTCAGAAATTATATATACTGTTCTTGCAAAATTAAGATTGATATTATTAATTCACGAATATTTACCTAGTTTGATTGATTCTAGAATATGGCCAAAGAAAAAATTATTTGTGGATGTTCTTAATTTATTTGAAGAGCAAAAAGAGGGTAAATTTAAAAGAATTTTGGATGTTGAAAATTTATTAGTATCAGATTTTTTGATTACAGAAGATAATATTAATGAAGTTTTGGAGTTGAAGTATACAAATATTGAAGATTTTTATAATAAAGCTTTTTTTTATAAAATAGGAAAGATTATGAGTTTAATGTTGGGTGTTGAAAGTACAACAGCATCTAAAATGAACTATGATTTAGGTGAACTATTTAAAAATATAATAATTTTAATGGGACCTCATCCTCTTGATCATACAGTTCAAACCAATGAAGTTATTGAAAAATTATACTCAAATTTTAAAAATATGTGTTTTGATTATGAAAAAATGTTTGAAAATAATATACAAAAATCAAAAAACTATATCTCTAATCTAGAATTACCTTTAAAATTATTAAGATGAAAAAAAGATTAAAAATAAATAGTATTATTTAAAAAAATTTGCTATTATTATTTTGTCTTATTTTGCCCACGTAGCTCAGTAGGATAGAGCATGCGCCTTCTAAGCGTAGGGTCAGAAGTTCGAATCTTCTCGTGGGCGCCATTAAGAAAAATAGATACTAGTTTGTGAACTAGTATTTTTTTTATAATTTTGTAATATAATAGAGAGTAGAATGAAAATCTAGGAGCAAAAATATGAAATTAAAATACAATCATAAAATTTCAAATAATAATAAATATGATTTGATAGCAACAACCTACTTAAGCTATTTTGTAGATCCAGTTTACAATCATTTCAACAGAATAAAATTAGATAATTTTGAAATATTAGAGTGTGATAATCATTCAAATGCAATTGTTACAAGTAATTGAAATTATAAAGAAAATTTTTCACGGGAACTAAAAAAATATGAACCAAAGTATTTAATTAATTTCACTGAAAAAGCTTATAACAATCAACCTCTAGAAAATATTAAATTTAAAGGTAATTACAAGTTTATGGAATTAAATTTAAATAAGATTAAAAGATTTAGTAATTATGAAATTAAAAATACTGAATTTCTAAAATTAGAAAATAAAAAAGAATTAGACTCGTTTGTAAAAATAATAGCAGAAGTATTTAGTGATGAAGTAAGTGACTCTAATAAGTTTTATGGAATTTTTGATGAATATCAGCAAATTAGTGAATTATTTGTTGTCAAATATAACAATGAAATTGTTGGTACAGGGCATTTAACTCATTTTGATAACAAGTGTACAATTGTTGATGATATTGCAATTAGTGAAAAAGCAAGAGGAAAAGGTATTGCAACATTTTTAATGAAATCGCTTATAAATTGGTCAATGGAAAAAAACCAAAATGAGCTTTATTTATTTGGAAGTGATGATGCTTTTAATATTTACAAAAAGTTGGGTTTCAAAGAAGATAAGTTTTGACTTGAACAATTTCAATTTAATTATTAATCCATAAAAGAAAAGTTAGGAATGAAGATATGAAAAAGTTTAGTATACAATTAGTATTTATATGTGTGTTATTTTTTATGTATTACTTTTATAATGCATGAGTAAATAGTTTGGATAAAACAGATTTGATGTTTCAATTATTTGATCCATTTAAGTTAATATTACTAGGTATGATTTTTACTGTAATTTATGGTGCTATTAAAAATCTATTATTTTCTAGATTTGTTAATTTAAAAAGTTATAGAAAAAATTTAAGAAATAATATATTGTTTGAATTTGAAAACACAATAACTTACATTCAAGGTTTGAAAAAAATTATTGATCATAATGATGTTTTAGAAGCAAAAAAAGCTTTAAAACATTTTAAAACAATTAGTTATAAACCCATTTATCTTTCAGATTTTATGGAGGTTTTAGCAAATGCACTATTAATGGAAAAAGATATTTCCGTATATAGTAATTCTGTTGAAGTAATTCTGGAAAATATTAATACCAATTTTAAATTGGAGAGAGAAAGAACTCTTAAAAATCAAAAGGGAATGATGGAAATCAAAATGTCTGAATCTTATTTTACAAATAGTAGTTGAGATTCAATCAAATATAATTTAGCTTTAAATAATCTGGACAATAGTAAATCAAGTAGATGAAAAATCTCAAGTTTATATATTTCTAAATTTAAAAACTCATTGTTTATATCATTTATGATAAATACTTTAATTTTTGCTTTTGTAGGAATTGGAATGTATTTAAATAAAACAGCTGTTAATAATTATGTATTTGTAGGTTTTATTGCCTCATTACTTATAATTGCTATGGTTCATTATAATGTTTCAATATTTATGTCTTCTAAAAAAATGGATATAAATATCTATTGAAGTCATTTACTTGTTTATTATTTAATAATTACAATAATATTTGCAAATATTATTTTAAATATAGTATTTTTCCCAAAAGTTTCACCTGATCAAGAAAGTAAAGAGGCTCCATGATATAATTCTGAATTACTTAATTTTTTAAAAAATTTACTTTATATTGTATTTTCAACAATGTTATTAACATATGTTTTTGGTGGTCTTTTAGAGTTACTTGAAAATAGTAAATTTAATTGAAAAAACTCTATTGAAGCTTTTATATTACCATTAGTTATATTTATAACTACTTTAGTTATAAATATATTGTCAATTAAAAGTGATGATAACAGCTTATATATTATAAATTTTGCTATATTAATATTATTTTGAGTTTTTATAGGTATATGAAATAAATTTTTCTCAAAATAATTAAAACTTAAAAATATTTTTAAAAAACTAAAATTTTATATTAAATAAAATCATTTAGCATAAAGTCTATAAAGACTTTAATATTAAAAGGTTATGAAAAGAAGTATACATACTAAAATTTGTTATAAGTGTAAATTAAAAATTGAAGAAAGAGAGGAATATAAATATTTTGAAGAGGAAGATATTTTTTCTAATAGAGTAATATTTTATGCTCACGAAGAATGTTTAAAATAAGTTTGTTAAGTAATTTAACTTGACAAACTTATTTTTTAATTTATTATTATTAATGTTATTAAATAGAAATAAAAGGAGGAAACATGGTTAAATTAAGATTAAAAAGAGCTGGTAAAAAAAGAGCCGCATTTTATAGAATTGTTGCTTCTGACGCTCGTGTTAAACGTGATGGAGAATATATAGAATTAATTGGAACTTATAATCCAATTAATGGTGAAGTAAATGTTCAAAAAGAAATAGCATTAAAATGATTGCAACAAGGTGCTCAACCAACAGATACTGTAAGAAATATTCTTTCAAAAGAAGGTGTTATGACTGATTTACACAATGTTAAATTAGCAAATAAAAACTCACAACCTAAAAAAGAAAAAGTTGCTAAAAAACCTGCAGCTAAAAAAGCAACTAGTGCAGCTAAAAAACCTGCAGCTAAAAAAGCGGTTTCTGCAGAATAATTATGAAAGATATTTTTAAAATATTAGATGAATTGTTAAAAAATATTATTCCTGTTGAAATTAAATATGTTTTCAAGGAAAAATATGAAACTGATCAAAAGTACGAATTCATATTATTAATTGAGAAAAGAGATTCTATTCTTTTTAAAGATAAAAAAACAGAAAATCTTGCTGAATCTATTACTAATATTTGCAATTCGCAAGCGTCAACTTTTTCTAAAAAGATAGCTATAGATTTAGAGGTATTAGAATCATATGCTTAATAATCTAAAAAAAATAGGAAAAATTGTTGGAACACATGGTTTAAAAGGTGAAATAAAATTTAAATTAGAAAATAATTTTATTCTTACTGGTGATTTTCTAAATCAACAAATATTTCTAGAAAATAGTTTGAAAAATTTAGATGTGTTTGAAGTTAAGAAATCTTATTTCTTAAATAAAAAGCATATAATTGCTCTTGAAAATATAACAAGTATTGATAGTGCTCAAAAATTAGTAAATAATATTGTTTATGTTAAAAAAGATTCTGAATTTATTGAAGAGGCATTTAGCTATATAGATTTTAAATGCTTTTACAATAATAAACTTTATGGAAAAGTTATTGATGAAATGTTTAATGGAGCACAAGATTTAATTAAATTAAAAACTGAAAATAAAGAATTTTGAATTCCTTGCGTTGATTTTTATCTGGAAAAAATTGATGTAGTCAATAAAGAAATATATTTAAAAGAAATTGAGGTTTTACTATAATTAAATTTTCAATTATTACTTTATTTCCAAATTTAATTAATTCATATATATCAGAGTCAATTATTAAAAAGGCAATTGAAAAAAATAGTATTGAAGTTGAAATTATCAATATTAGAGATTATACAAATTTTAAACACAATCAAGTTGATGACTATCAATTTGGTGGGGGCAAAGGTATGGTTCTAATGGTTGAACCAGTTGTAAATGCAATTGAAAGTTGTAAAAAAGAAAACAGTTTAGTTATTTTAACAAGTCCCCAAGGAAAAACTTGGAATCAAAATCTTGCAAGAGAGTATGCTTTAAACAAAGAACATATAATACTGATTTGTGGTCATTATGAAGGCTTTGATGAAAGAATTCTTGAATATGTAGATTTAGAATTATCAATTGGAGATTACGTTTTAACAGGGGGAGAAATTGCAAGTATAGTAATTTTAGATTCAATAACAAGACTAATTGATGGAGTTATTGCAAAAGATTCTCATTTAAATGACAGTTTTGAAAATAATTTATTGGACCATCCAGTTTATACTAAGCCTATTGAATTTAGAGGAAAAATTGTTCCAGAAGTTTTAACAAGTGGCCATCATGCAAATATTGAAAAATATCGTCAAGAAGGTAGATTAAAAAATACTTTAATAAAAAGACCAGATCTTTTAAAAAAAAGTAAATTATCAAAAGCAGACTTAGAATTTATTGAAAAATTAAGAAAAGTGAAAGGAGAAAATTAATTATGAATATGTTAACAAAGAACACAAAAGCTTTAATTGATGAACAATTAAATAATAATCTTCCAAATTTTACATCAGGAGATACTATTAAAGTTAATGTAAAAATTAAAGAGGGAGAAAAATATCGTATCCAAGCATTTGAAGGTGTAGTTATTAAAACTCAAGGAAGTGGAATTTCATACTCAGTATGTGTAAGAAAAAACTCAAATGGTGTTTTTGTTGAAAGAACATTTCCAGTTCATTCACCAATTATTGAATCAATTGAAATTATTAAACGTGGACGTGTAAGAAGAGCAAGAATTTATTATATAAGAAAATTATCAGGTAAAGCTGCACGTATTAAAGAAGTTATTAATAATAAAACAAAAGATACTAGTTCAATGAAAAAAGCAGTTAAAAAATAAGCAATAGCTTATTTTTTTTTATGCTTCTTAAAAAACTTATATGCTATAATTTTTTAGTTGTATAAGTTTTTTTGTTTTTTAATAATAATGGATTATCAATTATCTTCAATAAAATATTAAAAAACTTAATCGTAGTTTCCATCTTATTTAATGTAAAGGCTAATTAAAAAAGGTAAAATATAATATATCAAGAGGTGAAATATGAAAAATTATTATGATGAAACATTAGAAAAAATTGAAGAAGCTGAAGAGCAAAATAATTTGCAAGAAGCTTTTAGAATAATTTCAGAAGAATTAAATGCACCATATATACCTCAAGATTTTTTAGAAAAACTACAAAAAATAGAAATTAGATTAATAGAAAAAGCAAATCTAAATAAAAGTAATTCATTTAATTGAAACATTGATAAAGTTTTAGAAGCAATGTCTAAAAAACTGAATCAAGATGTTCAATTAATGGCTTTTGATGCTCTCAGAGGATTAAATGCAAGACTTATTATTAATGATATAAAAGAGTATTTGCAAAATACCGAAATCAAACCAGAATATAAAAGTTTTTTAATATTAGTTTTAATTGAACAAGCAATAGATGAAGAATTAATTGTGAAAAAAAACAATCAAAGTATTTTAATTAACCCTTTAAAATATGACTTATTAAAAGCGCAACAAGTTTTTAAAGATTTAGAATTAAAAATGGAACAAGTTGTATATTATAGTAATCCAAGTTTATTTAATATTTGCGAAAATATAGCAAATACTTATTTTTATCATGTTTTTCCAATATTTAATTTGGAAGAGAGTAATTTAAATGATTTAGCAATGGCTATAATTATGAAAGCATCAAATTCACTTGGTTTAGAATGAAATGAAAAACTAGAATTAAAATTAAATTTTAATAAAGAAAATACAATGTTATTATTAAATGAGTTGAATGAAATTATTTAAAAGAGGAAAATAACTATGAAAAAAACAGCTTTTACAGAAGAAGATTTTATAAAATATGAAGATCCAAAAAATGTTATGATGCAATTATTTGGAGTAACTTGCTCAGTTTGTGGAATTGATGAAATTGATTTTATTGATGAAAAGGCACCTAAAACTTTAGGCCAAATTGCACAAGAAATATTAGAGGAAAATCCCGAAATAGATGATGATGATTTAAATGAAATGATAGAACCTCAAATTGAAGCTTGACAAGAATTAGATGATTATAATGCTTCAATTGGTATGCCAACATTTTTATGTTACAACTGTCATGATCAGTTAATTAATGGAGAAATTTCAATTTCAATTAGCAATGAAGAATAATATTTTTTAAGGAGAGTTAGTTCATGAAATTTGTAGATTTAGCACATTTTAATATTAAATCAGGTAAAGGTGGAGATGGAGCTGTCTCTTTTCGTCATGAACTTTATGTAGCAAATGGAGGTCCAAACGGTGGAGATGGTGGTAAAGGTGGAGATGTTATCTTTATTGCAGATGAAGGAAAATCTTCACTATTAGACTTAAAATTACAAAAATTTTATAGTGCAGAAGATGGTCACAAAGGTGATATTAAAAATATGCACGGTAAAAATGGTAAAGATATTTATATCAAAGTTCCTGTAGGAACTATAATATACAATGCAGATAACAATGAATTATTGTATGACTTTATAAGTGATGGTCAAGAAGAAATAATTGCTTTTGGTGGTAAAGGTGGAAGAGGAAATGCAAGATTTGCAAATTCAAGAAATAAGGCACCAACTATCTTTGAAGCAGGAGATCCAGGACAAGAAATAAATATTAAAGCTGAATTAAAAGTTTTAGCAGATGTTGGTTTTGTGGGATTACCAAATGCGGGAAAATCTACATTATTAAGAACTATTTCAAACTCAAAACCACAAGTTGCAGATTATCCTTTTACAACTTTAAATCCACAATTAGGAGTTTCAAGAGATAAACAAGGAAGAACTTTTACTGTTGCAGATTTACCAGGATTAATTGAAGGAGCAAGTTTAGGAAAAGGATTAGGACATGAATTTTTAAGACATATTGAAAGATGCAAAATTATTTGTCATGTAATTGATATGTCAGGAAACTATGCAACAGAAGATGTTATAAAGAATTATGAATTGATTAGAAAAGAACTTATTGAATATAATTATAATTTAGAAAAAAGAGTAGAAATAATAGTTGCCAATAAAATGGATATTGATGAAGCTCAAATAAATGTTTTGTATTTTAAAGAAAAATATAAAGACAAAAAAATTATCGAAGTTTCAGGATTAAATAGAATGAACATAGATCAATTGCTATTAGAAATTGGCTCAACTTTAGAAAAAGTTAAAGATATTCCTCTTTGAGAAATCAAAGAAGAAACTGATCAAGATTACAAACTTTACACATTTGAATCTGATTTAAAAGATATACAAGTAAAAAATCTTGGTAATGGTAGATGAAAAATTGATGGAGAAGATGTTTATAAAATTTATCAAAAAACTCCAATTTCAACTTATGATAATTTATTACTATTTAATGAGAAATTAAAAAATTTAGGAGTTTATAATATTTTAAGAGAAAAAGGTGCACAACAAGGTGATATTGTTAAAATATTTGATATAGAATTGGAATGAATGGATTAATATGAAATTAAAAGATTATTTAGAATATTTAGTTGAATGAATAAGAGAAGAAGTAATAAAAGCAAATCAAAAAGGAGTTATTGTTGGAATAAGTGGAGGAATTGACTCTGCAGTTGTAGCTGCACTTGCAAAAAAAGCATTTCCAAATGATTACATTACATTATGAATGCCTTGCAAATCAAGTGAGTTAGATGAAAAATGCAAAGAAGAGTTAATTAGAGACTTAGATTTAAAAAATGTTACAGTTGATTTATCTAAGCCATTTGAAGCTATATCAGAATCATTAAATAATTCAGGTATCAATCAATCAAAATTAGCTCTTGCAAATACTAAAGCAAGATTAAGAATGTCTTCATTATATTCAATGGCTCAGACTCATAATTATTTAGTATTAGGAACAGATAATGCTGATGAATGACATATTGGTTATTTTACAAAATTTGGTGATGGAGGTGTAGATTTATTGCCAATAATTAAACTTTTAAAAAGAGAAGTGAAAGAAGCTGCAAAACTTTTAGGAGTTCCAGATTCTATTATAAATAGAGCACCAACTGCAAGTTTATGAGAAGATCAAACTGATGAATCAGAAATAGGATTTAGTTATGATTTAATTGACGATTATATAAGTGGAAAAGAGGTAAATAATTTAGTAAAAGAAAGAGTAGATTATTTGCATAAAATCTCAGAACATAAAAGAACTAGTGCACCAATGCCAAAAAATATAAGATAAAAATAAGGAAGTTATTTAAAATTTTATCAACTAATATCTTTTTTTAGTAGATAATTAAGTAAATAAGGAGAAATAATAATGACAGAAGTACAAGCAAATAAAATAAGTGAATTTATTGATAATTTACCAGAAGAAATAGCAGATAAAATGTTTGAAGAATTTGTAGCAAATATAAGCTTATATTTTGCAATAGTTTTATTTGGAGAAGAAATTGATAAAAACTATGAGGCTTTAAAATTAGATGGAAAATCATTAGAAGAAATAGCAAAAGTAGTTAAAGAATCAGAAATTGGAGAGGAAGAAATTTACTCTGCATTAATGGCATCTTTGCAAGAAGAATCTGATGCTGAATTATTTGCTGAAGACTGTGTTCAATCAATAGCATTTAGTCCAGAATTACCTGAGGAATTATTGGCTAAATTAAAGGAATTAGATATTGATATTAATGATTTTGCAATGAATTTAATTATTACATTAAAAGATGAATTTATAGATTTCTTTGTAAATGATCTTGATGTTGAAGAATGAAAAAATGATATTATTGAAGCTTTAGTAGCGAGTTGAGATTAAAAAATAAGAAAATCTAGATTAAAATTTAGATTTTTTTTATTAAATATTATGTTATTATAATTATAATTGTAGATAGGGTAATTTACAGTTGGGCTAAAATTAAAGGTGATTTTTATGAAAACATTATTATTCAGTAGAACACTTTTTAAAGTATTAGATTTTGAACTTTCTTTAACTGTTGTTTTGATTATTTTTACTATCATTGCTGCAGTTGCGTTAGGAATTTATTTGTTAATTCTTTTTCAAAAAAATAGAAAATTCTATTTTGAAAAGGAAGAAGTTTCAGGTGATGAATTCAAAAGACTTGAAAAATTTGAAGAACAAAGAAATTATTTTGAATTAGAGATTGCTAAAATCAAAAAAATTCAAAGAGAAAGAAAAAAATAATACATTTTAAGCTTATAAAAAAGGGGGCTTTTTTTATGAGTGGATTATTTAATCCTTTTAAAAAAGATAATTTAAATCAAAACGATCACCAACAAAATGTTGGAAATTTTGATTTTAATCAAAATCCTCATCAAAATCCAATTTATCAAAATGAAACAGCAATGTATCAAAAAAATCTGATTGAATCAAAAAATGAAGGTTATATAAGACCAAGACAAAGAAACTTTGAAAATAGCTATCATGAACAAGCACAAAATATTCCTCAGTATAGTAGAAGTGAAAATAATGGTAGAAATAGACCTGAATTAGTCAATAACCAATATTTGCAAAATAATCAAATGCAATATCAAAATCAACAGATGTATCAAAAACCCCAGCAATATCAACCAATGAACAATTACAATAATTACCCAAATCAATATAATAATAGTTTAAAACAAGAATATTTAGATTTTGATAATAATGCAAGAATCGATTATGGAAACTTTAGAGATGAAAATCAATATAATAGAATGGTTTATTCTCCAAATAATAATATGAACAGTATTCAAAGAAATGAAAATTATAATAATAGACCTTTATATGAAAATTATAATGTACCTAATAATAATATGTATTATGGTTATAATGATTTTTCAAATAACAATCAATTTTATAATCAAAATTCTCCATATGGTTATAATCCAGAAATAGATTATGCACCAGTAAGTTCAAACAATTATAATCCATATGATAAAAGCACTTATACTCAAAGATACAAATCAGCAAGAATGATGCCAAAAGAAATTGGAAAAGAAGTAAGAAGTGAAAAATTAAGAATCTTTTTAATATTTTTAATTGGTGTAGTTGGAATAATTACTTCATCAATAATGCTATCTATTTTTTATAAAGCAGGAAATGATGGAACTTATATGGGAGTTAAACGTGATCAAGTAATGTATCCATTTTTCTCAATTACATTATTAATATTTTCATTAGGTTTTTTTGCTATAAGTCTTACAGATTTTGGATTTATTTATTCAAATGTCAAAAAATATGAAAGAGATTTATATTATGGAAAAGAATCAGTTCCTTATTTTATAACAAGAAACTATAGAAGTTTAATATCAAGAACAGTATATTTAAATTGAATTGCATTTTGTATATACATTTTTGGAGCCATTTCTCTTGGTATTATGTATGGGCTTCAAAGTCAAGTTGAAACAGGAAATACTTCTTTTTATTTTCTATTTTGAAAAATTGGACAATTAAAACCATTAAATTCAGAAATTCAAACTAATATAATAGTCTTATTTGTGACTTTAATAATTCATATCTTAAATATTGTTACAACAAGAACTAGAAAAAATAATATTATAGGTTATTATGGTTATGAAATAATTCCTCAGCAAGAAATTAAAGAGATTAGAAAAAGAGCAAATAAAATATGTATGATTATTTTCTTTACAACATTGGCAATCATATTATTTTTAATTGTTATTCCTTGATTAATTATTAGAAAAAAAAGAGGTCTTTCACTTAAACCATGAGGAACAGTAGCCAATGGATAGAAAAATTAATAGTTTATATGTTCACATTCCTTTTTGTGAACATATTTGTTTTTATTGTGATTTTGTTAAAGTTAAAAAACCCCAAGATCCAAAAATTATTGAAAAGTATCTTGACAGAATTCAAGAGGAATTAAATTCCTATGAAAATAGATTAGATGATATTCAAAGTATTTATATTGGTGGTGGAACTCCAAGCTGTTTAAATAGTGAGCAAACTATTAGAATGTGTGTAATTTTATCAAAATACACTAATAAAGAAAATTTTGAATATTCAATAGAGTTGAATCCTGAATCAGTAACTGAAGAAAAGTTAGAGATTTATAAAAAATATAATATAAATAGAGTTAGTATGGGAGTTCAGACTTTTGATAATGAATTATTGAAAAAAATTGGAAGAATTCATGATAACTCAATTGCAATTGAAGCATATAAATTAATAAGAAAAGTAGGCTTTAAAAATGTAAGTATTGATTTAATGTATAACTTATATGATCAAACAAGAAAAAATATTTACACTGATTTAGATTATATTGATAAATTGAAACCAGATCATATTTCTTGATATTCATTAATAATGAAAGAAAACTCAGTTTGAGGTAGAAAAAAAATGAAAGTTCCAGAAAATGATGAATTATTTGATGAAATAGTAAATAAAGGATTAGAAAAGTTAGGCTATATTAGATATGAAATATCTAATTATGCTTTAAAACAAAAAAATAAATCTTTTCATAATATGACTTATTGAAATAATTCTATTTTTGCAGGTGTTGGAATTGGAGCAACTGGTTTTGAACAAAAAGATGAGAAATATTATTTAACTAAAAATGAAGGAAATATTCTGAATTATGAAAAACAATTTGAACTTTTAACAAAAGAAGATTATTATTTTCAAGTAATCATGATGGGATTAAGGTTAGTTGAAGGAATAGATTTAACATTAGATATTAATAAAGAAGTTTATAAATTTTATGAACAAAAAATTACAGAAAAAATTAATAGTAATTTATTAGAAATATCTAATAATAGAGTAAAGTGTACAGAAAGGGGATTTAATATCTTGAATGAGATATTAATAGATTTTTTATAATATGAAAAAAGCTTTAATAGTAGTAGATTATCAATATGATTTTGCAGATCCCAAAGGAAAATTATATGTTCCAGAAGGAGAAGATATTAAAAAAAATATTGAAAAAAGAATTAAAGAATATAAAAAGAATAATGATTTAGTAATTTTTTCAGGAGATTTTCACCCACAAAATCATGTTTCTTTTTCTAAGTGAGGAGAACATTGTCTTGTTAATTCAAAGGGAACAGAATTTTATGTAGATGATTCAGAAGTTGACTTGTTTATTAAAAAAGGTACTGAACTAAAATATGATAGCTTATCAGCATTTTATATTGCCAAGGATGTAGATAGAAATATTGAGTTAGAATCTGAACTTGATCAATGACTAAAGAAAAATAATATAAGCGAATTAGAAATTTGTGGACTTGCATTAGATATATGTGTTCAAGCAACTTATGATGATGCAATAAAAAAAGGATATAGAGCATTTATTAACTTAAATCTTTCAAAAAGACTAAATTTTTAGTTTTTTTTTTTTTTTTTATTAAAAAAAAAAAAAAAACGATTAATTATTATGGAGGAGAATTTATGCTTAAAGAAATAATTAATAAAGATGAGAATAATCTAGTTTTCTCAAAAATTGTAAATGAAAAGGAGATAGTGAACTTTAAAGATATAATTTATAATTTTTTAAATCAACCTCAAATAAAAATTGAACAGAAATATGACTTACTATTTTCTAAAGCAATTAAAAAAAACTGTTTTAAAGATTTAGTAAAAGAGCTTGAATCTGATTTTAAAACAAATTTTGTTTTATGAAAATTAACAGAAAAAATATCTTATTGAACAACAATGTTTTTTTCTAGTAAGTTTAAAAATGGAAATGGTTTCAAATTACTTCAAAAAATATTTATTTTAAAACAGGTTTTTTTAGCTCAGTTAAGATATAACTCAAATATTTGATTAAAATTGAGCCCTAATCAAACTTTAAAAATAAAATCAAAAAAGAAAGAAACAGAAATAAACTATAAACTTTTACTTCTAATGTATGATTTTAATGAATCTGAAGAAGATTTCTTTATATTATTAAATGAAAATCAAAAAGAAATTTTAAATTTAGTTTTGAAATCTAATAATATAGAGGATTTTCTTAAATTAAGAACAAAAATTGAAATAGATTTATTTAAGTATTTACCAATAAATATGATGCTTTTACAAGCACAACTTATTAAAAATAGCTCAAAGTTAAATTTAAAAGAAAAAGCCAAATTATCATATTCAACATTTATGCAATTATTTTGTATATTTGTTGAAGAAAATTTATCTAGAAATAAAATGAATTAATAAAAAAATATTATTCTCTAAAACATAGAAAAGAAATTCTACACTATTAAAAAGGTGTAGTTTTTATTATATTTTTTTATTAAATTAGCACTTTAATATTGACATTGCTAAAACAAAATGTATTATATTATTGATTAGCAAATAAGGTTATAGAGTGCTAATAAAAAAAGGAGGAAATTTTATGGATTTTACACAAAAACCAGATCCTTTAAATGATCCAGAAATATTAAGTAAATATACAAGAGATTTAACTAAGGATGCAAAAGAAGGAAAAATAGATCCAATCATTGGTAGAGATGATGAAATTATGAGAGTAATTAGAATTTTAAGTAGAAAAACAAAAAATAATCCAGTTCTTATAGGTGAACCTGGAGTTGGTAAGACAGCTATAGCTGAAGGTTTAGCTCAACGAATAAATAAAGGAGATGTTCCTAGTGTATTGAAAGATAAAAAAATTCTTGAACTTGATATGGGAAGTGTTATGGCAGGTGCAAGTTTTTTAGGAGATTATGAGGCAAGAATTAAAGGCATTGTAAATGCAATTCAAAAGCAAGAAGGTCAAGTAATTTTATTTATTGATGAACTTCATTTGATAGTTGGAGCAGGAAAAACTGGAAATGGTGGGGGAATGGACGTTTCTAACTTGTTAAAACCTTCCCTTGCTAGAGGTGGAATTAAAGTTATTGGAGCTACAACTTTAAAAGAATATAGAGAATATATTGAAAAAGATGCAGCTCTTGAAAGAAGATTTCAAAAAGTTATTGTTAGAGAACCAACAATTGAAGAGACTATATCAATTTTAAGAGGTTTAAAGGAAAGATTTGAAACTTATCATGGAGTTAGAATTCATGATAATGCATTAGTTGCTGCTGCACAATTGAGTGATAGATATATTTCAGATAGATTTTTACCTGATAAAGCAATTGACTTAGTTGATGAAGCAAGTGCGACAATAAAAACAGAACTTGCATCAGTTCCTACAGAGTTATATCAAATTGATAGAAAAGTTATGCAATTAGAAATTGAAAAAGCTGCTCTTTCAAAAGAAAAAGATGAAAAATCTCATGAAAGATTAGAACAAGCACAAAAAGAATTAAGTTTATTAAAAGAAAAGCAAACAGAATTCAATGATAAATGAAATGCTGAAAAAAAATCTTTAGAGAAAATTAATCAATTTAGGTCAACAATAGATTCTTTAAAAATTGAATTAGAACAAGCGCAAAGTGAAGCAAATTATCAAAGAGCTGGAGAAATACAATATTCTTTACTTCCAGCTTTAGAAAAACAGTTAGAAGCTGCTTTAGATACTAATAAAGAAAAATTAATTTCAGAAGAGGTAAATGAAAGTGAAATTGCATCAATTGTATCTAGATGAACTGGAATTGAAATGGAAAATTTAATAGAGAGCGAAAAACAAAAGCTTTTAGGATTGAATACACAATTAAAGAAAATGGTTAAAGGTCAAAATCAAGCAATTGAATTAGTATCTGATGCAATTATTAGAAGCAGAAGTGGTATTAAAGATCCAAATAAACCAATTGGTAGTTTCTTATTTTTAGGTCCAACAGGAGTTGGTAAAACTGAAGTTGCAAAATCACTTGCAAGAAATTTATTTGGAAGTGAAAAGAAAATGTTGCGTTTTGATATGTCTGAATACATGGAAAAACATTCAGTTTCTAAATTACTAGGATCTCCTCCAGGATATGTGGGATATGAAGAAGGAGGTAAATTAACTGAAGCAGTTAGAAGAGCACCTTATTCAATATTACTATTTGATGAAGTAGAAAAAGCTCATCCTGATGTATTTAATATATTTTTACAAATTTTAGATGATGGTAGAGTTACTGATTCACTTGGAAAAACAATAGACTTTAAAAATACAATTATTATTATGACTTCAAATATTGGTTCTGATTATTTAATTTCTACTCCTTCAGAATTAATTGATCAAGATGTTTTAAACGAGAAATTAAAGCAATTTTTCAGACCTGAATTCTTAAATAGAATTGACAATATTGTAAACTTTAATCCATTATCAAAAGAAGTAGTTAAAGAAATAATTTTAAAAACACTTGATGAGTTAAAAGAAAGAGTTTTTTTAACTCATGAATATATTTTAAATTTTACAGAACAAACAATTCAAAAAATTTTAGATGAAGGATATGATCAACTTTATGGTGCGCGACCAATTAAGAGATATATTGAAAGAAATATAGAAACTTTAATTGCAAGAGCAATTGTTGGTGGAGAAATTGAAGAAAAAAGAAATTATGTAATTGATGTAAATGAAGGAAAGTTTATTATAACAACTTCAAATAAATTAAATTAGCACTTGATTATTAAGAGTGCTATTGATAAACTAGATATGTATTGTTATGGAGGTGTTTTTAAGTGTTAACAGAACGTCAAGAATTGATATTAAAATCAATTATTGAAGAGTATATTAAAATGGCTTTGCCAGTTGGATCTAAAAGAATTCAAGAGGTGTTAACAATTGAAGTTTCTTCTGCAACAATTAGAAATGAATCAGCATTTTTGGAAGAAAAGGGATTTTTGGAAAAAGCTCATACTTCTTCAGGAAGAGTTCCATCAACAAAAGGTTATAGATATTATGTTGATAATTTAATGGAATCAAATAATATTGATGATATTAAACTACAAATTGATGAAATTTTTAAAAAAAGAGGATCAACAATTGATGAAATTTTAGAACAAACTTCATTAATTCTAAGTGAAATGACAAAGTTAGCAACTGTTGTGGCAACCTCTGAACAAAATGATGAGTTGCTATTGTCAAAAGTTGAACTTGTACCCATTTCTTCTAAAACTGCTATAGTAATCTTTATTATTTCTAATGGAACAATTCAAAATAAAACAATAAATTTAGAATCAGTTTCATTAGAAGAATTAAAGTTATCAATTGATTTATTTAATGAAAGATTAATTAATTCAAAAATATCTGAAATTCAAACGAAATCACAAGCAATTATACCTGTATTGAAACAACAAGTTAAAAAATATGAATTTATTTTACAAACATTAGTAGGTGCTTTGATTCATACAGACTCTAATAAATCAAAAACAAGGGGAGTTAAATATTTATTGGAAAATCCAGAGTTTAATGATCCAAACAAAATTAAAAATATTATTGAATTTATTGAAAATGCTTCTCCTTTTGCTTGATTTAATTATCAAAGCAAAACAAATAAACCTGTTGTAGCTATAGGTTTAGAAACAGGCAATGAAAATGATGATATAGCTGTTATTGGTACTAACTTCCCCACTAAAGGTGGGGGAAAAGGTGCGTTGGCACTAGTTGGTCCTAAAAGAATTGAATACGATAAGGTATCAAAACTTTTAGAATGAATCAGCAATAAAATTGAAGAAAAATTTTTATTGGAAGGAGAATAATAATGGAAAAACAAAAGCAAAAAGAAATTTTGAATTTATTTGAAAATGTTAAAAAAGAACTTAAAATAAAATCAAAACATACAAAAGAAAGTAAAGAAGAAAAAGAAGAAGAACTTTCTGCAATCGAAAAATTGGAATTAGAATTTGTTGCTTTAAATGAAGAAATTGAACAATTAAAAGAAGCAAAATTAATAGCAATTGCTGATAATCAAAATACAGTTAGAAGATTTCAAAATGAAAGTATTTTAGTTAGAAAATATGGTGGAGAAAAATTAGCTTCAGAGTTAATACCAGCTATTGATATGTTTAGAGGAGTTTTAAAATCAACTCCAGATAATCCTGAAATTAAAAATTATTTAATGGGATTTGAAATGATCATTAATCAAATAGATCAAGGTTTAACAAATGCTGGTGTTTCAATGATTAATGTAAAATCAGGAGATGATTTTAATCCAGAATTGCATTCAGCAATTGAACAAATAAAATCAGAAGAATTTGAAACAGGAAAAATTGTAACTGTTGTTTCAAATGGATATAAATTACATGATAGAGTTATAAAACATGCTGCTGTTAAAGTAGCAGAATAATTAAAACAAAATAAAAAAAGGAGAGAAAATTATGGCAAAAGAAAGAATTATAGGAATAGATTTAGGAACTACAAACTCATGTGTAGCTATTATGGAGGGTGGTCAACCAATGGTTCTTGAAAATCCAGAAGGACAAAGAACTACACCATCTGTTGTTGCTTTTAAAAATAGCGATATTATTGTTGGAGGGGCTGCTAAAAGACAATCAGTTACTAATCCAAATACTGCAATATCAATAAAAAGAGATATGGGAACAACTAAAAAAAGAAATTTAGAGGGAAAAGATTATACTCCTGAACAAATTTCTGCTGAAATTTTAAGATATTTAAAAAAATACGCTGAAGATAAAATAGGATCAAAAATTACAAAAGCTGTAATTACTGTTCCTGCTTATTTTAACGATGCTCAAAGAAAAGCTACAAAAGATGCTGGTAAAATTGCTGGTTTAGAAGTGGAAAGAATTATTAATGAACCTACAGCAGCAGCATTAGCATATGGAATTGATAAACAAGATAAAGAAATGAAAGTTTTAGTTTATGATTTGGGTGGAGGAACATTTGACGTTTCATTACTAGAATTAGCTGATGGAACTTATGATGTATTAGCAACATCAGGAGATAATGAATTAGGTGGAGATGATTTTGACCAAAAAATTATGGACTGAATAAGTGCAGAAATTAAAAAAGAGCACAATATAGATCTATCTAAAGATAAAATGGCTTTACAAAGATTTAAAGAAGAAGCTGAAAAAGCAAAAATAAATTTATCAAGTCAAGTTGAAACTGAAATTAATTTACCATTTATTGCAATGAATCAAAATGGACCTGTTAACTTCTCAACTAAGTTATCAAGAGCTGAATTTGAAAAAATGTCTAAAGACTTAGTTGAAAGAACAAGAAAACCAGTTGAAGATGCTTTAAAAGAAGCAAAATTAAAAGCAACTGAAATTGATCAAGTTCTTTTAGTTGGAGGATCAACTAGAATTCCAGCCGTTCAAGAATTAGTTAAATCATTATTAGGAAAAGAACCAAATAGAACTATTAATCCAGATGAAGTTGTTGCTATGGGTGCAGCAATTCAAGGTGGAGTTTTAGCAGGAGATGTAACAGATGTTTTATTATTAGATGTTACACCATTAACTTTAGGTATTGAAACAATGGGTGGAGTTATGACACCATTAATTCAAAGAAATACAACAATTCCAACAGAAAAATCTCAAATTTTCTCAACAGCAGTTGATAATCAACCAGCAGTTGATATTAATGTTTTACAAGGTGAAAGACCAATGGCAGCTGATAATAAATCATTAGGACAATTTCAATTAACAGGAATTAAACCAGCTCCTAAAGGAACACCACAAATTGAAGTTACTTTTAAAATTGACGTTAATGGAATTGTGTCTGTTACTGCAAAAGATAAAGCAACTAACGAAGAAAAAACTATTACAATTTCAAATTCAGGAAGCTTATCAGATGCAGAAATTGAAAAAATGGTAAAAGAAGCTGAAGAAAATCAAGAAGCAGATAATAAAAAACGCAAAAATATAGAACTAAAAAATAAAGCTGAAAGTTACTTAAATATTATTGAATCTTCAACTACTGAAGCAGGTGCTTCAATGAATGAAGAACAAAAAAAACAATCAGAAGACATGGCAAAAGAAATTCGTGAACTAATTGCTAAAGAAGATTATGAAACTTTAGAGAAGAAAATGAATGAATTAGAACAAGCAATGAAAATGGCTTCAGAGATGGCAGCACAACAAGCACAACAAGCGCAATCTGAACCTAAAAAAGAAGATTCAATAGAAGAAAACAAAGATAAAGAATCTAAATAATTTTAAAAAACAACTGTTAATAGTTGTTTTTTAAAGATAGAAATGAGGTACGTTATGGCTAAAAAAGATTATTATGAAATCTTAGGTATTGCAAAATCAGCATCAGAAGATGAAATAAAAAAAGCCTATCGTAAATTAGCTAAAAAATACCACCCCGATATTTGCAAAGAACCAAACGCTGAAGAAAAATTTAAAGAAGCTACTGAAGCAGCTGAAGTACTATTAGATGCAAATAAACGTCAAGCATATGATCAATTTGGTCATGAAGGTTTAAGTGGTATGGGTTCTGGTTTTGGTGGTTTTAATGGTGGAGGATTTGGAGACTTTTTCTCAAATATGGGGGGAGCAAGCGACTTTTTCTCAGATATTTTCTCTAATTTTTTTGGAGGAAGAGGGGGAAATTCTTCTAGAAAACGATCATCAAGAGGTAAAGATATTGTAATAAATGTTAGTCTATCACTTAAAGAGTTATTGTTTGGAGTAGATAAAGAAATCACCTTAGATTTAATCTCTAAATGTGACGATTGTGATGGAGTGGGAGCAAAAAACAAATCTGATATAGTAGATTGTGAAGTATGTAATGGTCATGGAGTAGTTACAATATTACAGGATATGGGTATTGCTAAATTTCAAACTCAACAACCTTGCCCAAAATGTAAAGGACATGGAAAAGAAAATAAAAATCCATGTAAGAGTTGTAGAGGTGAAGGAACTGTAATAAAAAAAGAAAAAGTTACAATGCCAATACCAAAAGGTTTAACACCAGATCAACAAATTGTTTTAAGAAATGCTGGTAATTATTCTGTTGAAGGAGGAGAACGTGGTCATTTATATGCAGACGTTCATTTAAAAGCTTCAAAAAATGTTACTATAGTTAATGACTTTGATATTAAATTTAAATTTGATATAAGTTATTTAGATGCTCTTCTAGCAAATGAAATTTCAATTAAAACATTAGATGGAGATATTAGTATAAAAATACCAAAAGGAATTAAGAACGGTGAAATTATTAATGTCAAAAATCATGGTCTGTACAAAGGTATTAAATCATCACATAGAGGTAATTTATTATTAGAAGTAAATATAGTTATTCCAAAAGAACTTGATAAAAATGAAAAACAAAAAATAGAAAGTATTTTAAAGTCAACTGATTTTAAAGTTACAAATAATTTAGAAGAATAACCTTAGGGTTATTTTTTTGTCAAAAGTATTTATTTTGATTTAAATTAATTATTGTATAATCAATTAGTGGGGGTTTCTATGTCTGAAAAAATTAAAGTTTTAAAAATTAAAAAAAGTTTACAAGATGAAATTGAAGAAACTACATTAGATTTTCCTTCTAAGGGTATTTGATATGAAGAAAACTCAAATGAATCTATATCTTTAGACTTTGATAAAACAATCTCATTTAAAGAAAATAAAACCTCAAAAATTGATCTAGTTCAAAATGCTAATTCTCATTTCTTTACTCCAAATAATCAAACTAACTTAAATTTTAATAAAAGTGATATTGAAAATAAAACATTTGAATCAATTAATTTAGTTGATAAAATGATTAAACCCAAAAATTCAAATATAAGAAAAGAAATTATAAATATGAGAATATTAAGCTATGAAAAAGAGCAAAAGGATAAGGAATTTTTACTTAATAAACTTAATGTAGATTTAAAACCCCATAATAATTTTAAAAATTATAATCTTGCTAAAAAGGAAAATAATTTTAAATATATAGATTCAAAAATAGTGAATAACTCTCTTGAAGCAAAAATAAATAATCTTGAAAAACAAATATTTTCTATTAATAAACAATTATTAAAAAATTCAGAAAATAAAAATGAATTTGAAGTATCAAAAATTTTAAAGCAATTAAAAAATCAAAGTTCAACAAACTCAAATTTAAACTCAAGTTCAGATTCTAAGGAAAAATTTGAAAAAAAAGGTTTTAACAAATCAGTTTTAGAACCAGTAATTAAAATAGGATCTCAAAAAACTAATGAGCCTAGATTTAATAGCAACTATGTAAAAACTTTTGAGAAAGTCAAAGAAATAAAAAGTAATGATAAAAATCTAATTAATGCAAAAGAAAAAAATCAAAATAAAGAATTGGAGAATAAAGAAAAAAACATTAATATGGAAAAAAATATTACAGTAAAATTTAATGATAAGAGTCATAAGCAAAATAATGATAAATCATTAATGAATCAAATTAATAAAAAAACTTTATATAATGAAATGAATACAGAAGAACTTAAAACATTCATTAAAAAAGAAAATAATAATTACTCAATTCCTGTAGTAAATAATTTGGATTATACTTTAGCAAATACTATAGATGATCTTGAAAAAGCTATAAGAAATCTAGAATTAGAAAAGAAAAAAATAAAAGAAATATTCTTTGATGAAACTGGAGAAACAACAGAGTTATTGGAAAGCTTACAAAGAAATGCAAAAAGGAATAAAAAATCTTCTTCACTAAATACTTCTATTGATTTTGACTCTTTTGAAAATTGATATGACAATTCTAATGATGTTAAAAAGTTAGCAAAATTAGCAAAAAAAGAAAACAAGAAAATGAAGAAATAAGGCGAAAATTATGAAAAAGCAAAAGGTTATTGTTGGTCTTAGTGGAGGAGTAGATTCTTCTGTTACTGCAGCTATATTATTAGAACAAGGTTATGAAGTCGAAGGACTATTTATGAGAAATTGAGATAGTAATCTGAATAATGATATTCTTGGAAATAATTTACAAGGAAATATTTGCCCTCAGGAACAAGATTATTTAGATGCTAAAAAAGTAGCAGAAAAGTTAAAAATAAAAATTCATAGAATAGATTTTATTAAAGAATATTGAGACTCTGTTTTTGAATATTTTGTTAAAGAATATAAAAAAGGCAGAACACCAAATCCTGATATTTTATGTAATAAATATATTAAATTTGATAAATTCTTAGATTATGCAATTAATGAATTAAATGCAAATTATATAGCAATGGGTCATTATGCAGGAGTTAGATTAAATGAAGAAACAAAAGAATTTGAACTAATAAGAGGTATTGATGAAAATAAAGATCAAAGCTATTTTTTGTCTGAATTAAATCAAAATCAACTTTCTAAAACTTTATTTCCTTTACAAACTTATGAAAAAAGTCAAATAAGAGAAATAGCTAAAAAGTATAAATTAATTACAGCTGAAAAAAAAGACTCTACAGGAATTTGTTTTATTGGTGAAAGAAATTTTACAAAATTTTTACAAAATTATATTCCAAATCAACCTGGAGATATTCTTGATATAAAAACGAATAAGAAAATATCAGAACATATTGGTGTAATGTATTATACAATAGGCCAAAGAAAAGGTTTAAATCTGGGTGGTCAAAAAGAACCATACTATGTAGCTGAAAAAGACATAGAAAATAAAATACTGTATGTAGCACCTTTAAGCGATGAAAGTTATTTAGAATCTAAAAGTTGCATAATTGAAAATTTTAATTTTATATCAAATTATAAGAATTATTTTAAAGAGGATAAATTTGAATGCACTGCTAAATTTAGATATAGACAAAGAGATATAAAAGTTGAAGTAGAAGTATTAAAAGAAGATAAAATATTAATAACTTATAAAGAACCAGTAAGAGCTGTAACAGAAGGACAACAAGCTGTTCTTTATTTAAATGAATTATGTCTTGGTGGTGGAGTTATTGGTAAAATTTTTAAATAATTAGTAAAAAATAAGTTAAAATTAATATTGTTTGAAGAAAGAGGAGTTTTGCATGTTATTAAGTAGTAGTATAAGTACAATAGTTATTGGAGTTGTGGTACTAGTTGTTTTAGTATTTGTTATTGTTTCATCAATAACAAGTAAAAAAGCACAAAAAGTTGAGCAACAAAAAAGAAAAAAAGTTGTTAAAGAAGAAATTAAAAATTATCTTGCAAAAACTCAAAATATTAAAAATATTAAAGTTGAATATGAAAAGGTTTATGCAAGAAAAGGACCAGAATATAAATATAGAGATGTGTTTGACGTTGTAGTTCAAATGTATGAACCAAAAACAAATAAATTAATCTCTACTAATGCATATGAAGTAGAAGGTATAACTACAAAATCTGGAAAAAATAATTATGTGACTGCATGACAAGTAAATGGTGAAATAGATCTTGAAAATACAAAACGAAGAATAGCTATAGCTGAAAAAAAAGTAAAACTTACAAAACAAGAAAAAGTTGTACTAAAAAAAGAAGAAAAAGAAAAGGCTATTGAACATAAGATTCAAATTAAAGAAGAAATGAAAAATATTAAAGAAGAGAAGAAAAATCAAAAAGAAAATAAGGATGCTAATCTTCAAATGGATAAAGCAATCAAAGCAACAGCAGTTAAATTCATACCAAGAAGAAATAAATAACATATTTTTAATATGTTTTTTTCTTTAAAAGAGGTGAAAATATGGCAAATAATATAAAAGTCTCAAAAGAAGACTTTAAAAGATATATGAACGAGTGTCCCAAAATTGCTTGAATTTTTCATAGTATTAATAATTTTAAACATGTAATTGAATTAAAAAATAAAAAAATAATAGAAACTCATTATAAAGTATCACTTGATAATGAAGAAGATTGAGATACCTCGTCTGGTTTTAATGCTATTGATTTATATTCAGATCTTTTGGAAAAAAGTGATAATGAATTAACAAAATCAGAACTTGCTCAAAAAGAAATACTTATAAAGCAAATGGAAGATATAAATGGTTTTGAAATTTCTGGACTTCCAGCAGAAACTATTGTTGATGGTAATGCTGTTGGAGAGGCTGCAAGAGAATATTTTATAGAAGAACTTTATAAAGAAAATATAAAAAATAAAACTAATTATGAATATTTAGACTTTCAAGAAAAAAGTTATCAGGAAAGTATTGAAGAAACTAAAGAAGCATTAAGAGACAATAAGATTAAATATTTATTTGAACCTTCATTTGAGTATATGAATGAAATGTTAAAAGTAAGATGTGATATTCTTATTAATCATGGAAATAGACATGTTACAATAGTAGAATTCAAAGCTTCAACTACTTCTAAAGCAGTTCATTTTTTTGATGTAATGTATCAAAAAAAAGTTCTTGAAAAAAATGGATATATCATTGATGATGTAAAAATTGGTTTAATAAATAAAAATTATGTAAGAGGAATTGGCATAGATGAAAATAGATCAAATTTCTCTATAATTTGAAGAAAACTGGATTTTGAAAAAGATATAAAACCATTTTTAAATAATTTATTTATTCCAAAAAGTGATGAGTCAGATTTAAATTATAAACAATTAATAAGAATCACAACAAAATTGGAAACTTCTAAAAAAGATGTAGGTATTAATGAAATGATAATTGGTATGGAAGAAAACGGTTTTGATTTCGATGAAAAAATCTTAGAAATTTCAAAGTATTTTCAAAACTCAGAAAATATTTTTAGTAAAGAATGTGAAAAAGTGGCTTTTGAATATGCCAAAAAATCTTATAAAATGAAAAAAGCAATCTGTCATCATGTTGTTCCTTACTATGATAAAGAAAAATTTAATTTATATGAATTAACAAGTTTTAAACCAAAGGCAGCAATTATTCATTCTAGAAAATCAGATAATGTTTACATTGAAAATATTTCTAATTTTAAAGATGAATTATTCTTTGACAAGAATAAGCTTTTATTTGGTCAAGATGAATTAAGAATTTTACAGAATGTTAAAAGTTATTTAAAAAATGGATCACTTTCCCCTGCAGAAATTATTAAGGAAAACTCTTATGATACATTGATTAATTTATTAAAAGATTATTATAAATATCCCGTTTATATGTATGATTTTGAAACAGTTAAATGAGCTGTTCCTAAATATGATAATTCATGATCTTATGAACAAATACCTTTTCAATACTCTATTCATGTAATAAATAATCCAGATTATGATTTTAATGATCCTAAAAATACAATGGAGCATTTAAATTTTATTGCAAATAAACAAGAGGATCCAAGACCAGAATTTTTATTTAATTTTGTAAAGAATTGTTTTGCTTACGGCCCTGGAATATATGTTGCTTATAATAAATCATTTGAGAGAAGTGTTATAAAAAATTTGATCTATTCTTATCCCGAGTTTTCAGCACCTTTAGAATTTATTTACAATAATACGATAGATTTGATGGAATTTTTTAAGAAAGCAAAAAATAATTGAATTATTTATCATCCTAATTTTAGAGGTTCATATTCAATTAAAAAAACTCAACCAGCTCTAGATCACTCATTGAGTTATAAAGACTTAAAAATAAATAAAGGAGATAAAGCAAGTCAAACTTTTAGGCAATTTTTAGATAATGTAATCGATCAACAAGAATATGAAATTATTTTAAAAGAAGATATGCTTAAATATTGTGATAGGGATACTCTAGCTATGATTGTAGTGCTACAAAGAGTTGTAGATATTGTAAAACAATATAATCCTGACTTTATTAAAGATATTAATAGACTATTGGAGGAAGAAAAAAATGTATAAAGTAGTATTTTGTGGAACGCCTCAAATCTCTGTTGAAATTTTAAAGGCTTTAGAAAAACTAAATGTAGAAATTGTTGGTGTAATTACTCAACCAGATAAGCAAGTTGGAAGGAAAAAAGAAATAAAATTTTCAGAGGTTAAAGAGTATTGTTTAATAAAAAAATATAAATTATTTCAGCCTTATAAAATATCTGATATTGAAGAAGAACTGAAAATTTTAAAACCTGATTTCATGTTAACTTGTGCGTATGGACAAATTATTAGTGATTCAATTTTAAAATTATTTAAAAATTGTATAAACACTCATGCAAGCATTTTGCCAAAATATCGTGGAGGAAGCCCAATTCAATTTGCAATTATGAATGGAGAAAAAAAGACTGGTATTTCTCTAATGAAAATGGTTAAAAAAATGGATGCTGGAGAAGTTTATTATCAAGAAGAAATAGATATTGATGAAACTGACGATTCAGCTACTTTATTTGCAAAAATGGCAGTTCTTGGTAAAAAAATGATTAAAGAAAAATTAATGGATATATTTGATGGTAAAATAGTTGGACAAAAACAAGATGAAAGTAAAGTTACTTTTGCATATAATTTAAAAAATGAAGAAGAAAAAATAAATTGAAATAAATCTGCAAATGAAATTAATAATTTTATAAGAGCTTTAAGTCCAAAACCAATAGCTTTTACTTTCTTCAATAGGGAAAGAATAAAAATTAAAAAGGCTAGAGTTATTAAGAATGAAGAAAATTTAGTAACAATTGATAAAATATTTTTAAATGGTGAAGTTATTTTAATAGACAAAGAAGGTATTGTAGTAAATACAGGAAATGGCTATTTAAAAATTTTAGAGTTACAAAGACAAGGAAAAAATATGGTTAAAGCTTCTACTTTTTATGATCCTAATTCAGCAATAAAAATAGGAACAAAATTTGAATAATTAAATAAAAATATTAGAATCTTTTTATTTAAAATTAATCTATTATTAGTAACATATTATACGTTGAAAAACGAAACAAAAATAAGTAAGAATACTTAAAAACTAAGGAGAATAAATTAATAATTTAATTTATTTTTTTATATTCTTTTATTGTTGTATTCATTTATATAGGATTCAGTCTTTTATGCATTTAAGAAAAGTAATGTAATTTTCTAAATTCTTTATTTTTTCTTCAATTTCTGTTAATTTATCAATAATATTATTTCTCTCAGTCAATAACATTAATTATATGATATTCAAAAGATTTATATTTGATATTATTAATTGCAGTTTTTATTATATTTAAAAATATTTTTCTCATAATTGGACTGTATTTAGTTTTTATAAAAAAAGATATAATTATTTATTTTTAATAAATTCTTATTAAAAATAATAAAAAAGTATCTTTTTTTTATTAATATACCTTATAATAAATTTGTAAATAAAGTAAGTGCTTTTATAAATCAACATATTGGGTTGATGTTTCTACAATGTACCTATACATTTCTAAAGGCAAAAAAATGAAAGGAGTAAATTTTTTAATAGGAATTTTAAAAAATTTACTCCTTTTTTTAACAAATATAATAGCAAGTAGCTTATTTACACATAATCATTATGAAATATGTTCAAAAAAAACTTAAAGGAAGTTTTGAAAGGAAAAACAAAAATGAAAAAATTATTATCAGGATTAATGGCAGCAGCAGTTGTAGCATCAAGCTCATCAACTGTTATTGCATGTGGAAGTGGATCAAAAACTTGAAACGATATTTATTTAGTAACAGATGCAGGAAAAATAAATGATAAATCATTTAATGAATCTGGATTTGAAGCAGGAAATAAAATTATGGAAATGCTTAAAATAAATGAGGCTCGTGAAGCTGAAGGAAAATCTAAATATGATAGTATTGGTTATTATCAACCACCAACTGTAGATGATATTAGTAAAGGTTACAAAAATGCTAAAAAAGTTGGAGCTAAAACTTTAATTTTACCAGGATTTCACCATGCAGGTGATAATTTAGATCAAGCGTCAAAATTAATTAAAGAAAACAATGGAAATGCAATATTTTTAGATGGATCTCCAGTTGATTCAAAGGGACAAAAAATTTCAAACTCAGTTGGTTTCTTATTTAGAGCAGATATATCTGCATTTTATGCAGGAATGTCTTCAATTATTTGATCAATAGCAAATGATAATTATAACTCAGATAATAACTTAATTCTTGCAACATTTGGAGGTACTCCAAATGGGTTAGCTGTTCAAAGTTTTATGCATGGTTATTTAGCTTCTATTCAAGTATATAATCAGTTAAAAAGTGAAGATGCTGGTAAAACAACAATCAAAAATCTCTTGAGAATTGCTAATTCAAAATTAACTGATGAAGAAGCTACAAATAAAATGGATGCTGTAAATGTAAAAAGAGCAAATTCACAATCAAATGTAAATAGTGGATCAGCTCAAACTGACTATTTTACAGGAACATTTAATGCTGGAGAAGGTAAAGACATTTCAACAAAATTGATAAATACTGATAAAGCAAATGTAGTAATGGGTGTTGCTGGTCCTCAAACAGGAGATTTACTTGGTGTAATAAAAGCAAATCCATCACAAAAAACAATGGTTGTTGGTGTTGATTCAGATCAAGTGAACGCTTACACAGACAGTAGTGATAAATTTATTACCTCTGCTGAAAAAGATTTAGTTGCTGCAACTATTGCTGGAGCTGCAAAAACAACATATCTAAATAATACTGATTTTGGAAAAAGTGCAAAAGATTATATTGATAAAGCTATTATAAATGATGACCAACAAAAAGAAATTGAAGCAAACAATGGTAGTTGAGCTGGTCAAGAAATTTACTTAAATGGAAAATTCTCATATAGTGAAAAAAATAAAGTAAACAAAAACTTACATGATGCTATTGAAGCAGCATTTAATGGAAATAATTTAATTGAAGCTTCAACTCATTATTTCACAAAATTAGCAAGCTCAGCAGATTGAAAAGTTACACTTGCAGATGCTGAAATTACTAAATATGTAAATACTGTTTTGAAAACAAATTAGTTACTTTATAAAATAAAATAATTTAATATTAATTAAAATGTACAGGATTAATTTTAAATTAGTCTTGTGCATTTTTAAGGAGTAGATAATATGAATAAATATGCTGTGGAAATGGAAAATATATCAATGATTTTTAATAATACAATCATTGCAAATAAAGATGTTAATTTCAGAGTTAAAAAAAATGAAATTCATGCCCTTGTTGGTGAAAATGGAGCGGGAAAATCAACTTTAATGTCAATATTGTTTGGTATTTATGAACCAACAGCTGGTCAAATAAAAATTAATGGAAAAGTGGAAATGATTTCAAATCCAATTAAAGCTTCCAAATTAGGAATAGGTATGGTACATCAACATTTTAAACTTGTTGATATTTTTCCTTTATGAAAAAATATTTCTTTGGGTTCAGAAGAATTATTAGCAAAAACTATAATAAATTCAAAAAAAATTAAAGAAGATATAAAAGAAATAATGGAGAAATATAACTTTAATGTAGATTTAAATCAAAAAGCAAGCTCAGCAACTGTTGGTGCTCAACAAAGAACAGAGATTTTAAAAATACTTTATAGGAATGCAGATATATTAGTTTTTGATGAACCAACTGCTGTTTTAACACCAGATGAAATTGATGGTCTATTACAAGTTATGAAAGAATTTCAAGCTGCAGGTAAAACTATTATTTTTATAACTCATAAAATGGCAGAAATTTGAAAAGTTGCAGACTCTGCTACAGTAATTAGAAAAGGGCAAGTTATTGATACTTTTGATATATCAAAAACCTCTCCTGAAGAATTAGCAGAAGCAATGGTTGGAAGAAAATTGGTGGACATAAAAAATGATTATTCTCAACCAAAAGAGGAAGTTGTTTTAAAAGTTGATAATATAAGTGTAAAAAAATCAAGTAATCATAAAATTATGGGGTTAAAAAATTTTAGTTTAAAAATTAGAGCTGGGGAAATTGTGGCTATAGCTGGTGTTGAAGGAAATGGTCAACAAGAGTTAGTTAATGCAATTACAGGTTTATCAAAATTAGAAGAGGGAAACATTTTTATAAAAGATAATAATATCTCAAAAGAGTCAATTGCAAATAGATATAAAAAATATAAAATGAGTCATATACCAGAAGATAGACATAAACATGGATTAGTTTTAGATCAAAACCTTTTAGAAAATATGGTTTTGCAAGATATCTCTACTAAAAAATTTAGTAAATATGGAATATTAAACTTTTCTGCAATTCAAACATATGGACAAAAAATTTTACTAAATTATGATGTAAGAAATGCACAATCAGGTTTTGCAATTGCAAGACAACTTTCAGGAGGAAATCAACAAAAAGCTATTGTAGGAAGAGAAATGACTCGTGAAAGTGATTTAATAATTATTTTTCAACCTACAAGAGGTTTAGATGTAGGATCAATAGAGTTTATTCATTCACAAATTTTAGAAGCTAAAAAAGAAGGTAAAGCAATTCTATTAGTCTCGTATGAATTATCTGAAGTAATGGCACTTGCAGATAGAATATTGGTAATTAACTCAGGTGAATTAGTGGGAGAATTACCTGGTAAAAATGTTAAAAAAGAAGAAATAGGTAAATTAATGTTAGGAAAGGGAGGTTAATATGGATTTTAAATTAAATAGATGATTAAGAAATCAGAAAATTAAAAGTAATTTAATAAATGAAAAAAATTTAGTAAAACTTAATTACTTTAAATCCTCTGTTATTGCTATTTTAATAGGTTTATTTATGGGAGCAATTATTGTTTTTGCTCAAAATTTTAATGGATTAAGTTTCATATTTACTTCTTTTGGTTATTCATTTGATTCAGATACAATTGATGAGACATTAAATTATTTTACAGTATTTATTTTTATGGGTCTTGGTCTTGCACTTGGTTTTAAAGTTGGACTATTTAATATGGGAGGTTCTGGACAAGCAATTTTGGGAATGGCTTTGGCTATAGCAATTATAGGTGCAAAAGCAAAAGCAGAAGGTCTAACTGATATTAAATATATTGATAAAAACTTTATAATAGTAATATTTTTAGTATTTATACTAAGTGGTGTTCTTATATCAACAATGGCTGGTCTATTTAAAGTATTTTTCAATATTCATGAAGTTGTAACTACTGTTATGCTAAATTGAATTGTTTGATATTTAGCAAGATGAATGTTGTTGGATACAAAATTAGGATGACCTGAATATTCCAAAGAACCAAATCATGCTTCACCTTCATTAAATCCAGACTGATTATCAATTGGTGATAATAATTGAATTCTTGGAATTATTTTGTCCTTATTATCAGTATCTATAATTTATTTATTACTTAAATTTACTACATTTGGTTATAAATTTAAAGTAGTTGGTAAACAACCTCAAGCAGCAATGTATGCAGGAATTAAAAATAGACAATATTTAATTTTAACAACTGCTTTACAAGGTTTATTTATTGGTTTAGGAGCTGTTTTTTATTGAGTTAATATAAAAAAAAGAATGACAGTTAACACAACTGATTTACCATCAATAGGTTTTGACGCAATACCAGTGGCTTTGGTTGCTTTTAACAATGTGCTTGCAATTGTTCCAATAGCATTAATTTGAGCAACATTAAAAGCAGGTTCAGATAGAGCAATTGGAGTTGACTTTATTGGATTATCTACTGAAACACCAAGTCTTATTTTTGGAATAATTATTTATTCATCAGCAATTTATATTTTATTTTTAAAATTTAGTCCTATAGAAAAAATAAAAACATATTTATTTGAACTTAAATGTTCTATATATCAAGATTTAAAATTGGAATCTAATATAAAAATAAGTGCTATTAAAAAAGAGATGAGAACTATTTTTAGTAGAAATGACATATTAGAAATTAAAGAACAAATTGAAAAACAAAAATCTGAGTTAAGATCTCTTAAAGAAAAAAATAAAAAATCCTTAAAAAATGAAACTGAAATAAATTCTAATAGTAAAGAACAAATTTTAGTTAAAGAAGAGTTTATTAAGAAATTAGAACTTCAACTAAAAGAAGAAATAAATAATTATGTTGGTATTTATAAGTCAAAAACTAAAATGATAAAAGGAGAACTTCTTTTAAATAGAAAATCTTTATTAGAAGAGTATGAAAATAATTCATATAAAGGTTTAAATAAAAAAGTTAAAAATGAATTGAGTTTAAAATATTTCTCTATTATGGATCAATTTGTTTTAATGCAAATTGAAAGAAATGAATTAGTTAAAAATTTAAAAAGAGAACTTAAATTAACTAAGGAACTTGATTCAAGAAATAATATAAAAGAACAAATTAAAGAGACTAGAGTTAGTTATGATAAAAAAGCTAAAGATATTATTAATGAATATAATAAATTAAAAAAATCTAAATTTGAAAAGTTAAAAGAAGCACAAAGAGAGGCTAAATTATATTTAAATGAAATTAATATTAAATTTGAAGATGTATTAAAAAATTCAAAATTAGATAACAAAACTGAATCATTAGAAATTAGTAAAATAAAAGATAATATAAATATTGTGGAAAATAAACTAAAATCTATAAACTTAGATAAAGAACAAAAAGAAACTCTAAACTCTGAACTGAGTCATTTAAAATTAGATTTAAAATCAGAAGTTTACAAAAACTCTATGAACAATAAAAGAAATAATCTAAAATTAAAAATAGAAAAATATAAACAAGAACTGGAGGTAGTTGATAAGTATGGCTGCTAGTTTGATGGAAAATTTCTCACTATATTTTGCAGTATTTGCATTAGCCGCAACGTCTGGTTTAATTGCTGAAAGATCTGGTGTTGTTAATGTTGGTATTGAAGGTTTTATGATTATTGGTGGATTATTAGCAAGTTTAGTTGGTTCTTCATTAGAGCCAATAGCAGGTAATGGATCACAAATAATTGCATTATTAGTTGGAGCATTATTCGGAGGATTATTATCTCTATTACATTCATTTGCTTCTATAAAATTAAAAGCAGATCAAATTGTTTCTGGTACAGCTATAAATCTACTTGCTCAAGGATTTGGATTATATATAGCAACTACTGGTTCAACATTTATTAATGGAAAATACACAATAATAGCGTTGGATTCATTAAATATTATTTCAATATATCTAATAATTACAATAATAATTACATTAAGTGCAGGTTTATATTTTACATTTACTAAGCCAGGAATGAGACATATAGCTGCTGGAGAAAATCCAAATGCTTTGGAAGCAGCAGGGGTTAATGTTATTAAGTATAGAGTACTAGCTGTATTTGTATCAGGTTGTATTGCAGCATTAGCTGGTGGAATTTATATAATAACAGTAAAAGGATCATACTTCCGTGGAACAGCTGATGGCTTTGGTTTCTTAGCATTAGCAATTATGATTGTTGGTCAATGAAGAATTAAATTTGTTGCAATTGCATCAGCAGCATTTGCTTTCTTCTTTGCTTTATCAAAGGTTTTACCATTATATACAAATTCTGGTTGACTAACACAAAATAAAAATTTATTTTTAGTTCTTCCTTTTGTATTATCTCTGGGGACAATGATTGTACTTTCTAAATGATCAAAACCACCAGCAGCAGTTGGTATACCATATGATAAATCGAAAAGATAACCTAAATTTAAATGGAGAAAATAAATCTTATATTTTTATAAATTAAAAGCACTAGTAAAAACTAGTGTTTTTAATTTATTATTTTTTTACTTTTTTAATGTTATGTCATTATAGTTCATCAATTTCACAATATATTTTTATTTAATTTTAATTTATATCAAAAAATAATTACTTTCATATAACTTAAAATTAATTAAGTTAATATCTACTAAATATTTACTTTTTTAGATATAATTTATTTATAAATACTAAAAGGAGATTAATAATGTCAGTAAACGATTTAAGACCTGGAAGCACATTCTTATATGATGGAAATATTTTTGTAGTTTTAGAAAACTCATTTTCTAAAACAGGAAGACAACAAGGAAAAGTAACAGTTAAAGTTAAAAATCTTAGAACTGGTGCTCGAGTTGAAATTACATTCACTGGTGGAGAAAAAGTAGAAAAAGCCTTAATTGAAAAAAAAGATATGCAATTTTTGTATAATGATGGAACAAATTGTGTATTAATGAATATTGAAACTTATGAACAAGTTGAAATTGCATCATCAAAATTAGACTGAGAACTTAAGTTTATTACTGATGGAATTATGGTTAAAATGACAGAATATAATGGTGAAATTTTAGGTATTACAATTCCTGAAAAAATTGAACTTACAATAGTTGAAGCAGAACCTGCAGTAAAAGGTGATACAACTAGTGGTGCTCAAAAAAAAGCAAAAGTTGAAACAGGATTAGAAATTACAGTTCCTTTATTTATTAAAGAGGGAGAAAAAGTTCTAATTAATACAACAGATGGTAAATATTCTGGAAGAGCAAATTAAAAATAGAATGGGAGAGATAATTAAATGTACATTTCTATAGAAAGAAACTCTAGAGGTTCTTTAGAGATTGATGAAAAATTACTAAGCAAAATAATTGAATTTGATGTTCGCTCAAATGCTAAGGGATTTAAAGATATCCAAGCCTCAGTAAGTATTCATCAAGAAACTAGTTTATTTATTGTTGTGAGAATTTATACTATGGAAAAGGGGTTATTTTTAATGGATGGTGTAAAAGTAACTTCAATAATTAATGATTCTATTCATAAAACTTTAGGAATTAAACCAAAAAATATAGCATTTGCATTTATAAAATAGGTCTAAAATGAGCCTATTTTTTTAGTACTATCTATTATAGTCTCTTATGCTATTAAAACGTTTAAAAATAGTGTATAATCATTTTGTATTTAAATGGAGGTACTTGGTATGGCGGCAGCTAAAAAAAATACTACAGGTAAAGAAACAATTAATAATAAAAAGCCTGCTACTAGTGAATATAAAAACCAAAAGTTTGGTCCAAAAGCATTAGCATTAATTAATAAATATAATTTACAAACAGATGATAATTATAAAAAATTAATTTCTTCATATGAAAGAATTAATTTATTACCAAAAAATGATCCAAGAAGACCTAATTTAGTTAGTTTATGAGAAGGAGAATTTAACAGAATTTTTAAAAATTTTTGAAATAATTTTGCAAATGGTCAAAAAAAGCAAGATGTTGGTGTTGCAGGTTGAAAAGATAGATTAAATATTAGAACAGTTGCAATGTCTCCAGATGAAAAAAGAAAAGATTTATTGTTAAAATTATCTCCTGGTGTTATTTCTACAAATAGAAATACTAAAGAAGATATTCTTTCAAGAGCAGGATATGTTAATCAAAATAGAACAGATCAATTTAATTTTACAGCAGTATCAAAAAGTGGACAAAATATTTATGAAATTGAAAACTTATTAAGTAGTACTGTAGAAGAAAAAACTATAAGTCAACCTACAAGCATTTTACAAAATGCTTTTACTGTTCCTCCAAAAAAAGAGATAATAGAAGAAGAAATTTCAAATTCTGCTTCTATTTCAACACCTTTTGTTGATGAAGAAACTGAAATAATGACTTCAAAAGTTGTACCAGATCCAAATTTATTAGAATTCATTAATGAAGGAAAAGCTTCATCTAAAATAAGTACAGAAGAAATAAAAAATTTGAAATTAGAAGAACAACAAAAAGAAGAAAAAAGCTTAAATTTAAAAAATGATTCTAAAGATGATAGCATGGAAGAATATGTTGCAAGAGAAAATATGACAAGAGAAGAGTTTAATAGAGAAAATAATATTCAAATAGATGAAAAACAAATTGAAATGGAGAATCAAAATTTAGCACCTATTGAATTAGGAAGCGATTTTTTTGAAAAACATTTAGTACAAAATCTAAACTCAAAAAAATATACTAAAGCTGATAAAGTACTTGCAAAAAGAGAATATACTATTAAAGATGAAGGAATTGATCCAGAAAAAAGAAATATTCTTTCAAAAGAAGGTTTTGAAATTAATATTGATGAAGATAAAACAGATTTATCAGGAAATAGATCATATGAATATAAAAACAATGTCTCTAGATCAAAACCATATCATGAAGAAAATCCAATAGGTTATTATCCAATGACTTATGATTTGACAAAAAGACCTATAATGCAAGAGTTAATTGATTCTCATGAAAGAGAAGGTCAAGTCTTCGATGAAATGAAAGAAAAAATTGAATTTTTAAGAGAATTAAGAAACGAACGTCGTCATAGAATTAATATGATGAAAATTGAACGTGCAAACAGTTATATTGTTGTGCGAGCAAGAAGGTTAGCAGAAGCTAGAGAATTAAGAAGATTAAAAAGACGTGAAGACTTTAATCTAAAATCAATGGAAAAAGCAGAAAGATTAAGAAGATTACAAGAACGTCAAAAATTAATTGAATTAATGAAAGAAAGACAGTTAAAAAGGTCTGAAGAAAAACGCGTAGCTGCAGTTTTAAAATTAGAACGTGAAAGACGTCTTGAAAGAGATGCGAAATATAGAACAGAAATTGCATCAATTGATGCTCAAATTAGATATGAACAAGAAATGATAAAGCGCACTGAATTAAAAATGAAAGCTTACTTCACAAAAGTTCATGATGACGAATTATTTGATAAATCATTAAAAGTTGCAAAATCAACTACTCCAAATTACAAGTCAATTGAAGATAAAGCAGAAATTATTCATCAATTAGAAGAGAAAAAACGTAAAGAAAGAGTAGAAAAAATAACTAAAAAATTTATAAAAAATATTAAATAGTTAAAATCATGGACAAGAATTTATTTAAACTTGTCCATTTTTTGCATAATCTCAATTAAATTTATATAAATAAAATGCAATTGATAGCATTTGAAAAGAAAGGAAGATAAATAATGACAAAAAAAAATCAGATAAAATCAGAGCAAGATTTTCAATTGTTATCACCAAAAGTAAAAAATAGAATTAAAAGCTTAATTGAAAAAAGATTAAATAGTCAAACTATAATGCTATTTGCAAAGGAATACGAAGGTTACGATTTTGAATTTAGAGAAACTTTAATTGAATACATTAATTATTTGATGAAAATTGAAAGAGAAAAATGATTAATTGAATCAAATTATTTATATGGGAAACATACTGGAAATGCGCTGCCAAATCCAAAACAAATTCACTTTAATGAAACTCAAGAAAATCTTAAGAAATTTCAAAATTATCTAAAAACTGATATAAATTCTGCTTTAAAAAAAGCAAATGATTTGGAAAAGCAAAAAAAAGTTATTCAGAGATCTGAAATTCTTAAATCATTTGAAGTTTCAAATTTAAATAAAGCTGAAACTCAGGAACCAAAAATACAACAAAAAAAAGAAGTTAAAAAAGAAAAAATAATTAATAAAGAATTAAAATCTGAAAATATAGCAAAAAAAGAAAAGAAAAATCAGAAAAAAGAATTAAGTTTATTAGATAAAATGCTTTTAGAAGCTAAAGCAAGAGAAGAAAAAGAGGCAAAAGAAGCAAAGGAATTAATAGAAAAGGAATTAAAAGCCAAAAAGCTTGAAGAAGAGAAAAAACTTGCAGAAGAAAGAAGGCTTGCTGAAGAGAAAAAACAAGAAGCTATTCGTAAAGCGGAATTAAAAAAGCAAAAGCTTTTGGAAAAAGAACAAAAAATTAAAGAACAAAAAATTAAGCAAAAAGATGAAAACTCTAAACAAATGAAATCAAAAACTATTAATCTAGCTGATATAAAACCAACTAATATAAAAAGAGATTATGAAAAAGAACAAGCTGAAAAAGAAAAACTATGAAGAGAATTATATGGAAAAGCGAGAAGCGAGTCATTAAAAAATAGGGAAAATGATAGTTTAAAAACAGAAAAATTTGTTGAATTTGATAAAAAACCAAATTTTGATCCGGAATTAGATATGCAAGAAACTTTTACAATCTTAGGTAATACTTTTTCAATGCAAGAAATTACAGATCCTAAAAATAAGTATTTTAATTTTTGATATAATTTGAAAAAAAGAACAGGAACATCAAATATAACTGTTTGATTGAATACTTATCCAAATAAACAAAAATTTATTCTTAGAAAAAGATTGAAATATCAAGAAAATAAGGGATTATGAGAAAAAATTAAATTAATTTTTGGTAATAATTCATCAAAATTAAAAGTAGCACAAAAACAAAGAACATTAAAAGAAGAAGCAAAAAAGAAAACCGAAATTAATAAAACTAAATAACTAAAACTTAAATATAGATAATATTTCTATAAATAAAAAAAGGGGTAAAATATGTATTATATATTTACAGTTTTAGGTTCTTTATTTTTGCTTTGATTAATAATAGTTTTAGTGATTCTTAAATTTTTAAAAATTAATAAAACAAAAAAAATTAGAGAAGATAAAAATCATTTTTTTTATATAAGTAAATCACATATTAAAGGAAAGTGATGAGCTTCAAATGATGGTAAATTGGAAAAAAAATGAATGGAAATTCAAGAATGTGATTTTGAAATTACTAATTTTGATTATAAGGAGAATTTCTCTAAAAGTTTTTTAAACTCTAATTTTAAAAAAACGAGACTTTTTTTATATAAAAAAATATCAAAAAAATTAGAGAATAAAGTTATAAAGAAAATTAAGTTCTATACAAATTGTCTTGAAAATATATGATTCAAAAAATACAAAATTATGTTCACAAATTTATTTAATGAAATATCTGGAATTACTGAAGCTCCAGAATATTTCTTTTATAAATATTATTTTAGATTTATTTCAGAAATTAGAAATAAAATGATTGAGAAACTTTGTCAAATAATAATACCTAGTATAATTGCAAATAATTTAACTGATGAGAATATAAAAAAAGAGCCAACATCAAATGAGTATGAGAAAAATATTTTTATTACTTTAGAAAAAATTTCATTATTTGCAGAAGAATTTTGAAATTTAATGAATAAAAAAAGAAAAGAAGAAATCAAAGAAAAAGGTCATGACTGAAAAGTTAATTATTCCTCTAAAAATGATTTTTTAAACTCTTTTTTACCAAAAGAAATGATAAAAAAGAAGATGCTAAGAGAAAATATAATTATTTTAGCAAAAAAATATAAAATTCCATTTGATGGTAATGTAATAGAAACTATTAAATTGTTAGAAAAGTATTCTAATAGTGTTGAAAAAGATGTAATTAATTCAATCAAATTATTGATATTTGCATATATAGATGAAATTAATTTTTAAAAGCACTTCACAAAAGTGTTTTTTTAATTTTTTTAAAGAATAATAGAGATTTCTAGTTTTGAATAAAATAATCTAATAATAAAATTAAGTAGTGTAATAAGCACTAAAATACTTAACAATATATAAATATTTGTTATAATTAAAAAGTTATATATAAAAGAGGAGAAATTTATATGAAATTTAGTGCAAAAAAGATTGCTGATAAAGGGCAAGGAATATGAATAGTTACAATAGAGGGAAAAGAATGGGAAGAAGCAATTAAAAAGGGAAAAAACAAAGTGTCTGCAAATATGGAAATACCAGGTTTTAGAAAAGGTAAAATACCAAAAGAAAAAATTGAGCAATATTTAACTCCTGTTAAATATTTAAATGCAGCTGTTCAATCAGTAATTGAAAAAGCTTGAAGCTTTGCAAAAGAGCAAAAAACTGATGTTGAACCATTTAACTCACCAGTACCCACACCAGCTAAAGTTAGTGAAAAAGAATGTGAATTGCATTTTGTATTTGATTTAAAGCCTGAAATCAAAATAGGAAATTATAAAGGAATAAAATCTAAGGATTTAGTTAAAGAAGAAATTAAAGTAGAAAAAGAAGATTTAGATAAAGCAATTGACCAATACAGAGAAAGATTTGTAATGGAGAAAGAAAAAGAAAAGGATCAAAAAATAGCAAAAGGTGACTCTGTTATTTTTGATTTTGAAGGATTTATTGATAATGTTGCTTTTAAGGGTGGAAAAGGTATTGACTTTAAATTAGTTATTGGAAGTGGACAAATGATTCCTGGCTTTGAAGATAAAATGATTGGTAAAACATTAGGAAAATCTTCAATTAATGTTACTTTTCCAGAAGATTACACTCCTGAATTAAGTGGAAAAAAAGCAGAATTTAAATTAGATATAAAAGAAATTAAAGAGAGAGTTTTACCTGCAAAAGATGATGAATTAGTAAAAGATTTAAATTTACCAGGAATTAAAACTTTTAAAGAGTTAGAAGCTAGTCTAAAAAAACAAATTCTTGAACAAAAATTAAGTCAAACTAAAAATATTTTTGTAAATAATGTAATAGATATAATAAGAAATGATTCAAAAATTGAAATTCCAAAATCTGCAATTAATAAGGAAATTGATAATTTATATAAAGAATTTGAAGCAAAAGTACAAAGCCAAAAACTTACTATAAAAGAATATAAAAAACAAACAGGTCTAAGCGATCAAGATATCAGAAATGAATTATTTCAAGATGCAAAAAAACGAATTGAAAGTTATTTAATTACAGATAAAGTAAGAAATACAGAAAAATTCGAAGTTTCAAAAGAGGATATGGAAGAAAAATATAACTCTCTAGCTAAAACTTTTGGAGTAGAACCAGATTTTATTAAAAACTCTTTAATACCTGAAGTACAAATTAAAGAAGAAATAATTAGAGAAAAAATAGTTGACTTTTTATATTCAAATAATGGTTAAAAAATACAAAGAATTGTATTTTTTTATTTTTTTAGCACTTAACATTTGCAAGTGCTAATAATTGTGTTATCATATTTTTGTACCTAAGGAGGAATAATATGAATAAAAAATTACCAATGCTAATAACACGTGGGAGTTATATTTATCCAACATTTGATCAAGTATTAGAAATTGGAAGAGATAAAACAACACTTGCTGTTAAAGAATCTGTGGAAAAATATGAAGGGAAAATTCTGATGGTTTCACAAAAAAAACCATTAGAAGATGAACCTAAAATTGAAGATTTATTTAAATTTGGAGTATTAGCAGAAATAAAAATAAAAAAAGAATGAAAAGATGGTACATTAACTGTAAATATAAAATCAATTTCACGTGCTGAAATCAGTGACATTGAATTAAAGGATTTTTATATTGCAAATTATAAAGTAAAAGATAGCTTAAAAAGCTCAAATAAAGAGGCATTAGATAAAATTACAAAATATATAAAAGCAATGATAAGTTCACAAGATGAATTTCCATCAGAAGTTGAAGAAATTATTAATTCAGCTCCAAAAGAAGTTGATCCAAACTTTATTGTTGATAGTGCAGCGAATTTAATGCCATTTATGCCTATTGAAAAAAAACAAGCAGTTCTTGAAGAATTAGATCCTGTTAAAAGAATTGAAATAATTAATGACTTTTTAGATGAAAAACGTCAATCAGCTGATATTGAATCATCAATTAGTAAAAAAATTAAATCAAGAGTTGATGAACAACAAAGAGAATTCTATTTAAGAGAAAAATTAAAAGCTATTAAAGAAGAATTAGGAGACATGGATGGTGAAGGAGATGACTTGGCAAAATACAAGAAACGCCTTGAAACAGAACCATTCCCAGAAAATATTAAAAAAAGAATATTATCAGAAATAGATAAATGTGAAGGTATGCCAGCAGCTTCATCAGAAGCAAATATTACAAGAACATATATTGATTGAATGATGCAAACTCCTTGATGACAAAAAACTGAAGAAAAAACTGATTTGAAGTTTGCAAAAAATATTTTAGACAAACATCATTATGGTTTGGAAAAAGTTAAAGAAAGAATAATTGAATATTTAGCTGTTAAACAAAATACTAACAAGGTTAAAGGACAAATAATTACTCTAGTAGGTCCTCCAGGAGTTGGTAAAACAAGTTTAGCAAAATCAATAGCTGAGTCAATGGGAAGAGAATTTATAAAAATGGCTCTTGGTGGAGTTAAAGATGAATCAGAAATTAGAGGTCACAGAAAAACTTATATAGGAGCTATGCCAGGTAGAGTAATACAAGGAATGAAAAAAGCAGGAGTTAAAAATCCAGTTTTCCTACTTGATGAAATTGATAAAATGGCAAGTGATTATAGAGGAGATCCGGCTTCAGCAATGTTAGAAGTATTAGATCCAGAACAAAACTCAAAATTTTCAGATCACTATTTAGAAGAAGAATATGATTTAAGTGATGTTGTATTTATTGCAACAGCAAACTATCCAGAAAATATTCCTGAAGCATTATATGATAGAATGGAAATTATTGAGCTTTCAAGTTATACTGAAATTGAAAAAATGAAAATTGCAGAAGAATATTTAATTCCAAAAGTATTAGATGATCATGCAGTTTCAAAAGATCAAGTAATTTTCACAAAAGACTCAATTAATGAAATTATTAAACATTATACTAGAGAAGCTGGGGTAAGGCAATTAGAAAGATGAATTGCATCAATTGTTAGAAAATTTGTTGTAAAAATGTTAAACAAGGAAATTGAAACTTTAAAAGTAACTCCAAAAGTAGTTAATGAATTATTGAAAAAACGTATTTTTGAACATACTGAAAAAGAAAATGAAGCACAAGTTGGAGTGGTTACAGGTCTTGCATATACTCAATTTGGTGGAGACATTTTACCAATAGAGGTTAATCATTTTCCAGGAAAAGGTGGTTTAGTACTAACTGGTAAACTTGGAGATGTTATGAAAGAATCTGCAACTATTGCTTATGACTTTGTTAAATCAAATTACAAAGCGTTTGGAATACCTAAAGAAGTATTCAATGAAAATGATATACATATTCACGTTCCTGAAGGAGCTGTTCCAAAAGATGGACCAAGTGCTGGAGTAACAATTACTACTGCAATTGTATCTGCTCTAACAAATAAACCAGTTCCAAAAGAAATTGGTATGACAGGTGAAATTACACTAAGAGGTTTAGTGTTTCCAATTGGGGGATTAAGAGAAAAATCAATATCAGCTCATAGAAGTGGATTGAAAAAAATCTTAATACCATTTAAAAATACAAAAGATATAGAAGATATTCCTGAAGAAGTTAGAAAAGAACTAGAAGTTGTTCCTGTTCAAAAATATTCAGAAGTATATAAAAATGTATTTGGAATAAAATTAAATGATTTAGTAAGAGAATTGCCTATATCAACTTCTTCAAAAGAAGAAACAAAAAAAACTCATTAATAATTTAAAAACAACTCTTTTTTAGGAGTTGTTTTTAAATTATTTGTGATAATATTTCAATATCAAAAAAATATGAAAGGAAAAAATAATATGGATCAATCGTTTAGTACAACAAATATGCCACTAAGTGATGCTAACATAACAAATCCCAAAGAAGATTCAAACGAATATATTCCAGATGATAAAGTTTATAAACTTGTTAAAGAAAAAAATAAACTTAAGTTTTCTTGAATTGTATTAATTTATGGATGAAAGTATAAAGCATTATTTCTAAGCGTTGTATTTGTAGTTACATTTAGTGCCTTTTTGGTAAGTTTAAATACTTTATTTTTAAGTTTGTACTTCAAGCAACAAGACAAGACAAAGTACATGGTCTTACTTGATACTGATGAATGGCTATAACAGCATCAGATCTTGTTTTACTTTATATATGTACTTATATTAGGAACTCTTGTTCAATTATGTTAGCTGTAAGAATAGAAGTTGAATTAAGAAATTTAACAATTAAAAGACTATTAGAACAAGATATTAGTTATTATTCAGATAAAAAAATTGGTAAATTAATGACAAAACTTGTTGGAGATACTAATGTAATAGGAAATGAAATTTCAGGTATGATAGCTTGAGTTATACAAGCACCTCTTGTAATTATAATGGGAACTGCAACTTTATTTATATTGCATTGACAAATGGCTTTAATTGCAAGTTTATGTGTTTATTCATTAGCTCTTTTAGTTATACTATTTTCATTAAGATACCAAAAAAAAGTTAAAACCGTAAGAGAAATAATTTCAGATGTTAATGGAGATGTTATTGACAGAATTGGAGCAATTAAATTAGTAAAAGCAACAGGAACTAGAAGATATGAAGAATCAAGACTTAATGCTTTGCATGAACCTTATATAAAAGCTTTTAAACCAATTTCAAGAATTGATGGAACCTTATTAGCTATGTTAATTGCATCTGATGTTCTTATAAATTTAATAATGATAACAGTTGCAATTTCATTTTTTAATAATTCAGATATGATGAATGTGACTTTACCAGCATTTATTTCCGCAATGGTTGGATTAACTCGTCCGTTATGACAAATATCTGCTATTATTCCTGGTCTTTCAAGAGTTGCTGCTTCTTCAAGACAAATCTATGAAGTAATTGAAAAGGAACCAATTTTAGATGACAAAGATAAAACAGGAATATTGTTCGATGAAAATATTGTAAAAATAGAGTTTAGACAAGTAAAATTTAATTATCCTGAAAAACCAGAAGTAAATATTGTTCCAGAATTAAATATTACTCTCGAAAAGGGAAAATCTTATGCTTTTGTTGGAGAAACTGGAAGTGGTAAATCAACTATTTCTAAACTGCTTTTAAGATTTTATGATCCAACAGAAGGATGCGTATTGGTAAATGACAAAAATATTAAAGATTTTAATTTAAAAAGTTATTTAAGTCATGTGGGTTATGTTGAACAAGAACCTTCAATAATTTTTGGAGATGTTTATGATAATGTAAGATATGGTCATTTTCAAGCAACAGATGAAGAAGTTCATGAAGCGTGTAAGAAAGCTCAAATAGATCAAATAATCAATAGTTGACCTTATGGATATCAAACAATTTTAGGAGAACGTGGATTGTTGTTGAGTGGTGGACAAAAACAAAGACTTGTTATTGCAAGAATTCTATTAAGAAATCCTGAATTGCTAATTTTGGATGAAGCAACAAGTGCTTTAGACAATATTGTTGAAAAAGAAATTCAAGCTCAATTAAATGAACTAATGAAAGAAAAAACATCAGTTATTATTGCTCACAGATTGAGTACAATTAAAGATGTAGATCAAATATTTGTTTTAGCTCCTGGTAAAGAAATTGTACAACAAGGAACTTACAAAGAGCTAATTAAAACAGCAGGTAAATTTAAAGATTTACACGATGCAGGAAATGCATAAAAAAACTAATCAAAATGATTAGTTTTTTTATGCTATTATTCAATTAGGAGTTGAAAAAATGAATAAACCTTTAAGTTTTCTATTAAGACCAAACTCTTTAAAAGATATAGTTGGACAATCTCATTTAATTAATAATAAATATGGAATAATCTCAAAAATGGTAGAAAAAAAATTCCTTACAAATTTAATTTTTTATGGCGCTCCTGGTGTGGGCAAAACTTCAATGGCAATATCAATTGCAAATGATTTAAATACTAAATATGAATTGTTTAATGCATCAAATGATAAAAAAGAAAAACTTCAAAAGTTGATTGATTCTTCAAATCATGAAGAACAATTAATATTAATAATTGATGAAATTCATAGAATGAATAGAAATATTCAAGATTATTTACTTGAATATATTGAATCTAAAAAAGTAATAGTTTTTTTAACAACCACTGAAAATCCTTATTTTGTAATAAATCCTGCTATTAGAAGTAGATGTACTATTTTAAAATTAAAAGAGATTAACTCAATAGAAATGAATGAAGGAATTAAAAGAATTTTAAAAAATAATAATATTTCTCTAAATATAGAAGAAAATGCATTTGAAAATCTTTGTGAACTTGCTAATGGAGATTTAAGAGTTGCTTTAAATGCTGTTGAGATTTTAACTACTCTTTATTCAGAACAAATAATAAATAGAGAGATTATATCTTCAATTTTTGATCAAGCAGTTACAAAAGGAACTGGAGAAGGAGATGAATATCATGATCTTAAATCTGCTCTTCAAAAATCAATAAGAGGAAGTGATGTTGATGCAGCACTTCATTATTGAGCTAGATTAATGCAAATAGGAGATTATGAAGTATTAATGAGAAGAATGACTATAATGGCCTATGAAGATATTGGATTGGCAAATCCAACGATTCCATTAAGAGTTTTTCAAGCCTGTCAAATTTTTAGACAAATTGGAATGCCTGAAGGAAGAATTATATTAGGATTGGCAATTATTGAAATGGCCTTAAGTGAGAAGTCTAATTCTTCATATATGGCGTTAGAAAAAGCTTTAGAAGATGTTCAACAGGGATTGGCACCTCCAATTCCTATGTATTTGAGAGATAATCACTATAAAAATGCTCATAAGCTTGGTAGTGGAATAGGGTATAAATATCCTCATAATTATGAAAATGATTGAGTAAATCAACAATATTTACCTGATGAAATAAAAGACATTAAATATTTCAACTTTAAACCACATAGTGCTTATGAAAAAAAATTAATGGAGATATACACAAGATTTACAAATAAAAATAAGTTAAAATAGTAAAAAGAAAGTGGGTTTTTAAATATGAAAACAAGTACACAATTAAGAGAAGAACTTGCAAGTCAAGGCTATATTTGAATGCCCAATTACAAAGATATATTAGAAAAAGTTTGATCCCAAACAGAAACTTATTTTGATGAAGATGAACAAGTTTTATCAGCACTTTGAGCCAGTTTTAAAAGATACGATGATGAAATGGTTGGAATTGTTTTTATTACAACAAAAAGAACATTTACTTTAGAAATTTTGGACAATGACACAAGTACACAAATAAGATATTTACCATTTGATTCATATTCACTTCAAAAAATTCAATTACAATTTTCTAAAAACTCTGGAGGATTACATTATGTTTCACTTCAAAATGACAGTTTTGGAAATGGAGTAACTTTTGCAACTCCAAGTAGGGAAGTTGCTCAACATTTTGTTGATACTTTATCTGGAAGAACAAATGGTGAAATTGAAATTCTTCCAGAATCAGATAATCCATTATTAGCAGAAAATGAAAAAAAACAAGTAATAGATGAAGATTTAAATAAGGCAAAAGAAAAAGTTCCTCATAAATTTGAAGAAAAACATGAAGAAATTAAACCTATGAAAGAACAAGATGGTTGAAAAAAAGCACCACCTGAAGCTAAAGATAAGATTGTTGAAATAAAAGTAGTTCCTCCTAAGAAAATTAAGCCGAAAAAAAATAAAAAAGGAGATTATGGATCAAAATGAAATTCTAATGTATGATTATTGTGATTTCTACTTCCTATATCTATTTTAGGATCCACTCTTGCTATTATTTTCTTAATTTAATAAAATAGATAATAATTTAGTGATATTTAAATATCATTTTTTTTTTTTTTTTTAAAAAAAAAAAAAAAACTAAACTATTAGTTTTTTAAAGTCTTCTAATGGAATTAATTTGTCATGAGTCTTGATTAATTTTTAAAATTAAATTAATTTCATAGCTAGTTTTTGTTTCATTAAAAGGATTAGTATAAACTGTTTTATAAGTTATCGATTGTTCTTTATCTGTATCAATATTTGAACTGCTTATTATTTTAGTTTCAAAGTTTGCATTTTCAATTAATTTTTTATAAATACTGTTAGATATATTATTATTTATTTTTATAATTTCTTGAAAGCCTCTTGTAAGGTCATCTAAAATCCCAATAGTTACTTGATCATCAAATATATTTTCCAATCCTAGTAATAAACTTTTATCTCTAAATAATGGTTTTTGATTTCCTTTTTCATCATAGTCTGTTCCTAAAGCATACATAGCTGCTTTTGTTCCCTTAATATTTTCATTAATGGGAGTAGAATTATCTAATTTTAAATACATTCCATTTTTAGAAGAAGAGATTATCATAGCCTGTAAAGCATTATAATTTCCTTGTTTATTTATACTACTTTCTTTATATTGAACAAAGTTATTTGAATTCTTATATCAAAGTGTATAATTATCTTTAACTAATTCATTAGATAAAATATTTAATCCATTTTTTAATTTATCTGTATTTATTTTTTGTTCATTTCCATTTGAAGCAATGTTTTTATATATTAAATCAATAATATCTGAAATTTTCATAGAGAGAACAATATTTTGATTAAAAATAGAGTATAAACTCATTTGCTTTCCAATTAAATCTTTAAAAATAGTTGAGTCTTCATCGTAAATTGCATTAAATAAATGCTTTAATTGTAATGTTGTTTTTTCACTTACTTTTAAATTAATTTCAATTCCTAAACTTTTTAAAATATTTAATACATTGTTTAATCCACTAAAATCTGAATTATATCCTAATCCATCTCCAATTACTCATCTAATTAAATTTCCTACTTGATCTGCTCCAAGACCTACAAAAGATCAACCTTGTCAAATGGCAATTCCTTTTCCTATACCATATAATAAAGAAGAATAATTATTTTTTGAGTTTGAACCAAATATAGGTGAACTTAATTTGTTTATTAAAGTCAATAAGTTAATATTTTCATCAATTTCAGTGACTTTTTTCCCAGAATTAAATAACATATAAAATAATTTCTGAAGTTGTTTTCCATTTGCATTAGTTTTTACGTTTGTTATCAATGACAGATTTTTAAAAAGCATTTTAATTTTAAACGAGTTATCTTTTAAAGTTTTGTTATTTAATTCTTTTAAAAAATTATCATTTGACTTAGTATAGTCAAATAATTTATCATCATTTTCTGGAATAAAATCTGAAAAATCTAAGGAAGATACATATTTTAAAAGTCCTGAGATTATAAATAAAATATCGCTAATATTTTCAGGAGACTTTATTATAGATAATAATAATGCTTTAAAATCAAAAGCTTTTAAATTTAGATTTAAACCCTTTAGAAAATCTCCCATTAAATCTCCTAAATCTTTATCAAAATTTTTACTTAAAGTATCATAAAGCTTTGAAGAATTAATAACTTTATTCTCTTGTTTTGTAACTCTTGCTAAAATATTATGAAAGCGATTTAATGAAGAGTTAATAATCATCTGTCCTGTTAAAACATCTTCACTTTTATCTTGTGTAAGTATTTTATTAACGAGTTCTTCCAATAATGTATCTAAACCGTTTAACTTTACTTCACTTATAAATTGTTTAACTCATTTTTCAATATTTTCTGTATCATTTTCTTTTCTTGAATTTTCAAAGTCAGAATTAAAGAAATTTTTTAATACTGCATAGAAAATATTTGATTGTTGTAGAAAACCAAGAGTTTCTGATAACGGTTCATTAGTTTTTTGAATTAAATTTGCAATTGATTTTAATGATTCACTATTTAGTGTTTCTGCTAGAGTATTTTTTAGATTTAATGTAGGCAATAAACCTTGTATTAAACCTGAAATACTTGGATGAATTCCACCATTTGTTTTCAACACACTAGAAAATAATATAAAATTGGAAGAGAAACTATCTAATGAACTTGTAGGTGATTTAACATTATTTGTTAAAAAATCTTTATTTAAATTATTTATTGAATCTCTATTTAAATCTTGGCTTCCAAAATATGTCTCATTTAAATTTTTCATTGTTGTTTGAGCATCTGTTTTGAAATTCGGTATAAGGTTATTAGATTTTGAATTAAGAATAAGTGAGTTTAAGTAATTTGAATCATAAGCAAGACCACTATTTGAATTTTGACTTGCATTTTGTATTATACTTCCTCTTAAAAGAGTTGAAGAAACTTGAACTAAATTATTAACCTTATTTTTTATTGATTGAACTTTATAATTTACCATACTACAAGATGCAACAGTAAAAGTTGATCCTGTTATACTCAAAATTGAAAATAGACTTAATAATTTTTTCATTTTATCCCCCAATATAACTATTATATTCTTATTTTTAATAAAAACTTTTTTAGACACTAAAATGTTTTTACTTTTCTAGTTTACTAAAATGTTTTTACTTTTCTAGGTTACTAAAATGTTTTTACTTTTCTTTTCAAAAAGATTTAGTCTTGAAAAAAAAAAAAAAAACAATAATATATTTAAATTAGTTGGTGGATAAAATAATGAAAAAATCTATATTTTTATATTTAAAACAAGGAATAAAAGGTATTATGAAAGTTAAAATACAATTCATTGTTATTATTATTTTAACTTTTTTAGCTACTTTTATTTTAAGTGCTACTTTATCATCAACAAAAAGAATTAGTGATGACTATAATAATACCATGTCAAAAATGGAGTCATTTAATTATGTTAATCAAAAAGTAGTGGATATTAATTCATCAGATGATATGACAACAGATATCATTGCTCCTATGGATATAATGAATAGTCAATTTATATACTCAATAGATTCAAATGATTTATCTAGTTTAAATAATAGAGCTCTTGAAATAAATTATAATTTAAGTTTCTTTCCAGAAAGTAATTTAAGTAATTATAATCAAGAGACTTTTTTAACCAAAACTTTTAAAGATCCTAAAGTTCAAGAAGCATTTCTTCTAATGATTTTAGACTCTGAATATTGATTTAGCATTTTTGAATACAACTATGATCCAATAAAAGATTTAATTCTTTGAGATCCTTATAGTGATATTAACTTTTTATCAGATGCTACTTCTTCTTCCTATTTAAAAAACAGTGTGGCTAATCAAAATAAAAAGGTTATTAGTACTTTTTATACTTATACTATTGAGACACTGAAACAAAATTATTTGGAAGATTTATTTTTAGATAACGAAAAAACTCCAAATTATATTAAAAATACTTTATTTTATGAACTTAAAAATAAAGGTTTTATAACTAGAGAAAATTTTAAAATGAATATGGCAAAATATGAATATGATCAAAATAATGAAAATATAATAAATATATCTGATAATGGAGACAATGATATTTATAATAGATATTTATATTTTTCTCTTGAATCATATTTGAGACAAATAATTAGAGCTACAACAGAATATCCAGCATATTGAATTAATCAAGCAATTATTGAATCAAATAAGTCAGAAAGAAAAGAAAGAGAAGATGTAGTTAAATCTTTTAATGAATTAAATAAGGATAATAAGATAGGTTTTAATTTTATCGAAAAAGAAAATATTGAACCAGGACCAAATGGAAAACCAAAATTAACTCAGAATTTAAAAAGTTTTGGAGTTACTATTTTTACATGAATATTTGGTTTTAACCCTGAAGTTGAAGAATTTGGAGATATCGAAACTAAAAAAGAATTTATAGTAAATAAAAATAATACACCTTGAAATAATAGTATTGATTTTTCTTTAAAATATAGTGATAATGAATATTTAAAAACTAAAAATGAAGTTTATGAAAAAGGAATGAGAGGAAGTCTTACTCAACTTGTTGTTACTAAAAAAAATAATAAAGTCATTAATGTGGACAAAACTTTTAGTACAAATTATTTAAAACATGTTGAATTTACAAGTATTGAAAAAGAACTTGGTGATTCATCTAATTTTGATGATCTAGATTATTATGAAAACTATACTTATGATCAAATAAATAGGATAAAAGGGTACTTTATAAAAAAAGAATTACTTGCAAAAATAACAAGTTTTGATTACAAAGTTAGAGCTGAAATTGAATATACTGATAATATCTCTGAAATTACTTACAGAATTGTTGATGTAGAAAATCAATGAAAAGATTTAATTACTTTATATGAAGGTAATTTACCTAGAACCACAAGTGAGATTCTTATCAATACACAATTTGCAAAGGCAAATAAATACAAAATAGGGGAAAATATAAAAATTGGGGGAAGTGACTTTGTTATTTCTGGTTTTGCATCAGATCCACTAACATATTATCCAATTGCAAATATTACAAACCCACTTCCAAATAGTAAAAAAAATGCGATTGTTTATGCCAATCAAAATAACTTAGCTAAAATAGTAACATCAAATTTAAACAAATCTACAACAAAAACTGTTTATTCTTTTTTGACTTATGAAAATCAATGAGATATACAAAATATGGAAAATGATCTTAATAAGTTTAAAGCATATTCATTTTCAAATACCATTGAAGTATATAATTCTTACTCATTTTTATCTGGAAAAACTAAATTCAATGATATTAATATAATAGATAATTACAAAGTTTTTTCTTCAAGTAATTTAAAATTGAATTGACTTATAGCACCTCAGATAATTTATGGTTTTAAAATTTTTTCTATAATTTTTTGTATTGTAATTTGTTTAATAGTAATATCAGCTACAGTTATTGCTATTAAAAAAACTGTAGAGCTAAATTCTGGAGAAATTGGTATACTAAAGGCAATGGGAGCAAGAACTTCAGATATTTCTTGATCATACTTATCATATGGAATAATTGTTACTTTATTTGTAATTCCTTTTGCTTGAATTATGGGTTCAATTGTTCAAGAAGTTATAGCAAAAGTATTTATAGAATTTGTTGGTGGTCGCTCCAGTATAGTCTTTTTTAGTCCAATAGCAATTGTTATTTCTATTTTAATTTTTGGAATACTATTATGTGTAGTTTCTTTTTTAACAGCTTTTATATTAATAAAAAAACCAACATTAGAGATAATTAATAAGTTAGAAAAAAATAAAAAGAATAATTGATTAAATCAATTAAAAAACTCAGCTGTTAAAAATAGATCTTTTTCAACAAGATTTAGTCTTGAACTTGCAGTTTCAGGATTTTCCAAAACTATTCTTTCAGCAACAACTGTGTATGTAGCTGGATTCTTAGTTTCTTTTGGTTTAACTATTCCAGGGCTTGTTCAAAATATTGTAGGTAGTTATTATAAAAATGTTCTTTATTCAAATTATTATGAAAATAGGGAGTTAATTGGTAATGCACCTTTGGCAAAAACTTCTTTATCTCCTACTAAGAAATTGGAGAATATGAAAAAAACTTAATGGATAGTAAATCTATTTTTGGCTCTGGAATTAACAGTATATCTAAAAATATAACAGATTTTGCACCTATACCAGATGCTTCAGCTATTCCTCAAATTCTACTTTCAGAAAATTCTAATCAACAATTAAGTGCAAAATGAGTTTATGATTCAATTTATGATTCAACAGAAGAACAATATAATGATTTATATCAAGAACAAAATTCAGTAATTTCAATTATTGCAAGTATACTTGGAAATAATATAAATCAATTAGTTGGTAAAGGAATTTCAATTGCAGACATACAGAAAATATTGGAGTGATTAATTCATTCTAATTTACCTGAATTTAAGGATCCAATAGGAAGTAATGAAGGAACTTTAAAGAGAATTAAAAAAATTGATAATCTATCAGAACTTTTAACAAATGGATTACCTCAATTATTGTCTAGTTTTATTAATGGCTCTGCAACAACTGAGGGTGAGTGAAAAGAACAAATTATAGAGATTATTATTTCTTAAACTCCAGCTTATATTAAACAATATGTTACAAAATCAGAAAATAGACTTAATAATTTTTTATTTGGATGACAGATAAATAAATATATACCAGGTGTTGATAATTTATTTACAAATCTCCAACTATTAACAAAAGATAATTTGGAATTAAATATTACAGGCTTACAAAAAACCCAAAATGCATATAAGATTTCTGATAAAATAAATGACAAATTATTTATTGATGATTATCAAGCTGAAATTTTAGAAAAAGTTTTAAATGATAAGCATATTTCAAGTGAAGAAGAATTAGATATTAAAACAATTTATAATTCGCAAAATAAAGAAATTACTATACCAGTTGTAGCAAATGATCAAACTGATTTCATTTTAAAAAATAATTGAGATAATTTATCAAATCCTTTAATTAATAAAACTAGATTAGTTTTAAGAAATGGTATGTTAAATATACCAAACCAAGCGTGAATGTACGATGATGGTGATTGAATGAGATACAATAAAATTCAAAAAAAAGATAGTGAAAATAGAGGTTATATAGAAATTGATTCTTTATCAACAAGTAAATTTACGTATGCTCCAATATTTGATCAAACTGGATTTAATTTAATCAATGAGCAAGAATATGGAGATAATATAAAACTTATGGATAATTCCTATGGTTTTTATAATTTAACTTCAGTTATTAGAGAAAATAAAGAAGAGTTAAATTTAGAAATAAGACCATATTATTCTTTTGACAATATTGTAATGTTTATTCCTAATTTCTATAAAAGTGATTTTGAAAATTTAAAACAAAATGGTAATGTAGATTCATCTAAGTGATGAAAAGATAATATTGCAGAAAAAGACGTTCCAAAAGTTACTAAAGAAGCTTGAAAAAAAGTAAATCCAAATATAACAGATGAGTATTTTGCAATAAAACCTTATTCTCTTTACTTTGATAATTCTGGGAAATATGAAAGAGAGTTAAGAAATTTATCTGGCTCTCCTGTTCAAAATATTACAAGTGGATATGATAATTATTTTTCAAGAAGCTTAAGAGATAATAATGGTCCAATAACTTTTGGAATTGTAAATATGAATTGATTACAAGGAAATAATATTAAATCTATTAAATTTAATAAAATTGATTCAATTGGTGTATATGGAAGTTCAATTATAATTGCAGATCAAGATATTGTTAATATCTTGAGTGGTTATAATATCTCTAAATATATTCCATTTAATTTGCAATATGAAGATTTAACAAAACCTATTGACAATTATACATACAATGATGTAAAAATTAATACTTATGATTATATTAATCCTATTGAATACTATAGTAGAGCTGAAAATCTAACAAAAAATGAATTAGTTTATGGAAGCAACGATTTTGAAAAAAGTATTCGTCCTAATATTTGATATACTGGTGTTCTTTCAAATTCTGAAGAACCTCATTTTATAACAACACAAGCTTCATTTAGTAGAAGTCAAAAATATGGTTCAGATACATTAAATGGAGCAAATTATGGTGCAAGTACTTTGGAAATTCAAAGTACAAAATTATTAAGTCAACAAAAGGCACTTATAAATCAATTATCCGTAATAATTTTGAGTATGACAACAGTTGCAATTACGTTACTCATAATTATTATGATTTTAACTGTTACTTTAATTAATGATTTATATGTAAATCAATATAAAAAATTTATGATTGTTATGAAATCCTTGGGATATTCAAATTGAAAAATTATTAACTATACATTTGGAACTGTAACAATTCTTTCTTTTATATTCTATATTTTAGGAGTATTTACTAATTTTGCTGTAATAGCAATTGGATTTAATATTATAAGTCGTCAATTAGGTTCAATTCCTTTTGGATTAACATGGTGAACTCCAATTGTTGCTATTTTACTTGTATTTGGTGCATTTTTTATCTCAATTGCAATTACAACAAGAAAAATAAGAAGCGAATCACCATCAGTATTAATGAAATAAAAATTTTTACAAATATGTTATAATTTATTTAATTATGAAGGAAGTCTTAAAATGAGTGAAAAAGTATATCAGTTAAGTTCTGATCAAATAGGAGTAGTAAATTTTCCTGAACCTTGATTATTAGCTCACTTTGAAATAGAAGGAGAACTAGAACCTTTTCAAATATTTTTCCCTTCTTTAACAGAAGGTGTACAAAATTTCTCATCTTTTTTTGAAAAAAAAATTATTAATTATTGACTAACACAAGGTGACAAGGGCAAAATAAAAATCGATAGACTAAGAAATTATTTATTAACTACATGAATGAATCCAGGAATTGAAACAATAAAAGAGTTAATGTATCAAAATTATGGTAATTCAGAATTTAAAGATAAAACTGCTAAAGAATTAATTGAAAATGGCTATGATTTTATGGGGATAACTATTGGTCATATATGTCTAAAATATAATAAAAATCATTTTTATTATGATAAATTGCATGTTTCAATTAGAGCTGTAGATAAAATATTAGCTGTTAATTTCTGAACAAAAATTAAAGAAGAGGCAGTTAAGAATGCTAGTAATTTAGAAACAAAATAAAAATTCTCCAAGCATATAAAGTGCTATAAAGAGAATTTTTTAAATTCTTAAATTTTATATAAATAATAAAAAAATTATATTTTTAAAGGTGAGTTTATTTTATTGTTTTTAAAATATCTTTTTGTTTTATATTTAAAAATTTATTCATATTATTTGCTAAAACATAAATTGCAATTGCCTTATTGTGATATTTTGTCATTTTATTAGGACTAAAGTTAGAATAAGTTTCTATTACTTTATTTTTAATATCACAAAATACTACATCAACTTGCTCTTTGAAACCAAAAGAGTTAAAACCCTTAGAATAAACAAGCTTAAAACCATTTTCGCTAGAAAATTTTTCTTTAAATATTAAAGAACTAAATTTATTTGAAGGATTTCTAATTGTTCTTATGTTCATATCCAATATTTTTTGATTATGTATTAATTTTGAAGAATAATTTTCTTTAAAAATATCTTTATTTTTATCTTTTCTAAATATTCGTGAAAAACTTATTATTTCTTTAATTGAAAGCATTAAAATCACCTAAATTTATTATAACTAAAAAATAGGAGTATAATAATAAAAAGAAAAGAGGGATAAATATGGCAAATGTAGCTATTTTTGTTGCTAATGGTTTTGAAGATACAGAAGTTGTAGCAACAGTTGATGTTTTAAGGAGAGCAGAAAAATTATTTAATGGAAGCTTTCCAATTGTAGATATTGTTTCAATAAGTGACTCTAAACAAGTAAAGGGATCTTGAAATATAGAAATAAAAGCTGATAAATTAATTAGTGAAATTGATTTTTCAAAATATGATTGTTTAATATTACCTGGTGGATTAGTTGGAGTAGAACATTTAAAAGAAAATGATGTATTAATGAGTGCAATTGAAAAACATGCTAAAGAAAATAAAGTTGTTGCAGCTATTTGTGCAGCACCTCAAATTTTAGGTAAATTAGAACTTGTAAATGGAATTGAAGTTACTCATTACCCAGGATGTACACAATATTTAGATAAAGCTATTAAAAAACCTCACATGTCAGCAATTGCTGATAAAAATATCATTACAGGAAGTTCAATTGGAGGAGCATTACAGTTTGCCTTACAAATTGTTGATCATTTCACTTCAACAGAGCAAATGTTAAAATTACATGAATCGTTAGTATTTAATTATTAATAACAATAATAACAAATTATATTATTAATTTTTAAAGTATTTCCGAGACAACTATTTGTTAATAGCAAAAGGCAAACTTTAAAAAGTTTGCTTTTTATTTAAAAAAATTAAATATATATTAAGTTTGGAGGTTGGGTGGGCTTGCGAAAGAAAGGATAAAATAATGAAAATATTATTATCACTTATAGCATCTGCTGGAATGACAGGAACTAGTGCGTCTGTTTTTGTTGAAAAAGCAAATTCATATACTCAAATGAAAGATAATCAAATTTTGATTGGTTATTGACATAACTTTGATGACGCAACAGGATATCAAGGAGGCAATGCGAAATATATTGATTTAACACAAGTTCCAGATCAATATGATGTTATTCAAGTATCATTTTTTAAATCTTATGGAGATGGACAAATTCCTACTTTTATTCCCTTAGTAGCCACACACCCAGAAATGAATCAAGACCAAAAAGATGATTTTTTTGCAAATGAAATAGAACAATTACATAAAAAAGGAAAAAAAGTTGTTCTTTCTCTTGGTGGAGCAGATGCTCATATAAATTTATATGAAAATCAAAAAGACGAATTTGTAGCTGAAATTTTAAGATTGGTTGATAGATTTGGTTTTGATGGAGTAGATATTGATTTAGAACAAAGTGCAATTGATGCAGCAGATAATCAAAATGTTATTCCCCAAGCTTTAATTGAGGTTAAAGAAACCTTAGCCAAAAAAAATAGAGAATTCATTATTTCAATGGCTCCAGAATTCCCATATTTAAAAGTAAATAAAATTGGAGCAAGTTATATTACATATTTAGAGAAATTAGAAGGATACTATGATTACATAAATCCACAGTTTTATAATCAAGCAGGTGATGGAATTAATGTTCAAGAAGAAGATAGACAAGAACTTGGATTAAATATTTATTGATTACCTCAAAATAATAATGAATTAAAATCAGAATTTTTATATCTTATTGCAAAATATATTGTAGAAGGTAAAGATAATTTTTATCAAATAGATGCAGATAAATTATTATGAGGTTTACCATCAAATGAAGATGCAGCAGCAAATGGTCAAATTCAAAAAGATGATATTAAAGATGCAACTCAATATTTAGTTGATAAAGATATCTATTTAAAAGGTCTTATGACTTGATCAATTAATTGAGATAAAAATTCAAATTGAATTTTTGCAAATTATTATATAAATGAATTTTATAAGTAATAAATAAAAAAATATTAATTTTTTAAATTTAACAGTATTAATAGTTTACTTAAAGTTTTGATTAATTTTAAATAAATCTCATATTTTATTAAAAATTAGTTATAATTAAATTGTCATATTTAATTAAAAGAAGGCGCAAGTCTTCTTTTCTATTTATTAAATAAAATTGACATGTTATTAAAGTTAAACAGGAGGATAAAAAACCATGATAGATGGTGCACAATTATTAGATGCTATTTATGAAATCGTACAAGATAAAAAAATTGATAAAGAAATTATTTTAGAAGGAATTAGAGAAGGTTTTCAAAAAGCTTATGAAAAATTCTTTGATCCAGAAGCTATTGTTAGAGTAGATATTGATCAAAATACAGGACAAATTAAAGTATTTAAAGAATTATCAGTTGTTCAAAAAATTGAAGATGAATGATTAGAAATAGGTTTAAATGCAGCGAAAGAAAAATATGGAGACAACGTTTCTATTGGAGATAATGTTTATGAACCAGTAGAATTTACAATGGAATTTTCTAAATTAGCAGTAATGCAAGTTGGACAAATTATTAAACAAAAAATTCGTGAAGGTGAAAAAAATAAAATTTATCAAGAATTCTTGTCAAAAAATCATGAAATTGTTGGTGGATTTGTAAAAGATATTACTGAAACTAGTTATTTAGTTGATGTTAACGGTTCAATTATTCCAATTTGAAATAAAAAAATGATTCCAGGAGAAAATTTTGAAATTGATCAAAGAATCTGCTTTTATATTGAAGAGGTTTCAAAAGATAATAAACACTCACAAATTCAAGCTTCAAGAATTCATCCTGAATTTTTATCAAGATTAATGGAAACAGAAGTTCCTGAAATTTTGGAAGGAATAGTTGAAGTTAAATCAGTTGCACGAGAGCCAGGACATAGAGCTAAAATAGCTGTTTTCTCACATGAAGAAGGAATCGATCCAATTGGAAGTTGTGTTGGAGCTTTAGGAAGTAGAATTAAAAATATTACTAAAGAATTAAATGGTGAAAAAATAGATGTAGTTTTATGAAATGAAGATACAAAAACTTTTGTAATGAATTCGTTAGCACCTGTTAAAGTAATTAGTATTGATATTAATGAAAGCAATAATGAATGTTTTATAGTTGTTCCAAATGAGCAATTATCATTGGCAATTGGGAAAAAAGGAATGGCAGCTAGATTAGTTGCAAATCTTGTAAATATGAAAATAAATATTTTCTCACTTGACAGTGCGAAAGAAAAAGAAATTGAAATTTTATGAAATGGAAATATTAGTGAAAAAGAACTAAATAATCCAGAATTTTTAAGTAAAGTTAATAAAAGAAGAGAAAAAACTTTAAAAAATAATGTAAAAGAAGATATTGTTCCTAAAAAAGAATCAGAAGAAGAAATTGTATTTGTAGAACAAGACAAATCAATTGATGAAATTCAAGCATCAATTGCAGCATTTGAAAGTCTAAATGATGATAATACTTTTGAATATGAAGAGAGTATTGGAAATGATGAAGATTATGATTCATATTACCAAAATTAATTTTTAAAAATGGCAAAAGACATAAATCTTAGAAAAGATGCTGCATCTAATAAGATGTATCCTAAAATAGAATTAATAAGAATTGTTAAAAATAAGAATGGTGAAGTTTTTATTGATAATACTAAAAAAGCTAATGGTAGAGGAGCTTATATAAGACCAACATTAGAAGCTGTTGAAAGAGTTAAAAAAACTAAAGCTTTAGAAAGAAATTTAAAAACCACTTTAAATAATGAATTTTATGAAAAACTTATAGATGAGGTAAAATTAAATTGGGATTAGATTTGGATAAAATATTAGGTTCATTAGGAATAATTTCATCTACTGGTAAATTGATATATGGAAGTAAACTTTTTGATCAAATTAAAAGTCAAAAAGTTAAAATTATATTTACAACTTCTGATATGGGAAAATCTCAATTAAAAAAAATTAATGATAAAGCTAATTTCTATAATGTAAAAATTATTAATAACTTATTTGACTCTGAAAAGTTAAGTAAGGCAATTGGAAAAACTAATATCAAAAGTGTTGGTGTTAGTGATGAAAATTTTGTAAAGTTACTTCTAAATAAAATTGAATAAGAAGGGAGATGTAGTTATGGCAAAAAAAATTAAAGCAGATAGTAATAACAATAAAATACAAGCCAAAAACAAATCCAAAGCACATAGTGCTAATTTAAAAAATCAATTAAAACAAACGACTGAAACAGGGTTGATTGATGGAGTTTTTGTTTACACAGAACCATTATCTATAGCAGATTTTGCTAAAAAATTAAATAAAGGTCCTGCAGAAATTGTAAAGTGATTTTTCATAAATGGCTCAATGGTGACACAAAATCAAATTCTTTCAGAAGAACAAATGGGGGAATTGTGTATAGAGTTTGGTTATGACTTTAAAAAAGAAACATCAGTTACAAAAGAAAATATTTTTGAAACTTTTAATGAAAAAGATGATCCAAAGGATTTAAAAGAAAAACCCCCAATTGTTACAATTATGGGACATGTTGATCATGGTAAAACTACTTTATTAGATTCAATAAGAAATGCAAATGTTACAGATGGTGAATTTGGTGGGATCACTCAACATATTGGAGCTTATCAAACAACAATTAAAAATAATAAAATAACTTTTATTGATACTCCTGGTCACGAAGCATTTACAGAAATGAGAGCAAGAGGAAGTGAAGTAACAGATATTGTAATTTTAGTTGTTGCAGCAGATGATGGAGTTATGCCTCAAACAGAAGAAGCTATTGACCATGCAAAAGCAGCAGATGTGCCAATTATAGTATTTGTAAACAAAACAGATAAACCTGGAGCAGATCCAAGTAAAGTAAAAATGGAATTAATGAATTATGGTATTGTAGCAGAAGAGTATGGTGGAGATATTCCATTTATTGAAGGTTCTGCAAAATCAAAAATTGGTTTAGATAACTTATTAGAAACAATTTTATTGATCTCAGAACTTAAAGATCTAAAAGCAAATCCTAATAAATTTGCTCGTGGAACAGTTATTGAAGCAAAACTAGACAAAAATAGAGGTCCAATATCTACAATTCTTGTTCAAGAAGGAACTTTAAGAATGAGAGATATACTTATTGCTGGGGGAACTTTTGGGACTGTTAAAGATTTAGAAAATGAAAATAAAACTAAATTAAAAGAAGTTTTACCAGGACAGCCAGCTGTTGTTATAGGTTTAAATGAAGTTCCAAAAGCAGGAGATAAATTTATTGTTGTTGTTGAAGAAAAAATGGCAAGAGATATTGCTAAAGCTCAATTTGAAAAGCAACAAAATGAAGCAAGACAAAAAAATCAAACATTTACTTTAGATTCAATTAAACATAAAATTGAGTCTGGTGAACTAAAATCAATTAATATTATTTTAAAAGCAGATACACAAGGAACTGTTGAAGCTGTTAGAAACTCAATGCTAAAAATTAATATTGAAGGTGTAAAAATTAATGTTATTAGAGCAACTGTGGGTGCAATTTCAATAAGTGATGTTACATTAGCGTTAGCATCTGATGCTTTAATTTATGGATTCAATGTTAGACCAACTGCACAAGTTAGACAAAAAGCAGAAGAGGATGGAGTTGATATAAGACTTCACAATATCATTTATAAATTAATTGAAGAAATTGCAGAAGCTGCAACAGGTATGCTTGATCCTGTTTTTGAAGAAAAATCACTTGGAGAAGCTGAAGTAAGACAATTATTTAAACATTCACAAGTGGGAACAATTGCAGGATGTAGAGTCATGAGTGGAGTAATACCGCGTGCTTCTAAAGTACATGTTTTACGTGATGGAATAGTTGTTTATACTGGAGAATTATCATCATTAAAAAATAAAAAAGATGATATTAAAGAAGCAAAAGAAGGCGCAGAGTGCGGACTTACAATTAAAAACTTTAATGATTTGAAAGAAAATGATATTATAGAAGCATATAGGATAGAAGAGGTGAAATAGTTATGGCAAAGGATATTAAAATTGAAAGAAATCAGTCAACTATTTTAAGAGAGTTAAATCTAATTTTACAAAGAGAATTTCCTGATTGTGAATATTTAAATTCATTAACAATTCATGAAGTAAGATTAACAAATGATATGAGTCATGCTAAAGTGTTTTATTCATTTTTGGATTCATCAGCAGACCAAAAAGCTGTTCAAGCTGAAATTAATGAAAATTTAAAAGAAATTAGAATGATTTTAGCAAGTAAAGTTGAAATGAGAAATGTTCCTGAATTAACATTTGAATATGATAAAACTTTAGAAAATGCTAATAAAATTGAAGAAATTTTAAAAGAAATTAAATAAAAAAATCTGCAAAATATGCAGATTTTTTTATTTAATTAGCAATTTTTCAGTTAATAATTGAATTCTATTAGTTGTGAGAGTGAATAAAACAATTGCAAATAAATCAAACACCATAAAGGCCAGTCAAGAATTTATAAATTGTATAAATCCGTATACTGTTCCAAATTCAATATACATTCTTATAAAACTTAGAAATGCTGAACTTAATGGTCCAAAAATAAATACTAAGAGTCCTGAGAATATAAGAGATAAATTTCTATTTAAAGAACGCTCTTTACTATAAACTCGAAAAATCTTATCGTACATTAATCAAAACAGTACTACTCAAATTGCTAATCCTATTCCAGATGTGAATCTAAATAATGGACTCATACCTCAGATTAGAAATTGTAGTAAACCATCTAACAAACCTATTATCATACCCCAGTATATACCTACCACTTGAAAGCTTATAGCAATAACAAAGTATTTTAAGACAAATCCCACGTTTACTCCAGTTATCACTAGAGGAATAATGACATTTATCATACTAACAGCTGTGGACATACTTAGTAACAAACTGACAAGAGTTATTTTTAGAGTCTCACTCTTAAACCTTGCGCGTTTGTTTGTTTTGTTAAGTTTGCTGATTTCATAGTCAATATCTATTTGATCAAAGTTAGTGATCAAATTAGATTCCTGACTATTCTCATCAGTTTTCTTCATCGGTTAATTTCTCCTTCTAAACAAACATTTGTGTAGAATTCAATATATATTCACCTCATCTAATATTATATTATAATATATAAAGAATTGGAGAATATTTATGAATAGTTTCTTTTTAAAAAAAATTAATTCTAATGTTTTTGAAATTGAAAATGAAGATTTTCATCACATCAAAAATGTAATAAAGTTAAAAATTAACGAACAAATTATATGTGTATATGAAAATCAAAAGTATTTATGTACTATTAGTGATATTTTAGAAAACTCATGTTTAGCTAAAATAATTTCAAAAATTAACTTCTCACAAAAAAAATATAAAGTAAATTTAATTATTGGTTTAATTCGAGAACAAAAATGAGATTTTGTTCTTCAAAAAGCCACTGAATTGGGAGTGGACACTATTATTCCTGTTGAGTTTAAAAGAAATGTAGTGAAAATTGATCCTAAAAAACAAGAAAGTAAAATTAATAGATGAGAGTCAATTTGTTCTAGTGCTGCAAAACAATCAAAAAGAAATAGTATTCCCGAAATAATGAATATAGTTAAAGATTTATCTCAGTTAACTAAATATAAAGCAGATTTAAATTTAGTTTGTTGAGAAGAGGAAAAAAATAATTTTATTAAAAATGAATTTAAAAAGAAATTTAAAACAGTAAATATAGTAATTGGCCCAGAAGGAGGAATATCCTCTGATGAGATAGTTAAACTAAAATCTATGGGATATATTATGGTTAATTTGGGTGATAATATAATGAGAGCAGAAACAGTTCCATTGTTTCTATTAAGTTGTCTAAATTATGAAAAAGAGGTTTAAATTATGAAAGAAAATTTTAGTAAAATGATTACATCTGATTTAAAAAAAATTAATAATCAAATTCAGACCAATTCCATTGATAAAGATTTAAAAATCTTTATTAATAAAAATATAAATTTTATTAAAAGAAAACTCAAAGATTTGGTTCAAATTAAAACCCATGGTTCATATGCTACAGGACAAATATATAAATTTGAAAAAATATTAAATATTGATTTATTAGCAGTTAAATATGTTAAAAATAGTACTTATAATCTATATGAAAATGAGATTGAAACAGAAAATCATATAGATAACTGTTTAATTTGTAAAACAAATGAAAAAATTTATAACATTCTTGTAGAACTTTATAACATTTCTGAGGATGTGAAAATTATATGAAATGAAAAGAAAACTATAAATTCTAGTTTAACAGAACCAACTATTTTTAAAGACTCATTAAAAATTGAATTTTACAAAGAAGAACAGTTAGGGTTTTCTATATTAATTAGAACTGTTATTAAACATAGTGAATATCCATTATTAATTTGTAGTAAAAAAATGTACAAAAGAAGTTTTACTTTAGAATATTTAAAAAAATTTAGAACCTTAAATAATCTTTTAATAAAAAAGCTTCAAATTCTATTTTATAATATATCAAAAAAATTTAGAAAAACTCTAACAAAAAAAGAGTTACTTATTTTAAAATTATTTATAATGTCAGATATTCAATATAGTTTGATAAAAAATATTAATCTACAAAAATGACTTGATTTCTCATTTAATTATTATTTTTTAAATAAAAAAAGTGTTGATAATATTTTGGATTCAAAAAACTTATATTATAAAAGACCTAAAAAGATATCAAAATTTTATAACTCCTTTAAACTGAAGAACTTAAAATGGGTTTTTGCTAAAAGTTATTCAAGTACAAAAGATTTTTTAAGTCAATATTTAGAATATTCAAAGAATTTTATTGCAAATAAAAGTGAATATCTAAAGGAAAATATCTATTTTTGATATGATTCTATTGCATATTTAAAAAATACAATAGGATCTTCAAATATTTCAATCAAAAAAGAAAATCAAAAATATGATAATTTAGATATTCAAATTTATTCAAAAACTATATATCCAACTGATAAAGAGAATGGATTATTCTTAATATTTTTACAATATTTTAATTTTGAAGTAGAATAGGATTATTATGAAATTAAATAAAGATATATGAAAATTTAATATTACTGTGAAAAAATTAACTTCTGAAAATAAAGAAATTTTTAAGAAAATAAATTTTTATTTTAATGAGCTAAAAACTCTATTTTCTGAAAATAGAATTTATTTAAAAAAAGTAGGGGATTTTTCATATAATTCTTATAAGGAAACACATAACAATTTCAATTTAGAAATTTGTGCCATAAAATTTATTACAAAATCAACATTTGATTTTAATAAATTTAATAATTTAATACTAGAAATTTCTAAAAAGTATAAAGAAATTCCTGAAATTCATATAAATAAAAACTATTTGAATTTAATTTTTAACTTTAGAAATAAAACTATAAATTTTAGAATTATTCCTATTAGTGCAAAAAAAACAAAAGAAAAATTAATTTGTAAGGTTAATAGAAATGGTAGAATTCAAGAAGATTTAATTTTAAATTTAACTTCAGATTTTAAAAATGCAAATAAACTAAGCTCTGGACTATTAATTTCATTAAAAAGAATTATAAATTACATAATGAATGGAGAATTTAATTATTCTTATGATATTGATTATCTATTATTAAGATGATTTTATGAATATATATCAAAAACATTAGAAAAATTCATTTTAAAAAAATATAATGAAAAAGAAATAGATTTAAATATTGAACAATTTATGAAAACTGAAAACTTTAGAAAATGAATTAAAAAAAATGTAAGCTTTTTAGATCTTACAAATTTTATCTTTTTAAAATTAGAATCAAAAAATACATATTATTTTAGTGAATTTGATTTCAAATATGAAGAAATATTTGAAGGAATATCTAGATATTCTATAAATACCAATTCAAATTTTAAACTACCTGTAAATTATTTATCAGAAATTAAACTATTTGATACAAATTTACTTGATCATAAAACTTATATTCAAAATAATCTATCTAATGAAAATGGCTTATCATTAGTATCGTGAGAAAAATTCAAAAATGAAAGACAAAGATACATAATATCTCCTGTAATAAAAACTGGAATTTCTAATTGACCAATGTTTCAAAAATGATTAACTGTGAAATCAAATGAACTATATGTAAAATTAAATTCAGATTTGAAATCAGAAATTAAAACTACAAAACAAAGAGAAGCAATGAGTGAATTAAATCAAATTGCAAATGAATGGTTGACCAAATATAGTTTAAAATTAAAATATTTGCAACCCTATTTTGATAAAAAATATCCATTTGTATCAAATTATAAAATTGAAGAATTAGTTTTATTAATTATCCAAACAATTGATAAAATTGATTCAAAGCAATGAATAATAAAAAATGATAATTAATAGTAATTATCATTATTGTATTTATTATTTAATAGAACATCAGTTCTCTTTTTAATGTAGTCTTTTTCAATTTTTCCAATTTCATGATATTTATCACGACTTGCTTTAATTCTTAATTTTTTAAGTTCTTCATCACAATAAACTCATGTTAGTCAAACTATATGGAAATGTCTTAAATATTTAATTTCTTTTTCACTGTACATTTCAAAACTTAATGCTTGAGCTTCTTTTTGAGCATAATCTATTCATTTTTGAGGATCAATATTTTCATTATATGCTTCTTTGGCAAGTGCTTGATATGATAATGCCTTTTTTACAATTATATCTTCTAAAGACTGAAGTGTATTTGCAATCTCTGTAACAACAGCTTGATCAAATTCATCATAAGATTTGAATTGATGTTTTGTTAAATAAAACATTTTAATGCTTAAATTACTTGCAGGATTAGCTCCACCACCTAAATTTTCTTTTTCTAAAATAATTTTAAATTCCGCTTCTATTTCTTTAACGAAATCTGATTTAATTCGCATAACTTCACCAATCTTCTCTCATAGTATTTATATTATAACACATTTTTTAAAAAAATTACTAGGTAAGAGTTAAAGCAGTTGTATAATATTATAAGCAAGAAACTGGAGGTTGTTATGATGGCAAATAAGTCAGGAATTTTCTTAATTAATAAACCACAAAACATAACATCAAATGACTTAATTCAAAAAATTAAAAAAAAATTAGGTATAGATAAAATAGGTCATGCAGGAACTTTAGATCCATTAGCAACGGGCTTAATGGTTATTTTAGTAAATCAAGCGACTAAGATTTCCAATTATCTTTTAAGCAGCGATAAAAGCTATGTTGTAACAATGAAGTTATTTGTTCAAACTGACTCACAAGATATTACTGGAAATATTGTTGAAGAAGAAACTTATAAAAAAATTTCAAAATCATTAGTTAAAGAAATTATAAAAAAATATAACGGATATATATATGATCAATATCCACCAGTGTATTCAGCTGTCAAAGTTGATGGTAAAAAACTATATGAATATGCAAGAAAAAATCAAGAAGTAGTTATAAAACCAAGAAAAGTTACGATAAAGGAATGCGAATTAATAGAATTCAATCAAAAACTTGGAACAATAAAGTTGAAAGTTAGATCAAGCAAAGGAACTTATATTAGAAGTTTAGTTTCTGATATTGCAAAAGATTTAGAAACTATTGCAACTGTTTCACAACTTGAACGAGTTAGTTCTGGAGGTTTTTTACTTGAAAATGCAAAAACTATTGAGGAAATTGAGTTCTCAGATTTAATTAATATGTATGATTCTTTAATGATAAATGAACATCCTATTGTTGAATACCATAGAGTAAGAGATATTAAGCAAGGAAAGACTATTACATTAACAGGAATTAATTATCCTATAGTTTTTATCATAGATGATCAAAAAACTGTTATTGCAATTTATAAACATATTGCACATGATCTATATAAATGTCAAAGGGGATTGTGAGATGAAATTCCTTTAGAACAATTAACAGAAGCTGAAAGGAACGGCTATTATGATTAAAATTAAAACATTTCTAAATAAGGAAGAGATGTTTGATTTTAATATTACCAATAATATAATATGTATTGGGTTTTTTGAAGGAATTCATAAAATGCATAAAAAAATTATTTTAGAGACTAAAAATATTTCAAAATTAGAAAAATCAACTTCATCAATAATTACTTTTTCAGAAAAAATATCAGATTTTCTTAATAAAAAGTCAAATAACTTTCAATCAAAAGAACATAAGTATAATTTAATTGAAAAGAAATATAATCCAGATTTTTTATTTGAAATTCAAGTAAATAATGAAATTATTAAAAAATCACCAGAAGAGTTTTGTGATTTTTTAAAAACTAAATTAAGTGTAAAGAAAATAGTTGTTGGTAGTGATTTTAGATTTGGCTTTAAAAATGAGGGAGATATAAATTTTCTTCAAAATTATTTTGGAAAATCAAATATTATAGTATTTGAAAGAGTTGTGGGAATTTCATCAACATTAATTAGAGAAAACATATCATTAGGAAATATTGATAAAGTCAAACAAATTTTAGGTGAGAATTTAACTGTTAGTTTAAAAAAAGTTGGAAAAAACAAGTATTTAATTCAAGATTTTAATATAACTTTAGCAAAAGGAGTATATTTAATTAAAATTCAAAAAGAGCTTCGAAAAGTTAAAATAATAGAAAATATAGTTCATTTTAATTATTTGAATGAGTTTTTAGAAATTGAAATTTTAGAAAAATTATAGTAATAGTAATTTTTTTTTGCTATAATTCTCTAGTATTGATGTTTTTACGTTGAAATGATTTACCCTAAATTATTTCTTTGTTTTAACAAATTCAATCAAGATTAAAAGGGGGATTTTAGACATGGTTTCTAAAACACAAATTGAAAATATAGTAAAAGAATATGGTTCAAATCAAAATGATACTGGTAAAGCAGAAGTTCAAATTGCAATTTTAACTAAAGATATTCAAAATTTAACTGAACATTTAAATATACATAAAAAAGATATTACTTCAAGAAGAAGTTTATTGAAAAAAGTGGCTCAAAGAAGACATTTATTGAACTTTTTATTTAAAAAAGATGTTGAAAGATACAAAACTATAATTGAAAAATTAAAAATTAGAAAATAAAATATAATTTTTAATTTTTTTAAGTTACATAAATATAAGTAGATAAGTTTTTAAAAATAATGTATAATAAAGGCATATTTTGATATAAAAAATAAATTTTTATCAAAATTTAATATTTTTTATTAGAAAGACGGTGTTACTACATGGCAACTGCAACAAAAAAACCAGCAGCTAAAAAAACTACTACTAAAAAACCAAATAAAACTGCTGTTAAAAAAGCTGCTTCAAATAAAAAAAGAGCAGAACACATTCAAACTAGAAAGAAACCTAGTGATCCAAAACCAGAAAGAATTATTAATAAAACTATCAAATTAACTGATGGTCAAGAAAAATTCATATGAGAAAAAGCAGATCCAGTTTCAGCAACAAATGCTTCTATTTATAGACAAGATGTAGCTGGAGCTATTTTGAGAGTTAGTGAACATGGACAAGCCTCAGAATTTGGTTGAGTTTTCAGTTTAATTGATCCAGAAGGAGAAACAGATGATGTAAATAACGTTGTTGCTATGCATTGAATGAATGCAAAAGTTAAACGTAAAGCATTAGAAAACTGAACAGCTGTAGTTACAGGTGGAAGAGATATAACAGGATTATTTAATCAGAAAAAAGAAGTTAAAATTCCTGGTATTCAATTAACAAAATCAAGAAAAACAGTTTTATTCCAATCATCAAGAGTGGAACCTAGAAAAGTTAATATTCAAATTAGAACAACAACTGGAAAAAAATAATAAAAAAACTCTATCTTATACATAGAGTTTTTTTATTATATAATAAATTTGTCCTTAGGGACACCAAGAATATTTGTTATTCTTTAAGTTTGCGTGAGATTTTAAAAACCGCTCAATAAATAAGTATTTCCTTTCTCATGCAATTTATAGCGGGTGGGAATATTTTTTTTTTTTTTTTGTTTATAGAAAGGTTGGAAAATTATGAATAAAATAATAGTAATAGTTGGACCAACCGCAAGTGGTAAAACAGACTTATCAATTAAATTAGCAAAAAAATTTAATGGAGAATGTATTAATTCAGATTCAACACAAATTTTTAAAGGAACAGATATAGCAACAAATAAGATAACAGAAGAAGAAATGCAAGGAATAAAACATCATTTAATTTCGATAAGAGAGGTCAATGAAAAATACTCAGTAGCAGACTTTCAAAAAGATGCTAGAGAAAAAATTGATGAAATATTGAAAAAAGGTAAGACTCCAATAATTGTTGGAGGAACTGGACTATATGTTAATGCTGTTTTAATGAACTACAATTTTGCAAATGAAGATCACATTGAGAATTTTGAAAAGAAGTATGATAATTTTTCAAATCAAGAGATTTGAAAAATTCTAAATTCAAAAGATAACAATGAAGCACAAAAAATTCATCCTAACAATAGAAATAGAGTAATTAGAGCATTAGAAATAATTGAAATTAATAAAGGTATTGAAAAAACAAAAATTATTAAAGATAATAAAAAATATTTTTACAATAATTTACTATTTATTGGATTATTTCCCCAAAGAGACAAATTATATAGTAAAATAAACAATAGGGTATTTATCTTGTCAAAAAAAGGACTTTTTAAAGAAATTGAAAATGCTTATAAAGCAAATAATTTCAATAAAAAAGCTCAAGCTCTTAAATGTATCGGGGGTCCAGAAATTATAAGATATCTTGAAAAAGAAATTACTTATGATGAATGTATAGAATTGATGCAGAAAAATAATAGGCATTATGCAAGAAGGCAATTAACTTGATTTAGAAATCAACTAGAAAATATCAAATGATTTGAACATGATTATGAAAATTATGATCAAATCACAGATGAAATAGTTGACTATATCGAACTAAATATTTAGTTTTTAAAATTAAATACAAGTTAGGAGACTTACTTATGTTATCTGTATACGAGCGTGTAGAGAACTTAATTAAGGACAATAAAAATACTACTTTTAAATTAATAGGAAAACAAATTCTTGCTGACTGATCAGTTGGAATTTTTAAAAGTCAAAATGAGATTAGTGAATCTTGTTTCGTATCTTTAGCAACAGTTACACAATTTGCAAAAGCATGTTTGTGTGAAGGTTATAAAGAACTTTCTATTAGATTAAAAGTTGAGTATGAAAATGTTATGCAAAATCAGGCAAAAAGTGTTATTGGAAATGAAACAGAACAAGTGGGAATGAGATCGGTCATTTGTCATTGAGTGAATGAAAATGAAAATTTTTTATTTGATTTAGCTAATAAAATTAATGAAAAAAGAAAAGTTTGAATTTGCCCATCATATCAATCAATGTATCCAGCTAAATTTTTAGAAGATGTGTTGATAAACATTGGAATTCAAACAAAAATAATTGATATGTCTGTTAACTTAGAAGTAGGAAAACATTTGGAATTTAATAATGAACTAATAATTATTTTACTAACAGGAAGAGATACTGAAACAGTTGTAATTGCTTTAGATTATCTTCTAAAAGGTAATAATGATATTTACATTATAACTACTCCAAGTAATATATCAGAACTTCCTCAAATAAGAGAATTAAAACATATGCTTGTAAATTTTCAAGATAATAACTTTTTTTATAAGTATAGATGTTATGCATTAATTACATTGTTCTTTGCATTAAGTGAAAAAATAAATTAAAAATATATAAATCTAAAAAAACAAAAAATGTTGTAAAAGTATTGACATCTGTAAAGCAATTATATATATTTATTAATGTAATTAATTTGCGGGTGTAGTTTAATGGTAGAACTTCAGCCTTCCAAGCTGACTGTGAGGGTTCGATTCCCTTCACCCGCTCCATTATGAAAATTCAAATCCCATATGGGATTTTTTTTATTTATAATTATAAATAGAATTTAAATAGGTGAGTAAATGAAAAATACTATTTTAAGAGATTTCAATGAGCAAAGAACTACTTTTTTTAGAAGTTTACTTTTTTTACTTATTGAATCAATATTGCCAGGTTTAACTATTTGACTAACTGTTGGATTTGATTTTAATTTTACATTAAACAATAAATTACCATCTCCAAATGTAGGTTATGTTGCATTGATTTGTACTATATATTTCATATATACATTTTTGTTAACTTATGTTTTTTATAAATTAAAATGACATGAAATAGATCATTTTACATTTGCTCCCTTAATTACTTTAGTTCTTATTTGTATTACTATGTTTGGCAGTTTCATGGGAAATAAAGGTTTGTGAATATTGGCAAAATTTATTTCTATATTATTAATTGTTGTTTTATTAACTCCTTTATTTGTATTTATAACAACTCTTGTTAGAAATAATGGACTTAAAAAAATTGAAGAGTTTGAAAAAGTATATGAAGCATATAAAAATGGTGAAATAATACCAAATAATAAACTTTTAAAAGCTCAAAGATATCAAGCATATTTAATAAAAAAACAAGCAAAAACTGAAGAACTTGAAAGATTTAAAATGGATCTTGATCAAAAAATAAAAGAAGAACTAGAAAATCAAGAAAGAAAATTAGAATTGAAAAAGCAAAAAATTATAAACAAACTGGATGAAAAAGAAAGAAAACAAAGAGAAAAACAGAAAGACTAATAGTTCTTTCTGTTTTTCAATCTATTTAATTTATTTTCATATATTGTTTTAAATTCTATATTATTTTGCTTTTCAAACATGAAATGAGCTCAAAAAGTTCATAATAAATCTTGATACTTAATCATTTTATTTAATGTATCTAATTCAATTGATGAAATTATTTTTTTTTCAATGCATTTATTTATAAAATATCTTATTAAATTCTCATCATCATTTAAAGTTTCAGTTATAAAACTTGCAAGATCAAAAAACTTATTATTCAACATTACATAATCATAATCAATAAAAATTAATTTATCTTTTTTTATTAAAATATTTCCTGGAACCAAATCGTTATGACTTAAAACTAAATTCAATTTATTAAATATTGATTCATATTGTTTTATTTCATTAATATAGTAATCATAAATTTCTAATTTATTTATTGTATTATTTTGAAAACTATTTAAAAAATTTATATATTCAAATTTTTTAATTTTATCTGAATTTATATTTAAATTATGCATTTCAATAATATTGTCAATAACCATATCTATTATTTTTTCATTTAATTTAACTTTCTCAAGTGACTTGTAATCTTTTAAAAAATTATATTGAGATATTAATTTATTTTTATGTCATCAGAAATTAATAGGCTTTAATAAACAATTTTGTTCTAGACTTTTTAATTGCTCTAAAAAATTGAATTCATTTTGTTTATCTAAATAAATATCATGAAAGGAAATAGATTCCTTTGTTAAAATATTATCTTTAACAGTAATATAATTTGTATATCCTTTAAATTCCATTTTATTCACCTCTTATTGCAATATTATTATAATATTAATTAGAACCTAAAAGGAGATAATTAAATGAAGGTTATATGATTTGCATCACAAAATGAAAATAAAATAAAAGAGGTTAAAGAAATGATTCCAGAAATGGAAGTTAAGTCTTTAAATGATCTAAATGATACTTTAGATATTCCTGAAAATGAACCAACTTTTGAAGAGAATGCAAGGTTTAAGGCAAAGACTTTATCAAAAATAGTTGATGGAATTATAATTGCAGATGACTCGGGATTAAGTATTTCAAATCTTAATAACTTTCCTGGAATTTATTCAGCACGTTGAGCAAATCCTGAAAAAGATTGAAATATTATAAATGAAATGCTTTTAGAAAAATTATTACAAAATGGACTTGTAAATGAAAAACAAAGAAAGGCATTTTTACATCTACTATAGTTTTTATTGATAAAGAGAAAGAAATTGAGAAAGTATTTACAGGAATTATTGATGGTACAATTGTATCTAAACAAATTGGAGAAAATGGTTTTGCCTATGATAAAATTTTTAAACCTGATAATTATGATAAAACTTTTGCACAAATGTCAAAAGAGGAGAAAAACTCAATCTCACATAGAAATATATCAATTGAAAAATTAAGAAATTATTTAAAAAATAATAATTATTTTTAAAGGAGTTAAATATGAGAAAAATTAATATAATTTTATTTGAACCAGAAATTGCAGATAATGTTGGAGCTATTATGAGAACTTGTGCTTTAACAAATTCAAAACTTCATTTAATTGAACCTTTTGGATTTATTTTTGATAAAAGAAACTTTGCAAGAAGTAGTGCAAATAATTTTGAAGGCTGTGAGTACTTTAGATATGATAACTGAGATCATTTTCTTGAATTAAATCAAAATCCTAATTTATTTTGTATGACAAGATATGGTAAAAAACCAATCAGTGATTTTGATTTTGCACAAATAAAAGATGAAATATTTATAATGTTTGGTAAGGAATCAACAGGAATTCCAAAAAGTATATTAAAAAATAATATAGAGAAATGTTTTAGAATACCAATGGTTGAAAGTGGAAGAAGCTTAAATATTGCAAATTCAATGGGAATTGCAAGTTATGAAGTTTTAAGACAATGAGATTATTTGAACTTATCAAAAGTTGAAGTTGAAAAGGGAGAAGACTATCTAGAAAGAGATTAATAAGTTATAATAAAACTTATATGTAAAGAGGAGGCGTACAATGAAATTTTCAGATTTTGGATTTAAAAAATTTATAAATGATGCATTAGAAGAAATAAGTTTTATTTATCCTACAAAGATTCAAGAAAAAGTTATTCCTCTTATAAAAAAACATAAGTCAGTAATAGCACAATCACATACAGGAACTGGAAAAACTCATTCTTTTTTATTGCCTATATTAAACAATATTAATTATGATGAAAACAATAAAATACAATGTCTAATTATTACTCCAACAAGAGAATTGGCTAGACAAATTTATGAAAATACTAAAGAACTTTTAAAATTCAATAATAAAGGAAATGTTGCTTTGTTTGTTGGTGGAGATGATATTGAAAAATCAATTCAAAATGTTAAAACAAAACAACCAACAATTGTTATAGGAACTCCCACAAGATTAAAAAAAATGTATGAAGAGGGTAATTTATTTATAACAACTGCAAAATATGTTGTTATTGATGAATGTGATATGATTTTTGATCTTGGTTTTATTGAAGAAGTAGATTTAATACTTTCAAAAATGAGCAAAGATGTTAATATATCTTTATTTTCTGCAACCATTAATAATGGTTTAAAACCTTTTTTGAAAAAGTATCTTTCAAACTCTATTTTTATTGAAAATATTGATTCTAATCCGACAAATAAAAATATAGAACATATTCTTATTTGAACAAAAAATAAAGAAAATAAAGATGTATTGAAAATAATAACAAATTCAATAAATCCCTATGTTTGTATGGTTTTCTTAAATAAGAAAGATCAAATAAAAGAAATAATAAGTTGATTAAATGAATTTGGAATTAAAAATGTAGGAGAAATACATGGTGATTTAGATTCAAGACAAAGAACAAATATGCAAAAAAGAATTCAAAGCGGAGAATTTAAATGGATTGTAGCTTCAGATGTTGCAGCTAGAGGTATTGATATTGATGGTGTAAGTCATATTATTTCAATTGATCTGCCAAAAGATCTTGATTACTATATTCATAGAAGTGGTAGAACAGGAAGAAACCAATATTCTGGTCAAAGTTATGTTTTATTTAACTCAACAAACCAACATCAAATTGATGAGTTAAAATCAAAGGGAATCTTATTTACAAACTTTAAACTTGTAAATAATCAATTACAAGAAGTAAATACAGTTAAAAAGAAAAAAGAATTTAATGCTGATTTACCAGTTAATATTGAAACTAAAAAAATTATTGATAAATATAAAGGTAAAAAAGTTAAACCAGGATATAAAAAACGAAGAAAAGCAGAGATTGATCAGATTAAAAAAGAAATTAGAAGAAAACATATTAAAGAATCAATTGCAAAAATAAAAAAGGATAAATATAAAAAACGTAGAGAAGAGCTATTTGAAAGTTAAAAAATAAAATATATTTTTAATTACATTAACTATATTGTTTTTTTGAAGAATTTTAACTATTATATAATTGTATTAAAACAAAAAAGGGGAAAAGTAAGTGAAAAAATTATTAAATTTATTAGGTGCTTTTGGACTTGTTGTTTCAACATCAACAGCAGTGATTGCATGTGGTACAAAACCAACAGAACCTGGAACTGGTTCAGATTCAGATTACTTAAAGTTAATTGAAGAATTCAAAAATGATTTGCAATTATTAACAGATAACTATTGAAAAGAAATTAATAGTAATTTTTTTGATATTACTAATAATAATGAAAGTTTATATACTTTTATAAATCAAAAAAATATTACTAATTTAGTAAAAGAAAATGGTGGTACATTAAAAGGTGATGTTTTAAGTGATGATAATAAAAAATATTTAATTTCTGATATTAATAAGATTTTAAATACTAAACAAATGGAAGATTACTATAATAACAATGTCAATAAAGAAAAATATGCTTTATTAATTGAAGATATAAATTTTTACACAGGTTTTGAACCAGATTGAAGTTCTTTAGAAATTAATTATACAGATGATGGATTAACTAATTTAAGAGAAAATAATTCAAGTTTTATGTCTTATATAAATTTAAATCTTAATTTAAAGTTTGTTTATAAGGATTCAAATAAGCAAGAAACTGAATATATTTTACCAAAAAGATTTATTTTCACATTAACATCAAATCAATTGTTAATAGATTCAATTAAAAACTTGGAAAAAAATATAGCTAATGATTATTATTTAAGTGGAGGCAAATATAGTTGAATTGATAAAGAAAAATATAATTTTTCTAATAAAGAAGATTTATCAAAAATTTTTAGTCCATCAAATGAAGATTTAAGAAGCATATATGAAAATGATGACAAAGGTTTTCAAATTGATATAATTAATTTTATGAAAGAGAATTATTTCAGAGATATAAATGGTGTTCCTTTAGAATTTCAAGGAAATATTATTTTTGATAAATTTTTAAGTCAAGACTCTGTTAAATCAAATTCAAGAAAAGATATGAGTTTAGCAAAGGCAGATGATTTAAAAACTTATAATACTATTTTTAGTAAAATGGAGAAAAATCAAAAAGCATTTTTATTTAATCAAGAAACAGATATAAATCAGGAAATGTATTCTTATTTAAAAGATGAATATTTAAAATTTTATGACTCATATAGTTCAAGAAATAAAAATAGTCTAGCTACTATAGAAAATAACTCAAATAAAAAATTATCTAGTGATAAGCAACAAGCTTTTGAAAACTCTATAGAAACTGGACAAGTTAAATTAAAAGGATTATCATTAAATGTCAGTTCAACATATGTTCATCCAATAAATGATTTATCAATATTTGTTTCATTTGCTGTTTCAAATAGTGAAACAAAAGAAAGCAGAAATGATTATAGAAAATCTGAATTATTTGGTGCTATGTATCATAATCTTCAATTAGGTATTAAAACATTTCAAGAAGTATTTGATATACAAGCTAGAAATGGAAACGATTCTAATTTACCAATAGCAAGATTTAGTGGTCGTGGAATATCTTCAAGTGGAGCATTAGATAATATATGAAATGGCATTAGAGTTAGTGGAAATCAATATTATACTAATCTTAATGAGAGTTTAAATTTAAGAAGCAGTTCTTTAGATAAACACAGAGATGTTTTATTAGAAACAGGTCATCAAAGTTTATATAATTGAACTATTAATGGATCTATTCCAGTAGGTAGCTCTGAAATAAAAAAAACAACTTGAACATATATGCAAGTAAATAATAGTGGAGTAATAATAAAGGGTTATTATTATGGTGGAGATGAAAGCATATTTTGAAATTTCCAACAAAATTTTATTAATATAAATTTTAAAATAGATGGTATTTGAAAACAAAGAAACTCTGTGATAATTGAAAAAACAAATAAAACTACACGTTCAAATGGAAATTAAGAATGATTTTATATAAATCAATTCCATTTAGGATATTATTATTATTTAATATTAAAAATATATTTAGCGAATTAGTATTTTTGATATTAAATTTTATTTTATTACTTGCTTCTAGTGCATTTGGTTTTATTTCAAGTTTTTATAATGATGGTTCTTCATTAGTTAAAGGTTTTAACTTCTATGTTTTATTTTATTTATCTTGTTTACTATTTATTTTAATTTTAAGAATGGTTCAATTTTTTTATCATAATAAAATTGAAGATAAAACTATATATATAACATTATCAAATCAAGTATCAAGAACAAAGTTATTTTTAACTCAATGATTTTTAATGTTATTAATTTGTTGAATTAATATGGCTATTGCTTTTATTTTAATTAATTTATTAAATTTCTCATTAAATGGATTCACACTTGATTATCTTTTGCTAAGAATAACAACTACATTTTTAATATATGGAATTTTGATAAGCTTTTTCTTAATTAATTTTATTATTTTTCTAATATTCATTTTTTCCTTACAAACTACAACAATTATATGTACATTAATTTTATCATTTGTTTTTATTTCTAATTTACCAGTGAATTTTCAAAAATCAAATGAAAAAAATATGACTATTAAATTTAGTAACAATCAATTACTAACTATTTCAGATTTGTATGAGGTCTTTGATTTTCAAAAATATGTAAATGATAATCATATTAAATATAATTTTTTATCTAAATATATTAATGATAATTTTTTGGAGTACAAATTTGATTTTAATAGTTTCAATTCTAGTGAACAAAATATTAACAATAGAATCAATGATATATGAAGTTCATTAGGAATAGTAAATAAAGATTCAATTGAAATTGAACAATCTGATTTAACAATACGATCTTTACCTAAAAATGATTCTAATATTCCTGATACTTGAAAAGCAGGAAATAGTGCTTCAATTAATTTAACTTTGAAAAATACTTTTATAACTTTTGATGAGTTAAAAAACCTAATTGAAACAGAACAAGATACTACTAAAAAACAAATTTTGCAAGATTTGTATAATTTTTCATTATATATAGAAGATCAATATTCAAATATGCAAGTTGAAAAAGCAAATTTATTTAATGAATTTATCTTTATTGATGATGAAAAAAGTATAATAAAAAATACAACTACTAATTCAGAAATAAAACTTGATAAAAAATATTTAATATCTCTCTATAACTACGAATTAAATGGTACTTATAAAGAGGATTTCACTTTAGGCAATAATTCTAATACATATGAACTTGTTAGAAATAAACTAAATTTTCCTCTAATGACATCTGTAAGAATTTTAGAGCAGTATTTTATTAAATATACTAGTAGATATATATTGGCAACAGAGAAATCAGTAATTCTTAATGAAGGTGATTGAGGAAAATATGAAAAATCAAGAAATAATCTTCAAATTTACTTATATTTAAACTTTTTTAATGGTATGTGAACAAATTATACTTATAATGCTGGTTTTTCATATAATGATTTTTGATTCTATTCCTACTCAGAATCAAAAATAGTATTTGAAGAACAAAAAAATTTATTTCTGGGTTATACGGAATATAAATTAAATTTAAATGAAAAAAATCAAATTTATGCAGACACATATAAAAAAAATGTTAAACCTTATTTATATGTAGTTATTTTATTTGCTTTCTCTATGTTCAATTTAATTTTTACAATTTTTAAATTTAAAAGAAAAGATTTGAGTTAAAAAGGAAGAAAAACATGATAAAAAATATAGAAGTAATAAATTACATCAAAAAGTTTAAAAAAAATAAAGTAGGAAAATTCTCGTTTCAAGTTACAGAAGGAAAAATTACTGCTTTACTTGGATCTAGTGGTAGTGGTAAAACAGTTCTTATTAATTCAATAATAGGATGTTATAAAAAATATAGTGGAAATATTTTAATTAACAATAAATCAATTAAAAAAGCAAATGGCTTTAAAGAAAATCAAAATATTGGTTTTTATACTCAAATTGATTTCTCATTACAAAATTTTACACTGAAAAAGTATTTAACCAATATGTCATTAATTATGGGAATTAAAAGAAAATATGTTAAGGAAAAAATTAATTATTGAATAGACTTTTTTGATTTAACAGATTCAAAAGATAAAAAAGTTAAAAATTTTTCATGAGGAATGAAAAATCGTGTAAATCTTATTTTATGTTTATTAAAAGAACCTAATATTTTAATTTTAGATGAACCTGGAGCTAACTTAGATTCATATTGAACAAATAAAATTAAAAACTTGTTAATTAAATATAAAAAAGAGGGTAAAACAATAATAATTACTGCCCACAATATTGATGAAATTGCTGAAATAATAGATAATTATTTAATTATAGATAATGGTGAATTAATTTTCCAAGGTTCTAAAGAAGAACTTAATGTTTTTTCTAAGTATAAAGTATTTTTAAAAAGTAACTTTGATGTTGTAAAATTTAGAGAATTTTTATTAACAAGAGAAATACAATCTTTCAGATATGATGAAGAAGAAAATTCATTAGTTATAGCTGTAAAAAATTATAAACAACTTAATTATTTATTTTTATATTTAATAAAAAATAATTTACTATTAAAAAACCTAATAAAATTGCCTATTAATATGGAATCAATTCATAAAGCTTTAGAATCTAAAAAGTTAGAAAATGAAGTTTAAGAAACTACTAATTTCTGAGATAGAATTTATAGATCTTATTTTGAAAAAAGATATTAGAATTGTAAAAATAAAAATTCTAGACTTTTAAACAAGAGTTTAGGTTTTTTTTTTTTTTTTTGAAAAAACTAAACAATAATAGTTATTAATATTTCTAAAAAACATTAATAAAATGTTAGATATAATCTATTTTAATATAATTACAGCAAAAATATATTATTTTTATTTAAAATAAAAAAAGAAATTTAAATAAAAATTACTGAAATAATAGATAATTATTTAATTATAGAGAAAAGAACTATCTGGAAAACATAATAAAATATGTTACTTTAATATGTTATCAACTATTAAAACTTTAAAAGAGTGATAAAAAATAAATAAAATAAATGAAAAATTTCAAGGAGTAGAATACTTAATTCTTTAGATAATAAAGTAATAAAATATTTTTTTTATTTTTATTTAAGCAATACTTAGTTATTGTTTTATAATTATAAGTAAATGAGGTACATTATGGACATTACACAAAGAATTAAAAAATTAATTTCAGCAATTTCATATCAAGTTTATGAAAAAGAAACAATATTTAGACTTGCTATGCTAGCTTTACTTGGAGAAGAGTCAATATTCTTATTAGGTAAACCAGGGATTGCTAAATCATTGATTTCACGTAGATTAAAATTTGCAATTAAAGGTGGATCAAATTTTGAGTATTTAATGAGTAAATTTTCAACACCAGAAGAAATATATGGACCAATTGATTTAAGATTACTTAAAGAAGGTAAATATGTTAGAGTTGTTGATGGATATTTGCCATCAGCAAATGTTGGTTTTTTAGATGAAATTTGAAAAGCTGGTCCAAGTATTCAAAATACATTACTTACAATTATTAATGAAAAAATCTTTAGAAATGGTGGAACAGATATAAAAGTTCCATTAAAACTTTTAATTTCAGCTTCAAATGAATTACCTACAGAAGGTGAAGGACTAGAAGCTTTATTTGACCGTTTTATTATTAGATATATTGCTGAAGGATTAAAAAATGAGGAAAACTTTGAACAATTACTTGATGGAGAATCATCTCTTGATGTTGTTGTTGATCCTCAACTGCAAATTTCACTTGAAGAATTAGAAATTTGAAAAAAACAATCTAAGCAAGTTAAAATTAGTAGAAAATCATTAGATTTTATTCATTATTTTAGAAAAAAAATAGTTAAAGATACTAACGGACAAGCATATATTTCAGATAGACGTTGAAAAAAAATTTCTGGTTTAATGAAAACTAGTGCATTTTATAATGGGCGAGCAGAAACAGATATAGCTGATTTATTTGTTATTCCTTATTGTATTTGAGATAATGAAGAACAAGAAAAGCAATATTTTAAAATTTTTTTCCAAGCATTTTTAGAACAATTTGGATTAGAATGAAGAAATGAAAAGAAAAATTTAATGAATCAAATTGATTCTATTAATTCTCAAATTGGACAAATTGAAGCACAATATCTAAGACTTACACCATATACAGATCCTTTTAGAGGAGCTTTAAGTGGTACTTACTACTTCATTAATTTTACTGATGGGGGAGACACTTACAAATATTGTTTTATTTCAGCAGGTGATTGAAATAAAATTAGAAATTTACCAAATGAAGAGTTTGAAATTGATTTACATTTTGGACCAAATTTAAATAAATATGCAGGAAGTCAAAAAACTCTTGTAAAAGCTTATAAATCAGATCAAATTTTATTTGTGAGAGAAAATAAAAAATATTTATTACAAAATGACAATCCTACGGAATTTAATGATAGAATGTCTAGCTTAGCAGATAAAATTATTGATTTAGAAAAAGAATATAAAGAAATTTCGGCAAAAATGTTTAAAGAATATAAAAAATATATGAACATGAATTGTATCTTTTTCGAAGAAATTTATAATGAAAAAATAGCTGAAGCTTTAGATACAAAAACTAAAAAGCAATTAGAAAAAGAAAAAGAAGTAGAAAATGTTGATGAATTAATTAGCGATATTGATAATTTAGAATTTAATATGGAACTGTAATTAATTAAAAGAAGGTGACTATTATGCAGTTTGATCTAGATAAACCAATAAGTGAAATCAAGCAAGAAATTGAGAAACTTAGAAGAAAAGATCTTCATAATAGTGAATTTCTTGCTTTTAAAAAACAACATGAATATGCAGCAGAACAATTGGATGACAAAATCAATAATTTTTATTCTGCTTCTAATTTATCAGTAATTAAACAAATTAAATTACCTGAACCCATAAGAAAAGAAGTTATTTATTATAATTATATTTCTGAAAAATTTGATGAAGTTAGTTTTGCACAAAATTTAAACTTAATTCAAAATAAACTTGATGAATTTGATTCGCCATTTGCAACTTACATCGATACAATGCGATGAAAAATTGAAAATGGCTATTTAGAGTTAAAAGATAGAGATTGATTAACAGAATTTTTTAAAACTTGAACTTTTATGTTAACTAAGAGGATTGTGGACTATAGAATGAAAGCAGTTGAAGATTTAAGATACAACTATTTAGTTGAAATTTATTCAATTGTTAAAAATTATGGTAAATATGCAAAAATTTATAATACTATGTATGATGTTTTTGGAAAGTTTGCAAATATTGAAGATGAACTTAGAAATCAAAACATTGAATCAATAGCTAGATTTGCAGAATTTTTATATAAAGATCCCTCTATATTGATGATTGCAGAAATGTTAGGTAGATTAAATGGTGAAGATGATTTAATGGAAATTAACATTACTGAACAAGTTGTTACTTATCCTACACAAACTAAATTGCCTTACAATCCAGAAGAAATTGTTGGTCTAACTGTTTCAAAAGATTTAGAGCGATTATTGCCAATGGAATTTGCAAATCTTTTTGATGAGGAATTAGAGATTATTTTTTATAAAAAATTTGTTGAAAGTCAATTGCAAACATTTTTATTTGAATCTAATGAAAATGTTATTGAACACGAAATTGAAGAAGTTGAATATGAAGCACCAATTCCATTAGAACAAGGTAAATTTATTATTTGTATAGACACATCAAGTTCTATGGAAGGTGCTGGAGAATATATTGCAAAAGCACTTTCAATTGCTGTTGCAAAAGTGGCTTTAAAAGAATATAGAGATTTAATCTTTGTTAATTTTGCAAACCAACATGTTGAAGAATTTACAATACAAGGAAGAAATGTAAATATTCAAAAAATGTTAGAGTTTTTATCTAAATCATTTTATGGTAAAACAAATGCTAAACCAGCATTTGAAAAAGTTATTGAAAAAATGCATTCAGAAGATTTTAAAAGAGCTGATTTATTATTTATATCAGATTTTATGATGAATTCACTTCCAAATTCAACTAGAGTTAAAATTGCAAATTTAAAAGATAATTACAATAGATTTCATTCACTTGTAGTTGGAACAATGCCAAATGTTGAAACTCAAGATGTATTTGATAATGTAATGTATTATGATCCAAATGATCCATTCGCAACAAATCAAATTGTTAAATCACTAAATGAAACTTTAAGAGATTTAAGAGAACTTAAAGAAGAAGAGGTTGCTTATCGTGATGAACAAATTAATAAATTAAATTCAATCAGAGATAAAAAACGTTTTAGAGAAATACACTTAGATAGTCCAAAATCAAAAAAATTAGAAAAACAAAAACAAAAATTAAAAGAACTTGAACAACAAAAAAAACAACAAGCATAGGTATAGGAGAAAAAAATGATAGTAAGAGAAAAATCTAATTTACTTGTAGTTTATCTAGAACAAGGTGAAGAACTAGAAGCACAAATTCAAAACATAATAAGAGAGTATAAACTAATTGATGCAAAAATATCTGGATATGGTTATTTAGGCAGAATGGAGTATGGAGTTCTTTCACAATCGGATCCATTCTTTTTAGCAAAAATCTTAAAAGAAGGTTTGTTAACTGTGACAGATATAAATGGAATGATTGATAATCGTGAACCTTCTATAATGATAAGTTCAGTTGATGATAAATTTGAACGTCATCAAGGAAGATTAATTAGTGGAAATGTTGTAAACTCTTTTAATATAATTTTAGAAATTTACAAAACTGAATAAAAGATTTTTCTTTTTTTTTAAAAATAGCAAAATAAAAAAAAGTATAGTAAAATTATTTGTAATTTAAAGGGGTAAATAAATGAAAAAAATTAAAAATAAAAGTCAAAAGTTGATTATCATTTTAATATTAACTTTTACGGGATTTTTCTTTTTTTATCAACATTAATGATAGTTCCAGGTATGGGAATAGAGTCGCTTACTTTTATTAATAGTGTTGAAAAACAAATCAAAAGAATTATGCCTAAAGGCAAATATGTATTTGATCCAAGTCATCCATTATATGAAGAGATGATGAATAATGTCATTAAAAATTCATTTAAAGCTGATGCAATTTCAACGATAAATTTTTATAATTCAAAAGATTATAAAGATCATTATGATGAATATATTAAATTTTCTGATGATTGATATCAGCAACATTGAGCCGAAAAAGTAGCAAATAAAGAAGAGATAGATCTTTATCATGTAGGTTTAAATTTTATAGAATTTGATAAAGCAATAGCAACAAAATATCATTCATTTGGATTTGTAAATACAGGAATACAGTGAATGTTTAAATCTAAAGGCCTTAAAGATATTTTTTCAAAAGATATTTATGAACTTTCACTTGAACAGCAAACTATTTGAAATCAAGAAGTTTATGATAAAGAAATGACTTATAAAGGTCCAGGATTAAATGGTGTTAAAGTTGATTGATCAATTGGAACAAACATTGTAAATAATAAAGTTTGATTTCTAAATACTCAAATTGATTCAATAAAGTTTGCATTACAATTAACTAATCCATTTATGGATCAAAATTTAGATAAAAATGAAGAAATAAAGTATGTAACAGTAGATTCATTAAAAGCACCTAACTTTACAGCAACTCTAATATTTTTAAGATTTGCAATAGTTTTATGGTTTTTTAATATAATTATTATTCCATTAGGAATAACTGCATTCTTCATCTTAAAGAAAAGATGAACAAATAAAGATTAATAAGAAAAGAGCTAAAAAAAATGAAAAGATTATTGTCTATATTGGCAACAAGTGTTTTTTCTGTTGCAACTGTTAGTTCAACAGTATCATGTATGCCTCAAAAACCAATAGAAGATAAAAAGAGTCCATTAAATATTGGACTTGATATTGATAAAACAAAAGCAATAGATACAAGTGTTGATCCTTTAACACATAAAGGATTTACTAACTTTTTTATAATTGGAGATTCTTTAAGCGATGTTGATGGTTTAACATCATATGTAAAAGATAAATTTATAGTTAAAACAGGTTTAGAAAAATATGTTAATTTCAATCTTTCAATAGAGGGAAGTTATGGTTATGTTGATGATCAAAATGTTCATCATAATGCCTTTTCAAATGGTCCCACAACTGCATATAATATTGCAAATAATTTTGGTTTTAAAGATTTAAAACCAAGTAATAAATACTCAGTGTTGAAAGATGAAAAACAAGGTTATGGAAAAAATTATTCAATTGGAGGAGCAACAGCTGCAAAAATAGCTCCTCAAGCTGGAGGAATTATTTTAAATGATGTTAGTATTGAAGAACAAGCAAGAACTTTAGTTACTCAACAAAAAATTTCTTCAAATGATTTTGTACTTTTTGAAATTGGGGGAAATGATTTATTTTCAATGATTAGCAGTCAAAAAGCAGGTGATAACAAAAAAGTTATTGATTATATGAATGAATCAATAACAAGACTTAGAAATGCACTGTTTACATTATTGAATAATGGAATAAAAAATCTGTTTTTCTTAGGACCTCCAATTATGGACAATATTCCAAGTTATGCAAATAAAACTGACGAAGAAAAAAAAGAAATTATTGATTTAGGAAAAGAATATGAACTTAAAATGCAACAAGTAGTTAAGGAAGTTAATTCATATTATTCATCTAATTTTAAATTTTCTTCATTGTATGAAGGTGAAAACTCACTTACAGTTCTACAAAAAGGATATGGTGAACATATTTTAAGTAATGGGTTAATTCAAAATATAGATGAATATAAAAATAATCAGTCATTTACAAAGAATTTAAAAATTAAACTGAATGATAAAGAAATTAATACAAGTCAGGTTAAGAATTTAAAATTTGATGAAAATATTTATAAAAAATTAACTATGAAAAGTGATAAAGTTGAAGCAAATGTTGTTGTTGAATTAATTGGAAAAGAATCTTATTCAAATCTTAAAGAAAGAGATCAATTAATGTCAAAATATTTCTTTACAGATATAGTACATCCAACTAAAGTTGTTCATGAATATGTAGCTGAAATTTTACAAGAAAAGATTTTAAAGGAGTTTGGCTAGTATGAAAAAAATATTAAGCTTACTTGGAGCAAGTTTATTAACAATATCTCCAACAGTTTTATTGGTTTCATGTTCAACAAATAAAGTTAATTTTAATGAAAATTCAGTTCAAACAATTGTAGAACAAATTGGAAAATCTATATATTTAAGTGATACAAAAAACTATGATATTAATTATCAAATGGATGAAGTAATTAAAACAAATAGAATTAAAAATCTTTCAAGATCATTTACAGATGATGAAAATATAACTCAATATTCAAGATTTGCAGAACTTTATAATCAATACTTTGATGAAAATATGTTTTCAAGTGATTTACAAGTACAAGAAAATATTAATGTGCTTGGAAATATTCAACCAAAATCTTTGGGATTTGCAGAAACATTACTTGTCACAATACCTAATCTATTAGGAACTTTATCTGATGGAAAAATAATTAAATTTATTTTTAATTCGGTTTTAACTTTACCTCAAATTACAAATGTTTTAAAAAATAATTATTTAGTAGGTTATTTAGATAAGATTCTTTCACAAGAAAATACAAAGTTACTATCAAGTGCATTTTCTAGTGATATTTATGTTGGGTTTACAAATCAAGAAGTTATGAATTCAGCAATTATGGGATTTGCAAATTCAATTAATTATATGTTAAGAGAAACTAAAGTTATTGAAATTCCAACTAAAGATAATTTAACAGAGGAGAAATTTTTAGAAAGTATTGTTACTTTAACAAAAAATTTAACTTCAATTAGAAAAAAAGAAAAATCAATTAAATTAGATTTAATAAGAGATCTTCCTGCAATAGCAGAACTAATTAGATTTATAAGAACTTTAATTATCTACACTGAAAATGGAGTCAAAGCTTTATCCAATTCTAAAAATGAAAACTATTTTGATGATATTTCAAAATATAGAAAAGCAGAATTTAATTCTGTTGATAATAAATTTGATATTTTAACTACTGTTAATATGCTTATTAATACATACAATGATGGATCAGGAATAAGAAAAATTCTATCAGTTTTATTTCAAAGTTATAAAAATCCAAAAATAAAAGTATTTATAACTCCAAGATTTGGAGCTATTGCAAGTGAAGAAATTTACTCTGAGGGTATAACTTCATTGTTACAAGTGACATTAAATAGCATTTTCCCAACTATAGTTTTAAATAACAAACTTATTGATAATTCAATGAGAGCTTTAATAGAAATTCCAGATAAAGTTGTTATTTCAAGTATTATTTGTGAATTTATTAATATAATTATTTCAAATAACTCTCTTAATGATTTTTTAAGTGCAATTACTTATCCAGGATTATCTCTAATAATAGGAAATGATATAAGTGATATAATGAAAAATTTATCTCAAAATGAAAAAATAAAAAAGGGTAAAATTTGAGATGGTATTTATTCAGGTGACTATATTAATGAATTTATTAAAACATTTGCAAATAAAGAACTTTCAAAAACTATAAATATTAAAAACTTTTTAGAATCTAAAAAAATTGACATCTTAGGAACTAAACTTACAATCTTTGAAATATTTCAAAAAATAAATGAAACTCAAGTTAAAGGAAAAATAGAAGTAAATTTCGATAGGCTATCTTCTTTAATATTAGATCTTAGAATTATATTAGATTTAAATAATTCTATAAAAAATGAAGAGTTTGAATATAAGAATTTTACAAATAATATTGCTTCATTAGTGGAAGATCTATCAGGAGTAAAAAAATTGACATTATGATTAAGTCAATCATCTGATAATGACTTGTCGATAATAGAAAATTATAAGCACCAACAAGCAAATCTTAAAAAAGAAATTAATGACAATATTCTTAACCTAGAAGTTACAAATATGAAAATGATTGGTAAATATTCATATGAAATTAATTTTGAAAATAAAAAATATGAAATTAATTTAAAAGTAATTGATAAAAAGAAACTACAAGTAAAATCCATACTTTAATTTATATAAAAAATGAAATTTAATTAAAATTTCATTTTTTATATAAAAGGGTAGTGTTTTTCCTAAGTTTTTAGTATAATTAATTTAATCTTTATCTTTGCATCACATTGTAGAGGATAGAGGTAATAGAGAAAAAAATAAGAGGTGACTAAGAAATGATAGGTATTATTTCAACAGCATACTTTACAGTTAAAGATCGTCCAGGAATCAAAACTGTAAAAAAATATTGATGAAGAAATATGGTTATTCAACACGTTAAATATAGAGGAAAATCTTTCATAATTGCTACAATCGGTTATGGAAAAGCAAATGCCGCTATGGCAATTACTTATTTAATGGAAGAATACTCAGGTTTAGAAACAGTAATAAACGTTGACTTAGCTTTATCAACAAATGATAAGTTTGATACAACAGATACTGTTATGTCTACAAAATTCATCTATAGAGATGCAGATTTAACAGTATTTAAAGATATTAAATATGGACAAATAGTTCATGAACCAGAAGCTTATGCTTTTAATACTGAATTTGCAAGTCAAGTTAAAAACTTTAAATTAGGTGTATCAGATGGTATCGTAGGTACTGCTGATATGTTAGTTTATAACTCAAAACAGTTCAAAGAAATGGTTGACAAATACGGTCAAACAATTGACGTAATTGATACAGAAGCAGGAGCGTTAGCTCAGATTGCTAAAAAATCAAGTCTAAATTTCATTACAATGAAAATTATGTATAACAATGCATTATCACCATGAGATAATGATCCATTACATAAATTTAAAATTTATGAAACAACTAATACTTTAAAATATTTATTAGCAAGAATGTTTAACTTATTATCATCAAAATATGTAATTGATTTCACAAAATCAACAAATGATGAATTAGAAGTTATTCACGAATTATTTGAAATGGAACACGATGCATGAGTATCACGTTTCAAAACAAATACAGCATCACTAATTTCAGGTTTAGGACCATCATTAATGTTAGTTGACAAAAAAGGAATTACTCCAGAAGCAATTGATATTGTTGAAGTTATGAAATCTAAAATTGAAGATGAAGGACCAAGTAAAGTAATTTTAGGAGAAGATGAATGAAAAAATGCTCCTAAAAAATGATTACGTAAAATGATGTTCTTAACAAACATTAGTGTAAATGATGATGAATTATTATGAAATAAATCAGCTAAATATGATCTTAAAGCAGCAAAAATTCATTCAATTGAAGATGTATGTAAAGCAGTTTCAAAAGTTATTGCTGATCGTTCACAAGACAAATCATCATATACTTATGATGGAGCAACAGTACTTAAAAAACACTTGTTAGTTACTGTAGATGCAGCTATTTCATTCTACATTACACATAATCTAACACACGAATTTGTGGAAAGTCCACATCATGGTTCAAAACTAGTTTTAAATGAATTTGTAAAATACTTAAATCAACAGTTGGCAGATGTTGAATCACCTTATGATAAAGTTATTGTTTATTTCAAAATACCAACAGTAAATTCTTCAAAATTACCAATTTTTGTACAAACAAAAACAAAAGCAAATCAACCAATTGTATTTGCAGGTTATTCAGCAAAAGATCAAAAAACTTACACAGTTGTTGATATTACAAGAAATGACTATGACCCATTAAAAGTAGGTTCATTCAAAGTTACAGTTCGTTTAAAAAACTTATAGAAACAATCAAAAATCACTATGCTAGTGATTTTTTTTATTTTTTAGTATATAGTATTCTTATAAAAAGGGGTAACTTTATGGCAAGCAAAAAAGCTAAAAACATATATAAAAATGAAGTAGATGATAATGTTAGTCTTGCTATGGAAGATTTACTTGAATTGGCTATGTTAGAATTTGAAAATAAAGAAACCTCAAAAGATGATAATTTAAAATTAAGAATAGAGTATGAAGATGACAATGAAGAGTTTAATCCAACAGATTTAAACTCAATTATAAAGCATGCTAGAAAAATTGAACAGCAAAATAGTCAATTAAAATGAGTTGATCCAGATCAAAAGATAGAAAATGATATAATTTCTAAAGCAAAAAATGAGGGAAAATCAATTTATGATGCTGAAGTTTTAAGAGAATTAATTTTGCAAAGACAAAAGAAAAAACGAGAAACTGAAGGAATATCAAGTATAATTAGCAAAGTAAAAAAATAAGTTTAATAATTTTCTTCATTAAACTAGTATAATATTAACTGACTTTAAAATAGTAAAGGGACAAAAAAATGGACAAAAATAGGGTAGATATTACTGAATTAAGCAACGAAATATCAGATTCTGTTGATGAAATGTTAAATGATAAAAAAGTAGAATTTCAATCAACAGAAGAAAAAAGAACAATTAATAAATTAGCAAAAGAACTTAATAAAGGTAATGCAATTGATGGTGATGTATTACTTAACTTTGAAAATAAGGTAATGTCTCAAAGAGAGCAACAGCTTTTAGTTAAACAATATTTTAGAACTAAATTTATTAAAGACTTTTTTCAAATTGTTCTTGCTGCATTTCTAATTGCATTAACATTTGACTATTTTATTTCTGTTACTGGTCGAGCAGGACTATTTCCAGCGGGAGTAGGAGCAATTGCTCGTTTTTTTGCTACTTTAACTTTTCCAGGTAAAAACCAAGTTGATATGCAATCATCTTTCTATTTCGTTTACTATTTAATAATAAACATACCTTTATTTATTTTTGGATATATAAAATTAGGTAAAAAATTTACATTTACAACATTTTTATTTGTAATACTACAAATTGGTTTTGACCAAATTTTTCAAGCATTACCATATATCAATCCCAAAGAATTTCATTTAATTGTTAACTTTCAATTAATTTCAGGAACACCAGGAGCATGAAATACTGGTATATGACTATTTATTTTTGGTTCATTAGGGGGTATCTTATTAGGTTTTTCATATTCAATTGTCTATAAAATTGGTTCTTCAACAGGAGGATTAGATTTTTTAACAGTTTATTTATCAAATAAAAGTAATAAACCATTAGGATCACTGAATAGAAAAGTGAATTTAATTATTTTGGCATGTGTTATTGTTTTAAATACAATTATTATTCCTCTAGAATTAATTAATTCAGATATTAAAATCGATGTTTTACAAAATGGTGATTATATTAATAATCAGAAATTAATAGAATCAATGTGAGAATATGCTATGAAAAATGGCGCTATTGTAGGGGATGGAAATAGTTTACAATGAAATCCTGTTTTTGCATCTTGATTCGGTCTTTCTGGTACACCTAGTGAATATTTAAACTCATTGCCCTCAGAGTTTACAAAAGATCAATATAATTATTTAGTTGAATTTGTATGTAAAAATGGATATGGAAATGATTTAACAAATATTGATAAAGGATTAGTTGCAAAAATTAAAATATTATTTGTATTCGGACCATCATTGTTTGCATCATTTACTCTTGTAATGTGTGCTGGAATGTCAACAAATTACTTCTATCCAAAATATACAGTAAGAACTTATATGATTACAACAAATATGCCAAAAGAAATTAATAAGATGCTATTAGAAAATGGTTTTCAAAATGACATTTTAACTTGAGATAGTATAAACAGAATTAATGGAAACTATTTACACAGAAGTGTAATTATGGCTGCTATGTCAGTCATGGATTGAGATAAAATTGAAAGAGAAGTCTTTATGGCAGATCCGCATGCAAAAGTTAATGCAATTAATACCAAATCCATTAAAGGTTTGTTTAACTATGAAATTAAAAAGAATGATGATAGAGATATTATTAGAACAAAGATTGAAACTGATGAGCTTGAAAAAGAAAAAATTAGACAGATAGCTATTGTTAGAGCACATAAAGAAAACGAAAAACTAACTAAGAAAAATCAAAAACGAAAAACTAAAGAAAAAAAACCTGATATAGAAAAAGAAGAATAAAATTTATTTTTTTTAAATAATCTAGTAAATTTAGTTAATTTATTAAAATTTTTGTTTATAATTATGAGAGTAGTGGTGATTTAATGAACGATATTTATTTAAGAAATATTATTTATAAAATGTTAGATTTCAAACTAACTGAAATAAGGAAAGAATATAAGAATATTAGTTTTAATGATTTGTTCTCTTACCTAAGAGAGGTAATATTTAAAAATAATAAAATAGCAGATTTGAATGATTTATCCTTTTTTATTATGAATATTAAAGTTAATAAAATATTTGAGTATTTAAATATTAGTGCAATATTAGATCAAAGTAGTTCAATTGAAATGGATTTAAAAAGTATTTTAGAAAGATAGTGATTAAGTTGAATATCAACGAAAAAAATATAAGGAAAAAACAAAAGAAACCTATTCTTAAAAGTTTTGCTATATTATTGATAGTCTGTTCATTGATTTTAGGGATAGTATTTTCTACTTGAAAATTTTCAGAAAATATTAGATTAGGATCGGATTTCAAAGGTTACTATTCAGCACTTGTTTCAGTGGATAATCTAAATGAAGAAAATAATAATAATGGTCAACCAAATGGAAATTCAACAGAAGGTGCAAAAGCTTTAAATCAACGTTTAAATCCAATGGGAAATAATCAAATAATAATAGAAAAAGCTGGTAATAATTTCTTAAAAGTTTTATCACCAGTTGATGCATATCAAAATGAAACAGTATTTAGAAACCAAATACAAAAAAATGGTGGAATTGTTTTATTAGATGCTAAAAATTATTCTGATTTACAAATAACAACTAATAATAACAAAATTGAAAGAAAAGGTATTAACGAATTCTTTACAGGAGCAAAAGCAACTTCTATTACAGCTTCAAATCAAAAGCATCCAGCAATTTCATATAAATTAAATGGAGATGCTTTTAAAAGTTTATTACCTAGCAGTTCAGCTGAACAGCAAACAACATATGCAGATGATAAAGCATTAAATTTATTTATTCTTTTAGACGCAGATGGTTTTTACAATGATATTAGAAACTATTACAATTTAATTAAAGGAACAGCACAACAAAGAATTGAAGAATTTTTTAGAGTTGTAGTTCAACCTTTAAGAGAAATTTACAATAATAGTAGTACAAGTGCAGAAGTTAAACAAATACTTTTCGATTTATTTTATGGTAATTGAGATGTTAAAACTTCATCAGGAGTTTCATATAAACGTTCTGGATCACTTATAGAAACAAAAGAACCAAGTTTAGCAACAGCAACAGCATTTACTGAAATAGTTGGATCATTTAAATACTTATCTGAAACTTCAAAATATGTATATGATTCAAATGCTGTTACAAAGGATTTTGAAAATGATGGAAGATATTCAAAAAATGTAAGTCTTTGAAGTCAAAGTGGTATATTAACTGACAGTAATATGAAAGTTAATGAAATATTTGCAAAAATAAATCCAACTTTAATTCAATATGTTGGTACAAATGGGCAATCTTTTAATGAAGTATATTGAAATAACTTAAGAACAAATTACTTTTTATTCACTGGTCCAGTAACTGAATCTAAATCAACTACAGCTGGTGGAGGATATATTGAAGGTGATAACTTAATTACAACTGTTGACAGTTATGCAAAATCTGAAATTGGAGCATCATTATTTAACGCAGCTGGTAAGGGATTTGTATTTACAGTTAACTCTATTGCTACATTAGATGGAACAGTTACAACTATAATGCTTTGAGCAGGTTTAACTTTCTTGCTGATAATTGCATTATGCTTAATTATATATATGGGATTTTTCTATAGACTTTTAGGATTATTTGCAATGATAATCACATTAGCAATAATAGGAATGACATTATTATCATTAAGTTGATTTAATTTAACTGTTGGACCTGAAACAATTATATCTGCATTTATTCTTATAGCATTGAATATTGAAATATTCTCTACGTTATTTGAGAACATGAAAGAGAGTTATTATTTAAAGCAAAGAGGTTTAAAAACAAGTTTCAATATTTCTATTAAAGAAAATATAGGTTTAGCAGCTGATTTAGTTATTGCACTGTTAATTCCTTCAATGTGTATGTTCTGAATTACATCAAATGCAATAAGGTCAATGGCTATTATGCTTGCTATGGGTTCTTTCTTCACAGTTTTATTTACTATTTTGATTAGTGTAATTCTATTTAAATTAATTTTAAATTCTCCATGGTTTACTAATAAATCTAATTTATTTGCTTTAAATACAGACTTTGCAAATCAAGGAAAATTTCTTCTAAATTACAAAATTAGAAGAGTTGAAAATAAAATTAAAAAATTAGAATCAAAAGAATCAAAAAATGAAATATTAATTAACTCTTTAAAAGATAAATTAAAACAATTAAATGAAAAATTAACTTTAATTAAAGAAAAAGAAATTTCAAAAACTGATAAGAGACAGTTATTAGCAAAAGAAAAATTAAATAAAAAAGTTGATAAATTAAAATCTAAGATATCAACTTTAGATGAAAATAAAAAAGCTAAAAAAATTCAAAAACTGAATTTTAAAATCAATGAATTAATCTTTATTAGAGATGATAAAACTCAAAGTATAATTGAAGAAGAAGGGCAAATCATAACAAGTACAAATGAAAAACTAAAAATTAAAACTGTTGAAAGAAACATTAAAAATGGAGCAAAAATGATTTCACTATTTGGTGTATTTATATTGGCTCTTTCAATCGGATTTGGTTTCTTATTTGGTTTACGTTTTGATCATACATTTGGAGGAAGAACTGACTATACATTATGAGGAGATAATATTCAAACTGCTTATTATGGAATGGTAGATCAAACTTTTGAAGATCAAGATCCTAAAACAAAGGAACTTGAAGAAAAAAGAAATAAACTTAAAACTGAATATGAAGAATATGAAAAAACTCATAGTTCTAGTGAGCAATTATCAGCAGTTCGTCTTAAACAAGCAGAAGTTGTATCAGAATATTGAAATTTTGTATACTCAAAAACTTACTATGTTAATTATCTTTCAAATAGTTTAAATTCATCTAAACTTTACAAAAACCATAATTATTCAGTTTCTTATGGATCTCAATTTGTATATAATGGATCTTCAACTAATCAAAATTGAATTACTTTAACTGTTTATACACAAAATTTAAAACAATCTGCAATTATTAAGAAATTGTTTAATATTTGAGGTATTGATAAACAACAAAATATAACTGAAACTAATGGATTTATTACAAAAGCAATTAAACCAGCTACAATGTTATGAACATTAAAACAAATTGCCATAACAGTTGCTGTGATAATTCTAGCTTTAATAATTTATATTTTAATTAGATTTAAATGAACATACTATATTGCTATGATAGTAGCAATAATAGTTGCTCCAGTTATATCTGTTTCTCTAATAACTGCTCTACAAATTCCATTAGGAAATGCTTCAATTATTGCAATTGTAAGTAGTTTATTATTTACAATCATATCGCTATTTATGATTTTTGGAAAATCAAGATCGTTAATCTCATCAAAAAATGAAAAATCACTAATTGATTTCTTTAATAAAGAAATAGAAATTGTTTATGATACAAAAACATTTAAAAAACAAATGAATGATGAATTATTCAATCTTAAAAATGAAATGAGATTAAATATAAAAACAAATAGCTTGTCTAAAGAAGAGAAGAAAAAACTAAAATTGGAATTTAAAGAAATAAAACACAATAAAAAAATAGAATTTAAGAAAATTAAAAAAGAAAATAAAATAAAAATAAATAGAGTTGGTAAACAAAACAACTACTTATCTGAAGTATTAGTAAAATCATTTAAATTTGGACTTGTAAGATGTTCATTATTAATTGCTCTTTACTCATTAGTTGGAATTGTAATATTAGCTACTATGCCAACAATATTATCATTTGGTCTAGCAATTATTATTGGAACTGTTGTTACAAGTTTAGTTGTATTATTTATATCACTTCCACTTTGAGTAATCTTTGAACAAATAAGAATTAGAAATAAACTTGCAAGAAAACGTTTTATTAATGGATTATATGTTTCAAATGAAGAACAAATTATAGAAGGAATAAATGATTAATAAGAGGACAAAAAAATATGGACTTAAAAAAATATATTTGAGATGTTGAGGACTTTCCAATTAAAGGAGTTACTTTTAAAGATATAACACCTTTATTAAATGACAAAGATGCTTTTAAATATACAATTGATAAAATGGTTGAATATGTAAAAGAAAAAAAAGCAAATGTTATTGTTGCTCCTGAAGCTAGAGGTTTCTTATTTGCTTCTGCAGTTGCTTACGCAGCAAATTGTAGATTTGTATTAGTAAGAAAACCTGGTAAACTTCCAAGAGAAGTTAAAGACATTGAATATGAATTAGAATATGGAAAAGAACATATTCAAATGCATATTGGAGATTTGAAATCAACTGATAATGTTGTTATTGTTGATGATGTTTTAGCAACAGGGGGAACAATGAAAGCCATTGTTGATCTTATTGAACAAGAAAAAGCAAAAATTAACGGAATTGTTTTTTTAGCAGATTTGTCATTCTTACATGATCCTGAATTGTTTACAAATTTTGATTCAAAAAGTCTAATAACTTATTAATGAAATAATAATAATAATAATTTAGTAAAATTTCCTAAATAAAATTAGGAAATTTTTTATTTTACTAAGTAAATATTTTTAAGAGATTTAAAAACCTGGCTATAAATTAGAAATCTGTAGTTAATTTATATATAATATTAATATTGTTATCAAAGATAAAAGAGGAATACATTATGCATGGACAATCAACATCACAAGAGCAAGAATTTAATTATGTAGAATGTATAGAAGTTGATGTACTTGTTGCAGAAATGAAAAAATATATTAAAAATAATAAATTAATTGAAGAAGTAAAAAAAGCATATTATTATGCAGAAGATAAACACAAAGATCAAAAAAGAAAAAATGGAAATCCCTTTATAATTCACCCACTTTCAACAGCGTATTACTTAGCACAATGAAGAATGGGACCAAAAACAATTATTGCAGGACTTTTGCACGATGTTGTTGAAGACACTCCTGTAACATTTTCAGAAATAGAAGATATTTATGGTGTAGAAGTTGCAGATATAGTTGAAGCTGTAACTAAAGTAAGTTACTTTACAAAAGAAAATCGTGAACAAATGAAAGCTAATTATTTAAGAAAGCTTTTCTTATCAATGATTAGAGATATTAGAGTTATTATTGTTAAAATAGCTGATCGTATGCACAATTTATTAACTTTACAATATATGACTCCTGAAAAGCAAAAAATAATTGCAAAAGAAACTTTAGAAATTTATTCAACAATAGCTCATAGAATTGGTATGAAAACTGCCAAAAATATATTAGAGGATTACTCTTTTGAATACTTAAATCCTAAGGAATATAAAAGAATTAAAAATCTTTTAGAAGAAGATAAAAATTCTAGAAAAGAGTTAATACAAGAAATAATAGTGGAAATTAATAAAAAGCTTAAGTCAGAGGGAATCAAAAATGCTCAAGTTTTTGGTAGATCAAAGACAATTTATTCAATTTATAGAAAATTGACTCATTTTGGTAAATCATTTAGTGATATAAACGATATTTTAGCTATAAGAATCATAACTGAAAAGCAAGATGATTGTTATAGAATTTTAGGGTGATTACATCAATTATTTACACCTTTATCTGGAAGATTTAAAGATTATATTGCAACTCCAAAAAATAATTTATATCAATCATTGCACTCAACATTGTCAAGTAAAGATGGTGTTATTTTTGAATGTCAAATTAGAACCAGAGAAATGGATGATGTAGCAGAAAATGGAGCTGCTGCTCATTGAAAATATAAAGAGGGAGAAAAAACAATTGATATTGCAGAAAAGCAAAAAGAAATTGATCAAAAAGTTGATATGTTTACAAGATTAATGAATCTTGAAAAACTTGCAAGTGAAAATTTGGAAATAAATTATAATGAAGAGTCACAAAAAATTGATTTAAGTGGAGAAGTTATAGAAGAAACATTTAAATCTGACTATTTAGCTCCTATGATTTATATTTTGACTCCAGATGGAAGTGTTATTAACTTACCATTTGGCTCAACAGTTTTAGACTTTGCCTATAAAATTCATACAGAAGTTGGTAATAAAACTGTAGGTGCTAAAATTAATGGGGTATTTTCTCCTTATAACACAACACTAAACTCTGGTGAAATGGTTGAGATTCAAACCTCAAAAGATACGTATCCTCATGAAAAATGATTGCGTTTTGTTCGTACTTCAACAGCTCGAAGAGCAATTGAAGATTTCTTAAATGAACAAAAAGAAAAAGAAGCTGAAAAAGAAAAAATAACAAATCAAAAAATAATTAGAAATACTAAAAGAGAAATTGACAGATATATTATTGCAAACAATTTAAAATGAAATGTTAATTCTATTGAAGAAATTCAAAAAAAACTTAGTGTTCTTGATTATAAAAATATTGATGAGTTTTTATTATCTGTAGGTAATGGAGATTTTTCAATTCCTGAAGCAGTTGAAATAGTTTATGTATCAAAACAAGATTTAAAAGACATTAAACTAATTAATGATATGAAAACTAGAAAATATAAATCTACAAGAGGAAGAGATGATTTAAGAATAAATGGAATCGAAAAAGTTAGTTGTTCTCTTGCTCAGTGCTGTTATCCAATTCCAGTTGAACCAGTTACTAGTTTTATGTCAAAAACAAAAGGTATTCAAGTACACAGAAGCGAATGTTTAAATATAACAAATATTAAGAAAATTAAGAATTTACTTAAAACTGAATGAATTCAAAGTAAAACTGAAAATAAACAATATAGTGCAAAAATTAGAATGACTGCATATGATAGGCCTGGAATTCTACTTGATATAGTCTCTGTTTTTGCAGCTCAAAGAGCTAACTTAACAGAAATAAAAATTATATCTCAAGAAGATGATTACACTGGTAAAGGAAGTATGATTATAACTATCAGTGATTTAGATCAATTAAATATCATTTTAAAAACTCTTTCAGAAGTTCCTGGAATGATTGGAGTCACAAGAGCAACATCTTCTGAAAATCCTATATCTTAAAAAGTGTTTTAATGCACTTTTTTAATTATAGTTTTAGTATTTTCAAATATTGCTCTTAAAGATAAATTATGTTATACTATAATTAATATTTATTCTTTAATGCGAGGTGTACTAATGAAAAAAGAAATGATTAATTTATCAATTACAGAATTTGTTCAAGCTAACTTAGATTTTAGTATTGCTTCAAACAGAAAAGAATCTGAGTTCGATTTTAATTACACTAGATGAAAAACAATGATATTTTCAAGTCAAAAATTAAAATTTATTTTGAAATATACTCAATCTGTTTTACAATGAATTAGTAAAGTTGTTGATGTACAAAACTTTACTGTTTCAATTGATACAACAACAGTTGATAGATTTAATTTCTCTATTTATGAATTTGACAATCATATATTTAATTGTTCAATGTTTACAAATTTTTACTTGATTCCAGAAGGTGATTGATCAAGTAAAGTATTTGAAATGCACTTTTCAAAGTTTGACTTAAAAAATGGGGAATTACAGCATGAAGAGGAAACTAACTTTTGAAAAGGCGAAGATGGTTTTGAAAAATTTGTAAATATGCTTTATGCAATTATTAAAGAACCTTATAAATTTGAGAAAGTATCTCCAATTCAATGACAAATTGACTTTAAAGATAAAAAAATATCAAGTTCTCAAATAAGAATGCAACTTGATTCTTTAGTTAATAAGGGTGTAAGACCTGAAGATCCATATTTGACAATAGAACAAGCTATGAAAATTGAAAATGGGGCAAACCCAGATATTGTTGCAAGAGAAGCTAAAAAAGAAAGTGAATCTAAAAAAGTTATTAATCCTATTTGAGAAGAAGGAATTCAACAAGAATTAAAGTATAAAGATTTAAATTATGCAATGGCTAAATCAAGAGGAATTAGTATTGATAAAAAGAAAAGAAAATAATAAGTAAAGGAAAGTTTTTAGGAACTTTTTTTATTTTATTTTTAAATTTTTGGTTGTTTTTGGTTGTTTTTTATCATTTTTGGAATATTATATTAAAGAGGTGAAAGAGTGATTAGAGAAGAAAGAATGCAACTAATTTTAGATTATGTAAATAAGCAAGATTATTGTACTAATGAACAAATATCAAAGCATTTAAACATTCCATTCACCACTCTAAGAAGAGATCTCACTGATCTGCACAATGAATCTAAGTTAAAAAGAGTTCATGGAGGAGCAAAGACTATTAGAGAAAAGTCAATATTAGAAGCTGTTTTGGATGAAAAATTGCTAGCTAATGTTGAAGCCAAAAAAATTATAGCGAAAAAAGCATTAGCTTGTATCAAACCATTTGAAACTATATTTTTAGATGCGGGTTCAACAACATTTTTCTTAGCAGAGATAATTAAACCAGAATTTAATAATAAAATTTATACAAATTCAATTATCAATGCTCAAATTTTAGCAAAAAATGGTGTTAAAGATATAAACCTATTGCCAGGAAAATTAAAAATATCTACTGTAGCAATTTGTGGAGTTGAAACAATTTCAGCTTTATCAAAATATAATTTTGATTTAGCATTTTTGGGAATAAATGCAGTGGATAAGGAATTTAATTTTTTCACAACAGATGAAGATGAAGCACAAGTTAAGAGAATAGCCATTAAAAATTCTCAATTTGCATTTGGTTTAGCAGACAAGTCAAAAAACAACTCTAAATCACTTGTTAAATTTAGTGATAAATCACAAATAGCACTTATCAATGAAGAGGTATAAAAAATTATGATATATACATTGACATTAAACCCAGCAATAGATCATATTGTATTGGCCAATAAAAAAATAGAACTTGGTGTAACAAATTACTATAATGATGAATATAAAGTTGTTGGTGGTAAAGGCATTAATGCAGGAATTATTTTAAAAAATTTAACTGCAGATGTTCAAGCAATTGGTATTATGGGTGAAGAAAATAAGGAAATATTTTTAAATAAATTTAAAGAAATTAATTTAAATAACAATTTTTTTCTAAATTCAGGTTCAACAAGAGTAAATTATAAAATTAAACATTTAGAATCAAAACAAGAAACTGAATTAAATGGAATGGGGTTTAATACTAAAAAAGAAGTATTAAATCAATTAATCCAATATTTAGAAAATAGTTTAAAAGAAAACGATATTGTAATGTTAACTGGAAGTGTTGCTATGAGCATTGAAAAAGATATCTATGAGCAAATTGGAAAACTTGTAAATAAAAAGAAAGCTATATTGATTTGTGATGCAGCAAATGAATTACTAAAAAATGTCTTAAAAGAAAAACCATTTTTAATAAAACCAAATTTAGAAGAAATTTGCTCGACATTAGGTTTAAAATTTGATGAAAATATAAGTTTTGAAGAAACAAAAGAGTTAATTAAAAAATTAAAAAATTTAGGAGCACAAAATGTTTTATTAAGTATGGGATCAAAAGGAAGTTTATATTTTGATTCAAACAATGACATTTATAAAGTTGGAATTGCAAAAGGAAAACTTGTTAATTCAGTTGGAGCAGGAGATAGTATGTTAGCTGGATTTGTATATGGTAAATATAAAAATTTAACTATAGAAAATACACTTCAATATGCTGCAGCAAGTGGAGCTGCTACAGCTTTTAATGAATGACTTGCTTCAAAACAAGAAATTGAAAATTTAGTATCACAAATTAAAGTAGAAAAATTATAATAGGAGGTCACATGGAATTAAAAGATTTATTTAGTAAACAAATAAGCTTTTTTGATGTAGAATTAAATTCAAAAGATGAAGTAATTGAATTTTTATCTAATAAACTTCAAGAAGAAAAATATATAAAATCTGTTGAAGACTTTAAAAAAGCTGTTTACAAAAGAGAATCTGAAGGATCAACAGGTGTGGGAGATGGAATTGCTATTCCTCACGTTTTAAATCCTACAGTTCAAAAGTCAGCAATTGCATTTGCTAAATTAAAAAATAAAGTTGATTGACAATCATTAGATGATCAACCAGCTGATTTAGTGTTTATGATTATGACAAATGGAAAAGATGGAAATGAACATTTAACAGCTCTTGCTGATTTATCTGGTTTCTTAATGAAAGCAGATATTCAAGCAAAATTAAGAAATGCAAAATCTATTAAAGATGTACAAAGTGCATTAACAAAAGAAGATAAAAAAGTTGAAAAAGTTGAAAAGCCAGGAAGTTATGATGTAATAGGAATTACTGCTTGTCCAACAGGGATAGCTCATACTTATATGGCTCAAGAAAAACTTGAAGAATATGCAAAAGCAAAAGGTTTAACAGTTAAAATAGAAACTCAAGGACGTAGAGGAATTGAAAATAAATTAACTCAAGAAGATATTGCTAATGCAAAAGTTATAATTTTGGCTCATGATAAAGCTCTTGAAGGACTTTCAAGATTGAATGGGAAAAAAGTAATTGACACAAATACAAAAGAAGCAATTTTTAAAGGTGATCAATTAATTGAAAAATATCAAAAAAATGAAGGACTAACTGAAGTAAAAGCTGCATCTGATTCATCAGAGTTTAGCGAATTTACAATGAGAAAATTCTTAGATGTAAAAGGTAATTTACTTGGAGGAATTTCAAGAATGCTACCATTCGTTGTTGCAGGGGGGATTATTTTAGGAATAGCTTTCTTAATTGAATTTGCAGCTGGTAATGGTGATGCTGGTGGGAATTTTGGAACTGTAAATCCAGCAGCAGGATGATTTGCAGCTATTGGTAAAACATCAATGGCTATGATGGTTCCAATATTAGGTGCATTTATTGCATTTTCAATAGTAGGGTCACAAGGATTAATGCCAGGAATGGTAGCAGGATTATTCTCATCAAATATAATGGGCTTTGCATATTCAGGCAATGAGTCTGGATGAGATGGTCTATGAGGAAGACTTCTTCCTTCTAGTTTAAAAGGAACAGAATCTGGATTTATTGGAGCTATTGTTGGAGGTTATTTAGCAGCATTATTAGTTGTAGGATGATCAAAAGCAATGACTAAATTCCCTAAAGGATTACAAGGAGCAAGAGACATTGTCTTTATTCCTGTATTGTCATTATTGTCAATTTCATTAACAATGTTTGTTATTAATATTCCATTAGGATATGTAATGGGGGGAATTAGTTTAGGAATTCAAAAACTAGCTGAACTAAACTTATTATGATTAGTATCAATTTTAATTGGATTTATGATGTGTGTTGATATGGGTGGACCAATCAATAAAATTGCTTATTCATTAGGAAACTTAGCAGTTGGAGGAAAATTAGTTAGTGATGCTTCTTCACAAGGATATACTGATCAAACAATTATTATGGCATCAGCTATGTTAGCAGGTATGTTACCTCCAATTATGATAGCAATGTCAACAGTTATTTTCCCAAAAGCTTGAACAGCAAAAGATAGAGATGCTGCAAAAGCTAACTGATTAATGGGAGCATGTTTCGTATCAGAAGGTGCTATTCCATTTATGGTTAAAGATCCAAAAAGAGTTGCAGTAAGTGCAATGATTGGAGGAGCTTTAATTGGAGGATTAGTTGGGGCAGTAAAAATTAAATTACTTGCATCACATGGAGGAATATTTGTATTCCCACTACTAAGTTCAAGTTATTTAGAAAATAGTGCAACAATGACTGGTGGTTCAATTGCTCTAGGAGCTGGAGGAGCACTTGTAATATTGTTGGGAGCAAGCTTCTTATCAGCTATGATTTTAGGAATTTGAAGAACAGCAGATATTAAAACTGGTAAATTAACTCTTGACTCAACAAATGGAGTTAAAGAAGCAATTTTAGCAAAAATTGAATCTGTAAAAGCTAATGAAAAAATTCAAAATAAAGATGTAAAATTAAATTTATTAAATACTAAATTAAATAAATACAGTGATTTTGAAACTGAATTAGCTACAAAACAAAAAGCTTATCAAGCACTTGTTGAAGAAAAACAAAAACAAAAAGAAGCTAGAAAAGCTAGTAAATAATTTCTAAAAAACATCAAATTTTGATGTTTTTTTTTTTTTTTTCTTAAAAAAGAAATTTTAATTAGACAAAATAAAATATAAAAATTGAGCAGAATGTAAAGAAAAGACGGATAGAAAAAATTTATAACAAGAGTATTATTATTAGTATTTAAAATCTAATATTTCATGTTAAGTTACAAATTTAAAAATAAGTGCTAATATCATAGCTAAAACAAAGGAAGAAATTTGAAAAAGAGAAACATTAATGAATTGTTGAAAAAAATATTATAGTAGATTTATAAAAAAGCTATATTCAATTTTATTTAGAAAATAGTGAAAAATTATATTTTATATTACAATTCTCTTAGATCAAAATGATTCAAGAGATCTTAATTTTACATAGTTTCAATTGTTAAGGAGTTATTAGATTGAATATTAAATGAAAGCAAGATAATTTTTACAATATTGACTTTTTCAATTTCTAAAGAAGCAAATGAAGATAATAATATGAAAGTCACAAATGAGTAGAAAAAAATTAGATATTAATATAATCATGTCATATAAACAAAACTGAGTTATTTGTTTCAATTTAATATATGAAGATACTTAATAGGAGGAAAAACAAGAGTTTGTTTACAGTTTTTATTTATTAAGGAATTAATGTATTTTTCTATTTATTAAATGGCTATAATATTGTTTATTTTTTTATATTACTTTTTTAAAATAAAGATTAAATACAATATATTTTAAAAATTAAATCTTTATAGAAAAGTATATAACTAAATAAAGGAATATATAAAAAATGTCAATACCTACTTAAACAATAAAAAAACAAGATTTTTACTATTTAAGTAAATTTAATAAAAAATTAAGATGTTTTCAGAATGGAAATACATTATTTTTATTTATGAAAGATTTAATTTTATTTATTAAGTCTCTCAATTTTTAAAAGTCTTTACTTAATTTATATATTTTGGACTAACTTATTTATAAAAAAATTAAAAATTTATTAGAAAACACTTATTTGTTTGATAAAATAATTTTTGATAGGAAAAGAAAGTAAAGAAAGAAGGAGAAAATTTCAAGAAGTTATAAAAAAACAGTTAAAATATATCAAAAAAAGAAATAAAAGTTTTTTAAAATGCTTAAAATAATATTTATTTTTATATATATTTACTAATTTTGGAAATGAGTTTATTAATATTTAATAAATATAATTTGAGATAGCAGGTGAAAAAGTGCAAATTAGTTTAGATTTTTTAAAAGATAATGTTAAAAATTTAAAATCTTGAATATTAATTTTGATATTAACATTGATTTATTTTTTAATATTTAATATAGCTTTTTTTACATATAAGGCAAATTTATCTTTTAATTTTAATAAGACAGAAGATAGTAGTAAACTGATTTTTCTTAATGTTCTGTTTAATTATGTTGATTGATTTCTATATTTTTGTATAATTCCTTTTTTATCTTTTTGATTAGTTAATTATTTAAAAAAAATAAAAATAATTAATTATTTCTTTGAAAGAGATGCCTATAGGAATTTATATATTATGAAATATATTATTTTGTGATTTTTGAGTTCTGTTATTATTTTATTAATAATTACAACCTCTATGCAACTATTATTTGCTCTTTTTCACTTTTGAGTAATCGGTTTAAAAAATAGTGGTTTTATATTTAAAATATTTATTATAAAAGAATTAATATTAATTTTATATATACCAATTTGTTTTTTATTGATTTCGTCTATAAGTATAATATTTAATAAAATTATTATTATGTTTAGCAATCTAATTTTTTTTATTTTTGTCTTTAATGAGCATTCTTATTCACCAATATTTGATGATTGAATGTATGGCTCTACATTAGATAATAAAGAAACTAAATATCAGTATTCATTTCATGAAAGTCAATTGTTTTTTCAAAGTCAAATATTAAAACCAATAGAAAATAAAAATAAAAATTTAACTTTAAATATTGGAAATGTTGAGTTTACAACAACCTTTAATAATTGAAAAAATAATTTCTATTTCTTAGAAAATGATAAAAATAATAATGAAATAAAAATTCAAAAAATGTATTATGTTGATAATAATAAAAATAAAGATATTACTCAATATTCAGATCAATTAAAAGAAAATATGGCTTCAAATCCTAATGCAGCAAAAGAAATAATGTTTCAAAACTCTTTACAAATTTTAAGAAAAGGTTATGAAGTTTATGATATAAATGGAAAACTGTTTTTTTCAAGAAAAAATGAAAATGAAGTTATTACTGAATTAAAAAAACAAATAGAATTAAGTTATAAATATATTCATAAAAATGAATCTATTAATTTAAAAGACCAAGAAAAACCTTGAGAAAATCTAATTAGTGATGGAAGATATACTGTATTTAATTTAAATTAAATACAGGTAAATGAGTATATTATAAAGATTATCAAAGTGCTTTAGAAATTTATAAAAATCAATCATCTTTAATAAATTCAATTTCTGAAGAGTTTATTATTTATAAAATATATTCAACAACTATAAATAATAAATTAGTTAATTATGAGTGAAATTCTAAAACAAATACTAGAATTTTGGCAGAAAAAATCTATAATGATATTATAGTAGGGAGATAATAAATATGAAAAAATTATTAACAGTGCTTGGATCTTTAAGTTTGGTAGGTTCAACTTCAGTTACAGTCGTATCTTGTAAAGATCCAGTTACTCCACCAAAGGAAAATAAAACAAAATGATCTGATGAAGATATTCTTCAAAGACTAGGAAATTTGGAATTTGAAGAAATGAATAACGGAGATATAAAAATGATTTCAAAAGATAATCATTTTGAAATATGATCTGGTAGTGAAAATGGAAATAAATATGAAAGAGTTATTACAAAAGATAATGTAGAAAATAGTAAAATAAATTATTTTTATAATAGTTTATTGCCAACCGATGTAAGTTATGAAAAACCATTTGGAATTGAATTAATGTCTTCATTTTACATTGGAAAAAATCAAGAAGAAGTAAAAAAAGCTCGTTCTAAAGATATAGATAATTTTGTTTCTGTTTATGGTTCAGAAATAGCAAATGATATGCAATGAAAATTAAGAGGAAAAAATGCTTTTTCAATATATTTTGGAGATACAGCATTAGAAAATATATTTAAGTGTACAAATTTTTGATTAAACGATGTAGTTAAAATTAAAACAAATAATGGAAATGAATTTTATATAGGTTTATCTTCATTTTATGTAGACTTTTTTATTGGATATATAACAAGTAATTTATCAAGTTGAGTTAAAGAGTTTTTTGAGGAATATAAAGACCAATTAAAATCTCCAGATTTAAAAATAGAAGAAATTATTAATGAAAAAGAATCTGTTATTAAAGATAGTAGTAAACAGCATTTAAAGTTAAAAGTTGCTAATTCAACATTTAAATTTTTAGATAAAATTATATATGAAAATGTCAATAATTGAAGTATTTCTGGTTCACTAGATACTTTTTTAGAATCAAAAGTTAACAAGCATATTTCTAAATATAGAGAAAAAGGAGAATTAATTTATAGTTCATATATTTTTTCTCCTACCTCAGATCCTGAAGATCCAAGTAATAATAATTATGAAACTCATTATAATAGTGGTTTTCAAATAAAAAAATCAACTAATAATACGTTAGAATATAATAATAAAATTTATATAAAAATAGATCTTGTTTAATAAACTTAATAGCTAAAAAAGTTAACAAAATATGTTAACTTTTTTGTAAAAAGAAAAAAATGAAAGGAGATAATAAATATGAAAAAATTATTAACAGTACTTGGATCTTTAAGTTTGGTAGGTTCAACTTCAGTTACAGTCGTATCTTGTAAAGATCCAGTTACTCCACCAAAGGAAAATAAAACAAAATGATCTGATGAAGATATTCTTCAAAGACTAGGAAATTTGAAATTTGAAGAAATGAATAACGGAGATATAAAAATGATTTCAAAAGATAATCATTTTGAAATATGATCTGGTAGTGAAAATGGAAATAAATATGAAAGAGTTATTACAAAAGATAATGTAGAAAATAGTAAAATAAATTACTTTTATAATAGTTTATTGCCAACTGATGTAAGTTATGAAAAACCATTTGGTATTGAATTAATGTCTTCATTTTACATTGGAAAAAATCAAGAAGAAGTAAAAAAAGCTCGTTCTAACGATATAGATAATTTACTTTCTGTTTATGGTTCAGAAATGACAAATGATATGCAATGAAAATTAAGAGGGAAAAATGCTTTTTCAATATATTTTGGACTTTTATTTCTAGTAGAAAAACAAGTATTTAAGTGTTCAAATTTTTGATCAAGTGATGTAATTAAAGTTAAAACAAATAAAGGAAAAGAAATATATTTAGGCTTATCTTCATTTTATGTTGATTATTTTATTGGATATGTAACAACTAATTTAAGTAAGTGAATAAAAGAATTCTTTGAAGAAAATAAGGAATTATTAAAATCTCCAGATTTAAAAGTGGAAGAAATTATTAATGAAAAAAGCTCTATTGTTAGTCAAAAAGATAATCAACATTTAAATTTAAGAATTTTAAATGCAAATTTTAAATTTACTGATATTATTCAAAATGTAAATGGTGAAAAAAGATGAATTAGGGGAATAATGGAATCGTTTTTTGATAAAAAAGTAACAGAACAAAACTTTAAATATAAAAAAATTGATAACTCTTCTTTTAAAGATTATGTATTCAATTCTACATGAGATGATAATGATATAAATAAGGATAAGGAAAAACATTATAATGGTGGGTATGAAATAATGGGTCCAAATAATGAAAAATGAGAATACAATAGCAAAATTTATATAAAAATAGATCTTATTTAATAAACTTAATAGCTAAAAAAGTTAACAAAATATGTTAACTTTTTTGTAAAAAGAAAAAAATGAAAGGAGATAATAAATATGAAAAAATTATTAACAGTGCTTGGATCTTTAAGTTTGGTAGGTTCAACTTCAGTTACAGTTGTATCTTGTAAAGATCCAGTTACTCCACCAAAGTAAAATAAAACAAAATGATCTGATGAAGATATTCTTCAAAGACTAGGAAATTTAGAATTTGAAGAAATGGATAATGGAGATATAAAAATGATTTCAAAAGATAATCATTTTGAAATATGATTTGGTAGTGAAAATGGAAATAAATATGAAAGAGTTATTACAAAAGATAATGTAGAAAATAGTAAAATAAATTATTTTTATAATAGTTTATTGCCAACTGATGTAAGTTATGAAAAGCCATTTGGAATTGAATTAATGTCTGCATTTTACATTGGAAAAAGTCAAGAAGAAGTAGAAGAAACTCTTTCTAAAGATATGGATAACTTAGTTTCTGTTTATGGTTCAGAAATGACAAATGATGTGCAATCAAAATTAAGAGGAAAAAATGCTTTTTCAATATATTTTGGACTTTCATCACCAACAGCAGAGCAAGTATTCAAATGTTCAAAATTTTGATCAAGTGATGTAGTTCAAGTTAAAACAAATAGTGGAAAAGAAATGTATTTAGGTTTATCTTCATTTTATGTTGACTATTTTGTTGGATATGTAACAACTAATTTAAGTAAATGAATAAAAGAATTTTTTGAAGAAAATAAAGAACAATTTAAATCTCCAGATTTAAAAGTAGAAGAAATTATTAATGAAAAAAACTCTATTGTTAGTCAAAAAGATAATCAACATTTAAATTTAAGAATTCAAAATGCTAAATTTGAGTTTACAGATCTTATTGAAAAGGATAATGGTGAAAAGTATCAAATTGAAACAGCAATGAGTTCATTTTATAATAAGAAAGTTAGAAACCATTATTTAAAATATAAGGAAATTGAAAACTCTGCTTTTAAAAATTATAAAATTATTTCTGATTGAGATGATAATGATAAAACTACGGAAAAACATTATAATGGTGGTTACAGAATAATTGGTTCAAATAATGAAAAGTGAGAGCGTAATGATAAAATTTATATAAAAATAGATTTTGTTTAAAATATTTTATTGGATAAAAGGTTGAAACTATTTTAAGTTAGTTTTAACCTTTTTTATTAGTCTATTTATTAAAAAAGTAATCTTGGGCTTTTATTTATTCCAATTAAAAAAAAGTGTAAAATATTATGGTTAGAGGTGAAAAAAATGATACAAAAACCAAGAGGAACAGAGGATTTAGTTGATTTAAAAGTAAGAGAATACTTTGCTTTAGAAGTAATTATTAGACAAATAGTTGATTCATTTAACTATAATGAAATTAAAACTCCAATTTTTGAAAGTTTAGAACTTTTTAAAAGAGGTGTGGGACAAGAAACAGATATTGTTTCTAAAGAGATGTATACTTTTAAAGATAGAAAAGATAGAGAATTAACTTTAAGACCTGAAGGAACTGCTCCAACAGTTAGAGCAATTTTAGAAAATAAAATGTATATTAATGAAAACTTACCTTTAAAATTATTTTATTTTGGTTCAATGTTCAGATATGAAAGACCTCAAGCAGGAAGAAATAGACAATTTAATCAATTTGGAGTTGAAGTTTTTGGACCAAAAACAGCTGAAATTGACAGTGAAATTATTTGTCTATCTTCTACTATTTTAAATACAATAGGATTAGACAATCACACAATACACTTAAATTATTTAGTTAATGGTGAACAAAGAAAAAAATATATTGAAGATTTAAAAAAATATTTAAAACCAAAAAAACTTTGTGATGATTGCAAAAAAAGAATGGAAGTAAATCCTTTAAGAGTGTTAGATTGTAAAATTGATTCAAAACAATTTAATGATGTTATTGATATGAAAGATTATTTATCAGATCAAGATAAAAAATACTTTGAAAATTTAATATTAAATTTAAAAAATATTGGTATCAAACCAATTATAGATAAATTACTTGTTAGAGGATTAGATTATTATACTGGTTTTGTTTATGAAGTAAAAGATAAAAATGGATCAACATTACTTGGTGGGGGAAGATATGATGAGCTTGTAAATCAACTTGGAAATGTTGATTTATCTGCAGCTGGTTTTGGACTTGGAATGGAGCGAATTTTAATAGCACTTCAAGAAGAAGAAATTTATATTTCTCAACCAGTTAGTTTAGATGCATATATTATAGGATTGAGTGAAAAAGCAAAGCAGTTTTCAAATATCTTACTTTTAGCGCTAAGAAAGTCAGGATTAAAAGCTGATTTTGATTTTATGAGCAGAAGTATGAAATCTGCTTTTAAACAATCTGAAAAACTAAATGCAAAAAATATCATTATTATTGGAGACAATGAATTAAAAGAAAATGTTGTTATTATAAAAAATCAAATAACAAAAGAAGAGAAAAAAGTAACTTTTGATAAAATCGTAGATACAATAATGGGAGAATAGAAAATGAAACGTACACATACATGTGGTGAACTTAGTTTAAAAAATGTCAATCAAAATGTAATTTTACAAGGTTGAGTTACAAAAGTTAGAAAAATGGGAGCAATGAATTTCATTGATTTAAGAGACAGATATGGAATAACTCAATTAGTAATTGATGAATCAATTAGTTTAGAAAATGTTAAATCAGAATATGTTTTAGAAGTTGAAGGAAAAGTTATTGAAAGAAAATCTAAAAACTTAGAACTTAAAACTGGAGAAATTGAAATTAAAGTAAGTAAAATAATTTTAATTAATAAATCTGAATTGACTCCTTTTGAAATAAAAGATGGAATTAAGTCTCAAGAAGATACAAGATTGACTTATAGATATTTAGACTTAAGAAGAGCTGAAATGCAAAATAATTTACTTGTAAGAAGTAAAATGAATCATACAATAAGAAACTTTTTTATTGAAAAAGACTTTATTGAAATAGAAACTCCAATTTTTGGTAAATCAACACCAGAAGGGGCAAGAGACTTTTTAGTTCCTTCAAGATTAAATCAAGGAAAATTTTATGCTTTACCTCAATCACCTCAATTATATAAGCAATTATTTATGATAGCTGGTTTAGATAGATATTTCCAAATTGTTAAATGTTTTAGAGATGAAGATTTAAGAATTGATAGACAACCAGAATTTACGCAATTAGATATGGAAATGTCATTTGCAGATGCAAATGATGTTATGCAAACAATTGAAGCTTTAGTTAAAAAAGTAATTTTAGAAATTAAAGGAATTGATATTAAAGAACCAATTCAAAAAATTACTTGACATGAGTCAATGGACAAATATGGAAATGATAAACCAGATTTAAGATTTGGTTTTGAAATTCATACATTAAATGATATTTTTAAATCTACTCAAATACCTTTGTTTTCTAATCTAGAAAATAAATCAATTAGAGCAATTTGTGTTGATTCTTTATTGAATAAAAAACAGTTAGAGGACTTGAGTGAAGTTGCAAAACAAAATAGTGTCAATATTTTAGCATTTGCAAAATATGATTCTAATGAATGAACAGGATCAATTGGTTCAAAACTATCTGATGAAGAAAAAGTAAAACTAATTAAGGAATTTAATATTAAAACTTCTTCAACAATTCTATTTGTAGTTGAAGAATATTATAAAGCAAGTCAAGCTATGGGATCAATTAGAAATAGAATTGCAAAGATTTTAAACTTATTGAATTGCGAAGAAATGAAATTAGTTTGAATAGTTGATTTTCCTTTATTTGAATTTTCAGAAGAAGAAAATAGATATGTTGCAGCCCACCATCCATTTACTATGCCAGCAGATAAATCACTAAATAATTTTGATTCTAATAAACAAGATGCATTGGCAAAAGCATATGATATTGTTTTAAATGGTTTTGAAATTGGTGGAGGAAGTCAAAGAATTACAGACTCTTTATTACAAAAAAGAATGTTTGATGCCGTTGGTTTATCAAAAGAACAAATTGAAACAAATTTTGGATGATTTGTTAATGCTTATAAATACGGTGCTCCATATCATGCAGGTTGTGCTCTTGGTTTAGACAGAATTTGTATGATATTAACTGGCTCAGAAAATATTAGAGAAGTTATTGCATTTCCAAAAAACTCATCAGGAATTGATCCAATGACAAATGCTCCAGATATAGTTGCAAATCAACAATTAGAAGAATTAAATATTAAGTTAAAGTAATTATGAAAGATGTTTTTAAAATATAAAAAAATATTAATTTAAACACTAAAAAATGGAAAAAATCTTTTGCTTTTTCCATTTTTTTCTAAAATATTTGTATAATTTTAGGTATTTTAAAGTTTATAAAAATAAGGGGAGAATAAGAATTAAAAAAATTATTAAGTATTTTTGCTGTAACTAGCTTAGTTGCAACTACATCATCAACAGTTATATCATGTAAAACTAATAAAGGGGATGGAATTAAAAGTTTAACTTTAGCATCTGATAAACAAATAAAATGGTTATAAAAGAACTATTAGAAAATGTTAAAGCTGGAAAGACAGAATTTCCAGTAGAAATAAAAAAACAATCAAAATTAGATGAAATATGTAGTATACTGCAAAATATCTTTGGAATATACTCTTTGTCAATAGTTGAAATTGTTGAAAAAAATGAAGAAATTATTTTAAACAAAACTTTGGAAATATGTAAAAATCATTTAGGCACTTTTAAAGTTGAAGTTGAAAGAAAAGATAAAGGCTTTGCAATAAGTTCTCAGGAGCTAAATAGTGAAAATTTATTTTCTTAATACTGATATTTTAAAAAATATCAGTATTTTTTATTTAATTAAAATTTTTATAACTACCTTTAAAAATCATGAAATAAATACTTTTTGAATTTATTTTGGAATAATGCTCCATATTTAATTATTTTTAAACTAACAGAATTATTTTAGTTAAAATAGTCATATAAGAAGGAGAAGTTTTATGAATGAGATAAGAGTAGGAGTAGATATTGGAGGCACCCATATCAAATATGCATTTATAAAAGAAAATGAAATTATTTATAAAAATAAATTAGATACACCTAAAAAAGATATTATTGAGTTTATCTTTGAGCAAATTAATATTAGTTTAGAAAAAGAAAACATAAATTATGATGATGTTTTATCAATTTCTTTAACCATACCTGGAATAATTTTTAAAACCGGAAATGCAACATCTGTCAATTTAGGATGAGATAATTATCCTGCATTACAAGAAGCTAAAGAAATATTTAAAAATAAAAAAATAGCAATTTTAAATGATGCTAAAGCAGCAGTTTATGGAGAATACGTACATGGTTTAAAAATGAAAAAACCAAATGTTTTAATGTACACAATTGGTACTGGAATTGGTTCAGGAACAATTATAAATAAACAACTATATTTAGGCAATAATACTGGAATGGTTGGGGAAGTTCATGGGGGAAGTTTTCAAAATAAAAAAGATTGTAAATGTGGTCAGGGAGGATGTGTTGAAGCAGTATCTGGAGCTCAAAACATTGAAAGAATTTTAAATGAAAGAAAAAATGAATTAAGATTAAAAGATAGTGAATTGTTAAAAAAAGAAAAAGTCTCAATAAAAGATCTAAAAAATGAAATATTGAGTGACAATCAACAAATTTATGATATTTTTTATGAAAATCTTTTGCCATTGACTGATCATATGGCAACTATGATACATATGTTTGATTTTGATGTAATAGTAATTGGTGGGGGAGTTTCAAAACTGGGAGACTATATTTTAAAAATAATAGAAAAACAAATTAAAAGTAAAATCTTAAAACCTTATTGAGAAGCATTAGATTTAAGACTTGCAAAACTTCAAAATGATGCAGGAATAATTGGTGTAGTTGAATATTTAAAAAATAATTTAGAAGGTTAAAAAGTGAAATAATATATGATTAAATTTGATAAAAATTTTGAGTTTGGAGTTTCTCTTTCAGGTCCTCAAACAGAAGGTAATAAAAATAAAACTCATGAAAATACAATGGATTATTGATTTAAAAGTAGTCCACAAGATTTTTTTAATCAACAAGGACCTGCTTTGACTTGTGAATTTTATGATACTTATAAAGAAAAGTTAAAATGATTAGATCAAATAGGTTTAGAAACTTACAGAACTTCTATTCAATGATCAAGATTGATAGATAACTTTGAACAGTGTACAGTAAATGATGATGCTTATGAGTTTTATTTAAATTATTTTAAAGAAATTAAAAAAAGAAAAATTAAGTTAATTGTAAATCTTCACCATTTTGATATACCTTATGAAATTTTTAAAAAAGGAGGATGAGAAAATAAAAAAACAATTGAACTTTATTTAAATTATGCTAAAAAGTGTTTTGAATTGTTTGGAGAAATTGTTGATGAATGAGCAACATTTAACGAACCTTCTGCAAATGTTGAATGTCAATATTTATATGGATTTCATTTTCCAAAAGTACAAGATTTTAAAAGATCTATTCAAGTTTATTTTAATTTAATAGTTGCTCACTCTAAAGTTGTTAATTACTTTAAAACAATTTATCCAAATAAAAAAATTACAATAATTATAAGTGTCAATCCTGCATATCCAAAATCACAAGATAAAGCAGATTTAAAAGCAGCTGAATTTAGAAATATGATATTTGTTTATGGTCAGTTAAATTTAATTTTAAAAGGTATATGAACTAAAGAATTGCAAGATTTTTTAAAACAATATGATTTAACTCCTCAATATTTCTTAGAAGAATTGGAAGAAATAAAAAAGGCAAAGATTGACTATATTGCTTTGAATTACTATCAACCTTCAAGAGTTAAAACTAAAGAAAGTAAAAATCAAGAAGAAAAAATTATGCCTTGATCATTTTATGATTATTATGAATGACCAGAGAGAAGAATCAATCCATATCGAGGATGAGAAATATATCCTGATGGACTTTATGATTTGGCTATGCTAATTAAAAATGAATATGACAATTTTCCTTGAATGATAAGTGAAAATGGTATGGGTGTAGAAAATGAAGAAAAATTTAAAGTTGATTGAATTATAAATGATAATTATAGAATTGAATTTATTGAAGAACATTTGCAATTTTTAAAAAAAGCAATTGATGAAGGTTCAAATTGCTTTGGCTATTCATTGTGAACTTTTATAGATTGTTGAAGTTGAACAAATGCTTTTAAAAATAGATATGGTATTGTCGAATATAATTTAGAAACAAAAACCACAGCTATTAAAAAATCTGGAATATATCTCTCTGAACTTATTAAACTGAAATTTAAATAATTAAATCTCAGTTTTTTTGTTTAAAAATAATAATAGTATATAATTTCTAGATAAAATATAAAATTATTTTACAATTATAAAAGGATTTTTGTAGATAAAATATTTTTATATCTATATGATAATGAAATAAGGGGGTGAAAAAATGAAATCTTTCAATTTTCAATTGACATATAAGTACTTTTTTGGACTATTATCATTTTTTACTATTTTTTCTTACTATATTTGAAATATAGCAACAGGAAATGAAATTAATAGTACATATAGTGGAAATTATGAAGTATACACAATAGATTATTTTACAACTTTTACTTTATTATCAAATGTTTTTGTTCAAGCTTGATTTTTATATGCAGCAATTAATCACAAAAATGAAGGAAAAACTAAATTATTAAGTTATACAACTGCAAATTCACTTGTAACTATGATTACTATTACTTTGATCGTTTATAATGGTATTTTAATTCCAGTTGATGGTTTTCCAACTCATCCATTTTCAATTTTTGTTACTTTAATTGATCATGCAATAGTTCCAATTGCATTTATTCTTTATGTAAATTTATTTATGAGAAATAAAGAACAAGTTAATTTAAAAGAATTTTTCTTTAAAAAATTCTGAATCCAATTTATGATGGTTTTAACTTATTGCATCTTTGCCATGATTAGAGGAGAGTTAAGATATAACAGTTCTTCTGACTTATATTTTAAAGAGGGTGTAAGAAATCTACTTTATCCTTATTTCTTCTTAGATGTTCATCACGTTGGGCCAGGAGGTATTCCTGGATATGGATGATTCTTTATTGCATTTTTTGCAATAGCAGGATTACTTGTAGCATTTAGTTTTTTATATAACTTCATAAATAATAAAGTTATTACTAAGGATTTTTATCAAAAAATAAATAAATAAGTAATTTTAATTTTAAATATTACTATATAATATAAGAGTGTTAGACACATCTTTTGATAGCGTATAAATTATTGCCTTTAAAAGACTTATATAGAAAGGCAGTAGAAACAATGGGATTCGATAACAATAGAGATAACTTTAGACGTTCAAGAAATGAAAATGGATCAAGAGATAGTGGAAGATCTGGTGGATCTGGTCATGGTGGAGATCGTGGCGGAAGATTTGGTGGCCGTGGTAGAGACAATGGTGGAAGATCTGGTGGACAAGGTGGAAATTCAGGAAGAATTGATAACTTTGAAAAGCCATTATTAGAACTTTTAAAAGAAATTAATGAAAAATTAGATCTTTTAATTAAAAAATAATTAGTATTTAGAACTTTTAAATAATTTTATTTAAAAGTTTTTTTTATTTTTAAATCTCAAATAATTTAATTTGCAAAGAAAAATTGAATTTATTATTATTTTTGTTATTATACAAAATATAACTTGAATATCTAAAGTTCTAACAAAGCTAATATTATGATGTTTTTTAAATAAATAAAATATGAAAGAAGTTAAATTATATGAGAATAATACCTTATGAACTTTATGAATATGCACCAGATTTATCTTTAACTGCTTTAAGAAAAGAGTTTGGAATGCATGATTATTGTTTAAATTTAAATTTGAAAAATAAAGCAATGCAACCATTTTTGGATATGGGAAGAAATTATTTTAATTTACTAGTATTTAAATGGAATCAAGAAATGTTAAAAAGAAATCATTATATAAACACATTTCACTCAAATTATGCTTTAAATACTACTTTTACAGAGGAAAAAACTGATTATCTTTTAATTCTTGAATGTATTATTCAATGAGAGTTAAAAGACTTTGAACCTTACAATACAAAGTTAAAATGATTTGATATATCTATACAATATTTTCAAAATAGTAGTTTAAAAAATAAAAAATTTACTTTAACTCAATATAATAGTTTATTAAAATGATACAAAGAAAAATTTATGTGTTTAAATGATTCAAATAAGTTAAAACCTAAAAATTTAGATATTAATTTAGTATTGAATTATTTTAAAGAGTTTTTTAGTACATTATAGTTTAAACACTAAAAATGTTTTCTTTTAATAAAAGAGTTTTTATTTTTTCAAAATATAAAGATTTTTTTTTTTTTTTTTACTAATATAAAGGTGAAATAGAAAATTTTCTATTTCGAAAGAAAGGAATCTTATATATGGAAAAATATAATTTACCAAAAGAAAAAATTGAAGAAAGATATGAACAAATTAAACAACATATAAACATAACCCCTATGATATATGCAAATAAATTAAGTATGATTAGTGGTAATCAAGTATATGTAAAATTAGAGAATTTACAAAAAGCAGGTTCTTTTAAAATAAGAGGAGCCCTATCAAAAATGATGTCAATTAGTAAAGAAGAATTAAAAAAAGGAGTTGTAGCTGCAAGTGCAGGGAATCACTCACAAGGAGTTGCTTATGCATCTAACTTGTTAAATTGTCCAGCAACAATTGTTATGCCTGAAACAGCTCCACTTGCAAAAATCAATGCAACAAAAAATTATGGAGTAGATGTAATATTACATGGTAATTTTTTTGATGACGCTCAAGCAAAAGCATCAGAAATTGTAAAAGAAACCAAAAAAACCTTAGTTCACGCATTTAATGATTTAGATGTTATTATGGGACAAGGAACCTTAGGAATTGAAATTTTAGAGCAAGTAAAAGATGTTGATTATGTTCTAGTTCCAGTTGGAGGAGGAGGAATTCTTTCTGGAATAGCAACATATATCAAACAAGTTAATCCAAATTGTAAATTAATTGGAGTAGAGTCTGAAAATGTACCTTCGTATTTTGAAGCAAGAAAAACAGGAAAACCACATACTGTGGCAAGTAAGTTATCCATTGCAGATGGAATTGCAGTAAAAGAAACTGGGGACATTACTTTTAATCTATTAAATAGATATGTAGATGATGTTGTACTAGTTTCTGAACAAGAAGTTGCAGAAACTATTTTATTTTTATTTGAAAATTGTAAAGTTGTAGCAGAAGGTGCAGGAGCAGTTACATGTGCAGCTGTATTATTTAATAAATTAAACATTACAAATAAAAAAGTTGTTTGTCTTTTAACTGGTGGAAATATTGACGTTACATCATTTATTAACATAGCAAATAGAGCTTTAATTGCTCAACACAGAAGAGTAATTTTAAAAATAAATGCTCCTATTTCAAAAGATCATTTATTAAAAATTACAAATGTATTTGCAAAAAGATTTGTGCAAATACATAGAATAAGTGACTCACAAAATGACAATAAATTAGAAATTAACAGAGAAATTATTAAAGTTGTTTGTGATATTAATACAAAAGAAGAATTAAAACTAATAGTTGAGGATTTAGAAGAAATGGGATATGAAATAATGGACAAAAAATATATTGAGGAGATAATTAAATAAAATGAAATATATAAAAACTGATAAAGCTCCAAAAGCAATTGGTCCTTATTCTCAAGCTGTTCTTCTAGACAATGGAACATTATTTGTTTCAGGACAATTAGGATTAGATCCACAAACTATGGAATTAAAACAAAATATTAATGAACAAACTATACAATCACTTAAAAATATAGAAAATATTTTAAATGAAGCAGGATATAAAAAAAATAATATAGCAAAAGTTACTATTTTATTAAAAGATATTAATGATTTTAATACTGTTAATGAAATTTATAATTCATTTTTTGAGCAGCATAAACCAGCAAGAAGTACTTTTGCGGTTAAAGAACTACCAAAAAATGGTTTAGTTGAAATAGAAGCAATAGCTTTTAAATAATCAATTGAGACAAGAAGAAGCCTTAGGGTTTGTTCAAGAAAATGAATTATATTTAAATAAGAATACTGATACTTTGTATAAATACAGTGAAATCAAAAACAATATTAATTATTTCTACAAGTGTGAATTAAAATATTTAAGAGAAAGATATATTAAAAAAGTAATTTCAAAAGAAGAGTATCTATCAATTAAAGCCAAATTAAAAGAAGTAGTTAAAAACTACAATGATAAAATTAATATAATTTTAGATTATACTTATTCATTATCTCTTGATGCTTTTAATAAAGGAAATGAGTTAAAAGATAAAATAGATTATGTACAGCTAAAAAAACAATATGAAGATGAAATTGATGAGATTAAAAAAGAAATAATATTGGATTCTGAAAGAAAGCAAAAAATTAAATTAGTTAAAAATAATTATGCTACTTATAAAAAAAATATTTCTTCCAAAGTAATTAAATTAATAGGAATAATTATGGTACCTTTATTTCTTTTATCTGCTTTATTGTTAAATTATTTATATTATTTTGAAAAAGCAAATAATGGTAAAGAGTTTGACTTTAAAGATTCAAATCATTTAGTGGCTTTTATAACAGTAATAATAGGTTGTCTTTTAATATTAGGTTTTCTTGCATTTATGTCGATATTTACGATCAAAAGATTATTTTTAGATAAACAAGAAAATTTATTTGTAGTTTCAACAATTGGAGGTGTTGGAAGTTTTACAGATACTATTGGTGTTGGAAGTTTTGCAGTAACAGTTGCTCTTTTAAATGCAACTGATTCTGTAAAAGATATTAAAAAACTTCCAGGTACTTTAAATATGGGTCTTGCAATTCCAAATCTATTTGCAGGAACTTTATTTGTAAGTGCAATTGAAGTTGAACTAGCAACTTTAATATCTTTAATAATTGCTGCAATGTTTGGAGCATTTGTAGGAGCAAAACTTGTTAATAAAGTTAATAAAGCTTTTGTTGCAATTTTCGTGTCAATATGTCTTGCCATTGCAGGATTATTGATGATGTTAGCTCAACTTAAAGTTATTGGAAATGTTGAAGGTTCAAAAGATTTACCAAATGGGTTGGAAGGTTGAAAAATTTATGTAGGAGCTATTAGTTTCTTTGTAATTGGGGGACTTCAAAGTTTTGGTGTAGGTCTTTATGCTCCAGCTTTAGCAATAATTTCTTTATTAGGAATGAATATTGCAGCTGCTTTTCCAATTATGACTTGTGCTGCTGGTTTTTCAATTCCAACAACTGCATGAACTTTCCACAAAAATAATGATTATTGTCCAAAAGTAAGTTATGGATTAATGTTAGGGGGAGTTATTGGTACAATTGTAGCATTTTGTACAGTATTTGTAGGTATTCAGGGAGGTGCTGGTCTTGAAATGTCAACATTTACTTGATACTTAAAATGATTTGCAATAGCTGTTATGTATTATGCTTCAACAATGTTAATGCTAAAATTCATTAAATTAATTAAGGAAAAAGATAAAGAAAAAGTAGTTGAAAAAACATATGAAAATTTCTTTGAACAACAAGACTCCATGAAAAAAATTGAATATGAATTAAAAGAAATTTCTATGATTAAAGATATTAACTTAGATAATCTGAAAAAAACTTTAGAATCTAAAAAAATAAAACTTCATAAATGAAATTAAATTTTGTAAAAAACTCTACTTTAAAAAGTAGAGTTTTTTGTTTATTATCCATTGTATTAACTACAAAAAAATGTTATTCAAATTAAAAGTAAAATATACAAAGTATTGTATGTTTTCAACTCTAAATTGTTACATATAACAAAATTTACTATAAATAAAAGTCCAATAATTTATTATTAAAAATTAGCTTAGAAGGTTAAATAAAAAAACAAAATAGAAAATAATATTATTTATTTTAAGCTCAATAACTATGTATATATTTTTAAAATTTTAAGAATTTAGATATATTTTATTTTTAAAAAATATGTTATTTTATTAAAAGAGGAAAATCAAATGAAAAAATTATTAAGTTTTATATCTACAGTATCACTAATAGTTTCAACTTCAAATAGTGTTATTTCTTGTGGTGTTTTGGATGGTAATAACAATAAAAAAATAAGTTTATCATCTGTTATTTTAAACTCAAATTTAGATAAAATTGCAAATAATTCTGCAAGTACAATTTTAGCTACAGTTAAATTAAAAAACTCTCAATTTGAAACAGAACATGTTCAATTAACTAATATAACAAAAACAACTGCAACTATTGTAAGCAAAAATGATGGTTATTATATTGGAAATGTCACTGTTACTTTTACTATTAAAGAAGAAAATATAGAGCAAATAGATAAAGTATTAGTTGGTTACTATTATGATTGAGGAGGAACTGGCCAAGTAAAACCAAGTTTTCAAGAACTTGCAAATACAAGATATAACGTAATTGATGTTTCTTTCTTATATTCAAGTTCAGCATATCAAATGCCTATTTATCAACCCATAAATGCATATGAAGTAAAAGAGGGAATCAAATTATTACACTCAAAAGGCAAAAAAGTTCTTATTTCAATGGGTGGAGCTACAGGAAGCGAAATGAGATTTAGAACTGATCAAAAAGATCAATTAAAAAATACTATTCTTTCAGTTGTAAATGATTATGGATTTGATGGACTGGATATTGACTGAGAAGGTGGATGTTTATCTGATAGAATAAGTCAAAAAGTAACAATTGATGCACTAAAGGAAATTAAAGATGCTAATTTTGACTTTATTATAACTATGGCTCCAGAAATGCCATATTTAAAAAATAATACAGAAGATGGTTCAAAAGGAAGTTATATTCCATTTTTAAAAGGATTAGATAAATATTATAATTGAATTAATCCTCAATTTTATAATGGCTGAGCTTTTGGGACTTATGTTGAACAAGAAGAAGCTAAAAAATTTAATTTACCTTATTTAAGCAATATTTCAAATGATGATTTAGAACATAGAGCAGAATTTTACTATATGATGACAAAGTATATGACAACAACTTATAGTTCAAATAATGATTTTTATCTAATAAATCCTGAAAGATTTGTTTTAGGAGCTTCTACAAATGAATTGGCTGGTAGAGGCGCTGCAACTGAAGAAGCTATTAAAAAATCATATCAATGATTGAGTGAAGATGGAATATATACAAAAGGTCTTATGACCTGAGCTGTAAATTATGATGTTTATGAAGGTACTTTAATAATAAATGGCCAAGTAGTTAATTGAAAAAAATGAAGTTATGAATCATGATTTAATGAAACTCATGGAAAAGAAAATAAAAGTAAATAATCAATATTTTTAGTGTATAAATTATTTTAGGTGATAAAAATGAAAAGAAAAGAAGCTGAAAGTAAATACAAGTGAAATCTAATTGATCTTTATAAAACAGATGAAGAATTTTTTAAAGACCTTGACTTATACATTAAAAAAAATAAAGAATTGTTAAAATATAAAACCAGTTTGAATACAAAAACTGGTTTTCTTGGTTTATTAAGAGATTCAATAGTAATTGAAAGTTATATTTCAAAGATAAATCATTTTTTAAAACTTTTATATGTGGAGCAAAAAAATGAAAGATTAATTAATCTTGAATCAATTTATAGTAAAAAAATGCAACAATTTGATGGTAAATTTTCATGAATAAATGAGGAAATTAAAAATGTTGGAGAAAAACAAATATTGGAATGATTGCAAACTGATGAAAAGTTAAAATATTATTCAAAAAGTTATAAAGATTTTTTTAAACATATAAAGTATTTGCTTCCTCAAAGAGAAAGAGAATTAATTTCAAAAGTATCTAATTCAAGTTCTATAATTTATGAAATGTATGAAATAATGAAATTTAAAGATAATGAAGAAAAAGTATTAGACTACAAAGATAAAAAATATATTGTGAATCAAAAACTGCTTTCAGATTTATTTTCTCACTCAGATCCAATAAAAGATCAAGAACTTAGAGCTTTATGTAGTTTAAAATATAATGAAAATAATAATATTAAAAAACATAGTTTTGCAAAAGTTTTTGAATCTATTATAAAAGAAGAGATTGAATCTGCTCAAATTATTGGCATGAAAAGCTTTAAAGAGAATTTTTTTGATGATGATGATTTCTCTTTTCAAGATTTTCTAAATTTATTAAGTTTTACTTCTAAAAACTCTAAGGTTTTTTATAGTTATTATCAAATTATAAAAGACTATTTAAAATTAGAAAAATTTTATGGTACTGATTCTAATTTAGAACTTGTTAAAGTTGAAAAAAGAAGTTATTCAGTAGAAGATGCAAAAAATATAATTAGAAATTCACTGAAAGTTTTAGGAGAAGAATATATCTCTAATTTGGAATATTGTTGATCAGATAATAAAATTGATTATTTTGAAGATAAAAATAAATCAACTGGAGCTTTTACTGTAAATAGTTATACTTATGATTCACTTATTGCAATGAATTTTACAAATGATATAGATTCTATTTCAACTCTTGCTCACGAAATTGGTCATGCAGTTCATAATTTATTTGCTAAACAAAATCAACCAAGACCTTTAAATGGTTTTTCAAATATGATTGCAGAAGTGGCATCAACATTTAATGAGCATTTATTATTTGATTATTTATTGAAAAATGAAAAAAATGAAAATAAAAAATTAAAGTTAATTCAGAATAGAATAGAATTTATTTTTAATAATTTTTTTTCAGCTATTGCTGATGCAGAATTTGAATTTCAATGTTATCAAGAAAGTGAAAAGGGTACAGTATTAACACTTGATAAAATATCTGAAATTGTAAAGGAATCAAATAGAAAAATTTTGGGCAAATCAATTTTTGATAAATTCAATCCTGAAAGTTATAAATTTAGTTGAATATCTATTTCTCATTTATTTGAACAGCCATTTTATATCTATAAATATGCTGTTTCTATTGCAGTTTCATTTAAATTATATTCAGAATTTAAAAAGACAAATAATTCAGAACAAATAATAAACTTTTTAAAAGAAGGGGGAAATTTAGAAATAACTAAATTGTTTCTAAAGTATGGTTTTGATTGTAAAGATGAAAATTCTTATAAAGATATAATTAATGAAGCTAATAGTTTAGTTAAAGACTTTGAAAAATTATTATTAAAAAAACAACTTAATTAAAAGTTGTTTTTTTAATATACATTTGATAAAAATCTTGAGTAATATCTAGTAATTGAATTTGAAAATACTATTATTTCAATTGATAAAATATTGATATCTATTAAATTTTGTTCAGCTATCTTATTTTTTTTCTTTAACATTCTACAATATTTCATAATTTCTCTAACAACAAAATCTATATTTGTAATTACTTCTTTACTTGAGAAAACTTTTTCTGATAGCAAATCAATATATTCATCTTTTTTTATAATTTTAGAAACTTCTTTTCTAAATAATTCAAAGTATTTCATAATGCAATCATTGACTAGTTCCAAAGCATATTCTTGTTTTTTGCCAATATTTTTATTTTCAATATCGTTAAAATAAACACATAATAACTCTATTGATTTTGCTCATCCAAGAAGTGAAACATAATCAACAATTAATTTATGAAATTTTGATAATAATCTCAAATTTGAGTTTATTAATTTAAACTTTTGATTATAAAAGTTTGAATAGTTATCTATTTGCTGAAAAAATTCGATATATTTGTTATAGTCAGTTGTATATTCAAGTTTAAAATTATCGAGATTTTTATTAAATTTAATCAACCAAATTTTAAGTCTTTTAACATTTTTTTTAATATCCTTTTCTCAATAGGGACTAACATTTTTTAAATTATTAATATCTTTTTCACTTATTTTAAAGGGTTTAAAATTATTAATCATTTTATCAAACTTTCTATAAATTGATATTTTTATTATATATTAATAATATACAAAGAAAAGGAATACTTTTATGCTTGGCAAATATGAGTTTAAAAAAGAAGAAATTGAAGAAGTATTTATTTTTTTTGAACCTGCTGTTCATACAATTCGTGTTTTATTAGATGAACAATGAAAGCTGATGAATCATTATAATTTATTAGATAAGGATTTTTTAAAAATATTTAATTTCTTTAATAACATGCAATATTTAGATCAATTCAACGAAGGAAAAGATTTAATTGCTTTTTATTATAATGATTTTTGAAATATATTAATAAATCTTAATAAAAGTCAAATAGTGGATAGACATAGATTTTGACCTAATATAATTTCAATTTTTCAGATGTCAAAATTATTAGATAGATGAATTAAGATTAGTTATGATAATTTAAAAAAAGGGAAAAAAATATTGAATATTAAAGATTGTTTAAACGACACTAAAAATATTATTACAAATTATTATAAACACTTAAAAGAAGCTGAAAAAGACTTATTTTTTAATAAAAAAATAAACTCAGTTTTGTATTTATTTGAAAATTCAAATAATTTTGAGAATATGGAAAAATGTGCAGAGCTAATTTTAGAAACTATAGAAGAAAAACAAATAAATAATAATAAAATTCACAATATTTTTGAACCCGATTCACAAGATTATTGAAATACATTTAATATTCTTACAAGAATATCTATTTTATCTAGTTTCGCAATTTTATTAAAAAATTAAATAATTTTAAATTAATTTAAAAATCTCTATTTAAGCTTATTAACAAATAAACAATTAAATGCTTTTACATAGCCTAATATAATGTGATGCTTTATATTTACCCCTAATTTTGTTATAATAATTAATATTGAATCTTAAGGGAGATAAAAATATGCAAGTAAAAAAAATTATAGCTAAAAATTTCTTAAATCCAGGAGAGCAAACTTTTATTTTTAATGATGAACAAATTTTAACCCATGGTGTATATAATGATGCAAATGAAGTTTTAATAATAAATGATTTAATAAACGGTTCTTGATTTAATTCAACTATGAGTTTTGAAAAATATTATCCAAAATTTGCAAAAAAATTAAAAGGAAACGAGATGGATTTCCAAATTGATGCTTTATTTGTATTAACTGATGAAGAATTAGAGCAATTTAACAAAATTCTTAAAGGTCTTGGAGTTGCAAGACCACACAAATCAAAATTATATTATTATTCAATTAAATGTATATTTCCATTTATTTTCCCAATAGTTACTGTAGTTCCTGCAGAATTTGAAGATGAAAAAATAATAGGAATTGGAAATCATTATGAAAAATTCTTTAGAGCAAATTTAACTAAAAGAGATATTTTAAGTACAATGGGTATTTTTGCTGTAGGAAAAATTAGAGAAAAATATTTTGAATTTAAAGATATTGAAGTAAGTGAAGAGGACAAATTAACTTATAGAAACTTTTTAGATGTAATTAAAGCAGTATATCAATATGATGAAGAATTTATTAGAAAATTTGGTCAAGCAATTTACAGTATTGATGATGGAGATATTATCAATTATGCTGATGAATATGAGTTCTTTTTGAAAAATAAATATTTTAATGATTTTTTAGATACAATTCCTTTATTTAGAGAAGAACCGATATTTAGAGATTATTTTTCAAAACTTTTATATGATATTTATTTGATAGATATTAAATGAATCTATTCAGTTAGAACTTTAAATAATATTGTTGAACTTAGACAAAATGTATTTGATAATTATTGTGAAAGAGCATATTACTCAGAAGAATTAATAAACTTTTTTAATGTTAAATTTAAGCTAAATAAAAAGTTATTTAACTATATTGCTCCAACAAATCAATTTAGAAGAAATATAAACATGGACAAAACACTTATTTATAAGGATGAACCAAAAATAACATCAATCTTTGAAAAGGGCGCAGTTGATCCAAAAATTATTAGACCAAAAGAAGTAAAAACATTTAAAAAAAGAAGAAGATAAATTATAGATAAATAATTAGGAACTATTGTTCATAGTTTATCTATTTTTTTTATGGGGAATTATTATGGCAGAAATTAAAGAAACTGAATTATTATCTAATCTTGTTGATATACAACAATTATATAAAAATGCAAGAAACACAAAAATTTCAAATGAAGATACACAAAAGTTTATTGACTCAATTTTTGGTAATTATTTTTTAGATAATGACAATATAAACTTTTTACTTAAAAATGGTTACAATTTTTTCTCATTTGATGATGAAGAATTATGTTTTTGTTTAAGTGGTTTTCAATTTAAAAATTGCTGTAAATTAGAATTAAAGAATGAAAAAAATAAAAATTATATTCCGTTCATTAAAGCAATTATTAAATTTGAAAAATATAAAGATTACTTAGAATTTTCTTCAAAATTATTTGAAAAAGTATATTTAAAATTAGCAAAAAATGAAAAATGTAACTTACCATATTGTCAAAGTAGTGCAGTTGAAAATTCACTATATAATATAAATTTTGATGAAAATGATTATGTTTCATCAAATAAAAGAAATATATTTGATAATTATTATCAAATGGGTTTATCATTTTTTAATAGAGTAGAAAATAATCAATTTAAATTCTTTGGCTTTTGTAAGGAACACGATAATCAAATTAAAAGTATTAAAATAACAAAAGATAGTGTGGATCAAGATATTCTGCTTTTAAATTTTGTAACTATTGTTTATAAATTATTTATTGCAAGAGTTCAATTACAAGTTTTAAAAGAAGAATTTAGAAGTTATTTTAACTCTATAGATGAAGAAAATATTAAAACTTTATTTATATATAATTTAAAAAAAATATCTAATCATGTAAGTTCCTTATTAGAATTTTATAGTTTTTTTATTGAATCATTAAAAGGGGAATCAATGAAATATGAAATTATTAAATTTACTTTAGCTAAAACAAATAATTTTAAAATCTTTGATGTTATCCAACCTCAAATTACACCAGAAAATTTTAATGTTATTAATTCAATTAATAATATTTTTCTTACAGAAAAATTTGCAACTATAGTTATGCAAGAAGATAAAAAAAACTCATTTGTAACAATGGTTTTTGATAAAACAAATAAAAGTGTTAAAGATTTCTTTGATCAATATTTAAAAATTATTAAAAGAAATAGTAAAAGTGAAGAGGCATTTATTTCAAATTGTGCTTTAATTTTAGCTGACAATATTATCTATAATGAAAAATGATTTAACAAGTTAGAAGAGCAAGAAAAATACTTATACTCTGCTTTAAATAAATTTAGATTTGAACATCCAAATATGGGACAAGAATATTTAAAAATGAAATTTTTTGCAGGTTTTAATAAAGGAAATAATTTCTTTTAATATAGTATTTTTATATCCTATTGTTTTATTGAAATAAAAAATGCTGCTTTATTTAGCAGCATTTTAAATATTATAAAGAATGTTCTCAGTCTATATTATTTTCTTCATCTTTATTTTTTTTATAACAACTATCGCATACAAAAATAGCTACTTCATCGTTAATATTTTCATCATAAACATAGATTCTTTTTTTATCCATAAAATTTAAATCATTGTTACAATCAGTATTTTGACATTGCTCTTTCATATTTTTCACTCCCTAGTATTATTTTACTTAATATTGCTAAAAAAGATAGTTAGATATATTAAAAAAGAAGATTTTTATATAAAAAAAAAAAAAAAAACGATAATATATCATTTTTTAGAAATTACTTGTTTTTAATATAACATAATCTACTTTTTTAATATCTTTTAATGTTCTTCCTCCAGAATATGAAATAGATGATTGTAAATCTTCTTGCATTTCTTTGTAGGTTTCCATTAATTTACCTCTAACTTTAATTAATTCTTTTTTTCCTTCAACATATCTTTTTTCACCTTTATTATATTCACTTGCGCTTCCATAATATTCTTTAAATAATTCTCCATCAATTGTAACATTATTTCCTGGTGATTCTTCATGAGCTGCAAATAAACTACCAATCATGCACATAGTTGCTCCAAATCTTATTGATTTTGCAATGTCACCGTTAACTCTTAAACCTCCATCAGCAATAATTGGTTTATGAGCTGCTTTGCTACATCATTTAATAGCACCCAATTGTCATCCACCAGTTCCAAAACCAGTTTTTAATTTAGTAATACATACTCTTCCAGGTCCAACTCCAACTTTAGTTGCATCAGCACCTCAGAATTCTAAATCTCTTACTGCATGGGGTGTTCCAACATTTCCTGCTATTATAAATGTTTTATTTTCTAAGTGTTTTCTAATATGTTCAATCATATTTCTAACGCTTAGTGAATGTCCGTGAGCTATATCAATTGTTATATAGTCAGGAATTACATTTTCTTTTGCAAGTTTTTCAATAAGTTTATAGTCTTCTTTTTTAACTCCTACACTAATTGATGAAATCAATTTTTTTTCTTTCATTTTTTTTGTAAATAAAAATGAATCAACATTAAATCTATGCATTACATAAAAATGTCCTTCTTTTGCAAGCATTTCACATATTTCTTCATTAATAACTGAAGCCATGTTTGCTGGCATAACTGGCATTTTAAATGTATATTTTCCAAGTTTTGTTTCTGTGTTACATTCACTTCTTGAATTTACTACACACATACTTGGTATAAGTTGTATATCTTCATAGTCAAAAGCGTACATTTGTATTTCTCCTTATGTCCTAACAAATTATAGCAATAAAATATAAATAAATAAGGTTTTTTAAGTTATTTATTTAAAAATTTTTAGCTGCTTTAATTATTTGATCTGCTATTGTATCTATTGCTTCATCTGGATTTGTTGTTGAAACTGGAGCAATTTTTGTTCCTGCAAATAGAATAGGTTCATTTACTTTTGCACCTACAAAGTTTCATGTTCCTTTTAGAAACTCTGTATGATTTCCTCATGGATATCATCCAAAAGGAGCTCCTTGTGTAGTTAGGATTTGAACAGTTAAATGTTCTAATAATCCTTTTGCATCTCCTTTTTTAACATATTTATATGAAAAAGTTTGATCTGCTAATAGAACATGATCTAGATAATTTTTAATTAAACCAGACACGTTAAAATTATTCATTGGACTTGATATAACTATTTTATCTACTTCTTTTAATTGATTAATATATTTTAAAGCATCGTTTTCATTGAAATATACTCCAAAGTTTTCTCTTGATAAAGTTTTGTGAGCCATTTCTTCTTTATTTAAATCTAAATTAATTATTTCATCATCTGGATTTAAAGCTTTGTATTCTTTAATAAATCTATTTGTTAAAGCTAATGAAAATGATTTTTCAGCAGGACTAACTGTTCCTGTAATTACTAACACTTTTTTTGACATAATTTCTCTCCTTATCGCTAGTTTAATTTTATAATTAAATTAATAAAAATAATTTATTAATTTAAGAAATTATATATAAAATAAATAAAAGAGGTATAAAATGGAAAAAGTTACAATAATTATTATTGCTGGGGGAAGTGCTGGGGGAAAAACAACTGTAGCACAAACAATAGCAAATGAAATTTTTATGGACAAAGATGTAGTACATTTATCAATGGATAGTTATTATAAAGATTTTAGTGATTTATCTTTTGAAGAAAAGCAAACTTTAAATTTTGATCATCCCAGTTCATTAAATATAGAATTACTTTGTCAACATTTAGATAATTTAAAACAGTTTAAATCTATTGATGTTCCTGTTTATGATTTTAAAACTCATTCACTTAAAAATGAATTTATTAAAATAAATCCTTCAAATGTTGTTATTTTAGATGGTATTCTTTCTTTACATATAGAGGAAATCAGAAAAAGAGGAGATATTAAATTATTCATTAGAACTGATGATGATATAAGATTTATCAGAAGACTTTTAAGAGATGTTAATGAAAGAGGAAGAAAACTAGAAGATGTTGTTAATCAATATCTAAATACTGTAAAGCCAATGCATAAATTTTTTGTAGAGCCATCTATTGATTATGCTGATTTAATTATTCCTTATTATGAAGGTAACAATATTGCAATTGACATGGTCGCTTCAAAAATAAGTAGTCTGCTAAAAAAATAAAATCATTTTAACCATTAATATATAAAGAAAATGAGTTGGAAAACTCATTTTTTTGATAAAATTTTTCTCATATTTAATGTTTTTTTAGTAATTTTTATGAAAAAAACAATAAAAACCCCTTAAATAAAGGGTTTTTTAAGAAAATTGACATTAAATATTTAAATGTGATATATTTATTCTAAATGGAATATGAGGTAAAAATATGAATGAAAATAATAAAGATTTATCTTATACAGAAGATAGTATTCAGATTTTAGAAGGTTTAGAAGCTGTTAGAAAAAGACCAGGTATGTATATTGGTTCAACTGATTCAAGAGGACTTCATCATCTAGTTTGAGAAATTGTAGATAATTCAATTGATGAAGCATTAGCAGGTGTTTGTACAGAAATTAATGTTTCAATCGAAAAAGATGGATCAGTAACTGTAAAAGATAATGGTAGAGGAGTGCCAATTGGGAATTATAAAGGTACAACTCAATCAACTCCAGAAATAATATTTTCAGTTTTACATGCTGGGGGTAAATTTGGTGGAGATGGTTATAAAACTTCAGGAGGACTTCACGGTGTTGGTTCTTCAGTTGTTAATGCACTTTCAAGTAAATTTAAAGTAACTATTTATAGAGATGGTGTTATTTCTAAAATCAAGTTTGCAAATGGTGGTAAATTAGTACAACCTTTAAAACAAATTGGAACAAGTAAGCAAAATGGAACAGTTGTTAATTTTTTGCCTGATGAAACAATGTTTTCAACAACTAAGTTCTCTTTTTCAACAATTAGTGAAAGACTAAAAGAGTCAGCACTATTAAATTCAGGACTTAAGTTAACATTGAAAGATAATAGAAGTGATAAATATGTTGAATATATTTATGAAAATGGTTTAACAGAATTTGTAAATGAACTTAAAGGAGGTCAAAAATCTTTATGTTCTCCAATTTTATTAAAAGGAAGCGAACAAAATATTGATGTGGAGATTGCTTTAACATATACAACAGATTTTTCAGAAACAGTTTTAGGTTTTGCCAATAATGTTAAAACAAGTGATGGGGGAACTCATGTAACTGGTTTTAGAACAGGTTTAGTAAAAGCATTAAATGAATATGGAAAAACAGAAAATATTTTAAAAGAAAAAGATAAAAGATTAGATTCATCTGATATAAAGGAAGGCTTAATTGCTATTGTTACTGTTAAAGTTCCTGAAGATTTAATTCAATATGAGGGACAAACTAAAGGAAAGTTAGGTACTAGTGAAGCAAGAACTGCTTGTGAAAAAGTTACAGAACAAAGTATTAGTTTTTGATTACAAGAAAATAAAACAATAGCTATCTCTATTATTGAAAAAGCTCTTTTAGCAAGAAAAGCAAAAGAAGAGGCAAGAAAAGCAAGACAAGCTGTTAGAGATCAAAAATCTAAATTTAAAGCAAGAAATATGCTTGGTAAATTAACTCCTGCACAAGGTAAAAATAAAGAAGATAATGAATTATTCTTAGTGGAGGGAGACTCAGCTGGAGGAAGTGCAAAATCAGGAAGAGATAGAAAATTCCAAGCTATTTTGCCTTTAAGAGGTAAAGTTATTAATGCAGAAAAAACTAAATTAATAGACTTATTAAAAAATGAAGAAATAACAACAATTATTAATGCAATTGGTGCAGGTATTGGAAGTGATTTTGATTTAAGTGATTCAAATTATGGAAAAATAATTCTAATGACCGATGCTGACACTGATGGAGCACATATTCAAACATTGCTATTAACGTTTTTCTATCGTTATATGAAGGAATTGATAATAAACAAAAATATTTATATTGCTATGCCACCTTTATTTAAAGTAACAACAGGTTCAAATAAAAAGGACTTTATTTATTTATGAACTGAAGATGAATTAACAAAGTTTATGAAAAAAGCAAAATCAAAACTGGAAATTCAAAGATATAAAGGGTTAGGAGAAATGAACGCTGACCAACTTTGAGAAACAACAATGGATCCAGAATATAGAAAGTTAATTCAAGTTACAATTGATGATGCACTTGCTGCAGAAAATTCGTTTAGAACTTTAATGGGAGATAATTCTGAAAAAAGAAAAGAATGAATTGAAGAAAATGTAAAATTCACACTTGAAGAAAAAGTTGAATTTATTTAATCAATAATAAGTATTTAAAGGGGTGATAATAGTATGGAAAGCAAATTGAATTTTAATCAAAAGGTACAGATTATTTTAAGTAAATTTGAAGAGCACAATAAAATAAATAAAGATATTAAAAGATATGGAAATATATTTAATACTTTTGCTTTTACTTGAGAAATTAAAAAACCAAATTTATTTTTTGAATTAAAATCAACTGATTATGATGAAAATAATTTTTCCATTACATCACTTGCCGGAGAACAATCAATTGAAATAAATATTGAAAATGATAATGAAGTTAACTGATTAATAAAAACACTTAATAAATTTATTGAAAAATCTTATAAAACAATGAAAAAAGCAAGAGAATTTTCAAAACCTAATGTAGGAATTTTAATTTATGATGAATTCACTGATTCTTACTTTTTAAATCCAACAACAGGACCAATTCTTTTAAAATCCAAAGAAATTTTAAAAGAAATTTCTTCAACAAGAATTGATATTTTTAATATTTTTATTAATTTGCGTTCTATTGCTGTTGAAGAAGACAGAAGAATTGAAATTTTTGGTTATTCAAAACAACAAATCATCAAATCAATTAATCAATCAATTAATAATATTAAAGAGTGCTCTACTAAAATAAGAAAAATAGAGGGTATTCCAAGATATATTGCAACATTAAAGCAAGAAGAAGAAAAAATCTTTTATAATAATTATGCAACAGTCAATTATGATTTAGAAAGTGAAAATCTTAAAAAAGTTAATGAAGTTCAAGTAGAAGCTAATTTGGAAAAGATTGAAGATTTAGAAAAAATATATATTCAAATAAGAAGAGATGAAGAGATAAACAAAACAATGATGGATTTAGCAAGAAGTTTAATTGCAAAAAATGAACCTAAACTTTATACACAAAATTCAATAACAGGTATGTGAACATTATCAAAAGAAGGTAGAGATACCATGAGAAATCTAAATATAATTGATTTCATTAATACAGATATTAGTGAAATCAATTATGAAATATATTAGGAGGAAAATATAATGGCAGTTAAAGATGAAAAGGGAATTATTAATTTTGCACTTGAAGAACTGATGGGTGATCGTTTTGGAAGATATGCTAAATATATCATCCAAGAAAGAGCCTTACCTGATGTTAGAGATGGTTTAAAACCAGTACAAAGACGTATTTTGTTTACAATGAATGAAATCAATTTAACTCATGACAAAGCATACAAAAAATCAGCTCGTGTTGTTGGGGATGTAATTGGTAAATACCACCCTCATGGAGATACTTCTGTTTATGATGCTCTTGTTCGTATGAGTCAACATTGAAAATTAAATATTCCTTTAGTTGATATGCACGGTAATAATGGATCAATTGATGGAGATAGTGCAGCTGCAATGCGTTATACTGAAACAAGACTTGCAAAAATTTCAAGTATAATTTTAGCAGATCTTCAAAAAAATACTGTTTTATTTGCTCCAAACTATGACGATTCAGAAAAAGAACCAACTGTTTTACCTGGATATTTTCCAAATATTTTAGTTAATGGAGCAACTGGAATTGCTGCAGGATATGCAACAAATATGCCTCCACACAATATTGTTGAAGTAATTGATGCAATTATTGCAACAATTAAAAATCCGCAAATTAAATTAACAGATATTTTAAAAATTGTAAAAGGTCCAGATTTTCCAACTGGGGGAATTGTAATGGGACAAGAGGGAATTGAATCTGCATTTGAAACTGGAAAAGGAAGAATTATACTTCAATCAAAAATGCACAGAGAAGAAGACAATATTGTTATTGATGAAATTCCTTATGAAGTTGTTAAACAAGATCTTGTAAGAAAAATAGGAGATGTTGTTGACGCAAATCCACAAATTGAAGTAAAAGAAGTTAGAGATGAAACAGATAGAACTGGATTAAGAATTGTAATTGAATTATCTCCAAAAGCAGACTATGAAATTACAAGAAAATTCTTATTAAAAAATACACCATTACAAGTTTCATATAATTATAATAATGTTGTTATTGTTGATAAACAACCAAAACAATTAGGTATTATTCCAATAATTAATGCTTATATAAAACACTATAAAGAAGTTTTTACAAGAAAAACTCAATATGATTTAGATAAGGCAGAAAAAAGATTAGAAATAATTGATGGTTTAATAAAAGCAATCTCTATTTTAGATGAAGTAATACAAATTATTAGAAATTCATCAAATAGAAGTGATGCTATTGCTAACTTGATTCAAAAATATGAGTTTAGTGAAACACAAGCTATTGCTATTGTTGATTTAAGACTTTATAGATTAACTTCAACTGATATTGTTAAATTAGAAGAAGAAAAAAAAGAACTTGGACAATTAATCTCTGAATTTAAATCAATATTAGGAGATGTAAAAGTTTTAGATTTAAAAATAATTGAACAATTAACAAAAACAAAAACTGAATTTAAAGTTCCTAGAAGAAGTGAAGTTGTAGGCGAAATTGAAAACATTGATGTAGAAATTAAAAAAACAATTGTAGAAAAAGATTACACAATTTGAATCTCACAAGATGGTTATCTAAAAGCAATTGAAGACTCACAACTTGGAAAAAACTCAATGGAAGACTTTAAACGTAAACCAAATGATATTTGAATTTCACAAGTGCCTGCTTCAAGTTTAGATTTTATTTTATTAGTATCAAGTGCAGGAACATACTATTCTATTCCTGTTTATAAGATTACTCCAAGTAAATGAAAAGAAACAGGAATGCATATAAATAAAGTTGCAACAATTTCAGGAAATGAAAAAATTCTTGCTGCATTTGTTGTAAAAAAATTTGAAAATGCAAAACAAGAAATATTGTTAGCAACTAAAAAAGGTATGATTAAACGTACTCCAATTGAAGATTTGAAAACAAAATTATTTTCTAAACCATTTAGAATTATTAAATTACAAAATGAAGATGAACTTGTGTCTGCTTCATTAGTAACATCTCAAACAAGAACAGTAACAATGCTTACAAGAACTGGATTTGCAGTTAGATATGATATTGCAGAAATTCCTTCTGCAGGTCCAAATGCAAAGGGTGTTAAATCAACAGTTGTTAAAGATGAAGATATTGTTGCAGGTAAAGCATTTACAACTGGAGATGTTCTAATAATTACAAATAAAGGTAATGTTAAAAAAATTAAACAAGATCTTGTTCCAATTATGACAAGACCAAAACGTGGTGTTAGATTATATCCATGAAATAAAAAACGTGATGAATTTGCAACATTCTTATACAATGTTCAAACAAAAGATATTCTAAATATTTTAGATGAAGAAGATAACTTAACACAATTAAATGTTAAAAACTTTAAATTTGCTGAATTAGAAGATGTACCTGAAGATTTAGATATGCCAGAAATAATAACAAGTACTTTAGAAAAATCATTTATTATTAAAAATGGTGATATGCCACCAGCTCCAAGAAGTGGTGATGAAGAAATTGCTAAAGTTATTGAACCTAAGAAAAATATTGTAGAAAAAGAAAAAGTTGAAAAAAAGAAAGTTGTTAAAGAAACACAAGAAGTTGAAAAACATATTGAAGTTAAAAAAGTAGAAAAAAATGAAGTACTTGAAAAAACAAATGAAACTAAAAATATTGAAGTAAAATTAGTTAACAATTCAAAATTAGAAAAAGATAATTCAAATATTGAAGATGAAGATACAAGTGAACTTAAAATAGATATAGATGATCTAGTTTAAAAAACTTCTAACTATTTAATATTCTTAAATAGAAGAATTACTTTTAATTTAAAATAAAAAATTATAAATACTTTCTAAGTATTTTTTTGTTTTATTTATGGTTAAATTATTAAGAAATGAGTGATAACTTGATTATTCAAATTATTGGTTTATATGAAAAAGATAATAGAAATTTAGCGAAATATTTATCAAAAAAATACTCAATGATTTTTTTAGATATATCGTATTTTACAAACAATAATAAAAAAGAAATGATTGATAAATACAGTTCATTTATTTTGAATAACAAAGATTTTATTATAACTGGTTCAATGAGTGAATTAATTTATTCATCTTTTTATAATAGAGATTACTTAATTTGATTGGATAAAAAAGATGAAGAAAAAATAAATAATAATATTAAAATACATAAATTTAATTCTTTATATAAAGAATTTGTAATGGCTAAGTCTTTTAAAATAATTATTGATTCAAATTTAAATTTAAAAGATCAAGAAAAAATATTTTTAAGTATTATGGAGAAAAATAATTATGATTACATACAAGGGAAAAATAAGTAGATTTATTTATAAAGGAGAAAATGGATTTGCTATAGCTATTTTTATTTTATTTAATAATGAAAAAAAATCTATTACTTTGACTGGACCTATATCTTTAATGAAAATGCAAATTATTTATGAAGTTACAGGAGAAGAAGTTGAAGATATAAAAAGAAATCAAAAAAACTTTTCTGTTAAAAGTTTTACACAAGTGAAACATTTTGATAGAGAAGGATTAATAAAATATTTAAGCTCTCCAGCTTTTCCCACAGTTGGAAAAAAACTTGCAGAAAATATTGTTGATTATTTTAAAGAAGATATTTTTAAAAAAATACTTGAAAATAAATCAGAGCTTTTGAATATTAATGACATGACAGAATCAAAAGCAGAAATTATTTTTGATGTAGTTTGTTCAAAATTTGGAGATAACAAAATACTTGATATATTTATTGAAAACAATTTAAAGATGGAGTTTTTAAATTCTCTGCAAAGAGAATTTGAGGATTCAAATATTATAGAAGATATTTTAAAAAATGATTTCTATAATTATGCAAATATAAATAAATTACAACCTTTTTTTGAGGTTGACAGAGTGGCATTGACTTTCGGTATTGAAGAAAATGATGAAAAAAGAATATCATGATATGCTAGTGAATATGTAAAGGAAATTTTATTTAGAGAAGGTAATACTTATACTTCTTTAGAAGAATTAACTAAAAAATTAAAACAACAATTTAATTTACCAGATAAAGAACTTTATAATAAATTGCTTTTTGCAAAAAATGAAAAGATACTTTATTTTAAAAATGAAAAAATTTATACTAAAGAAAGTTATGAAGATGAACAATACATCGCAAAAGAATTATCTACTCTTTTGAATAAATCAAATTCCTTTGTAAAGAGATTTGATTTTCAAGAAAAAATTAGTGAAGTGGAAAAATTTATTTCATTAAGAAGTGGAATTGAAAATTTTAAATATAATGAAGAACAGATTGATGCAATAAAAAAATTTATTGATAATGATATTTCAATTATTACTGGTGGTCCAGGAACTGGTAAGACAACAGTTATTACAGGAATTATAAAAATTTATGAATTAATTTATAATGATTCAAATTTTGCAATCACTGCACCAACTGGAAGAGCTGCAGGAAAAATAAAAGATGATTCTGGATATAAAACCTCAACAATTCATAGATTATTGCAATATTCAGGAAATGATATATTTGAAGCTAATGAAGAAAAACCAATTTATAAAAACTTAGTTGTCATTGATGAGTGTTCTATGATTGACAATCACTTATTTGCTTCTCTTTTAAAAGGTGTAAAAGGAATTAAAAAACTTCTATTAGTTGGAGACATTGAACAATTGCCAAGCGTTAATTATGGAAATTTATATCAAGATTTAATTGAATGTAATCAGTTTAAAACTACAAGACTTATTAAAAACAATAGACAAAAAACTAATAAAGGGGAATTGAATTCGATAATTGAAATATCTAATGCTATTAAAAATGAAACTATTAATGATTTTGATTTTGAAAACTCTACAAATGTAAATTTTGTATTTTCAAAAGACTATAGTCAAGTAGTAAATATTTTAAAAGAAACTTATTTAAATTTAAATCCTTCAAAATTAGAAGAACAATTAAATGAGATTCAAATTATAGCTCCGATGTATAAAGATCAATTAGGAATTGATAATATAAACAGCATTATTCAAAATCTAATTAATCCAGCAACTTCAAAAGTGTATAAAAGATTTGATGCAGAATTTAGGGTAAATGATAAAGTAATGTATATTGAAAACGATCCAATTTTTGAACTTTCAAATGGAGATGTTGGATATATCAAAGAATTAAATTTTATTGGTGATAAACTAAAAACAGCAAAAGTAGTATTTAATGAAAGAGAAATTGAAATGGGAAATAGCTCATTTCAAAAAATTAAATTAAGTTATGCTTGTTCTATTCACAAAACACAGGGAAGTGAATATAGAAATACCATTTTAGTTCTAGATGGAAATAATAGAGCTTCAAATTTCATTTTGAATAAGAAAATGCTTTATACTGCAATAACTAGAGCAAAAGAACAATTAATTATTATTTCAGATAATAATTTATTTATAAAATCTTGTTATAAAAACGCAAAAGAAAGATTAACTACACTAAAAGAAACTATAATTTCACTCAATATTGAATAATTTATATATATAATATAAAAGGACAAGGGGAAAAGTAAATGAAACATAAGAATACATATACAATTGCTATAGTTATTACTGTATTGCTTGTAACAACATTTATAGTTGCTGGTTCAATTTACAGTTCAATTGATGTTACAAAAATTTTAGAGAATAAATTATCAGAAAAGAATAATGACTCTTGAACTAATATCCAAGGACAAAATTTTGAAGTATTAAAAACTACAATCACTAACCCATTATCATTAGCATTTTTCTTATTTGGTATAGGAGGAGTTGACGAACTTAAAGCAACTTCAGATCCATTTAAACTTATAGTTTTTACAATAACTTCAATTATTATTATTCCCACTTTATTAATAGTATTTTTTCTTTATATGTCAATAATAATAACATTAACTTTAATTGAATTTATTAAAAGAGATTCAGAGGTAATGACACTAAAAAATGTAGGTAAATATGGTATGTACGTTTCATTTATTTCATCATTTTTATTTGCATTAATAGGGATTATAATATTTTGTTCAATTGAAAATAATCTTCAAAAGAATTATCAAGGTTTTGAAAAATATGATTCATTCTCTATCATGACTTTTTTAATACATTTATCAAAAGGAACAATTTTTAGTTGAGAAAAAAATGGATTGCTAAATAGTCCAAATATTGTTACAACTGTAAATGTAGCTTTAGTTTTCTTAGTAATTCTATTGCCAATAGCTTTCTTTTGTTTAATAATATTTTCATCATTTTATATTGCAATTTTTGTTGCCAAAAAAGATAGTAGATCTTCAAGATTTTTCAATTGATTAAAAAATATTAGAATTGATTCATTAAAAGAATACATTCAATTAAATCTTAGAAGTCCTTGAATTTGAATATTGTCAATTACTTTTGCATTTACAATAATAATTCCTGGTTTTGTACATCCTTATACAAACGTAACACAAATTTTAATAACTCTAATTAGTATTATAATTATACCAGTTGCATTCTTGCCAATGATAATTGGCTATATTATGGCTAAAAAAATTAAGAGATTTAATTATAATAGATTAATGTTTATTCAGATTTTATTATTAACATTAATAATTTTATTAATTCAATTAAATGCATCAATTTTCTTAAAAGATTATATGTTCAAATTTACTTGACTAAGTGCATTTCTACCACTTGTTACTTGTACTATATCAATGTTTGCAGCATTTGGTTTCATTAAATTTTCAGATAAATAAAATAATACGAATGTGTTATTTTTTTGTTTAAAAATCAAGGAAATGACTTAAAATATAATTGTTAGGAGTCAAAATATGATTTTAAAAAATGCAAAAATAGTGTTAGAAAAAGAAATCATTGAAAATGGATGATTAGAATTAGAGGGTAAAAAAATTAAATCAATTAATCGAGGAAGTACTGATTTAGAGGGTGTTGATTTAAAAAACAATTGATTAATGCCAGGATTTATTGACTGTCATGTTCATGGGGGCTATGGTGTGGATTTTGAAAGCGGGACAATTGAAGCTTTTGAAAAATTCTCAAAAAATGTTGCAATTGAAGGTATTACAAGTTATGTTCAAGGAAGTGTAACAAATTCTAAGGAAAATAATGAAAAGTATCTTCATCAGTTTGCACAATTTATGAAAAAAGAACCAATTGGTTCTAAATGTTTAGGATTACACTTAGAAGGACCTTTTATTTCTAAAGAGAAAAAAGGAGCTCATGAAGTTTCTTTATTGGAAAAACCAAATATTGACTCATTAAAACAACTAATAAAATATTCAAATGACAATATTAGAATTGTAACCTATGCAGCTGATTTACAAGATGGTAGTTTTACAAAATATATGTTAGAAAACAATATTTTACCAAGTGTTGGACATACAAATATGAGATTTGATCAATGCTATAAAGATTATGAAATAGGTTTTAGACATGTAACTCATTTATTTAACGGAATGAGTGGTGTGAGTCAATATGAACCAGGTCTTGCAACATTTAGCTTATATCAAGATGATATTTTGTGTGAAGTAATAACAGATGGAATACATATTGAAAAAGATACTTTAAAATTAATTTACAAAATTAAAGGTCCAGAAAATATTTGTATTATCACTGATGCAATGAATGCAAAAGGTTTACCAGATGGTGAATACAAATTGGGGAATTTGGAAGTTATTAAAAAAGGTATGAAAGTTTCTTTAAAAAGCAGTGGAGTTTTAGCAGGAGCTGGAGCAACCTATGATCATAATGTTAGAACAATGATAGAAGCAAATCCCGAAATTAAAATGCCAGATTTAGTTAAAATGACTTCAATCAATATTGCAAAACAGTTAAAAATATTTTCTCAAAGAGGAAGTATTGAGGAAAATAAATTTGCAGATTTAGTTGTTTTAAACAATGATTTGCAAGTTTTAAAAACAATAGTAGAAGGAAAAGTAATATATGAAAAATAAAATTAATCCTAGAAGTTTCACAATGATAAAATTTTTGTTAACTTTAGGTTTAATTTTTAATTACTCAATTTCACTAGTATCAGTTATTGATGTTTTTAAAAGTAAAAATAATAATTTATTATTAAATACAAAAACATACTTAGCAGTTCAACTACTATTATTTATTTCAGCGATTATAAGTATTTTAATTTTTTTCTTAGTTAGAAAAGATGTTAATAAGAAATTAAGTTATAAGTATAATAAGAAAGAAAAAAAATTAATTTATATAATATGTTTTCTTGTAGCTTTAATTTTCTTGATATCTTTAGTTAATTTACTTATGTTTTTATTTTTATTTAAAAATATTATTATAATGATATTTACATTTTTAATTATTCAGTTATTATTAGGAATTGGTGTTTCAATTTTGGAAAGTTACTCAAGACTTACAGAACAAGCTTTAGTTAATAAATTATGATTTAATAATGAAGAAAATACACAAAATGTAGATAAAACTTCTAAAACTGAAACAAAAGTTTTAGATAAAAAAGATGATTTTAACCCATTTATGGAGGAAAATAATGATTAAATTTGGAACTATAGGAACTTCTTTAATTACAGAAAACTTTATTCAATCTGCAGTTAAAAATCCGAACTGTAAAATAGTTTGTTGCTATTCAAGAGATAAAACAAAAGCACAAAATATTATCAGAGAAAATAAACTTTATGCCAAAGCAGTTGACAATTTTGATCAAATGTTAGATGAAGTTGATGCTGTTTATATTGCTTCACCAAATGGTTTACACTATGAACAAGCAAAATACTTTTTAACACAACAAAAGCATGTTTTGCTTGAAAAACCTTTAACGCTTTTATTTGATCAAGCAGTTGAATTATTTGAAATTGCTAAAAGAAATAATGTTTTTTTAATGGAAGCATATAAAACTTTTCATTGTCCACAATTTTCACATTTATTTGAATTTGTAAAAAATTATCAACCATTTATAGCAAATTTAAATTTAAATAAATATTCTTCAAGAATGGAGAAAGTCAAACTAGGTCAATTTGACTCTGTATTTGATGCAACCCTTGGGAAGGGATCAACTTATGATATGCTGATTTATCCAGTTGAATTAAGTATTGCACTATTTGGTCCTGTTGTTCAAGTAAAGGCAATGGGTCAAAAACTTACAAATGGAAGTGGAATGAGTGATTGTGTTCTTTTAACACATGAAAGTGATGTTCTTACAAATATTGTTTGTAGTAAAGTAAGCACAGGAAGAATTCAAAATGAATTACTCTCTGACATAGCAACACTGACTTTTAAAAATGTTATACAATTAGAAGAGATTAATTTGTATAATCATACAAATTCAGATGAAGTTCAACTAATTCATAAATCAAATAATGATAAAGATTTATTTGAATATGAAATATCTGTATTTTTAAAAATGATATATGAAAATGATTTTTACTTAAGGGACTATTTATTAGATATTAGTTGTGAAGCAATAAGAGTTTTAAATTTAGTTGAAAAAAATCAAGAAAAATTAGGAGATAACTAAAATGAAATTAAATAGATATATAGATCACACTTTATTAAAAGCAGATGCTAAAAAAAAGGAAATCGAAAAATTATGTAATGAAGCTAAGGAATGGGATTTTGCAACTGTTTGTATAAATCCATGTCATATTAGTTATGCAAAAGAATTACTAAAAGGTACAAATGTTGGTATTACAACAGTTGTTGGTTTTCCTTTAGGAGCAAACACAAGTGAAGTAAAAGTTTTTGAAGCAAAACAAGCAATTGAAAATGGTGCAACTGAAATTGATATGGTTATCAATATTGGTGCAGTAAAGGATGCTAATTGAGATTTAGTTTTAAATGATATGAAAGCTGTAAAAAAAGCATCTCCAAATAACTGTGTTAAAGTTATTTTAGAAAATTGTTTGTTAACAAAAGAAGAAATTGTTAAATGTTGTGAATTGGCTTTAGAAGCTAAATTGGAATTTGTAAAAACCTCAACAGGTTTTTCAACATCAGGAGCTAACTTAGAAGATGTTGTTTTAATGAAATCAATTGTTAAAGATAAAGCAAAAGTGAAAGCAGCTGGAGGAGTTAGAACTTTTGAATATGCAATTAAAATGATTGAAAATGGTGCTGAAAGATTGGGTACAAGTGGTGGAGTTGCCATTGTAAAAGGTGAAGAACATAAAAATGGATATTAAAACATTTTTGTAAATATAATAAAAACTGCTTTTATAAAGCAGTTTTTATTTTTTGAAAAAAGTTCTTTATTATTATAATCCTTTAAGAATTATAATAATAAAGTTTTTTATTTTCTATTCTTATTTTTAATTAGTAAAACCATTTTAATTTGTCTATTTTGAATGTTTTTTTTTTTTTTTTTTGAAATAAGATATTTCTGTAAAACAGTTATAAAAATGGAAATATTTCCCTTTTTATATAAATTAAAATTTTTATTTAAAAGAAAGAAAGAAATAATTATTTTAATTTATAGTTAATATTTAAAACTTTAATATAGAGAGTTTAGTATTAAAGATTTAAATTTAATTGAACTTTTTACAACTTACCTTATAAATCAATATCAATTGTATAAATTTAAGGAGGAATAGATATGAAAAATAAAATTAATGTGTATTCAGAAATAGAGCCTTTAGAATCTGTTTTATTACATAGACCTGGTAAAGAAATTGAGAATTTAACCCCTGATTTACTTGAAAGATTGTTATTTGATGATATACCTTTTTTAAAGGTTGCTCAAGAGGAACATGACAAATTTGCTGAAGTTCTTATAAATAATAAAGTTCAGGTTTTTTATATTGAAAAACTTGTACAAGAAGCTTTAGATCAAAATCCTAACTTAAAAGATAAATTTGTAGATCAATTTATTGATGAAGCAAAAATTGAAAAAGAATGAAAAAATAAATATCGAGAATTTTTAATGAGTATGTCTAATCTTGACATGGTAAATGAGATGATAGGAGGAACTAAAAAAATTGATTTAGATCCAAAAGATAAAAGTGATTATCCGTTTATATCAGATCCGCTTCCAAATTTATTATTTCAAAGAGACCCATTTGCTTCTGTAGGAAATGGAGTATTTTTAAATAAAATGTGAAGTGTTACAAGAAACAGAGAAACAATATTTGCTGATTTTGTGTTTAAAAATCACAAAGACTTTAAAGAACAAATTGAAATATATTATGACAGAAATAATGAGTTCCCAATTGAAGGTGGAGATGTTCTAGTTTTAAATAAAGAAATTTTAATTATAGGTATATCTCAAAGAACAAGTATTGATGCTGTTAGATTACTTTCTGATAAGTTATTTAAAAATACAACATTTAAAAAAATAATTGCAATGGACTTACCTAAATCAAGAAGCTATATGCACCTTGATACTGTCTTTACAAATATTGACTATGATAAATTTATTGTTCACCCATTAATTTTTGACGATATTAATAACTTTAAAATAATTGAAATATCACAAGAAGGTGAAAAAGAAATTAAAGAAAGTTTAGTTAAATTTTTAGAAGATATAACAGGCAAAAAAATTCAACTAATAAAATGCGGTGGAGAGGATTCAATTGCTGCAGGAAGAGAACAATGAAATGATGGAACAAATGTTTTGGCAATTGCTCCTGGAGTTGTTATTGCTTATGAAAGAAATTGAGCTACAATTGATCTTTTAGAAAAAGCAAAAGTAAAAGTTTTAAAAATACCAAGTAGTGAATTGTCAAGAGGTAGAGGTGGACCTAGATGTATGTCTATGCCTATTGTAAGAAAACAAAAATAATAAAAAGAAAAGAGGAATTTTAAAAATGATAAATTTAAGAGGAAGAAGTTTGCTAACAGTATTAGATTTTTCTAGAAGAGAAATTGAATACTTACTTGATTTAGCAAGGGACTTAAAAAGAGCGAAATATGCTGGAAATGAAGTTCAAAGATTAAAAGGTAAAAATATATGTCTTTTATTTCAAAAAACAAGTACTAGAACAAGATGTGCTTTTGAAGTAGCAGCAATGGATCAAGGAGCTGGTGTAACTTATATTGGTTCTGAAGGATCACAAATGGGAATTAAAGAATCAATTGCAGATACTGCTCGTGTTTTAGGAAGAATGTATGATGCAATTGAGTTTAGATGTAACAATCACAGTGATGTAGTTGAACTTGCTAAATATGCTGGAGTTCCTGTATTTAATGGTTTGTCAGATAAATTTCATCCAACTCAAATGATAGCTGATTTTATGACCATTATTGAAAAATTTGGAACTTTAAAAGATAAAAAACTTGTTTTTTGTGGTGATGCAAGAAATAATATGGGAAATTCATTAATGGCTTGTTGTGCAAAATTAGGAGTTTCATTTACAGCAGCAGCTCCAAAACAATTATGACCTGATCAAGATTTAATTAAAACTTGTAAAGAAATTGCCAAAGAAACAGGAGCTGTAATTGAATTTGAAGAAGATATTAAAAAAGCTGTTGTAGGAGCAGATGTCATTTATACAGATATATGAGTTTCTATGGGAGAACCAGATTCTGTTTGAGATGAAAGAATAAAATTATTGAAACCATATCAAGTTACTATGAATTTATTTAAATTAGCAAATAAAGATGCTATATTTATGCACTGTTTACCTTCATATCATGATTTAAATACTGATATTGGTAAAAAAATTAATGAAAAATATGGTTTAAGTGAAATGGAAGTTACAAATGAGGTTTTTGAATCAAAAAAATCATGAGCTTTCGAAGAAGCAGAAAACAGACTTCATTCAATTAAAGCAATTATGGTTGCTATGATTGGACTTTAAAAAATACTACTTTAGCAATTTTAAATTTGTGAAAGGAGTATTATGAAAAAAATAAAAGATAAAAAGAAATTTCAAATGCCAACAGCTTTTACAATTCTTTTCTTTATAATTACATTCTTTGTTCTTCTATCTTGAATATTGCAATGAAGTGGTGTAACTTATGAAGCTAATAAAGAAACTCATACTGTACAAGCGTTAGGTATATTAGATATATTTTATTCAATCATTCAAGGATTTCTTTCTAAAGCTGAAATAATAATTTTTATATTAGTTTTAGGAGGATTTATAAATGTAGTTTTAGAAACCAAAGCTCTAGAAGCTTTTACACAATCAGTGTCTAAAAAATTAGGTAATAAAGCTATTTGATTGATTCCAATATTAATGCTATTCTTTAGTTTTTGTGGTTCAACATATGGAATGGCAGAGGAGTCACTTGGATTTTATTTAATTATAATTCCTTTAGTATTGTCATCTGGATATGATAAGTTTACAGGTTTATTAATAGTATTGTTTGGTGCTGGAGCTGGTGTTTTAGCTTCAACTGTTAATCCATTTGTTATTGCAGCTGCAACTGATGCAGCTGGGGGTAAAATCTCAAGTGGAGAAGGTATGGCTTGAAGATGAATAAGTTGAATGTTTATTAGCACATTTGCGATTTTATATGTAATGTGATATGCAATTAGAACTAAAAAAAATCCCAATAAATCAGTTACATTTTCAACTTTAGAAGAAGATAAAGTATTCTTTTTAGGAGAAAGTGTTGAAGAGATTAAATTTAACAAAAGAAGAGTTGCAACTTTAATTGTATTTTTAATAACTTTTGTAATTATGGTCATATACTTAGTTGCATGAGATTCAATTTTAGGGGGAAATAAATTTGAATCAGCTGGTAAATGAATGAATAAAAATATTCCCTATCTTACTGCTCTTGTTCCAGGTTTTGGAAAGGGATACTTACCAGAAGTTGCTTTATTTTTCTTTGTAAGTTCTTTAATAATGGGAGCTATTAATTGAAAAGGTGAAAAAAACTATGTTGAGCAAATGATCGTAGGTACAAAAGATATGTTAGGAGTTTGTCTTGTAATTGCAACAGCAGCTGGTGTTGGTGTTGTAATGGAAAAATCAGGTATTCAACTTCTATTTGTAAATGGACTTTCAAGTGTAATGAAAGATATGAATAAAACTTTATTCATATTAATCTCATTTATCTTATTCCTACCTTTATCATTTGTAATTCCTTCTACAAGTGGATTTGCAGCTGCTATATTTCCAATTTGAGGACCATTGGCAGTAACAATTGGAGCAGGTTCAGGAAGTGTTCTTGCATTTAGTTTTGCAAGTGGAATTATAAACCTATTTACTCCAACTAGTGGAGTTGTTATGGGAGCTTTAGGAATTGCCAAAATGGATTATGGATCTTTCTTAAAAGAAGCATGAAAATTCATTTTAGGAATTACATTAGTTTGTTGCTTATTATTAATTATTGGATCATTTATGCCATCAAGTATATTTTAGAAATGGAGATATAAAATTATGTTAAAAATTGTTGTTGCTCTTGGAGGAAATGCTTTAGGAAATACACCAAATGAGCAAAAAGAAATAGTAAAAGAGACAGCTAAGAATTTGGTAGATTTAATTAGTGCTGGACATAAATTAGTTATTGTTCATGGTAATGGACCTCAAGTTGGAATGATAAATCAAGCATTCAATATTGCAAATACTTATGATAAAAAATCTCCACTTGTGGATTTTCCAGAATGTGGAAGTATGAGTCAAGGATATATTGGCTATCATTTGCAAAATGCTATTAAAAATGAGTTTGAAAAAAGAAAAATGAACTCCAATAACGTTATAACTTTAGTTACTCAAACCAAAGTTAGTAAAGAAGATAGTGCTTTTAAAAATCCAACAAAACCAATTGGTGATTTCTATGAAAAGCAAGTTGCTTTAGAACTTAAAGAAAAAAATAACTGAGATATGATAGAAGATGCAGGTAGAGGATATAGAAGAGTTGTGGCTTCACCTAAACCAGTTGATATAGTTGAAAAAGATGTAATTAAATATCTTCTAGAAAAAAACGTTTGTGTCATATCAGGGGGAGGAGGAGGAATTCCTGTAATTGAAGAAAATAATCAATTACAAGGAGTTGCTTCTGTAATTGACAAGGATTTTGCAGCTGCTAAAATAGCTGAAATAATACAAGCAGATAAATTAATCATTCTTACAGCAGTCAATAAAGTTCTTATAAATTATGGTAAAGAAAATCAGACTTCTCTTGATTCTGTTACTCTAAAAGAATTGGAAAAATATATTGGTGAGCATCATTTTGCACCAGGAAGTATGCTACCAAAAGTTCAAGCAGCAATGGAATTTGTAAAAAATAGTGGCAATCAAGCTTTGATTGGTTCACTTACAGAAACAAAAAGTGTAATTGAAGGAAAATCTGGAACTATTATTAAAAAATAAATTATCAATGAGTATAAAATTAAATTGATGATTAGATAAGGTTGTTTATAAAGCAACCTTTTTTTGATATAATATAGTTGTTATTTTGTATCTTGGGGAGGTTTATAATGGTAAAACATGGTTTTGAAATTGAAAATTATAATTTATCACCATCAATTAGAAAAAGAATTGATGATTTAATAAATTTAAATTTAAATCCTTCAACAATTAGTTTGATTACTGCTGAATTTTCCTCAATAAGTGATGAAATAAAGCAAAATATAGGAAAATATATAGCAAGACTTTTAGAAATAGAAAATTTTTTGCTTGAACAAGAATATAACAAAAGTAAAGATGCAAATTATGGCTTAAATTTTAAACAAGAAATAAATATCAAAAATCGTCAGACAAATCTTTTGAGAATACAACAGATTTTTGCTAAAAAAGATAATGAAAATGAAAGAGTAAATATTCAAAATAATGATCAAGATGTTAATAATCATTCTGGATATTTAAAGAGTTATAAAGAGGCAATGTTTATTAAAAATGAAAATGAAAAAAGTAGAAATGCTAAATTAGAAGAATTAGCAAATAAAAAACGAAGAATAGAGATGGCAGTTTTAGAAGAACAAGAGAAAATAAAAACTGCTCAAAAACAGTATCAAAGAGCAAAACTTGATGATGATGAAATTACTCAAGAAATAAAGCTTAATATTATTAAATTTGCAAATGGTAGATTAAAAGAAATATCTGAAGCTATTGAAACTTACAAAACAGTTGACAAAATACCAAATGAAGTTATTGATAGTAAAATTATAAACTCAAAAAATCAACAAGAAAACTTTGAAAATAAATTAAGCAAGGATAGTTTTTTTAATGAAGAGGATATCACACAAACATTGGAAATAGATTTAGAAACATTTTTTGATGTGCCTGGATTTGAAGAAGATGATAATTATGAATATGATGAATATTATGATTATGACTTTGATGATTACAATGAAGAAGAAAAGGAAATCAAACTTTCTGATATTGATTCAATAAAAAAACAAACAAATCAACATAAATATAATGAATTAGTTTCAACTAAACAAGAATCAAAACAAGAATCAAAACAAGAATCAAAACAAGATAAAAAAATATTAAAAGAAATAAATGCTGAAAAAATAATAAAGAAAATTAAAAAGAAAAATAGAGCAAAAGATAAAGAAATTGAAAGAATTTTAAAAGAAAAAGAACAACTTGAAAAAGAGCTAATCAAATTAAAAGAAGAAAAGAAAATTATTGAACTTAGAGAATGAGAAAATAAAAAGAAAAAATTAAATGAAAATTTTGAAGAAACATTAAAAAAAGAAAAAAGAAAATTTGATACTACTCATCAAATTCTTGAAAAAAAATGAAAAGCTGAGTCTATTAATCAAGTATTAAATTCAAAGAAAAAGGCTTTTAATGCTGTAAAAACTATAAAGGAAAAATCTAATAGTAATCCTGAAATAGATTCAAACAATGAATTGATATCACTTGAAAAAGCAAATGTGCGTAAAGTATTATTTGAAGAACTGCAAAGTTTAAAAGAAAACAATGAAGAAAAAATCTCATTTCAAAATAAAAATGATATATCAATAGAAGTTAAAAAACAAAATAAATTTGAAGAAGATGAAAAAAGAATAGGTTATTTGGAAAGAAAAAGATCTCTTAATATAATTTCAAAAGAAGAGTTAAAAGAACTTGAAACTAAAAAGAAAAATAATAATCATATTTCTTCAAAAATAAATTTAAAAAAATATAGATTAGTTACAAAACATAGCTCATAAAAGAATAAAAGTTGATTTATTAAAGGGAAAATAAAATGAAAATAAAATTAGTTGAACCTAAAATTGAGTATGAACAAAAATTAATAAATGCAATTAATGAATTTTTTGAAGTTGATAATATAAAAAACGACATTAATGGTAGCTCAAATATTACTAGTTTCGATTCAATTCAAAAGTGATTAGATTTTATTAATAAAAAAAATCTCGATGTAAATTTGGTTCCTTTTAATCAATATTTAGTTATTAATGAAACTAATGAATTAATAGGATTTGTAAATATAAGATTATCTTTAAATAATTATTTACTAAATTTTGGAGGGCATATAGGTTATTCTGTAGTTCCTAGCCATAGGCAAAAAGGCTATGCAACAGAAATTCTTAATCAAGCATTAAAAGAATGTTGAAAAAATAATATATTTGAAGTATTAGTTACTTGCAAAAAAGATAATACAATTTCTGAAAAAGTTATTCTCAAAAACGGTGGAGTTTTAGAAGATTTGAGAGAAAATGATAAAATAGAATATAAGAGATTTTGAATTAATAAAACAAATGGCGTTATTAGTTAACAAATAAAGCCATTTTTTTTATGCTAAAATAACGTTATGAGGTATGATAAATAATGCAAGCAGGTCAACAACTTTTCAATGGTTTTGATATATCATGATATACAAAAAATAGAATGAAGAGCTTTCTTAAAAAAGTTGGAGCAAGCTTTGGTTTTGTAATTATTTTAATGCCTATCTTTGGAATTATTTTATCTATAGGAAATGCTGCAAATGTAAGTTTTTTAAAAGAAATAGGAAGTATTTTATTTTCAAATATTGGTATTTGATTTACACTTGCAATAATAATTGGTTTTACTTCAAATAAGGGAGCAGCAGTCTTTACAGGAGTTTTATCTTATCTTGTAGTAAATGTTTTTATTGCAGCTTCAATAAATAAAAATAATGAAAATACTTTTTTTAATATTTGATTTTGACATAATCTTTCAGTAAATGCATATTTATCAAAATTATTTTTTGGTGGAATAGAAACGTTTAACTCGGGAGTTATTGGGGGAATTCTAATAGGAATTTATGTAACTTATATTTACAATAAATTTAAAGATACTCAACTTCCTAAAGGATTGGAATTTTTTGCAAGAGAGAAATTAGTTATTATTTTATCTGTTATTTTCTCTTTAATTTTTGCATCGCTTTTTATAATTATATGACCTGTATTTGGTTTTATATTAACTGCAATAGGAAGTGGAGTTGCTAAATCTCCAATTGGACTAGACTCATTTATTTTTAGAACAGTTCAAAGAATGTTAATTCCTTTTGGATCTAGTTTATTGTGACAATCACCAATGTGATATACCCAAATAGGAGGTAGTTTAAATGAATATCAACAAGATTTATTAATTCAATATTTATATAGAGTAACATCTCAAGAAAATCTGCAAACAATTAATTTATTAGCTTCAATTCCAGAAAAAGGCCACAGTCAACAAGAAATTATTGAGATTTTTTCTAAATACTTAAATGAATATATAAGCTATGATTGATTATTTAAATCTATGAATGAATGATTTGAAAATACAAATAGTATTTTTGCTACTAATCCAAGTGGAGATCAAATTATTTGAAATATAGTTTCAACAAATAAATATATAACAGTTGATGATTGTTGAAATTCTGGATTAAGAATAAGTAGGTTTATATCTGGGGGATATGTTAATTCAATTTTTGTTCTCCCAACATTGAGTTGTTTAATGTTTTTAATGACTCCAAAAGGAGAAAAAAGAGCTAAAGTGGGTATTTATATCACAGCTGCATTAACTGCAATGCTTGTGGGTGTGACAGAGCCTGTAGAGTACTTATTTTGTTTCACTATGCCATTATTCTATTTTTCAATATACTGTCCTTTTAATGGTCTGATAGCTGCAATTACCTCTTTATTTAAAGTTAAAGTTGGAACTTCTTTTTCAACAGGTTTATTTGATTTTACACTAAGTGGAATTGTTCCAACTGTAAATGGCGTAAATACAAGAATATGAATTATTCCATTAATTGGTATTTGTTCATCAATTACAATCTTTGCAATAGCATTTTTCTGATTTAAATTTTTTAATAAAAAAGAAAATTTAATTAATATAAATGCAAGAAAATTAAGAGACTCTTTACAATTATTTATTGAAGATTTGGGAGGATTTAAAAATATTAAACAGTACTCTTTAAAAGAAAATCAATTAGAAGTAGTATTTAAAAATGTACCTGATTTCAAAAGTTTATTTAATTATGTTAATAAAATTGAAAAACAAGAAAAAGGACTAAAACTTTCAATTAAACCAGAAAATGAAGAGGTAGTATTATTATTCGACAAAATATATGAAAATAGAAAGACAAAGAAAGAGATTAATAAAAGTATTTAACTCATATTTTTTATAATTTTAAAATAAAGAAAATACAATTTTTTGTTAATGTTATTTTTAAGTGTAAAATTATTTTGAAGGGATAAACTTTGTCATGAATAAAAAAAACTTAACAAAATTTCTATTTATAATTTATGCAATATTTGCAAGTTTTTTTATTATGAGTGTTTTGGGTCTATTTTTAGTACCATTATTTAATAAAAATTATGATCTAATTACAGTTTTTTCATCTATTTATTTAGAAAGTATTATAGGATTTGTTATTTTCTATTTTTCCATTGGATTTATTTTTTGTTCTATAGCATCATTTTTTATGATGAAAAGTTATGAAAAAGACAAATTCACTAAAAAAGTTATTTGATTTTCAATTCCTGGGTTTTTAGCAATGATTTGAGCAATTCCAATGGGTTTTATTTTATATAAATATATAACTTATTTTAAAAAACAAAAAAAAATTATTACAAGAAAAAGATTTAATTGAAGAAGATAACAAAGAATCAAAATTTTAAAATTAATATAAAAAATGAGATACTTCATTCTACAAAGTATCTCATTTTAAATGTTGTCATTTATAGTTTTTAAAATATTAAAAGCAACTTTATCTTTTTTTAATTGTTCAAATTCAATAACTTTTTTTGATTTAGCCAATAATATTTTAATTTCATTAAATTCAGATTCCATTGCATTTGCTAAATTAACAATTAGCATATCTAAATTCTTTTCATTTAATTTATTTCATGCTTTTTCTAAGTTAAAATCATTTGCAAGAGAAAAACCTACTAAAAATTGATGAGTTTTTTGTTTGCCAAGTTCTTTTAAAACATCAACAGAAGGGGATAAAGAAATTTTCAGATCTTCATCTTTTATTGATCTTTTTTCTATTTTTTTGTCAATATAATTTTCAACTTCAAAGTCATATAAAGCAGCACTACAAATAACTACATCATATTTTTTATAATCTTTTAACATTTCCTCAAGCATTTCATTGTTTGTTTTTACATAAATATTATCTTTATCAATATTGTTTGCTATTAAAGTATCACCAAACACTGTTTTAAGATATTTTGAGTTATTTTTTAAGATATTTCTTAATTCACTGCCCATTTTGCCACTACTTGCGTTTGTAATGTATCTAACTTTATCAATATAGCTTCTAGTTTTTCCAAAATTAAGCAAAATTGATTTTTCTTTTAATTTATCGAATCTATTTAAATAATTATCTATAACTTCTACAACTTCAATAGGTTCTAAAGCTCTTCCAATTCCTTCATGACCACTTGCTAATTTACCATATTTGGGCTCAATTCATTCAACTTTATTGGTTGAAATCAATATTTCTTTGTTTCTTTGATTTATAGGGTTTAAATACATATTTGAATTCATACTTGGAAATAAAATAGTATTATAGTTTGAAACAGCAAATATTAAACTTGCAATATCATCTGCTATTCCACTAGATATTTTTCCTATATAATTATAACTTGCAGGATATACTATATTTAAGGAACTTTCAAAGGCAATCTTTATGTGATCTCCATAGTGATGATTATCATAGAAATCCCTGTCAAAAATATCTTCTAAATGATCAATATTGTTTAAATTAACAAATTTCTTAGCATTTTTTGTAGCAATTATTTTAACTTCATATCTTTCTTTTAATAAGTTATAAACTTTCAATGATTTGCTTGCAGCTATTCCACCTGTGATTATTAAATTTACTTGTCTTTTCATATTTTAGTGTCCATTTCTTTTATAATTATCTTATTTTTTTTTATTTTTTTCATTTTTTTCTTAAAAAATATAGACATAATTAAATTAACAATCTATAATAAATTTTGACTAGGAGTTGAAAAAATGGCAAGTGTTGTTGTACGCGAAGGTGAACCAATTGAAAAAACACTAAAACGTTTTCAAAAAGTAGCTGCTTCAAATAAATCTGAAGCAAGAAAACGTGAATATCATTTAAGTAAAAAGGAAAAACGTATTTATAAACAAAAGCAAAATAAAAAATTTGGATAAGATCCATTTTTTTTTTTTTTTCTTATTTAAGTTTCTTCTTAACAAATAAGATATAATATTAATATATTTAATTATTAAACAAGGAGATAACTATGGCAATAAAAAATTCACAATCAAATGAGGTTAAAGTTTTAAGACCAGATGCTGTAAGCAAAAAAAATCCAAATCTTAATAAATTTGATAAGAAAAAAATTATAATTCCAGAATTTACTTCAAAAGTTGAATTACTAAAACAAGCTAATAAAGTAGCTTCTTATAAAAATTCAAAAGGTCAAAATTATCTAAATGATTTACCTGAGGGAGTTAGAAAATCAATTGAAGAAAAAGAAAGAATTAATTTAGCACTAAATTTTGGTAAAAGTAATGAAGCTGAAGAAATAAGAAAAAGACTTTCAATTGAAAAAAAACCAATCGATAAAAAAAGAGCAAATGAACTAAGAAATGAAAGAGAAGCATTTTTTAGAGCCAATATTGAAAAATTACAAATGTCAAATTCATCTAAAAAAAGAAGAACTAAAAAAGCTAGTATCTAATAGAAAATGAAATTTTAAAAAAATTTCATTTTTTTTATATTTTAGTCGATTTTTTAAAGGGGGATTAATATGTATTATTTGAAATGTACAATAAAAGATATTTCAACAGATTTAATAATTATTGAATCAGCCAATATTGGCTATAAAGGCTTTAAACTTTTTAATGACTTTGTAGAAAAAGAACAAGAGATAAATTTATATGTAGTAAATTATAAAAATGAGTTTATTAATGAACTTTTATTTTTTAATAAAAAAGAATCTAGAGATCTTTGTGAAATTCTTTTAAATATTAAAAATGTAGGAATAACAACTATCAAAAAAATATTTTTAAAAATGAAATATGAGCATTTTATAAAACTATGTGAAGAGCAACATATTGATGAAATTATTTTAAAAACTAAACTATCAGAAACAATTTGTAAAAAAATTGTACAAGAGATTAGAAACAAGATATTTAATGAGAAATATAATGTAAAACAAATGAGAGTTATAAATTCTTTAAGCAAATTAGGTTATAAAATTTCAGATATTTATAAATCAATTCAACAAATTGATTTTAATTTAACTGAAGAAAACATTTTAAAGAGTGCTATTTTAAATTTAAACAGTTATGGAAACTAATATTTTTAGACCAAATTGTTTAGAAGAATTTATAGGACAAAAAAATGTAGTTTCTAATTTAAATGTTTTTGTTCAATCTGCAAATAAAAGAGATAAAAGTTTAGATCATATTTTAATTCATGGTCCTTCTGGTTTAGGTAAAACAAGTTTGGGTTATTTGGTATCAAAAATAATGAAAAAGAAAATATATGTTCTTAATGGTCCAAGTTTGCAAAAACCAAGTGATATTATTTCTCCTTTAACTTCTTTAAAAGAAAATGAAATTTTATTTATAGATGAAATTCATTCTGTTTCAAAAGAGGTTTTTGAAGTTTTATATCCAGTTTTAGAAGACAATAAATTAAATATTATTATTGGTAAAGAATATAATTCAAAAGTTGTAAATATAAAAATTCCTAATTTTACTTTAATAGGAGCAACAACTGAATTAAATAAATTAACTACTCCATTCATAAATAGATTTCCAATATCTTTTCATTTTCAACATTACAGTGATTTTGAAATTTTTCAAATACTTAAGATAAATAGTAAAAAATTAAATATAAATTTAAATGATGAAATATTTAAATATATATCTAAATTTTGTCAAAATACACCTAGAGTAGCTATAAATTTATTGAAAAGAATATATGATTACATAATAATTCTTGATAATAAAAATATAGATATAAATTTAATAAAAGATATTTTCAAAAAATTAGAAATTTATGATTCAGGTTTAAATTCACAAGAAGTTAGTTATTTAAAATTATTAAATAAATACAACTATTTAGGAATTGAAACAATTCAACAAATGTTGGGTCTTCAACAACAAATAATAATAAAAAATATTGAACCTTTATTAATTAGAAATTTTTTAATAGAAAAAACAACTAAGGGAAGAAAAATTACAGCTAAGGGAAAAGAATGAATTGAAAAAAATTTATAAAACTATTGTAAACTTAAAATGAACACTTATAATAATTTGTATAGAAAAAGGGAAAATAACAATATGAAAAAATTATTAACTGTTTTGGGTAGTGCAATGTTAACAACTAGCACATTAGGAGCATCACTAAATACTGTTTCTTGTGGTGAAAATTATACATTAGCTGATTTTCAAAAATTATTGAGTGAAATTGAAAATCTTGAGGAGAACAAATATACAGAAGAATCTTTACAAAATTTAATGATTGTTATGATTGAAACCTCAACAAATGTTATTTTAGGTAAATCTGTTACTAAAAATTATAAGAAACTTAAAAATGCAATGAATGCTTTAGTATTAAAATAAAATTATTTATGGATTTATAAATAATGAATTAGGATAATAAATTATCCATAATTTATTCTTTATAAATTTTTTTATTTACAAAAAAATTTATAAATTAAGATATTTAATATAAAATGTATTTTTTTTTAAAAATAATTATTATCTTTATAACCAAAAATTTTTTAAGAAAAACTATATATGAAAAGTGATAAAATAATAAAGATGAGGAAATAACTATGAAAATAGCTGCATTTAATATAATTGATAGTGTTGAAAAAAATGATATAGGTTATTTTGAAAACTCTGTAGAATTCTTTAAAAATAAAGGTTTTAAAGTAATTGTTCCAGAAAATAAAATGACAGACAATAAGCAAGAATGAATTGAAAAAGATTTTGAAAGAATAATTAATAGAAAACCTTTTATTGCTTTACCAACTTTTTGTAAAGCAAATGAGGTTAATTTTATTAAAAAAGCTAATTGAAAAAAAATTAAAAAATCAAAAGTAATATTTTGTGGTAATTCTTTTATAACACCGTTTTTAAATGCTATTTCAAAATTTACTTCAAATGAAGTTTTATATGGACCAAATTTTATAAGTAATTTTAATTTGGAGTCTAAAGATGATACTTATGTTTCTTTAATAAAAAAAATATCAATAAAACATGATATTGAAGAAATCCAATTAAATAATCCTAAATTTTTTGGTAAGAAAATAGTTAAAGGTAATTTAATAGGAGGAGAAATTACTTCTTTTTTAGAAATGTATAAATCTGGATATATTTCAAAAGTAACAAAAAAAGATATTTTATTAATTGATGGTATTTTTAAAGATAAAGAAGATATTAAAAAAATAATATTTATTTTGAAAAGATATAAAATATTAAATAAAGTTAAAGGAATTTTAGTTTGCCAATCAGTTATTGACAATCAAGAAATGTTAAAAATATTTTTGTCAGAAATGCAAAAAATTAAAAAAACTAATATTGCTATTGGTTTAAAAGGTATGATGTCAGATGAAATAAATATATTAAAATTAAACAAAGAAATAATAATTAATTTTAAAGAATTTAAAATTTTACAATAATTGAAGGGATAAATAATGAAAAATAAAGTATGATATAAAAATTGACTTTGATATAGTCATCTTGTTTTGGCAGTAGTTTTTTTAAGTTTTTTAATTTGAGGTCTTTATTTGTGTGCTTTTAAAGAGTTTTGATATATAGATGAATGATCATCTAATAGATATTCATTAAAATATTTTACAAACTTTGATGTATTAATGAGTTTTTTTTCAGTTCAAGTGAATATAATGACAATAGTTTGATTAATTTTTTATGTATTAAATTTTAATAAAAGAAATTATGGTGTTACAAGCACAAGATTTAGAATGACTATTATGAATTTAAATTTAATAGTATTTATTATTTTTTGAGTTGGAATAATTTATTTCTTCTCAATTGATCCCAATGAATTAAGCAGATATACAAAAGGGCAAATTGCATGTACTATAGTTACTCATTTTATTGCTCCTTTAACTTTAATTGCATTGTATTGATTTACTATGGGTGAGCAAAAGTATAATTATTTAGATTTATGAAAAAAATGAGATCTTCACATAACTATTTTATATTCATTTTTATATATGATTTATGTTTATGTGAGAGGAACTATGTATGAAAAAGATTACTTCTTTGCACCTGCATGACCATATCCATTTTTAAATTTTAATAATTTATTTGTTGGAAATTCAGTTGTAGGTTATATGTTGTTATTATGTGTTATATTTATTATTTGAATTGTCGCTCATCATTCACTTTTAATTTTTATAAATAATTTAGCTTATAAAAATAGAAATAAAAATAAAACTTCTAATAAAATAAGTAAAACTCAAGTTGTAAAACATGAATAGTTACTATATGGCAGTAAAAAAAGTAATGTTATAATAATAGTAATTCAACTGTGGAGGTAATTCAAAATGGAAAATAAAGTTTATAATTTAAAAAAATCAAGTTTAGGAAAAGTTTCTTTTTTAGAAGGTACATCATTTTGTATGATTGAAGGAAAAACAAATAATAATCAAAAATTTAAAGAACTTATTATTGTAAGAACTGTTGAAGAAGCTATTAAAAAATTTCCACAATGATGATCAGAGGTTATTTACTCAAATATAGAAGATAAATTAACATTTGATAATAAAATAATTGATTGACTAATTCAGGAATGAGAAAAAGGGATTATATCTTTAAAAAATGAAATGTATGAAAACTTTGCTATTGAAGAAATTAAAAATATGAGTCCAGTTGAATTTATTAGATCTGAACCTGAAATGATAGCATTAACATTAGTTCATATTACAGTTAGGCACACAAATGGTTTTTTAAGTGTGCCAGTTAATAATATTGAAATTTCAATTAGATTTGTTAAAAATATATTGACCATTAATTTTTGAGAAGAAGGAAATCCAAAAACTGAAAAGCCTCAAATCTAAAAGATTAAATTTTAATCTTTTTTTTATTTGCTATAATTTAAATGGTGAAAAACATTGAAAAAAATATTAAATCTTTTATCTTCAATAACAATAATAAGTTCTTCAATTTTAACTGTAACTTCATGTGGAAATCCAATATCAGGAAGTAGTTTTTATAATACAAATTACAATAAAGCTTTTGGTATTATATTTTCTACAAAAGCTGAAGATAAGAGCATAAATTTTTCAATGTTACCTGATTTAAAAGCAATTCCTAAACCAGATCCTGGGCGATTAAAACCTTCTACTTTTAATTATGCAACTGATAAAATAAAAAAACTTAAGCTTAAAGACAACGAAATAAAACTGAATTGTGAGAATTATGTATGTAATCAAAATAACTCGTTTAAGGGTAAAAAACTTACAAGAGAAGAATACAATACAAATGATGAAGATAAAATTATTATTCAATATGCAATTGATGATTTAGCTCAATGATTTTTAATTCCCCCAGATTTTAATGAAGAAATATTTTATGATTTTAGTAATTTAGTTTTAAATGCAAATTATCAAAATAATATTTATTTTTTTAATAAAAATAATGAATTAGAAACTGAAGAATTAATTCTATGATCAAAACAAGATTATATTAATATATCAAATGAAAATAAAAAAATTGAGAATTCCTTTACTTTTTTTGACAAAGATATAAGATTGACAACTGAAATTATTGACTTAATTTTAAATTCAAAAAATTCTAAAATTGAAAATATTATAACTTTACCTGAAAAGAATAATGAAAATAAAAATAAGCGATTAGTAATTAATTTTGAAGATATTGATAAAGAAAAAGAAACTTTGACAAAACAAAGTGTGGAAAATTTATTTAAGTATTATCAAAACAATTTAAAATTTACAGAGAAAGTAGAAACTGAAAAACCTGAAAGTGATAATAGTCAAGTTGTTTCAAAAAAAACTTATAAATCTGATAATTTGAAATCTTTTGAAATTGAAAAAGCTGAAATTAAAGAAATAGTTATTAATATAAATTATAAATTAGATGTGAAGGGAGAGAGCAAATAATGAAAAAAATTCTTTCAATTTTCTCTTCAATATTTATAATTCCTCTTGCATCAGCATTAAGCGTTTCTTGTGAAGCAATTGTAACAATTGCATCAAAAAGTTATAAAGGTAAAACAGATGAAATAAATATATTTTTTAATGGTAAAAATATCATAAAACCTTATAATTTAAAATACCTAGAATTTATAAATGACTCATGAGAGCACTTTGGTTTTGAGTCAAGTTTATCTTCAAATAAGATTGAAAATAATCTAATCCTAGTTACAACTGATGAAGAAAAAAATTTTATTAATGTTTTATCAGAAATTTATAAACCCTTAGTAATTGCAACGGATTTATATGATTTTACAGGAATGACTATTATAGTTGAAAATATATTTTTAAATTCAATTAATGTAAAAAGAGTTAATGAAAATGACTATAGCACAACTATTGAATCAGAACTTGCATTAACTATAAAAAAAGGCTGAAAAGAGCAGGGGAAAATACTAGCTTCTTTAAGTAATTCAACACCTTTAGATAAAGCAGAAACATTTTTATTTATAAATAAAATTATCAATGGAATAGAATTGAATTTGAAAGTTAGTGATAATATGGTAAAAGATGAAAAAACTAATGAAAAATATTATGAAATTCAAGGCTCATTATCTGAGACACAACAAGCTCAGTTTACTTCAAAATTAATTTCTAGAGCAAATGCAAAATTATCTTTAGATTTAACAGATAAAATAACTTTTGATGATAAACAAAATACATTACAAATTGATGGTATTAACTATAAATTTGTTGAAAAAAGCAATGTTTAAACATTGCTTTTTTTAAATACTTTGCTGCTTTTAAAAATTTGATCTATAAGTTCAATTTTTCCTCTTAATTCTTCGCTAATCATTATTCCTTTATTAAAAATAATTATTTTAGAGTTTTCGTTAATTTTTTCTACACTAATTTCATCAATTTCATTTTCGTTAATTTCTTGACCAATTATATTCTCAAAATAGTGTTCTATAATTTTGCTAGCTTCTCTTTTCTTTTCAAAATCAGGATCATTTTCCACAATTTTCATTTCATCTTTGTAAAAATCACTTTGTTTTGGATTTTCCATATTTCAGATTTCTAGCTTTTTTAATGTTTTTTTTAGATTAGCTTCTAAAATATATTGAAGATCTTCATATTCAATTTCAGCTAATAGGGTATCTTCTCCAAGTTTACTCATTAAACTATCAATTATATTTAAAGATTTACTTAAATTTTTTATTATATTATTTAGTTGCATTTTCATAATTAATTCAGTTATTTTTTCTTGAATATTACTTGGATTTTTTTGAATAATTTCAAATAATTCTAATTGGGCATCTGCTCCAATATTTTTCATATCATCACCATTTTTGATATTTAAGCTATATTTTTCAATAAATTTTTTAATATCTTCATATTTCTTAATTTCTTCAATCTCTAATTTAATATTATTTAATATATATGAAGTAACATTTACATCTGGAGAGAAACTTCCAAAACCTGGATCATTGTCATCTAAAAAACTTAATTTGAAATTATCTATCTTTTCAATTATAAATTTTTTGAATCATTTTACAGAAATCTCATCTGTATATTCTTTTAAATTTTCCATATATTTTCACCTATACAAATATAATATATTATATTGGTTAATTTTTGAACTGAAAAATATGATATTATTTATTTAAAGTAGGTATATTATTATGAAAAGAAATTCAATAAAAATTATCGATGAAGGATTCTTTTTATTAAATGAAAATCAAAATTTCAGATTTGATAGAGAAGCATCTAAAAAAATTCTTGAGAACATTCAATTTCCAATAATAGTTTTAGATACAGAATTTTTTAATCATTCTCATGATAATGGAAATAATGATAATCAGTTGTATAGCGAATCAAATAAGGATTTAGTTTATGTTATTCAATATTCATTTGCTAAATCATTAAAAGAAATCTCTAATAGAGATAATAAAAAAGCTATAAAATCAATAACAATAAAAAGAAACTTTAATGATAAAACATATGATTTTTTTGATCAATATTTAAAAATGATTATTTCATTTTTAAATATGTGTAGAAATAAAGAAATTAGAACAATTGTTTGTGCAGGAGCAAGCAATGATATAAAAATTATTAATCAATGAATTAATGAAAATAAAAAATTATTTGCACGAAAAACTTTGAAAATGGCTTTCTATAATAAGGAATCGAAAGAATTAAATGCAAATTATTTTGATATATATGATATTTTAGAAAAAACTTTTTCTTTTTCAAATACTACTAAAACAGGAGAAGAATTTTGAAAAAGAGAAAATTTACCTAAAGGGAAACAAAACGAAGAAATGATTGCCTTAACAGGAACTAAAAAATTTTTTGATTGATTCGAAGAAATAAATCAAAATTTATTAAAAGATGAAAAAGATGATATTTACTCAATGTGTTGTAATGCTTATTCATTTTTCTCAAAGTCAAAAGATGCAAAAATAGATTTTGAAGAGTATAAGCAAATGAATAGAAATATAAAGAAAGTTATTGATCATTGTTATAATGATGTTTTAAAAGTTCTAGAATTTTTATCTTTTGTATATGAATTTACTCATGTATCTTATTCAAAAAATGTTTATATAAAAAAATATTAGTGTTAAAAAAGTAAAATTTAATAATGTTGGTATAATTATAATTGATTAGAGGTGCAAAAAATGGCTAAAAAAAAGAGAACTAATTTCTTATTATTAAACTATTTTAAACCATCAATTTATCTTGAAAGCTATGAAAAAGTCAATTTAGATTCACTTAAAAATAGCGGAATTAAACTTGTAATGTGTGATATGGACAATACATTAATAGGTTGAAATGAAAGAATTCCTTCAATTGATGTTATAAATTTTGTAAAAAATGTTTACTCTCATAATATGGAATTTGTATTATTTTCAAATAATATAAGAAGTAGAGTTGAAAATTTTGCAAAAAAAGCAGGAATTAAAAACTATTTTTGAGATTGTAAAAAACCTCTTTTAGGAAAAATGAAAATTGTAAAAAAGTTATTTAAATATAAAGAAGAGGAAATAATTTTAATAGGAGATCAATTAGTAACTGACGTTCTTGTAGCAAATAGAGCACATATTAAAAGTATTTTAGTATCACCTTTAAGTAGAAATAAAGAAGAAAGTAAAACTATTCAATTTTTAGAAAAACATATATTAAAAAAATTGTCACAAAAAAATATTTTACATGAAGGTTTCTATAATGAAGGAGAAATAGGGGGTAACTATGAAATTCTCTAATAAAGATAAAGTAGAAGAAAATGATGAAAATTTTAAAAATGATCAAGAAAACTCATTAAAAGCAGAAGATAATTCAAGTAATAAAATTAAACAAAAAAGTAAAGTTACACTAACAGAAGCAACTCCAGGTATTGGAAATACAACAAACTTTAATTCTAAAGGTCCCAAAAAATGCATTGGTTGTGGGAGACAATTACAAACAACTGATGATAGACAACCAGGATTTAGTTTAAATATTGAAAAACAAGATTTGTGTTTAAGATGTTTTAAAATTAAATATTATAACAAGCTTGTAGAACAAGAAATTAATGATCAAGACTTTATTAATATAATTGATGAAATCAATTCAACAACCAAAAAAATAAGATATTACTATGTTGTAGATATTTTTGATTTACCAGGAAGTAGAATGACCTGATTAGAAAAATTAATTTCTAAAAAGGAAGTTATTATCCTTGTAAATAAAATTGATTTATTTCCTAAAGCTGTTAAAAAAATTAAAATATTTAATTATATTAAAAAGTTTTTTGAAGATTCACCAATACGAGATTCAAAAATCATTTTAACAAGTTCAATTAAACAAGACTATGTTTACTCTCTTTTAAATGAATTAAAATCAGTAGACTATGATCAATATATTGTGGGTATTTCAAATGCTGGAAAATCAAGCTTAATAAATGCTTGTTTAAAATTGAATAAACAAATTCCTTCAATAGTTACTTCGAAATATGTAAATACTACTTTAGATAAAATTAAAATTAATTTTACAAAGAACAATTTTGTCTACGATACACCAGGGCTTGTAAAACACAATCATATTGCCATTGCAACAGCTCCAAATTATTGAGATTTCTTTTTCTTTCAAAAAGAGATTAAACAAGTTACTTATCAGTTAAATGCTGGTCAATCAATATTTTATGGAGGACTTGCTTGATTTACTTTTGAAGAAGGACAAGCAATTAATGAAAAAAGTGGAAAGAAAATGAAAACTAATTTTCATTTATATATAAATAAGCAAATGCCTTTGCACAGAACTAAAGCACTAAATGCTCAAGTTTATTTTAAAAAAAATCGTCATTTGCTTGCTCCAAGATTATTAAGCAATGATATAACTTTTGAAACTAAAATGTTTGAATATAATGATGAAAGAAAAATTGATTTACATATTTCTGGATTGGGATGAATTAGTTTTAAAACTTATAAAGATTTAAAAGTTTCAATAACAGTTCCAAAAACAGAATATGGAATTAAAATAACACAATTAGAATCTTTGATATAAAATAAAAATATAAAAGATTTTTAGTAATTAGTAAATATTTTTTATTTTTACTAAAGTATTTTATATTTGAATAAAAACTAAAAAAATTCCATAATTTGCTATTATTAAATACTTAAAAATGTTATATTTATATTAATTAATTTTGGGGAGGACTATAAATGAAATTAGTTTTAGCCATTGAAATAGGCATTACATCATCAAAAGTGGGTTTAGTCAATCAATATGGAGATTTGCAAGCTAAGTTTTCAGTTGATCATGATTTAGATAATTTATTGCCTAATTTATATAATAAAATAATTGAAGGTTTAGAAGCTATTGGTATTAATTATGAAAAAGAAGTAGAAAAAGTAGGTATAGCAATGGGTGGTTATGTAGATCACATTTTTGGTATAATAAAATTTTCTGCAAATTTGCAATTAACAAATTATAATGTAAAAGAAGAAGCTGAAAAATTATTTAATAAACCAATTTTTGTAGTAAATGATGCAAATGCAAGTGCATTGGGTGAATTTTGAATTGGAGTTGCAAAACAATTTGATTCTATTATTTTCTACTATATTGATAAAGGAATTGGTGGATCTGTTATAACTGAAGGTAAATTAGCACCAGGAGCTAGAGGTTTTGCAGGAGAATTTGGTCATGGTGGGGGAATTTTTCAAACAAAATATCCTTGTCCTTGTGGATTAGAAGGATGTATTGAGCCAATGTCTTCAACTTCAGGAATTGAAAATCACTTTAAAATATCTTTTAAAAATAAAAGAAATCATCCAGCAGCTAAATTTTTCAAAAATAAAGAGGAAATTACATTTAATGAAATAGTTGAAGTTTTTAAAAAAGAGGAATATCCTGTTGAAATAAAGGACTTGCTAGAAGAAGCACTTGAACCAATTATTATGCATATGGCTTTAATGATAAATGCTTTAGATCCAGAAGCAATTATTTTAAGTGGAGAATTGACTTTATTAGGAGACAAACTGATTGAAATTATTAAAACGAAAATTAAAAAGTATATAATTGATATGTTTTTAGAAGAATTAACTATCGAAATTGCTGAACTTGGAGATGATTCAACAATGATAGGTAGTGCGTATTATGCATTAAATGATTGAAAAATATTTTAATTTTCAATCATTTTTTTATGAAAGGAGCTTAAATTATGGAGCACTTATTAAAAAGAATTAATGAACTAGCTGCTATTGCAAAAGAAAGAAACTTAACAGAAAGTGAATTAGAAGAAAGAACTAAATTAAGACAGGAATATATAAAATTGTTTAGAAAAGGATTTGAACAACAACTTTCAAATGTAATAATTGTTGATAAGAATGGCAATGAAATAAAGAAAAATAAAAAATAAAAGAAGTTGCAAACCTTGTAAAATAATTTTTAAAAAAAATAAAATTATTTTATTATTTTTATCTATAATAACTTTAAGGGGGAATATATGAAGAAGTTATTATCAGGACTTATGATTTTTACAGTAGTAAGTTCAACAAGTGTTAATGTACTTTCATGTGGTAGAAAAACATTTGGAACAGATTTGTCAAAATTAGAGGATTATAGTTGAAATAAAGAGGAACCTTATTTTAAAAATTATAATGAAGTCTCAACAATAGACAGTCCAGAAAATTTTAAAGATTTAGGAAAAGTAGAAGCTTCAAATAAAGCTGAATTTTTTGATATATCAAAAATTAATACAGGTTTTAAAACACAAAATGAAATTGCAAAGCAAGCAACTACAGGAGTACCTTTAAATAGTAAATTTTTACCTAATGGAGGTAGACTTTCTGATGTTCAATTAATTGAAAAAAAAGATTATTATACAAGAATTAATAAATTAGTTGATTGAAAGTATGATCAAGATTTAGATGCGAAATATAATAAATCAAGAATTAAATTACAAGATAGTGAAAAAGTGCAAGATAGATGAGTTGATTCTCAAGATAAGAGAGTTAAAGAAATGAATATGTCTACAATAATTGATTCTACTTCAAATGAAAATACAATTGTTGGAAGAAATAGAACTTATGAGAGATCATTTAATAATTATCAATATAATGATATATTGGTAAGTTGAGCAGGAGCAATAGATGAAGGAATAATAGTTCCTCCAGGAAAAAATCAAGTTGAAAAAGCTCATATTAATGGAACTAAAATATTAGGAAATATTTTCTTAGATGGATATCATGGTTTAACTAAAGAAAGTATCAGTGGTTTTTTAGAAAAGGATAATTCTGGAAACTATTTAGTAGTTGATGTCTTAATTGAAATGGCTAAAAAATTAGGATTTGATGGTTGATTTTGAAATAATGAACCAAATGGTTCAAATCCAAGTGGATTTGTTGTAGATTACAATATAACTGTAGAAATTATGAGACAATTACAAGAAAAAATTAAAAAAAGTGAAGATGAAGAAATTAAAAATTTAATGGTTATTGGTTATAAAAATTATGGTAGTTTAGCAGTAGACAAAAATGGAACTGTTTCTGATAAAGAATCTGAACAAATTTATAATAATACAAATCAATTTTTAAATGACTTCTATGTTTTTCCAAATGAAGTTAAAGCATTTACAGATGCAAAAAATATTAAAGATAAAAAATTTGATATTTATAATATGTTTAATGCAGGTGCTTGAGTTGGAGGAAAAATCTGACTTGACAGTAATAAAATTGGAACAAGAGATTATAGAGATTTAACTCATCTTTTAGTAGATGAAAGTGGAATTCCATATGATTCAACTAATGCAGAAAGTATGAAAAAATTACAAAAAGATTATATGGACCCTAATGGAAAAGTAAAATTTGCAAAAGCAGATAGTGAATATGCAGGAGCTCAAAACTCTTTATCTTTATTTGCAGGTCATGTTCCTTATGATTTAGCATCTCAAGATATGGACAAAATATCTAGTGAAAAAAGTATGGATTTAGATACTTATGGTATGGTTGCTGCAAATAACTATGATGATATTTTATATACTGGAAAGAAAAAATCTCTTGCAAATGACGATATAGGTCTTGCCTATTTTCCAAGTAATAAATTTGATGATGAAATAAGTAAATATCCTCATAAATATAGCTATGGTGTAGGAAATATTGTTGCAGAAAAAACTACTTTAATTGATTCAAATAAAAAATTCATTACTAATTTTTCTACTGGACAAGGAAATAGATTTGCAACTCTTGATGGCTCTTCTAAATATGAGATTAAAAATTTTCCATGAAGTAATACAAATATAGCTGATGTTCAACCAACTTATAAATGAATGGTAAAAAATAGAGAAAAACAAATTTCTGCATTTGATGGAATTAGTGGTTATTACGATTATTATGATCCTTATTTAAAAGGTAACTCAATTGCTTTAGGATCTGGTTATGATAATAATGGAAAAATTAAAGAGGCAAGTTGAACTAAAGGTGAAAAATATGATTGAACAATTATGGGTTCTAATTATTTAACAAATGAGAATAAAAATGTAGAAATTATTTTTAAAGCTCCTGAAGAAATTGCAAATACTGTTCAGCTGTCTTTAAAAGATTCAAACAATGTAAAAACTAATACAAATATGTCAACACCAACTAATTTAGGTAATGGTTGATGATCAATTAAACAAGATGTTGCTAGCTCAATTTCTAAAATTGGTATTAATTTCACTGCTGTTGAAGATAAATTTAAAATTAATGTTGGTCAAATTTCTGTAGTTAAAGGAGATTCTAAAAACTTATTAGAAGATTCAAATCCACAAACTAAAATTCAAAGTGAATTGGAAATTTCAAGAGGAGATATAAAAAATCTAAGATTGAATTTTGAAAATTTAATTGATGAAAGTATATACAGTTATTATGAAATATATAAAAAGAATGCAAATGATAAATTAACTCTGATTGGTATGTCTAATTCAGATAATTATTTCATTAAAAATATTGATAAAAACACAAATGAATTTTACTTAAAAACTACAAATAATTTAACTAAAAAAATAGAATGAATTAAATTTGAAATTTAGGTGATAGAAAATGATTCAAATTAATAATGTATCAAAAAGTTTTGGTAAAAAAGAAGTTTTAAAAAATATATCCCTAGAAATTAAAGATGGAGAGGTTTTTGGTTTATTAGGTTCAAATGGTAGTGGAAAAACTACTTTAATGGAAATTTTAGTTGGACAATTAAAGCCAAACTCTGGTGAAATTTTAGTGGATAATAAGAAAAATGGTTACAAAAATATAGGTATACAATTTCAAGAAGGATTTTGACCAAAAGGTGTAACTTCATCTTTAATAATTAATTATTTCAAAAAGAACTCTAAAGCTGTAAAAAGCAAAGAAGTTCAAGAGTTAATTGATATTTTTGAAATTCAAGATTTTTTAAAAAAAGATTTGAATAGTTTAAGTGGGGGTCAAAAGCAAAGGCTAAATACTCTTTTAGCTGTTATTAATGATCCAAAATACATTTGTCTTGATGAAATGATAACAGGTTTAGATTTAAAAATGCAATTTAAACTAATAAATTATTTTGAAAAAATGAAAGAGCAAGGAAAAACAATAGTGATTATTTCACATATTCCTGAAGAAGTAGAAAAGTTATGTGATAGATTCGTTATTCTTAAAGATGGAGAATTGTTTTATTATGCAGAAGTTAAAAAAGCTGTTAAAGAATTTGGTTCAATAAGAAATTTAATGATGATTTATTATAATGAGGAATTGAAAAAAAATGTTTAATAAAAATGATAAAAATACCAAAGAAAATGAATCAAGATTTCTTAATGAATCAATAATGCTTTGAAATAATTTAAAAGTAATATCTATATCAGTTTTAAAAAACTTAAGAACATATTTATACATATTTGTTCTTCCATTGGCATTTATAACAGCTGCAATTTTTTATAGAACTCAAGGTGGATCAAGTGAAGTAAGAGTCGCTCAAATAGCAGGTTTCTTTCAAATCTCTTCATTTTTTATAATATTTCTAGTAAATATTACTATTTCGGAATGAAAAAACTCGGTTTTCTTAAAAAGGATTCACTCATCAGGAGTTTCAAAAACGAATTTCTTAATTTCTATAACATTATTTAATTTTTTAATAGGTATAGTATCTTTCCTTGTGAATTTTGCATACATTTTGATACTGTTAACATTTGTTATTAAAAGTACTTCAACTCAAAAACCATTATCTTCAGAATTGGAACTTATTGATTCAATGGGTTGAAGTGGTGTAGTGCTCTCTCTTATTTTCACTTTACTAATATCAATATTCTTAGGAACTGTAATTAGTGGTGTTTTTAAAAGTGTTGCACTTTCTCAAACAATAACAACATTCTTTATTTTATTTTCAATCGTTTTTTCAGATAACTTTTTATCTCCTGAAGTGATGGGAACTGTAAAAGGTTTAGTAGGTGTATCATATCTTGTACCATATAAACATTCAATATGAATTGGTTATTTAATGATTTCAAATGGTGCAAAAGATCTTATTTATCCACCAGTTACAACGAGATTATTTTTAAGTTTTAATCTTATTACATGATTACCAATTTTAACATCAATAATCTATACAAGTTTATTAGGCGTGGGAGCATACTTTACTTTTAAGTGAAATGCAAAATAAAACTATATTTTAAAAAAGTTAATAAAATTAATAGTAAATTATATAATAAATTTTAAAAAGAAAATAAATGAAAATTTAAAAGTTAAAATTAAATTTTCTTTTTTTTTTTTTTTTGAAAAAATGGATAAATTAAAACTCAATCAATATTCTTTTTAAATCTAATAAAAATGAAATAAGGTATAAAAAACATTAATAAGATATCGATAAAAATAATGGAAAGAATATTAAAAAGTGAGGTGTTATAATATGAATAGTAAGAACATTATATTGTGTTTTTCTAAAGAAAACTATGAAATAAAGGGTTCTATGACACTAGATGAATTCAAAAGGTACATGAATTTGCTTCCAAAAGAAGAAGCAATTAAGATAGGAAAAGCAATGAGAAAAGATGTTAATGAATATTTAAGTTTGGTCCCTAAAAGAGAAAGAAAAATTATAGAAAAATCTGTTGGACAACTTAATCCAATAATTGATATTGAGCAAAATGATTGAAAAGAAAAATATTTAGAAGAAAAAAATAAAAGAGAAAAATTAGAAAAAGAATTCAATGAATTTAAAATTGAAGTAAAGCAACTCATAACTGAATTAAGACAAGAAATTAAAATTTTAAGACAAGAAAATCAACAATTGAAACAAGAAAATCAACAGTTAAGAAAAGAAGTTCAAATATTAAGAGAGAAAGTAAATTATTACGATAAGAAATATAATAATGAATGTTTTTCTAAAATTTAATTAAAAAATAAAAATAATATTGAACAAAAAAGGACCTTGTACTTTTAAGGTCCTTTTTTTACTTAACTATTTTATATGCCTTTTCTGCAGGTCTTCTTGTTTTTTTAAAGGAATGGTGAAATTCTTGATTAGTATCAACTTTACCAATAAACATTCCTACTAATACTTTTTCATTTTCTAAATCAATTAGTTTATGATTTGCAAGTATTTTAGCAACACCTTGTTCATCAAATCCTTCACTTGGACAAACATCTAATCCTAATTCCTGAGCAGTATTTAATACAGTTCCTAATGAAATGTATGCTTGTCTTGAAACTCATTCATCTCTTGACATTTCTAATGTAGAAAGAACATGGTCTGATCCAGAAATCATAGTTTTTCTAATTTCTTCAAATTCATTAGGAATATTTCTTTCTGTTTGTTCTTTAAAATGTATTTTTTTTAAGTATTTTTCTTTAAAACCAATTCAAATAATAATTGCAGAAGATTGTGTTACACCAACTTGATTTCATCAAGCAGGTTTAATTTCTTCTTTTATTTTTTGATTTTCAATTAATATTGCTCTAAATGGTTCCATACCAAATGAGCTTGGAGCAAGTCTAATTGATTCTAATAATTCAACTTTTTGCTCATCAGTTAATTTGAAATCTTCCACATATCTTTTTGCAGAAATACGATTATTTAAAAATTCTAAACTTTTTGTCATTTTTATTTTTTCTTTCTATCATTAAAAGATTATATTTAAATAATAAAAAACTTTTGAACTTAAAAAGCCAAATTAAATTTTTTATATTTTTATTTTTTTTCGGTAATTAAACCATTTATCTTTTAACATTTAATTTTTTTAGTAAGTAGTATAAATATTTTTTCTATTTATATTACTTAATTATTATAAACTAAATATGGACAATAATATATTTTTTAAGTCTAAATATTTATAGTTTTCAAGTTAGAATATTATTATAACAAGGAGTTAGAATAGTGAAAGATATTAAAAGCATAGCAGCCACTGATATGGATGGCACAATTATTTATGAATGAGATAGAATTAGTGAAGAAAACAAAAAGCAATTATTAAAGTTTCAAAAAAAATCAAATAAGAGTTTAACACTAGTAACAGGAAGAAATTATTTTATGGCAGATTTTGCAGCAAAAGAATTAGATATCGCTTTGCCTGTAATTTGCTCAAATGGAGCATCAGTTATTAATCCAAAAACTTTTGAATATGTAGCTAAAAATCATTTTTCAAAAGAAGAAATAAAAGAGCTTTTAGAGCATTTTTTAGATACAAATATTGATATTTGTATCTCAAATGATTTTAGAACTCATTATATAAAAGAAGATGATTGACAAGATTTATTAATGGGAAATCAAAGCTCAATTGATTTTTCTCATTTTCCAAATGCTCAAGTGTTGTTTAAATATGATAATTTAGAACATTTAATCAAAACAGGATTAGATCATGATGAAAGTTTTCCAGTTATTGTGGCAAACACACAAACTGAACAAGAATTAAAAATGGTATTAGAACTTGTTAAAAAATATAATTTACTAGCATTGGAATTTCCAAAAGAGGGAAGCTGTAGAGTTGAAATATTTAAAAATGGAGTTACTAAAAGTTGAGGATTAAATGCGCTTTTAGATCATGTTGGTTTAACAAAAGAAAATATTCACGTATTTGGTGACGAACACAATGATTATCCGATGTTTAAAGATTTTCCAAATTGTTATGCAATAGGAAATGCAATTGAAGGTATTAAAGATTTAGCAAAAGAAGTTATTGATACAGTTCAAAATGCTGGTGTTGGAAAAAAATTAAATGAAATGATAGAAGAGTTTCAATAGAAATTTATAAGGGTAAAAAATGAAATTAAATGATAAGTTTTTTTTGATTGAAAATAAACAATCTAGAAATAGAATAGTTTTAGCTCCAATGGACAGTCAAGTTGCAATTGATGGATTTGTCAATGATATACATATACAACATTATGGAGCAAGAGCATATGGTGGGGTTGGAACAATCATTGTTGAAGGAAGTGCAGTTACAAGTGAAGGCAGATATAGGGAAAAAAGTTTAGGTATTTGAAAAGATGAACATATTGAAGGATTGAAAAGACTTGTAAATATTGCTCATTCTGGGGGAAGTGTTATAGGAATTCAATTGTTTCATGGTGGAGCAAAATCGCAATTAAAAGAACAAACTAAAAGTATTAATAATTATTTTGATTTTTTAAATCAAAGGAATTTAAAAATACTTGATTTAAAAGAGTTTTATGAAATTTGTGATGAGTTTGTAAAAGCTGCCAATAGAGCAAAACAAGCTGGTTTTGATTTTGTAGAAGTTCATATTGGAGATGGAGTTTTACTTTCAAATTTATTGATAGAAGAGTTAAATACAATAATTACTTCAAAAGATATTGAAAAAAGAATTGAACCAATTGTCTATATTTTAAAAAGTATTAAAGAAAATATTGACATTCGTGTGGGAGTAAGAATTTCAGTTAATGATGAAAATCCTGATGGAATTAAAGTAACAGATTATAAACAAATTATCTCTTTAATTGAACCTTACATATCTTATTTACATGTAAGTGGAGGAGATATTCTTTCAAAAAGAAAATCAACAATTGGTGCTGAAAATAAAGTTAAATTGCATAGATTAAACTATTCAGCTCAATTAATTGATTATACAAAACTGCCAATAATCACTTGTGGCAATTATGATTCAAAAGATGAAGTAAAACAAGCTTTAGAAAAATCAATTAGTGCTGTTGCAATTGGAAGAGCACTAATAGCTAATGCAAATTTTGTTATGACAAACTTGTTAGAACCAAATGAAATAGATGAAAGTTATCATTGAAATAACAATCCTTGATATAAACACCAAGATTTTTATAAGTAGTTGCTTTTAATTAAAATTAAAAATTAGATAATAAGATATTAATATATAAAGTGCAATTGAGTAGTTTCAACTCATGAAGGTATTAAAAAAATGATATGGTTTTGCTTATGTAAACAGAGATGAATTTAGTTTAAAAGATTTAAAAAGATATAGAAAAAAATAGTTTTTTTGATATAAAAATCTAATTGAAACAAATGAAAGTGAATTATAATTAATAATTAAATAAATTATTTGAGTAAAATATTTTTATGCTTATAAAATATTTTACTTTTTTTTATTATATATAAAAAATATTTATTAAGTTTTTTACATATAATAAAATATTTTAGAAAAGAAAAAAAAGGAATAAAATATGAAAAAAATATTGTCAATTTTAACTACTTTTATATTAATAACACCAACTGTCTCATCTGTCTTTAGTTGTCAAAAACTAAATCCCTCAAAACCTGAAACTATTCCACCAGTTGAGAAAGTTTCAAGTAGAAAAACTATTTATATAGATAGTAATGGTTTAAAACAAGAAACTGAAGAGTTAGATTTTTTAAATATAGATGCCAAAGAAATTCTTGAATTAGGTTTTAGTAAATATGGAGAAACAGTTAGAAATTTTCAAGGAAATAAAGTTCCTAAAGAATTACCAAAGCAAGTAAATTCATTGTTTAGTTTTTTGGCTCTAAATAAAAATTTAATAATTGAGAATTTAGAAGATTGAGACACATCTAATATAACTTCTATGAGTCAAACTTTTCGTGATGCAACAAATTTTAATACAGATATATCAAAGTGAAATACATCAAATGTAACGGACATGAATGAAATGTTTTATGAATGTAAAAAAATAAACTTCTCAATTAAAAATTGAGATACATCAAAAGTAAAAAGTATGAGTTCAATGTTTCAAGGCGCTAATATAGCTAAACAAGATTTATCAAATTGAAATACATCAAATGTAAAAAATATGAGTGGTATGTTTTTAAAAGCTCAAAATTTTAATCAAGATATTGGAAATTGAAATACATCAAATGTAACAAATATGAGGTCTATGTTTTATGAAGCACAAAGTTTTAATCAAGACATTGGAAATTGAAATACATCAAATGTAATGGATATGAATAGTATGTTTAAAAACTCACCAAAATTTAATCAAGATATTAGTAAATGAAACATTAATAAAGTTACTTTACATGATGATTTTGATTTTACAGCAAATAGGCAATGAATAAAAGCATATAAACCTAAATTTGAAAGAAACTAATTAGTTGAAGTAGTTTTAATTAAACAAAAAAATAGAGTATAGATCTCTATTTTTTTATTTTCTTAATTAATATCTGCTATATTTTTTGAGAAGTATGGCACATATTTATTAGATAAACAACAAATAGAATTAGTCTTTTTATTTTTTTATAAAAGTTTGTAAAGTTGTTTTTAATAAGAATAAAATAAATAATAGAGAAATTACTAGAAGTATATCTTTTAACTATTAATTGAACTTTATTAAATTAGCAAGAAAGTGATATTGGAACATAATATACAAGTAGAATTTATTTTCAAAAATTTGATATTAATTTAAGTTTAAAATGAAAAGTTGAATATAGATCTAAGTTTAAAAAATTTGTAAATATATAAATAAAAAAATAGATAAATAACATTAGCAAAGTAATGTGATAAATACATTTTATTAATCTAATACTTTTTCTATTTCATTCTAATTAAAATTTTTATTATCTAAAAAATATAATAATTTTTATAAAATTTCTAATAGTTATTTAATAGTAATATCATTGTTTTTGTTTTATAATGACTAATGAAAAGGATAAAAAAGATGAATAAAATAATTAAGTTATCTCCATTTTTCTCAGAAAGAATTTGAGGAGGAGAAAGATTAAAAGAATTTGGATTTAATATTCCAAATAATAAAATAGGGGAAGCATGACTTATTTCAACACTTGAAAATGGAATGTCATATTTGAAAAAAGAAAATATATCTTTTAAAGATTATTTTGAAGCTAATAGAGATAAATTTGGACTTACTAATAATCAAGAGTTTCCATTATTGACAAAAATAATTACTGCAAATGATTATCTTTCAGTTCAAGTTCATCCAAATGATGAATATGCTAAAACTCATCATAACTCTCTTGGAAAACCAGAAAGCTGATATGTTTTAGATTGTCCTGAAAATGCTAAATTAATTTATGGACATAATGCAAAGACTTTAAAGGAATTTGAAAATTATGTTTCAAAAGGTGAATGAAATAAACTACTTAAAGAAGTAGAAATTCAGAAGGGTGATTTTCTTTATGTAGAACCTGGAAAAATTCATGCTATTACTCCAGGAGTAATAATTTATGAATTGCAAAGATCAAGTGACATAACTTACAGACTTTATGATTATGATAGAGTTGATGATAAAGGAATCTCAAGAGAATTGCACATAAAAGAAAGTTTGTCAAATGTTTCTATTCCTGATACTAAAGAAGTTATTATTAAAAATTCAAAAGATTTAAAATTTAAATGTGATTTTTTCTCAGTTGAAAAAATTAACTCTATTAGTAATCAAAAAACAATTTGAAAGAATTTTAAAAATAATAAATGATTTCAATTAACAATAATAAAAGGAAATTGTACTATTAACAATATTGATTTTAAAATTGGAGAATCAGCAATATGCATTGATAATTTAAAACAATTGGAAATTTTAGGTGATGCAGAAATCTTAATATCTTGATTATAAAAACATTTTACTTATTATAAATGTTTTTTTTTTTTTTTTTACTTGATCATTTTTTGAAATTAGTTAGAAAATATTTTAGAAAGGAAACAGATAAATGGAAAATATTTATAAAGAAAAACTAATCTTTTTGAATTTAGATTTAAATTCAAAAGATGAAATTTTAAGATATATATGTAATAAAGCAAAAGAATTTGAATATGTATCAGATTCACAATCTTTATTAGAGTCTTTTTATCAAAGAGAGAAGGAAGGAACTACTGGATTTGAAGATGGATTTGCTATACCTCATGCAAAAATAAAAGGTATTAATCAAGCTTTTATAATTTGTGTAAGAACAGTTAATGGTGTTGAATGAGAATCATTGGATGGAAAACCAACACAGGTAATTATTGCTTTAATTATTCCTGAAAATGCTTCAGTTGAACATTTAGAAATTTTAAGTGCAACTGCTAAAAAATTGATGAGTTCAGAGTTAAGAGAAAAACTAAAAACTGTTGAAACTTCAAAAGAATTTGCAAAAGCTTTAAAAGTTGAGATTAAAAAACCAATAGCAACAAAAGAAACTTTAGCAATAAATGGTTATAAAGGAAAAAATATTGTTGCTATCACAGCTTGTGTTGTTGGTGTTGCTCACACTTATATGGCAGAAGATAAACTTATCAATGAACTTTCTAAAATTGGAGCAAATATAAGAGTTGAAACTCAAGGAAGTAAAGGAGTTGGAACTGAACTAACTGAAAAAGAAATTGCCAATGCAGATGTTGTTATTATTGCAGCAGATACAAAAGTAAATTTGCAAAGATTTAATGGTAAGCTAGTTTATTCAACTCACGTTGCAAGAGCAATTAAAGAACCTTTAAAAGTTTTAGAAGATGCTTTTGCAAAAGGTACAATTCAATCAAATGTTGAATTTAAAAATGACAAATCAATGAATAAGCAAAAAGAAGGTGTCTTACAACATATTTTTGCAGGTATTTCTTATATGATTCCTGTAATAATTGGAGGGGGAATTTGTCTTGCATTTTCTATAGGTCTAGCAAAAGCAATTTGAGGACCAGAAGCAAGAACTTCAGGACCATTAGATATAAATGGAAAACCTTTATATCCTTGGAATCCTTTAGCAGTAATGGACAAAATTGGAGGAGCTGCATTTACTCTAATGATTCCAATACTAGCAGGTTTCATTGCTAATTCTATTGCTGGTCGAGCAGCAATAGCTCCAGCAATGTTGGGAGCATTTATTGGAAATAATGCAACTTACTTTATGCCATTGCCTGGAATGCCCAATATTCAAACTCCAACAGGATTTGTTGGAGCAATCTTATCAGGTTTATTGGTTGGCTATTATGTTAGATGAGTTAATACTTGAAAGGTACACAAATCTTTAAAAGCAGCAATGCCAATATTTTTTATACCTTTAACAGCAGGAATAGGAATTTCAGTATTGTTTATCTATTTAATTGGAGGACCAATTGGATATGTAATGCAACAATTATCTAATGTTATTAAAGGGGGATATGAAAATCCTAACTTTGGAGTTGGTTTAGGTATTGCTTTAGGAATATTAATTGGTGCAATGGCATCATTTGATATGGGAGGACCAATTAACAAAATTGCTTTTGTAACTTGTACAATGTTAATTGATTCAGGTATTTACTATCCAATGGGAACAATGGCAGCAGCAATTCCTGTTGCACCATTAGGAATGGGATTAAGTACAATCTTATTTAAACGTTTCTTTAATAAAGAAGAAAAAGGATTAGGAATAGCTGCTATGATTATGGGAACTATTGGTATATCAGAGGGTGCAATTCCATTTGCAATTCGTGATCCAAAAAGAGCAATTGCTGCAAATATTGCTGGGGGAGTTGTTGCAGGAGCAATTGCAGGAGCATTTAAAATTCAAGACTTGGCAGGTCATGGAGGACCAATTGTTGCAATTTTAGGAGCAGTTCCATATGGATGACAAACTGCAGTATTCTTTTTAGCAGTTACATCTGGTGTTGCAGTTACAACTTCACTTTATGGACTAATGTTAATTTCAAGTAAAGGAACAATAGGTTCTTTAAAAGAAACACATGCAAATCATATTGAAAAACTTATTGAAGAGAAAAGTTCTCAAAAAAGAGATATCAATGATCAAATTAGAGTTTTAAGATCAACTATTAAAGTGTCAAAAAGTGAACAAGAAAAAAATGAAACACTTGTTAAAATTGAGAAATTAAAAAGTCAAAAAACTGATATATCAAAAAATACAAAAGAAAAAATTATAAAAGCAATTGAAATATTTGATCAACTTAAAAAATTTGAAAAAGATTATGTAAATCAAAATAAAGAACATACTAAAAACTTTATTAGAGCACAAAAAGAGCAAAAAATGATTTCTTTGAAAAATAAATTTATGAGTAAATCAAAAGAGTTAACTACTCTAGATCATTATGATAAAAAAATATATTTAGAGAGTTATTCAAAATCTGTTGAAGAAATTAAAGAAAATTATCAAGAGTCAATATTAAATTATCAAATTAAACTAAGAAAAAAGTTTACAAATGAATATAATGAAAAAGTGAAATAAATAAAATTTATTAAGCCAAATAATTGAATTTGGTTTTTTTAATTTTAATATAAAAATTTAATTCTACTTTAGTAAAAGAAGAAAGTAAATTACTTTTTAACAATAAAAAATATATTAAAGTCAAACTAATTTTTAAAAGATACTCTCTCTACTGTTAAAATTTTATTGAAAGTTTTTTTGCTAATTAAAAAAACAAAAGAGGAAGAAAATGGATGAATTAAAAATATACAATACTCTTAGAGAAATTGCGTTTAAAAATAATGTTGATATCAATTCTCACATTGCAAATTGAATTTTAAAAAATACTGAAAAAATAAAAAATATTAATTTAGAAACTATTGCAAAAAAAACAAATACATCTAAACCATCAATTATTAGATTTTGTAATAAACTAGGTCTTTCAGGATATAGTGAATTAAAATATCAATTATCTAAATTTAAAAAAAGTAGTTTGAGTTTGAATGAACAATTTAATTTTCAAAAAGAGTTAATTAAAGAAAATAATCATTATTTAAAGTATTTAGAAATAAAAAATAATTCTTCTAATTTAACTCTTGAGAAATATATTTTAAAAGAAAATGAAATAAAAAAATTTTTAAAAAAATTAGAGAAAGCAAAAACTATTTATGTTTTTGGTATGAATCTTGCATATAACATATCAAGAAATTTTGTTCAAAGAATAAGATGATTAAATAAAACTGTTATTCAAGAAAGAGATTTGAATTCAATAGAATCATATGTAGAACAAATAGATCAAAATGATATTGTAATAATTTTAAGCTTAAGTGGAAGTAGTAAACATTTAATTGATATTGTAAAAAAACTTGAAAGTAAAACTTTTATGTTTGGAATATTAGGAGAAAAAGGTGAGATTAATAAATATTGTGACTTATTTATAGATCTTCCAAATCTTGAAGAAAATATTTGAGATTCATTTTCTATAAGAGGTCAATGCTTAATTCAAATTTTAGACTATTTATATTTAGATTTTACAAATTATTTATTAGTAAAAGTACAAAGTGATTTACTTTAGTACACGATAGGCTCATAGTAACATAACGACTTTTAAATTTAAGTAATATATTTTTGAAAGGAGAGTTATTATGAAACATATTTTTTCAAAAAAGAGGGATGAAAAAAAAGAGAATGAAAAAGAAAGTAAAAAATTAAAAACTAAAAAGTCAAAAAATAGTTTGCTTAGCAAGTTTCAAAAATTGGGAAGAACATTTATGTTACCAATTGCTGTTATGGCATTTTGTGGTATTTTTTTAGGAATTGGCGCTTCTTTAACATCAGAAGCTACATTGACACAAATGCCTTGATTAAAAACAAGAGGGTTATTTGACTTTTTTGTATTTTTAAAATTAATAGGAAATATTGGTTTTACATTTTTACCTTTTATGTTTGCCATGGCAATACCATTAGGTTTAGCATCTGACAATCAAGGTGTTGCTGCACTAAGTGGTTTTTTAGGTTATGCAACAATGTTATTTAGTATAAATTTTACAATCAACATTTTTCCTTCAAGTTGATTACAAGAAGGAACTTTTATTGGAAGAACTACAAAAGAAATATTGGGTATTCAAACAATGGATATTGGTGTTTTAGGAGCTATTTTTGTAGGTCTTATAATATATAAATTACATGAAAAATTTCAATACATAAATTTACCAAATGCAATTTCATTTTGAGGGGGAACTAGATTTGTTCCTATAATATCAATACTTTTATTTTCAGTTTTAGCACTTCCAGCAACTTTCTTTTGACCAGCAATTGCACAATTGCTAGCATGAGTTGGATTGGTAGTTCAAAAGATAGGAGTGTTTGGTCCATTTCTATATAGGTTTACTGAAAGTTTAGTAAGACCTACAGGAATTCACCATGTTATAAATTCAATTATTAGATATACTGAAGCTGGTGGATCATGACAAAATCCTGTTAATAATGAAATAGTTTATGGAGCATTAAATATTTTTTATGAACAGTTAAAATATAATCAACCTATTTCAGCTGAAGCTACAAGATTTTTAAGTCAAGGGTATATGCCAACTGTAATGTTTGGTTTGCCAATGGCAGGATTAGCAATTTACTTACTTGCACAAAAAGAACAAAAGCCAATGGTTAAATCAATTATTGTACCTGGAATAGTTGCAAGCGTTGTTGGGGGAATAACCGAACCAATTGAATTCTTATTCTTATTTGTAGCACCAATGCTTTATTTAATTCATTGTTTTTTTATAGGTATGGCATATTTATTTGTCGCGTTACTCCAAGTTAAAATAGGAAATACGGATGGCAATATAATTGACTTTATTGTCTTTGGTGTAATTCAAGGTTTAAATACAAAGTGATACTACATATTAGTTATTGGATCAATTTGAGGATTTCTATATTTTAATTTATTTTACTTCTACATAAAATTAAGAAATGTACAAATAATTGGAAGAACAGAACTTACACCAGAAGAAAAAGAAAGTATTGTTCAAAAAGTTGATAAAAACAAAGTTAATGATTTTGATAAAGTAGCTGAAAAATATTTACACCTGTTAGGTGGAAAAGAAAATATTGAGAGCTTAAACAATTGTTATACTAGATTAAGAATTACTTTAAAAGAAACTAAACAGATTCAACAAGAAGATGTAAAAAAACTTGGAGCAATAGCTATTAAATATATTGATGAGTTAAATATTCAAATAATTATTGGACCAAGAGTTGAGAAATTAAAAAATGAAATAGCGAAATTAATGAAAAGTGGGTAGCTTATGAATAATTTTAATAAAATTATAAATAGAAAAAAGAATAAGGAAAGAAAATGATCAAGTGAATATTTAGAAAATAATTATTCAATTGATTTTTCTAAAAAAATTTATAACTTATCAATAGCAGATTTGGATTTTGAAACACCAAAATCTATTGTAAAAGCAATTTTTAAAAGAGCTAAAAGAAAAACTTATAGTTACACATATCAAGAAGAAAGTTCAATACTTTCAATAATTAATTGATACAATAAGGTTCACAATATTTTTTTAAAAAAAGAACTTATTAAACTAGTGCATGGTACAGTTAATGCAATGTTTGAAACAGTTAAGTGTTTTACAAATATAAATGATGCAGTACTTATTCAATCTCCAATATATCAACCTTTTGAAAGATCAATTATAAAAACTAAAAGAAAAGTTATTTATAATCGTTTAGTTTATAAGAATAATAATTATTTTGTAAACTTTGAAGAGTTTGAAAAACAAATTAAAGAAAATGAAATAAAACTATTTTTATGATGTAATCCTCACAATCCTGGTGGGAGAGTTTGAAATAATGAAGAGATAGAAAAGATTATAGAAATTTGTAATAAGTATAAGATTCTAATTTTTTCAGATGAAGTTCATGGGGATTTAACTTTAGAAAAAGAACACAACTCAATATTAAAATATAGAAATCAAATTAATAACTTTATAGTTTGCAATTCACCAAATAAAGCATTTAACTTGGGAGGATTAAAAGGATCTTACATGATTTGTTCAAATAATGAAATTATGAAAAAAATATTAACTCAATATGAAAATGATTCTTTAACTTCTTCAAATGTTTTTTTTCAACCAGCTTTAATTGCAGCTTATTCAAATGAGTATAGTTTTAAGTGATTGTTAAAATTAAAAAAATACATTTTATCTAATTATTTATTTTTCAAAAATGAACTTAAAAATTTTGATAATGTTAAAATAATGGAAATGGATGCATCATATTTGCTATGAATAAACTTAAAAACGCAAACAAATTGAGATGAAATTAAAACTATATTTTTAAAGAAAAATATGATTTTAAATTTTTATAATGAATTTGCAGATTGTGAGCAAGGCTGATTAAGAATTAACATAGCTATAAGCAAAAAACAATTAAAAGAAGTTACTAAAAAGTTTAAAGAAATTATTAAAAATTTATAGAAGGGAAGAATAATTTATGAAAGTAATAAATACATTAAAAGCACCAAAAGCAATAGGACCATATAGTCAAGCAATATTAACAGATGATAATTTTCTTTATTTATCTGGTCAATTAGGTTTAAATTCTGAAACTATGCAATTAGAAGAGGGAATTGAACTTCAAACTAAAATAGCATTAGATAATATTAATGAAATTTTAACTGAAGCTGATTTTATAAAAAATAATGTAATTAAGGTATTAATCTTTTTAAAAGACATAAATAATTTTGCAAAAGTTAATGAAATATATGAAAACTTCTTTAAAGATCATAAACCTGCTAGAAGTGCTATTGAAGTATCAAATCTACCTAAAAATGGTTTAATTGAAATAGAAGTAATTGCAAAAAAATAGATTAAGTTTTAAAGAATAGTAAATAAAATTAAGATTTTATAAGAAAATAGTATTAATGAATAAATTAATGCTATTTTTTTATGAAATTTTATGGATAAAAGAGCAAACAAAATAAAAACTTGTTAAAAGACTAGATTTCTTTACAAAATTATGTAAAATAAAAGTGTAGTTTTAAAAAGAATATTATTCAAAAATAATGAAAAAATTGAATAGATTACTTGTAATTTTAAAAATAACAAAGATAGAACTAGGTGTATTAATACATGTTACAAATAATTAAATTAAATAATATATCAAAAAAATTTGATAACAAACAAGTTTTAAAGGATATAAATATCGAAATACAAAATAATAAAATTTATGGTCTTTTAGGTAATAATGGTGTTGGAAAAACAACCTTAGTTAAGCTAATTTTCAATGAATTGAACTATGACACTGGAGAAATAATATATTTTAAAGATAATAAGCAATCTGAAATTGATTATGGTGAATGATATTATTTTTTAAAGAGTGGGAATTTACCTCAAGAAATTAAGGTTAAAGCTTACATTGAATATATTAAAAATTTAAATAATATATCTAAAAAAAGTTTTGAAGCTAAATATAATGAAGTAATTAAATTAATTGACGTTTCAGCATGATTAAAATTAAAAGTAGCTGATCTTTCAGCTGGACAAAAAAAGATCTTATTGCTTTTTATTTGTCTAATTTTAAAACCTAAGGTTTTATTTTTAGATGAACCAACAGCTAACGTAGATATACAAACAAAAAAAATGATGATAGAAACAATTGAAGCATTAAAAAAAACAAGGAATCATTATAGTTGTTATTACACATTTAGTAGATGAAGTAGAGCACATTTTGGATCATATATTTATTCTTGAAGAGGGAGTTATTAAAATAGATCAACCTTATAAATTAGAAGAAAATGGCAGATTAAAAGAACTATTTGAGTTACATACAAGCAAAACAATCAGTAAAAAAACAGAAATGGAAAATTATTTAAATGAAAAATAATAAATCAATAAATTTATTTAAAACGGTTTTACTAAATCAAATTAAAAATCGAAAGCTAATAATTTTAACATTAGTTTCCTTTTTTCTTTTAATACTTATAGATTCAATTTCAATTTACTTGGTTTTAGCATTTAATGATTATTCTCAACTTATACTAATTAATAAATTAATTATTGCTACTAGTTCTGTTTTAATTGCTTTGCTAGTTTTAATACATTGTTCACATCTTTTTATTTTACAAAAAAATGAAGGTTTATGAAAAATAGATTTAAACTTTGGTTACTCAGAAAAAAGTATTTTTCTATCAAGAATTTTATTATCATATTTTTTAATTTTAGTTTTAATTATTTCAAAGTTATTAATAAATTTAATTATTTATCTTTCAATTAATAAATACGATAGTTTATGAGCATATCAATTTTTTATAACTCCATTTGGATGATATAGTATATTTGCTTTTTTCATTCCAATTGTAGTTTTAGTATTCAGTGTTTTAATAAAATCAAGTATTTCAATGGTTGCTTCTACTTCATTTACAATATTTATCTTATTATTGCCACTGCTTACTATATTTTTTTCAGTTTTAACATCAACAACTGATTTTAATAAAAATCAAGCATTTAGTGATGCTTTAAAAAATCAAATTTTTTATAATATTAAAAAACAAATTGACAGAGATGATTTAAGTACAACTATTTATAATGAAAATTACACAAAAAGATATATAGAAAGTAACGGTCAAATAGAAGCTTTTATTATGTCAGGTTATGATGAAAAACAAATTAATTCTGATAAAGAATATTGAAAATTTATAAATGCTGTTGAATCACAAATAGATGCTAATCAACGTGATTTGCTTTCTTGAAATCAAATTCAAGAATGATCAAATAAAACTGTTTTGATTAAAGAAACTCCAGGTAAAATATTTGATAAAATAAATTTCAATTTTGATAGTAAATATGGAAATATATTGAATGCATATAAACAATTTATTTTAAATTGAAATATTTGAAGAAATATAAATGAAGAAAATCCAAAATCAGGTATTTTATTAAATCCAATAAACAAATATAAAATTGAAGCTAAAACAACAGCAACAAAATTTATGTTTAGAAAATCTTTTGAATCAATGTTATTTAATGTTTATGAAGTTATGCAAGTTGCTTTAGAAACAAACAGTAGAAATGGTATTGCTATTGCTAATCCAATAGTTACACTTCAACAAAAACAAAAATCTTATTTAATTTCAAATTTATTAAACCCAATAAGTCATTTTAATTTAATGTTTAATTCAATTAATTATCAAAAAAATAATACATTTTTAGATTATTATAATTATCACTCAATATTCTATGCTAAAACATATAATTCAAAAGTAGTTGGTAAAAAAGGGGAATTATATTTAGTTAACAAAATAAAACCATTATTAGATGTTTTATTTATATATTTATTTTATTTTGCAATAGGTTCTTTAATAATAGTATTAATGTATAAAAAATGAAAGCGATCATTAAAAAAATAATAAAAGCTTACTATTCTAATTAAATACTTCATAAAATTCTTGAATTAAAAAATATTTCAGAATTTTATGAAGTATTTTTATTTAGTATTTCTAAATTTTTAAGATTAGTTTTGAATTAATATTTTTCAATTAAAATGGGAATTAATTAAAAAGATTAATAAATAAAATTTAAGAGTAAAAAAGAAATTCTAAATATTATAGTTATTGGTTCAATAAGTCTATAAAATATTTTTAAGCTACTAAAAGTATTTTACTTTTACTTCACTCATAGTTCATAAAATTTAATTAAGAGGAAGAGAATATGAAATATGAGCAAAAATGAATTTTTAGAACTATACTATAAAAAGATTAAAATTAGGTATATACTGTTTGGTATGCTAAATATTTTCATATTTATTGCTTTATTAATAATAACAATAGTTTTTTAAAAAAAATGAGATTTTAAACACTTGGGAAGTTTTAAAGTTTGCATGACTTTTTTCTTAATAATAAACTGATTTTTTACTATTATTTTTTTTAATAGTTTTTGGATTAATAAATGCGTGAAGAATAAAGAATGGAACTGATGAAAAAAAGGAATTAGGTTATAAATATTTTCTATCACTTTTTACTAGCGTAGAAAAAATAAAGATTATTTATCCCAAAACAAATGAAATATTATCTTTAGAAATTTTTATAAGTATAACATTTAACTCTTTTGCACTATATTATGACTTATTTCTTATTTAATTATTTTTATATTAATAAAAATAATCTTTATTCCTTTTGAAATGAAAATAAATAAGGAAATAAGAAATATAAAAATAGAAGAAGAAGGAATTGAAAGTAAATATATAAATAAAAAAAATTTAAAAATTAAATAATAAATTCTGAGTATTACAATTACTTTCAAAAATAGAAATAATATAAATTATTAAATTATATTATTTAGAGAATAAATATTTTTGAAATAAATTAAAAAAATTTTCATAAAAATTTAATTTCATAAAAATGAAAGAGGTAAAAAAATGAATTTATGCTTTGATTTAGGGGGAATGTCTTTAAAAATATTGTTATATTAAAAATAATAAAATTGTTTTTAAAGACTTTATAAAATTTCAAGGCTTTGTTACTGGAGATTATGTTTTAAATTTAATAATGAAATTAGTATAAGATAATCTTAATAAAAATATTGAAAATATCTGCATTTCAAATTCAGGAGTTATTAATTCGGGTATTGGTGAAATAACTGGCTTGTCGGCTATTATAGATTTACATAAAATTAATTTTAAAACTAGTCTCTTTAAAAAATACAAAATTCCTGTTTTTATAGAGAATGACTCAAACTGTGCAGCTTTAGCTGAATTAAAATTAGGAAATGCAAAATATGCTAAAAACTCTGTAGTTATTTTAATAGGTTGGAATAGGGTGTTCCTTAATAATTAATAAAAAAATTTTTAAAGGATCTTTTTTAGGCTTTGGAAAATTAGGTTGTATTTTAAACAGTTTTAAAAATGAAGAATATATAAATTGATCATATGCTGCAAGTATGAATTTTTTTAGAAAAAAATATTTTAGTTTAACAGCTAATGATATAAGTAGTAAAAAATTTATGAAAATTATTATAAAGATTTAATAGCAAAAGAAGTGATTACAGAGTAAATTACGAGTCTTGCTATTTTAATATTAAATTTGTAATTTATAATGGATCCAAAACTTATTGTTTATAGAATTATTAGAAGAAATTATATTTTTTATTTATCAAATCTGGACTGAAAAGAAACATGAAGTTAAAGAATGCTTGTTTTTTAACGATTCCCATTTATCAGGTACCAATGAATTAGGCAAATTATAGTTAGCAAAATATAAAATAAGTAAGTATATTATTTTAATACAAAAAGACTTTTTAAAACATAAAAATATTTTTATGAAAAAACTTAAAAATATATTATATTTTTAAGTTGAATTTAAAAAGTACTTTTTTAGTTTCTTTGAATACAATAATTTTAGGTTCTTACTATATATTTTATTTTAAGAAACATATTAAAAAAAAACCGAAAAAATTGTGATAATATTTTGATTAAATTATATATTTCAATCAAATGTATATGGTCTTAAATTTATATAGCTAAAAATAAAAAAAGTATTTTTAGAATTATTAATTTTAAAAAAAGACTATATTTTTAAAAAAATTTTGTATAAAAATAGAAACTAGTTATTTTTCAAAATATGAATTAGTAACAAAACTTAAAATAAAACATTTTTGACAATATATATGGATTAGAATTTTTTTTTTTTTTTTAAAAAAAAAAAAAAAAGAATGAAAAGCAAGATGAATAATTTTTTTCACTTATTAACAGCTTCAATTTTTATTATAAGTTTAAGTATTATAACATCTTTTCAAAAAAAGAGTTAGAAATAACTATTTAGTAGTAAATGACTTTGAGTCGAAAAAAATTAAACATTTAATTTATAAGAAGGCGGAAGAAAACTTTAATGAATACCATTCAAATTTTACTTACTAATTTAATTCAAGTAACCTCAACAAAAAAATTTAATAAATTTTTAAATAAACAAATGTTAATCAAAAAAATCTGTGAGGAAGAAATTTGATCAGATAATAACAAAACTAATTTTATTAGTAATCTTAAGCAAATTTTTAGGGATAATAAAGTTCAAAAAAAAATAAATAATATTTTGGAAATGAATGAGAAATAATATTATGAGAAATTTAAATTTTTTAAAGGGAATGAAAAATAAATATAGAGAAGAAAAAAATATTTATTTTCTTTTTAAAAAAATATTTTCAATTAAAAATTATTTAAAAGTAAATATAAATTTATTTTTAATATTAAAATATAGCAATACAATTAGTTTGGAACAATACTACATAAACTGATGGTAAAAGTAAGACGTATTATCTCTTCAGGAGTAATAATTAAATTTACAATAAAATTAATTATTAAAGAGAAAACATATCTAGCTATAAATATTTTTTCACTATTATTATCTGCTGCTTTTTTAACTTATTTTTTAACTATTAATAATAATGAAAAATTAGTTATAATGTTTGATTACTATGCTTTATTTTATTTATTTATTTTAATGTTTATGTTGTGCTTAAGATTAGTATTTTTTATTTTTATAAACAAAAGAGATGATAAGACGTTACAAATTATAATCTCACATCAAGTCAAAAGAACTAAGTTATTTTTATTTCAAATAATAACTATTCTTATATTAGTCACTATAAACATAATTATTAATTACTTATTAATTAATACTATCTATAGTTTAATTAGATGAGATATTAATTTTGTACTTTTAAGAATATCAAGTGTTTACTTCTTTTATGTTTTTATTAGTTGTATTTTTTTAATAAACTTTTTTTTACTAATGTCTTTAATTGCCGGTCAACAATTTTTAGCAATTATTGCAACATTTATATTGTCATTGAGTTTCATAAGTAATTTACCATTACAATTTTTATTAAAAGATATTGAAAATAAAAATATTACAATGCGAAGTAATAATTATGGTCAAACAACAATGAAAGTTAATGAGATGTATGATTCCTATAATCTTAGAAATCATGCACTTAATAAAAAAAATAAATATCCAAATTTAAGTTATGATATTTTTAATTTTTTTATAGAAAGTTCCTTTAGAACTTCTACATTCGAAGAAAACAAAAACAAAGAATTAAGAATTAATTTTTTAAAGAGTAAAGGCATCGTTGTAGAAAAACCTGTTGCAGTTGAATTAAAAACTCCAACTAGAATGGCAACTGCATATTCAAGATCATTGCTTAGTCCTTGAGTAGGATCTAATGTTACTTTTAAAACTTCTCTTAAATATAGATTTTTAAGTATTGAGGAGTTAAAAGAAAAATATCCAGATGATTTATTTATAAAAGAATTTATTGAATTTACAAATTACATAAATAGTATTTATGCTAATTTTCAATCTCAGTTTTATTCTCTTTTTGAGCATTTTATTATTTTAGATAATAATAATATTGCTACAAGTTATATTAAAAATGAGCAAACTGGACAAAGTCTAATATTTGATCCTGAATATTTAATTGATATTTATCAGAATTATTTCAATTTAAATCAAAACAAATTATCTCTTGACAAAACTACAGCACTAGATGTATTAATTACAGAAACAATTAATTTTCCTACAATGTTGAGTGTTAGAATTCTAGAAGACTATTTTTTAAGATACACAAGCAATCTTGTTATATTAGATGATAGTGTCATTATAACTACTTCAGCTGATTGAGAAGATTATAAAAATGTAACTTCCTTGTATGGTGGGTTCTTTCATGCTAATCTTATTTCCAATATGTTACTTAACTATTCTTATTATGGGGGTAGAGCATTTGATGAAATATGATTTGAACCTGATAGTACAAGTAAAATTTTCTTTAATAAACAAAACAATCTTTTTATAAGTCATATCTTTTATACTTTTAAATTAGATTCAACTTATAAAATAACTTATGATACATACAATAATTATTTAGAACCATATTTCTATATATTAGTTCAAATAGTTATATGTACAGTTAACTTTTTTATAGCAAGAAGAAAATTCAATAGAATGGATTTGGCATAAATGATAGATCAAAAACCTGTAATAACTTTTAAAGACTATTTAAAAAAATTTAAAAATTCTAAAATTGGACCACTAACTTTTGAAATTCAAAGTAGTAAAATCACAGCATTACTTGGTAGTAGTGGTAGTGGAAAAACAGTTATTATAAATACACTTTTAGGAATAATAAGAAAATATAAAGGCGATATAGTTTTAAACGATATAAATCGAAAGGCATATAGTTACTATAAAGCCAATTACAATGTTGGTTTTTATACACAAATGGATTTTTCGCTATATGAAGTTACAGCATATGAGTTTTTATTAGATATTTGTTTAATGCTTGGTCTTTATAAAAAAGAGTATAAAAAAAGAATTGAGTATTGAATGAAGTATTTTGATTTATGAGAATCAAAAGATAAAAAAATTAAAAATTACTCATGGGGTATGAAAAATAGAATGAATTTAATTTTATGTTTCATAAAAGAACCTTCAATAATTATTTTAGATTAACCCGGAGCAAATTTGGACTCTTATTGAAGAGAAAAAATAAAAAAGATCTTAACTAAATTTAAAAATGAAGGAAAAACTATAATAATTACTGTTCATAATATTGATGAAATAAATGAGATAATTGATGATTATTTAATTATTGATAAAGGACAATTAGTTTTTTCAGGTTCAAAAGTTGAATTAGATATATATTCAAAATATAAAATCTTTATTACAAAAAAATATGATGTAAATAAATTTAGACTTTTTTTGAAACAAAATAATATTAAATCATTTAAATATGATGAGGATGAAAACTCATTAGTAATATCAATTAGCAATTATAAAGAATTAAATTATATAGTTCTTTATTTAATAAAAAATAATTTACCTTTAAAGAATCTTATAAAATTGCCAATAAATATGGAATCAATTTATAAAGCTTTAGATGATAAAAATTAAAACAACTTTTTAGAAAAGAGGGTAAAAATGAAAAAAATATTAACACTACTTTCAGGATTGACTATATTTTCAGCTCCAATAACAACTGTTATTTCTTGTAGAACAACTCCTGTTGATCCACCTCCAACTACTGAAGAAGACGATTATGCGAAGTTAATTCAGGAATTAACTCAAGATGTTAGAGATATTTATAATAATCATTATGCACAAGTAATTTCAAATCTAATTGGTGTTCCATCAACAGAAATTTCAAATGAATTTTTAAGAGAAGAAAATATAAAAGCAAATTCTGGTAAAGAGTCAGAAATAACTGATAAACAAAGACTTGCAATAACAAATGATTTTAATAAAATCATGAGAACTAATGAGTTATTTGCAGAGTTTAGAAAAATGACAGAAAAAGATAAATATAAAATTTTATTTTACGATATAGAAACTATTTCTGAAATTACAATTAATTTTGATACTTTAAAAATTAATAATGGACATATAGAAGAAAATAATATTTGAATGGGAAATGTTCAATTTGATTTTAAAGTTATAATTAATTATAATAATGGAATTACTAATAATACAGAAGCTTTAACTTTAAATGAAACATTTGCATATTCTTCAACAGAAAGTGATGCTTTTAAACAAGGTACTGATAACTTTCTTGAAAATATAACAAGAGATTATTATACTTCAAATGATGCTATCGAATATACAGATTTATTTTATAACAAAATAGCTCCAAATGGAGAACCTCAAGATGCTTATTCAGGTTATTATGAAAATTATATTAAAGATTTTTATAATAAAGATGAAGAATTTAAAAATAATCTAACAAATTTTATTAGCAATAAATATTTTTCAAGTATTCAAAGTCTACCTTTAATTTTTTCACAAGATGGCATTTACCAAGAAATTAATAAAGTAAATAATATGGAAAAAAAATTAAATCCAATTGAATATACTTATGATGTAAACAATACTCAAAATGATGCTTGATTTTTATTTAATTCTATATTTAAATTAGATCCAAATTCACTAGAAGCTTCTAACATAATAAATGATAAATATTTACTTAAAAATAAAAATGACTTTGAAAGTGATTATTTAATAAAACAAGAAGAATTTTTAAAGGAAAAAGATATAGAACTTACTAGTGAAATTTCAGATCGTAAAGGATATAAAAATGCAATTTCAATGGATATAGTTTCTTTAAATGGACTTTCTATAAAAGTTGGAGGAGGTTCTTCATCAGTTTATGAACACCGTTTACCAAAATTTGATTTACTTATTAATTATTCAGCAAATGATCAAACAGGAAAATTAGATGTTGATGATTTAAATACTTTTATAAAACATGAAATTAAATCATTTAGAAATATTTTTGGTATTGAAAGTTCACAAATGGGAGATCCTAAAAAATTAATGACTATAACTAATACTAATGAATTTTTTGATTCTTGAATTGGAGAATTTGTACAAAATAGTGCAGTTCCAAAAAAAGGTATAAATGTACTTCTTAATTTAACAGGATCTTTGAACACTATTACTAATAATATAACTAATTTTGGAATTGGAATGAGAAGTAAATTACTATTAGAGTCAAAAAGTGATCAATATAGATTTGCTTTTGTAAATGGCGAAGGTCCGAAATTTTTAGAAGAAACTACAGAAAGTTATACTGGTTTTGCTACTCGTAAAAATTCAAACACTCCTATATCAGATGCTAAAAACATTTATTATTATTATGCAGATTGAGATATAAAAGGAAAAAATTTAAGATTACTATAATGAAATATGAACTGAATTAATTTACTTTTTGATGTTACTTCAATGTTTTCTTATGATAAAGTAAATAATCCAAATATAGCTTGAATTGATTTTAATCGTATTCCTAGTAATATTAAATAAGGAAATAAAAAAGAATATTTAAAATATTCTTTTTTATTTCCTTAAAAATATAAAAGTTTTTAAAATCTTTAAAATTTTATTCTTATAAGTAATTTTATTCATTTTTAAAAAAATAATAAAGAATATGTATTTTTTGTTATCATATATGTTATATTTAAATGAATTAAAGGAGAAGAAAAATGCAAACATTAATTGACATTAAAAATGTATCAAAGAGCTTTGGCAAAAAAGTAATATTTAAAAACTTTGATCTAAAAATTGAAGAAGGTCAAAGAGTTGCACTAATGGGAGCAAATGGTTGCGGTAAAACAACTTTAGTTGAAATGATAGCTCAATTTAGTAAGCCTGATTCAGGAGATATCAAAATCAATTTAACTGAAAATATTAAACAAGAAATAGGAATTCAATTACAAGAAGGAAATTGACCTACTGGTATAACAGCACAAAATATGTTAGATTTTTATAAATTTGTTTACCCAAAATTTACAAAAGAATGAGAAACTAAATTAAAGGAAGTTTTTGAAATTGATGAGTTTATAAACAGACCTCTTAAAAAATTAAGTGGTGGACAAAGACAACGATTTAATGCTATGATATCAATTATGAACAATCCAAAAATAATAATTCTTGATGAATTAACAACAGGATTGGATATGGAATTACAGTTTAAAATTATTGATTTTTTTAAAAAAAATACAAAAGAATTTAAACAAACTTTATTGCTAGTTTCACATCATCCTGAAGAAGTTGAAGAAATGTGCAATAGACTAATAATTATTAAAGATAGTAAAATTTGATATGATGATTCAGTTGAAAATACAGTTAAAAAATATGAATCTGTAAGAAAATTAATGAATAAATTCTTTAAAGGAGAGAAATATAATGACTAAAACTGAAAAGAAAAATAAATTTGAAGTTAAAAAACAAATTAGTATTTTTAATAACTTATCATTATTACTTTATAAATCTTTTATAAAAGAACCAAAATCAATAATTTTTATGATTTTTGTTCCAATATTTTTTAATATTATGTTTTTCTTTATAATGGGAGCTAAAATTCAAGGAGAAAAATATGGTGCATTATTTGGTTATACATTATTACCTTGTTTAACATGCTTAACTTTATTAGCTCCTGCTGTTGTTGAATGAAAAAACTCTGTATTTCTAAAAAGAATTGATATTACAGGAATTAGAAAATCAATGTTTATTGGAGCTCTTTGATTTGTTTATCTAATTGCGGGAATAGTAGCTTTCTTTTTAATGATGATATTTAATTTAATTTTTTCACAAATACATAAATTAGTTTCATCAAGTGATGCATTAAGCTTTGCACAACTTTTAGGAAAAGTAAATTGAGGTTATATGCTATTGTCTATGATTTTAATTACATTAACATCAATTGCTCTTGCAACATTTTTTGGTGGACTATTTAGTTCAGTTGGTTCAATGCAAGGAATGATAATGATGATATATTTCTTTAGTATTTTCTTATCAGGAATAATGTTACCTCCAGAAGCATTTGAATCAAGTAAAGGAATGATAATCTTTACATATTTTATACCTCATAAGTATGGTGTATTCTTATTTTTATATGCAACAAGAGGTTGAAGTGATAAAGGATGAGAAAGTGGATTTAATAATCACTATAAAAATCCAATGCAACCAATTTCAGAAGAGTTTATTGGAAAAGATTTTACAGCAACATGACAGCCAATACTTGGAGCAGTATTAATACTTGCTGCAATATTTGCACTTACAACATTTACTTTTAAATGATCAGCTAAAAAATAATTAAAAAACATTTACTTTAAGTAAATGTTTTTGTCTTTTAAATATAAAAATACAAAATTTATAGATATTTTTTTGTAATTCTTATTAAAACCTATAAAATTTTAATAAGAAAAGAGATAAAAAAAATGGAAAATGATAAATTTTTTACAAATAGAAATCAACAAGAGCTTTTAAATGAAATTCAAAATGAAATTAAAACTTCTGATGAAGTCTATTTAATTTATCCATTTATTTCTAAAACAATATTAAATAAAATATCTCTATGTTTTGACTATTGCTTAGAAAATAATATTCCAATAAAAATTATCTCAACAACTTTTGATGATTTATCTCAGTTTAATAATTTGAATGAACTGAAGTTAATTGTTCAAAAGTATAAAAACATTCAAATTAAAATCGAAGATAATATGGAAAGAAATAGTGAAAGAATTCATATTAAAGCTTCTATTTTTAAAAGAAAAACTTTACCAGATAGTGCAATTATGGGATCTTCAAATCTAACTTATAAAGGTATGATAAGTGGAAGAGAATGAAATATAAAAATTACTTCTAAAAATGAAAATGACTTAGTTCAACAAATGATTCAAGAATTTGATAATTTATGAAATGAAGATTTTGTTGATTTCTCAATTGCAAAAGATAGAGATGATCTTATTGAAAGAATTAAACAAAATCAATTGGTAAAAAATCAAGTAGAGTTATCAAATCAAATTCAATTTAGCAAAAAATACTTATATAAGTTTCAAAAAGAGATTATTGAGAAACTAAAATATCGAAGATATATCGGGAAAACTAAAAATTTAATTATTATGGCAACAGGAACAGGTAAAACTTTAGTGTCTGCTTTTGACTATAAAAATCAAAGACAAAGTGCTAAAAATAATTTAAGTATATTATTTTTAGCACATCAAAAAGAAATTATAGATCAAGCAATTAAAACTTATCGACAAGTTTTAGAAGAACAAAATTTTGGTGAAGTACTTTATGATGGTCAAATAATAGCAGATAAACCCAAACATTTATTTGCAACGATTCAATCACTTTCAAACAGATTAAATAATTTTGATAAAGATCACTTTGATTTAATTATTTTTGATGAAGCACATCATTTAGCTGCTAACTCTTTTGATAAAGTTTTTAATTACTTTAATCCAAAACAAGTTATTGGTTTGACAGCAACTCCTGAAAGAGAAGATGGCAAAGATATTAAACAATACTTTGATAATGAATTTGCATCAGAATTAAGACTTTGAGATGCAATTAATCAAAAACTTTTATGTCCTTTTGATTACTACTGTATTGATGATACATCAACAAATTTGCAAGGAATTGATTTAAATTCAGACAAAGATATTTTTAAAGTAGTTAATACAGATTCAAGAAATGAATTATTATTTAAAACAATTGAAAAGTATTTAGGTATTTATGCAAGACCAACTGCTTTAATTTTTTGTACAACAATTGATCATGCAAAGATTATTGCAAATTTTTTAGTTCAAAAAGGATTAAAAGCAGAAGCATTTACTTCTGAAAATAATAAAGAAAGAAATAGAATTTTGCATGAATTTAAAATTGGAAGAATTAATTATCTTTGTGTTGTAAATATTTTTAATGAGGGAATTGATATTCCTGAAATTAACACAATAATTTTGTTAAGACCAACAAGTTCAAAAACAGTTTATTTACAACAATTGGGAAGGGGTTTAAGAAAAATAGAGTTAAAAAATAAACTTGAAGTTTATGATTTAATTTCTAACATAGATTCCAAGTATGATATAACTTTGGGCATAAGGAATTTATTCAATCCAAATATTATTGGAACTAATTTTATTTCTACAAAAGAAGGTTTACCTTATGATTCTACAATTACTTTAGAAAAAAATACAAAAGAAATTATTTTAAAAAGTTTAAAAAAATGATTTGGAAATAAAGATATTATTAGAAAACAAGTTATTCAATATTATAAAAAATATCAAGATTTTGCTCTAGAGAAAATACTTCAAGATTATGAAATCAGTTTATTAGATTTTTATAATAAGTTAGATGAATTATTCTTGAAGGTAGGAAAAGAAATAAGAATTTATGATAAAAATGAAAACGATACAAATAGAAATAAGAATATATTAAAGCAATTTATTTTTTTAGATAATTTTAAAATAATAAATTATTTTTATAATAGATTAAGAAACAATATTTCAAAAGAAGAAATTGATTTAGATTTGGATAATCTATTAATGACTTCGTTTTTATATGAAATAACAAGTATGGAGAAATTCTTAACTATTTATCCAAATTATTTAGAAATTGAAGATTTAGTACAATATTTTATTAATACAAATAGATTAATTGTTGATGAATTGGCAATGATTTTAAAATACAAATTAGAAAAAGAAACATTGGTAATTACAGAAAGTACTGAAAAAATGTTAACAATAGATTCAACATATACAGTAAAACAAGCTCTTGCAGCAGTGGGAAGAACAAATTTTTTACATTATAGAGAAGAGTTAAAAGTTTTGACTTTTCAAGCAGGTTATTTAACATTTTTCAAAACAAAACAAATTATTTTGGCTGATGAAGATGGTAATGGATATGGAAAACTAACTAAATATGATGAATTAAGTAAGAAGTTTTATTGATCATTGCCTGAAAAAATGACAATAAATCATAAAATTATTGAAGACTTTAATAATAAAAATATAGTAAAGTACTTATTTATTCACGATAAACAAAATTATGGTAATAAAAATATGTTTTTAAAGCTTTATAAATTTAGTGGAATAGGAAAGTTTGTAAAAATGAATACAGAACAATATCTAACTGTAGAATTTGATATAGAAAATAACTAAATATAAAATTTGAATTTAATATGAAACATTTTTAGGAGATTTCTATTAAATTAGTAAAATATAAATAAGCATATTAATTAAAACTGGACATATTCTATATTTAATAGAGTATGTTTTTTTATGATTAATTTTTAATTATTGTGTTTATAAAGTTAGTACAAACAAAAATAAATAATTTGAAAGGGTGTCAAAAAATAAAAAAGTGTGTCATTTTAAGAAATCCCTAATTTTGTTTATCCTTTTTTGATAATGTTATTTCAGAGGTGATTGTATGAATTTAAAAACTAAAATAAAAATTAATTATGGTATATTAATCTCTTTAGTTATATCATTATTAATTAATATACTCTTAATTCTAATTGTTTATGTCTTTGGCAATATTAAATTTAAAAGTAATGATATTGTGTATACAATATCATTATTTAGTTATCTTAAAAAAACACCAAGCTTTTTAATTAGTGAATTATTTAAAACGTGTCTTTACATTTGACTTATATATAAAATAATAAAATGTATTAAAACTGATAATAACTTTAGTTTTAAAATATGAGTCTACATCTTAATAATAATATTTGAAATTGCTCCTCATATACAGCATTTTAATTTATTTAGTAGCTCATTTCTTGAAAAAAAATATGATCAGTTTGTTCTTTTGAATCCTGATATAAGCATCACTAAAGATCTTTTTTTAACTCTTGCCAAAACAAGACTAGTATTTTTTTATGCTATATCAACTATATCAGTATTTTCTCTAGTTTTTCGCTTTTCTTTATATACAGTTTATATATTGTATAATATAAAGAAAAGAAGGGAATTAAAGAAAGTTGATGAAAATCAATTACATTAATTTATTTATTCATAATATTATAAATAGAATTGTTTTTTTAATAATTTTATTTTTCTTTTTATTTTTACTAACAAACTCATTAATTATTATTTACACATTTTTTCCAATTATATTTTTGCTAAGTTTAGGTTTACTTTTTACAATACTTTATAAGAGAAAAAAAGTGTCTATTAAGTTTTTATACTTTTGTTTTATTCCTTTATTTCCATATAAAATTTTTATTAAAATTGTGTTTTTTAATAAAAATCATGATAATTATTTTGAGAGTTTTAGAATAAAATTATTCCTAAGACAAGTATCAGCACTATTATCTAACTTAGCTATTTTTATTGTAATTTTGTGCTTTTCAACATATAATTTGAAATATTGAATTCTAATTTCTATGTCATTGTGTTGTGTTATTGTACAAATTGTATTTTTTTCAATTACTGTATATTCAATAAAAAATAAAGTTAATGTAGCTCCTTTAAAATTTTTTTATAAAATGTTTTCTCATAATTCTGATAAAAGACATAAAAGTTTTAAAAGTGAAATAATAAGTGAAATAGATAATAATAATGGCATTTTAACTTATAAAGAATTAAACACTAAATTTTCTATTTCTTTAAAAACTTTAAATAATATAGTTATTGAATTTAAAAATACAAACTTTAAAACATATTCAATACAACTTAAAATGGAATTTGCTAAAAGTCTATATCAAGAAGCAAATTATTCAACAAAACAAATAGCTGAAAAGTGTGGTTATTTGTCAAAGTCTTCTTTTTTAAAGGCATATAACAGTTATTACAAGTAAAATAATGAATTTAAAAAATCACTATAAAAGTGATTTTTTTAATCTACATGTAAATTTGTAGCTTCTTTTTCTAATTCTTTCATATCATTTGATATTTTTTTCATTTTATCTTCAGCATCTTTATAGGCATCTCTTCCAGTAAAAATATGTAATGGAGGTTTAGCAGATTTACTTGTTAAATTAATTATAAAATCACAGTATTTTTCTGGATCTCCATCTTGTTTTTTATTGAATTTAACTAGTGCTTCAAAATATTGATCTCTTGCTTTTTTATAATCTGAGATTTTATCTTCTCCAGTTACCATTGAAGTTGCTTCTAAGAAATTAGTTCTAAATCCTCCAGGTTTTATACAACTAATTCCAATATTTAAACCTTTAAGTTCATGACTTAAAGCTTCACTTCATCCATCAGTGGCAAACTTAACAGCTGCATAAGTTGAGATATAAGGATCTCCAACATAACCTCAAATAGAAGAAGTTGTAAAAATATGTCCATATCCTTGTTTTCTCATATATGGTAAAGCAGCACGAGTTGCATTTAAAGTTCCAAAAAAGTTAACTTCAAAACATTTTCTAATTTCTTCATCACTTGTTTCTTCAAAAGTTCAAAGTTGGCCATATCCTGCATTATTTAACAAAATATCAACTGAGTCAAATTTATTAACACATTCTTTCATTGCTTTATCCAATTGTTTTTGATCAGATAAGTCAACTTTTAAAGCTAATAAATTTTCATTTTTCCCGACTTGTTCAATGATTTTTTCAGGACTTCTGCTAGTAGCGCAAACAAAATGTCCTTTATCTAATAGTTTTTTTACAAATATTAAACCAAAGCCTTGACTAGCTCCAGTTATAAATCAAACTTTATTTTTCATAAATTATTTCACCTCTATGTATATTTTAGAACATTACAGTTAATATAATGCAAGTGAAATAACGATTTTTTTTAAAATAAAAATTTCCAATTGGTGTGTTAATTAAAATAGGAAATAATTAACACCCTTTAATAATAAAAAAAAAAAAAAAAGCATAGTAAAAAACGAAATATAAAAATATTTTTGTAAATGTAAAATATTTTTATATTTATTCTTTTAAAAATGTCAGTGTAAAGAAAATAGGATATTTAATAGAATTTTTTCTAAAATATTTTTAGATTCTGTAAAGTTATAGATTTTATTACTATTTTTTGAAACAATAAAGTTGAAAGAAATATTAATTTCTTTCACGAATTAAAGGTTATAAGTAAAATGTTTATATTTAAAATAAACTATTATAAATTTAAAACTTTAAGTATTCTAATCCTCTAATAAGAATACCAAAATAAAATTTATACATGTATTTAGTATAAAACTTGCAGATCACAATTAAAAGTATTTTATAAAATGAAAGTAATATAGACATTGCAATGCAATTAAAAAAAGATATATTCAATAAAATATAAACATATCATCAAAATAGATAATGTAACTTAAGGTTGCCAAAAGTTAAATTGTCTGAAATTTATTTAAAAATAATTAACATTAAGTTTTACGTTTATTATTTTAATATAAAATTTTATTTTTAAATCTTTCAAATAAAACTATTCTTTATTAAATTAAATTCTCTATTTATTAGAGATTTTTTTTGTTCTTTTTTAAAAATCAAAAACTTATAATCATAGGTATATATATTCTTGATATAAAAATAAATAATGATAATGTATAAAAGTTTAGGAGATACTATGTCAAAAAACATATTTTATGACAATGCTGTTTTAATGATTGATTTACTTGGTGGTAAAGACAATATTAAAGAAATTCAGCATTGTGCAACAAGATTAAGATTTATATTAAAAGATGATACAAAATTTGATTTAGAAAAAGTTAAAAAGCATCCTTTATTTAAAGGGTACAAAAAACAAGAAAGTCAACACCAAATTATTATTGGAACAGGTGTTGTTGACAAATTGTATAAACAAATAAATTTAATTCTTAAAGATGATTTACAAGAAGGCGAAATAAAAGTTGAAAATAAAGAACCATTTTGAAGAAAAGATGTTTCTGTAAAATCAAATTTATTTATGATTTCAAAAAGAGGAATGAACTCTTTTGCTTCAATTTTTGTGCCTTTAATTCCCATATTTATAGCAGGGGGAATGTCATTGGCTTTAAAATCCTTAATTGGTTCATTTGCTCCAAATTCAGGATTTACTAAACTTTTAGATATAATTGGGGGAGCAATTTTAGGATCTCTTCCAGCATTTGTTGGATATACAGCTGCAAAAAAATGAGGAGGTAATCCTTATCTTGGTATGGCAATGGGATTAGTTCTAATATCTCCAGGTTTATTAAATAGTTATGCTATAAATACACCAGTTTTATTAGGATTTGATTTAAATACAAGTTCAGATGTTATTCAAAGTGCAAGAGAAGCTGCATTTAAACAGTGACTTGAATCAAATGGATTTACAGAATCACAAATACCAACTGATCCAGGTCAATATAATGAACTTCTTAACAAGACTGTAGGAGCTTATTATTATATATTTGGAAATGTAGCAGGAGGTTTTTTTAAGATTAAATTAATTGAATACCAAGCTCAAATTATTCCAGTATTATTAGTTTTAGCTTTATCTGTTAACTTAGAAAGATTACTTAAAAAAATAACTCCCAATGTTATTGCCATTATTGTAGTTCCTCTAGTGACAGTTTTAGTATCATCATGACTTGCTTTTTGACTAATAGGTCCATTAGGTCAAATTATTGGAAAAGGAATATCTATTGAACTGGCAGGAATGTTTAAATATACTAATTGAAATTTCATTGGATTTGGAGGATTAGTGTTTGCATTCTTTTATCCATTCCTTGTGATTACAGGATTACATCAAGGATTTTTACCAATTGAAACTCAACTATTAGTTGATACTCAATTGAAATATGGACATTCATTTTCATTTATTACTCCAATTGCTTGTGTTTCAAATATTGCACAAGGTTCTGCAACATTAATGCTCATCTTCTTTTGTAAAAAAGATAAAGAACAAATTACAAAAGCATCATCTGGAACCATTGGAGCATTTACAGGCATAACAGAACCTGCAATGTTTGGAGTTAATTTACAAATTAAACCATTGTTTTTATCAGCTGCAATTGGAAGTGGAATTGCAGGGTGATGATTGGGAATGACACACACTGTTGCAAATTCACTTGGAAGTGCAAGTTGAATTGGTTTAGTTCAATTTGATTGAACTACTCAAGCAACTCAAAATTATTTTGCAAAAGAGAATATAAATGCTGTTTTCCAATCAATTCCAATGGGAGCTCATATTGCAATTGCTATGTTAATTTCGATGGGAGCTACAGTTGGAGTTTCAACAATATTGTTAAAAACAAAGTGAGGTAAAAAATCTCTTGAAAATTATTTAAAATAGATGCAAAAATTGTATAATTTTAAATAAGGGGAAATAAAAAAATGGACAAAAAATGAGAAATAGTTTTTGACTATTTAATGTATTTAATTAGAGAAAATAAAGTAAAACCTGGTGAAGTATTGCCAAGTCAAAATATGTTAAAAACTAAATTTGGTTACTCAGAACAGCCCATTAGAATAGCATTCAATAAATTAATTGAATTACAAATTGTAAAATCAGTTAATGGAAAGGGTTTTGTTGTTCAAGATAAAATTTCCAACAATTTATTATTTAGTTTCAGAGAATTATTTCCTGGATCTAAAAGTATATATACAGATTTTGAAGAATTGATTTGTGATGCTTTATTAGCACATGAAAGTGGTTATCAAATTAATGAAAGACTTATAAAATTTAAGTGTTTTCGAAAAACAGAGAAAAACGAATTAATTTTATTTCAAGAAAGTTATATTAAAAAAGAAAAGTTTAAAAATTTGACATTAAAAGACTTAAATCAAGAAGGTTTAATGTATTTTATTGAGAAAAAAACATCTTCAATTGTGAGTCACTCATCTAAAAAAATATCATTTATTACAAATTCAGAAGATATTGAAAAATATTTTAATTTAACTGAAAATGCTATTAATGGTTTAATTTTAGATGAAGGAAAAGTTTATGACATTTTTGGAGAAATTTTAGAATTCAGAAAAAGTTATTATCAACCAAAATTTTTTGAATGAAATTTTATAGAATGAAGAAAATAAAAAATAGAAAAGGTACTACTAATTATGGCAAAAGTAAATTATGCTCAAGAAGCTAAAAGATTTATTGATGCAGTTGGTGGAGAAGAAAATATTGAATCATATTTACATTGTGTTACAAGATTACGTTTCAATGTAATCGATAAAGAAAAAGTAAATATTGATGAAATTAAATCTTCACCAATTGCTAAAGGTACAAACTGAACTCAAAATCAATTGCAAATTATTTTGGGAACAGGTGTTGTTGAAGCAGCTTATGCTGAAGTTCAAAAAATATTAGAAGTTAAAAATAATGTAGAGAGCTCTTCACAATCAACAAAAGGTGAATCATTTGAAGAGTTTGCACTAAAAGCAAAAGCAAATAAAGAAGCTTTAAGAAATAAAGGTGGAAGATTTGCTTGATTGCAAATGAGTATGAAAACATTGGGAGATATTTTCTTACCAATTATTCCTGCTATTGTTGCAGCTGGTCTTGCAATGGGAGTTGCAGCTTTAATAAAAACTATTGTTAAATCATCTGCAGGTGATGAAGCTATTAATCCTAATTCATTGCTATGAATTATCATTGATATAGTTACAAAAACAGCATTTAGTTCACTTTCAGTACTAATTTGTTGATCTACTGTTAAAAGATTTGGTGGAAATCCAGTTATTGGAATTATTATAGGATTGATGTTAGTATCACCATTATTACCAGATAAAGGTGCTATTGCTTCATGAGATGCACAAAGTCAATTTTTAGAAAATTATAAGATTAATCCTATTGATCCAAAACTTACTGGTGAACAATATTGAGTAGATCACTTAAAATTAAATTTAATGACTCAAGAAGTTAAACCAATATATTTATGAATTATTCCAATTACTGGATATCAAGGTTCAGTATTGCCAGCTTTAATTATTGGAATTGGAGTTGCTTATTTAGAAAAATGAATTAAAACATGAATGCCTAAATCAGTAAATATTATATTCACTCCATTTTTAACAATAGTTGTTGCATTGCTTGTTGCATTGCTTGCACTTGGACCAGTTTTACTTCTAGTTGAAAAGGGAGTATTGATTGGAACTCAAGCAATACTTAATATTCCATTTGGATTTGGAACTGCTTTAATTGCAGGAGTACTTCAAGCAATTGTTATTACTGGTTGTCACCAAGTATTACAAGGATTGGAAATGCAATTAGTAACAAATGGTAGCATACCTGTAGATGGTGTAGCTAGTGGATCAATTTTCAATGCTATATGAACAGCTTCAATTATTTCACAAGGTGGAGCTGCAATGGCAGTTGCGTTGAAAACAAAATCAAAACAAGAAAAGAATTTAGCAATGTCTTCATCAGTATCAACAATGTTTGGTATAACAGAGCCAGCTATTTTTGGAGTTAACTTACCAAAAATAAAACCATTTATTTTTGCATCAGCGGGAGGAGCAATTGGAGGATTTGTTGCAGGTCTGTTAAATGTAAAATGTAGTGGAATGGGAGTTACTGTATTGCCAGGATTGCTATTGTATACAGACAGTGTTAGAAACTTATTGTTAATTATATTAGTAAATGTAGTTTCATTTGGTAGTGCTTTTGCCTTATCATTCTTTTTCTATTGAGAAGCAGGAAGAAAAGTAACTCAAAAACAAATTGATGCTTATGCAACAAAAGTTGTTAATGCTCAAATTGATTTGAAAAAATTTGCAAAAGAAGTAGAAGTTAAAAATCATGAGCAAAAAGTAAAATCATTTGAAAATAAATTGGAAAAAATGAAAGTTAAAGAAGCAAAATTAAAAGAAGATAAAGTTAAATATGAAACTTATATTCAAGAAGTTAAAGTTTTAAAAGAACAAGAAAAAGCTGAAAAAACAAAAGTTAAATTAGAAAAACAACAAGCTAAAGAAGAATTACAAAAACTAAAAGCTGATCCCAAAAAATGAGAAGAACTTTTAGCAAAAGTAAAAGCAGACAAACTTGTTGAAAAACAAAAACTAAAAGAAGAAAAAGCAAAAAATAAAATAACTAGATAATAAAACAAAGTAATGAGGATGACAAAATGAAATGAGAAAAATATAGTTTAATAAATGAAAGTCATTTAGAACTTTTTAAACAATATCATGACAAAAAAGAAAAAGATTGATATAACAATCAATTTCATTTATCAGGATATGCAGGTTCAACAAATGATCCAAATGGTTTAGTATTTTACAGAGGACAATATTTTGTATTTATGCAAAATTGTCCTTTTAGCATTGAACATTGAAATAAATCATGAGGATTATATACTACAAAAGATTTTATTAATTATACATATGAAGGACTGACTTTAATTCCATCAAATGACTATGATAAGAATGGTGTTTTTTCAGGAAGTGCAAGAGTTAATTCAAAAGGTGAAATGGAAATCTACTATACAGGTAATGTAAAATTTAATGACATTGACAGAACAAGTTATACTTTAAGAGCATTTATTGATTTAAAAGAAAAAATTGTAACTAAAGAACTTTTATTTGAATGTGATTTAAAAAAATATACAGGTCATTTTAGAGATCCAATTGTATTTGAGAAGAATAATAAATTATTTATGTTAAATGGAGCACAAACTTTAAATAAAGAAGGTGTTTTAAATGTTTATGAATTTAATGGCAATAGTTGAGAATTCAAAAAAGATATTTTAATCGATGAAGGTGATGAACAAAATTCATATATGGTTGAATGTCCAAATTACTTTGCAATTGATGGCAAGGAATATATTTTTTCTTGCTTGGAGCAAGAAACTTCATTAAAAGAGGGAAGTCACTTTGTTAAATATAGAGAAGTTGAAATTGACAATGATTTAAACTTTAATTTTAAAACTAATTTAAGAAAGATAGATTTAGGTTTTGATTTCTATGCTCCACAAATATTTTCAAATACTCAAGATAGAATTATTATGCTGGGTTGATTAGGAAATTCAAAATCAAATCCATTTCCTGAAGAGTTAACTACTTGAAGTAATCATTTAACAATTCCAAGAGAATTATTTGTAAAGAATGATTATTTATATCAATTACCAATTAAAGAGTTGGAAAATTTAAGATTAGGTGAAATTAGTTCAAATAAAGATTCTTATGAGTATAAAAATGGTTTAGTAGAAATAATTGGAGAAAATATTTCAAATAAAGATTTTGAAATTAAGATTCAAAGTAATGATAAGTTTATTAGTTTAAGAAATGAAAATAGTAATTTTATTATTGACAGATCAAAAATGGATTTTAATGATGAAGAAAATCTACCTTCAATAATTAATTTAAATAATTTGGATATTGATAAAATTAGAATTTTAGTGGATAGAAGCTGTTTAGAGATTTTTATTAATGATGGTCAATTTGCAATTTCTTTAAGATTTTTTATAAAAAATCATAATACAATTATTACAGATTTAGAAAATAAAAAAATTATTCAACTAGATTCAAACAAATATATTTGAAATAATATAATGTTTAAAAATCAAATGATGGAGAGATAAAAAAGTATGAAAAAAATAATTTCAATAGGTGAAGTTTTAATGGATGTATATTCAACAAATGAAGTTAATCAAGCAATAGTGGGTGGTGCAAGTTTTAATGTGGCATGTTCAATAGCTGCTTTGAAAAATAATGAAAGTTATTTTATGGGAAGTTTAGGAAATGACAATTATAAAGAAGATATAAAGTTATTTATAGAAAAATTTGGTATAAAAACAGATTTTATTCAACACTCTGAACTGCCAACAACAATTGCAAAAGTTACTTTAGATGAAAATAAAGAAAGATTTTTTGAATTTATTAGAAATAGTGATGCTGATTTTCATTTATCTAAATTTTCAAATAATCAATTAAAAAAAATTGACTTTGTTCATTTTGGAAGTGCAACAGGATTATTAGATGGAGATTTAAATAAATCTTATTGAGATTTATTTAAATTTGTAAAAGACAATAATATTAAGTTTTGTTTTGATCCAAATTTCAGAGACAAATTATGAAAAACTGAATCTGAGATAAAGCAATTTATTAAATTGTGCAAACCTTTTTTAGACTCAGCAAATTTAATTAAATTAAGTGATGAAGAATTATTGTTAATATCAGGAATGATTAAAGAAGAAAATGCTTTAAAATCTTTAATGAAATCCAATCCAAATGCTTTAATTTGCATAACTCGTGGAAGTAAAGAAACTATGTGTGGTTGAAAAAATGAAATAATTTATGTTCCAACAATTGAATGTAAAGAAATAGCAGATACAACTGGAGCAGGAGATGCATTTATTTCATGTTTAATTAATGAATTTGTATCAAAAGATATTGAACAAAAATCTTCAAAAGAAGAAATTATTGAAATTATTTCAACTTCAAATAAATTTGCAAATAAAGCTGTTAGATATCTAGGGGCTTTAACTTTCCTTGATCATTTAGACTAAAATATTTTTAAGTGTAGTAAATAAAGTTTATAAAGTATCTATTTTATAGATATTTTTTTATTTAGGTATATATTATAAGTAACTAGACTTATTTATTTGCTTTTCTTAATAAGAAAGCCATCTGAAAGAGGCGATCAAATGAGAAATTATTATGAACAGATAATTTTAACAATTTTATCACTTATAATTATTTTTCTAGTTATATTTTATTTAGTAACAGAGATATTTTTACCAGTTTATGCTAGAAAAAATAGTTTATATTTTAAAAGCAAAATTGATACACAAAAAATTAATGCAAAAATTAAAGAAGAAAAATGAAAACGTTTTATTCTATTTTGAACAATTCTATTAATAGTTGCTACATTTTTAATGAGTTTAACTTATTTTTTCATTCAATCAAGAAAAATATATGTTCATTATTCATTATTTATGATAATAGTATTTACATCCTCATTTTCAGCTTTAGTATTTATTTACTTTATAGTAAGATTCAAATTATCTAAAAAGGAATGAAAATCAAAAAAAGAAATCATTGTTTATTTTTGAAAATATAAATATAAAAATATAAATAATGCTGTTTTTAAAGAAATTAAACTTTTAAATAAAATTGGAGAAGAAAATCTAAAAATTAATAGAAAAATATCTAAAAATCAAAAATTAGTTATAAAGAAATTAAATAAATTATCTAAGTTTAAAGATAGTACTTATAAAGAATTTTATATATTTAAAAAATATATAAATAAAAATGGACTTATTTTAAAACATTTAGAAAAAAAATATATAAAAAATAATTTGAAAATAAATAAAAGTATGGATTCAATTGATGATTTATCAACAGCAATGATTGATAATTTCCTTACTTTTATGAAATAATATTTGAGAAAAAGACAATTAATAAATTGTTTTTTTTATTATATGTTTATAAGTGTGGATAAAATGTGGATAACTTTTTTCAAAAAAGTAAGTAAATATAATCTTTTTAGATGTTTAATAACATAAAAAAATTTAAAAAAAATCTTAAAAAATATTGATTTTTTAATATAATTTGAGAATATAAACTCAAACCAATAAAAAATAAGAACAAGAAAAGCAAAATTTAAAGTAATAAGAAAGGAATAATAAAATGAGTTTAAAAGGAAATAATTACAATGTTATTGTTGATGAATTTAACCAAGTAATTTCAACTACAAGCAATGATATTAAGAATGAAAATGCGAATATGAGCGGAGATACTCCAAGTGGAAAAATGATGAAATTTGCTTCAATTTCAGCAAAAGATTTTGCTTTGGAAAATTTAGTTAAAGATACTCACTCAAAATTACACAAAAAATCATTGATTCACATTCATGATTTGGATTATTATCCAACTAAATCAGCGACTTGTGTACAATACAATATTGAAGAAATATTTAAAAATGGTTTTAAAACTAGAAATGGTTTAATTAAAGAACCACAATCAATAGGGGTTTATACTGAGCTTGCAGCAATAGTTTTTCAAACTGCACAAAATGAAATGCATGGTGGTCAATCAATTCCAGCATTTGATTATTTTATGGCACCAGGAGTTAATAAAAGTTTTAGAAAAGCTTTAATTAAGAATTTAAATCATTTTTTTATATTTTCAAGTATTGAATTTAATGAGCAAAAAATTAATGAAATAAAAAATGATGAACAAATAACATTTAAAAATTTAACAAAATCAACTCTTGAAAAGTACTTATCAGGTTATAAAATATCAGATGAGAATTTTAAAAAAATATATGATTTAACAGTTAAAGAAGTTGAAAAAGAAACAGATCAAGCAATGGAAGGTTTTGTTTATAATTTAAATACTCAACATTCACGTGGAGGAAATCAAGTAGTTTTCTCATCTGTTAATTTAGGAACAGATACTTCAAAAGAAGGAAGACAAGTTATAAGATCATTATTTAAAGCATTAGAAAATGGATTGGGAAATGGAGAAACTTCAATTTTCCCAATAGTTATTTTTAAAATTAAACTAGGAGTTAACTTTGATGAAAATGACTATAATAAAGCTATGAGTTTAAGTCAAGATAAATGATTTGAAGATAATACTTGAAATGTTAAAAACTTTGATTTGTTTTTACAAGCAATTAGAACTACAAGTTTAAGATTATTTCCAAACTTTATGTTTTTAGATCAAAAATTTAATCAACATGAATTATGAAAAGCAGATGATAAAAACTCATGATATTATGAACCTGCAACAATGGGATGTAGAACTAGAGTATTTGAAAATATCAATGGAGAAAAAACTTCAATTGGAAGAGGGAATTTGAGCTTTACATCATTAAACTTACCTTATATTGCTCTTGAACTATTAAAAGAGCAAGGAAAATTAAAAGATGAAAAAATTAATTTTAATGAAATTGATATCGATCAAATCAAAAAAGATTTCTTAAAAAAAATAGAGTTTTATTCACAAAAAGTTTGTGAACAATTAAAAATTCGCTATGATTATCAAACAACAGCACTTGCAAAAGAATTTCCATTTTTAATGAGAAATAATATTTTAACAGGGGGAAAAGATTTACAAGCAGAAGAGTTTGTTAAAGAAGTATTTAACCAAGGAACATTAACAGTTGGTTTTGTTGGTCTTGCAGAAGCTCTTAAAGCTCTTTTAAATGTTCATCACGGAGAATCAAATGATGCACAAAAATTTGGAATAGAAATAATTAAAGTTATTAATAAAGTTGCTTTAAAATGAAAAGAAGATACTCATTTAAATTTTGGAGTTATTGCAACTCCAGCAGAATCAGTAGCTGGAAGAATGGCAAAAATTACAAGAAAAGAGTTTGGTTTAATAAAAGAAATAACTGAAAGAGATTATTTTACAAATTCAAATCATGTTCCAGTTTATTACAACATTAGTGCTGCTGAAAAAATAAAAAAAGAAGCTGAGTATCACTCTTTAACTTTAGCAGGAAGTATAAGTTATGTAGAACTTGATGGAGAGGCAAAGAAAAACTTACATGCAATTCTTTCGATTATTAATGCAATGAGAGTTTATGGCACTAATTATGGAAGTTTAAATCATCCAGTGGATAGATGTAAAGAATGTAATTATACTTCTTTAATTCCATTTAAATGCCAAATGTGTGGAAGTGAAGAAATTTCAAGAACAAGAAGAATTACTGGTTACTTAGTTGGTGATTTAGATGGATGAAATAAAGGTAAACAAGCTGAAGAAGCAGAGAGAGTTAAACATAATACTAACTGTTAATGAAAATTTTAAAAATTTTTAAAGAAACAATAAGTGATGGACCAGGAATAAGATATTCAATTTATGTAGCGGGTTGTTTACATGCTTGTAAAGGTTGTCATAATATGATTAGTTGAAGTTTTAAAATTGGGAGAGACTTTGATAAACAATACGAGCAAGAAATTATAGATGAAATAAAAGCAAATCCCTTATTAAATGGAATTACATTTAGTGGGGGAGATCCAATGTTTAGTGCAATTGAATTAATTCCTTTTGTTAAAAGAATTAAAAAAGAAACTGGTTTAAACATATGACTTTATACTGGTTTTACAATTGAAGAGTTAATTGCAAAAAAAGATGATAAAGATGAAAATCAATCAGCTATGTATCAACTTTTATTAGAAGTAGATATACTTGTTGATGGAAGGTTTGTTCAAGAACTTTATGATCCAAATATTTTATACAGAGGAAGTTCAAATCAAAGATTAATTGATGTTAAGAATTATTTAAAATTGTAAAAATTAATTTAATTAAAATGTAAAGTTATTTTATAAAGTATAGAATAACTTTTTTTAATTTAATGATTACCAATTTTAACAACGTTCCCCCCAAATTGGGAACGTTTTTTTTTTTTTTTTATCATTTTTTATTCATTCTAATTCTATCATTATTATAAAAGTCCAATCATGCTCATGCTATTTCCATACATTGATTAATGTTTTCAATATAACATGTTCTTATAGTTTCATCTTTTAAACGACCATGAAAACTTTCATGTTTACCATTATGATGAGGTGTTCCTGGTTTTGAATAGCTTCTAATAATTTGTAAATCATTACATAAACTTATGTAATCCAGAGAGGTATATTGATTTCCATTATCTGAATGTAATAATATTGAACCTAAATATTTTTTATTTTTATATGCCATTTCTACAGCTTCAAGAACAAAATCTGTTTTTTGATTATCAATTCTTTTAGATTTTCCTATTATTTCTCCAGTTAAATTATCTTGAACTGTGCAAATATAACCTTTTTTTGTTTTAACTGAAAATTCAGTTATATCACTAGTTCAAATATTTTCAAAACCAATTTCTTTTGCTTCTTTTAAATAATTCTTTCTAATAGTTTCGTTATATCTTTTAATCTCATGTTTAGATTGTTTCTTAATGTAATATGCAATATGATTAAATTTTTTAAATATACGTTCTAATTTTTTATGATTAATTCTGAAAGGGTCAATATAATTTAATTTAAAATATAGGGCTCATCTTTTAGCACTATAAGCACTAAGGAAATTATTCCTTTCAATTTCTGAAATAACTAAATTCATAATTCTTGTATCATCCAGGAAATTCATTAAAGTTTTATTTTTTTTATATGTTGATGTTCTATTAATATTTAAAATTTTACAAATCATTGTTCTATTGCTCTTGGTATTTATCAATAATTGTTGAACTATTTCTTTTTGGTTTTGGCCTTGGAGGCTCATTGCTTTTTTAAAATATCATTCTCCTTAATTAATTCCTTATTGTAATCAAATAGAATTCCTACAAACAGATCATTTGCCTTTTGAGATATACTGTAATCTATTTTATAAGGTAAACGAGTTTTTGAATCACCAATATCTGTATTTTTGTATTTGTTTATTATTGTTCCAATTGATCCTGTAGTTGAGTTAAATTTTAATGCTATTTCCTTTAGAGAATAACCATTCAAACTTAATTCAATAATTTTTTCTTTTTCTTCTTGAGTTCACTTTCTAAACTTTTGTCCTTTTTTTGCCATATACTTTATCCTTTTCTATTATTGTATAAAAACTGTTGCCTAAATGGGGGGAACATTCAAATTGATAAATTAAAATTTATTCAACTTATCTATTGCTTTTTTTTTTTTTTTTTATTTAACATAAAAATAACAATTTGAATTTAAGAGTAAAAAACTAAGGGCGCTTATTTGTTTTTTCATTTATTTATTTTAAAAAGGAGAAAAAATGAAAAAATTATTAAGTGTATTGGCAACAATTGGTTTTGTATCGTCATCAACTGTTAGTGTAGTTGCTTGTGGTACAAAAGAGAAATCTAAAGATACTTCTAAACCAGAAGAGCCTAAAAAAGAAGATTTAAATGATATTATAAGAGATTTTCAATCTGAAGTTACAAAAATTTACAATAATCATATGAAAAGTGAAGTTATTGGAAATCTTATAGGTCTACAAGAAACAGAAAAAAACTATTTGTTTATTAAAAAGGATAATATAATAGCTTTTTCAAATAAAGAAAAAGATATAACAGCTGAAAATAAAAAACAAATAGAAAATGATGAAAATTTAATTTTAAGATCAAAATTATTGGCAGAAAAATTAAATGAGTTAAAAAAAGTAAATAGATATAAAGTTATTTTAGATGATGTTGACTCTATTTTTGATGGAATAGAAGTTATTTATAATGATAATTTTAAAATAAAATCAGGTGAGTTATCTCAAGGAGTTTATATTGGAAACCTTATAAATGAATATAAAGTGAATATAAAATATAAAGGAAAAAATGATATTGAGAAATTTGAAATTGGAGATACTTTAAAATATACTTCAACAGATGATGAAACATTTAAAGTAGCAGGAGATAATCTAGCAAAAAATATTGAAAAAGATTTTTTAGTTTCAAATGAAATGAAAAAATACTCTAATTTTGAGTGAAAGAATATAAAAAATAGTAAAAATTTTTATGAAGGGTATGGAGAATTTTCAAATGAAATAAAAAATTATATAAATTCAAATGATGAATATAAAAATAGTTTAATTAGTTTTATTAAACAAAATTATTTTAAAAGTTTTGAAAATTTAAATTTAAATTTTAATCAAAGCAATATTTATATGGATTCAAGTTTTAGAAATAATTTATTAAATGTATTTGAAACTAAAAGTGCAACCTCTTTTGAAGATTATACAAAGTCAGATCAAAATTCTGAGAAAATTTTTAAAACTATTTTTAGAAATGATCCAAATAGTGAATCAACTAAACAAGTTCTAAAAGAATTATATTTTACAAGTAATAATATGGATAAATGAAATAAAGAGCTAATTACTTTAAAAAGTAATTATCTTAAAAATTTAAAATTAACAGATCAACAAATTAACTTAATTGAAAAATCAAATGAATATATTAGTGCAGATTCAATAGGGAATATTAAATTAAAAGGGGCAACTATTACAATAGGTTCAGGAGTTAATAAATATATTCATGAATTGCCTGATTTTAATTTATCTGTAACATATAATGCTTCTTCAAAAGTTGAAGAAAAAATTGACTTTTTAAGTGAGTTTACTTCAAAAGTAATAATAAAAGGTATGCATAATTTTTATGGAATGGATTCAAATTTTAAATATCCAGAGTTTAATTCTGATCAAGATTATTTAATGAATATCGGAGATAAAGAATTAATTAATTTTATGAAAGAATATATTAAGTCTAATCCTTCAAAATCAGGAGGTTTAGTTCGTCTATGATGAAGTCTTTGAAATGATTTAGATTATCAAAAAACTAAGGAGTTTATTAGTAATTTAAATATTTTTAATATGTTGTTAACTAATAACCTGAAATCAGTCTATTTAATTAATTCAAACCTTTCAAATAATATCAAAGATATTTCAAATTCAACTCAGGAAACTTATTGAAATAATAAAATTGAATATGTTTTAAACGAAAATGATATATCTTTTATTCCTGCAAAAAGTGGAGCAAAAGATAAAATTCCTGACACTATTACATTTAAATTGGGTTATTTAGCAATTAACTTTAAATATGAAAAATTATTTAATTTATCTGAAAATCAAGAAGCAAAAGCATTTATTAAATTTGTGTAGTTTAAAAATAAATTTTTAAAGAAAAGTCAAAAAAGTTGACTTTTTTTTTTTTTTTTATAATTAGCAATATCAATTTGAATTGTTTTATTTGTTTTTATAGCTCTTTAAAAAGGAGGAAAAGTGAAAAAATTATTAAGTGTATTGGCAGCAATTAGTTTTGTATCATCTTCAACTGTTAGTGTAGTTGCATGTGGTACAAAAGAAAAACCAAAGGAATCAAAACCAGAAGAGCCAAAAAATGATATGAATGAGGTTATTCAAGATTTTAAAAAGGAAGTTACAAAAATATGAACACAACACTACGAAAAAGAAGTTGCAAATAATCTAATTACTATAGAAGATGTTAAAAATGATTACAAATTTTTAAATAAAGAAAATATTCAAAAGTATTCGAAACCTGAAAATAAAGATAAATTAACAGTTGAAGAGAAAAAACAATTTACAAATGATGTGGAAAAATTATTTAAAGCTAAATTACTAAAGCAACAATTAAACGAGCTGAAAAAAGTAAATAAATATAAAGTTATTTTAGATGATGTTGATTCAGTTTTTGAACATGTAGAGTTACTTTTTAATGATAATTTTGAAATTAATTCAGGAGAAATTATTAAGGGAAGTTATATTGGAAATGTGATTGTTGATTATAATATTGTAATTCAATATAAAGGACTTAACGATGTTGAAAAATTTAAACAATCAGGAACAATGAAGTATACTTCAACTAAAAGTGAGTCTTTTAAAAAAGTTGGAGATTCAATGTATAAAAATATTGCAAAAGATATGTTCACTTCGCAAGAAACTTTAAAATATGTAAACTTGAAGTGAAATGAAATTAAGAATAAAAGCAAAGATTCAGATGCTTATGTAAATTCAAACAATGAGTTAAAAAATTATTACAATAGCAATGAAGATTTTCATCAAGCTTTATTAAATTTAGTTAAAGAGAAGTACTTTAAAGATAGTTTTCCAACATTAGAAATTAATTATAGTAAAAAAAGCATATATAGATCAAATAATTTTTTAGAAGAAAACAAAAAATATTTAATTGTAAATAACTTTGATAAAGAAAATAGTATAAATTTGAGACAAAAGGATAGTAGAGAAATAATATCAAAAATTCTTTTAGGAGATGAAGAAGTAATAAAAGAAAATTTAAAATCAGATATATTTAACTCAAGAACTTTGCAAAAAAATAGAGTTAAATATAGAGCTACTCAAGATCAATTTTTAAAAGAGTTTTTAAATACTCAAGAAGTAGAAAATTATAAAATAAGTGATAGTTATCAATTTGCCATAGCAATGGGTTATGCTGATTTTATTGGACCAGTTATTAAAATTGGAGAGAAAGAAAATTCTTATATGCACAAACTTCCTGATTTTAAATTAGCTATTTCTTATTCAATGAATGGTGAAAATGATGAAATCAGTGAAAGTCTTATAGATTTATCACTAAAATTATTTAATGTTTATAAAAAAATTTGAGCACCTAGCATAGTGACAGATACAAAATATTTATTTAACATAAATTATAAACAACAAAATATTTGAAATGAATTTAATACTCGTTATAGTCGTTTATTAGCTAGAAGAGTTAATGATTTTTTAAATAATTATAATTCTTTTTATTTTATAGAGTTAGAAAAGAATTTGAATTTATTAAATATGACAAGAAATACTTTTAATAGTTCTAATTTCTTTTACTCAATAAATGTCGATAATTTTGAATCAAATTTAGCTGATATATCTTTTTTTAATAAAAGTAGTAGTAAATATTACTTTGAAGTAGAAGAACAAATTGGTACTGATAACAAAGTTAACTTTTTTGATACAGTTAATTATTTAACTTTTGATCTATTTGGAATAGTAAAAATGAATATTTATTTTACTAAAGAAATTAGACAAGCAATCTTTTTTTAAAATAGATACTTTAAAATAAGTTAAAATTAATAGGTGTATTTGCACCTATTTTTTCATTATCAATTTAAAAGTAGTTTGAAATTTTTTTAAATCACCTTAATTATTTTTTAAAAGATGAATATGGTCAAAAAATAGTGAAATGCCTCTATTTTCAAACTAAAGAAAGTGTTATATTAATATAAAAGAGGGAGTAAAAGAATGAAAACAGTTGTAATTATTGCTAATCCAAAACCTAATAGTTTTAATCATGCAATTTCAAACTCTGTTGTAGCAGGTTTAAAAAAAGCAAATAAGAAATATGAAATTTGAGACTTGTATGAAATGAAATTTAATCCAATAATAAGCAAAGAAGAATTTGAATTATTTGGTTATGCAGAATATGATGGAACACTAGAACATTTTATGAATGTATTAAGAGATGAATGTGAACAAATTGTATTAATTTATCCAATAGTTTTTTTTGAAATGCCTGCTATTTTAAAAGGATTTCTAGATAGAGTCTTTATTGGAACTTTAATTAAAGAAGGAGAGGATCCAATTAATTGAATGCCTTCAATTAGTATAGAAAAGACTTTCATTATTGAAACATCTCTTGGAGATATGTGATCTCTTGCAGGTAATCAAAATAGAAAGCAAAATGAAGTTCTTACAGCACAAATAATGAGAAGAATTGGATTAAACAATCCTATTATAGAAATATATAAAAATTTGGCTACATCAACTTTAGAAGAACGTGAAGAATTTCTAAAAAGAATAGAGCAACAATTTTCATCATTTAATATTTAAAATAAGGTAATTAAAAAAGATCATTAATACATTATATTCATTAAATCTAAATTTTGTAATTTTTCTAGAATTTATAGTCTTATTATCTTTTTTAATTTTTTTGTTACTTGATTTAATTTTCTCACTTTATGATATTGGATACATTTTCAAGTTTTAATAAATAATACAAGTTTATATTATTTATTTCAAAAATACTATATTTAAAAAATTTCTGTATATACACAAAATTTAATAAATTAATATCCTTTTCTTTAAAATGTTTAAATTTAAAAATATTTTTAAGAAAAAAGTAAAAGTATTTAGTGACACTTCTCTTGTTATAATTTTTAACAAATTAGGGGATAAAATATATGAAAAAAATATGAAACATTTTTATTGCCATAGCGCTTATAGTTACACCATTTTCATACGTCTTAGCATGTACTTGAAAGTCAACACAAGAAGAACTTAAATTTTGAGAAAATAATTATCAATATGGACCTCAAAAAGAATTTAAAACTCAAAGTGCTTCAAATAATCAATATATAGATTATTTTTTTGGAAAGCCAGAATTCAATTATGCAACTTATCTGATAGAAGCAAACAGTGTTGAAGAAACAATAATTTCTGAAACAGTTAAATTTAATGGGGATTTAGAAAATGTTAAAAAAACACCACTAAATCAATCAGAATTAAAGTTATGAAAAAATGATACTCAATCAACGCAATTAATATTGTTTAAAGAAAATAGTGAAGATGTAATTAGTGATTTAAAAATTGAAATATTAAATTCTAAAGATGAAGATATAGAAATTAATGCCAATTTTATTAAACCTATAAAAGCAAAAAATACAATTAATAATATATATAATCCAGCTTCACCAAAAGCAGTTTTCTACAATTATGATGAAATAGCTACTAATGAACTATCTTCAATTAAATTGGATTTTCAACCATTATTAATAACTGCAAAAACAAATGATCAAACACAAGTTGGTAAAAGAGATGTTAATTTTAAATTGACTTTCAAAGCCAATAGTGTAGAGCAACAAATTGATTTTCGTCAAGAGTTAAATGTTGTTGATATGAATATTAATCGAGCAAATGAACAAATTAATGCTATCAGTTCTGATTCAATGTCTTTTCCAACATCATCACAAAAATTTGTTTTAAAACAATTTGATAAAGTGATAACAAAGAAAAGCATTAATTTAAGTCAAAAAGAATATGACAATTTATTTAATTTAACTGAACAAGAAATTTTAAAAATTATTAAAGATAATAATATAAGTATGCCTTCAGATACTAAAATTATTAGATGAGAAGATGAAGAAAATGAAGGCGAAATTTTTAGAAAAGATAAAGATAATAAACATGTTAGCATTTTAATTCAATCAGATACTTACTTTGTAACAAATAAAGCTGCAAATAAAATAAATGGTCAAGACAATCCAACAGATAAAATTCAAATTTATTTTAATAATCCTAATCCTAATCCTAATCCTAATAAAAGTATAAATAAAACAAAAGGATATGATCAGTCAGTTTATGTTAAACCAACTTTCAAAAATGATTCAGTAACTAGTGTTTTTTCAAATCCAGATAAAAACTATTCAAGATTGGTAAATTATAAAAATAGTTTACATGATTTTTTAGTAAAAGAAGATAATGAAAATGAAAATAGAAGTTTAGATAATAAATATGGTAGAAAATTTAGTCAATTAAAGCAAGAAAATAATGCAAAATATGGCTATGTGCCAAATTTTGGTTTAGGTTATATCAAATATACAGCAACAAATAATAATTTAAAAACTGTAGATGATTTTTGATCTTCAGTTGATAAAAATAATTTAGCAGATATCTTCAATGAGGATTTAGAATGAAGTATTAATTTTGATATCCTTGATGAATATATGAACTTTTTAAATGAAAGTGGTTATGAAAAAATATTCATACCAGTTACTGCAAGAAATGCCAATCCCTTTAACTTTTATTATAAAACAGATATTGATGCAATTAATCAAAGTGGGGGAAATGCTCAACAAAAAGTATTGGCAAATATTACTTATAAAAATAAATTTATAGATCCTAGTGGCAATATTTCAAAAGATTATGAAGTATTAAGAGATGAAATTATTGCCATTTTAACTAAAAACTTAGTAACTCATATAAATAAAATTAAAGCAAATAATAGCTCAACTTATTATGATGCTTATAATAATATTGATATTTACTATTCTTTTGATGAAACTAAACAAGAAATTAATGAAAAAGTAATTGACACTTATCAATTAGAAGATCCAGAGAATTTAATTAAAACACATGCTTATATTGGATGAGAATTTGAAGTTGAAGACTATTATAATGTGGATGAATTAGAACAAAAATTTAATCCTTATGATGAAATTACTTTACAACAAAGAGAGTATATTTTTAATTATGAAAAGGGCAGTCAAAAAGATGTTAGTAACTTTAGAAAATTAGTTGAAGATCGTCACAGTCAAGAAAAAAATACAAGATTTTATTCTTCATGACAAAATTTTCCTGGAGGATATTTATCTTCAGTGCCAGGAGATTTAACTTGATCTACTTTAATGGCATATAAATATGGAACAAATGGATTTGATCGTTTCCAATTAGATGGATTTTATTCAAATGATATATCCTTAGATGGCTATATTTTGGGCCATCCTCATGAACCAGCAGATGCATCACTTATTTATCCTGGAGATAGTGAAAAAATTTATGATAGTTTAAGATTAGTAAACCTTCAAAATGGAATTAAATTAGTATGAAAATTAATTACTCTTGAACAAGAAAATAAAATTTCTGCTCAAGATGCTTTAAAAATTAGAAATTATATTAAATGAAACAATGATATAAGATCAAATATTGAATATAAATGAACAACAAATTTAAATGATACTATTACAATCAACAATTTTGATAGTGAAAATGATACTGTTTATACTCAAATATTTAAAATTAAAGAGTTTGTTAATATGTTTAGTTAAAATGGTTTTCTAATAGTGAAAGTAAATTTATATAATAAAAAGTAAACATAGATAAAATCTATGTTTTTTTATTAAATATTTATTTAATAATTTTAAATTATTTTGTTTTGTTAGAATGAGTAATTAAAACTCATAGTTGTTATAATAAATAAAGCAAAAGGAGTTTTGTAAGATGACAAATAAAGATGTTTTAATTATTGTTGTAGTTTCAACATGACTTATTGGCGTATTAATTACAGGACTTTTAGCATTAATTTTTAAAGATAAATTTAAAAATTTCAAAGAACAAAATATATTAATTCAATCTCAATTAAAACAAGAAAGTAGTAATTTCAAGTTAAAGGAAGTTGAAATTAACTTTAAATTACCAAAAGAGGAAAAGTGTTTTTTTTATGAAAAAAATATTAACTTATTTAAAGTAAAATTAAATAATAAAAAAGCAAAGCAAAATTATAAAAAAGAGTTAAAAGAATCTAAACTTAACTGTTCAATATATGTTACAAATAAAAGAATAATGATTCAATTAAATGATCAGTATTTTCAATATTATATAAAAAATACTCTTTATTGCAATTATCTTTTAGTTTATTTTAAAAGAAATTGACTAAATTCAATTCAATTAGAAATAAATGAAGATAAATATATTATTTTAAGTCAAAATTTTAATTTATTGTTAACAGTTAAAGAGTTAAATAAAAAGGAGAAATAAAGAAATGTTATATTCAAGTGTATGAACAAGTAGTGTGATTACTGGCTATATTTTAATGTCATTTACAACATTAGCATTATGTTTTTTCTTTGCAAATCACTTTAAAAGATTGAAAAAAATGAAACTTATCTGACCTGAAAATAAATACTTAAATAAAAAAATGTATAATTTTTTTAATTTATATATATTTGTAGGATTCATTCCAATGTTTTTAGTAATGTCAATTTTTTTTGCAATAAGTTTAATATTTAGAAATATTCAATTATTAGGAATTATATTCACATTTTGCTATTTAGCTTATACTGTTCAACTTTTTTTATATATAATTCTTTTAAACAATAAACAATCTTCAATTGTTGCTTTTGAATATGAAAATCAATTAATTTTATTTAATGAAGTAATAAAATTAGAAGATATTGTCGATATTAGTCACAATCTTAAAAGAACCATTATTTTTATTACATTTAAAGATGAAAAACAGTTAGAAGATATTATAAAACTTAATTATAATTGAAGATTATTTGATTTTTTGAAAGGTCTAAACTTGAAAATAAACAATTAAATTGGAAAATTTGTTTTATAATTTAAGTAAGTTTAATAAGGAGTTTTAAAATGCTAGAAAAATTATTAAATAAACAAGAAAAAGAGTTATTCTCTTTAAAAACTTTAAACAAAATTAAAAAACAAGATTTTAAAGCTTATTTAGATATACAAGAAAATATTTTAGAATCTCTTAAAAAACAAAGTCAATTAGATGTGAAATATACTAATGAAATTTTGAAAGAAAAAATTGTAAAGCAACAAAATTTTGTTAATAAATTAACTGTTTATTATAATGAAGTTATCTTAAAAAAAGAAAAACAAGTAGAAGAAGTTGACTTTATTACAGAAGAGTTTGAAAATATGATAAAAGAATTAGTGAAAATACAAAAATAAAAGTGGAGAATAAAATATTATGATAAAACAAGCAAAATTTATTACTTCTGCTGCCAATAAAAGTGGTTGATTAAAAGATAATATTCCTGAAGTTTGTTTTATAGGAAGAAGTAATGTTGGTAAATCTACTTTTATTAATGCTTTAACAAATCAAAATAAATTGGCAAAAACTTCATCAACACCAGGAAAAACAAGATTGTTGAATTTTTTTGATATTAATAATAATCAATTTAGAATAGTTGATGCTCCAGGATATGGTTATGCAAGAGTTAATCATGATCAAAAATTAGCTTTTGCCAAAATGATGGATGAATATTTAATAAATAGAGAAGAGTTAAAGTTTATTTGTCAGTTAGTAGATTTAAGACATCCTCCAACAAAAGATGATATTGAAATGTATAAGTTTTTTAAACACCATAAAATTAAAGTTTTTATTGTAGCTACGAAAAAAGATAAATGTAAAAAAAATGACATTCAAAAAAATGAAAAAATAATAAAGCAAAATTTGGAATTTGATTCAAATGATAAATTTTTGTCAGTTTCATCAACAGAAAAAAATAACTTAGATAAAGTTTATGACATTTTTATAGAAATGTTTGAAATGAATTAATAAATAATTTTAACAATAGGAGAGATAGCAATGTTCTATAGCAATTCATTAAAAGCTATTGTAGATGTCGTTTCAAATTTTAATTTTTGAAGTATTTTAATAGCAGCTTCACTTGTTATATTTATAGGATTTATCTTTCAAAAAAAGCAATTAATTTTTGCTGATTGAGAAAAGGTGATTGTTAAAATAATATTGTATGTGGCATTGCCCGCACTAGCTTTAAAAAGTTTTTTAATAGATATTAATACAGAAAATATTTGAGAATCAGTTGCAATAGCAATTATTGGTTTAATTTTTTATACAAGTTTAACTTTTGGATCAAAATACTTTTTCTTAAAAACTACAAAATCAAAACAAGATACACTTGCTATGAGTGTTGCTTTTTCATCAGCAGTTTATTTTGGAGTAATGATAATTAAAGCAATTTATCCACAAAAGCAACAAGAAATTGATTTATATTCATCTTTATTTTTAGTAGGTTTTTGAATTTTTATGTACTCTGCTGCTGCAAGTATTATGCAAAAAAAATATTATGATGAAAAAACAATTCAAGAATCATTACTTGATCAAAACAAAAAATGATGAGATTTCTTTAAGGTTTTTAAAAATCCAATAATAATTGAAACTTTTGTTGGAATATTTTTATGACTATTTCAATTGATTCCTGGAGTTAACATTATTAAAGGAGGATATTCAATAAGCAGAGTTGATAAATATATACCAGGAGTAAATCAAATTTTATCAATTTTAGCACCTCTAGCAAGTCCGCTTGCATGATTTTCTATGGGATCAATTTTGGCAAAAAGTGAAATAAAAGAAGCATTTAAATCAAAATTAGTTTGATGAGCTTCATTTGTTAAAAGTTTTATAACACCTTTAATTTGTCTGGTTTTATTTATTATTTTCTCATTAGTTTTTAAATCAATTTCAGAAACTTCAATATCATCTTTAGCTTTAGTTTTAAGTATTGCAATTGTTGCTTCTCCAACTGCAAATACAATAGTGGGTTATGCTATTTTATATGATAAAGAACCCAAAATAGCTTCGCACATAGGAACATTAACAATATTATTAAGTATTGTAGTGATACCAGTATGAATACTTGTTGCATCAGCAATTGGAGCAACAAGTTTATTTACACAATAATTAAAAAATTAAAAATATTAAGTTCTAAAGTGAATGTATGCAAAGAGTTGTAAATTTCATTTTTTAAAGAAAAGTCAAAAAAGTTGATTTTTTTTTTTTTTTTATAATTAATAATAACAGTTTGAATTATTCTGAAATTCTTAAAAAAGAAAGATAAATGGAGTATAAAAAAATAAGATATTTTAATTTCTTAATATTATTTACATTTAGATATTAATATTTAAAATCAACTTAAAAATATTTTAATAATTTCAAAATCCTTTTAAGTTCTCTATAGTCTATACACTTTAATTATATAATTTATTTAGAAACAATATTATATACAGAAAAGATTCGAAGGAAATGTAAAGTGCTAAAAAATTTTTTGCAGATTAAGTTGCTATATTTTTTTATTAAAATTAATAATGTAAAAGAAAAACCTCTATAGATAATAATGTCTATACTATATAAAAGTTTTTAATCTATATTTGCAAAAATAGTTATTATTAATTTTGTAATTTTATTATCTTTAAACATATAATTTTAGTTATGTTTTTTAATAATAATAGTAATAATAATTTATATTCAATAAGCAATTTACTTTTTAAAAACTTGAATATATGTCATTTATTATGAAATATTTGAAGGAGGTGAAAAAAATGAGTACTACATCGAAAGGTTTAGGAATTGCAGGTTCAATAGTTATGATTGTAACAACATTGATATCTTCAATTATAGCTATTATTGCTTGTGCATATCTATTATCTAAAGAATTAACAGGAACAGATAAATGAATTGCAGCAATTATTGTATTAGTAATTTTAGCAATAGGATTGATGATAACAATAGTATTTCCAATTATTATTTTAGTATTTTTAACTTCCAAAGATAAAAGTAATAAAAAAATATTAGCAGCAGGAATACTTTCAATTATTGTTGCAGCTCTTTCAATATTAGGATCTATTTCAAATCCAATTTACTGGATAAATTTAATATCTGCAGGTTTACTACTAGCAAGTGGTATTATGATCTGTAATGAATATAAAAAAGCAAAATAAAATTTTTAAATTAATAAATATAATTCTCTGAGTATAAGTAATGTTGGGAAAACATAAAGAAAATATAAGGAGAGTTTTTTATTTTAATTTTTTTAAAAAGAATAATTTAGAATAATTACAAAAAACACTGACTTTTTTTTTTTTTTTTTATAATTAATAATAGCAATTTGAATTGTTCTTAAATTCTTAAAAAAAAAAAAAAAAGTATATGGACGATAAAAAAAGTTGATTATTAATGGCGTTAGAAAACTTATTCTGATAAACTTTTCCTATATAATATAATTAATTGAAATAGGAAAAAATATAAATTGTTTCGATTTTAAACCAAAAAAAAAAAAAAAGTATTCTTATTATAAAAAGTCTAGTCATAATAGTTCAAATAATTGAAAACAATATTATGATAAAAAAAATAAATAAACTAGTTGATGTCAAAAAAATATATAAAATAAATTAAAACTTTTGATTAATATTTTTATTCAAAAGTTATTCAAATAAAAAAATACAAGATAAATTAATAAGTCAATTTTAAAAAGCTACTTTGAAATACAATTATTAATTTAAATAATATGTTATAAATAAACTTCATTAGTAAATATTTTAATATTTACTAATGAAGTTTTAATTGCTTTCTCAAATTATTGAAATAAATTAAATCTTTTAAAACTAAAACAAATAAATTAAAAAATTTATTATAATCACAAAAAAATATGTTAATCTTAATACTTTATAAAAAAAATATTGAAGTTATTTTTTTTTTTTTTTTTGAAAAATAGCATAAATTATATTGAAATGAAAAAAAATCCCACACAAGAAAGAAGTGTGGGATTTGTTTTTTATTTTGATAATTGATATAAAGTTTTGAATAGTCCTTCAGTTGAAATTAATTTTTCAAAATTTCCTGTATCAACAATTCCTTTTTTTTGCTCTAAAACATAAATTTCATCAAAATTTTTAATTGTACTTAGTCTATGAGCAATTGATATTGTTGTTCTTCCTTCCATTAAACTTTCTAATTCTTTTTGAATTTCTGCTTCAACAATATTGTCAAGAGCACTTGTTGCTTCATCAAGTATTAAAATTTCAGGATTTTTTAAAATTAATCTAGCAATTACTAGACGTTGTTTTTGTCCTCCACTTAATTGTGCTCCTCGTTCAAATAAAATTGTTTCATATTGATCTGGTCAACTCATAATTAAGTCATGTATTTTTGCTTTTTTACAAGCTTCAATTATATCCTTGTGATTTTTATTTTCTAAACCATAACTTACATTTTGATAAATGTTTCCACTCAGTATTTGAGGTTCTTGATCTACATAACCAACTTTATCTAATCATGATTTTAAGTTTAATTCCTTTAATTTAATTTTATTGTTAATAAGAATTTCTCCTTGTTGAGGATCATAGAAACGAAGCAATAATTTTGCTATTGTTGATTTTCCACTTCCAGTAGGTCCAACAAAGGCATACTTTTTACCTTTAACTAAATCAATATTAAAATCTTTAATAATAAATTCATCAGTTTGAGGATAGGCAAATCCAATATTTTTTAAGCTAATTGAATTAACTGTTTCGTTAATTTCTTTTTCTTTATCTTTTTCAATAAAAATTTCACTTTCAAGCAAAGCACTAACATTTACAGCAGATACTCTTGCTTGAGGAGCGTCAGAAATTATTTGTCGCAATTGCATAATTGGAATTGTCATAACAATAACACCAGCTGTAAATGAAGTCATAATACTAATTAGAGCTTGAGTTTGATTATAAAATAGAAATACTCCAAATATAATGGATGCCATTGAAAAGCTTCCTATACCTCCAATTATTAATGCAGAAGGGACTTCTGAAGCAAAGAATTTTTTCTTTTTCTTTTTAGAAACATGATCGATCATTTCGTCAAAATGTTGTTTTTCTTCTTTAAAAGTTCCAACAGATTTAACTAATCTTATGTTATATATTTTTTCACTCAATTCATTGTCTAAACCTTGTGAGATTTTACTAATTTTTCTTGTTGCTTTATTTGAAATTATTATTGTTATAAAAATTATTAACATAAAAGCAAGTAATAACCCAAATACACATAAAGCTAATTTTCAACTAATATTAAACATTAATATTGCAGAAAATGAAATTGTAATTGTTGATAAAAAGTAAATAATTGGTGCTTCTTTTATGTAAGAAGAGACAATAGAACTATCTTTTACTATTGTTGAAATTAATTGACCAGTTTTATTAGAATTAAAATAATGTAAGTCTTGATCAATTATTTTATTTATAAGTTTTCTTTTTAATTGTGTTTCATATGCTTGAGCAATATGACCACTGATAATAAAATTTATATAAGAGAGTATTACAACAAGTGTAACATCAAAAATCATTGAAAATGATAAAGCATATAAACCAAAATTTTTACCAAATAAAGTTATTGATAGGTTTTGTCCATCATAATGAACAAAATCATAAAAGAACTTTTGAATTATTTGTTCATATACGCTAGATCCAACATTTATACTATTTAAAATTTGATCAATTTGTTCTTGAGTCAAATTCAATCCTAATTGTTTAATGATTTCATAAATATCATTTGTTTTCAATGAAAGCATTGAATCTAAAACACTTTTAGATACTAAAAGAGCTGTAATATATTCAATTGCTTTAATATTTCAAATTAACAATAAAGCAATTGAAACTGTTATCATAAACATTAAAAATGTTAATATTTTTTTGTTTTTCATTGCATTGAATAAGTGAACGTAGAGTTCTACTTTTTTTCTTTTTTTAATAATCATTTTTTTCTATTCCCCGTATTTTTCTTTATAATAAATATTAGTGACAAATATTATTTCAAATAAGTTATATTATTTCAAATAGATTAACTCATTTCATATGAAACAAGTTAATCTTATAATAGTTTTTTAGAGGTGTCAATGAAAAAACAATACAATTTAGATAATTTAAGTACTCTTGTAAAAGGAAACTTAGTTATTATCATCTTAAGTAAAAGAATAAGTTTAAGAATGATCAGAAAATATCCAGATCTATATAGGTTAGCATATTTACATTTAATGTTTATTAAAAATGTTGAAGGTATCAGTCAAGTAGAATTAGCTGATTTAACAGATACAAATACTTCAACAATACACAGAAATATTCAAATTTTAATTAAAAACAATTATATTGAAAAAAAAGTCTCTTCAAGAGCAAATGAAAATGAATTGTATTTAACTCAAAAGGGTGAAAGTGTAGTTAAAGATATTATTGAATGAGTTAATGAATATGAAAAAGAAATGGGATTTAATGAAGAAAATACAAAAGAGTTATCATTAATGTTTAAAAAAATGATAACTAAATATTCTGATTTTTAGATTAAAATACTTTAAATTTAAAAAAAGAACAATATTTATTATATAAAAATAAGCTAAAAAGAGTTATTAAAAAGTATAATGAAAAAAGCTATACAGTTTTGATTATGCTTATTTGTTACTACTTTATACTTTTAATAAGCCAAATAGCTTAATGTTTATAATGTCAAAAACAAATCAAACTATGCCAATTATTATGTATAAATTTCAAGAATTTCTATTGTATTTATAATAAAACCTATGATTTAAATTGCTAAAAGAGATTTAATCTAAAAGTTTAAAAGAGAAAAGTACTAAAAAGCTTTTCTTTTTTTTAATTAAGCAGATTTAAATATTAAATAAAAACCTTAATATTCTAATTTGAATAAAATATGTGTTAATATATTTTTAAGTTTAAAACTAAAAATAGTTTTAAGGGTAAACTTTGTTTTGTTCTAAAATTAAATGAATAAAAAAATTCATATAATAAAAATGTACTTATAAGTTAATTTATGAAACTTTGTAGGTGAATATATGCTAAAAATAAAAAAATGAAATAAACATTTAATATATTTTATATTTGTTACAATAATTTTTATTCATTTTTGTTTAATAACTATAAATGAATATGAAGTTTTTATAAACAAAAGAACAGATAGTATATTTAAACATTTTAATATTGTTTTAAATACACTATTTATGCTTATAATGTTATTTACTTTGATTATTCAATTTAGTAAATTTATGCATTTTGTTGATATTAACAGTAACAATCAAAATTTGAAATGAATGATAAAAAAAGAGAATTTAGAAATTTTGGCTAAAATAATTTATCTAACTTTACCTTTTATTGCTTTATTTTTAATAAATTTTTACATAAGAAGAAGTAGACATTTTGAATTTACTATTTGAATTTTAACTTATACTTCTTTAACTGCTATTTCAATGATTGTTTTAACAATATTGACTTTTATTTATAAATTTGTTGTTAAAAAAAATATTATAGCAAATTATGAAGAGGATTTTATTTTTAAAATGCAATTATTATATTTACGTTCCTTATTTCATTTAAATATTTTTGATTTTAAAAATCAAAAATTTAAATTTAAAGAAGCTATTAAAGTTTTTCTTTCTTATTTACATCAAGAAAATGAAATGAGATATTCATTAAAAAATTCTCTATCTTTAAAAGATATGAAAAAAGCAACAATTCCACCAAGGATTTAATTTTTTGTAATAACTTGAAAAAATACTTATATGCTTAAATTCAAAGTTTAAATTTTTATGTATAAATTTAAATGAAAGAGAAGTATAAAATTATGAAAAAATTATTATCATTATTAGGAGCATTAGGAATAACTGCTTCTACAAGTATAACAGCAGTTGCATGTGCAAAACCATCATCTTCAAATACAAAAACAGAAGATGTTTTATTAAATAATGTTTTACCCGAAACTATTTTAAAAGCTTACAAAGAGAAAAACCCAAATGCAAATATAGATGAACTTGAAGTATTTGATTACAATCAAAATAGTGCACGATTAGTTTATAAAAAATCTTCAAATTCTAATGGTAAATTTGAACCAATTATTTTTAATTATAAAATTAAAGCTTTAGATTTATCTGATAACAATCAAGCATTGGTAAGAAATATTCTTGTAGGAGAAATGGATGAGAATGGTGTTATAAATAAAACAATTAGTGCAAGTGATGTAGTGAAGAATAAAAAAGTTACAAAAAATTCAATAAGAACTTCATTTGCAATAATGAACGGAGTTTTCTTAAATGAAGAAGATATTGAAATTGGAGATATAAATTATAATAACGATACAGTAACAATCAAATCAAAAAATCAAAATATTTTAAAAGGAACTGAAGAAGTTATTTTAACACTTAACAAAAATGTAAGTTCAAATGATATTTTAAAAGTTACAGAGATAGGAAATATTTATTTGCCAGGATCTTTATATGATAATAGAAGAAATTATTTTGATGGAACTTATAAAGATGAGCAAGGCAATAATGTTGCTGAAGGAAATATTCTTGTAGCTTTACCTATATTGTTTCAAAATCTAGGAGATAGAAATAAACTATTCTCTTATTTAGCAACTGATTTAGTTTTATCAGCTATGGCTATTGCAGGAGTTAGTTCTTCAAAAATAGAAGAAAATATGTCTATGAATTTCTTTAAATTAAACTTATCATGAGGGGGAGAACAAAATAGTTTGGTTTCAAATAATATAATTACAGCAACTGATTCACAAACAGTAAATATTAAATTTAATTTGCAAAAAGAAGATAGATTGATTTTAGGAGAACATAGACCCAGTTCAAAAGACTTTACAGTATCAAAAAAAGCATATGCTTCTAAAGACATTAAAACAATAATTTCAGAGATTTATGATCAAGCAGATAGTGCTTTTAAAAATCAAGTATCAAAAGAAATGTTTATAAAGTTTTCAACAATTAATTTTGCAAGTGAAAATGAAACTCCAACAATTGAATTGCTTCCTGGAGGAGATTATGTTTATGCATTTGACCCAATGGCATTTCAATTAGTTTCATATCAATTAGATCAAGAAAAAGATAAGGAGTTAATTAAAAAACTTAAACCTCCAAAAGAAGGAAAAACCTTTGGCTATAAATTTGTAGTACAAGAATAGTTTTATAATGCAAAAATTATTTTTTAGAAACATATTTAAAAACATTATCAAAAATAAATTACAATTAGTAATGGTTATTTTGTTAATGTTTTTATCTGTTTTTATATTCACTATGACAGATTCTTCTTCACAAAGATTAGTTAAGAGTAGAGAAGATTTTGCATTAAAGAGTAATTTACATGACTCAATCATTCAGTTTACAGAAAGTAGCTACAATTATATAGAAAATGATGAATTTAAAACTATTGCAAATAATGAAGTTAGAGATGAAATTATTTTAAATTACTTAAAGAATAGTTTAGATAAAAAAAACAGTAATTTAAAATTCTATTTTGATAGAACAGAAACTAGAAATTTTATTTTAGGTTCAAATAAAAATATTAAAGTTATTAACTTAGAACCTGAGAAAAAAGTTGATACATTTATTGTCAAAAATGGTATGAGTTTGAAAACTTGAAAAAGTTATGTTGATTCAGAAAATGATTTGTCTAAAAGGTGAGTTTATCTCTCTGAACAATTTGCAAAAAATAATAATATTAAAATTAATGATATTATTCGTTTGAATGATGATTCTTTTGGTTCAACTATTTTAGTTAAAAATAGTGAAAGAAATTCAGTTGATATTTCACAATATGAAAATAAAGATATTAATGAATGAATTGTTAATTCAAACTATTCATCAATGAATTGATTTCAAGTTGTAGGTTATGGATCAAGTGCAGACTTCATGATGCCTATAATATCTTCCAATTCACCATTGCCAAATTTAAATAATGAAGGATTAGCCTATGTAAATCCAAAAAACTTTGGTTGACAAAAAACATATTTAAAAACTTCTTTTAAAGATAATATTGTAAATAAAATGAAAGAAGTTATTAGCAAAGAAGAAATTGAAAATTTTAGAGTTTGAAATTATAATTCTGAAACTCAATCACAAGAAACACTTAGACTAATTTCTCCAAGAGATAAAGAAGTTTATTATTCTTTAAAATTTGTAAATAAAAGTAATAAAGAGATGAATGGAGAATTAAATTCAATATTAACAGATATCAACAAAGCAAGAGAATATGGTTTAACAATTAGCTATGATCCACCATCCTCTAGTTCTGATAAAGTTATCTATGATGTTGCAGATAAAGATTACTCTTTTGTTTTAAGAACTCAGATGTATTTACAAATAATTAAATATTTTAAAATAATTATGTATGCAGTTACAATTGTAACTGTACTAATTGGAATATGAATTTTAACTATAATTTTAAGAAATAATATTCAAAAAACATTTGGACAAAATGGAATATTATTGTCTCTTGGTTATAAAAAAAATGAACTTATAATGTCTAACTGTTTGTATCCCTTTTTTATTTCAATAATAGGGGGAACGTTAGGATATCTTCTAGCATTACCAATGCAAATATTTATTATAAATATTTTTAAAAATTTCTTTACTATGAATTTCTCACAAATTAGTTTTTCATGGTTGGGTCTATTAACAATGGTTATAGGATTATTTCTATTTTTACTAATAGTGACACTGTCTATTAATTATTTTGTTTTTAATAAATATAATGCTTTGCAAATGATAAACTATGAAAATATTTCAACAGTAAATAAATATAAACTTAAAATTCAAAAATTTTTAACAAGAAGTAAAAAGTTTGATTCTAGATTTAAAGGAGCAATATTGGCTTCTTCAATATCAAGATTGATAACTATAACATCAGTTATGTTGATTTCTTCAACAATAACTTCCATTGGTGTTATTGCTCCTTCAATTTTAAATAATTATACAAAGTACAAATATATAGATAATAATTATGATAATCAAATTGAATATGAATCTCCAATCTATAATGCTCCAACTACTTTTTATAAAACATATAATCCTATAAGTGAAAAAAATAATAAAACAAATAGTGCTCAAGAAATATTTGATATGTATTTAAATAATCAAATATCATCTTCAACTTTTACACCAAATGAAGATGTTGCAAAATTATCAGATTTAACTTATAAAAATTTAAATAAAGATTTTTTAACAAATCCTGATTTAAAATTAGACATTAATATTGAAGGAATTGATAAATCTGTTTTAAAAGGAACTTTAATATCTAGTGTTTGAAAAGATTATAAGTTTTATAAACTTGATCAGTATTATGAATCTTCTAAAGTTTTAGAAGTGATTAGCAGTAAAAATAGTTTAAAAGATAAACTTGAGGATTTTGAAAATTTAAGAGTTTTTTATTTAAAATATAAAACAACAATAGGTTTAAATATTCAAAGAAAAGAATATTTTGAAAATGGACAATACAAAAATAATTTAGAAAAATTAATTAGTAATGAGCAGTTAAAAAAAATTGGAATAAGTGGAGGAGATGCAACTCCAGTATTGGCAAAATCAGGAAGAATTAGAAAAGATTCTATATTTGAAAAAAGCTTTTATGAAGATTTAGAAATAAATGATGAAGATACATGATGAAAAAATACATCTCGTAATGTAGCTGCAATTTATAATTGAATAAAAGCATATTTTATTGATAATTTACAACAAGGATTTCTACAAGGAGTATATGCAAGTTCACCAGAAGCTTTAAGAAAAATTATTTCAGAAAGTTTTTTGGATGAAAGCAAACAGTTTAATGCTTTGTTTAATATAATACCTTATGTTAAATCAACAAATGACTTAGGAATTGCAATTGAAGCTGCTTTTAAAAATAAAACTTTTAAAATATATGGTCTTAATAAAGAAAATAGAACTCAATCTCTTTTTGATTTCAATAATAATAATTTAAAAGAAAAACTTTTTGAAGATGAAAATAATATAGTTTTAAATTCTTCTCTAGCAAAAATTTTAAAAGCTAAAGTTGGAGAAACAATTGATGTTGAACATTTTAAAAAAGTTTTAGCTGTAAATGAAAAAGAATTAGATCCATATAGTTGAGATACAACAAAAATGGATGCTAAAGGAGAGTTATATACAAATTCTAAAGAATTGTATTCAAGATCTCTTGTAAGTTCTAAACAAAAAGGATGGAAAAATAAACAAATAACTCAAAATGATAATCAATTTGTTTATAATACAGATTTAGATACAACATCTGAAACAATGACAAAACCAACAGAAATGTCTGAAAAAGTAGATTCAGGAAGAGTTACTAAAAAAAGAGTGAGTGAAAATAAAACTTATAAAGTTGTTGGTATATCTCGACAATATGGAAGTGCAAAAGCATGAGTTCAAAATAATAGTGTAAAAAAAATATATGGATATGATAAAAGCGAACAAATTCTTTTTCAAAATTTTATTAAAGAGTGAATTAATCCAAAAGATAAAGATAATGCAAATTCTGTGTTAAAAGAATTTATTCAAAAAATAGGAGATTGAGAAATTAAGAATTATTCTCAAAATGAGTATAAAAATAAATTTGAGAGTTTTAAAAAGTGAGTTGAACAAGACTCAAAAAGAGAAGATATACTTAAACTTTTTGAAAGTGAATATCCAATATTCAATTACAAAAATTCAAAAGATAATTCTTTTGCAGATTTAAGTAAGGGAATTACTGTAAGTCAACAATTTGGAGATTTCTCAAGTTATGGTTTGAATGGTGGAGTTGTAAACTCTCAAACTATTTCAGGATATCAAATATCGGCAATTAAATCCATTGATCAAAAACAAGCAGCTTTAGAAATAATGTCACGTATAATGAAGTATGCAAAAGTTATTGTCTATTATGTAACAACTATTTTCTTATTAATTTGTGTAATTATAATTATGTTAATAGTTAACTTAGTAATAGTTAAATATCAAAAAAATATAGCTGTATTAAAAGTTCTTGGATATAAAAACTTTTATATAATTAAGTTATTTATCGGAATGTATATTCCTATAGTTCTTATAACTACGTTAATTGGTATAGGATTTGGTATTTTAATAGTTCAAATTGTTTCTTCAAATCTAATTACTTCAGGTATTGTTGTTCCATTTTTTGCAACAACATGATGATATAGCATATCAACATTTTTATTAGTATGAATTATTTATATATTAGCTTCAATAATAAGTTGATTTATTTTAAAAAGAATTAATTTATTATTAGCTGTTCAAGAAAGCTAGGTGGAGAATAAATGAAAAAAATATTAATGTTTTTAACAACTATTTCAATGACAACATCAACTTCTTTTAGTGTGCTTTCTTGTAAAACAACAACAGAGTATAAAGAAATAATAAGACCAGAACCTGTATATTTGATAAAACAATATGGTTTTAAAGGTTTTGACAGTAAAAAAATAGATGTCAAAAAATATGTTTATACTTATGATTTAATTGATGAATTAAATAAGTATTTACAATTAGCTGGATATAATTTAAATAATTTAAGCTGAGATATAACTCGCAATAAAATGATTCTAGAAAAAGGTTTAGAAGATAATTTACTAAGAAATGGAAACTATTTTTTTGTAATAAAAAATAAATTAAATGAAAATGACAAAATTGAAGTTAAACAAAAAATTTCTAACTCTAAATATCTAAAAGATGTAATTTTAAAAACTAATTTAAAAGACATTGAAGATAATAGAGTAAAAACTGTACTTATGAAAATGATCTTTAATAATTTAAACTTAATTTCTAGAATTGATGATATTGCAAAGGAAATGTTAAACAGTGAGAATATTACAATAACAGATAAAAATGCAATATTAAATTTTAAAGACTTTGATAAAAAAAATAGGGATAAATTTTATGGACAAATTACATTAGATTTTAATGTGACTGGACCAAATCCTAATTGACCTTCTGAAAAAATTGATATTAATAATCTTGCAAAAGAAGGAGGAACTAATGTAAAAAATGATTTAGGAATACTTAAAACTGTAAATCCTTTTCAAATTTTCTCTCAATACGTTACTTTAAATTTCTCAAATAAATTACAATATTTAACAATTTTAGTAAATGACATTGATATAGAAGGTATAAAAATTAATAAAATAGATAAAAACTATTATAAAGCAGTTTTTGAAACTCTTAAAGATACTGGAAGTAAATATAAAAATTATCTTACAGGAAAATTGGAATTAACATTTAATTATTTTGGCAATGAAATAATCTCTCGTTAATTTGTTTAAAATAACTCAATGTTACTTTGAATAAAATAATTAGAAGCAAAGAATAATCTAAAGTATTTTAGATTATTTTTTTTATTTTAATATTTTAGAAAAAATCTGAATAAAGTTTTAACTAAAACTAATTTTATAGAATCTTATTCTGACAATTTTTTTAAAAGTAACTTGTACGTTATCAAAAATTTATATTTTTAGCTTTTTAAAATTAATAATATGATTATTATAGTAAAAATAGTTTTATTAAAAATAAAAATGAAATATCTTATATTATACTACTTGACAATGTATAATACTAACTATATTATAGTAGTGATAGGAGAAAACAATGAATATAAAATTAAAAGAGATTAATTCGCAAAGAATTAAAGCATGTATAGTTACATTAATATTACAAACTATGTCAACATTGTCTTTGTTAATAGCAGCAGTGGTACAAAGCATATACCCATTAACAAATGAAGCAATTTTATTGCTTTGACTATTTTCAATATATTTTTTATATGCAAATATTTGAATAGGTATTGTATTGGCAATGGATTTAAAAAATAAAATAAATAGCAAAAATGAGATAAAATTATTATTTTCAGGAGTTGGATCAATTATTAGCATATTTTCATTAATTGTTTGAATTATTTTTGTTAGAGAAATATATTATGAAAAAAAATATAATATTGATTTATTAGAAAATGTTGGTGTTGAAGATGAAGAAACTTCATCAAAAGGGGAATAAAAAATGAAAATAGAAATTTTATTTTTAAAAAATCTTGAAAAACAGCTTAGATTTTTAAAACCAAAAGATAGAGAAGATTTTATTTCAAATTATCGTTTACAAATTTATGATCGTTATAAAAGTGGAGAATCAACTACAGATATTATTAATAGCTTTGAAAGTCCAGAGTCAATTGCAAGCAATATTTATCAAGAGTTAGAAATTGATATTAAAAAAGAAAAAGCTAAGGAGTATAAATCATCAGGATTAGCAAAAATGCTTTTGGGATTATCAACTATATTACCTCAAATACTTGTATTTCTTTTTTCAATAATATTTTTTACTACAAGTTTTGTACTAATTGTTGGATTTTTATTTTCTTTAGTATTATTTTGACTTAACTTTGAAACTTTACAAGCAATTGGGGGAACATTTTTATCATTAGGTTTGTTACCTTTGTTAGCAATTTTATTTTTCTATATAGGAATAGAAATATATAAATTTGAAAAACTATTTTTTAAAATTTCAATTGAACTTGTAGTTGGCAGAGAAATGGAAATTTATAATAAAACAGATAAAGTCAAAAGTAAAAAAAATAAAATTATTATAATAATTTTATTAAGTGTATTTTCTCTATTTACGTTTGCAGGTGTAATTGGAACTTTTGCTGGACCTAAAACAATTGGGGGAGCATCATTGTCTGGGAATATGATTAATACTAAAACAGATACATTAAACTATTCAAGTTTTATGGAAACTAAAGATAATGAAAAATTGAATTTTAATTATAGTTTTTTAAGAGATTATAGTTGATATAAAATCAATCTAATAGAAGACAAAGAATTAAAAAGTGAATTAAAAGTTAAAAGAGATTATAATTTTAAATCTTCTTTAAATTTTGACTATGAAATAAAACAAGATAAGAATTTCAATAATTATCATTTGCAGCCAGTTAATGTTTCTTTAAATTTAAAAATTTTTAACATTTCAAGTATTATTTTCACTATAACATATAATCCAGATGAGGTTAAATTTTAAATTTGGATATTCAATTAAAAAAAGGGGTCCTAGATATGATTATTTTAGACCTTTTAAAAAAACAAGATTATTATGCATATGAATTAAACAAAGTATTAAATAAATTTATTTCAATAAATGAATCTACAGCTTATGCTATTTTTAAAAAATTAGTTGATAAGGGCTTGGTATCATATTACTTGGCAGAATCAAGCAATGGTCCTGTAAGAAAATATTATAAAATTACTAAGCTTGGTTTAGAAAAACTTAAAGAATATTTAGAAAATTGAAATGAATTTGTAAATTTAGTACAGAATTTTATAGATGAAAATAAGCAAGATAACTAAAAGTAAATACAAATACATACAAATACAAAATTAAAAATAGAGTAGTTTACTTATTAATATTATTTATAGAAATTTAATTCCCTCAACGTTCCCCCCAAATTGGGAACGTTTTTTTTTTTTTTTTATCATTTTTTATTCATTCTAATTCTATCATTATTATAAAAGTCCAATCATGCTCATGCTATTTCCATACATTGATTAATGTTTTCAATATGACATGTTCTTATAGTTTCATCTTTTAAACGACCATGAAAACTTTCATGTTTACCATTATGATGAGGTGTTCCTGGTTTTGAATAGCTTCTAATAATTTGTAAATCATTACATAAACTTATGTAATCCAGAGAGGTATATTGATTTCCATTATCTGAATGTAATAATATTGAACCTAAATATTTTTTATTTTTATATGCCATTTCTACAGCTTCAAGAACAAAATCTGTTTTTTGATTATCAATTCTTTTAGATTTTCCTATTATTTCTCCAGTTAAATTATCTTGAACTGTGCAAATATAACCTTTTTTTGTTTTAACTGAAAATTCAGTTATATCACTAGTTCAAATATTTTCAAAACCAATTTCTTTTGCTTCTTTTAAATAATTCTTTCTAATAGTTTCGTTATATCTTTTAATCTCATGTTTAGATTGTTTCTTAATGTAATATGCAATATGATTAAATTTTTTAAATATACGTTCTAATTTTTTATGATTAATTCTGAAAGGGTCAATATAATTTAATTTAAAATATAGGGCTCATCTTTTAGCACTATAAGCACTAAGGAAATTATTCCTTTCAATTTCTGAAATAACTAAATTCATAATTCTTGTATCATCCAGGAAATTCATTAAAGTTTTATTTTTTTTATATGTTGATGTTCTATTAATATTTAAAATTTTACAAATCATTGTTCTATTGCTCTTGGTATTTATCAATAATTGTTGAACTATTTCTTTTTGGTTTTGGCCTTGGAGGCTCATTGCTTTTTTAAAATATCATTCTCCTTAATTAATTCCTTATTGTAATCAAATAGAATTCCTACAAACAGATCATTTGCCTTTTGAGATATACTGTAATCTATTTTATAAGGTAAACGAGTTTTTGAATCACCAATATCTGTATTTTTGTATTTGTTTATTATTGTTCCAATTGATCCTGTAGTTGAGTTAAATTTTAATGCTATTTCCTTTAGAGAATAACCATTCAAACTTAATTCAATAATTTTTTCTTTTTCTTCTTGAGTTCACTTTCTAAACTTTTGTCCTTTTTTTGCCATATACTTTATCCTTTTCTATTATTGTATAAAAATTGTTGCCTAAATGGGGGGAACATTCCCTAAAAAAGTTAAAAAAGTTGATTTTTTTTTTTTTTTTATATAATCATTGATATCAATTTGAATTGTTTATTTGTATTTTAACAGCTCTTTAAAAAAGGAGGAAAATGAAAAAATTATTAAGTGTATTGGCAACAATTGGACTTGTATCAACATCAGCTGTTAGTGTAGTTGCTTGTGGTACAAAACCAGAAAAAAAACTTGAAGAGTCCAAAAAAAATATTACTCAGATAGTTAAAGACTTTGAACAAGACGTAACAAAAATTTGAACAGAGCACTATGAAAAAGAAGTCACTGAAAATTTAATTGGTGTTGAAATTATAGAAAAAAATAATGAGTTTGTAAATAAAGAAAATATTTTAAAATTTTCAAAACCAGAGAACAAAAATAAATTAACAATAGAAAACAAAAAGCAATTGGCAAATGATATTGAGAAACTATTTAAGATAAAATTATTAGAAGAAAAATTAAATGATCTTAAAAAAATTAATAAATACAAAATTATTCTTAGTGAGATATCTAATGTTTTTGAAAGCGTGGAGTTAGTTTTTAATGATAACTTTCAAATTAACTCAGGAGAAATTGTTGAAAATAGTTATATAGGAAATATAATAATAGATTATAAAATTGTAACTCACTATAAAGGACTTAATGATACTGAGAAATTTAAACTATCTGAAACACTGAAGTATACTTCAACAGACAATGATTCATTTAAAAAAGTTGGAGATAAAATGTATAAAAATATTGCAAAGGATATGTTTATCTCTTCAGAAACTGAGAAATATGTAAATTTAAAATGAATTGATATTAAAGAAAATAGTGATGACTCTGATGCTTATTTATCTTCAAATAATATTTTAAAAGAATATTATAATGAAAATAATGAATTTCATGATGCATTATTAAGCACTATTAATAATAAATACTTTAAACAACAATTCCCATCAATTAATATAAGCTATAATAAAAAAAGTATTTACAAAACAGATAATTTTGCAACACAAAATAGTAAATATTTAATTATAAATAATTTATATTCAAATGATGAAAAAAATGATATTTCAACTTTTAATTTAGAAAATCAAAACGAAAAAGAAAAAGTAAATAAAATACTTCTTTGCGATAAAAATGAATTAAACAAATTTTTTCTAAATGATCAATTCAGTTCATTTAAATGAAATAAGGTTCGAAATAATTATAAAACTATACAAAATAATTTTTTAAATACTTTTTTAAGCAAAGATGAAATATCTAAATACCAAGAAACTTTAAATTATAAGTTTGCAGTAGCAATAGGTTATATTGATTTTATTGGACCAAGCATAAAAATTGGAAAAGGTGAATCAACTTACATTCATCAATTACCTGATTTTAAACTAGTAACTTCTTATTCAATAAATGGAATAACTGATGGAAATTATGAAAGTCTTGCAACTTTTTCAATGAAGTTATTTAATATTTATAAAGATATTTATAAACCTAATGTAGATGATTTACAAAGTAATGACAATTATATTTTAGATTTAACATTTAAAAATCAAGAAATTTGAAATAATGTTTCTACAAAAAGCGATTTAAATGAAGCTGAAATGAATTCTTATTTATCTAGTTTCTCTAGTAATTATTATAAGAAACTATTTTCAACATTAAGTAATAATAATCTTGAAATAAATTCTTTAATAAATAATAATATATTTTTTTCCTTAAAAAATATGTTCTATTATACTAGAAATCAAAATGCTTCATTTATAAATCAAAATAAAGGTGGATATTTTAAATTAAATAGCTCATCGAGTAGTGGTTATTATTTAAATGATTTTAGATACATGACCTTTAATTTATTTGGAATAATAAAATTTGAAATAAAATTTAATAGTAGCATATATATGAGTAATAACTGATGAATTTTTTAAAAATTTTATAACTTGTAAAAAGTCAATCTATTTGACTTTTTTATTAAGACTAATAATATTTTTTTCATTGTTCTAGAAAAATATTATTAAAAAATAGAGAAATAAAAAAATATTAAGTATATTGATCAGACTTGAGTATTATAATTTCAATAACTTTGGATATAAAAATTTTCAAGTGATTAGTTTTTTTTATTTATATAGTTATTGTGTCATAAAAAATATCTCTATTTTTTGTGTCATAAAAAATATCTCTATTTTTTATTGTTTGCATTTGGATTATCTTGTATTCCTCAGTTATATATTTTTTGTATGTGTTGTTTTGTATGAACAGTTGAATATCTATAATTCAAAGAACCGTTTAAATTGTTAGCATATCTTTCTTTATTATTAGCTTCTAAATTTAATTTATATCCTAATGGGGTTATTAATTCTTTTTTATATTTTGGATTAAATTGATAAATTTTATATTGATATGTTCCAAATCATCAAAATTGAAAAATCTCACTTTTTTGAGTTTCTATTGAATTACTAAAAAAATTTATTTTATGTTCATCTTTTTCATCTTCTTTTAAATTATCTCAATTTTTAATATTGTCTCTGTATTTTAATCAGTTTTCTAATTTTATATTTAGATATTCTTGGTTTTTATCGTATGCTTCACATGCTAGTTTTTCAATTTCTTCTATTGATTTTGGTTGTTCATTAAGTTCTGGAATATAGTAATCTGGATCAATTTTTGGCTCTGTTTTGCAACTAATTAGGTTGCTTGTTGGAAAGACTGTAACTAATAGTCCTGAAATAATGTATAAAAGTTTTTTCATATTTAATTTCTCCTTAAACAATTAATAAATTTATTTTTTATTTCTTGCATTTGGATTGTCTTGTATTCCTCAGTTATATATTTTTTGTATGTGTTCTTTTGTATTATTAGTTAGATATTCATTATTCAAAAAAAGTTTAAGAGAATAAGAATATAATTCTTTGTTTTCAGCTTTTAAATCTAATTTGTATCCGCTAAGAGTCATTAATTCTTTTTTGTATTCTGGATTAAATTGATAAATTTTATATTGATATGTGCTACCTCATCAAAATTGAAAAATTAATTGTTTTTGATATTCTAATGAACTAGTAAAAAAAATTTCTCTATGTTTATTTTTTTCTTCATCGCCTAATTCATTTCAATTTAAAATACTTTGCTTATATTTATTTCACTTTTCATTTTTGATATTTAAGTATTCTTGGTTTTTATCGTATGCTTCACATGCTAGTTTTTCAATTTCTTCTATTGATTTTGGTTGTTCATTAAGTTCTGGAATATTGTAGTCTTGATCAATTTTTGGCTTTGTTTTGCAACTAATTAGGTTGCTTGTTGGAAAGACTGTAACTGATAGTCCTGAAATAATGTATAAAAGTTTTTTCATATTTAATTTCTCCTTGAACAATTATATTTTATATTAAAATAAATGATATTAAAATATTTCCAAAAAAATATATTATTTTTGGAAATATATCTAGACTTTTTTTTTTTTTTTTTGTTAATTTATGAGTAGGAGGTGTAATAATGAAAAATAATAAAAATACCTTATCCAAATTTGTTGATAAACTAATAGGAAAAAAAAGTTCAATAAAAATAAAAAAACCTTTAGTATTATTTTCAATAGTGGGTCTTATTATTTCATTGTTTTTATCAATCTCATTACCTTTATTTTTAAAGAGTAACTCAAAAGAAAATATTTATTATAAATTTGATAATAAATATTTTGAATCTAAAGATGAAGTATATCAGTATTAATATAGTAGATCAATTAATAATAATTATTCATTTGAAAGCAATAAATATATTTTTGATGATAAAGTTTTTAATACTAAAAACGAATTAGATATATATATTGAAAATAAATTTAAAATAAAAAATATTACAACTAAGCGCAATCCCAATGATTATCTAATAAATACATCTGGTGAGTTATCATCGCTTGTAAAAACTAATAGCAATGAAAAAATGCAAAAAGTTTACAAAGGATTAAATGGATCAGCTTTTTTATCAGAAAAAGATGCCAAAGAAACTTTTCAAAATAACTATTCTTTAAATTATAAAGTTGATGGTCAAGTATTTGATAACACTTATAGTGCCAGAGAATATTATTTAAATGTTAAATTAAAACAATTAGAAGATAATGCAATAAAAACTATTTGTTATGAACAAGGAGCAATGTGTCAAACAAAAGAGCAAATTACTTCTTGACTAAGAGATAATACTGTAAAAGGTTTTGAATATCAGGGAAAAGATTTTTCAAATTTAAACTATTCAGAGTTTTTATTAGCAATGAATGATTTAGATGATCAAATTATAGATAAAAATATTAAACCTGTTTTAAATGCTGATAGATCATCTTATTGAGTAACTCAAAATACAAAAAGTAGTTCAGGATATTTTGTAGGTCCAAAATATTTTGAAAGTAATGAAGCAGTTAACTCTGTTGCTAAATTTCAACCAATTAAATCATATGATGTAAATGCTTTTGCTTTACCAATTGCAGGTTGAGCTTTTGCTGGAATTACTAGTTTAGTATTAGATTCTTTAGTTAAAGAACCTGTTCAAAGCAATTATGAAATGATAAAATTTTTAGAAACTACATTTAATAAATTAAATTTAGATATTAAATTATTAAAAAATTTTGAAGATAAATTTTATAAATCCTTATCTAAAAATTTACAACAGGATTTATCATATGGACTTGATGATATAAAAGACTCTGAATTAAATGATTTTTATAGATTATTAATTTCTTTTAAGAGATTTTTAGATATTACAAAAATTTATGATTTGGATATTAAAACAGATGAATTAGAATTAACTTTAAAACAAATAGTTGTAGAAATTTTAAACTCTCAAAAAGAGTTTATGAACAATATGTTAGATATTAACAATGATAAAAATGGAGCAAATATTTTATTAGATTCAAGTATCTCATTTGATGATATTTACAGTTTGTTTTTAAATACAAATGCTTTCTTTAATGATGGGGGAACTAAAAAAATACTTTGAGATATTGCAGAAAATATTTTAAGAAGAATGGATAAAGTCATGGAAATAATTGGCTCTATAGCAGACAATATTGGAAAAGTAACAGACAATATTGGAAAAGTAACAGACAATATTGGAAAAATGAAAACAACTACAAATAAAAATGAGAAAGAGTTTACAACAAATGTAGAAAAAAATAATCAATTAGTAACTGAAACTCTTATTGATAATAGTGATTTATTAATAAAAGAATTAGGATTAAATTTAGATTTTACAACTAATTATATTGGTCCTGCAGCTTTATTATTAGCAATTCCAGAAATGATATCTGCAGTATGAAACTTAGGACAAATGTTGAGTTTTATTTCACTAAAAACCTATGAAGCAAAATTAGATAGTAATCAATCACTATATTATTTTGAACCAACTTTTAAAATACCATTATTAGATATTTCTTTTGCTCAAAGAGTTCAAGATCAAAACATTCATGTTTTAAATCAAAGTCCTTTAAGTTATTTTTCACCAAAACAAGATGGTAAAGAATTAAATGAATTATATGAATTTAATGGAAAATATTATAAAGATAAGAAAATTGCAATTGATGATTTAAAATATGAAATTTATAAAAAACCAGAAAACTTTTTAAAAACAAAAGAGTTATTTACTTCAGTGTTAAGCAAAGATAATAATCATATTTTAAATATAAACAAAATTTGTAGTACTGATGAAGAACAAAAAAATAGAAAAGATAGTTGTATTAGTGCTTATGAATATGAAAAAGAAGTTTCTAAACAAAGCGAAGAGTATATTCAAAGATTATTTAAACAATATTATGAAAATACAGGAAAGGAATATTATCTTGATGGCTTTGGAGGAGCATATGATAATAAAGATATAGCAATTCAGCAATTAAAAAATAAAGTTGATTATTTAGATAATTATCAAAAAGTTTATAGTTATAAAATTTATAATAATAAAATTGTAAAAGATACAGAACAAGAAATTAAAGATTATATTAAAGCTAATCAATATATTGAATCAAAAACAATTATAAATACAGATTTAATTCAAACTAAATCATATGATCTTTTAAAAGAAAATAATGGCTATGATTTTGATATTTATGAAATGAGTTACTATGGTCAAATAAAATATTTTAGAAGTCACTTAGAGGCAATGAATTATCTTGATAAAAAAGTAAATTATGAAGTTTATTCATATAATAGAGAAGAAAAGACTTATGACTATAAAGGTGTAGAGTTTATAAATAATCAACAATTTATTCAATGAGTTAACAGTCAAATCGAAGTTGTTTCACAAAAAGATTTTACAGATAGTGGAGGGGAAATTTCTAATGTTAAAACATATTTTAATAGCTTCAGCTATATCTAGTTTTTCAAGTGCATCTATTGTTCCTTTTATAAATTCAAATAATATAAATGAAGAAGAAAACTTTATTGAGTTTTTAAGAAAAGATATTGAAGAAAATAAATTTTATTTAGGAAAGCAAGTTTACAGTGAATATGATGGAAAAATTTTTACAAGTCAAGAATCATTAAATGAATATATTCTCTCTAATTCAATTGTTCAAAGTGAATTTACTTCATCAAATCCAAGCAAAATAATTAAAGATTATGAACATATGACTTTAGATGAAACAAAAATATATGATATTGATATGGACAAATTCTTACCAGTATATAGAGATGCTTTTGGAAACATTGCTCAAACAAGTCAAAAAGCATTAGACATTTATACACATGGAGGTCTTGTAAGACAAAAATACAGCTATGATGAAGAAGAATGATTTGATTCACCAGAAGAAGCTAAAATAAATCAAAAAGATAAAATGAAAATTAATAAATCGCTTTATTATATTCATAATAACAAGTACTATAATGCTTTTAATTTAAAAGATATTAATAATTTGTTAAATACGTTTGAAGAAGGCTACTTTGTAAACAAAACTAAAAGTTTAGAGGGCAATCAATTACTTCAACCAATAATAGAATATGGAAATAAAGATATATTGTATAAAAAAATGAAAAGAGAATTAAAAGAGAATTTCTTTGATTCATATTTTTATGAAATATCAGATATGGATTATCAAAATAAACTTTCTTTTGAAATAAAAGATAAAAACGAACTAAGAATTGCATATCCTGGAAGAAGTCAAGAAATTTATTATTCTGGATCAAGACCACAAATAACTTTTGCAAATAAATACTCTTCAACAAAAGATATGATTGATGATTTCAAAAATATTGTAAAATGAAGTGAAGGTGTGGAAAGTGGAGGTGCAGGTATTGGAAGATATTATTGATATAGAGACTTTGATTTAATTGAAAACTCAAATAAAGTAACAGCTACAGTCAAATTACTTCCGAAATGAAGTGCGGGTTTTGGTAAAAATAAACCAAGCTTTGATCATTATACATATACAAATAAAACTGTATCAAAAATAAATACTTATTATGATAAAAGCAAACAACAGTTAGTAGATTCAGTTGGAGAGTTTTCAAAAAGATATTCTATTCAAGAATCAACAAGAGAAGACAAATCAATTATGTATGATTCATGATTTGATGAATATTTTCAAAAAAATATAACAAGTTTTCCTGGAAATGAAAATAAATTAGTAAGATATGAAGATATTTTACAAGAAAATTTTATTAAAAATTCTGATCAATCTGTTTATAAAGATTTATTATATGATGTAAATTATGCAAAAGGAACAGCTTACTCATTAATTAAAAGTTACTATGATTGACAGAGAGTAAAAAATGATTTATTAAATAATCCTGTAACTGTTAATGAAGAAATTATGTATCAATTAAGACCAGATTTCTATGCAACAAAAGAGCAATTAGATTCTTTTATAGCTTTACAAGGAAAATTTAATGCTGTTTTAAAATACTCATATGGATCAAATGCAGATTTATCTAGTCCAGATGGTAAATTATTGGCAAACACTTACGAAGAGGCAAGAGAAAAACAATTTGCAAATGCAAATTTAAGTCTTAAAAAAAGATATATTGCCTATGATGTGTTTGAAAACGCAATTGAAAGTGGTAATTCTGAACAAGAGGCAATAAGAGAATTGCAAAATAATATTCTTTTAGAATCAAAAATGGTTCATAAAAAAGAAATTGAAAATTGAAATTGAGATGTAAAAAAATCTTATGACTCTATTATAAGCGATGGAAGATACTTAGTATATAAAGTAAAAGCTCCAAAATCAAATAATTATATTTATTATTCATCTCAAGAAATGGCATTAAAAGCAGCTCTTTCAAATGCTAGAATAAGTGGAGATGTAAATAAAATGTCTCTTGAAAAATATGTGTATACATATACAGATTCCTTTACACAAAAAGAGTATAGTGTTATTTTTTACAATAATGATATTGATTCAGCAATTCAAAAGATATTATTGGAAATAGAATCAATTAAAAAAATCTTACATTAGTTTTTAAAAAAAGAATATTTTAAATATTCTTTTTTTAATTTTTTTATAAGTTTATATAGTTATATTTACTTACTTAAAGAAAAACTAAACTCCATAAATATAAGCAAGTAAAAAATATTAAAACTTAATTATTAATAAAATAAAAACCCCCTTTAAACTTTAAAAGGGGTTTTTTCAATATTTATTATTTCTTTGCTTTAATATAAAATTACTATTCTACAAATTTAATAATTTCTTTTGTATCTCCATTTTTATTTATTAATAAGTCTTCAATATTTATTGTAAATTTTAAATATCCTAATGCAACAGTAATGTATTTAAGTAAATTATTATTTTTTAAAGATATTGAATTTTTATTAAAATTAATAATGTCACTATTTTTTTCAAAAACACCTCAAGATGTACCTGTAGTTTTTGAATCAAAAATTGTACCTAAACTATTTAAATTGATAAAGTATTCTCTTCTTAAAATATACTCCTTATTAATAAATTGAGAAAAGTTTAGTTTATCTCTCAATTCATTTAGAGATTTTGTTCTTGAAAGATATCATGATCCATTTGAATTTCCACTTAAAATCATATTTAAAATTGCAATACTATATTTACCACTATTTGAAGTATTATCATTTTTGAAAATATCTATAAGCTCTTTATTTTTAATATTAAATAAATAATTATCATTTGAATCAAAGTCAGGATATTTAAAACTTGTATCTATTCCATAAAATTCTTGCATATTTTTTACTATGTTTTTTAAAATTAGTTCATTTAGTAACTCTCAATTAATATCTTTTTTAGAATTATAAGAATAAGAACTTAAAATATTAAAATCAGGTAATTCATGAGTATAGCTGTTTTGATCATCACCTAATTTAATTGAAAGTCCTGTTATTTTTAATTTAAAGTTAGCAATTGAGCTTTTATATGAATCAATTTTTTTAATACTGTTTATTTCATTGTCATTAAATTTCATTTCTTTAAAATAATTATCTTTAAGTAAATCTCATTCTTTTATTCATTCTTGCTTATTAGAAGAAGTTAAATAAACATCATTTAAGATTTGTTTACTTTCTTGACTATTAGTATCTTTTCTAAATAATAGTTCAAACATTTTTTTAGATTGTTCTTTTAAAGTTGAAAAGTTATTAAAATTTTCTACTCTTTTATTTTCAAAAGCTGTTAAGAAATTGTTCTCAAAAGTTCCTTCTTTATAAATTGATTGCTTCATAAAATTCATATTTAGATTTTGAAAATTTTTAAAGTAATTTTTTTTAATAAAACTTATTAAATTCTGAGAATAAGTATTATTTGAGTTTACATATTTTTTTATATTTTCACTATAATCTCCAAATGCTTCTCAATCTTGTTTATCATTTTTTATTTCATCTCATTTAAAATTAGAGAAGTTTCTTGTTTCTTCAGATAGGAAAAACTCTTTTGTAATTTTTTCTTGCATTTGTTCTCCAGCTAATTTAAATGCTTCACTATCTGTTGAAGTATATTTTAAAGTATCTTTTATTTCATATTTTTCAATGTCATTTTTACCTTTATAGTTTATATTAATTTTAAATTCTACTATAAATTTTCCAATAAAAACTCCTTGTGAAAGTTCTCCTGAATCAATTTTAAAGTTGTCATTGTAAATAACTTCAACTCCTTTAAAAATAGAGTCAACTTCATCAAGAATAATTTTATACTTGTTAACTTTTTTTAATTCATTTAACTTTTCTTCTAATAGTTTAGCTTTTAAAATTACATTAATATCATTTTCAATTTCTTTTTTGTTTTCTGGTTTTATTTCAGTTTCTTTTTTAGAATAAGTTTTAATATTTTCTTTTTTAATAAATAAATGATTTTTTTCTGTTTCTGATAAACCAATTAGTTGACTAAAAACCTCTGTGTTAATGTGATTATCATAAATTTTTGTAACATCATTTTGAAAATCTTGTATAATTTGAGCTAAATTATCATTTTCTGGCTCTTTATCTTTTTCTTGATCTTTTACTTCTGTTTTTTTACCACATGCTATAACTGTTGAAGTTGATGTGGCAATTAAAGTTACTGTACCTAATAAACTTAATAATTTTTTCATATTTTTCTCCTTTTTTAAGTAATCTTTAAAAGAGCAAATAAGTGAACAATTTAAGTTGAAAAACTCATAGTGATTATAAAAAAAAAAAAAAAGTCAAATTTTGCGAAAAAAATTTAAGAATAAGATTTAAAAGATGAAAGGGAATAGAAAATACTATAGTTAGATTTTAATCAAAAAAAAATATTCTAAATTTAATAGAATATTTTAATATTTTTAAAAATTTATATTTGTTATTCGACAAATTTAATAATTTCTTTTGTATCGCCATTTTTATTTATCAATAAGTCTTCAATGTTTATAGCAAATTTCAAATATCCCATTTCAAAAGATAGAGATTTTAATAAATTGTTATTTTTAAAAGTAAGTCCAGTTTTATTCAAAACAATAATATCTTTATTATCTTGAAAAACTTTTGTACTAGTTCCTGTAGAGTCATCGTCTTTAATATTTTCTAAATTATTTAAATTAAAAAAGTACTTTTTATTTCTATTATTTTTACTTATAAATGAAGTGAAATTTAGTTTCTCTAGTAAACTTTTTAAAGAATTTGTAGTGTTATAATAATATGTTCCTTTTGAGTTTCCACTCAATATCATGTTTAAAATTGCTATACTATGTATTTCATTTTTAGCAGCTCCTGAATTTTTCAAAATATCAATAAGTTCTTTATTTTTTAAATTAAATAAATAATTATCTTTTGATTGAAAATCAGGATATTTAAAGTCTGTATCTATTCCATAAAAGTCTTGAATATTTTTTACTATATTTTTTAATATTAATTCTTTTAACATATCTCAATTAATTTCTGTTTGAGAGTTATAAGAATAAGAACTTATAAGATTGAAATCTGGCAACTCATGAATATAGCTATTTTGATCATCACCTAATTTAATTGAAAGTCCTGTTATTTTTAATTTAAAGTTAGCAATTGAACTTTTATATGAATCAAATTTTTTAATATTGTTTATTTCATTTTCACTGAATTTCATTTCTTTAAAATAATTATCTTTAAGTTGATTTCATTCTTTTGATCATTCTTGTTTATTAGAAGAAGTTAAATAAATATCATTTAATATTTGTTTACTTTCTTGACTATTAGTATCTTTTCTAAAAATTAGTTCAAACATTTTTTGAGATTTTTCTTTTGAGTTTGAGAAATTATTGAAGCTTTTCATGTTTTTATTTTCAAAAGCTGTTAAGAAATTGTTTTCAAAAGTTCCTTCTTTATAAATTGATTGTTTACTAAAATTCATATTTAGATTTTCAAAATTCTTAAAGTAATTTTTTTTAATAAAACTTATTAAATTCTGAGAATAAGTGTTATTTGAGTTTACATATTTTTTTATATTTTCACTATAATCTCCGAATGCTTCTCAATCTTGCTTATCATTTTTTATTTCATTTCATTTAAAATTAGAGAAGTTTTTTGTTTCTTCAGATAGGAAAAACTCTTTTGCAATTTTTTCTTGCATTTGTTCTCCAGCTAATTTAAAAGCTTCACTATCTGTTGAAGTGTATTTTAAAGTGTCTTTTATTTCAAATTTTTCAATGTCATTTTTACCTTTGTAGTTTATATTAATTTTAAACTCTACTATAAATTTTCCAATAAAAACTCCTTGTGAAAGTGCTCCTGAATCTATTTTGAAGTTATCATTGTAAATAACTTCAACTCCTTTAAAAATAGAGTCAACTTCATCAAGAATAATTTTATATTTATTAACTTTTTTTAATTCATTTAACTTTTCTTCTAATAATTTAGTCTTTAAAATTACATTAATATCATTTTCAATTTGTTTTTTATTTTCTGCTTTTATTTCATTTTCTTTTTTAGAATAAGTTTTAATATTATCTTTTTTAATAAATAAATGATTTTTTTCTGTTTCTGCTAAACCAATTAGTTGACTAAAAACCTCTGTGTTAATGTGATTATCATAGATTTTTGTAACATCATTTTGAAAATCTTGTATAACTTGAGCTAAATTATCATTTCCTGGTTCTTTATCTTTTGAAGAATCTTTTGTTTCTGTTTTTTTACCACATGCTATAACTGTTGAAGTTGATGTGGCAATTAAAGTCACTGTACCTAATAAACTTAGTAATTTTTTCATATTTTTCTCCTTTTTAAGTAATTTTTAAAAGAGCAAATAAGTGAACAATTTAAGTTGAAAAACTCATAGTGATTATAAAAAAAAAAAAAAAAAGTCAAATTTTGCGAAAAACAAAAAAATTGACTTTTAAATGAATGTTCCCCCCATTTAGGCAACAATTTTTATACAATAATAGAAAAGGATAAAGTATATGGCAAAAAAAGGACAAAAGTTTAGAAAGTGAACTCAAGAAGAAAAAGAAAAAATTATTGAATTAAGTTTGAATGGTTATTCTCTAAAGGAAATAGCATTAAAATTTAACTCAACTACAGGATCAATTGGAACAATAATAAACAAATACAAAAATACAGATATTGGTGATTCAAAAACTCGTTTACCTTATAAAATAGATTACAGTATATCTCAAAAGGCAAATGATCTGTTTGTAGGAATTCTATTTGATTACAATAAGGAATTAATTAAGGAGAATGATATTTTAAAAAAGCAATGAGCCTCCAAGGCCAAAACCAAAAAGAAATAGTTCAACAATTATTGATAAATACCAAGAGCAATAGAACAATGATTTGTAAAATTTTAAATATTAATAGAACATCAACATATAAAAAAAATAAAACTTTAATGAATTTCCTGGATGATACAAGAATTATGAATTTAGTTATTTCAGAAATTGAAAGGAATAATTTCCTTAGTGCTTATAGTGCTAAAAGATGAGCCCTATATTTTAAATTAAATTATATTGACCCTTTCAGAATTAATCATAAAAAATTAGAACGTATATTTAAAAAATTTAATCATATTGCATATTACATTAAGAAACAATCTAAACATGAGATTAAAAGATATAACGAAACTATTAGAAAGAATTATTTAAAAGAAGCAAAAGAAATTGGTTTTGAAAATATTTGAACTAGTGATATAACTGAATTTTCAGTTAAAACAAAAAAAGGTTATATTTGCACAGTTCAAGATAATTTAACTGGAGAAATAATAGGAAAATCTAAAAGAATTGATAATCAAAAAACAGATTTTGTTCTTGAAGCTGTAGAAATGGCATATAAAAATAAAAAATATTTAGGTTCAATATTATTACATTCAGATAATGGAAATCAATATACCTCTCTGGATTACATAAGTTTATGTAATGATTTACAAATTATTAGAAGCTATTCAAAACCAGGAACACCTCATCATAATGGTAAACATGAAAGTTTTCATGGTCGTTTAAAAGATGAAACTATAAGAACATGTCATATTGAAAACATTAATCAATGTATGGAAATAGCATGAGCATGATTGGACTTTTATAATAATGATAGAATTAGAATGAATAAAAAATGATAAAAAAAAAAAAAAAACGTTCCCAATTTGGGGGGAACGTTGAATGTAAAAAATTATATTGAAACTTTAACTCCTTTTGGATGTCTATATATGTTTTATGGTAATGCAATAGGGGGATTAACTTTAAATACAACACAAATTATTATTTCATCATTTATTTTATTAATATGAATAGCTTTACTTTGTGCATTTAGCATATTTTCTATTAAAGCAATAAGAAAATAATATTTAATTTTTATTAATCAAATTGATAAAAAACCTTACTAGATAAGGTTTTTTATTGTTTTTATAGATATAATTATTTTGAATAAATAAGAGAGGTTTTCAAGAAAAATGAATAAAGATAACAAAAATTTAAATGCTCTAAGAATTTTGGGTATAGAAGCTGTTAATAAAGCAAATTCAGGACACCCAGGGATAGTTTTAGGAGCAGGTCCAATAGTTTATACACTATTTACAAAATTAATGAATTTAAACCCTAAAAATCCATCTTGATTTAATAGAGATAGATTTGTATTAAGTGCAGGACATGGTAGTGCTTTACTTTACAGTGCTTTGCATTTATCAGGATTTGATCTTTCAATTGAAGAAATGAAAAAATTTAGACAACTGAATTCAAAAACTCCAGGACACCCAGAATTTGGTCATACCCAGGGAGTTGAAGCAACAACAGGTCCATTGGGACAAGGATTTGCTATGGGAGTTGGTATGGCTCTTGCAGAAAGTCATTTAGCAAGTAAGTACAATACTGATAAACACGAAGTTATAAATCACTTTACATATGTATTGTGTGGAGATGGAGATTTACAAGAGGGAGTTTGTCAAGAAGCAATAAGTTTTGCTGGAAGATATAAACTTAATAAACTAGTTGTTTTACACGATTCAAATGATATTCAACTTGATGCACCTGTCAAAGTAGCACAAAGTGAAGATATTCAAGCAAAATTTAAAGCAGCAGGGTGAAATACATTAAAAGTAGAAAATGGTGAAGATTTAAAAGCTATTGAAAAAGCTATTGAAAATGCTCAAAAAAGTGATAAACCAACATATATTGAAGTAAAAACTATCATTGGAATTGGTTCTACAAATCAAGGAACTACAAAAGTTCATGGAGCTCCGTTAGGAACAGATATAACAACAGTTAAGCAATATTTTAATTGAAATGAACCAGAATTCACAATACCAAAAGAAGTTTCTGACTTTTGAAAAGTAAATGTTTTAAATAGAGGAGTTGCTCAAAACGATCAATGAGATAAAATGTTTGAAGTTTATCAAAAAGAAAATCCTCAATTAGCAGAACAACTTTTAAAATCAATTAATAAAGATTGAAACATTGATTTAAAAGAGCTAGAAGCACTAAATAAAGGCACAGAGCAAGCAACAAGAGTAAGTAGTGGAGAAGTATTTAACTTATTGAGTAAAAACATTCCTGCAATGATTGGGGGAAGTGCTGACTTGTGTGAATCTACAAAAATTAAAGGTGCTGATGGTAACTATGATTTTAATTCTAAAAAGGGAAGAAATATCATGTATGGAGTTAGAGAATTTGCAATGAGCTCAATAAATAATGGTATAGCACTTCACGGTGGATTGCTACCAGTTGCATCAGGATTTTTTGTCTTTGCAGATTACTTAAAACCAGCTTTAAGAATGAGCGCAATTATGAAATTACAAACTTTAAGTGTATTTACTCATGATTCAGTTGCAGTTGGAGAAGATGGACCAACTCATCAACCAATTGAACAACTTGCAATGTTAAGAAGTATACCAAATATGAGCGTTTATAGACCTTGTGACATGGCAGAAACTATTGCAAGTTATTATAATGCTTTAAATAATAAAAATAATCCAAGTGTAATCATAGCAACTCGTCAAAATTTAAAAGAATTAGATCACTCAAAAACTATTGTTGATGATGTTAAAAAGGGAGCTTACATTTTAAGCAAAACTGATAAAGCAAATATTACTTTAATAGCAACAGGAAGTGAAGTTTCACTTGCTTTAGAAGTTAAAAATGAATTAGAAAAAAATAATCAAAAAGTAAATGTGGTATCTATGCCAAATATGAATGAGTTTTTAAAACAATCAAAAGATTATCAAGATTCAATTATTGATAAAAAAACAATTAGATTTTCAATAGAATTATCATCAACTTATGGATGACATAGATTCTTAGGAGATAGTGGAAAAGCATATGGAATTGATACTTTTGGCTATTCTGCTCCAGCAGGAGATGTTATCAAAGAAATTAAATTTACAAGTAGTGAAATTTCAAAAGACATTTTAAATCATTTAAAATAAAAAATATGATATTATTAGTAATGAAACCGTTAAAAGGAGAATATAAAATATGACAATTGTTTGATGAGGAGCTCTATTAATTGCAATAGGTGCAGCTGTGGTTGGAGGAATTATTGGTTTTATAATAACAAGAAAAGTTATTCAAAAACAACTTAGAGAAAATCCACCAATTAATGAAAATCAAATTAGAGCTATGTATAGAAGTATGGGAAGAAAACCTACTGAAACTGATATTAAAAAGACAATGAATGCTGTTAAAAGAGGAAAATAATATATTATTTATAAAAATATTTTTATCTGATAAAAATGTTTTTTTTTTTTTTTTTAGCATTTATGATATATAATCATTTAGGAATTTAGCAACGATAAAAAAGAAAAGAAATACAGAATAAAAATTATAAATTATTAGGACGGTGGACAAAAATGATACAAGTATTTACTTGTAGAGGTTTTAAGAAGGTAAATGCCTTTTTATTACACAATGAGAATAAAAAAGCTATATTATTTGATACAGGATATTTAGTTTATGAAGATATAATAAAATTCGTTGAAGAAAACAATATAAAAATTACAGATATTTTTATTACACATGGACATTTCGCCCATTTTTATGGAATAAATGAAATATGTAAAAATCAAGATAATCCAAATGTATTTATTGGAAAAGATGATTTATTAAATCTTTTTGACTCTGTTAAAAATCAAAGTGAATTTTTTGAAGGTGTAGGAAAATATATTTTACAACCTATTAAAAATCTAAAAGTTATAGCAAAAGATACTAAAATAAAAGTAAATGGATATAATTTAGAAATATATGGAAAGAAAATACATACAGATGGATCATTGTTATTTTCAGTTCCAGAAAAAAAATTTATTTTCGTAGGAGATTTTATTTTTAAAGATGAAAGTTATCTAATGGATGATTTAATGAACTTAGATGAAGAATCTGAAAAAAAAGCAAAAGAAATTTTCAATTGATTTATTAACAAATTTGATAAAAACTTCTCAGTTTTTCCAGGCCATTATGAATATGGTTTTAAAATTAGAGATATTTTAGAAGAAGATGAAGGTAAACTATTAAGAAAATATATTGAAAAAGCAAGCTAAATTATTTGTAATAAAGTGCAACCAAGTGTTGCACTTTATTACTTTATATTATTGAAATTTGCTTTAGGATTATAATATAGATATTGACTAAAAAATAATATTTAAAATTTAATAAAACTATTTAATAATTTCCAGTAATTTTCTATTAAAATGGAAATTTTTTTTATATACTATAAATGAGGGTTAGGTGCTTAAAAGAAAGGAGTACTAAATGAACGATTGATTTATGCACTTTGGAACGGAATTAATTGGAACAATGGTTTTAATTCTACTTGGTAATGGAGTAGTTGCCAATGTTGTTTTAAAAAACACAAAAGGTAACAATGGAGGATTAATAGCTATAACAATTGGATGGGCAGTTGCAGTAATTTTAGGAGCAACTATTGCTTCTGCAATGGGGGGAAAAGCCCATTTAAATCCAGCTGTGACAATTGCAATGATCTCAAATGGATGAGAAAAAAATGTTGGTAGTTTTTATTTATTACCATTAATCTTACTTGGACAAATATTAGGAGCTATTTTAGCACAAGTTATATTAGACATTTTTTATATCAAACATATAACACATACAATCTCAGAAAATGAACCAAGTATGGTTTTAGCAATGCACAGTACTGGCCCAACATATAGAAATATAGTTTTAAACTTTTTTTCAGAATTTATTGGCACAGCAGTTTTAATATTGGCAATATTTGCATCAGCAACATGATTTAAAACAGCTAATTTTATGGGACCAATATTTGTTGGAATAGCAGTTTTGGCAATAGGTTTATCATTGGGAGGAACTACTGGTTATGCAATTAATCCAGTAAGAGATTTAATGCCAAGAATTGTTTATCAGTGTTTGCCAGTTAAAAATAAAGTCAAAGCAGATTGACAATATTCATGAATTCCAGTTGCAGCTCCATTAGCTGCAGGTGTAATTGTTGGACTACTATTTTTAATCTAATAAAGATAAAAACGAATGAGATAAAGAAAAAGAGGAAATGAAATGAGTAATCAAAAATATGATATTTGTATTATCGGTGCAGGTATTATTGGAGCATCGATTGCTAGAGAGTTATCCAAATATAATTTAAATATTTTAGTTTTAGAATCAAATGTTTCATATGGTTTAGAAACAACAACAGGAAATTCTGGTGTTATTCATGGTGGTTTTGATCCAACTCCTGGAAAATTAAATGCCAAATTAAATCAAAGAGGTAAAAAACTTTATAGAGAAAGATGATTTAAAGAATTAGACTTTAAACATTTACCAATTAATTCATTGGTTATTGCTTTTAATGAAGAAGAAGAAAAACATTTAGAAATTTTATATAAAAATGGATTTATAAATGGTTTAGAAAAAGAAGAAATTAAATTAATTGAAAAAGATGAAGTATTAAAATTGCAACCAAATATTAGCAATAAAGTAACAAAAGCACTTTTGTGTAACAGTTCAATTGCAATTGATGCAGTTGAGTTAACTGGAGTTTTACTAAAAAATGCTAAAAGAAATTCTTGTGATGTTAAATTTAATCAAAAAGTTATGAAGATTGAAAAACAAAAAGAAGAGTTTATTATTCAAACAAATGATAGTAATTATAATTCAAAAATGATTATTAATTGTGCAGGGCACTATGCAGATGAAATAAGCAAAATGGCTGGCTATGATGAATACAAATTAGATACAAGAAGAGGAGAATATATTGTTTTAAAAAAATCAAAAGATAATTTTGTAAATAACATTATATTCTTAGTTCCAACAATTTGAGGTAAAGGTGTTATTGTTGCTCCAACTATGGATGGAAATATTCTTGTAGGTCCAACTTCACAAGAAGGTGTTGGAAAAGAAGAGACAAGTTTAATTACTAATGAAAAAGAAAAATTAATAATGGATATAGGTAAAAAAATTATGCCCAATCTTGATTATTCAAAAATAGCAAAAAGATTTTCAGGATCTAGACCAATTTATAAAGCAACAGATGATTTTTATATTCAGTTTGCAAAAAATGATAAATACTTTTTAAATGTTGCTGGAATAAAATCTCCTGGTATAGCTGCAGCACCAGCTATTGCAGAGTATGTAATTGATATGATAAAAAAAGTAATAACTTTAAAAGAAAAAGAAAATTGAATTTCAAAAGAAGAAAATATATTATTGAAAAATTAAAACTACTTTAAAACAGAAAGAGGAAAAGATATGGAAAAATATATTGTAACTTTAGATGAAGGTACAACAAGTGCTAGGACATTGGTTGTAAATAAAAAAGGAGAAATAGTTGTTTCAAATCAAAAAGAGTTTAGTCAATACTATCCTGAAGAAGGATGAGTTGAACAAGATGCTATTGAAATTTGAAATACACAAAGAACAACATTGCTTAAAGCTTTAAATTCAAAAGAAATTCTACCTGAACAAGTTGCAGCTATTGGAATTACAAATCAAAGAGAAACTGTTATAGTTTGAGACAAAAATACAGGGAATCCAATTTATAATGCAATTGTTTGACAAGATAGAAGAACAGATGATTACTGTATTGATCTTTCTAAAAAGTATAAAGAAATAATTCAAAAGAAAACAGGATTAGTTATCGATGCTTATTTTTCTGCAAGTAAAATTAAATGAATTTTAGATAATGTAAAAGGAGCCAAAGAAAAAGCACAAAAAGGTGAACTGTATTTTGGAAATGTTAACACATGATTAATTTGAAGGTTGAGTGGAGGTAAAGTATTTTGTACAGATCATACAAATGCTTCAAGAACAATGCTTTACAATATTTCAACTCACAGTTGAGATGATGAACTTTTAAAAATATTTGATATTCCAAAAAGTTTATTGCCAGAAATTAAATCTAATAGTGAAATTTATGGTCATACATTTCCTGGATTGCTATCAAAAAATTCTGAATATCAAATCCCAATTGCAAGTTCAATAGGAGATCAACAATCTGCTTTATTTGGACAAATGTGTTTAGAAAAGGGAGATATTAAAACTACTTTTGGAACAGGAGCATTTATACTTATGAACACTGGAGAAGAAAAAGTAGAAAGTAAAAATGGACTTTTAACAGTAATTGCATATTCAATTAATGATAAATTTGTTTATGGATTAGAAGGTTCAATAATGATGGCAGGAGCAACTCTTCAATGATTAAGAGATGATTTGAGAATGATTTATCAAACTCCTTTAAGTGAATATTATTCAGAGTTGGTTAAAGACTCAAGACAAGTATATTTTGTTCCAAGTTTCTCTGGGTTAGGGTCACCATACTGAGATCCTTACTCAAGAGGGGGGATATTTGGTCTCGATAGGGGAGTTAGAAAAGAGCATATTATTAAAGCTGCTTTGGACTCAATTGCTTATCAATCCAATGATGTTTTTGATGTAATGCAAAAAGATTCAAAAATAGATATCAAAACTATAAAACTTGATGGAGGAGCAAGTAAAAATAATTACTTAATTCAATTTCAAGCAAATATTTCAAATAGAGAAATAATAAGACCTAAAAATGTTGAAACTACAGCAATGGGTGCTGCATATTTAGCAGGTCTTGCTATTGGATATTGAAAAAATATAGAAGAGATAAAAGAAAATTGAAAAGTTGATGTTAAAGTAAAACCTCAAAAAGATATGACAAAAGAATTAAAAGGCTGAAAAGAAGCTGTAAAAAGAACAAGAAACTGATTAAAAGATATTGCTTAATAAAAGACATTGAACTTTTAAAAATAGAATTAATTTTCTATTTTTTTTAATTTAAACTTAAAAAAATTTTTAAATATTAAAAATCTTTTATTTTTTAAAAATTTTTTTTGAAAAATAAAAACTAAATAAAATAACATTTTTTTATACTTATAAATGTTTTAAATATTCTAAAAACTTGAAAAACAAAAAGTCAAGTTTTTTATAACTTTTAAATTTATTGCTAAAAAAACTGAAAAGTTTATATTTTATTTAAGCTTAATAAATTATTAAAATTATTAAGTAAAAATAGTTATTGCTAACATAAGCATTAACTATAAAATATTATATTAAAAAAATAAGAGGAAGATAAAAATGAAAAAACTAATTACCATTATGTCGTCAGTAACACTTGTAGTATCAGCAACAAGTTCATTAACTTTAGCAAATCAAAATAAAAAAGTTAGTGAAAAAAATATATTAGATACAGATATTAATTGAAATAAAATTGAGAATAATTTATCAAATATGTTTGATGAAACTTTATCTGATTCTGATCAAACTGCAGCAATGATAGAAAAAGCTCGTGAAGAGTCAATGAGATATTTTGATAACATAAAAAAGAATAATCTATCACTTGAACAAATAAATAGAAATTTAGCAGAGATTACAACAAAATATGAAAATAAATATCAAAGTGAAATAGCAAACTTTAGAGAAAGTAACAATAAAGAATCAAAAAATATTAATCAAATTAATAACTCTCAAAACTTTTATATTTCTAGAAGTAGTGGAAGTTATGAAGATGCAAAGAGATTATTATCTGATTTTGAAAAAAAACTTGCAATTACACAAAATACACTTTCAACATTAGCAGTTACTGCGGGAATAGCTGCAGCTGGATTTTGAGCTGCATCTTGATGATTTGGAATTAGTATTCCATGAGCAGTTGCAGCAACAGCAATTAGTGCATCACTTGGTGTAAGTTCAGCAGGAATAGGATTTTACAGACAAAAAAATAATTTAAATCCAAATATTTTGAGTGCTGTTTCTTGAGCACTAAATATTAGAACTATTGCAACATCTTTTAAAGAAATTGTTTATCCAGTGTTAATTATTTCAGAAACAACTGTTACATCTTCATCATGAGCAGTTCCTGCAACATTTGCAGCAATTGGATTGATTTCAGTAATATTTGCTTGAGTAAATGATCTATCATCTTTTTAACTAAATAGGTTAAAAAAATTCTCCTTTAAAAGAGAATTTTTTCATCTAAACTTGATCTTTTGCTTTTTGATCTTTCTTTTTAAATAATGATTTTTTAATAAAGTAGGGCTCTGTTCCTTTGATTAAACGTTCAATATTTTGCCAATGTCTTGCCAATAATATAATCATAGAAAGAGTTGTTACTAAATTAATTATTAAAAAACTGTCAAATTGATTTGCATGATTTAAAGTGTGCAGTTGATTATATCAAACAGCTGTAAAATCATTGTTACTATAAATTTGAGCAAAACCACTACCATCGATATCAAAGCTATTTAACCCTGAAATTTGAGGAATTCACATTAAAATAGCTGTTAGCAAAGAAGCAATAATTGATCCAATACTTACTTTTCTTGAAGTTAATACAAGTATTACTCAGGTTCCAAACATAATAATTCCTGCAATTCAATTAATTGTAAACATTAATCCCATAAAACAACTAACTGCTTTTCCACCTTTGAATTTATAATAAATTGGTCAACAATGACCAATTAAAGCAAATAATCCTGGAATAATTAGAATTACATTTTGAAAAATATTTAAAGGAATTTGACTTATTGCTAATGCTATTAAAACTGCAAGCAATATTTTAAAAGCATCAAGAAACATAATAACAATTCCTCATTTTTTACCAATAACTCTACTTGCATTGGTTGCACCAGCATTTTTACTTCCTTCTTCTCTAACATCTTTATTAGTTTTTAATTTAACTATTGTTATTGAAAAAGAGTAACTACCTATTAAATAACTAATAACAGATACTATAAAAGTACCTGCAATTATTTCTCAAACCATATGATTAATACTCCTTTAAATTTTTTAAATACACACTTTATCTTACTATAAAGATATGGCAATATGCAAGAAAATAGGTTAAAATAACTAAATAGCATTTTGACCAATTTAATAGTTATGGGAGTTTTTTGAATATGAAACTAAGTGAAAAAATAAATTTAAATAAAATTATTTTTGATTTATATAAAAAAGATTTAAACGGTTTAATAAATAATAAAGATTTTAATTTAAGTGATGAACAAAAAAATGAACTAATAATTTTAGGACAAACAAATGAATGTAAAACTTTATTTGAAAGAATAAACAATTTCTTTGAAAAAAATATAAATAATGAGCCTTTAGAATTAAGTTTAATGTTAACTTTAATTTTACAAAGATATAATTACTTTTATAAAACTGAATTGCAATGAAAAGAGTATTGTACCAATTTTGAAAATATTGAACAGAAAAATCCAGGAGAATTTTTTTTAACTTATATAAGTCAATTTTTTGATGATCAAATAAATTTGTATAATAATAGTTATTTAGAAATAGTTGAAGAATTTAATATTGAAAAATGAAATAAGAATTTTTCATCTGATATTAATAAACTTTTAAAAAATATTAATAACTCAAGTAATTTTCAAGAAAAAATGCAAAATTGTGAAAACATGATTTTATTCTTACAAGATACAAAAAATATCTATTCAAGTTTAGAATCAGTTGGAGTGGAGAATGAAAAGCAACAATTTTTAGCTCATACAAATGAATTGAAAATAATATATCAATCTTTAAATCATTTAATAAATGAAATTTTAAAAGATATTATTGTTGTTTAAAAAGAGGTAAATAAGATATGTTTGAAAAATATGTAAATATGAATAAACAAGATATGGAAAAAGATCTTGAAGAAATTGAAAAACAATATAAACAACTTTTAGAAGAAGAAAAAAAAATCGACAAAAAGGTAAGAAAAAATTTATGACTTTGATTTCTTTTTCCATTACTAGGATTGCTTTTTTATCAAATTCACTTAAAGAAAAGAAAAGAAAATGATAAAAATTACTATGTAATTAAAAATAAGAAAAAAGATATAATTTATGTTGAATTAGAAATTCAGTTTTTAAAATCAAAATTAGAAAAAATGTAATTTTTTCTTTTTTTATTTAATTTTTTTATAAAACTTATCTAAGAATTTTTTTCATAAGTATATAAGTTATATTATTAAAATAATAAAGTAAGCAAAAGAGTAATTTAAAATATAATGTAGCAGGTGAAAATGTTGAATATGCATTTAAAATTAAGTTAAATTACATTCAAGAAAATACAAGATCTTTATTTTATAAATTAACTTGATTAAAATATTATACAAAAGACTGAAAAAATGATAAAAATAAAGAAAACTTTCAAAATATAAAGATTTTTCTTTATTTTTTTATGCTGTTTATTTATAAATTAAATATGATAAATCTATAAATAAATATCTATTTTTGCTCGTTAGGATGAATTTGTTAATTAAAAGAAAGGTAATTGCATATGTTAAAACTTCTTATTTTTTTTGGAACTTCTTTTTTGTTTATAAAAAATATTAGTTCATTAGTAGAAGAAAGTCCTTTGACCGAAAATAATATTTGAGATTTTAATGAAGATATTGATTGAGAGAGTTTGTTAAACTTATTTTTTAAATGAAAATTGATATAATAAAATCATTGGGATATAAAAATTATTAAACTTTAACTTCAATAATTAGATAATCATTTTGATTAGAATTATGAAAGACAACTAGATTATCTTGAAAGAAAGATTAAATTTTTAAATTGTACTGAAAATAATCAAAGCAATTATATTAAATTCATCAAATTATAAATTTCTAAATTTAAATAAATATGTTAAAATTAATAAAAGGAAAAGCAATATGAAGAAAAAGATATTTTATTTAAACGAAGATTTAGAATACACTTATGAATATGTTTTTTACAATCAAGGTATTGGAGCTTGTTCTCACGAAAAAATAGCAAATGACCAAAGAGATAATAAATTTAAATGTATAAACTGTTTTATGATATTCTCTTTTGTTAATCAAAAACAATTAGATAGATTTAGCAGCAGAGTTATAAAAGAACACGATTTTGAAAGAGCAGAAATTGAATTAAAAAGAAGAATTAAAGGAAAAAAACTGGTAAATGAGTATGACAAATAATACATTAGCTTTTTTTTACAATAATTTAACTATGATTATGATGAATCTTGAAGATTCAATAGGATTAATAGCTAATTTTGAAAATTGAAGTGAAAAAGAAGATAAACAAGTTGAAAAATTGAAATTATTAGCAAAAGAAAATAATCTTAGATCAACTTTATTTGTTATTACAAACAGAGAAATGAATTATGGATTATGAAATTCAAACAACATTATTAAAAAAGCAAATGAAAAAGAAATAGATTATGTTATTTTTTATTACACCAATCCAATGATAAATCAAATGCCTGATTTTGATTTATACAAAAATATTGAAGATTTTTTAAGTGTGAGAAAAATGATAATTTCAAAAGATTATACTGATTTAAATCACTCAAGATTTACAACAAGTTTTATAGAGCAAAATTGAAAAGAAAATGCAATTATAATAGAAACATCAGTAACTAAGGATCTTGAAAATAATTTAAATTTATTAAAAAAAAGTAAATTTGAAGAATTTCAAAAACTTAATAAATTAAATTATCAATTTGATGCAAGAGTTAGTGAAGGAAAGAAATTAGGAAGAACTATTGGTTTTCCAACAATTAACTTAATTACAGAAGAAAGAATTGCTTTATCATATGGAGTTTATGCATGTAATGTGTATGTTGATCACTTAAAAGAGACTTTTTTGGGAGCAGGATGTTATTGAAAAAATGAACTAAACCAAGATGTTTTTGAAATTTTTTTAATTGATTTTGATAAAGAAATTTATGGCTGAAAAGTTAGCGTTTCACCAATTGAAAAATTAAGAGAAAATATTAAAGTTGATAGTTTAGAAGAACTAAAAAAACTATTGGCAAATGATGTAAAAACTACTTTAAAATTTAAAAAATAATTCAAAATAAAGTTAACAAAAATTAACTTTATTTTTTTATGCTAAAATACAATTGAAACGAAAAGAGCAAGATAATATGGAAAAACCAAAATTTTATTTAGGAAGTCATGTAGGAATGAATTCTGCAAATGATTATTTAATAGGAAGTGCAAAAGAAACAATTAATAATGGTGCAAACACTTTAATGTTTTTTACAGGAGCTCCTCAAAATACAAGAAGAACTGAAACAAGCAAATTAAATATTGATCAATTTAAATCACTTTTAATTGATAATAATATTGATATAAATAAAGTAATTTGTCATGGACCTTATACAATTAATTTAGCAAATACAGTAAAACTAGAAACTTTTGAACTTGGTGTTAGACTTTTAGAAGAAGAATTGCTGAGATTAGAAGAAATAGGAGTTCATACTGTTGTTTTACATCCAGGGGCAGCTGTTGGAGCTCCAAGAGAATTAGCTTTAGAAAGTGTTGCAAAAGGATTAAATATGGTTTATAAAAAATTGCCAAATACACCAGTAAGAGTTGCTTTAGAAACAATGTCAGGAAAAGGAACTGAAGTTTGTATAACTTTTGAAGAAATTAAAAAAGTTTTAGATTTAGTTGAAGCAAAAGATAAAGTAGGAGTTTGTTTTGATACTTGTCATATGCATGATGCAGGCTATGATGTAAAAAATAACTTTGATAAAGTTGTTGAAGAATTTGATCAAATTATTGGTTTAGATAAACTAATGGCAATTCATTTAAATGATAGTAAAAATCCAATTGCAAATCATAAAGATAGACACGAAAATATAGGATATGGCTATATCGGTTTTGATACTCTTGCAAGCATAGTTCACAATCCCTTATTTAAAGAAATACCAATTGTATTAGAAACACCTTGAATTGATGGAAAAATAAGTCCTTACAAAGTTGAAATTGAAATGATTAAAAATAATAAATTTACAAATCCATTTAAAGAAAAGGAATTAAAATAACATTTTTTTGAAGTTAACTTAAAAAAGTTGACTTTTTTTTTTTTTTTTATAATCATTGATATCAATTTGAATTGTTTATTTGTTTTCTAAAGCTCTTTTTAAAAGAGGAGGAGAAAAATGAAAAAATTATTAAGTGTATTGGCAGGAATTGGTATTGCTTCATCATCAGCTACTAGTGTAGTTGCATGTGGGACAAAAAAAGAAGATAAAAGTAGTACAAAACCAGAACAACCAAAAAAAGATATTACTCAAATAGTTCAAAATTTTGAACAAGATGTTACAAAAATATGAAATGAACATTATGAAAAAGAAGTTGCAGTAAACTTAATTGGTGTTGAGAGTATGGAAGAGGACAATGAGTTTTTAAATAAGCACAATATTCAAAAATTCTCTAAACCTGAAAATAAAAATAAGTTAACTGTAGAAAATAAAAAGCAACTAAATAATGATGTTGAAAAGTTATTTAAAGTTAAATTATTAGAAGAAAAATTGAATGAACTAAAAAAAGTTAATAAATATAAAATTATTCTTGATGAAGTTACATCGGTTTTTGAACATGTTGAATTAATTTTTGACAATGATAATTTTAAAATAAACTCTGGAGAGTTATCTCCTGGAGTTTATATTGGAAATGTAATAGTTGATTATAAAGTTGTAACTAACTATAAAGGCCTTGCAGATATTGAAAAGTTTAAGCAATCTGGAAGATTAAAATATACTTCCACAGATAGCAAATCATTTAAAACTATAGGAGATGAAATGTATAAAAATATTGCAAAGGATATATTTGCATCAACTGAAACACAAAAATATGTAAATTTAAAATGAAGTGAAATTAAAGAAAGTAGTAAGGAAATTGATGCATATTTAGATTCCAATGCTAAATTGAAAAAGAGTTATAATGAAAATAATGAATTTCATAATGCAATGTTAAAAACAATTAAAACTAATTATTTCAAAGGTGATTTTTCTTCATTAGATATTAATTATGAAAAGAAAAGTATTTATAAAACTGATGATTTTGTAAAGCAAAATAAAGATTATTTAATCATAAGTAATTTTATGGGAAGTTTGGATTTAAAGAATGTAGAAGATCAAAAAGATATTTCCAAAATTCTTCAAGGTGATAAAAAAACTACTGAGTTATTTTTATATAGATATTTTTCAAATAAAAATATGTCTAATATAAGAGAAAATTATAGAAAAAAACAAGATGAATTTTTAAATAAGTTTTTAACTAAAGTAGAAGTTGATAATTATAAAAAAACAAATAGTTATAAATTTGCAATAGCAATGGGTTATGCTGATTTTATTGGACCAGTTATTAAAATTGGAAAAGGTGAATCAACTTATTCACATGAATTACCTGATTTCAAATTAGCTATTTCATATTCTATGAATGGTAATGATGAACAACAATTTCCACAAACTTTTGTTGAGTTTGGAATAAAAGCATTTGAAATATATAAACAAGTTTATAAACCAGATTCAGAAAGTATTAAAGAATTAAAAGATAAGTATGATTATGACTTTCTTTTTGATTTAAAATTTGACAACGATATATTTATCAAAGATCAATATAATTTTGTTCAACCTAAAACTAACTCAGAGATTAATAATTCATTAAAAAAATTTGACAATGTTTATTATACAAGAATAAAAGAACAGTTAAGTAGTATAGGAGAATATGAAAAAATACTTAATAATAAAGATATTCTTTTTGAAATGAAAACTACAAATGAAATTTTAAGTAAAAGTCAAAGTAATTATATTAGATTTGAAAGTAAACAAAGTCAAAAAATAGGTTATTTTCAAATGAACAATTATCAAATTAATAAAGGTGATAAAATTTTTAAGGAGTTTGAATATATTCAAATTAATTTATTTGGAGTTATTAAAATTAAAATATATTTTGATAAAGATTATAGATATTCTAAATCAATGACAATTTTTTAAAAAAATAATTTAAAATATTTATAAAGTAAGTTAAACTAAATAGACGTATTTATGTCTATTTTTTATTTGTGTAATCCCTGTATTAGGGATTTTTTTATTTATTAAATTTTTAATGTTATTTCCTTTAGAGAATAGTCATTTAAACTTAATTCAATATTTTTTTCTTTTTCTTTTTGAGTTCATTTTATAAACTTTTGTTTTTTTGTTATATACTTTATTATTTCTATTATTGTATAAAAAATTGTTACCTAAAAAGTTGGAACATTCGTAAAATTTTTCAATTTATCTATTGCTTTTTTTTTTTTTTTTTAACATAAAAGTAACAATTTGAATTTAATAATAAAAGACAAAGGATGCTTATTTGTTTTTTCATTTATTTATTTTAAAAAGGAGAATAAAATGAAAAAATTATTAAGTGTATTGGCATCAATTGGTTTTGTATCATCTTCAACTGTTAGTGTAGTTGCTTGTGGTACAAAAGAAAAGTCTAAAGATACTTCTAAACCTCAAGAACCTCAAAAAGATGATTTAAATGAGATTATAAGAGACTTTCAAACTGAAGTTACAAAAATTTACAATAGTCATATGAAAAGTGAAGTTATTGGAAATCTTATAGGTTTACAAGAAACAGAAAAAAACTATTTGTTTATTAAAAAAGATAATATAATAGCTTTTTCAAATAAGGAAAAAGATATAACAGCTGAAAATAAAAAACAAATAGAGAATGATGAAAATCTAATTTTAAAATCAAAACTATTGGCAGAAAAATTAAATGAGTTAAAAAAAGTAAATAAATATAAAGTAATTTTAGATGATGTTGACTCTATTTTTAATGGAGTTGAAGTTATTTATAATGATAATTTTAAAATAAAATCAGGAGAGTTATCTCAAGGAGTTTATATTGGAAACCTTATAAATGAATATAAAGTGAATATTAAATATAAAGGAAAAAATGATATTGAGAAATTTGAAATTGGAGATACATTAAAATATACTTCAACAGATGATGAAACATTTAAAATAGCAGGAGATAATCTAGCAAAAAATATTGAAAAAGATTTTTTAGTTTCAAATGAAATGAAAAGGTATTCTAATTTTGAATGAAAAAATATTAAAAATAATAAAAACTTTTATGAAGGGTATGGAGAATTTTCAAATGAGATAAAAAATTATATAAATTCAAATGATGAATATAAAAATAGTTTAATTAACTTTATTAAACAAAATTATTTTAAAAGTTTTGAAAATTTAAATTTAGATTTTAATCAAAGCAATATTTATATGGACTCAAGTTTTAGAAATAATTTATTAAATGTATTTGAAAGTAAAAGTGCAAAGTCTTTTGAAGATTATACAAAATCAGATCAAAATTCTGAGAAAATTTTTAAAACTATTTTTAGAAATGATCCAAATAGTGAATCAACTAAACAAGTTTTAAAGGAACTTTATTTTACAAATAATAATATGGATAAATGAAATAAAGAATTAATCACTTTAAAAAGTAATTATCTTAAAAATTTAAAATTAACAGATCAACAAACTAACTTAATTGAAAAATCTAATGAATATATTAGTGCAGATTCAATAGGAAATATTAAATTAAAAGGGGCAACTATTACAATAGGTTCAGGAGTTAATAAATATATTCATGAATTGCCTGATTTTAATTTATATGTAACATATAATGCTTCTTCAAAAGTTGAAGAAAAAATTGACTTTTTAAGTGAGTTTACTTCAAAAGTAATAATAAAAGGTATGCATAATTTTTATGGAATGGATTCAAATTTTAAATATCCAGAGTTTAATTCTGATCAAGATTATTTAATGAATATTGGAAATAAAGAAATAATTTCAAATATAAAAAATAATTTTGATAAGGAATATCAATTAAAATATCCAGGAACTTTTAGTCAAATTTTTTGAAATATTTGAGATAAAGTGAGTAATCAAAAATCTAAGGAATTTATTAGCGATTTAAATATATTTAATATGTTGTTAACTAATAATTTGAGTTTAGTATATTTTATTTTTGAGAACTTTTCACAAGATTTATATGATTTAGTATATTCAGGAAGTGGAAATAAATATAATAATAAAATTGAACCTGTTGTAAACGAAAATGATGTATCTCTTATTTCTACAAAAACCGGAGCAAAAGATAAAAATCCTGATTCAATTACATTTAAATTGGGTTATTTAGCAGTTAACTTTAAGTATGAAAAATTATTTAATTTATCTGAAAGTCAAAAATCAAAAATTTTTATTAAATTTGTGTAGTTTAAAAATATTTTTCAACGTTCCCCCCAAATTGGGAACGTTTTTTTTTTTTTTTTATCATTTTTTATTCATTCTAATTCTATCATTATTATAAAAGTCCAATCATGCTCATGCTATTTCCATACATTGATTAATGTTTTCAATATGACATGTTCTTATAGTTTCATCTTTTAAACGACCATGAAAACTTTCATGTTTACCATTATGATGAGGTGTTCCTGGTTTTGAATAGCTTCTAATAATTTGTAAATCATTACATAAACTTATGTAATCCAGAGAGGTATATTGATTTCCATTATCTGAATGTAATAATATTGAACCTAAATATTTTTTATTTTTATATGCCATTTCTACAGCTTCAAGAACAAAATCTGTTTTTTGATTATCAATTCTTTTAGATTTTCCTATTATTTCTCCAGTTAAATTATCTTGAACTGTGCAAATATAACCTTTTTTTGTTTTAACTGAAAATTCAGTTATATCACTAGTTCAAATATTTTCAAAACCAATTTCTTTTGCTTCTTTTAAATAATTCTTTCTAATAGTTTCGTTATATCTTTTAATCTCATGTTTAGATTGTTTCTTAATGTAATATGCAATATGATTAAATTTTTTAAATATACGTTCTAATTTTTTATGATTAATTCTGAAAGGGTCAATATAATTTAATTTAAAATATAGGGCTCATCTTTTAGCACTATAAGCACTAAGGAAATTATTCCTTTCAATTTCTGAAATAACTAAATTCATAATTCTTGTATCATCCAGGAAATTCATTAAAGTTTTATTTTTTTTATATGTTGATGTTCTATTAATATTTAAAATTTTACAAATCATTGTTCTATTGCTCTTGGTATTTATCAATAATTGTTGAACTATTTCTTTTTGGTTTTGGCCTTGGAGGCTCATTGCTTTTTTAAAATATCATTCTCCTTAATTAATTCCTTATTGTAATCAAATAGAATTCCTACAAACAGATCATTTGCCTTTTGAGATATACTGTAATCTATTTTATAAGGTAAACGAGTTTTTGAATCACCAATATCTGTATTTTTGTATTTGTTTATTATTGTTCCAATTGATCCTGTAGTTGAGTTAAATTTTAATGCTATTTCCTTTAGAGAATAACCATTCAAACTTAATTCAATAATTTTTTCTTTTTCTTCTTGAGTTCACTTTCTAAACTTTTGTCCTTTTTTTGCCATATACTTTATCCTTTTCTATTATTGTATAAAAATTGTTGCCTAAATGGGGGGAACATTCTTTTTAAAGAAAAGTCAATAAACTTGACTTTTTTTTTTTTTTTTATAATTATTGATATCAATTTGAATTGTTTATTTGTATTTTAATAGTTCTTACAAAAGGAGGAAAAATGAAAAAATTATTAAGTATGTTAGCAGTATTTGGTATTGCTTCATCAACTACTATTACAGTGGTTGCATGTGGTGTTAAAACAGAAAATAAAAATCCTGATAAAAAACCAGAAGAACCTAAAGAAGATTTAAATCAGATTATAAAAGACTTTCAAAATGAAGCAACAAATATTTATATAGATCATATTAAAAAGGAAGTTATGCAAAATCTTATTGGAATACAAGAGAATGAAAAAAAGCATTTATTTATTAAAAAAGATAATATAATAGCTTTTTCAAATAAGGAAAAAGAATTAACTTTAAAAGATAAAAAAGATATAGAGCATGATGAAAACTTAATTTTAAATTCTACTTTGCTTGCACAAAAATTAAAAGAATTAAAAAAGGTGAATAAATACAAAGTTATTTTAGATGATATTGATTCTATTTTTGATGGAGTAGAAATTATCTATAATGACAATCTTAAAATAAAATCAGGAGAATTATCTCAAGGAGTTTATATTGGAAATTTTATAAATGAGTATAAAGTAAATATTAAGTATAAAGGAAAAAACTCTATAGAAAAATTTGAAATAAAAGATATATTAAAATATACATCAACAGATGATGCAACATTTAAAGTAGCAGGAGATAATCTAGCCAAAAATATTGAAAAGGACTTTTTAGTTTCAAATGAAATGAAAAAGTACTCCAATTTTGAATGAAAGAATATTAAAAATAATAAAAACTTTTATGAAGGGTATGGAGAATTTTCAAATGAAATTAAAAATTATATAAATTCAAATGATGAGTATAAAAATAATTTAATTAGCTTTATTAAACAAAATTATTTTAAAAGTTTTCAAAATTTATCTTTAGATTTTAATCAAAGCAATATTTATATGGATTCTAACTTTAAAACTAATCTGTTAAATGTTTTTGAAAATAAAAGTTCAAAGTCTTTTGAAGATTATACAAAATCAGAACAAAATTCTGAAAAAATTTTTAAAACTATTTTTAGAAATGATCCAAATAATGAATCAAATAAGCAAGTTTTAAAAGAACTTTATTTTACAAATAATAATATGGATAAATGAAATAAAGAATTAATCACTTTAAAAAGTAACTATCTTAAAAATTTAAAATTAACAGATCAACAAACTAACTTAATTGAAAAATCTAATGAATATATTAGTGCAGATTCAATAGGAAATATTAAATTAAAAGGGGCAACTATTACAATAGGTTCAGGAGTTAATAAATATATTCATGAATTGCCTGATTTTAATTTATCTGTAACATATAATGCTTCTTCAAAAGTTGAAGAAAAAATTGACTTTTTAAGTGAGTTTACTTCAAAAGTAATAATAAAAGGAATGCATAATTTTTATGGAATGGATTCAAATTTTAAATATCCAGAGTTTAATTCTGATCAAGATTATTTAATGAATATTGGAAATAAAGAAGTAATTCCAATAGTTAAAAATTGACATTTGATTAATTCTAATAGATTACCTGGTGATTTATCATTTATGTTTGGAAGTATTGTCAAAGCAATAGGGATATCAAATAAACTAGATTTTATTAGTAATTTAGGAATTTCATTCTTAATTAAAAATATGTCTAAAAACTACATTATTATGTCTGATTACTCTAATGATTTAGTTGATTATGAAAATTGAAATAATGGAACTAGATATAATAACAAAGTTGAATATGTTTTAAATGAAAATGATATATCTTTTATTCCTGCAAAAAGTGGAGCAAAGGATAAAAATCCAGACTCTATAACATTTAAATTAGGTTATTTAGCAGTTAACTTTAAGTATGAAAAATTATTTAATTTATCTGAAAGTCAAAAATCAAAAATTTTTATTAAATTTGTGTAGTTTAAAAAATAAAGTAAGTAGGCTTTTTAAAACAAATAAAAAATAAATTCTGCACTTTCAAAAAAATGAAAGGTAGAATTTTTTTATGTCAAAATAGTGAAATATTCATATTGGTTTATTAAAATAAGTGAACATTCTCTTTAAAATAACATTTTATTTTAAAAAACAAGTTTGAATAGGTAAATTTTACTTATTTTGAGAATTTATTAATGTAAAATAATAGAGAATAAGGTGAAAAAATGAAAAAAATGCTTACAATTTTAACTGGTTTATCAATTATTGTTACTCCAGCTACTCAAATAGTGAGTTGTAATATAGCAACAAACAATACGTATAAAACAGCTTCAGATATAGCTAAGTTTTGAAATTTTAAATATTTCAATACAATAAGTGTTGATTATACTTCTAGTCAAACAAATGCACAGCAATATAATGTTGACACTAGCAATATTGAAACAAATATAAAAGAACTTATCGCTCATAATTTTAGAAATCAAGAAGAGGTAAATAAACTTCTTGGAATAAAACAAACAGAGGGAGAAATAAATAATGATATAACATTTACTTATTATTCAGCTCCTAAAGTTAAAATCTCTAATTTAAGTGAGTATTTAGAAACTGAGTTTAAAGATGTAAAAGAGCCAAAAAAGGTAGAAATTTACTTTACATATAAGTTAAAAGATTATGAAGATAAAAATTATTTAAAATTAAATATAACAAATGTACCAAAAATGAAAAAGGAAGTATTTTCAACTTACTTATTCTTAGAAAAATTTAATAATCAAAATAATATAGATATTGAAAATTCTTTTATTGCAGATTTAAGAAAAATTGCAGAAAAGCAAAACGATAAAAAAATTACTGCTAATTTATTGGAAAAGAATAAAAAAACTACATTAAACTTTATCAAAGGTATGTTAACTTCTCTTGAAAAAATAACAAAAATTAAACTTTCAGATGACTTACAATATGTAAAAAATGAAAATCTTCATGATCCAAAAGTGGAATGAAGAAGAGTAACTCCTGAAGAACAATTATTTAGATTATTATTTGAAAAAAATAGTGATTCTATAACTGATTTTGTAACTTTTATAAATGAACTGTGTGATAAAGATAAAAATAGTTCTACTGCATTTAGTAAATGATTAGGTTTACCTCAAATCAAAAATTCTAATAAAGATAGAGCATTTCAAATCATCTAATAAAGTAGATCTTTAAAAACTAAATAAAATAGAATAGGTAATAAAAAAATGATTCAAACAATAAGTCAATTAAAAAATAGAAGAAAAAAAGTTATTCAAATTTTATATCGTCTTTTTTTATTAAATGAAAACATTGATAAAATAAAACAAGAATTGCTAGATGGTTTTCAATTAGAAACAATTGATGAAGAACTAGTTGACTATATTTTTGAAATTTTAAATAATACTTTAGATTACAAACAATTAATATCAAACTTACTTCCTGAATTGTGAAATTGAAATAGGTTACCAAAAATAATTCAATCTATTTTAGTAAATGGTGTTTTTGAAATAAAAAAAGAAATTACACCAAAAGCGGTAGTCATTAATGAAAGTATAGAGTTAACAAGAGAATATCTACCAAGTTTTGAAACTTCATTTATTAATGGTTTACTAGACAACATTGAATAGAAAATTTAGAGGGTTAAAAAAATGAATATAGATATTTTTGCAAATTATAAAGAGGATTTAAAAAATTATCTTAAATCTTTGAAAAGTGATATAAAGCTTTTAATTTATAAAGAATTTAAAAACTATATTTTTAATACAAAATTAGATTCTCATAATATATTTGAGAAAAGTTTTTTTACAAAAGCTTTTTGTGAACTTGCAACATATTGTTATTTGCAAAATTATAACTCTAAATTTTTTAACTCTAAAAATTCTAATTTAATTAATAATTACTCTAAATTTTCTGAGGAAAATTTTTTAAATAAAAAATTTGAAAATGTTGTTATAGTAAGTGCTCAGAAATTATTAAAAGAAGATGAACAGTTAAATGATTTTATAAAAACTCTAACAGATACTTTAAAAGTAAATGTTTGAATTAGAAATCTTAATTGATATAATAATGAACATTTTTTAGAAGAAGTTAAATTAAGTAAAAAACTAAAAGAATATAAAGAAGAACTTTTTAAAATAATAAAAAGTTATAATAAAGAATTATTTGATTTAGTTTCCAATAATAAATTTGTTTCAACAAAATTAAGTTTTAGAGAAGATTGAAACTTTTTTTTAGAAAAAAAAGTTTCATATAGTTTAGAAAAATTTATTTTTACGCCGATTAATTATGATGAAGATAACTATAAGAAAAAAATTAGTAAGTTATCTGAATTAGTTACAGAAGATACATTATTTATTTTTGTAAATAATGTTGAAGTAAATTCAAAATATAAAACTACTTTATTAAATGATATAAAATTATTTTCAGAAATGATTAAATTTAATAATCCTATTTTTACAATTGATAAAAATAATAATTTTTTTAGTTTCTTAAATATTTTATCATATGGAAATTTTAAAAACTTTAATGATATTTCAAAGTTCTTTACTAAAAGATCTAAAGAAAATAAACCTGAGAAATTAAAATTACAAGATTCAAAAAATGTAGATCCATTAAATTGATATTGAAATAAAATTTTAGAAGATGAAGATAAACAAGAAGATTTAAAAAAAATATTAAAAAAACCTAAAGCTGTAAAAAAAATAAAAAATAGAGATTTAGAAAAAACTATTACATTTAGTGAGCATAAAGAATTAAATGAAATATTTAAAGAAGAAAAAAATATTAAAGAAATAGATTTAGAGAAGACTGTTACATTTAGTGAACATTCAAATTTGGATGAAATATTAAAAGAACATGAATCTAATGAACTTAATAATAATATGGATGAACTTCTTTTAGAAGTTACTCAAGAAAATATGTTATTAAGCTCTGAATTATCTAAAAAAGCAAATAAAGAATTTACTAAATTTATAAAATTATTTGATAAAGAAATAAACAATATTGAATTAACAACTAAAGAATATAATAAAGATAAATATTTCAGTTTTAAAAAAATGATTAATCAAAAAAATATTAAAGAAGTTTTAGAATTTTTAACTAATAAAAATGATAATTTATTTTCTAAACTGAAAAATAAAAAAATGACAAAGCAAGATATAATGAATTATTATACATTATATATAAAAGTTAAAAGCTGTCTTTATGAAATGAAATTTTTAAAATTAAAATAATTAAATTTAAAGGAGATGAAAAATATGACTGAAATGATTTTTAAAATTACAGATTTTGCAGATATATTAAAAAATTATGTTGAAGAATCAAATGCTTTAAAAAATATTAATGTGAAAGGTGAAATTGCAAATTTAACTCATAATAAAAGCGGTCATATTTATTTCTCTCTTAAAGATAGTCAAGCAAAAATTGATTGTGCTATTTGAAAAACTAATGCAAGTAGATTTATAGAACAAAATATTAAAGAAGGAACCGAAGTAATAGCAAAGGGATCAATATCATATTATAAACCTACAGGAAAATTAACTTTTACAATTTATGATATTAGAGTTGATGGAATTGGTGAACTTGCTATTATCTATGATAGACGTTTTAGAGAATTACAAGAGCAAGGGTGATTCTTAGATGAGTTTAAAAAACCTATTCCTAAATTTCCAACAAATATTGGAATTGTAACTGCAGCAACTGGTGATGCAGTTAGAGATTTAATAACAACTATTAAAAGAAGATATTCATCAGTTAATATATTTTTATTTCCGTCATTAGTTCAAGGTGAAGAAGCACCAAAAGATATTGCTAAAAAAATTAAACAAGCTAATAATTTTACAGTAAAAATTGATACTTTAATTGTTGGTCGAGGTGGAGGAAGTTATGAAGATCTTTGATCTTTTAATGAAATGCAAGTTCTTCAAGCTATTAAAGATAGTAGTATACCAATAATAAGTGGTGTGGGTCATGAACCAGATATAACATTAACAGATTATGTAGCTGATTTTAGAGCTTCAACACCAACAGCAGCTGGAGAAAAAGCAACTCCAGATACTGAAAATGTTTTGCAAGCCTTAAATAGTAAGAATCATGAATTTGCAAAAGTTTTAAATAACAAAATAGAGAAGTTACATATGGAAATTGATAATTTATCTTATACATTAAAAACTTCTATTCAAAATAAAATTGTATCTTTAAATAATAATTTTAAAAATACTTCAAACTTCTTTAATTCTTTAATTAAAAATAAAATAATTATTATGAATAATAATTTTAAAAATGATATTCATAATTGAAAAACAAATTTAAATAATAAGTTAAATAAAAACTTAGAGCAATTAAAAAATTACAAGGAAAAAATTGATTTGCAAAATCCTTATTTGCCTTTATCAAAAGGATACTCAATTTTAAAACAAGATGATCAAATAATTAGATCAAAAGAGAATATAATAAAAAATAAATTAGTTACTGCTATCTTAAATGATGGAGAAGTTAAATTAAAATTAGAAGAGGAAAATTAAAAATATGAATAAGAAAAATTTTAATGATTTATTAAATGAAATAAAAAATATATCTGAAAAACTAAATGATTCAAATACTTCAATGGAAGAATCAATAGAATTATTTAAAAAAGGAACTGAATTAATTAAAGAAGCAAAAGACCAATTAACAAATCTTGAAGGTGAAGTAAAAAAAGTTTTAGAAAATAACGAATTTATAAATTTTTAATAAAAATAAAAAAATGAATTAAAAACTCATTTTTTTATTTTTTAAGCTTTAGCCATTTTATTTGCATCTTGATCAATAATTAAATTAAAATGGGGATGTAAAGTTAATAAAGAAGAAGGAACTTTTTCAACAACAGGTCCATTAATAATTTGATCAATTACTTCAGCTTTGTTTTCACCATTAGCTATCATTATAATATTTCTTGCTTTCATTATTTCTCTTGGTCCCATTGTTACAAATTCATCATGAAATAAATTCTCGTTCGGTTTTGGGATACTAGTATTTTGCTCTAAATCTTTTAATGTTATTATTCTAGTTCTATCTCCAAATTTTGTAACTCCAGACAAATTTCCACAAAAGTGACCATCAGTTCTAATTCCAAGAAGTACCAAATCTAAATCTCCATCAATTTCTAATTGTTTAATATGTTCTTTTCAATTTAATAAGCTCATTCTATGAATATTTTCCTGTTTTATTTTTCCTGGAACAAAAAATATTTTTTCTAAATCCTCAATTGTTATTCCAGTTGATAAATTACTTTTGTAAGGTACTTCATCAAAGTTATAAAAGTGAATCTTACTTAAATTTTTTATTTTATCTAAATTTTTAATTAATTCTTTATAAAATAATAAAGGCGATTTTCCTCCTGTTATTGCAATATTTATTCTTTCTTTATTTTGATTATTATTAATAATCTCCAAAAATAATTCAAGGGCTTTAAATGACATCTCTTCGTAATTTTTTGTTTTAAAAATTTTCATTATATTCTTTCTTTCCTTTCAATACTATTTTAATCTTAATAAAAGCCTATTTACTTTCCATTTTGGAAAGTAAATATTATTTTGCTATAATAATATAAGTGAGGAAAAGTTATGATGAAAAAGAATTATAAATACATTATTTTATGAAATATTATGATTTTTTCTTTTGCTATAGCTTCAATAAAACTCTTTATTATTTTTAACATATTTAATATTTTTTTAATTTATTCAATGGTTTATATAATAGGTTTAAGCTACTTTAAAAATTATTATAAACTAATAAAAAATATTAATGTAAACTCAAAATTTAAGGATGTGGAATCATATAATTTTTTAAAATTGATGTCATTTTCTGCTTTAACTTTTAGTTTCTTAACACAAGCATACAACTCAATTTTTATTACAGATCTTACTGAATCATTTCTTAGATTTAATTCTTATTCAATATCATTTATTCTTTTTATTACTCTTTTAAATTACTTTATTTTTATCTTTTTTTTAATATCACTTAAATTAATATTTAATTTAATAAAAAAAATAAATATTAAAATAAGTTATTTATTTAAAAAGTATTTAAAAAAAGTAAATTATATTTTAATAATTTCTCTTTATCAAAAGAAAATATATAGTATATTTTCTTTGTTTTCAGTTTTTTTAATTAAAATAAAGTTTTCACAAATAAATAGAAATGTAAAAATTTATAAATCAATATTGTGAGTAGATAAATATAATAAACTTCTAATTTTATAAAAAAAATTAGAAGGAGAAAATTATGAAAAAAACTAAAAATTATGAAACTTATATAAAGCTTTTTATAGCTGGACTTTTTATTATTACTATTTTTGATACTGCTATAGTACTTTCCATTTCAATTAGAGGTATAATTTATTTATTTGAAGATAAATGATTTATAATTCTAATTCAAATTTTACCTTTAATTTTCTTTGTTACTTTGTTGACCTTTGAATTAAAACTTTTAATTAAGTATTTTAAAAAGCTACGTTCATTTAATAATGAAGAAATAAAAGAAAGACATATGTTAACATTTGATTACATAGTAACTGAAAATAAAAATCATTTCAAAAAGGAAATGATTTTTGTATATATTTCATGTTCATTTATTGTGTTATTTGGAGGAATAGGAGTAATTCCATTGGTTTTTCTAATAAATGGACAAAAGTCTCATAAGAAGTGATTACAAGAAAAATAGTTATAAAACCCAAATTAATTGGGTTTTTTATTCGCAATATTGTAAAATATGATTGGTGAGACAAATGAAATTATCGCAAATAGCTAACTTTAAAGAACTATATAATATAAAAGATAATGAAAATTTAACAGAATTAGCACAAGATATAAGAGACTTTTTAATTGATTTTGTAAATAAAAATAACGGTCATATTGGAAGCAATCTTGGAGTAACTGAATTAACATTGTCTATTTTTTCATATTTTGATTTAGACAAAACTATAGTTTTATTTGATACAGGTCACCAATCTCACATATATAAACTTTTAATTCACGGTGTAGATAAATTTAAGACAATAAAGCAGTTTAAAGGATTAAGCAATTTTCAAGAAATGAAAGAATCGGATTATGATTGAATAAGTACAGGACATAGCTCAACTGCATTAGCATATCAATTTGGCTATTCTCTTGCGAGTAATAAAGAAAATATAATTTCAATAATAGGAGATGCTGCTTTTTTTGGATCATATACTTTACCAGGTTTAATGAATTTAAGAAACTCATCAAAAAAAACAATAACGATATTAAATGATAATAATGAAGCAATTGGAATTAACTCTTTGAAAATTAAAGATATAAAAATGTATGTTGAATCTTTAGATATTAAATATATTAAATGTGATAATGGTCATGATTTTCAAAAATTATTTAAGTCGTTTGATGAAGCTAAAAAAGAAGAGGGTCATGTTCTTATTCACTGTATTACAAAAAAATCATTGGGTTATAATGGAGAGAAGCAATTATTTTCAAATCATTCAGTGGAAAGTGAAATAAAAAACAGTTATTCTAAATTAATTGCTTTAGAGCTTGAAAAGAAATTTACACAAAATGATTATTTAATTTGTCCTGCAATGTTAAATTCTTCTAATTTGGCTAATTTAAAAAACAAGTTTAAGAATAATGTAATTGATGTTGGAATAAATGAAGAATTTAGTTTATTAACAGCAAGTGCTATTGCAAATTGCAAGAAAAGAACTTTTGTTTCAATATATTCGACATTTTTTCAAAGAGTTTTTGATCAATTAGTGCATGATGTATTTAGAAATGATTTAGCGCTTACTTTTCTTATTGATAGGGGAGGTTTAAATTTTAGTGGGGGAGTTAGTCATCATGGAATTTATGATGTTTCGCTTATAAATAACTTTTCAAACGCTATTATTTGTCAACCTTACAGTATAAATGATGTAAAAATTTTACTTGAACATGCTTATTTAAATAAAGATAAACAATTTTTTTTAAGATATGAAAATTTAGAAGCTATAAATGATAATTCAAACTCAAAATTTAATATTGGAGAATGACAAGAATTAATTTTTGATCAAGAAAATAAAATAACATTAATAGGTTATGGGCAAGTTTTAAAAGATTTTTTTAATTACATTAAAAATAATAATTTAAATATAAATTTAATTAATGCAAGATATATAAATCCTATTGATAAAAAAATGTTAGCAAAACATTCAAAAAATAAAATTTATGTATATGAACAAGTTATTGATAAGAATAATTTATTAACAAATATTAAAAGACAATTTAATAATTTAGATATTAGAGGTTTTGCTTTTAATAAAATAAATATTGAACACGGTAATAAAGATTTAGTTTTAAAAGATTTAGCAATGGATGTTGAAGGTATTATACATAAGATAGTTGAGGTGTAGAATATGAAAGATATAATAGATAAAAATTATTTTATAAATAAACTTTCTAGAGATAAAGAAATTATTGATTTAATTTCTAAACAATCTGATAAACAAAATGTTAACTTTTTTGAAAACTTAAAAAAAATAAAAGATATATTACATTTGAAAAATCAAACAGATAAAAAAATTCTAGATGAATATGAAAAGTTAATTATAATACCAACAGGAACAGAAGAAACTTTAATTAGAGAACTAAATCAATTTAATAAGGAAATGTATGATAATTTACCAGAACATTATATTATTGATTTTGATAAAACTTTAACTACAGATACTAATTCAAAATTAGATATTTCAAAAATAAACAATTCAAAAAAAATAAAAAAAGATTATAAGAAAAATATTTTAAATCTTTCAAACCCATATATTCAAGATTCATCAATTGCTTTTGATGAGCAAGAACATAAAGAAATAGATCCTTATGTTGAAAAGACAATTCATAATTTTGAAGATTTATTCAATAATGATTCGTTAACAAAGGATAATCAAAACTATATTAATAATCTTTTAGATGATAATCAAGAGTCTTTTAATTTAGTTAAAAGTACTGAACAAATTTATGCTCAGTCAATTGAAGAAAAGGAAAAAATGATTTCAGAAATTAGAGAAAGTTTAGTTGATGGAAATTATGGAAAGTTAAATCTAACAAAACCTTTATCAATTTCAACAGCAAGATACATGAGAAAACTAGCTTCTCTTAAAAAAGGTTTTATTAAAAGTTATGGTGGAGAATTATTTAAAAAAATTAGTGAATGAGTTCACAAAGAAGAAGTAATGTTTGAAAATATGGATAGAGCGCAAAAAATTGACAAACTAGCAAAACAAAAAATTAAATTAATAAATAAAAAAAATTCAAAATAAAGTTTAAGGAGAATTTTTATGAAACAAAGACTTGATCAAATATTGTTGAAAAAAGAATTAGCAGAAAATAGAAATAAAGCAAGAGGTCTTATAATAGATGGAAAAGTTTTAGTTAATAATGAAAAAATTACTAAACCTGGAACATTGTTTGATCAAGAAAAAATAAATATAAAATTATTGAATCAAGAAAATGAATTTGTAAGTAGAGCTGGAAAAAAATTATTCAAAGCTATCAATTTTTGAAAAATAAATTTAGAAGATAAAGTTTGTTTAGATATTGGTTCTTCAACTGGAGGTTTTACTGACTGTTGTTTGCAACATGGTGCACAATTTGTTTATGCAGTTGATGTTGGAACAAATCAACTTGATTGAAAAATAAGAAATAATATTAAAGTTAAGTCGATGGAAAAAACAAATTTTAGAAATGTTACTAAAGATTTTTTTGATAAAGAAATAAATTTTTTTTGCTGTGATGTAAGTTTCATTTCAGTCGAAAAAATATTAACTCCTTTAAAAGAAATTGTAAGTGATAATGTTTTGGGAATAATTTTAATTAAACCACAATTTGAATCTGATAAAGAAGATGTTAAAAATGGAAAAATAAATTCTAAAGAAGGACATATAAAATCTATAAATAGAGTTACTAGTTATTGTAATCAAAATAGTTTCTCTGTAATTGATATTAATTGATCTCCAATTCTTGGAAACAAGAAAAAAAATATTGAATATCTTTGCCTTATAAAAAAAACAAGTCAAATTAAAAATCAATTTGATCAAAATGAAATTCCAAATCTTGTAAATAATTGTTGAAAGTTTTTTGAAAATAATTATGAAGAGTAAAAAAGTTATTTTTCTTTTAGACATGGATGCTTTTTTTGCAAGTTGCCATATGGCAGAAGATCCAACTCTAAGAAATAAAAATCTTGTAGTGGCTTCTCCAAATAGAAGAGCTATAGTTACAACAGCTAGTTATAATGCAAGAAAATTTGGAATTAAAGCTGGAACTCCAGTTTTTCAAGCAAAGGAATTATGTCCTAATCTTTATATTGCAAATTCAGATTTTAGTTTATATATAAAATATTCAGAGCAAGTATTTGATATTATTTATAATAATTTTACAAAAGAATTTGAAGTAGCTTCAATTGATGAATGCTATATTGACATGACAAAAGTTTGAAAAAAATATGGTTCTGTTAAAAAAACTGCGCAAGCTTTAATTGATATGATTTATAATCAAACAGGTCTTTCAGCATCAATTGGAATAAGCACAAATAAATTTTTGGCAAAAACTTGTGTTGAATTTAATAAACCAAAAGGCATTTCAATTTTATTAGAAGAAGAAATTGAAAAAATTCTCTGACCAATGGAAATTAAAAAAATGTTTATGATTGGTCCAGCAACAGAAAAAATCTTAAATGAAAATAATATTTATAAAATAAGAGATTTAGCTTTAACAGATGTAAATAAAATTATAGAGTTACTTGGAAAAAGGGGACTTACACTTTGGTATTGAGCAAATGGTAAAGGTGATGATCAAATATCGCGTCAAGCAAGTGAATTTAAATCAATTGGTAATGAACTTACTTTAAATTTTACAACAACAAATTATGAAGAAATTGAAGAAATAATTTATGAAGTAAGTTTAAAAGTTGCAGATAGAGCAAAAAAAAGATATTTGCAAGGAACTACAGTAACTATTGTGGCAAGGTATTTAGATGATATTAAACCAGAAATTTATAGTAATAAAGAAAGAAAAAAACATTTAACAAAACAAGAATCTTTTCAAACTCCAACAAATGATCCAGAAATAATTTATTCAATTTCAAAACAGTGTTTTTATGAATTATGACAAGGCCAACCTATTCTTTTATTAGGAGTTAGATTAAGTAACTTAAGCAATCAAATAGAACAAACAAAACAACTTTCAATTGATGAAATAGATTTAAATGAAGGAATAAATTATAATGAAATTGAACAAATAATTTATAACTTAAATTTGAAATTTGGAAAAGATAAAATTTTTACAGGAGATAAGTTAGTTAAATATATGGACAAAAATATTGTCCAGTCGAAATTTCTGAAAAATGATGATGTTCATATTTCAAATGAACAAATAGTTAATAAGTGAAAAAATAAATAGGGGAGTTAATATGAAATATAGAATTGATGATTTAATACTTGAATTGCATTCAATACACAAGCAATTAAATACTTTTTTATTTTCAAGTACCCTTTCGGAAGTTAAAATTTCAATTGAAACAAGTAAACGAAGAAACAGATTAACTTTGGGACACTTTGATACATCAAAAGATTGATCAGATAAACTAAATCAAATAACTATATGAACATTAGCTTTAAATGGAGATTATCTTAATATAATTGCAGTCCTGGTTCATGAAATGGTACATCAATATAACTATGAACATGATATTAAAGATGTTGAGAATAATCAAAGGCATAATAAGCAATTTAAAAAAGTAGCAGAAAGTATTGCCAAATTAAATATTATTAAAACCAAATCTAGACTAGGTTTTGCTTTTACAACTCCTTCAACAGAACTTGTAGAGTTCATTGAAAAAAAACTTGATTTTAACAAAGATATTTTTAGAAAAATGATTCACAAAGATGCAATAGAATATAGACCTAGAGGTTATAATAAGAGTAGTAGATATATTTGCAATATCTGTAATACAGTTATAAACAATTCAAGAGAAAAACCATTAAAAATAATGTGTATGGATTGTAATAATATGTTCGAAAAAATAAAATAGTGCATATTGCAATATACACTATTTTAAAAATATATCTAATCTTTGTTTAATTTAAACACTCTATAATGTTAAAATTATCTTAGTATTATTGATATATATATAATTTTTTAGGAGGTTCTATGTCAGGATTCGCACCAAAGTTTTGCCCTACTCATTTACAAATTCATGTTTGTGAGTTACAAAACGTATTTGAAAAAAATAAAAAAATAGAAGATAAACTTAGTGCAAAAGTTCGAAGACTTCATGGAACTCAAACAGAAGAAGAACTTGCAATAGAAAAATCAAAAAGAAAAGATAAAGAAGGTACTTTAGGAGATATTTTAGCTAAAGCTAAGAAAAAAATTAAAGCAGATAAAGAAGCTTTAGCTAAAAATGATGTAGAAACTAAACCTGCAAGTGAAGAGGAAATAGGAGATAGAATGGCTGCTTTAAGAGCAAAAATGAGTGGAGAACCCTCTTCTTCCCCTATTTCTGATAATTCAAAAATGAGTGTTGTTGAAGAAACTGGACTTCAAAAAATTATTAATCATGCAAAAAATCATCAAAATAATCATCCACAGGAAAATTTTAAGACCCCTCAGAGAGCAAAAACAGGTGAAAAGCAGCAAAATAGTACTTTAAAAAATAATAAACCTTCTCAAGTGTCAAAAGACTTAAATTTAAATAAGATTGAAGCTAAAAATACTGATTTAGAACAAAAAGCTATTAAAAAAGAAACTAAATCATTAAAAAAACAAAGTTCTGTAAAAATGTTTAGTCAAAAAGAAGCTGAAGAGTTAATTCAAATTGCAGTAAAAGAAGCTTTAAAACAAGTTGGTGTTTTTGAAGAAGATAAATTTGATATTAAAGACAATGATCAAAAAAGTTTAGTTAAACAATCAGTTTCAAAAAAAATTAACAATGTAAAAAGAAGTACTTCTGATAATAAAACTAAATCAACTAATAAAACTGTAAAAAAAGATAAAAAATAAAAGAGAAAGAAAACTTCTCTTTTATTTTATTATTAATTAATTTTATAAATTGCTATTTTTAAAGAAAATAAACTCCCCCTTTTTAATTTTTTAAGTTTTTTTGTTTTCCTTTAGAAACTTCTACTCTTAAATTAAATCTATAAAAACTATTTTTTCGAAAGTACACTTATTCTTATTTAAGCAATTTAAATTTACAGTTTTTATCAAGAATTAATAATAAAACAAATACAATTGTATTAAAAATTATAAATGAAAAGTTAACTCCTGTTATTACTCCTCATGATGTTTTTCAAAAAGCAAAGGTTAATATATAAATTAGGATAAATCAAATAATATTTAATACTGTCAAAAAGATATATAATGACTTCATTTTTTTAGTTAATGTAATATTAATAAAGTTAATACTTGCAAAATAAATCATAAATATACATATTAGATTTATTGTAATAAATTGAATTATTTCTATAACTGATCACATTAGAATATTAACCCTCCATATTTTTGATATCCTCAATTTTGTTCATTATTAAAGTTTACTGTTTTATAATCATTTTCTTTTAAAAACTCAAGTAAGTCAGGTAATCATTCTTTTGCATATGCTCTTGTATGACAAACTAAAATTTTACCTTTACTTAAATGAGATTTATATTGTTTTAAAATTTTTTCTTTTCCACAACTTTGTTCCTTATAATCGCAACCTAAATAACCTCTTATGAAATAGTCAATTTGTAATTTTTCTTGTAAATAACCCATTCCTCTATAATATTGAAGATAAGGCATTCTTACTGGAATATCAGCAATACTTTTTTCTATACCATTTTCAGCATATATTTTAACTATAAGTTCACTTGTTCTATAAAATTCTTTTTCATAAGCTTTTTTTGTTTTAAATTGATACTTATTGTGATTATATGAGTGATTTCCTAATGAATGACCATCTTTTATCATTCTATCAACAACTGCTTTTGTTTGTCCTTGATCAGTAAAGTACTTTTCATAATTAATTCCTGTACCAAAAAATGTTGCTTTAGCATTATATTTGTCTAATATATTCATAATTTCAACATCATCAGTAACAGAGGGACCATCATCAAAAGTTAACATGACTACCTTTTCACTTGTATTGATTTTGTTCACTTCATAGTTATGTTTTGGTGTTGAAAAATTAAATACTAAACAAAAAACTAGAATAAAAACAATTAATATATTAATTAAATTAACTTTCTTTTTCATTTTTTTCACCCTATTAATATAATATAAAAAATATTTGAAAAAAGTAGTTTTAATTTACTTTTCTGATGTAATCTTTAAAATTAATAAAACCTATTTGTAATGTAAATTAGTAGCAGCAGTTTCAAGAATATCTAAATCTTTTTCCACTAACTTAATTTTATTTCTTGCCATTTCATAAGAATCTCTTCCTACAAAAATGTGCATTGGAATTTTCTCAATTTGTGATAAATCAGTTAATAATTGAGCATATTTTTCTGGATCTCCATCTTGAAAACCATTTCATGATTTAACTGTATTGACTCATTCATTTCTTTTATCTGCATAATCTTCAATAATTGATTCACCTGTTACTAAAGAATTCTCTTTTAAGAAATTTGTTCTAAATCCCCCAGGTTTTATACTTGAAATAGTAATTCCTAAAGGTTGCAATTCATAGCTAATACTTTCTGCAAAACCATCTAATGCAAATTTACATGCTGCATATAAGCTGTTAAAAGGAATTGTTGCATAACCTCATCCTGAAGAAGTTACATAGATATGACCTCATTTTTGTTTTCTCATAAAAGGAAGAACACATTTTATTACATTTAAAGTTCCAAGTAAGTTATCATTTATATAATTTTGCATTTCTTGTGAACTTGTTTCTTCAAAACTTCACATATATCATAACCAGCATTGTTTAATAAAATATCTATTGAATTAAACTTTTTAATCCCCTCTTCAATAGCTTTAGTAATACTTTTTTGATCATTAATATTCATATTTACTATTAATAAATTTTTATTATTTTCAAATAATGATTCTAACTTTTCTTTATTTCTAGTAGTTGCTATTACTTTAAAATTTTTTGATAATAATTTTTTTGTAACTGCTAAACCAAGTCCTTGACTTGCTCCAGTTACCATTCAAATCTTATTTTTCATTTTTTCTTATCTCCTTACTTTTCAAGTTTAAAACACTATAGCAAGTATAAGGCAAGTAAAAATATTTTTATTTTTTAATTTCTTTAGTTATTATCTATTAATTTATTAAAGTTAATTGGATTTCATTCATCTTCAATACCTGTTTCTATTATTTTTTTATAATGCAATTCTTTTAAATTAAGTAAATCTAATTGTTCTTTAAGATTGTTAATTTTTTCTAATAAAATATTTTTTTGTGCAACAATAATATTAAATCGTTCTGTTACAGTTCCATCTCCTTGTAAACATAAATTTAAATATTCTTTTATTTTTTTTATTTCCATTCCAGCATCTCTTAATATAAAAACCATTTTAAATCATTGTAAATCCTCAAAATTAGCATATCTATAGTTGTTTAATTCTCTTTTCATAAATGGAAATAGTTCTTTTGAATCATAAAATCTAAAAGTCTGTTCAGTTACATTAAATATTTTTGTTAGTTCCTTAATTCCAAGTTTTTTCATTTTACACTCCTACTTTATTAATTCAACTAAACTATCAATGTTTTTATAAAAAGTTTTTTTATCTGAATTATTTTCCAAAATATAATCAAATTTATAATCTTTTAATTTTTCTTTTTGAAATTCAGTAATTGAATCTATCTCTTCACAATTTCTATTATCTCTTTTTTCTACTCTTTTAATTCTTTGACTGTGATTTTTTACAAGCAAAATTGTTTTATCAAATTTAATATCTATGCCACTTATTACAGCAGCTTCAATAAAAATTAACTCTGCTTGTTTTTCAATTAAAATTTCATTTTTAATTTCTTTGGTTATTAAAGGTCATGCTATTTTTGTAAATTCATTATTTAATTTATGATTATTAAATAATTCTTGTCTTAAAATTAATCTATCAATTTGTTCATTAATTAAAGCATTGGGTATTTTTTGTTTAATAAATTCTATAAGTTCTTTTTCATAAAGTATTTTTTTTGAAATTTCATCTGCTTCAATTATTTTAATTTTGGGATTTTTATCTAAATATTGCAACATTGTTGTTTTTCCACTGCCAATAAATCCACTTACTCCTATAATTTTCATTTACACACCTTCTTTAATTAAAAATAGTACTAAAAAATTTTTTTATACTATTTTTAATTATAAATTATTTTATTAATGTAGTTTGCAATTGTTGCTTTAATTGGAGACATTTCTTGAATTATTTCTAAGCAAATATCTCTATAGTTTTTTAAGTCTTGATTATTATTTGCTATTTCTAAACGATTAATTACATTGCTCTTTTCATCAATATTCTTTCAAATTGATGAAACTCTATTTTTTAAACAAAATCCAATTTTGGGTAGTAATTTTTCATTTTTAAAAGATATTATAAAAATTCGTTCTAATTGAACTTCAGCTGTAAAAAGATCTCAAGTTTTAAGAGAAAATTTATAATAATCAATTAATTCCTCTAAATCAATTTTAAGTCTTCCAAATAAATTTAATTCTGAGTTATTTATTAACTCTTCTATTAAATCAACAAACTTTTTATCTGTTGAAGTTAAATTATTTATCTCGATTTCAATTTGAGAGCCAATATAATCTCAATTTATGTCTTTTGTATTTTGAATTTGCTCTAATTTTTCAATTGTTTGTTTGTATAAAATTGAATTTTGATTATTTGAATCTTCAAACATTTTTTTAATACTTTTGAAATATAAAATACATTTAGTAGAAGCATTTTCATAATATTGATAACTATCATTAATAGTTTCATGTCTTTCAATTTGATTATTTTCTAATTCATTAGTTTCATCAGTTATAGTAAAAGTATTATCTTCTTTATTAATTTGTTGATCATTTAAAATAGCTGAATCAAGAGATTCCTCTTTTTTATTTTCTATTTCATCAGTTACATTAAAAGTTCTATCTTCTTGATTGTAATATTCATCAGTTATATTAAAAGTATTATCTTCTTGAGTGATTTGTTGAATATCTAAAGTAGTTGAATCAAGAGATTTTTCTCTTTTATTTTTCATTTTATTAATTAAATTTAAAGTATCGTTTTGTTCATCAGTTTCATTAACAGATTTATTTTTTATTTTGTCAATTTCATTGATTATATTCAAAGTATCATTTTCTTGACTATACTGCTCATTTGTTGCACTAAAAATATCTCATTTTTCAGTATCTAGTTGACTAGTTGTTTCAAGAGTTTCTAAAACTTTTGGATAACTAGATTCATTATCTTCTACTTTTTCTTTTTTATTTTTTGATTTTATTTTTTTCTCTTTTACTATTAATTCTTTTACAAATTTTTGACCTGTCTCTTCTTCTAAACTTTTTAAAAATATTATATTAACTCTTTTTCAACTACATTCTCCACAAATTGTACCTGCTAAAGCAACAATTGAAGCTGTAAATTGGATAATTGTAGGAAGCAAAATTCATAAAATTAAATCTGAACTTTTATATTCTGTTTGACTTGTTCATATACCTGATGAACTGTGAAATATACCAAATGAAAGTCAATATATGTTTGCAAATTGACCATCTAATAACTTAGAAATTGAATCTGCAATATCTTTATTAAATGATATAAAACTACTAAAACTAAATTGAAAAGAAATACCTAATATAAATGGCGATGCTGACAATACAGAAATTAATGAAGTAAATGAAAGTAGTATCAATAAAATTCATGACAATGTCATTGTTAATTGATAACTTCTAATTGGTCTAGTTATTTTAATGATTTCTTTTTTATTTTTTAAGTTGTATCCAATAATATGGATTATTAATCTACAAGTCATAATAATTAAACCTACAGTACTTATTATTAAAGGAGTTCAATATATTAAAACATCATCAGCAGCTACAATTAAATTTTTACCATCATATAAAAAACTTAATAAAACTTTTTCAAAGTTATTTGAAACGATAATTTTATTAACTTGATACATATTTTCTTTTGTAATTATTGGAGATAACATCATTAATAACGAATATGAGAAAATAATTATTGAAAAAATCATTAATGAAATTATCATATAAAATGGCTTTTTATTATTTTTTAATAGTTTAATTTTTTTCATATCTATGATTCCCTTATAAAATTAACTTTTTATTATTATATAATATCTATTAAAGTTATTTTACCTCTAAAAACCGTATTGACATTCTAAATTTTATATTTATTATAATTCACCCCTAATTTTATTGATATATAATTCTAAACCTATTTTTACATATAAATAATTAAAAAATGTTTTAATTCATTTAATAAAAACTATTTTATTAAATTTAAGTAAATAAAAAAACCTTTGAAAAGGTTTTAAGAATTAATATTTAATAAATTGCTCAAAATCTGATTTTAAATCTCGATAAGTTAAGCAATCATTAATTAATTTAACTTGATTTTGAATTAATTCAAATGTTGAGAACTTAAATCTTTGTTCACCAGATAAATAAATTCCATCTTCTTCTATCTTATGATCAGGTTTTAAACAAAATGGTAAAACTTCTTTATTTATCATACTTTCATTAAAATATTTAAATAAAGGTCTGTACTCTCCTCTACCTGGACCCAAATTAACTAAACCTAAAGCAATTTTTGGATCTACTATAAATAAGCTTAAAATATTAATCTTAGTTCTATCATCTATAAAATTAGCTATTGTTTTATTTGTTAATAAGAAAGTATCTTCGTCTAATTCAGATATTTTGAAAAATTTAAAAAATGTATTATTTACCACATTGTGAAAATAAACATCTAAGAATTTATAGTTTTGATTTGTTAAAATATCGCTTGGAATAATAATTGTTTTTTGATATTCTTGCAAATTAAAGTTTATTGAAGATGTCTCTACATATTCATAAAGACTTTCAAAAGTTCTTTTACTAAAAATATAATCATACATTTCAAATAGTACATAACTGACAACATTTAAAATTACTAATCTATAATATTGTTCAATTTCAAAATTTAAAACATCAAATATTCTATACTTTTTATTTAAATCTCCAAATGAATATTTATATTCACCATTAATTAATGTTATTAAAAAATAAAAATATTTTAAAAATAATACTTCTTTACCTGTCATTTCTACAAATTCATCATTTTTCTTGATTCTTTTATCAACTATAGCTTTTGCTACTTTTGATATTTGATTGAATTGTTTTATTATTTTTTTAGTATCAAAATTTTGATATTGACTAAATAAAAGCTCTATAAAAGGAACATTTTCAACTTCAATTTCTTCTACTTGATCACTTACAAAATCAATGTATTTAAAACAAGAGCTTCCATCTTCATTTTGAGTTTTTCAATTATTTAAAAACTCACTTGGCAGTATTAAATTTCTTCTAATTCTTCTTTTCATATATTCACCTGTTTTTAATCATTTTCTATTAATTGCATTTGCTTTTCTGGAGAAATTGGTGTAGCAGTAATTATTAATTTATTTATTTTTTCAATAACAAAATAAATATCTTTCTTTGGAGTACTTATATATATGTGTCTTGATGTTTCAAAACTATAAGTTGATTTTTCGATTAATTTTAAGATTTTCTCTTTTAATTTGAATTCTTCTTCATTTGCTAGATTAAGACGTTGTCTTATCCTCTGAATTGAATGAGTTGAAAAATTATATTCATGTTTATAATAATAACTCAATCAAATCACCTCACTTATTAATTATAATCACTTTTTTCTTTATTACAAAGCAAAAATGCTATTATAAATTAATAAAAGTTAAAAAATATTAATAATTATTTTTTATTAAAAATTTTTTAATTTCTGATCCACTTCTATATTTGATTTCATTATTTTTTGAAATTATTCTATGACAAGGAACTATTAATAATATTGGATTTTGAGCCATACAAGTTGCTATAAAACGTGTATGATCTGGTTTATTAATATGTTTTGCAAAATCAGAGTAAGTCATGTATTGTCCATAATCTAATTTAACTAGTTCTTTTAATACATTCAATTGTTTTTCAGTTAAATTAGGAAGAAAAAAATCTTCAAAATTTAACTCAATTTTTTCTTTTTTTTCAAATTTTCTTAAAATATCTATGTATTTTTCAAATTCATCTTTTCTTAAAACATTTCTAACTTTATAACCTTTATAAAATTGATAAATATCATCTTTTTCAAAACCTAAATAACATAGTTTTTCACCAATTATTCCAATTTTCAATATTTTGTTTTCAAATATATTTATTTTAAAAACTTTAATTAATTTTTCTTCTCTCATTTCGATACACCCAACTTAATTATAAGAAAAAAAACACAATAATTATTGTGTTTTTATTTTCTTTAAAATCTTTTTATTTTTTTTCATCATCTTTATCTTTATTTTTATTTTGTCGGTCTTCAAGTGATTTTAAGAAAGCATCTATTTCTTCTTGAGGTTCATATAAGTTTGGATCTATTTCATAACTTCTTCCTTGCATAAGTTCTGAAATCATCATTTGATATTCATCATTTGCTTTTGCAATTTTTTCTCTATCAAGTCTTGGATTTAAGAAAAGAATAATAATTATAGTAATACCTGCCATTAAAACTGAAATAAAGAAGAATCATATTAATATTTTTGCCATTGTCATATCAAAATGATTATTCATTGCAGTTACTAATTGATCTAATCCTGATTTATTTGCATTTATTCAATTATTAAAACTTTCTGTTGTCATTGATTTATTATTTGTAACAACAGCAAGAAAGCCTGATAAACTACTAAAAGGAACATTTGCTCCAAAAATATAACCAATTGCTCTACTACAAGTAAATATCATCATAATTAAAAACATTGCAGGTACAACTAAGTTAATACCAGGGATTGTAAATTGTTGTCTATAAGTTTTTGGGGGTTGAACAATTGTAAAAATAATTCAACCCATCATTAATCCTAAAATAACTAAAATAACTATTGAAAATGGTCCACTTTGTATACCTAATGAATTTGATAAATATCAACTATATTGAGTTGATTTTCTTTTTTCTAAATAAGCACTTCAAGCTTGTGCAAATTCCTTGTCAAAACCTGATAGACCATTTAAATCATTGGTAATTTTAAATGAACTTACTAATTGAAATACAATAGATATTAGAATAAAAAATACAACAGATAATCCTAAAACTATACCTAAAGTTAGTTTTAATCATTTGGTATATTTAGGTTTTGTACTATAAGGATAAAACCTCATATCTTGTAATGGAGTTGGTGGAATTGTATTTAATCCACTACCCATAAATGGATTACCTTGTCCTGCATTTCCTCCTGCTCCTGCAACACCTGCAAATCCTTGAAAACCACTTTGTTGATTAGTATTTGTATTTGGTTGTTCTTTTGATTTATCTACTACTTCAGGTTCTGGTTTTTCCGATACTTTTAAATACTTTTCCTTCATTTCATCAGTAATTTTTGAGTTTTCTTTAACTAAATCTTCGGTCAATTCAAAATTTTGATCAGTTAATGAGTCTCTTGATATTTGTAAATTATTAAACAAATATGTTTGAATATAAGTAATATCACTTAAAACATCATCTGCTTTTTTATCTTCTGGTTTTATAAATTTAAGTTTTTCTTTAGTAATATTTACTAAAGCTTTTCCAAAAACAGGACTTCATTTTTGATCTTTAAAAGTACAATTTTCATTAATTTCCAAAACTAATAAATCATTAATTAATTCAATTGTTTGCTTTTTAAATTCAGAATTATTTAATAATTCAACTCTTAATTGCTCATTTTTTATCAAATTTGCTAACAAAAATATCGAATCCTGATATATCTTTTTAGCTTCCATCTTTTTAACCTCTATTCTTACTAAAAATTAAACATTTTTAATAGTTCAATCTCTGGAATTATTTTACTATCATAAATTCCATTTTTTATGTTTTTTTCAAGAACATATAATACTTTAATTTTATCATTTATTTTATCAATATTAAGTTTATTTTGTTCTAATAACTTTGATATTCTATAAGGATTTATTGCTAATGTTGAAGCAATTTCTGAATTATTCATGTTTTTTTGCTTCAATATTAATATATTTCTTAAAGTAATTAAGTTATTTGCCAATAAGGCTAAAAATGAAAATATATCACTGTTTATTTCTAAATAACTTGATCATTGTTTTAAAAACATTTTGACATCATTTGAAAGAAAACAATTTGCAATTTGAAATGTATCAAAATTATGATATTTCATAGTTATTTCTTCAACTAATTGACATGTAAGCTTTTTATTTAATGAAATTATTTTTGCTAATTCATTTGTAAAAACATGCATATCATTTGGTAATTTTTCAATAAATAATTCCAAAGCTTCATTTTCATACTCAATTTTGTTGTTTTCAAGTTTTTTGACTAAAATATCTTTTTTTTGCTCTGAATTTGGCTCATCTAATTTTAAAAGTTTACATTTTTCTTCAACTAATTTAGTAATTTTTAATCTTTTTGAAAATTTATCTGAGTTTAAAGTCATAATTATTTGAACTTCTTTATTTGTTGAATTTAAAATTTGCTCTATAAATTTTAAATCATATGTTTTGTTCATTTTAATTTTATTTTCAGTAACAAATCAGCATTCATTTATAATTATTATTTTTTTTGTTGAAAATATTGAATAAGTATTTATTTCTTCTAAAATAGAAGAAATTGGATCATCAATTAATGAATATTCAAAAATTTCATATTCTTTATCCACATTAATTTTTTGAGTTAATTTCTCTATTTGTCTTTTTATTAAAAAGTTGTCATTTGAGTATATAAAGAACATTTTTATCACCTTTATAATATAATTTAACATTAAAAATAAAGAAAAAATATAATTTATTTTGAATTACCTATTTTTTTACTATATACTCTATATGTATATAAAATATCTTGTTCAAAGGGGTGAATTGAAAATGGCAAATATTAAATCACAAGAAAAACGTATTTTAACTAATGAAAAATCACGTTTAGCAAACAAGGCTTTCAGAAGTTCAGTTAAAACTGCAATTAAAAAAGCTTTAGCTGCAAAAGCAGAAGAGTCAAAAGAAAAAGATGCTTTAATTAATGAAGCAGTAAGTTTATTAGACAAATCAGTAACTAAAGGAATCTTTAAAGCAAATAAAGCTGCAAGAGAAAAATCAAGATTAATGAAATAATTAATTAAACAAATAATAAAAAAAGCTCTTATTTTGATAAGAGCTTTTTATATTTTAAATGTTTCTCCATTTTTAATCTTATATTTATAACTTGTAGTGCCATTTGTCACATAAGTTTGGCATTTATATTTGTTTAGTGTTTCAATTGTTTCTTTATTTGGAAAATTTAAAGTCTTAGATTTATGCCCAGATATATAACAAGTTTTTGGTTTAATAATTTCAATAAACTTTTCAGAAGTACTAGTTTTGCTTCCATGATGACCAACTTGCAAAAAGTCAATTCCCCCTTTTATTTTAGTTAAAAATACTTCATTTTTAACTAAACGATATTCTCTTTTCTTTGTTGCATCTCCTGTAAAAAGAATTTTCTTGTTTGCAATTTCAAGAAGAGATATTTGCGAATTGTTATTTTCATCATTATTATTTAATTCTATAAAATTTGTAATTTTTAAGTCTTGAAAGATATAGTTAGTTTTTAAATTATAATTAAAAAATATATTCTTTACTTTATAACTATTTTTTACACTCTCAAGTTGATCATAGTGATCTTTATGATTATGACTTATAAATACAGCTTCAATTTTTCTTATTCCTTTATAAATTAAAAACTGCTCTAAACTATTTTTATTAAATCCACTTCCTTTTCCAGCATCAAATAAAATAGTTCTGTTTTTATATTGAAATAAAAAGCTATTGCCATTACCTACATTTAACATTGTAATACTTGGACTAATTTGTGAAAACTGATTTAATTCAAATATTAAAAATATATTTAAGCTAAATAAAGAGATGAAAACTAACTTTAGTATTTTTTTACTGAATTTAAAATGACTAATCAATATAAACAAAGTAAAGTAAGCAATTAAAAATAGAAAACTAAAGCTTCCACAAATTGTTGTTAAATTAATATAGGTCAAAGATTTAGAAAAGAAGTATAGTAACTGATAAATTAAATTAAGAACTGTTTTTAAAAATGGAATCATAAAGAATAAAGAACTTGTAAAACTAAAAGTTATTATTGGAATTAAAAGTACTTTAAAAATTGAACTAAATCAGAAATATTTGTAATAATAGAATATTTGAACAGGTGCAAAAACTACATTTATGATTAAAAAATTATAGAAAATATTTGTTATTGGTTTTTTATCAGTATATTTTTTTATAAATAAAAAAGCAATAAGAGTAAAAATAAAACCAATATTAAAAATGAATAAAGGATTTATAAATAAACATGCAATTCAAAGTATTGATAATTTGGTAACTCTAGAGAATTTAAATTTTCAATTTAATTCAATTCAATTAATAATAAGTAAAATAGCAGATTTCAATATAAATAATTTGAAATTTAAAAGATAGCTGTAATAAAAAAGTAAGATAATTAGCACTATTTTATATTTTTTATATATTTGACATCTATCAAATAATTTTTTATTTAAAAAGTTAGATATTATATAAATATTTAATCCACTTAAATTAATTAAGTAACCCAAAGAATAGGAATTTAAGTTATTGTAAATTGGATCATCAGTTTTTTGTTGAAAAAGCAATAATTTGGAAAGATTATTAGACGAGTTTATTATTTTGAATAAAAAATATTGGATAGAATAAAAATTTAATTTCCTAATTGAACTGTCAATTATTTTATATTTAACATTTCTATTTAATAAATAAGAATTAAAGTCCAACTCTCAAAAATTACCATTAACATTGATGTTTTCTAGATTACCTGTTAAAGATATATACTCCCCTACTGATACATTAACCTCCCCTACCTTCAAATAATAGAGAGTATTCAATTGGTTTATTAAAATATAATTTTCTTTTACCTCAATTACTTTATAAAAATTAAATTTTAAAATTTTATTAATATCAAATTTATAAAATAAAAGAAATCAAACTAAAAATAAAATAGTAAATATTAAAAAAGGATAAGATTTTTTAATATTAAAGCTAAATATTAACAATACTAATATATAAAAAATAGTGCATATATAAATATTGCTTATACTTTTAGTTAAAGCAATACATATAACTAATAAAAAAGTTAAAAAGAACCAATTTACTTTAGTAGATCAATTTAGGTAATGCTTTTTTATAAAACTCAGCATTAAAAGTACCTTTATAAATTTCTTGCAGTTTAGTCATGCACTCTTCAAAAGAATTTTTAGTATCTAAAAATATATCAACACTTTTTTCTGCTAATGTTTCACTTATACTTCTAGATGTAAAAAATTCTTTTTTAACTTCAAATCTGCTAATTCTTAAAACTTCAATAGTATCTTTTGGATAAAACAAAATAGTATTATTCTTTTTTAAATTTTTATTATTTTCTATTTCAAACAAGTTTTCCAAATAAGTTAATTTATTTTCTTTTAAGAAATCTTTTGTTTTATTTGTATTGTTATTATTTTTTAATTTTACAGGCAAAATTTCTTTATCTAATAAAGTAATATCAAATTTTACTTTGAAGTAGACATAATTATCATAAGTGGTTTTATGAATTGAATTACTTTCAAAACTAGTATTCGCTATAAAAAATAAACTTGCTCCTATTAATAAAGAAAATATCAATATTGCAAGATAACGAAGTTTTTTCATATATCACCCCAATTAAATTTATCGACAAAAAAATAAAAGTTATAAGTTTTATTTTTTTAATTCATTAAGTTTTTCTAACAGTAGAATATATTGTTTTTTATAATCTTCATATTTTCTTTTTTCGTCTTCAACTTTTTCTGGAGCAGCTCTTTTAATAAAATTCTCATTTGAAAGCATTTTCTCACTTCTTTCAATTTCTTTTAAAAGTTCATTTACTTTTTCTTGAGTTTCTAATAAGACTTTTTCTTTATCAAAAAAATCTTTATTTGGAATATCTAAGAAATAATCCTTAACTGGAAGTGAAGTAAATTCTTGTTCATTAATTTCATTTATTTGTAAACTACAATTAACTATTTTTTCAATAAATAATTTAATGTATTCTATTTCATTATTTAATATTTCTTTAAATGATGATTTAGAGATATTTAAATAAACATTTAAATTAATTGAATTTTTAATATTTTGATTTGCTCTAAACTCTCTTAAAGTTGTTATGATATCAAAAATATGTTTAATTGATTCAACTTCATTATTAAATTCTTTTTCTAATCATCTTTCTTTTAAAATAGATGATTCTAGATCAAATGATTGATAAATTTCTTCTGTCACAAAAGGCATAAAGGGATGAAGCATTATTAAAATATTTTTTAATACAAATCCTAGAGTTAATTTACTAAATTCTTTTTGTTCATTATTTAATAAATCATTTTCACCTATTTGTGCTTTTGCAAGTTCAATATATCAAGAGCAATAATCATCTCATATAAAGTTATACAAAACTTTACCTGCTATAGTAAATTCATATTTATCAATTGCTTCTTTTACTTGTATTTGAGTTTCACTTAATTTATTTAAAATTCACAAATCAATTTGATTTCTTGACAAATCAGGTTTTTTAAAGTTATTTTCAAATTCCTCATTTGTTGGAATTTTGTCGATATTCATCATAACAAATCTTGAAGCATTTCAAATTTTATTAATAAAATTTCAAGTACTTGTCAATTTCTCTTCACTGTATCTTAAATCCTGTCCTGGAGATGAATTTGTCAATAAGAAGTAACGCAATGAATCAGCTCCATATTTTTCAATTACATCCATTGGATCAACACCATTGCCAAGAGATTTTGACATTTTTGCTCCTTCTGAATCACGAACAAGTCCATGAATTAAAACATCTTTAAATGGTTTTGATTTTGTAAATTCCAAGCTTTGGAAAACCATTCTAGCTACTCAAAAGAAAATAATGTCATAACCTGTCACCATTGTTGAAACAGGAAAATATCTTTTCATCATTTCTGACTCTTTTTTTTCATTTCAATCCATTGTTGCAAATGGTCAAAAAGCACTTGAAAATCAAGTATCTAAAACATCTGAATCTCTTGTTCAATTGCTTTCATCTTTTGGTGGATTAACTCCTACATAAACTTCTTTTGTTTGATTGTGATATCAAGCAGGTATTTGATGTCCTCATCATAATTGACGTGAAATTGTTCAATCATAAGTATTTTGCATTCATTTATTTAATGTTTCATTAAATCTATTAGGATAAAAGTTAATTGCTTCTTTTGAATTTTGTAATTCTAATACTTGATTTGCTAAATAATCCATTTTAACAAACCATTGATCTGAGATAAAAGGTTCAACAATAACATTACTTCTTTCAGAATAGCCAACTTGATGAGTTATTTCTTCTTTTTTGATGAATGTACCTTCTTTTGTTAATTTTTCAACAATTTTTTCTCTTGCAACAAATCTATCTAAACCATTAAATTCTAATGCTTTTTCATTCATTGTTGCATCATCGTTCATAACAACAATTTGTTCTAAATTATGTTTTAAACCAAGTTCAAAATCATTGATATCATGAGCTGGAGTGCATTTCATAATTCCTGTTCCAAAGTCAATTTCTACATATTCATCCCCTATAACAGGTATTAGAGCTTGATTTGAGGGGTTTATAACAGTTTTTCCAATATACTTGCTATATCTTTCATCTTTTGGATTAACAACCAAACAAACGTCTCCAAACATAGTTTCTGGACGTGTTGTTGCAACTTGTAAAAATTGTGATTTATTATCATTTAAAATATATTTAAAATGATACATTGCCCCTTTTGTTTCTTTATAAATAACTTCAATATTTGAAATAGCTGTTTTTTGCTTTGGATCTCAATTTATAATTCTTTTACCTTTATAAATTAATCCCTTTTCATACATGTTAACAAAAACATAATTAACAATTTCATTTAATTGATCTGAGTATGTAAATTTTTCTTTTGAATAATCTAAACTAAGTCCTAGTTTTGCTCATTGACTTCTAATAGTTTTGGCATACTCTTCTTTTCATTCTCAAACTTTTTCAATAAACTTTTCTCTACCTAAATCATGTCTTGAAATACCTTGTTCTCTTAAACGTTGCTCAACTTTAACTTGAGTTGCAATTCCAGCATGATCCATTCCTGGAATTCAAACAGTATCAAAACCATTTAATTTCTTAAATCTAATTAATATATCTTGTAAAGCTCCATCTCAAGCATGTCCTAAATGTAATTTACCTGTAACATTTGGAGGAGGAATTACTATTGAATATGGTTGCTTTTTTTTGTCAAATTCAGCTTTAAATAATTCTTGATCTAATCAAAATTCATATTTGTCTTTTTCAACTTCTAAATGATTATATTTTTTTTCTAATTCTTTCATTTTTTTGCTCCCTTTTAAATAAAAAAATTCCTATTTTTTAATGAATTAAAAAATAGGAACGAATTGTTTAACAATACGCGGTACCATCCTAATTGACTTTAAAATAAAGTCCACTCAGTATCTTAAATTTTTTACTTATACAACCTTCAACAGTGATAAATTCTAGTTCACACCAAACACTAGATCTCTGAAAAATATCTGCTGTTTACTCCTTATAAGCTATTTACTAAATTATTATATCAAATCAAACAAAAAAAATAGCATTTTTATGCTATTTTAATCTTAAAGGTTCCGACATCCTTAAGATATATTATTTTCTATTTTTTGCAAGTTTTTTAAAGTATCTACACTTGTTTTTAACTAAGTAAATTATTATATTCCCAAGTTAAAGTTTGGAGGTGTAGTTGACTTCTTAACTTCATTTAAGAAATCTGAGTACTTTTTATTTAAAACTGTATATAAAATCGAGTCTCTTTCATTTTGCATTGTTTTTGTTTTATTTTCTTTTTCTTGAACCATTTGAATAAAGTTTTCTTCCATTATATCTTTATTTTCCATATTTAAACTAGTTGAAAGTCTATTGAATTGTTTATTAATTTTTTTAAAATAATTATTCATTGATATTTTATAAATAGCATAAATAATAACCATTAAAAATGATGAGAAAATCATTCCAATTATAAATAATGAAAATACAAATGATATTTTTCGATTATTATTTAATAATTTTTCAAAAAATAAAGTTATAAAAGATTTTGATACTTCTTCAGCAAATTCAGTTATACCAGGATAAATTGCTGCTCCATCATAATAATAAATATTATCATTATATTCAACTGAAATTTTATTATTTAAATTTAAACCTTGAAAAATTGCTAGTAATAAAAATGGTGTTATAGATAAAGTTGTTTTTCAAAAAGCTTTTAAATTCTTTCTTCTTAAAGCTCATTTTAAAGAAACAACGTTATTTTTATTGATATCTATAGTTGTTATAAACTCTGTATATCCCTTGATATACTTTGTCAAAATTACTACAACTCCTATCATACCAATTAATAATTTAATTGTAATTAAAATAACTGAATTGTAAAATTTTGAATTTATAAAATTAATTGATGGAAGTATGAAAAAAATTGCAAATAATAGAAAAATTGCACTATAAATTATTCAATTTGTTCAATCTTTTTTCATAACCCTTAGTTTCATTTTTTTATCCTCGTTATCTATATTATAAAACAATAAAAATATTTTGCAAACTTTTTATATTATTGTTCCAAATTAATTAGAGACTTTTTTGCAAAATTCTTATTATTTATGCTTTTTAATGATATTTCCTTTTTTTTTTTTTTTTTCAAAAAAAAAAAAAAAAGACAATAATTAATATCAATTATTGTCCCTTTAAACTTGTTGATTTAGTGCAAAATTGCACTTATTTTTATTATTTAAGAATTTTTTATATAAATTATTAAAAATAGTCTTTTTAAAATCTATATAAATTTTTTTATGGATTCTTTACTACATTTAAGTAGTTATTTATGAAATAATTACATGATAAAATACTTTTTAAAGAGTATTTTATATTTATTTGCTATTCACTGATATAGTTTAATTTCTATAAAATTAGACAGTATTTATTGTTCTACAATAATATTAATTGTAAAAACTTAAGTGTTTATTTTATTTTCCACTAATTTTTAAAGTATATTTTTTAACTTTTGAAATTAAAGAATATACTATAATTATTATTTTCTTACTTTAAATTGTTGCTGTTAACTTCATCTGCAACTTGATCTTTAATAGTAGAAATTTATTAGATCATTTGATGAGTAACATTGGTTCCTCCATTTAAATTAGGAGTAATTTCAACTTATTTATTGTTCAAAATTATATCAGCTTTTTTAAGCTGTTTTTGCTTTAACATTAACTGTAAATGCTTTATCATTTATATTTGTTCCTTTAATTGTTAAATTGTAATTTTGAACAGTGGCATCTTGAGATACTGTAACTGTAATTTTTTTATTACTAATTGTTGTTGTTACTTTATTTGCTACTTGACCTTCAATAGTCATACCTGTTAAATCATTTGTTGAAGTAATATTAACTTCACCTGTTTGACCTTGAGTAATTTCAACTGTGTTTTTATCTAAAGTTACATCAGTTTTTCCAACTGTCTTTTCTTTAACTTTAACTGTAAATTCTTTTTCATTTATATTAGTTCCACTAATTATTAAAGTATAGTCTTTAATTTCAGCAGTTTCAGATACTGTAATTGTTATTTTTTTAGTCTCGATTTTTGCTGTTACTTTATCTGCAACTTGACCCTTAATAATCACATATGTTAGATCATTTGTTGAAGTAATATTAACTTCACCTGTTTGACCTTGAATAATTTCAACTGAATCTTTATCTAAAGTTACATCTTTTTGTACAGATCCTTTTTCTTTAACTTTAACTGTAAATGCTTTATCATGTATTTTAGTTCCAGTAATTTCTAAAATATAATCTTTAACTTCTGCAGTTTCAGAAACTTTAATTGTTATTTTTTTACCTTCAATTTCTGTTGTTACTTTGTTTTCAACTTGACCTGTAATTTTAATACCTGTCAAATCGCTATCTGATGTAATTAATATTTCACCAGTTGAACCTTGTTCAATATCTATTGAACTTTTATTCAAAGATATATTTGAACGATTTTCTTGTCCACATGCAACAACTGTTGCACTTGTAGTTGCAACTAATCCTGTAGCTGCTAGTAAACTCAATAATTTCTTCATTTTTCTCCTTTTAAGTATTCTTTAAAAGCGCAAATAAGTGAACTCTTTTTGTTGAAAAACTCATTATTATTTTAAGTATATTTTCCATAAAACTTTTATTTTTATAAATAAAAAAACTAGTTTTATAACTAGTTATATAAATAATATTTAATTTTAATTTTATTTTTAAAAACAATTTATAAAATATATTTTTAAATATTGAAAAAATCTAAGAATATATGATCATATATTCTTTCAATTCAAAATAAATTTCTAACTTTACCTTTTGAGAATTCTAACATTGAACTTTCCTCTAATAAATCATAATAGTTTTCTCAATTTTTTTTATATACTTCCAATATTTTTTCATTTACTTTTTTAATTTGTGATATTTCTGAATCACTTAAATCTTTTTTATTTGTGAATATAAACAATCCATTTTTAGAAGTTAAATCGTTTTTTGAAAAACTTACATTTAAATAGTGATCTGAAAATTTTGCATCTTCAAATAAAGATTGATTTGAAAAATATTGTGTTTTAATTAAATTTTTATAATTTGATTCTATTTCTACATTAGATTGTGCTAATTTTTGAAAAGAATTTAAAAATGAAGGTATTAATAAAACATTTAACATTGAAGTAACTAAGGCATTCATTACTGGTGTATTAGATAAAGAACTATTTAATTCATAGTTAATAAAAATAACTGTAGTAAAATTTACACAAATTATATAAATTCAAAATCAAATTGGTATAAATTCAATAGCTCTTTTTGCTCTAAATTTATGATTTTGTAATTTTATTGTGTAATCAAAAACATCAATACATCTAAAAAATTTATTTTTTGCAAACCAGTTTGTATAAGTAAATTTTAAGAGTAAATAAATACTTCCCCCAATAATTATATATGATATAGAATTTATTTGATTTTTTAATACTAGATTTAAGATAAATAATATAAAAGTTGCACCAAAAATAATTTGATCAATTAAGAACATAGTTAAAACAAAATAATTAGTCTTAAAAAAAGTACTTATTATTTTATTGTGTTTTTTAAGTAAACTACCACTATTTTGTTTGTTCTGATTTTTTTTCTTCATTTTTTCTTTCTCCTTTATTTCTCATATTATTTGTTTTTTGTCCAATAAATAAATAAAGACTTCCTAAACCTATAATAATTCCAATTATTGTTATTATTGCAATAAAGAATCATGCTAAACCATTATTTATAAAACTTTCATTTCTTAAACCTAGAACGTTTTTATTATGTATTTCTAAGAAAAAATACGGATAGGCTTTATGTTTTCCAGCTAATGCTGCATTTGATCCATAACTTCTATAAATTAATTCTCCACGAATTAAAATATAAACTAAATAAGCAAATGGATAAATTGCTATTCTTCAAAAATCTTTTTTAATAAATTTTTTAAAGTTAAATTCTATATCTTGTTTCATAAAAAATAAAAAGTAGATAATTGCAGCAATTGGTCCTAATGTGTGAACTATTATTTGCTCTACTCATAAAATTGCTTTAAAATTATTATTTGATGATGCTAATACTTTTGGCAATAGCATAAAGTTAAAAATCATAGCAGTAACTGTTATATAAGTTATGACACTTAAAGAAAATGTTTTTTGCAAGATTTTTATTTGCCCCTCTTTATTATGATTAAAAAAACCAACTAATAGTCATACAACAATTAATATATTTGATTGAATAGTAAAGTAACTAAAACGGTTGATTACATAACCAAAATAATCATAGCCAATTACATTTCCATCTTTTGATCATATAGTTCAAATACTTGGTTGATTTTTAGAAGTTTGACTACTTATATTAAGTAAACCTCTTATAAGCATTTCAACTATAAAAGTCAAAATTAATAATGCAACTACTAACTTATATCAAAGTTTTCAATCTTTTAAATTTTGCTTTGTAATAAACATTATTTTTTCCCCTTTTTCTATAAAAAAATTATAGACCTTTTTAGTCTATAATTCATTATTTTCTATTTGCTTTTTATGTTCAATATCAGAAAGTTTATCAATTTTAGATGAAAATACAAAATAAAATAATCCTCAATCAAGAGCTGATTTCTTTTGTACCTTTTGCAATTCTTTTCAATTCTTGTTAGCTTTTAAAAAGATAAAACCTCCAATCATAGAAAAAAGTGCAAAGATTGCAATAACACCTGTTACAACAGCAAGGCCTAATCATAATCATGACATTTGTATTTTTAAAGTATGTATTACAAGTAAAGTTACAAAAATGCTAGTTAAAACTAATGAGATAATAAATAAAATCATTGAAGAAACAGCTACTTTAAATATGCCCTGTTTTAACTTTTCAGTTTTTTTGTTCATATTTTTCTCCTATTTTTATTAATAGTATTATTATAAACTAATTATTTTAATTAAAGAAAATAATTTATACTAGGTTTTTTGAAAAAAATGAAATTTTTTTCAAAAAAGAGCAAATTATTATTTTTTAATAAATATAGTAGTTTATTAAAAAATAATAAAAAGTACTGTAATATAATATTAATTATATTTTTTATTAACTTTTATAAAATATCTTTTTTGTTTATAATCTATGATTTTTGGGACTATAAAAAACATAAGTAATCCAAATAGTGTTGAAAACTCAACATCAGTTCACCAATGTGTCATTGCAATAACTAAAGAAAATTTCATATTAAATAAAATTAATGAAAATCAAATTCAGATAATTGAAATTTTTTTATTTGTTAATTTTCTATTTTTTTTATTATTTATAAATAAAAACATAATTGAAATAACACAAAATGATGATATTGTATGTCCAGATGGAAAATCTTGATTAATTCACCCATTTGTTTGATTTAAATGTGCTGTACTACTAAATCAATATTTTAAATTTTTTCAAAAATCATTTATTTCTCATCAATTTTTATATTGAACATTTTCAGTTCCATCAATTCCAGCACCTCAAAAATATTTGCTACTATCATAATTTCAATTTTCTGGAAGATAACTATTTAAAATATCATTAAAAATAACTGAATAATAATAAGGTCTTCCAAACAATGGTTTAAAAATTAAAATCATAAAGTAACATAAAAAAATAAAAAGAATACCTTTAATAGAATCAATTCAATACTCTTGAATAAAAATGTCTTTTCTTTTAGAAAATTTAAATCTTATATAATATGCAGATAATAAAATAATTAAAGTAGTAAAAAAAATTACAATAATTGAAATATTAATTCTGTATTTCATTGGTAAAAGTAGTAACGCATCATTATTTATCCCAAAACCTTCGTCTTTTTTATATAAATTATTTACAAAAGTAAAACAAAAATAAGATCATAATATTAAAAACAAAAAATAAAAAAGGAATAGAATTAAATAATATTCTTTTTTTCTTTTTATTTTTATAAAAAGAAAAAAAGTTTCTATTAATATTGCTAAAAAAATAAATAGTACTGGAAAAAATTGAAAATTCCCAAATACATCAAAAAAAATTATTCAAATTTTTATACTAAAAAAATGAAATCCTTTAGAAAGAAATTCTTCAATTTCAAAATCATAAATGCTACCTAAAATAAAACTAATAAAACTCAAAACAAAAAACACTGTTCCAGGAATAAAAATAAATTTAAATTCTTTAGTTTTCATAATTAATTTCCTTTCATTTATCTAAAAAATACCTTTTAAGGTGAAAAATTCGGTTTAATAAAGGCTTTAATTTTTTTTGAAATCTTTTTATAACTTCTGTTAAATTATTTGCTAATGTAATGCTAATTTCACTAAGTTTTCCTTGAAAACTTCAATTAATTACTTATTCAAAGTTACATTTATCTTTTTTGTTTCCTATCTGCATAAAATAAATGCTGCACTTGTAGTTACAATAAATTTATTTTTTATTCATTGTACTTTCTTAAGTAATTTTTAAAAAAATTAAAAATGAACAATTTTTTTAAAAATTTATAGTCATTATATATAAAAAAAAAAAAAAAAAGTCAAGAGTTTTTTTATTATTTTTTGTGAATAGTTCTAAAGAAATTTTTATAAAATTGTTACCTATATAAATAAAATAAAAAAACTACGTAAGAGTCTAGTTATATAAAGATAAAATTCAATTTTAAATATAATTTATAATATACTTCTATTAAATATTAAAAAAATCTAAGAATATATGATCATATATTCTTTCAATTCAAAATAAATTTCTAATACTTCCTTTTGAAAATTCTAGCACTGAACTTGAATCTAATAAGTCATAGTAGTTTTCTCAATTTTTTTTATATATTTGTAATATTTTTTCATTTACCTTTTTAATTTCCAATATTTCAGATTCATTTAAATCTTTTTTATTTGTAAATATAAACAATCCATTTTTAGAAGTTAGATCATTTTTTGAGAATTTTACATTTAAATAGTAATCTGAGAATTTTGCATCTTCAAATAAAGATTGATTTGAAAAATATTGTGTTTTAATTAAATTTTTATAGTTTGATTCTATTTCTACATTAGATTGTGCTAATTTCTGAAAAGAATTTAAAAATGAAGGGATTAAAAGAACATTTAACATTGAAGTAACTATAGCTTTCATTATAGGCGTATTAGATAAAACATTATTTAATTCATAGTTAATAAAAATAACAGTAGTAAAATTTACACAAATTATATAAATTCAGAATCAAATTGGTATAAATTCAATAGCTCTTTTAGCTCTAAAATTATTATTTTCTAATTTTATTGTGTAATCAAAGACATCAATACATTTAAAAAACTTATTCTTTGCAAATCAGTTTGTATAGGTAAATTTTAAAAGCAAATAAATGCTGCCCCCAACAATTGAGTATGAAATTCAATTTATTTGACTTTTTAATACTAAGTTTAAAATGAATAAAACAAGAGTTGTTCCAAAAATAGTTTGATCAATTAAAAATGTGATTAAACCAAAATAGTTAGTCCTAAAAAACTTACTTATTATTTTATTGTGTTTTTTAAGAAGATTGCCACTATTTTGCTTGTTATGATTTTTTTTCATTGTTTTTATTTTTTCAACTTTCTCTTATATTACTTGTTTTTGAACCAATAAATAAGTAAAGACTTCCTAAGCCTATAATAATTCCAACAATTGTTATTATGGCAATAAACAATCATGTTAAACCATTATTCATAAAACTTTCATTTCCTAAACCTAGAGCATTTTTATTATGTATTTCTAAGAAAAAATATGGATAAGCTTGATGCTTATGTGCTAAACTTGCATCTGATCCATAACTTCTATAAATTAGCTCTCCACGACTTAAAGTATAAACTAAATAAGCAACTGGATAGATTGCTATTATTCAAAAATCTTTTTTAATAAATTTTTTAAAGTTAAATTCTAAATTTTGTTTCATAAAAAATAAGAAATAAACAACTGCAGCAATTGGGCCAAATGTATGAACTATCATTTGTTCTACTCATCAAAGTGCTCCAAAATTATTGTCTCCTGATGCCAATACTTGTGGCAATAACATAAAGTTAAAAATCATTGCAGTAATTGTTATATAAGTTATAACACTTAGAGAAAATGATTTTTGCAATATTTTTATTTCTCCCTCTTTATTGTGATTGAAAAAACCAACCAATAATCATACAACTATTAATATATTCGATTGAATAGTAAAGAAACTAAAAAAATTAATTACATAACCATAATAATCATATCCAATAATCTTTCCAGCTTCATCTTTTGATCATATAGTTCAAATACTTGGTTGATTTTTAGAAGAATCATTACCTATATTAACTAGACCTTTTATAAGCATTTCAAATATAAAAGTTAAAATTAATAAAGCTACTATTAACTTATATCATAATCTTCAATCTTTTAAGTTGTTCTTTGTAATAAACATTTTTATCTCCCTTTTTCTATAAAAAAATTATAAACTAAAAAAGTCTATAATTTTTTATTTTAATTTGATTTTCATGTTCAATATCAGAAAGTTTATTAATTTTGCTGCAAATACAAAATAAAATAATTTTCAATCAAGAGCTGATTTTTTTCTAACTTTTTGCATTTCTTTTCAATTCTTGTTAGCTTTTAAAAAGATAAAACCCTGAATCATAGAAAAAAGTACAAAGACTGCAATAACACCTGTTACAACAGCAAGACCTAACCATAATCATGACATTTGTATTTTTAAAGTATGTATTATAAGTAATCTTACAAAAATACTAGTTAAAACTAATGAAATAATAAATAAAATCATTGAAGAAACAGTTACTTTAAATATGCCTGTTTTAACTTTTCAGTTTTATTGTTCTTATTTTTTGTCCCATTTTAATTAAAACTAATATTTTATACAAAGTTTTTTAAAAAATATTAAAATTTTTGTTTAAATATAATTTACTTTATACAATTAAATAAGCATTTTTATTATTAAAAACAAAACTTATATTGTTTTATTTTGATATAGTTTTCAACTAATTATTTGTTTATTTTTCCAGCTTCATATAAATTTTTAAAATGTCCTGGTTTTTTAATTAATTCATTAAATGTTCCCTCTTGAACAATCCCTCCACCATTTGCACCAAGTACAATAATATGATCAACGTTTTTAATGGTTGAAAGTTTATGAGCAATAGTAACACTTGTTCTACCTTTCATTAATTGATTCAATTTTGATTGAATTTCTTTTTCAACAATATTGTCCAAAGCACTTGTTGCTTCATCAAGAATTAACAATTCTGGATCTTTTAAAAACATTCTTGCTATAATTAAACGTTGTTTTTGCCCTCCAGATAGCATAAATCCACGTTCTCCTAAAATTGTTTTATAACCTTCAGGTCAACTCATTACTAATGCATGCAATTCTGCTTTTTTACATGCCTCAATTGCATCATCATCAGTTGCATCAAAACACCCATATTTAATATTATCTAAAACAGTTCCAAATAAAATTTGAGGCTCTTGTTCAACATATCCAACATGATTTAAATATGTAGATAAATTAAGCTCTTTTAAATCTTCTTTATTATTAATCAAAATTTGTCCTTCTGTTGGATCATAGAAACGAAGTAAAAGTTTAGCAATTGTTGATTTTCCACTTCCAGTTTCTCCAACAAAAGCATATGATTTACCATATTGTAGTGTAAAGTTAAAGTTTGGTAAAATTAAATTTTCTGGTTTTTCAGGGTATCTAAAATTAATATTTTTAAAAACAATATCACCTTTTAAATCCTTAATTTCAATTCCTTCATGATAGTGGAAATCTAAAATAGATTCTGCATTTAAAGTTCTCAAAATCCTAGCTGATGAAACTCCTGCCATAGCAGCTCCTCCTGAAATTACAAATAATGTAATAATAGGTCCTGTTAACATTCCTTGTGCCATTACAAATGAAGGAAACAATTGAAAGAAAGCTTCCATTTTACTAGTGTCTGCACTTCCTCCAAAAAAGACTGCAGCAAACATTGGAGCTGTAAATAATAATAAGAAATCTCCTGCAAAAACAATCATTGAAAAAATACTTAATCATTTTCCAATTGGCTTAGCTTGTTTATAATAATCTATATGTTTTTCTTTAAAATGCTCTGTTTCATAATCTTCTGTTCCAGTTGATTTAATCAATCTAATAGAAATAACTCTATCAATTACATTACCATTAGTTTTTTCCATTGTTAATCTTACTTTTTCATATTTTGCCACTAAAACTGCATAACTTACAAAGAATGAAATTAAAATAAACATAAAAATAACAAAACCAACTAAAGCAATTCTTCATTCAAGTATAAAAGTTAATGATAAACCAATTATAGCTTGAGAAAATGCACTTGCAACGTTCATTGGAATATCAACAGCTTGATTTCCAACAATTTGTGAATCAGAAATTACATTAGTTAATAGTTCTCCTATTTTTTTATCTGAATAATATGAAATATCTTGTCTTACTAGTTTTTCAAGAATTTCATTTCTCAATTTAGTTTCAATTTGTTTTGCAAATGTATTTGATCATCAATTAAATAAAAACGAGTTAATTAAATTCAAAAATAAAAGTACGACTGAAATAATTATTAATTGAATTGTTGAAAGTCCTCAATAATCAAGTAATCAAAAACCATGATTTACAGTTTGATGTGTTAAAGATAAATTAATTTGATTAGTTAATAAAGGAGCTAAAAATAACATGAAAGCTCAAAATAGAAAATTAGGAATTATTCATCAATTTTTTTTGAAATCTTGTTTGTAGTATTTAAAAAATAAAAACAAAAAAGCTCTATTATTTGATATTTCTTTTTTCTTTTTCATAAATTTCTTCTCCTTACTAATTGTTTTGTTCTAATAGTCCAGCTTCATATAAGTTTTTAAAATGACCTTCAACTTTGATTAAGTCAGCAAAAGTTCCTTGTTGTACTATTCCTTGTGCATTTCCCCCAAGCACAATAATGTGATCAACATTTTTAATTGTTGAAAGTCTATGAGCAATAGTAAAACTTGTTCTACCTCTCATTAATTCATTTAATTTACTTTGGATTTCTTTTTCAACAATATTGTCCAAAGCACTTGTTGCTTCATCTAAAATTAAAACCTCAGGGTTTTTTAAAAACATTCTTGCAATAACAAGTCTTTGTTTTTGTCCCCCACTTAGCATAAATCCACGTTCTCCCAAAATAGTTTTATAACCTTCTGGTCATGATGAAATTAAATTGTGAATCTCTGCTTTTTTACATGCTTCAATAACTTCTTCATTTGTTGCTTCAAATCTTCCGTATTTGACATTTTCAAATACATCACCAAACAGAATTTGAGGTTCTTGTTCAACATAACCAATATGTTTTAAATAACTTGCTAGATTCAAATCTTTTAAATCTTGATTTTTATTAATTATAATTTGTCCATTACTTGGATCATAGAATCGCAATAATAAACGTGCGATTGTTGATTTTCCACTACCAGTTTCTCCAACAAATGCATATGATTTACCTTCTTCAAAAGTAAAATTAAATTTAGGCAATATTAATTTTTCTGGTTTTTCAGGGTATCTAAATTCAATATCTTTAAATACAATATTTCCTCTAATATTGTCAACTACAATTCCACTATTGTAATGTGGATCTAACCTTGTTTCTGCATTTAAAAGTTCAGAAACATGAGTACTGGCAACTCCAGACATAGCTAAAGAGAATGTAATTCCCATTAAACTATTAAATGTTGATATTAAACTTGCTTGATTAATCATATAAGCAGGAAATGTAATTGCAAAAAATAATGTAGCTGCTTGAGGATCACCTTTAATTGAATAAATAATACCTGCAATAATTGGAATAGCAAATTGCAAAATCATTGATCCAGCATAAACTGTTGTTATTAAAAAAGATAAATTTAAGATAGCAGGTTTATGAGCTTTATAGTTTATTTGTTGTTGTTCTTCAAAATAAGCTTTCTCATAATCTTCTGTTCCTGATGATTTAATTAATCTAATAGTTGCAACTCTATCAGTTACATTACCATTTACTTCTTCGTAAATATCTCTAACTACTTCATATTTTTTAACTGTTTTTGAATAAAATACAAAATATAAAATTAATAGTGCAAAATAAATAATTGATCCAAAGATAGCAATTTGTCAAGATAAAATAAATGTCATTGTAAATGCAACAACAAATTGAGAGATTGCAATTCCCATGTTTGTTGGAATTCTAACAGCACCCTCACCTAAATTTTGTGTATCTGCAACAACACTTGTTAAAATTTCTCCTATTTTTTTATCTGAATAATATGAAATATCTTGTCTTACTAGTTTTTCAAGAATCTTATTTCTTAAATCAACTTCAATTTTTCTACCTAAAATTCAAGAAAAATAGTTAAATACATATGTTCCAATTGCATCAATTAAAATCATACAAACACCAATTATTATATTTGCTTTTGAACTTCACCCTCATCAAATAGCTTGTTCATTTTCACTAATTATATTATTTTCACTTTTAATAGATAATGTTATTTGTTGTGTCAACAGAGGAATTGAAGCTCTTGTTAAACAAAATGACAAAATTGTTATAGTCAAAATTAAAGTAATTCATCAATATTTTACATAATATCTTGAAATTATCTTAAAAAATTCCATACTTTTAGATTTGGTTTTTTTAGTTTTCATAAGTCCTCCTTAAGTGCAATATATTTATAATATCATTTTGTTTTAATAAGTATTAAGAATTATTTTATTATATTTTCCAAGTTATTTTTTTAGTTAAAAAAATAAAATAAAACTTTCTACTTTTGAAAAATTTAGAAAGTTTATTTTATATTTATAATTATACGATTTTTTTTAGTATTTTTTTATTTTTTTTAAATTTATCTTAAAAATAAAAAACAAAAGATATGTGTTTTATAACATATCTTTTTAAAAAAAATATATACTAATTAAGATATTTATTTTCTGTTTAATAATAGAGATATATTTTTTAGTATTTTTATTTTTATTTGTGAAATTTTGTGAAGTATTACTCACTAATTCAAAATTATTAATTTAATACTTTTTTATTAATTGGCAGAAATTGTTTTTCCTGATAAAAGAAATAGAGGATTCATTTCTAATAGAAAAACAACTATAAGAGTTTAAGGCCAATTACATAATTAATAATCATTGAATTAGTTTTATTATTTTTACATTAAATTTATAAGAATTTTTTTTACTAGTTGCACATTGAATTAAAATATACACTTACTATATTTTGACTGTTTATTATTATTTTTTAATCCTAAATCATCTTTAAAATTTTATTAGCATAATTAGCAATATTATTTAATGATACTAGAGATATTGATAATGGAGTTTAACCTAGTAAATTTATTCCAAGTAGTTTTAGTAAAAAGTTTATTATTTTTACCCTTTCTTTCAACAATCCCACCCTACCGACCAAAAATTAAATATTCATTTACTTACAAATTTATCTTATTTAAATCTCTAAAAAATTAGCATAAAAAAATAAAGAAAAGTCTTTATTTTTTGAAAGTTTTCTTTATTTTTATCATTTTTGTAGTCTTTTATATAATTTGTTAATTTTAAATTTTTAAATTAAGTTAATTTCTGAAATAAGTAATTTTGTATTGTTCTTGTTATAAGTTAACTTAATATTAAATACATATTCAACATTTCCATCTGTTACATTATATTGGAAATCATTTATTGAATTTTTCTTTGTTGTTACTTTTAAAGTTTTTAATAAATCACTAGCTTCTTTTTCAAATTGTTTTTCTAATTGATCACTGTTTTTTATTCAAGATTTAATTACTGAATTTGCTCCTCCAATAATTTCTTTAATATCTCCTAAAATTTTAAATAATTGTTCCAATACTGATCCTTGTTTTATAGTTCCATTACTGTTATATCCAAGAATTTCAAACATTTTATCTAAGTTATTTAAAGCTTTTTCAAGAGTGTTGTCTTTACTTAATCTTGCAACTAATTCTCCAAAATCACTGAAGTTAATTTTAGCATTTGTAGTTATATCAAAAGCAGTGTTAAATTCATTTACAATATCTTTAATTGATTTTTTATTTAAATAATCTAATAAACCTGCTCTTGATTGATTGAATTTATTATTTGATTTTGAAGATGCTCCTCCAAATAAACTTGAAAGATTAATTTCATTGATAGGTGTTGACATTAAATTTTTAATTGAGAAATTTAAAAGTTTATTTGAGTTATTTCATAAATATCCCATTCAATCTGCAGAAAATTTGTCACTATCATTATTTTTTACAATTTTTTCCATAAATTCTTTTATTGGACTTGGTAACATATCTGTCATTTGAGTTGCAGCCATTAAAAATATTGTAAATAAATCTCCACCATACTCTTCTGCTAAACCTCCATTAATAATTGATCTAATTAAAGCATTTATATATATTTTCATTTTTCCTATAAAAGGAGCATCAACTTCTATAAATTCTTTTCCCATTGCTTTTTGAGCAACTTTAGAAACTAATCCCATTAGTCCATCATTTTTATTATTTTCAAAATCTTTGTCTAAACTAAAACTATTTGAATTTGTAGCAAATAAAACTCCTATAAAGTTTTTAAATGAAACTCCTGTTTCATCTTTGTTAACCATAAAACTTAATTTTTTAAATAATTGTTTTAAGTCAATTGTGTTTGATTGAACTTTGGCAGTTCTTTTTGCTTCAATTTGTTCTAAAGTTAATACGTTTGAAGTCATTTCATCATAACTAAATTGTTCTATATAAATTAACAGTGTTCTTACAAATCTAATAATTTCAGCTATTGAATCAATATTTTCTATATAGTCAATATTTAATGATTTTTCTCCTAAAATTAATGATTTAATATTTGTTCCTAATTTTTCTTTTGCTGCTTCTTTATTAGAATCAACTTCACTTTGATTAGAATATTTTAATTTTTGAACGTTTTTTCCATTTAAAATTTTATCTAAAGCATTTGAAAGACCAATTACACTTGAATCAAGTGATGTTTGATAACTCATATCTTTGTAAATATCATTGCTAAATGCATTTTCAAGATATTTTAAATTTTCTTGGTTTATTACTTTTCCTAAAGTTTTTAGAATTTCAGGAGTAATTATTCCTGAAATAGCTCCTGGATCGTTTGCAACTAATCCTAACATATCTTTAAGTCCTTCTGGATTTGATAAAAAATCCAAAATTGTTGGTAACATACTTTTAATTTTTCCTAGGATACCTTCAGTGCTTTTACTTGGATCAACTACATAACCTTGATAAACGTTATCAGATAATTTTAAATTATCTGATAAAAGATTTGTATCAAAATATTTTTTAGCAACTGTATCATATTTAGTGTTACTTTCAACTTCTTCTGATTTATCAAAATCAGTTAAACCTAAAGTAGATAAATATTCATATTTAACTTTATTTTCCATTGTATATTGTGAACTAAAATGTGATTTACCATCAGATAAAGTTTTTTGATTTATATAAAGTGTTTTTGAATATTGAGACAATAACTTAGATATTGTATCTTGTTTGACATCATTTTCAGTTCCTTTATTTGTTGAATTCTTACCACATGCAACAACAACACTTGCAGTTGAAGTAGTCATTGTAAGAGCTCCCATTATGCTTAATAATTTTTTCATTTTATATTTCCTCTTTTCTTATTTTTTAATTCATTTTTTTTCAATTTCTTTAAAGATAAAATCTTTTGCGAATTCATGACCAACTTTTGTTGGATGAACAAAATCTATAAAAAAGAAATCATCTTCTTTACCTTTATTACCAGATTTAACTGTTGCTTTAACTTCTAAGTTATCAAATTCCACATCAGATAAATTTGGCATTGTTGAATCACACAATTCATCACTAATATTTTTTGATGAGTTTAAAGATTTAAACTCATTTAGCATTTCTTCAAATCTGCCATATAAATCAAAATGAAGAATTGAGTTATTATAATTTTTATTTGCATTAATAATCATTTTTGTAATCTCATAATTAAAATCATCTCCGATAAATTTAATTATGTCTTTATCTGATTGTGATTTTTTATTGTATTTTGGAATAAGTGTCATGTCTGGAGGTGAAAGAAAAATTATATTTCTAGCACCATTGTTTAATAATGTATATAATGCATTTTTAATATTTTCCAACGCACCTTGCATTATCTCTTCTCTTTTTTTAGAATCATTTACATTATCTAAAATAGCAAACATGTCATTTCCCCCTATCTCTACTAGAAATAAATCATCTGAATGAATTATTTGTTGTTCGATAAGTGCTTGAGCTTGTTTATAAATTCCAGTATTACCCATTAATAATGAAGCAAGTCCACCTTGTTCATAAGCAGTTGCTCCCCCAATTGAGTAATTTTTACCTCAAACTTTTTGATTATTGTGATCAATATCTGCTTTATGAATTAAGTTTGATGAGCCAAATTCTTTAGTTGAGAAATTTAGTTTATTGTTTATCAATGCTGCGGTAGTTGGCCCATTGCTAAAGCCACCTTTATATTCACCTGACATTTTAACATTCACATTTAACTCATCTTTAGCAATTGTAACTAGTCCACCTTGATCACTTAATGAGTCACCAAGTGTAAAAAAGTTTGAAAAACCCATGTGTTTATTTTTATCATCGCTTGTATCTTTTGCATTTCTTTTGTCAAATTGAGTTCCTATGTTTTTATCAAAATTAAAATTGATCTCATCAGATTGAGGAATACACGAGACAACAGCAGATGCAGTTGTTGTTATAAAACTGAGTGAAGCAATTATAGATAATAATTTTTTCATTATTTATTAGCTCCTTTCTTTCAATTTATAATTCATAAAGTTAAAAAAGTTAAAAATGTTGGAAGTATAACTATTAGAAAAATAAAGAATAATATTACACCTGCTCTAAAAACTTCTAAAGTATTTGTTAAGAAAGGATAAGATAATTCTTCTTTGGTTACATTTTTCTTAGTCATATTTGATTCATTTAAATCTTTATTTTTAAATATGCTGTGTCCTAAAATATTAAAACCAAATTTAATATTTTCGATTTGTTTATTTAAAAATCAAGTTTTATTATTAATAATCATTGTTCCTAATGATTTGTCTATACTTATTCCTTCTAAGCCTGGACCTTTAGATTTCATTCATGAATCATAAACATCTTGATCAATAATTGTTTGATCTCTTTTAACTTGTTTATAGAAACTTGAAGAAAATGCTTCTTTAAGTCCTCCACTTTGAAACATTCATTGAATTCCACTATGTACATAAGCATAGCTTAAAAATTCAGTTGCCACTGCTTTGTCAAAATTTATTAAGTCCAAACCTAAATCATAAAGATCTACATCTTTTTTGTTCTTAATATCTTCACTTCACCTTTTTTCAAATCATTTTTCTGCAAATTGACTATACTTTTCTTTTTTCTCAACTAAATCTTTATCTTCATAACTATTTAATGTTGAAAGCGCATCAGTTGTATAGGCACTTTTGATAGCAGAGTTCATAACTTCTTCAAAAACAATATCTTGACCATCTATTACATACATACCCTTGGGCATAATCTGCTTAATTTGCTTTTCAATACTATTTATAAATTTTTGTGATTCTAAACCAATTCCTGGAGTTATCATTAAAAAACTTAATAGAAATAGAAATGAAGTACTTATTGAAGCTATAATTATTTTCATTTTTAATTTCTGTTCAAAGAAATTTTTAAATTTCAATTTCATATTTTCATCCTTTTGTTAAATATTTATTACAATTTTATTTAGAATCTAACACTTAAAGTATTAAACTCGATAAAGGAAAGTTACATTTTTTGTAACTACTTCTCACTTAATGATTTTTAAAAATATTTTTAAAAATATTTTTAAAATAATATTAAGCTTATATAGAATATATTCCTTTCTTTTTTTCATATCAATAAATTAAATAATATGTAAAAACTTGACTTTTTCTTTTTTTCTTTACTTAAAAAATAATAATTTTTGATTATAACTAAAAAACACCTATTTTACTGTCTTTTTTAAAGAGTTTATTAATAAGTAAATTGTAAAAAAAAAAAAAAAAACTATAAAGAATAGTAAAAATATAAAAAATAATATATTTTAGATTAAAAAAACACTATTAATGGGGTTTTTTAATGAGAATTTATTAAAATATAAAATATTTTTAAAATATAAAATGTTTTTACAATTTCATATCTTAACAAGATATATCTGAATTATTTTTTTCAAGTAAACTAAAACTATAAAAAATATTTATTTGAAATGTATTAATATTATTTTTATTATTAATTATTGAGTTTTAATTTTTTCTTTTATTTAATGTTTAAAAAATAAAAACATCTAAAATAAAATTAATAATATTTTTTACTATTAGTTTTATTTTAGATGTTCAATTATAAAAATAATAATATTTTTTATAGAGTTTATATTTTAAAATTAACTATAAAAAATTTGAAAATATTTTAATTGGATAATTAATAAGTCATGAGTCATGTATTTCTTTAATTATTTAAAAGATACTGAATAGTTTTTATTTTTTTTAAATATTTTGAGAAAGTAAAATAAAATTAAAAATATATTGACATAATGAAAAAAGAAAGTTAATTTTTTTGACTTTCTTAGTTAAATATAAATATTTTAATTTTTTAAAGCTTTTTGGATAGATTCAATATTAATAGGTAATCTTACAATATTTTTTAATGGTAGTTTATTTTTTACTAAATATAAAAATAAGAAATTAATCTGCTGATAAGTATCAAAAGCAACAATAATTGAGTTTTCAAATTCATCATACTTAAATATTTTTATATTTTTTTCTTTTAAAAATACTTTAAAAGTTTCTAGATCAAAAGTATTTTTAATATAAACTTTATATTTTTCATAAATATTTAAACTAGATTTTTTACCATTAAAAACACATTCACCATTATCTATTATTATTAAATCATCAACAATATCAACAATTTCATCAATATTGTGAACTGTAATTATGACAGTTTTCTTATTTTTTTTGCATTCCATTAAAAGTGTTTTAATTTTATTTCTTCATAAAGAATCAAGATTAGCTCCAGGTTCATCTAAAATTAAAATGTCAGGATCTTTTATGAAACACAAAATTAAATTAACTCTATTTTTCATTCCTCATGAAAAAGATTTAATTTTTTTATCTTTTGATTCTCAAAGTTCAAAATATTTTAATCAGTGCTCAATTCTTTGAATTGAATCTTTTTTGCTTATTCCCATAGTAATGCAAATATCAAATAAAAATTTATAGCAACTTATTTCATATAATGAAAAATCCATTTGTGTATAGTATCCTATTTTTCTGTTAATAGTATAATAATTTCCCTTTTTACGACTAATATTATCAATTGAAATATCACCACTAAATCTTTTTATAATTCCTAAAATAGAATTTAAAATAACAGATTTTCCACTACCCGATGGTCCTAAAATAGCTGTAATTTTTGATCGCTCTATGGAACAGTTTACAGGTCCTATTTTTTTGGCTTTAAATTTTTTAACAAAGTTTTTAAATATAATTAAATCATTCATATTCTCACCTCTAACCATTTAGATCCATTCTTTTAAATTTTAAACAAGCAACCAAATTATTTATTAAACCTAAAATAATTTGTGCTATTGCATAATAATATGGAGGAACAAAATTATTATATGTATCTCCAACAATTTTATTATTTGTATCTAATTTAAATTTATAGCCTGGCTTTGTAATAAATAAATTATCTTGTTTATTAAAAAATATTTTATTTCTTGATTCAGGTTCAAATCAAATATCATCATAACTTTCTCCACCAAAGTATCTATAGTTTTGTAAAACGTTTGCTGTAAAGTTTACATTTAATAAAAGATTATAAAGATTTCTTGATTTTTCATACTCTTCTCATGTTTCATCACCTGTTGCAATTGTTGAATCTTCAAGTACTGTTAGATTATCTGTATAATTTAAAAAATAATTTTCTAATAAGTGCATTGATAACATAGTTTTAAAAAATAGACTATTTTCTATTAAATCTTTTGAGTTATCTATATCTAAACCAAGTTTATGATCTGCAGGTGAATAATGATATTGATAAATGTCTGCAAGATATTTTGCTTGAAATAAAACTTTTTGGTTTGTGCTTTTATTTTCAATTCAATTTATATCCTTATTATCTTTATCATCAAAGAAAATAAAATGCTCAAATAAATTACTTGTAAATGATTTAAAGTCAGTTTTATATTTAAAAATATAGTTTGTATATTCTACAAATTGAGTTAACACTTTTTTAGTTTTTACATCTTCTGTTCTATTTATTTTTTCTTGTATTTCTTCGATTGATAAAAATTTATATTTCAAATTAAATTTAAAAGTCACATTATTATTTTTTCAATCTGATATTTCTTCAAAATTTTTATTCATTGAAACTATTCTTGTTGGTTGATCTAATGAAAAAGAAGATGACTTTTCTTCAATTACACCAATTGTTTTTCAAAAATTAATTCTTTTTTCAATACTTTTTGAAGTTTCAAAACTTGTTGAAGATCTTGTATCAGTTAAATATTTATTCTCAATAAAGTTATTAAAGATTTCTAAACTTAAATCTGGGAATCTTATTTGTCCATTTAAAACATGCTTTTTTAAATCATATGAGTCATAAATCATATTTACTTTTTTTGATAACGTTACTGGAAATCCTTCATTTTGATAATTTAACTTTAACAATTTATGATCTTCTCCTTGCTTTAAAAATAAATAAGGTAGATTACTGATAAAAGTAATAGACATAATTAAAGTAGCCATAATTGTTGAAACTTGTATATTTGAAAACAATGTTATCATTGAGAAAAAACCAATAAAACACAAGCAACTTGCAAATGAATAAGCAAAAAAAGTTAAACTTATTTTAAAAATAAATCAAGAGAATTTTAAAGAAGATAAATAATTAATAGAATTCAAAAGTATAAATGGAATTAAACAAATAATAAAAGTTAATAAAATAAATGTAAAATAGTTATATAAAAATAATTTTCTTCTAGAAATTTGTTGAACAACTTGAATGTTTAAAGTTTTGTCATTTACTTTTGAAATATAAAAAAACTGAACAAGTCTTAAACAAATAAGAAATAAATTTACAAATACACCAATTAATAAATAGTAGTCATAAAATTTTAAAAAGAAAGCATTATTTTTTTCAATAGCTGAAAAAATACTAATAAATAATGTAAAAATTAAGAAAATTAGATTTAAAACTATAAAAGATTTTTCTTTAAATATCATTCTCAAATTAAATTTGATAATTCATGTTAAAGGTATTCTTTTCTTTAATTCTTTCATAATAACACAAACCTTCTATTTTTTAAGTTTAGAAACACTAAAATATTTTACTAAATTATGAAATTTAATAAAATATTTTAAAGGAAACATAAAATTATTTTTATAAAATAAAATTATTTTTATAACTTTTGAAAAAAAAGTCATAAAGTGACTTTTCATTATTATAGATTACATTACTTATTTAAGCTTTATTTTTTCTAGAATTATAAAGAAAAGGAGCTTCTTTATATCTTGATTTAAAAAAATAAATATTAATATATTTTCCTCTAAATTATTTTTTCATGTATTTTTATAATTTTACTATTGCTTTTTTACATTAGAATTTTACTTATTTAAAAATATTTCTCAACCCACCCACCCACTTTAATATATTTATATTTTATTTATAAATATAAATAAAATATTTTTCATTTGTGAGTGTAAAACATTTTAACTAAAAATAAAAAAAAGAAAAAATGTTTTCTTTATTTTTTCTTAGTTTTTCTTTTTTGTTTTTCCTTTTGAATATCTAATTCAACTAATTCTTGAGCTAGAATTCTGTTTCTTCTTCATGGATCTGGTTTATAGTGATAGACTGTAAATACAATTCCATCTAAAGTTAACATACATAATACAGGTATCATTGAAATTGCCAACGCTCCTGGAATTAAGTATCAGTTTGTTGAATTATAACTGCTTAAATTATTTAAGTTTAATATTTTTTCATTAAGTCCAGGAATACAAATTGAAATTAAATTTAAAGCTATTGCTAGCATACTTGCAATTCAAAGTGGTTTATTAGTAACTATATTTAATTTTTTTTGAACTTTTCAATTTGATAATTTTATAAAGTTTGCATACAAACATGGAGCACAAGTTATTACAATAAACATTGCAGTTCTACCATAATCTCCTATTTCAATTTTATTTGCAACTGAAATATCTTTATTTCTTAAAGCTTGATATCAATTTGTATAACCGTGATTTTCTCCTAGAATTCTGTTTAATTCATTTTGATTTACAAACATCATTCCAAAGCAATAAGCTCCAATTGAAGCTAATGTTGTAAATAAAATTATTTTAAATAGAGTATATCCCAATCCTTTAAATAATGAATTTTTACCTTTAACTGGTTTTATTTTCATTAGAGTTGAATCGTTTGAACCCATTCCCATTGCAAGAGCAATTATTGACTCAACAATTAAATTCATTCATAAAATATTTGTAGCTTCTAATGGAGAAACTGAGTTTATAGTTGATAGAATAAAAATTGATAAAACGTTTGCTAAATTCACACCAATAACAAAAGCAATTGCTCTTTTAATTTTTTGATAAACGTTTCTTCCTTCATTAACACCTTTTATAATTGTTTCGAAGTTATCATCAGTTAAAATAATATCACTAGCTTGTTTTGCAACATCAGTTCCTGTTATACCCATTGCAACACCAATATCTGCTTTACTTAAACTTGGAGCATCATTTACTCCATCCCCTGTCATTGAAGTAATGTTACCCTTCTGTTTTAAAGCATCAACAATTCGCACCTTATGTTCTGGATTAACTCTTGCAAATACTTTAATTTGTTCAATAACTCTTAACAGTTGCTTGTCATCTAAACTATTTAAAGTTTCACTACTCATAACTTCATATTCTGAGTGCGCTAAGTCTAAATCTTTTGCAATCGCAAGAGCAGTTACAGCATGATCTCCTGTAATCATAACAACTTCGATTCCAGCATCATGTGCTAATTGAACAGCATTAACTGCAGTTTCTCTAACTGGGTCAATCATACCTACTGCACCTAAAAATACTAAATCATGTTCTAAGTCATCTTTATCTTCTAAACTATCATAGTTTAAGTGATATGCAAATGCCAAAACTCTTAAAGCATCTTTTGAAAGTTCATCTGACATTTCAAGCAGTAACTTTTTGTCTTCATCTGTAATGTCTCTTAAGACATTATCTACCATTATTTTTGTACATCTTTGAAGTAATTGATCTATTGCACCTTTTGTGAAAGTAGTATTAACTTTGTTAATTTCATTAACAGTTGTCATCATTTTTCTTTCACTGTCGAAAGGCATTTCATCAATTCTTTTTCAAATATCTCTTGAATCTTGTTCATCATAGCCAATTATTTCAGCATAATCAACAAGAGCCAATTCTGTAGGATCTCCAATTCTTTCAGTTCCTTCAGTAACAGAGTCATTACATAAAACTAATGCTTTTAAAAATAAATCCATATGATTGTCATTTTTTTCTTGTGCATATTCAGTTGAAGTAATAATTTTATTGTCCATTATCATTTTTTTAACAGTCATTTTATTTTGAGTTAATGTTCCAGTTTTATCTGTACAAATAAAATTAACATTTCCTAAAGTTTCAACTGCTTGAAGTTTTTTAATAATAACGTGTTGCTTTACCATTTTTTTGGTACTAATACTTAATGTTATTGATACAACTGCAGCTAAACATTCAGGAATAACACCAATTGCTAAAGTAATTGCAACCATTAAGTAGTTTGCTCAAGCTTTTTGATCTCCACTAAAGAATAATGTAGTAAAGATTAAAATTGCTAAAATAAAGCTCAATCCACTTATTCAGTAAGTAAATGAGTTTAATTTTTTTTCTAATGGAGTTGATTCTTCTTCACTTTCGTTAATTGATTTTGCAATTTTTCCAATTTCAGTTTCTTGACCTGTTTTAATTACAACTCCAATTGCTCTTCCTGAAGTAATAAAAGTAGACATAAATGCTATATTTTTCATTTCAGCCAATATTGTTGTTGTTTCTTTTAAAGGTAAATGAGTTTTTTCAACAGGCAATGATTCTCCTGTTAAATTTGCCTCATCAATTGTTAAGTCACTTGATTCAACAATTCTTAGCTCTGCAGGAATATATTTTCCAGCTTCTAAAACAACAATATCTCCAGGAACAAGTTCTGAAGCATCAATCTCTTGTTGCATATCATTTCTAATAACAACAGCTCTTGGTTTAGAAAGTGATTTTAAAGCATCCATTGATTTTCGTGCTTTAATAGTTTGTACAGTTTCTAAAATAGCATCAATTAAAACTATTGAAAGAATAACTGCTGCATCTATAAATTCAGATGCTTGAATATGACCACCATTTGAAATAATTGGAGCAACTATCGATACAACTGCAGCTCCCATTAGTACTAATAAAATTGGCTCTACTAGTGTTTTTAGAAATATCAAATATCAAGGAGTTACTTTTCCTTGAGGTAGTTCATTTAATCCATATTTAGCCTTTTTTGATTCAACTTGTTCAGTTGTTAAACCTTCTTTGATATTTGTTTCTAATTTTTGTTCAAGTTCCGTTTCAGAACTTAAGAGATTTTCGTCCATATTTGATTCCATTTCTTTGTTTTTAAATATAATAAAATTATAACAAAAATATTTATTCTGAGTAAAAAAATTATATAAAAAAACACTTTAAAAAGTGTTTTACTTTAGAATTATTCTCATAATTTAATTCCATTAGAATCACTAATTTCTTTAAATCATTTCCCTGAGTTTTTAATTCTTCTTTCCCCAGAACCTGTTCCAAAGTTATCTAAATCTACATATATAAAACCATAATTCTATTAATTTGTGTAAACTTATTCTAATATTTTTATAATTGATATAGATTATTGCTTCATTTTAGTAAGAGAACTAAATGCTTGAATAAAAGAAGTACTTCAGATGGTCATTTTAAAATCTTTATAAAAATGGTAAATTTGTTTTTTTATAATTGAACCCATTTTATATCAAAAAATGATTGGTCCTAAAAAAGGAATAAAAATTATAATTACTAAGTTTCTTTTGTTTATAGCAGTTATAACTTCATTTTCTTTATAAAAACTTATTATTTTATACATTGTTACTCTTTCCAATATTGGATATATTAACCAAATAATCATTGCAATTATAAATGCTATACTTCATGGATTTTGAAATCCTCTCTTTTCAATACTGTTAATTGCAACAGAATAGATTATTGGCATAATAACCAATTTAAAAATACTTAGATAAAAGTTTTTTTAAATACTAATAAAGTACTTAATTTATTGTTAAAACCTATCTCTTGTTTTTCGTTCTCTAAAATCATATTATTACTCCTTTCATACAGGATCATGCAATTTGTTACAACAAAAGCATAAACTATAAAAAACTTTATTTCCTATCTCAATATATACATTTCTAAGTCAACTTAATTATATTACCTTACTAATATGTAGAACACTTTGCTGACTACTAATAAAAGAATTTTTAAAAAAAAATATTTCTTTAGGAAATATTTTTTACATCTTATTTTTTTATTTAAAAGTATATTCCTAGAATTTAATTTTAAATTTTGACTAAAGTTCTTTTGTTTTCATAAAGTTTTTAAATCAATCAAATGATTTTTTCTTAAATCTATCTCCACTGCCTTTGTGATAATCATCATAATCTACAAAGATTAATCCATAACGTTTTGACATTTCATTTGTTGATAAGCTTACAACATCGATTGGAGTTCACATAGTATAGCCAAATACATCAATTCCATCAAGAATTGCTTCATTAATTTGTTCAAAATGTTGTGATAAGTACTCTATTCTATAATCATCTTCAACAGTATTTTTCTCATTTAACTTTTCAACAACACCAATTCCATTTTCTGATATGAATAAAGGTATTTCATATCTATCTCAAAGTTCATTTAAAGTAACTCTCAATCCTATTGGATCAATTTGTCATCCTCATTCAGTTGCTTGTAAGAAAGGATTTTTTCCTCCCATTAACAGATTTCCTCCAGCTGAATCAATTAATTCTTTTGAAATAGTTGAAGTCATATAGTAACTGAAAGTTATATATTCAACTGGATTTTTGGCAATTACTTCTAACTCTTCTGGTGTAGTTTCAAACTTAATATTGTGTTGTTCAAAATATCTTTTTGAATAAGTTGGATATTTTCCTTTAATCATTACATCATAATAGAAGTATCTTTCCATTTGTTGAAATTGTAAATTTTGCATTACATTAACTGGATTACAATCAGCATAGTAAGTTGTAATATTTGCAACCATGCACCCCATTTTAATATCTTTTGAAATAGTTTTTGCAATTTCAATAACTTTAGCTTGAGCATAAAATTGATTGTGCAATCCTTGATATGATGCATTTCTAAATTCTTCTTCACTTTTAAAATCTTCTCTAAAAATTCCTAATCCTGTAACAGGAGATAATGGTGCAACATTAATTTCATTAAATGGCAATCAGTATTTAACTAAATCTTTATATTCGTTCATAATTACTGTTGCAAATTTGATATATAAATCAATTACTTTTTTGTTAACTCATCCTCCATAATTTTTAGCAATTGGATAAGGAACATCATAGTGTTGAATAGTTAACATTACTTCCATTCCTGATTTTTTACATTCTTTAAAAACATCTCTGTAAAATTCTAATCCTTGCTTATTTGGTTGTGCTTCATCTCCATTTGGAAATATTCTACTTCATGCAATTGACATTCTATAAATATTCATTCCTGCTTCTTTGAATAAAGCTATATCTTCTTTATATCTGTGGTATTGATCAATACCATATCTTTTTGGATAATGTAATCCTTCCTTATTTTCAATTGCTTTTTCATAATCTTGTTTAGTATAAGCACTCAATTCAGTTACACTTTTACGATCTAAATTTGGGTTAAAAGGTCTCATTTCTGAAATAGTTAATGATTTACCATTTTCATCATATGCACCTTCTACTTGTGTAGCTGATGTTGCTTCCCCTCACAAGAAATCTTTTTTTACAAATTTCATAATTTGCCTCCTTAGTTAATAGTTAATAAATTTTGTTTTTCTTGTTTTGTAAAGTAAATTTTTTTCTTTTCTTCAAAACCATAGCCTACTTCAACTGCATTAATTGCATTTCAGTATAAATTTTTATATTGTAATAATTCAACTTTATCTGTTTCTTTTGAAATTTCTTCTACAAATTTCTCTGAAAGAGTTTCCAATTCTTTAATTGTTTTTTGATATTTCTTAACAAGTAATTCATTTTCCTTAATTAAGTTATCTTTTTCTAAATTTATAGGATTAATTTTTTCTGATAAATTATATGAATTATATTTTTCAACAATTATATCTATTTTTTCTTGATCAAGTTTTTCATTTTTTTGAGCTTTAATTGCTTTTTTATAAAGTGATGTTTTATGTTTTTCTTCAGCACCATTTAATCTTGCAAGTTTAGCTTCTAATTTTAAAAGTTTTTGAATATACTTTTCATAATCTTTAATAACTTGTTCTTGTTCTTTGATATCTAAGCTTAATTTTTTAGCTCTTTGATCAAATGAAGTCATGTTCTCAAATTTTATTTTTCTCAAAATATTTTTCATTTTATTTGAGATTTTAACTGAGTATTTATATTCATTTTTTCTTTCTTTATAGAATATAAATGTTAACAATATTCCAACTCCAATTGCAATAACAAATGAAAGTAACAAGAAAACTTTATCTAAGGTTTTATCATAACTTAATAACGCCAATATTCCTTGTGGACCAACAGTATTTTGTACAACTCCTGTTGCTCCACACAATAGTGCTCCAGCAAATGATGCTACACAACCAATTAAGAAAGGTTTAATTTTTGGTAAATTAACTCCATAAATTACTGGTTCTGTTATTCCAAATACACCTGCAGGAATACTACTTAATGCAAGTTGCTTTAAGTTTCCATTTTTTGAAAAAATTGCAATACCAATACATGCACCAAGTTGTCCCATAACAGCTATAGGCACTGCAGGTAACATTTCTGATGGAACAGGACTTTGAGATATCATTGGTAACATTAAAGTCATAGCAACAGCAACGTGAACTCCTGTTAAAACTAATGGTTGTCACATTAACGCAAATAGAGCTACTCCAAGTCCTCATGGTAATTTTTGTCCAATTAATGTTACAAATTGAGCCATTAAGAATTCTAACAATGATAAGATTGGTCCTGCAATAAACATAACTGGAATTATAGTAAGAATTATAACTAATGCACTTCTAAAGACAATATCAATTGCAGAAGGCATTCAAGTTTTAATTCATTTATCTGCATAGAAACAAATGAAACCAGATAAAATAAATGGCAAGACACTTCCTTCATATGCTTTTACAACAATTGGATAATTTCCAATTTTAAATAAGAATCATCCTGTAATACCATAGTTAGATTCTGACATTAATTCTCCAAATTTTCATTCATCTGAAGAACTGACTCCAACACTTGCAAACAAGAATCTTGATGTTAGAATCAAACCTATTAATATTGCAACTATTGTACTTCCACCTAAATATTTAACAGTGTTATAAATAAAAAACACACCAATTAAATTTAAAGATACTTTAGATAAAATATACATTAGTACTGAAAAAATATCAGCATTTGCAAAACCAGCTTCAGGATTTACAATTGCATTTGATTGTAACAATATTGCATACAATGCTCCAAATATACCAGCTGCCATCAATACAGGAATAATTGGAACCATTATTCCAGCAATGCCTTCAACAACAATAGTGCCAAGAGATTTTTTAACTTTCTCTTTTACTTCTTGAGTTGATCCTGAATAGTTTTCTTCTTTTTCTATTTCTTCTCTAACTTTGTAACATTCCCCCCCCCCGATAATAATTTGTAATTCATCACCTGTTCAATTAATTCCTTTTACAAGCTCATTAGTTTTAATTTTTGCTTCATCTACTTTAGTTTTATCATTAATATTAAATCTAAGTCTTGTCATGCAATTATAAACTCTTGAGAAATTTTTTCTTCCTCCAACTGCATTTACAAATAATTCACTAGCTATTTGATACTTGGATTTAAACTCTTTTAACTGAGTGTCTTTTTTTTGTGCTACAAGAGGTTTATAACTAATTTTACAAATTAATTCACCCTTTTTATATTTTCCTTCTTTTAAGTTAATAACTTTTATATCTTGTGCACTAGTTGGATCAAAAACTATTGGTGTTTCACTTGTTATGTTATTCTCTTTTAAAATTTCTAAATCTACTTCAAATATTGGATCATTTAACTTTAAGTTTTGCTCAAGCTTAACTTTTTGAGTAAAAGGTTTTCCATTTAGTTTAACAGTATCAATACCACAATGAATTAGTACTTCTATTTCATTGTTAATTTTAAAACCATAAGCGTGTTTAGTATCAAAAGTCATTTTGCACTTGGCTTTATCAAATGGTAATACAAATCTGCCATTATCAGGTACAATAACTATTCCATCACCCAGCATTTTTTGTGAGAAAACTTCATCACTACATTTAGTAATACTTTTAACTTCACAATCAACTGGAGCATATAAATTTATTTCCACTTTTATTCCTCCTTATAGTAATATTTTCCATAATATAATAAAAAAAAGAATAGATTTTTCTATTCCTTCAAGTACTTTACTAATTGCATAGTTTTTAAAGTTTATTAAATATTGTAAAAAAAAGTACATTTAAAGCAATTACTCTAGTGCTTACTTGAGAATTGTCTAAACTATAATCTATTAAAATTTTATTGGTAAAATTAAATTCTAACTTATCAGCTTGTTTTTCAGTTGCTATTAAAAAATTTGTATCTCTTTCATTGTAACTTTTTGAAAAATTATCAATTAAAGTATCATTATCTCTTCCTGTTAAAATAATTAAATTAAAACTTTTTTCATCAGTTTGTCTCGGTTTAAATCTAAATTCATTATTTAAAAGAACTACATTTTTTCCATAATCAATTAATAAGTTTGCAAAATATTTTGAGCAATCATAAGATTGATAAGATGAATAAATATTTATTATATTAAAATTTTTAATTTCTTCACAAATATTATTAATAAAATTTTCATTTCTATTTATTCAAGTTTGAATAGATTCAAATATCTCTCCTGTATCTACTTTTTTTTGTCTATCTCAGTTATATTTTGATCATTCAGTTTTCATAACAAAAATAAATTCTCGATAACTTGAAAAACCTAGTTTTTTTGAGAACTTTGTCAATGTTGAAATTGATACAAAAGTTTGATTTGCTAATTCCTCTTGATTATAAAATTTTCCATTTTTAGTATTCTCTATTATTTTTTTAGCTATTATTTTAAAAGTGGTATCTTCAAAATCTTTGCTCATTATCTCCAACTTTTCAAATACAGATGTCATTATTTTTACCTCTTAACTAATTATAAATTTTTTTTCTTTTAATTAAGAAAAAAAAAAAAAAAACCTTTTTTTATTTCAAAATAAAAAAGATTTTTTATAAATAATTAAAATTCTTTGTTTTTCATAAAATTTTTAAATCAATGATAAGATTTTTTTAAATATCTATTTCCACTACCATTGTGGTAATCATCATAATCTACAAAAATTAATCCATAGCGTTTTGACATTTCACATGTTGAAGCTGAAACTACATCAATTGGTGTTCACATAGTATAGCCAAATACGTCAACTCCATCAAGTATAGCTTCATTTATTTGCTCAATATGATCTTCTAAATACTTAATTCTATAATCATCTTCTACTGTTTGATTTTTATCTAAAGTTTCTACAACACCAATTCCATTTTCTGATATGAATAATGGTACTTGATATCTATCTCATAATTCATTTAAAGTAATTCTTAATCCAACTGGATCAATTTGCCATCCTCACTCAGTTGCTTGTAAGAAAGGATTTACACCAACATTATGAAGATTAGCATTAGCTTTTTTAATTTCATCTTTTGAAATAGTTCCTGTCATATAATAACTAAAAGTTATATACTCAACTGTATTATTTTTTATCACTTCAAGTTCTTCAAAAGTTACATCCAACTTAATATTATTTTCTTCAAAAAATCTTTTTGAGTAAGTTGGATATTCTCCTCTTACCATTACATCATAATAAAATCATCTTGAGAATTGTTGCATTTTTAAATTTTGCATAACATTTGTAGGATTACAATCAATTGAATAGGTAGTTGAATTTGCAACCATACATCCCATTTTAAATTTAGAAGATATTTTTTTAGCCATTTCAATTGTTTTTGCTTGAGCTACAAATTGATTGTGTAAACCTTGATAACTTGCTTGAACAAGTTCTTCTTTTTTTCCTTGATAATCAGAATTAAAAATTCCAAGTCCAGTTTCTGGAGCTCAAATTGCAATATCAATTTCATTAAATGGAAGTCAATAAGTTACATAATCTTTATATTCATTCATAACAGTTTGTGCATATTTTAAATATAAATCAATCACTTTTTTATTAACTCATCCTCCATAGTTTAACATTATAGATAATGGTACATCAAAATGTTGAATAGTTACCATTATTTCCATTTCATTTTTTTTACACTCTTCAAATACTTTTTTATAAAATTCTAAACCCTCTTTATTTGGTTGTGCTTCATCTCCATTTGGAAATATTCTACTTCATGCAATTGACATTCGATAAATGTTCATTCCTGCATCTTTAAATAATTTTATATCTTCTTTATATCTATTATAAAAGTCAATTCCAAATCTTTTTGGATAATGATTATTTTCATTACTCTCAAGAGCTTGTAAATATTGCTCTTTTGTTTTTGAAGAAAAAAGCATTTCTTTTCTATTAATTTCTTTATTGTAAGGTGTTAACTCTAATAAGGTTGGTAATTTCCCCCCTACATTTCATGCTCCTTCAATTTGTCCAGCACTTGTTGCTCCTCCTCACAAGAAATCTTCTTTAATAAATTTCATTGATACACCTCAATTTTCTATATTTAATTACTAATTGTTAATAATTCTTTTACTATTTTCTTATCTTCTTTAGAAAAGGTAAAATCCTTTTCATCTAAAACTCCAAAATTAATTTTTACTGAATTTATACCATTGTATAAATTATTTTCAAACTTCATTATATTTTCAAAGTTTGATATTTTTGCTAACTCTTTTAAAGTATCATTATACATTTGTGTTAGTTTGGCAATTGTTAAATCATATTCTTTTATAACTTTTTCATTTTCAATATTTCATTCATTAATTTTATTATTTAATTCAGCTTTTTGACTACTTAAATTATAATCATTTGATTTTATAATTGCTTCGTTTACTTTTTCTTGATCTGCTTTTTCATTATCAAGAAGTTTTTTTGCTTTTGCAAAAAGAATTCTTTTATTTTTTTCTTCTTTTGCAAGTATCAGATTTAATTTTGCTTCATATTTTGTTTTTAAAATAAAGTACTTATAATAATTTTTAAATATTAATTTTGAATTTTCCAATTCATCAATATATTGTTTTTCTATTAAATTTATTTTTTCTTTTGCCTCTTTTTGTTCAAGTCCATTTGCTATTAATATCTTTGAGATAATTGAATTAATTTTACCAAATTGTTTTTTGCTAAATTTAATTTCATCTCATTTTTCAGAATAAAGTAATATTGTAAACAATGCTCCCCCACCAATTGCAACTAGTCAACACAATATAAATAATAATTGATTAACAAAACCAGTTACAGCTGTAATTGAAAACACTCCTAATCCTGAAACAATTGAAGCTTTAATGTTTAACAAACCAAGCATTAGCCCACCTAGTCCAGCTCCAATACAACCTCCTATGAAAGGTCTAACTTTTGGTAAAGTTGCTCCATATATAATGGGTTCGCTTATTCCTAACATTCCTGCAGTTAAACAACCAATTGTATAATTTTTTAACTGTGAATTTCGTGTCACAACAATAAGTCCTATTGCAGCTCCAACTTGACCAAATGATCCAATTGCTGTTGCTATATCTAATGAAGTTGGTATAACAGGATTTTGGAAAAGTGTTCCTATCATAATACTCATAATAACAGCAACGTGAACTCCTGTTAAAACCATTATTTGTCACAACATTGCAAATAAAGCCACTCCTAAACCTAAAGGAATTTTTTCAAATAAAATACATATTTGACTTAATCCAAACTCAACCATTCCTAAAGCTGGTCCAAATACAAATAATGTAACAACACAAATAATTGTGTAAACCATAAATGGTCTAAAAACAATATCTACTGTTGGATTTATTCATGACTTAATTCATTTATCTAAATATACCATCAATATTGCAGCTGCTATAAATGGCAATACACTTCCTTCATATCCTTTAACAAGTATTGGAAAACTTCCTATCTTAAATAGTAATCATCCAGGTCCTGCTAAATCTGAAGATGTTCAATTTCCAAACTTTGCTTCCTCAATTGGTATAATGTTTCCAGAAAATAACATTCTTGAAGTAATAGTTAAACCAATTAGAGCAGCCATCATTATGTTACCTTTAAAATATTTAGCTGTAGAAATACAAAACAATACTCCCATTAAACTAAATCCAATTTTACTTAAAATATACATTGTTGCTGCAAACAATCCTGCGTCCGCTACATTTTCAAATTGAGATGCATCTACAATTGCATTTGTTGAAACAAGCAAAGCTTGTAATGCTGCCAATAATGCAACAGCCATTAATGTTGGAATTTGAGGAGTCATTATTCCTGTGATAGCTGCCAAAAATCTTTTTGAAAATTTTGGTTTTATAAATATTTTTGTCTCTTGAGTTTCTTGATCATAAACTCCAGCTTGAATATTTGAAATTTCATCTTTAACTTTATAGCACTCTCCCCCAATAATAACTTGTAATTCATTGCCATTTCACACTGTTCCTTTAACAAGTTCATTATTAGAAATTTTTTGTACGTCAACTTTTTCTTTGTCAATTATTTTAAATCGTAATCTAGTCATACAATTATAAACTTCTTCAAAGTTTGAAAAGCCTCCAACATTTTTTATAAATTGTTTTGCAGAAGTTAAATATTTAGATTCAAAACCAATTAACTCTATTTTTTCTTTTTTAACTTGGCTTTCCTTTTTAATTTCATATTCAATTAAAGCAACCAAATCACCTTTTTTAACTTTTCCTGTATTTAATTTTTTTATTTTAAATGTAGATAAATTTGATTCTTCAAAAACTATTGGAGTTTCAGTTACTAAATTTTTTTGAGCTATTTGATTGAAATCAATAGTCATTATTTTAGTATTCAAATCAACTTTATTGTTTTGTTCTACATTTAATTTAAAAGGTTTCCCATTCAATGAAACAGTATCAATACCAACATGAATAAGCATTTTTAGATTATCACTTTCTAAAAAAACTGCATGCTTTGTATCAAAAATCATTGCAACATTTCCCTTATAAAATGGTGAATAAAGTTCATTAGAAGTTGGTACAATTAAAAAACCATCACCCATCATTTTTTGAGCAAACATTGAATCAGAACATTCCTCAATTTTTTTAATTTCTCCATCCATAGGAGAAAATATTTTAATTTCCATATAATAATTTCTTTCTAGAATTATTTTCTATTAAAAAAATTAAAAAAATGTTTTTTAAATAAAGTAGATATTTATTTCCAAAAAGGGAAATTTTGTTATTAAAGATCTTGAAAAATAGTTAAGAACAAAATACTTAATGCAATATTTCTGTATATAGACTTACTATCATCATATTGATAATTAATAACCAATGATTTGTCAAACTTTAATTTAATTATTGATTCTTGAAATTTTGAGACAATTAAAAAATTTTTTTGATTTTTATTAAACTTACTATTAAAGTTTCTTATTAAAGATTTATTATCTTTTCCACACACAACTAAAATATTTACAATTTGTGAGTCACTAAAGTCTTTATTTAAATAATCATAATCATTGTTAATTATTATTGGATTTTTATTTAAAGCTACTAATGAATCATATAAATATCTAACTGAGTTTTGCACTTGATATGAACCATATATTTTTATACATTTAGAGTTTTTAATTTCATTTGTTAATGTTTCAATAAACTCTGAATTCTTTTCAATTCAATTAAAGATTGAAAAAATTATTTCTTTTGATTTAACATTATATTTTACTTCTTGATTTCCATACTTGTCATATTCATTTTTTAAAGTGAATAATAATTCTTTATACCCTGAATAACCAATTGCTTTTGAAAATTTGGTTATTGTAGAGTTTGCAACAAATGAAAGTTCAGCAATTTCTTTTTGATTAATAAATTCACCCTTATCAAATAAATCTATTATATTTTTAGCAATTATTTTAAATGAACTATCTTTACTATTATTAATAAAATCTTCTAATTTATCATAAACAGATCACATATTTTGCCTCCTATATTATTATATTTTTTTAAAATTATAAAAAAAAAAAAAAAAATTATTGTAAAATAATTTTTTTTATAAGTGTTAAATTACTAAAATGTTTTTATAACTTTATTGTTTCACAAACTTTTTTAAATAGTTGAATATAAGTACTTTTATAAAAAACATTTTGTCTTGTTAACAAAGTATATTTAGACTTTTTTAATAAAGTTGTATTTTTATTTTAAATATTACCTTTTTTAACTCTTATTTCAAAACTTATAGAACCTTTATAATTGCCTATTCCCGCAATTGTTTCAATCTCATATTCTTCATTATTTGTATCTTTTTTAGATTCATAGTTTGCTTTAAAATCTTGTTCAGTTAAACCAAAAGTATCTTTAATCATTTTTTTTACTTTTGCTTGATCTCCACTAAAAGAATCTACATAAAATATTTTATTTTCAAATACTTTATTTTTTAAATCAATAACCTCTTCAATATTTTTTTGCTCAATTTTTACATTTTTAGAATCTTTAATTAATTTTGAAGTTTCAATTGCACTAATTTCAATTACATCACCTGCAGCAGTTTTAACAGTATTGCTTAATATTTTTGATTTATTTTCTTTATCTTTAACACTAATTTTATAATCTTTATCTAAAACTACATTTTTATCAATTTTTATTATCTCTTCTTTTATTATATTTTCAATTTCTATTTTTGATTTATTAAAATCTAATTTAGGAGAAATATTTGCTATACTTTTACGTGTTTCTTTATAGTTTAATATAAAAGTAGCTGATCCAATTACTTTTGTTGATGCTTTAACTGATTTAACTTCAATTGAGCCTTTTTCAGTTGAAGTTGGTTCTTTATAATTTTCAAAACTAATATCAGTACTTTCAACAACATCAATACTTAATTTAGATTTAATTTGATCAATAACAGCTTTTTTAGCACTTAATTCACTATTTTCCAAAGGTGAAATTTCTAAACTCTCACCTTTAATTTTTGATAAATCTATTCTATCTTCTTTATAGTTTAATATAAATGTAGCAGATCCAATTACTTTTGTTGATGCTTTAACTGATTTAACTTCAATCGAACCTTTTTCACTTAATGTTGGTTTTTTATAATTTTCAAAACTAATATCAGTACTTTCAACAACATCAATACTTAATTTAGATTTAATTTGATCAATAACAGCTTTTTTAGCACTTAATTCACTATTTTCCAAAGGTGAAATTTCTAAACTCTCACCTTTGATTTTTGATAAATCTATTCTATCTTCTTTATAGTTTAATATAAATGTAGCAGATCCAATTACTTTTGTTGATGCTTTAACTGATTTAACTTCAATTGAACCTTTTTCACTTAATGTTGGTTTTTTATAATTTTCAAAACTAATATCAGTACTTTCAACAACATCAATACTTAATTTAGATTTAATTTGATCAATAACAGCTTTTTTAGCACTTGATTCACTATTTTCCAAAGGTGAAATTTCTAAACTCTCACCTTTGATTTTTGATAAATCTATTTTATTTTTAATATCATTTTTAACAATATAATTAACTTCAACTGAACCTTTTTCAATATATTTTTTTGAATCTGTTTTAACAACAATATCGGCTTTTACATTAGTAATATTTTTAACTTCAACTTCTGATTTTATTAACTCTTTGTTTTTAGCAAATGTAGCATTTAAAATAGTTTCTGAACTCGGTTTACCCGTATTTCCATCTTGATTTAATTCTCCTAAATTTTTATTGATTATTATTTTAGTTAATTCAATTTTTTTTACTTCACTTTTACATGCTACAACTGTTGCACTTGTAGTTGCAACTAAACCTGTAGTTGCTAATAAACTTAATAACTTTTTCATTTTTCCTCCTTTTATAAGAGCTATTAAAATACAAATAAACAATTCAAATTGATATTGCTAATTATATAAAAAAAAAAAAAAAATCAAGTTTATTGACTTGACAGAGGTTAGAATGTTCCCCCCATTTAGGCAACAATTTTTATACAATAATAGAAAAGGATAAAGTATATGGCAAAAAAAGGACAAAAGTTTAGAAAGTGAACTCAAGAAGAAAAAGAAAAAATTATTGAATTAAGTTTGAATGGTTATTCTCTAAAGGAAATAGCATTAAAATTTAACTCAACTACAGGATCAATTGGAACAATAATAAACAAATACAAAAATACAGATATTGGTGATTCAAAAACTCGTTTACCTTATAAAATAGATTACAGTATATCTCAAAAGGCAAATGATCTGTTTGTAGGAATTCTATTTGATTACAATAAGGAATTAATTAAGGAGAATGATATTTTAAAAAAGCAATGAGCCTCCAAGGCCAAAACCAAAAAGAAATAGTTCAACAATTATTGATAAATACCAAGAGCAATAGAACAATGATTTGTAAAATTTTAAATATTAATAGAACATCAACATATAAAAAAAATAAAACTTTAATGAATTTCCTGGATGATACAAGAATTATGAATTTAGTTATTTCAGAAATTGAAAGGAATAATTTCCTTAGTGCTTATAGTGCTAAAAGATGAGCCCTATATTTTAAATTAAATTATATTGACCCTTTCAGAATTAATCATAAAAAATTAGAACGTATATTTAAAAAATTTAATCATATTGCATATTACATTAAGAAACAATCTAAACATGAGATTAAAAGATATAACGAAACTATTAGAAAGAATTATTTAAAAGAAGCAAAAGAAATTGGTTTTGAAAATATTTGAACTAGTGATATAACTGAATTTTCAGTTAAAACAAAAAAAGGTTATATTTGCACAGTTCAAGATAATTTAACTGGAGAAATAATAGGAAAATCTAAAAGAATTGATAATCAAAAAACAGATTTTGTTCTTGAAGCTGTAGAAATGGCATATAAAAATAAAAAATATTTAGGTTCAATATTATTACATTCAGATAATGGAAATCAATATACCTCTCTGGATTACATAAGTTTATGTAATGATTTACAAATTATTAGAAGCTATTCAAAACCAGGAACACCTCATCATAATGGTAAACATGAAAGTTTTCATGGTCGTTTAAAAGATGAAACTATAAGAACATGTCATATTGAAAACATTAATCAATGTATGGAAATAGCATGAGCATGATTGGACTTTTATAATAATGATAGAATTAGAATGAATAAAAAATGATAAAAAAAAAAAAAAAACGTTCCCAATTTGGGGGGAACGTTGTCACTTTATAGAATGAAAAAATAAAGATGTCTTTTATGGAATAATAACTATATAAATAAAAAAGCAGAAACTCTTTTATTAGTTTCTGCTTTTATAGTATTTTTATTTATATTTTCTAAAAATATTATTTATTTTTTAATTTACCAAATGAATCTTCATATCATTTAGCATATGATCATCTTTTTCATTCAACTTTTGCAACTGTTGATCCATACTGATCTGGAATCATTCCCTCAAATCCATCTCATAAAACAGATCATGTCATTAAACCTCTAATATGTATTGAATCTTCTTTCAATAAATTGAATGCTTTATTAATTGCATCTTTTGTTGCAGCTCCTCGACCAGCTGGTTCATTTGTTGCAGCTCCAATAACAAATTTATCAGGAGAAATTTGGAAATAATTATCTACTCCCCCTGGTCTTGAAGTCATATATTTAGTTACTAAATAAAAGAACTCTCCACGTTTTTCTTTATTATCATTTGAAATAATTGTTCCAGCTGATACACCAACTTTAGCTGCATCTTGGGCATCAACTGTTGGTCCATCTCCTCAACCATTATAATATTGTGGATTTATTCAATCATAGTAATCTTTTAACTCATTTAAGAAAGTTCCATAACTTTTACCAGCATAACCAGCTTTACGCAGATAAGGTAATTCTGGTGCCATTGTGATTATAAAGTCTCTATTTTCTTTTTTATACTCATCTTTAATTTCTTTTAATGCATCTGATGTAACTTTTTGTGATTCACTACTTGCTAGTGAATTTCCTTCTCAGTCAAGATCAAGTCCATCAAAACCATATTCTTCAACAGTTTGTTTTATTGCTGCTTTAAGTTCATCTTTTTGATTACTTCTAAATAGCATTTCTCCCCCTGTTGCTCCTCCCATTGAAATTAAAACTCTTCTTCCTTGACTTTGCAATTTTTTAATTGCTTGTTTAATTACACTAGGATTATTTGGTTGATATGTTGGCATTGCATAAGGATGTTGTGAATATAAAAATGAAACATCTATAACATTGTATCTAGAATCAATTTGATCAAGAGCCATTTTATTTTCAAATGCTCCTCCTCACTCATATCAATAACCTACAAGTGTTTTTACTTCAAAAATAACATCAACACTTCCTTTATATTTAGCAGGATTCGTAGAAACAATTGTTGCTTTTTCTTTTGAAATTTGTGTTGCTTTTATTGAACTCTCATCTAATGAAGAGTTTAAATATTTTAAAGTTCTTTTAATTGAAGATTGATAACTATCTGGAATACCTCCAAGATTTGTTTTAGAAATTACTGTTTTTAAATCTATTGCATTAGAATTATCAACACTAAATGTTACTCTTACATTACCTTTATATTTAGCAGGATTTGTAGAAACAATTAAAGCACTATCTGCTAATATATCAATAAATTTGATACTGTTAATGTCAAGTTGTTGATTTTTATTATAAACAGCTGATTTTAGTGCATCTTGATCATTTGAGTTAATTAATCCTAGTGTTCTGTTTGTAACAACATTTGCTAAATCCATAGCATTTGATGTATCTATTGTGAATTTTACACTAACTTGACCTTTATACTTTCTGATATTAGTTGATTTTATAATTGCTTGGTTATCACCAATATTAATAACTTCCACATATTTTGTTTCTAAACTAGAATTTTTTTGTTTTACAACTTGCAATATTGTATTTTGATCATTTGAATTTATCATACCTAAGTTTGTATTTGTAATCACTTGTGAAAGAGGTGTACTTTCTAATGACTCATCTACAGTGAAAGAAACATCCACTCCACTATCTTGAACATCTATATAAACTGATTTATCTAATGAATATACATTTCCTCAACCATTTCCTCCATTTGCACCATTTCATCTTACACCAAGAAAATTAGTGTCAATATTTGGATTTTTTATTTTAAGTCCTTTTAAAATTTCTTCAGGTTCTGATGAAACAATTGTTCCTAAATTAGTTTGTTTTATTGCTTCTTTTAATTGTATTGAATCTGGTTTAACAGCTGAAAGTTGAAATAAAACATTAACTTTTCCTATATAATTGTTAATTCCAACTGCAACAGCTGAATTCATTGAAATAGATTCTAACATAAAATCATCTTCAGTTAAATTTTGATTTTTTTCTATAATAGATTTTTTAATAGTTTTAGAATCCTTGCTATTTAAAACTCCTAAGTTTGTATTTGTAAGAATTGTACTTAATTCAACTCTATTCCTTATTGAAAAACTCACTGTTACATTTCCATTATATTTATTTATTCCACTAACTATAGCAGAACTTTTAGTTATTTGATTAATTGTAAAGTCATTTTCACTTAGACCACTATTTTTTTGAAGAATAACTTTTAAAATTGTAGAGCTTTTATTATCTTCAAGAATTCCTAAATTAGTATTTTTTAAAAGTGTACTCAACTCTATTTTTTCTTGTTTTGCAATAGCAAAAGTAATTTTAACTTCTCCTTCATAATCATTCTGTCCCTGTACAATAGCAGAATTGCTATTAATATTAGTTAAAATAAAATCACTTTCCTTTAATTCAAGATTATTACTAATAATAGCTCTTTTAATAGTTTCTTGACTATTATTATTTATTTCCCCTAAATTTGGATTTTTTAAAACTTCATCTAATTTTCTTATAACTTTAAATGTTACTTTAATATTTCCTGAATATTTACTAATACCCTCAATAATTGCTGAATCATTTTTAATATCTTTAACTATAAAATCATCTTTTGATAAACCGCTATTCTTTTTAATGACAGCTTCAGAGATTGTTACAGATTCATTATTTTTCAATGTTCCAATATCAGTGTTTTTCAATAAATTACTGATATTGTTATTTAATAAGCTACATGATGTTGTATATGTAGCTGGCACCCCAATAAGTCCTAAAACAGATAATAGATATATTTTTTTTCTCATAATTACCTCCTTTAAATATTTTATATTAAAATTGACAAAATATAAAATATCCACTATTTTAATGACAGAATTTTAAAAATAAGTTAAAAAATAAACTTAATTGCTTTTATAAGCCAAAAATTCATTAATAAACATGTAAAAATAATTCTATACTCTATTTTTTAAAAGATGTGGAATTTTTTTAAACTAAGTTTAAAGAAGTAACATTAAAATTTATTTAAAATATTTAAAAGAAAGAAAATAAGCATAGTAAAACTTGATCAAAAATCCCTAAATACAATGAAGAGTTTAAAGCAGATTGTATTACTATATGCAAATGAAAATAGTATAACAATAGCTTATAAAAAATATAAAGTTCCAATTGTTTCTATTGGAACTTCGTAATTATAAGTAAATGCTCAAGATAATTTTTAAACTACATAAATTTAATAAATGCTTTGGTCTCTTGACTTTCAGATAATTTAAACAGTTTCTCATACTTAAAATTAACTGCTAAATAACCTAATTTAAATGTAATAGAATCTGGATTTTTATCCTTTGCTCCACTTTTTGCAGGAATAAAAGATATATCATTTTCATTTAAAACATATTCAATTTTATTATTATAATAACTTCCTTTATTTGATGACTCTAAATCATATAAATTGTTTGAGCTGTTTGAATTAATTAAATATACTAATGATAAATTTTTATTTAACATATTATAAATATTTAAATTATTAATAAATTCCTTAGAATTTTGTGAAGATTTAAAACTATCTCAAAGACTTCAAAATATTCTATTTAAATTTCCTCCACTTTTAGAAGGTTTGGATCTAATATCATCTTCTTTCATTTGAGAAATAATTTCTTTACTTCCAATGTTCATTAAGTAATCTTGATTGGAATTAAACTCAGGGTATTTAAAATTTGAATCTATTTCATAAAAATTATGCATTCCTTTTATTATAACTTTTGAAGTAAACTCACTTAATAATTCAATTTTCTCTTCAGTTTTTGAAGAAGCATTATATGTTACAGATAAATTAAAATCAGATAACTCATGAATATATTTATTATTTCCTGAACCTATTGTAATAGTTGCCCCTTTCAATTTAAGATTTCCTATTGAATCTGCCTTTATATACTCATTGGAGTTTTCAATTAAGTTGCTTTGTTGATCTGTTAACTTTAAATTTTTAAGATAATTACTTTTTAAAGTAGTCAATTCTTTATTTCACTTATTCATATTATCATTTGTAAAATAAAGCTCTTTTAAAGTTTGAGTATTTAATTCACTATTTGGATCATTTCTAAAAATAGTTTTAAAAATTTTCTCAGAACCTTGTTCTGACTTTGTATAATCTTCAAAAGACTTTGAACTTTTAGTTTCAAATACATTTAGTAAGTTAGTTTTAAAAATTGAATCAACATAAATACTGTTTTTATTAAACTCTAAAGTTAAATTTTCAAAGCTTGTGAAATAATTTTTTTTAATAAAGTTAATTAAATTATTCTTATACTCATTATTTGAATTTATATAATTTTTTATCTCATTTGAAAATTCTCCATACCCTTCATAAAAGTTTTTATTATTTTTTATATTCTTTCATTCAAAATTAGAATACTTTTTCATTTCATTTGAAACTAAAAAATCCTTTTCAATATTTTTTGCTAGATTATCTCCTGCTAATTTAAAAGTTTCACTATCTGTTGAAGTATATTTTAAAGTATCTCTAATTTCAAATTTCTCAATATCATTTTTTCCTTTATATTTTATATTTACTTTATATTCATTTATAAAGTTCCCTATATAAACTCCCTGAGATAACTCTCCTGATTTTATTTTAAAATTATCATTGTAAATAACTTCTATTCCTTCAAAAACTGAGTCAACTTCATCTAAAATAACTTTATATTTATTTACTTTTTTTAACTCATTTAATTTTTCTGCCAATAATTTTGATCTTAAAATTAGATTTTCATCATTTTCTATTTGTTTTTTATTCTCTGGTGTTATATCTTTTTCTTTATTTGAAAAAGCTATTATATTATCTTTTTTAATAAACAAATAGTTATTCTCTGTTTCTTGTAGACCTATAAGATTTTGAATAACTTCATTTTTCATATGGGTGTTGTAAATTTTTGTAACTTCATCTTGAAAATCTTTTATAATCTCATTTAAGTCTTCTTTTTGAGATTCTTCTGGCTTAGAGTTATCTTTTGATTTTTCTTTTGTACCACAAGCAACTACACTAACAGTTGAAGATGATACAAATCCAATTGTTGCCAATATACTTAATAATTTTTTCATTTTTCCTCCTTTTTTAAAAGCTGTTGAAATACAAATAAACAATTCAAATTGATATCAATGATTATAAAAAAAAAAAAAAAAGTCAAATTTTTGACTTTTATTCGAAAAAATAGGCAAAAAAATGCTTATTTACTTTATTTTTTAACTATACAAATTTCACAAATGTTTTTGATTCTTGTTTTTCAGATAATTTAAATAATTTCTCATACTTAAAATTAACTGCTAAATAACCAAATTTAAATGTAATTGAATCAGGATTTTTATCCTTGACCCCACTTTTTGCAGGAATAAAAGATATATTATTTTCATTTAAAACATAATCAATTTTATTATTATACATAGTTACGGAATTTGATTTTTGCAAGGTAACTAAGTTTGTTGAATAGTTTGGTAAAATTAAATATACTCAAGATATTTTTTCATTTAACATATTGAAAATATTTAAATTACTAATAAACTCTTTCTTTTTTTGATACTTTATATTATTTCAAAGACTTCAAAAAGGTGGATCTATATCTCCTGAAAATTTTGAAGTAGTAGATTTAATATATTCTTTTATATTTAAAACTATATCTCTACTTTCAATATTCATTAAGTAATCTTGATTAGAATTAAACTCAGGATATTTAAAATTTGAATCTATTCCATAAAAATTATGCATTCCTTTTATTATAACTTTTGAAGTAAACTCACTTAATAATTCAATTTTATCTTCAGTTTTTGAAGAAGCATTATATGTTACAGATAAATTAAAATCAGATAACTCATGAATATATTTATTATTTCCTGAACCTATTGTAATAGTTGCCCCTTTCAATTTAAGATTTCCTATTGAGTCTGCCCTAATATATTCATTAGATTTTTCAATTAAATTAGTTTGCTGATCTGTTAACTTTAAATTTTTAAGATAATTACTTTTTAATGTAATCAATTCTTTATTTCACTTATCCATATTATCATTTGTAAAATAAAGCTCTTTTAAAGTTTGAGTATTTAATTCACTATTTGGATCATTTCTAAAAATAGTTTTAAAAATTTTTTCAGAATTTTGATTTGATTTTGTATAATCTTCAAATGACTTTGAACTTTTAGTTTCAAATACATTTAGTAAGTTAGTTTTAAAACTTGAATCTATATAAATATTGTTTTTATTGAACTCTAAAATTAAATTTTGAAAACTTGTAAAATAATTTTGCTTAATAAAATTAATTAAATTATTCTTATACTCATCACTTGAATTTATATAACTTTTTATCTCATTTGAAAATTCTCCATACCCTTCATAAGAGTTTTTATTATTTCTTATGTTCTTTCATTCAAAATTAGAGTATTTTTTCATTTCATTTGAAACTAAAAAGTCCTTTTCAATATTTTTTGCTAGATTATCTCCTGCTAATTTAAATGTTTCACTATCTGTTGAAGTATATTTTAAAGTATTTCTAATTTCAAATTTTTCAATATCATTTTTTCCTTTGTATTTTATATTTACTTTATATTCATTTATAAAGTTCCCTATATAAACTCCCTGAGATAACTCTCCTGATTTTATTTTAAAATTATCATTATAAATAACTTCTACTCCATCAAATATTGAGTCAACTTCATCTAAAATAACTTTATATTTATTTACTTTTTTTAACTCATTTAATTTTTCTGCCAATAATTTTGATCTTAAAATTAGATTCTCATCATTTTCTATTTGTTTTTTATTTTCAGCTGTTATATCTTTTTCCTTATTTGAAAAAGCTATTATATTATCTTTTTTAATAAACAAATAGTTTTTCTCTGTTTCTTGTAAACCTATAAGATTTCCAATCACTTCACTTTTCATATGGCTATTGTAAATTTTTGTAACTTCATCTTGAAAATCTTTTATAATCTCATTTAAGTCTTCTTTTTGAGGTTCTTCTGGTTTAAAGTTATCTGTTGATTTTTCTTTTGTACCACAAGCAACTACACTAACAGTTGATGTTGATACAAGTCCAATTGTTGCCAATACACTTAATAATTTTTTCATTTTATTCTCCTTTTTTAAAGAACTGTTAAAATACAAATAAACAATTCAAATTGATATCAATGATTATAAAAAAAAAAAAAAAAGTCAAATTTTTGACTTTTCTTCAAAACGTTCCCCCATATTGGGAACCTTGTTCAGTTTGTGCTGATTAATTTTGGTAAGTACTTTAGATTAAGAATGTTGGATAATAAAAATAACTTTAAAAAACTTGTTGAGAATATTATTTTCCAGTTTTCTTTTTAATCGTTTTTGTGTTTTTTGTGTTTTTCTTTTTCTTTTTCTTTTTCTTTTTCTTTTTCTTTTTCTTTAATTTACATTTATTATCTTTTTTTCTATCTTCTTTCTTTAAATAAAATTTACTTCTTATAATTGTGCCTGTAATTAATAAAAGAATAACTATTAAAACTGAATGAACTGATAATAAAATTATTAATCAATTTGGCAATGAATTGGGTCTTTTAAGATTATAAAGTTTAATTTCTATTGTTACATAATTATAACTATCTTTATTGTTTGTCTCTAAGGATTTTAGAGTAGAGTTTACTTTAAAAGCTCTATCAAAAATTCTAACTTTTATTTTTGTAGAATCAGGTTTAAAAGTAAAATAATTATTATCTTTTATATTTATTAAAGCAATTCCCAATGATGGATCTAATTTTGAATTTTTATTTAAAAAGTTTTGAATTTGTACTCTATTTTCATAAGTATTTTGAGTTGTTAAATTATTGGCTTTAAATACTATTTTAGAGATATCTTTAATTTTTGAATTTAAATCCAATTTATTTTTTTGACTCAGAGCAACTCTATTTTCTAATGTCGTACTTCTTAAATTTACTATTGCAATTAAAGGTGGCAATTTTACATACTCATTACTTTCAGATTCAAAAGAATTGCTTACATAAAATAAATTATTATCTTTATCATTAACAGGTTTGATTTTTATCCCATCAAGAGTTATTTTAGTTTTTCCATTTTCCAACTTTTCATATTTTGAATTTGTACCAAATAAACCCCATCCACTATTAAATCTCTTATTAGTATTTCCTTTCTTTCAATCATTAATTTCTCAATATGAATTATCTAATTCTTTTCACATTACTTTATTTTCAAAACCCTTAATTTTTTCCAAACTGTTTTGAATTTGATTATAAACTCAACCTATAACACTATTAAAATCATTGTATTTATCTAAAATATAATTCTCATTTCAAACCTTATATTCAGATTTTTGATCTGCTATTTGAGCTAAATTAAACTTATTATTATATTTTGCAATAACTAATTGTCTTTTAGAGCCTCTAAATCTTGAAGTTATTTCATCTTGACTTTCAATAATTGCATATCCTGAAGTTTCGTTTTCTCCATATTTATCTTTTGCCAATATTTTATTTTTTTGTTCACCTTCAATTTTAATTAAGTAGTCTTCAGTTTTCAACTGACTAAATATTTTTTTAAGTTTTAAACTATTAGATATTAAATTTCCAGTTTTCAAATTACTTTTAATTTCTTTTAAAATTTCTTGTTCATAGTTATCACTGTCATTTAACATTTTTTTAGGTTTAAAAATAAAGGATTGTGTATTTAAATTCTCTAAGTTAAATTTTTCAAAAACTGAACTACTAAAATAGCTATGTTTTTCTTTTACTAAACTATAATTTAATTGTTCATTTAAATATAAAAAAGTATTTTTTACAATTGAAAATATTGGTTTTGAAGTCTTTAAATCACTGTCTAGAAATAAAATTTTTCTCACTAAAGCATTTTTTGAAATACTTTGTGCATTCAAATAAGAATAGTTATAAATAGAGTTTGGTGTTGAAACTACTAAATTATAGTTTTGATTTATTTCATCAAAATAAGAATAAAAATTAATAACTCTATTAGATTCACTAACGAATTTATTATTGTATTTTTGAGTAAAACTTTGAGCTTGTAAATCAAATAAGGGTATTAAAGTATCTTCATTTTCTCCTCCAATATAATAAATTGTTGATTTATTAATAAATTTTTTATCATGTGCTGCTATTAAAGTATAGTTTCTCTCATCTAAATTATGAAAAGAATTTATAATATAGTCTATTGCTAAACTCTTATCTTTTTTGATTTCTTTAAAGTTAGGATTTATTTGTGTTCCTTGTTTATTGCCATTTAAATTTAATAAATAAGATTTTAAGTTTTTTGAGTTAGATAAATTTAGTTGAACCAAATTGTCTTTTGATAAAGAAAATTCAGCATATTCAAAGTATTGTGCTGTTGAAATATTGAAAATCAAATTAGATTTTATTTCATATGCTTTTTGATTCAATTTAAATTTTCCATGATTGTTTGAATCAACAATATTTGTTAAATCATAGTGAGCTACTTTTAACGTTGTAATAGAATCATTTGTCTCATAAAAAACATAAATACTATTATTCATTTCTTCTAAAGTTTTTATAGGTGAATATATTTTTTTAACTTCTTTATAATCATCTGGTAATTTTAAACTTACATTGTTAACTTTTATTGAAGTTTCCAAATCAAAAAAATTAACTTTTGCTTTATTGCCAATCGATGAATTAACATAAGCCATATAGTTTACTTTCAAAGTTAAAACTCCAGTTAATTGATCATTGTAAGAACTTAGAAAACTTGATGTAAAGCAATTATAATTTGTAATTCCATTATAAATATCGCCAAGAACTATTTCTGTTAATTTACCCTCTTTATTTTTTAAGATTCTGTTAGTTCCTAATCCATCTGCAGTTATATTATAAATAATTTCATTGTTCAAATTATCTTCATCACTGTATTTATAGCTTGCAACTGTTTGATTAAGATTTAAGTTATTAAATTGATTGTTAAAATCAATTGACGTAGCATAAGAAATACCAAAACTTTGATTGCTCCTAGCTTTTAAACTCTCTTGATTATTTTCAAATAAATTAAATGTTTTAGTTTCATCAACACCTTCTACATTTAAATTATTATTGCTATTAAATACTTTAGTAAATTCACTTTGTTCAATTAATAAATTTACAGGTGGGACTGCAATTAAAATCCCACTAAATAAAGTTAATAATGTTTTCACTTTAATTTACTCCTTTTTTTCTTTTAATATTTAATAAAGTTGTAAAGCACTATTACTTGCGCAATACAAATAATTATAAAAAAAAAAAAAAAAAGATGTTTTCACATCTAAAGAAAATAATATTTAAATTTTATTGAGTAAGATTTTTTGTTTTCTTTTCTATTTTAACTTTCTTTGTTTCATAATAATCTATACTTGTTTTTGCAAAAATTAAACCAAGTGTAGAGCCTATTAATAAAACAATACTGTGTAATCCTACAGTTGCTAATAATAGCCCAAATATTAATTCAATTAAAGATGGATCTATTTTAATAGAGTTTTTAGCCATTAATGGTAAAAATGCTATAATAAATAAACAAAGTCCAATTGCTACACCAAAAGCAAAACCAATTCTTTGTATAAATCCTCTTCTTGAATTAATTAAAATTAAATTAATAATTAAAATAATATAAAATACTAAACAAATTGTTGATACAGTTCAACCAAATCCTTTAATAGTATCTAAACTAGCTTCACTTACTTGTTGTAATCATGTACCTAGTTTTCATAATAGTTCATATCCTTTGAACATTAATGATTTCAATGCAATCATAAAAATTCCTATTATCATTATTGGTATTAGAGTTATTAATAATAAATATATACTTACATTTGATGATGTTTTTGAAACTCTAAGCATAATATCTCCTTAATTATTTAAATACCTATAACAACCATTAAAAGTATAACATTTTAAAATTAAAACTAGACAAAAAAAGCCCAGAGCTAACTCTGGACTAAAACTATTTAAGGGTAAAATAATTTTAAATTTAACAACTTGAATTGTTCTAGGTACTTATTTGCTTTTTTCAAAGCTCTTTTACAAGTAGCATTAACTTGTAGTTTCCTGATCCCACCCTTACACCCTTTACTTTTATAAGTAACTGGAAACTTGGAGATTTTATATTTAATATTGAGTTAATAAAATCAATACCTTCGATTAACTATTTTTTTATTCCCTGTTTTCTATAATTAGAAATTTACTATCTTCGTAAGTTGATTCGTAACCTCTTACGTTTATTATTATCAATTATTAATAAAAATAATCAATAATAATAAGTTAACATAAAATTATTTTTACTTTTTTATATTTCTTTTATATTTTAAAATTATTATATTTTTAATAATTTTTTTGATATAAAAAATATTTAAATTAATTTTTAATTTCTGCATTTTTGTATAAAAAAATAATTCTTTTATAAAAGTAATTTTTGTATACAAAAAGTTATGTTTATTCAACTTTTCAGATAATTTTAAATTTTAAATAATCTATTTATATTTATAAAAATTTAATTAAAACTTTGACTATGAGTTTTTAATATAAAACTTTAATTTATATCTTATTTACAAAAAATAAGCTTCTTTTTCTGAAACTCTCTATAGTTTTTAAATTAAACTAACTATTTTGTTTATTCCCGAACTACATCAAATGATTACACTTTTTTTATATGTAATACTTTTGACTTCTTTATTTTAATACTTTAAATTTAAAATGCAAGTCTTTTTTAAAAATATTTTTAAAATATTAAAATATTTTTAATTATAAATAAAAATAGTTATTTAATAAATAACTATTTTTCAAAATTATATGGAAAATTTAGCTTTAAAAAGGCCTTTCACCCTGGATTTGGTGAGTGATTTGGATATATTTTTCAATATTCTTTTTGAGCTTGTTCATAATTATCTGCTTTTATTATATTATTTCTAACTAAATACATAAATACTATACTTGCACTTCTATTAACTCCTCAAATGCAATGAACATAAATTTTTTTATCTTTAATATTGGTTTCAATTTCTTTAATTGCATCAAGTATTAAATTTTTATCCATATCTTCTAAATATGGATAATCTTCAAAGTTATAAAGTATTCTCTTTTTTTCATGTTGTATAAGTTTATTTAACCCTTTATGGGGATTTTGATCTTGAAAGATTTCTTGAGCACAGCTAAGAATTAAGTCAGAATCTTTTGGAACTGAGTGCATATCTCCTAAATATAAATTATCCACTATTTTTTTGCTCATATCATATCTCCTATCTTAAATTCAATTTTCTAAAAATGCATTAAAAAATTCTTCTTCATTATCTATGAACAAACAATCATAGTCTGTAATACTTTGATTTTCCAAATTTTTGTATTTCAAAATATTTACAAATATATGATTACTTTCATCAATTACTTGTTCTAAAAAAACAATTGGTCAGTGTTGTAAACTTGTTTTTAATTGTAATAGTCCTATTTTACTTGATTTATCTAGATATAAATTAATTAATTCATCTTTCTCATAATTTTCTTTACCTGTTAGGTCACAATAATATGATATGTTATTTTGATTACTTGCTTTTATTAATCAATCATTTTCATCGAATTTTATATATAAATTAACAATTTTATCTTTTGTATTTAAAAAATGTACTTTATAGACATTTTTCAATTCATAAGATTGTCCCTCATCATTTAACTGCACATCTTTTGAATCAAAAAATTCAATATGATTACATTCTCTTTCTATTAATATTGTATTTAGTTTCTTTAAAAAGTTAACATTATTCATATAATTACCCCCTTTTAATTATAATAAAAAACTCGCTAATAGCGAGTTTAAATATTATATAATTTAATCTTAAATCAGTTGGCTAATACTATTTTAAGATATCTAAGTAAAAATGTAATCTGTATGTGTTAAGCATTAAGCTATCTATATTTAAAAATTAATACCATATTATTTTATAAAACAAAGAAAACAAAATAATATAATATTTTAATCTAATACTTCAAAAAATATTGGTTATTTTTATTTTTTCAAATCCCAAGTACCAAAACTAATTCTTATTCTAAATGCAAAATTATTTATTCCCACCTTTGATTAAAAGGCTCTTTTATTTTATCAATATCAAAGAAAAAGTATGTAGTTTTATGTAAAATAGAAATTATTTTAAGAAATAAAAATATATTTTATTTATTTTTATAAACAATTTTAGTAAAAATAAATAGAAATTTAATTTATAATTGTTTAGAATAATTTAAAAGGAATGATATTAATGAATTACAAAAAAAGTCTAAAAAAGTTAAAGAGATATCACTATAACTGATTTAATTTAACTTTAATGATACTTTTATTTCCGTTGGTTTTACTTTTATCAGCACTTTGTGCAATTATCTTCGTACCCTATTTATTTAAATATCCTAGAAAAGGTTCTTATAAAGGTGTTGTTGAATTCAATACCTATGAACATTTACTCTATGATCTAGAAATTAAAAAAATGAGCAATTTTAATATAAAAAAAGAACAAATAAGAGATTTCAATATTGGAGCACTTAAAGAACAAATAAGTGCTTTAATGGTTAGAAATAAAAATAGTAAAAAATGAGTTGTAGGTCTTCATGGTTTTAAACGAAATAAATACATGGGTTTAAGGGGAATTTATCACTTCTATGATCAAGGTTATAATTTAATTACTTTTGATGCTTTTGCTCACGGTTCAACCTATGGTAAATACTCTGATTTTGGTTTAACTAACGCAAAAGTTTTAAATGAAGTTATTAGTTGAGTTAAAAATACCTTTGATGTTGAAGAAATTGGGGTCTTTGGAACAAGTATGGGAGCTACTAGCTCACTTTATTTTGCAAAAAAATATTATCAATCAAATAAAATAGATTGATTAATTGCAGATTGTCCTTTTGCGCAAGCAGTTCCTCAAATTAGATTCTTCTTAAAAAAATATATGAAGTTGCCTTGATGACTAATGTCTTTAGGGATTAACTATAATTTTAGAAGATATGCAAAGAAAAGTATTAAAGAAGTTAACTTACTATTAGGTTTTGAAAATATTGGTGAATTAAAAATCTTATTTATTCATGGTAAAAAAGATGATTTTATAATGTATCAAAACTCAGTTGTTATGTATCATTTGAAAATAATGACAGAAGAAAATAAATTAAGTGAACTAAAATTATATGAAAATGCTAAACATTCAAGTAGTATGCACAAAAACATGGTCAATTACATAAATACTACTACTAGCTTTGCTCAAAATTTACAATCTTTATAAAAACGAAATAAAAACACAGGTTAGACTATAAACCTGTGTTTTTATTTAGCTATTTAATTTATATTAAACAATTGATTTTGCTCCACTATTTATTTCATGAGTTGTACCTTGTGGCAACATGAAATGTGCATTTCAATTTTTTGTTTTATTATAGAAAGTTAAAGTACATTTATTTCAAACGATAATAATTTGATCATTTTCATCTGCTGGACCACCTTGAGTATTTCACTTTTTAAGTTTTGTGTTAACTTGGTTATCTCAAACTATTTTTTTATTTTTTAAACTAAAAATGAATTTTTTGTTATCAAAGTTTAAAACATATCCATTTTTAAGATCATTTCCTTTTAAGTAATAAACTGCTGTACCATTATCAGAAAAACCTGCAATTTTATCATAAGGTGAAAATTCAAAGTTTGAATGATCTTCATTTCATTCAATTTTTTCACTACCAAACAGTCCACCTTTTCAAGACCATATATCAGTATCATATGCTCAATTAGAGGCCATAGAACGAGCTATTAATAAGTTTTTAGACTTTATTTCTGCACTGTCAAACTTTTTACCACTGTTAAGCAATTCTTGAACTTGTGTTTGATAAGGATTTACAACTCTTTGTGCATATCCTTCTGTTCCATATTCATTTGGAGTTCAAGGATTAATAAGGTGCTTTTGACTACTATTTTCTCAATCTAAAACTTTATTCTTTGGTTGTTCTTTTTGAACTATTTTTTCTGCTTCAATATTTTGTAATTTATCAAGATCCATTCTTTGATATTTTCCGTTTTCATCTTTTTTAACAGGTATAAAACCTTGTTTTTCATCTCACTCACATAATGCTCATCATGCTGATTGAAATGGTCCACCAAAAGGATTATCTTGAACTGAAGCTGATACATATCAAAGATTTTCATCAATTCTTACTACATTGGGAACTTCAACACCAATATTTCTTACATAAAGTTCACTCACTTTAGTAATTTTAGGCTCATCTTCTATTTTTTCTTTATCTGAAAAATAATTTATTTTTCAAAACTCTAATCTATTGTGAGCAGATATTGCAAAATAAAGTTCATCTTCTACTTGAAAAAGAGCAGTATCTCTTCAATCCATTGTTCCATCATCATTTAAACATTCTTTAGATAAAACCCCAGATGTATAAAAATCTTTTCCTAAACCGTGTGAAACAAAATAGGCAATTCCACTTTCATCTGTTGTCTCATATCCTGATGAATAATTACTTCCATGAGATACTGATTTTTGTGAATCTAATGAGTTTTTTTTACCAATTTCTTGTGATTCATCTTGATTCAAAATTGTTGAAGGTTGCATTGATAAAACAAATACAACATCACCTTTTTCAAAGTATCTTCCTTGAGTATCAACTCATACAGATCCACCCAATGCTGAAGTTGATCCTTTACCATTTATAGTTGAAAATTCTCTACCTTGTTTTATTCTATATTTACCTTGTGTTCATTTATTTAAATCAGGTGATGTCATTTCAATTCACCCTGCTGGAAAGCCTTTTCCATCTCTAAATAGCATTCAACTATAAAATAATTGTTGCTCTTCATCTCATAAAATTGAACATGAATCATTTGCAAAAGCATTAGCATTTCCTTCTTTAGAGTTAAAAGGACTATATCAGTTCATAGGTCTATCAAAATAATTGTCATTACTATAATTAACATTAGTTGAACAAGACATTACACTCAATGGTGCAACAGTCATTAAAGTGGCTGCATTAATTCCTAAAACAGTTTTAAATCAAGTCTTTGTTTTGTTAACTTTTTTAATCATATTTCCTCCCTTATTTTTATTACTAAAATGTAAATTTTTAAAATCACTAATAAAATTATACCACTTAGCAAAAAAAATAATAAATTTTCCTTATTTTTTAGATTTGAGAAAATAAAAAAGTAAGTATAAAAGAGATATTTATCTTTTTTTGACTTACTTTTATAAATTTTTTAATTTCTCAAATTCTAAAACACTTATTTAAAATGGTTATTTAAAATAAACTATCTTTAATAATCTTTTAAATTTAATAAAAAATTACAATAAGTTTAATTAAAATATTGGATTTGCATAATTATTCCAATTTTGTTCACTTCAAAAAGCATTTTTAGATATATTGTAGTAATTCAAATATAGAGGAAATTGGCATAAATAATTAATATCGTTTAATTCAAGATTATAAAAATTAAACAACATTATTTGTTAATTTAAGTGATCAACTGTTTGTTGTGCTTGAAAATATGTGCTATATATAGCAATAATATTCATATTTACAACAAAATAACTACTGTTTTTAATTAAAATATAATACATACTTTTTGAATTACTTTCTTTTGATAAAAAATAAATATTTTAAACTACTTTACGTCTAACTGTCTAGATTCTAATGCTTTATGAATAGCTTCCATATTTATAGGTAAACTATTAACATTTGATAATGGTAAATTATTCTTTATTAAATATAAGAATAAATAGTTTATTTGTTTTTGATTTTTAATTCCTATAATTAAGGAGTTTTCAGTTTCATCATATTTAAAGGATTTAATATTATATTTAGCAAGAAAATTTTTAAGATTTTCTACGTTAAATTTCTGTTTAATAAATAATTTATATTTAGGATATAAATCTAACTCTTCTTTTGAGCCTTCAAAGATTTTTTCTCCCTTTTCTAAAATTATATAATCATCAATAATATCTGCTATTTCATCAATATTGTGAACTGTAATAATAATAGTTTTGCCCTGCTCTTTATAATTTATTAGCAGTTTTTTTATTTTGTATCTTCAAACAGAGTCTAAATTAGCTCCTGGTTCATCCATAATAATAATTTCTGAGTCTTTTATAAAACAAAGAATTAGATTTAATCTATTTTTCATACCTCATGAGAAGTTACTTATTTTCTTATTTCTTGCTTCTCAAAGATCAAAAAACTTTAATCAATACTCTATTTTTGAATTAATTTCTTTTTTATTTATTCCAAAACTTAAGCACATGGTTTTTAGAAAAAAAGTTACTTTAATATCATAAAGAGCAAAATCAATTTGAGTATAAAAAGTTATTTCTCTATTTACTTTATAATTAAATAATTTCTTTCTAGAGATATTTTTTATTAAAATATCTCCTTTAAATTTCTTTGTAGCACCAATAATTGAGTTAATTAAAACACTTTTACCACTGCCACTTGAACCAAGAATAGCTGTTACTCTATTTTTCTTTATTTCACATGAAATTGGCCCAACCTTATTTTGTTTAAATTTCTTTAAAAAATTCTTAATAACTATTTGCATTTTATCTACCTCAAATCAGCTCTGCTAAATTTATAACTTCCAATCAAAATGAAAATTAAAGATAAACAAGACTGAATGGCTAAATAAATTCAAGCTTGTATATAGTTTTTAGAAGAGTTTTTGTTAATAATATTTTGTTCATTTAGTTTAAAAGTATAATTTTTATAACTTAAAAATAAATTTTTTTGTTCATTTAACTCTATTTTAGATTTTGAGTAATTTTTAAATCAAAAATCATCATAAGAAAATCCAGAAAAGTTTGCATAATTTGTTCAAATTCCATTAAATATATTTACATTGTTATATCAGTCAAATTTTTCTCTAGCTTTTAAATAATTTATTCAACCTTCATTGTTTACATCTACTTGATAATTTGTAGCAACAATATACTTACTTGTATAATTTATAAAATACTCTTCTAAAATTCTGGCAGCTAACATTAAAGGTAAAAATAAATCCTCTTTAACAAATTTATTTTCATTTACTCCAGGTTTCAATGTTAAACCATTTTGCAATGAAGAAGTTGCATTTAAGTTATATTTGTAAAGATTAACTAAATAATCTTTTCTCATTGTTGCACTTATTGTTTTATTGTCTTTATAAATTTTACTTTTTGATTCATCAACAAAAACAAACTCATTAAAGTAATCACTTGATAATTCTTTAAAATTTGAAAGTTGATTTTGAATTGTTTTTAAAAAATTGTAAAGATCTTGTAATACTAATTTCTCTGATTGACTTTTATCTTGTGAATTATAAGCTAATTCTTTTAAAGCAACTTCATCTATAAAAGTTTTATTTAAATAGATTTTAAAATCAACTGAGTCATTTGGTTTAAAAGCTGCTAAATCTGTTAGAGCAGCATCAACAGGTAAAGTTTTTAGATTTAAATTATCTTTCAAAATCAGCATTTCTGTATTGTTTATAACTCCTAAGGAAGTTCAAAAATTATTTAGTCTATTTGAAATTGATTCATTAGTTACAAAACTTTCCTTAGTAAATTGATTATCTTCGACCATAAACTTATTTAAAGCAAAAGATAAATAAGGGTATTTAACTTTATAGTTTACAATATAGTCTTGTAAATCAAATGAGTCATATAAATCAGGGATTTTATACAATTGCCCTCCATTATAGTTAAATTTTATTGTAGATTGCTCTTCTTTTGTAGTTATGAATTGTCTTGGAATGTTTGATAAAAAAGTTATAGAGATCAATAAGGTGCAAATTATTGTTGTTACTTGCAAAGAAGTAACTAGCAATAAGAGCAAAATAAAAGATATTAAAAATAAACAAGACATAAAAGAGTATGCTAAAAATGCTAAATTAAGTCTTAGCACTAATTTAAAATTATCTGACATGAAAGTTGATGCAGCTATAATAACAATACAAGAAAATAATATATTTATAAAAGCAATTCCAAGTATTAATATAAATTGACCGCACAACATTTTTAGTCTAGAAATTTGATTTGATAAGACAAGATAAAGCAATTTATTATCTATAATGTTAACCAGAAAAAATTGTAATGATCTTAAAATTATTAAGAAAATAAACAATGAAATGTAAATAATGATATAAAAATTAAAATAAGTTACAATTTTTTCTCCTGTATCTAAAAATAGAAAAGTTAAAGAATATATTATTGGAAAAGTTAATAAAAACAAATTTAAAATAATAAATGATTTTTCACGAAAAATCATTTTAAAATTAAATATTAATATATTCTTAAAAGAGATTGTAGATGCTAATTTTTTATTTGTAGTTAACAAATTAACCTTTACTTCTTTCAATAAAAATTGACTGTAGTGAACTATCTGCTTTATATTGTTCACAAACAAAAGCAATATAAATGAAATTCATTTTTATAGCTAATGCAGTAGTTCTACTTGTGAATCCACTAAATAATCTTGTTTCTTTATAACCTTGATCAGTTACTTCTAAGTCTGAATAAATACCATACCATTTCTCAATATCATTTATTGAGTTATTTGAATTAAAGTTTGTTGTTGCTAATCTAAATGTTGATTGATATCCTTCCTCTAATAATTTATCTCTGAAATTAATTTGATTCTTATAATTTAATGATAAGGATTCATTAAGATTTCAAACAAAGCTTCCATCACTATTTTTCAATTTGTCTCAAATATTTTCTTCAATTTGACCATCTCTTACTTTACCACTAAATGCAAATGGTGTTCTAAATTGCTTGCTTCCACTATTGTTTAAAATTGTTGGTTCTCTTGTATCAAAAACATTTTGAAATGATTCAAGACCTTTAATTACATTAAAGTAAATTGCATTTCCCAAAGATGTGTCTTTTATCATTGTGTCATTGTTATTATCACTGCTTTCACTATTATCAATAGAAGCAGAATAGCTTAATTCAAAAGCATTAATTGGTAAAACATAATTTTCATTTATTCTCATTAATAAACCTTCAAGTAAAACATTTCCATGCATAAATGAATTAGTTTTTTTGTAATTTCCTTCATAACTATTTGCTGTTAAAAACTTACTAAAATCAGTTTGATAATTAGAAAGCATACCTTTTAAATTCTTATTTAATAAAGAATAAATTGCATTATTTACTTGTTTAGTTCCATAATCTTTAAAAGCAATTTGATCTCCATATTGTTGAATTTTTTCCATAACAGCTTTAGTTATTGCAGAATACTCTTCACTGTTTTGTTTATCTAAAAAGTAATCATGTTTTGTTGTTTCTATTTTTTTAGTTACAGTATTTGATTTAAAATTAACTTTGTTATCTTCATACTCTAAATTTATATTAATATTATTTAAATATTTTGATTTAATAAAACTTGAAAAATCTGTTTTAAACTCATCAGAAGTATAAATTTTTTTAAGTGCTTGCATTCTTTTATTTTCATTAAATAAATCAAACATTTCATAAGTTTTATTTTGAGAAATATTTAATGCACTATTTTTATAATCCAATCATGAGTATTTAGAATCAGTTGCTAAGAAATCTTTTTTAATATTTGTTTGAATATTTTTAATAATTTCAACTATAGTTTTATCATTTGTATAAGTAAATGATAAGGGTGTAGTTGTTGTAAAGTTTTCTTTTATCCCATCTTCATTTTTATATTGAATTGCTATATTTATTTTAATAATTGTTGATGATAAAAAGTAATCATCATTAGCTTTTGTTAATTGTTCTTGTTGTCAATCTTTATTAGTATATTTTATATCAATAGAGCTTTTATCAAAGTCAATAGAGTCAACAACTGAACCGTTTCAAAGTATAACATCATATTTATCTGATGTTTTGCTTATATCATTTAATTGTTTTTCTAAATCTGAAGTGTTTAAAATATTGCTGAAATCTTTTGCAATATTTTCTTTAATTTCTTCTGTCATTTCTTCTTTAGTTGAATAAGTAGAAATATCTGTTGATTTTCCATACTTTTCAATGTTTTCTCTATTAAAGAAATTATATTGAACTCCATCATTTACTAATCCCAATAATTTATCTTTTTTTGAATTTATATGAGAACTTATAATATCACTTGCTTTTGTTTTAAGTTCTTTAATAAGTTCAGAAATATCTTCATTAGGTTTTGAAGGATTTTTATCTTCATCCTTTTTTGTTCCACAAGCAATAACTGTAGTTGTTGCTGAAGCTACAATACCAAAACCTGCTAATAGGTTTAATAAAGCTTTCATTTTTCTTCCTTCTTTCAAATAAGTACTTGAAAAAAGTCAAATAAGTATCTATAAATTTTTATTATTTTTTAATTCAAATTATCCTTCTTATGATATTAAAAAAAAAAAAAAAAAAGCAATAGATAAATGTAATTATTTATTATATACTTTTTTTAAATTATTTTCTTTTTAATTCAATATTAATTTTACTTTTATATAACTATATTATTTCTCAATTTCTTGAATAAAGTTATTAATTTCTCTTGTTGTTAAGAATGCATTTGGATCTTCTTCTGCATCTCTATAGATTATTTCAGCTTTTTTAGCTCTTAATTCTTTAATTTCTGTTCTTAGTTTTTCAACTTCTTGATTATTTTCAAAATCAATAGTTTTTTGCTCTTCTAAATCTTGTTCTAATCTTCTGATTTTTTGTTTTAACATTCTTTTTTCTTCAGAACTTAATTCCATGCTTTCATTTTCTTGATTTTTTAAAGCATCTTCTAGTTTTTTAATTTTTGCTTTTAAAGCTTCTTGTTCTTCAGATGTAGCTTCTAATTCTCTGATTTTTTGTTTTAACATTCTTTTTTCTTCAGAAGATAATTCATCTCTAATATTTTCTTGATTTCTTAAAGTTTCTTCTAATTTTTTAATTTTTGCTTTATATGCTTCTTGTTCTTCTAAAGCTTCTTCTAATCTTTTGATTTTTGCTTTTAAAGTCTTTTTCTCTTCTTCTGCAGCTTCATCACTTAAAAGTTCTTGAGTTTTTAAAGCATCTTCTAATTTTCTAATTTTTGCTTTTAAAGCTTCTTGTATTCTTAAACTATTTTCATCTTCTTTTTGCTTATTTTTTTCATTTAAAGATTTTTCCAATTCTTGAAGTTTAGCTTTTCAAAACTCTTCATTATTGTTTTTATCTAATTTTTTATTTCTACGATTATTAAGTTCATTTATTTCATCCATTTGATTAATTAGTGGATTATTTTTAATATATTCATCATAAGTACTTTCATCTGGTTTTAGATACATATTTTTATTTGGAATTGGTAAATTAAAATTTTTTACTTTTCCAGAGAAACCATCATAAGGCAATAAATTATTTATATTATTAATTGGTAAACCACCATTCATTCTCATTGGAAAATGAGTGTTTATAGAACCTTGATAATTTAGAAATGATGCTACTTGTTGAGCTTCAACAAGTGTCATGAATTTATATATAACGTTCATAAATCTATCTACAACATAAAAAACACGCCCATTTGAAAAAACATAATACATATTTTTTGCCTCCTCTTAATTTAAAAGAATACATTTTTTTATAAATGCAGTAATAGATTATATACATTTCTAAAAATCTTTCAATATAATAATACACAAAAAATCAAATAAAATCAATGCTTTTGGTCTAAATAGAAAAACTTCTCACCTAAAAGAGAAGTTTTTTATAAATTATTCTTAAATAAAATATTTTAATAAACAATCAGCAATTTAAAATAAAGACATTTGTAATAATAATACTAAAACCTCTACCTCTAATTCAAATGACAGCTATATTATTATTTTGATACTCTTTTTAATGATAATTTAGCTTGGTCTTTGCTTTCATCAGTTGAAATTACATAACCTTCCATTTGTTGACCTACAGTTACATAGTCAGCTACATTAGTAACATAAGCGTCAGCAATTTCAGATATGTGAATTAAACCTTTGTAGATTTTTCCATCAATTTCAGCATCACAGAATGCTCCAAAATCAACGATTTTAGTAATAGTAATATTTACAATTGTTCCCATATTAAATTCTCCTTACTCAATTAACTATAAACTATTTTTATAATTTTGATAGGTTTTTTTGAATAAAAAATAAAATATTTTTATAATTGAATTAAAAAAATATTTTATTGATAAGTTATAAACATAATTTTTTTGTTATTTAAATAAGCTAATTTACTAATTTAAAAGTACGATCTTTTTTTTGGAATTTTCTTTTTCATTGCTTTATAGTGCTTTTTACAGATTCTTCCAGTTAAAAAAGGTTTATATCCCTTTCTTAAATACCCATTTATTGGGCAAGAACTAATTTCCATACAAATATATCTTAACTCCTCCAAATTGTGAGAAATTTACATTTTTTTTAAAATTATAGGTTTAATAAAAATTTTTAAGATTTATTAATATTTTATTTTGGATTTTTCAATAGTTAAATAAAATTAAGAACTTAATGACTATATTAGAACTAAATATTGATCTAATAACACCATTTTTTCCGTCTATTACCCTTTCATAAAACGTATACTTCTTACATAGTAATTTTAAATCCAGTGGGAGATAAAATATTTTTATCTAGAAACAGGAAAAAATTTTACTGAAAAAAAGTAATTTTTAAAATATTTTTCCCTTTTTATTATTTTATTGATCTGTTATTGTTTTTTTCTGCTTTAATTTGATTTTTTAAAGCTAATTTTGATTGTTTATCTTTTAATATCAATTCTTTAAAGTCTTTTTTAGAGATTGCTTTTAATTCGTAAATATCTTCATTGTAATCTTCTAATAATAAATCTCTTGTTCTTTTTTCAAAAAATTTAATTTTTCCTAAAACTAGGGTCATTGTAAAAGTAACGCTACAGCTTACAAGAATAGAGATTCCACCCCATACATAACCTCCTCCAATTCAAGTAGTTGCTCCTGTTAATTCTGGAGCTTTGTGTTGAAACATTAAAAATCCAAAAATAGAACTAGCACCTTGTACAGCAAATGTATTTGAAGCAACTAAAACTAAACTTCCACAAAAGACACCTATTGAACATGCAATTAGTGGAAATAAATGCTTTAAATTTACTGTAAATAGAGATGGTTCAGTAATTCCCCCAACAATAGCAGAAACTCCATTAGAAACACCCAATTCTTTTAATTGTCTTACTCTTCTGTTCAATACAACAAAAGCAATAGTTGCTACACCTTGTGAGATGTTTGAAAGTGTACAAAGACCTTGAATAATAGTGGTTCCATATGCTGCTTGTCCTTGTAAAATGATTGGAGTTAAAGAATGATGTAAACCTGTAATTACAAGTGGACCATAAGCAGCTCCAAGTAAAGGTAAAGCAATATATTTGGCAATACTGTTAGTACTCAATCAATTTACAGATATAGATAAATAATTTGTAAATAACATTCCAATTGGTGCCACTACAAAGATTGCAAATAAAAATGTAACTCCAATAATAGCAATTGGCCCTACTATGTTTTTTGCAGTAGTGTTTTTTATTTTTGATGTTCATATTTCCATGTAAGCACCAAAAATAGCAATAAATATCATTGGAACCATTAAACCATTAAAATTAATTTTTCAAGGATAAGTGATTCCTTCTCCGAAAAGAGTTCATCCTGGATAAACACCTAAAATTGTTTGTCCAGATTCAGGTTTTACATCTCCCATGGCAACTAATCCTGGTGCAGTTAATACAACTCCAATTAAAATTCCATAGATTGGTGTACACCTCATCGCTTTAAATACAGTATAGCTTACAGCTATTGTAATAAACAATGAAAATGTGCTTGTTAAAACATCTAAAATGCTTGCAAATTCGCCAAAGAAATGTACAGTTGAGGCAAGTGAACTGTCTTTTCCACTTCATTCAACTGTCATCACTGATCAAAGAGTTAAAAGTAGTCCATATCCTATTAGAGGATAGACGATTGGTGAAAATACTTTAGAAATAAAAGATAGACATTTATTTGTAAGTCCTTTTACTTTAAATTTATCTTTCATTTGTTTAATATCTTCAATTTGTTTAGTTTTAAAATTAGTATCTTTTTGTGAAATCTCTTTAAAGATAATAGTTTTTCCATCTTTGTCAAAACCATTTATTTCACAAAAAGTATCATAGAAATCTGCTACATCCATACCCACTATTATTTGATATTCATCTCCACCTTGATTTTTATTAATACCTGTAGCATAACTGCTAGCTTTAATTTTTGCTTCATTTACTATACTTCAATCTTTTAAGTGAAATCTCATTCTTGTCATGCAATGAGTGAAATAATCAATATTGGCATATCCACCTAAATCTTCAAAAAGTTCTTGAACTGAATCAATATATTTTTTCTTTATCATAGCTTTATCCCTTCTTATTTAAAATTAAATCTTTGTATCAATACGCAGATTTTTTAAATTTTCTACTCTGATCTTCTAAATTAACTTCAATAAGACCATATCTATTTTTAAAAGCATTTCTAAAACTTCAACAATCAAGTGCAGCTCAAATGTGATAACCAAAGCAATTTGAACCACTGTTAATTGCTTTTTTTATTTGAGACATGTGCTCAAATAAAAATTCAATTCTATAATCATCGCTGATAACTCCATTTTCATCTCTAAATCTATTTTCATTTTCAACACCCATACCATTTTCTGCAATATATCAAGCTATATTGTCATATTTTTCTTTTATTTCCATTCCAATTTCATATAGAGCATCAGGATATATTTCTCATCCTCGATGAGAATTTATTTTAGCATTTTTTGGAATTTCAATAGTAAATTCATCCATGATTCATCTTTTTTTACCATTACTTTTTGCTTTTACTCTACAAGGGAAATAATAGTTAATTCCTAAAAAATCTATTTTAGTTTTTTTAATAATTTCTAACTCTTCTTTGCTATATTTAGGCAATAATGAATATTGTTTTAAAGTATCTATTAAAATTTGATCGATTGTTCCATTAAACATTATATTTAAAGGACCTCTATTCACATAAGCATCATAGATTTTTGCAGCTTCTTTATCTTCTTGAGAATCAGAAAAAGCATAGGTATAATTTCAATTAAAAACAAGTCCAATTGGTGATTTTAAATTATACTTTCTAAAAGCTAAAAGTGCTTTTGAATGAGCCAAAAAGATTCCATAAACTTGTTCTACTGCTTGTTTTGGATCATCAATTGCAGGATAGTGTTTATCATTTAAATATCCTTCATATACTGGCACTAATGGCTCATTAAATGTTACATAGTAATCTACTTTATCACCATATTCTTTAAAAACAAATTCACAATAATTGATAAATAAATCAATTACTTCTCTTGAAGCTCATCCACCTTTTTGATGCGCTCATAGGGGCATATCAAAGTGAAATAAAGTCATATAGATTAATATATTATTTTTTCTGTATTCATCTAAATATTGATGATAAAACTCAACTGCTTGTTGATTTAAAGTTTTTCCATCAGGAAACAATCTTGCTCATGAAAAACCAGTTCTTATAGAATCTAAGTTAATTTCTTTAAACATTTTTATATCATTTTTATAGTGTTTTGTAATATCACAAGTAATTTCTGGACCAACATTGTTATAAAATAACTCTGGTCTCTCTTGAAAATACTTATCAAAAGTTAATTCTCCTATTTTTGTTATTCCTTTTCCTTCAGTTTGCATAGAGCTCATTGATGCTCCTATTTGAAAGTTTTTGGGAAATTTAATCATGTTTTGTTACCTCCAAATTAATAATATTGTTTGGAATATTTTTTTACAATGAATTTAAGGTAATGGAGAAATTTTTAGGAAAATAAGAAAAAATTCTTATTAATGAGAATATAAGTTAATATAAAAATAGGAGATAAATTATGTTTAAAAGTATTAAAGAGAAATTAATTTTAATAAAAAATAATCCAGAGAATCAAACTCATGTAAGTATTGCCAATTACCTACTAAATTGTATTGAAAATAAAAAAACACCCAAAATTAATGAGTGTTCAAAAGAAAGTTTTTGTTCTGAGTCAGTTATCACAGCTTTTGCAAAAAAATATGGCTATGATGGTTTTAAAGAATTGGCTATAAGAGTAAAAGTTGAAACAGAATATTATGATTGATCAATTGCTAAAAATATAAAAAATAAAGATAGTAACTCTTATAGAAATTTAATAGATAAATCTTTAGATTTATTAGACAGTCAAAATGAAAAAATTCAAAGCTTGATAACTTCTTTAAAAAAATCTGAAAATATATTTGCCATAAGTTCTTATCAACAATTGTTTAACACAGAGCTTTTTATAAGTGAATTAAATTTACTTGGATATAACGCTTTTTTTAATTATCAAAGAAAATTAAATGAAACTTGAATAAATAAAGTTAAAGAAAATGATACATTTATTATTGTTGCTTTTGGTTTAGACAATCAATATATTATTAACTTCTACAATCTTTTAAAAGAAAAGACAAACAATATTTTTATAGTCTGTTCACCTTCTCAAAAACATAAATTTGATAAGTATCAAGAAATAATTATTGTTGACTATTATGATAGAGGAACAATTTTAGAATCAACTCGCTCATCTTTGATTATGTATCTATTTAGTTCAATTGTTTATAAATTATAAAAATCCCTTTTAAAGGGATTTTTATAAGAAGCATTAAGATTATTTATCTTGATCTGAAAAGATAATATCAAAAGTAAGATCTTTTTTTGTTAAATATTCAAAACTATTAGTTTGAGTATTAACTTTTACTAAAAATTGAGCTTCTACTACTTTCAATTTAAAACTACTGTAAATTTCAAAAGTTCTAGAGTTGATTCCTTTTGTAACAGAAGTTCACTCTTTTGATTCTGAAGAATAAAACTGAAATACAAATTTAGCTTTTTTAAAAGTTACTTGTGCATTATCTAAATATCTTTTATCAACTCCAAGTTCATTTATTAATAATCCAGGGAATCTATTTATTATTTTCTGCATAGACATTTCAGGTAAAAATGAATTCATTGCGCCATTTAATTTATCTGTAATTGTTGATTTTATTAAAGGAACTGCTGCTTGAATAATTGGTTTTCGAATTGTATCAAGATCCATTCTTTCAACTATTGCTTCTAAATTAATATCAGAGTTTTCAAAAAACTCTATTTTTAAGTTAGGACTTAAAAATAGTTCATCTAATTCAAGAAAGTTTTTTCCCTCAAAATTAAATAATCTATTAATAATTTTTAAAACCATTTCTCCAGGAACTACTTTAATATCTTGTAATACTTCATATAAATTATCATCAAATACTTTTTTTGTTCCTCCAATAACTGATCCACTTAAATCTAAATTTAAATGTATATATAAATTTAAATTTTCTGTTTTTCTGCGATTTTTGTTATAATCTAACATTAAATTAAATAACAATGAATCAACTCCACTTTTTGCATTACTTGCACTTAAATGATCTGGATTATTTTTTTCATTAATTTTTAATAAATTTGGATCCATATCTGTTATTAATTCTTTTAATAACATGTAAAGTAAATTGTGACTTCCTCCAAATTCAGGTTTGTAAGTTTTTGGATTTAGAAATTTTGCAAATATATGAACAATATTTGGAGCAACATTTGCTAATAGATCACCTAAAAGAAGTTTTTTATTTTGACCTTTTGAACCAATTTTGGCAGTCATTTTCATTGATAACCCCATACCCAAGTCTTGATTCATTGCAATACTGTCTGGATCAAAATTTACAATATCAAATATATTTGTATCTAATAATTCTGAGATTTTTATAACAACTTCTGGTTTAGTTTCACTTGCAGGTATTTTAATACTATCTTGCATACCCAAAGTTTTCAAAACTCCTCCAAGTGCTCCAAAAAGATCTTTAAAATATTTTCTAAAATTTTTATCAAATTCATTATAAATATATTGACCATTTGCATCATTTGGATTTGCATCTGCTAATTCTTGAACATTTAAATTAACTATTTTTTTAATTGGAGTTAAAATAGCTGTCATTCAATCAGTTGAGGTTCCACTTTTAGTTGAAGAAAAAGAATTAGAAGAGTTTGTGATATTCAATAAAGATATAAAAGTATGAATTGTACCTAAAGTTATTTTTAAAGGTATTCCCATTCCTGATAAATCAGCTAAGGGAATATCAATCTTTTTGGACTTATAATCTCCTACATTTGCATAACTATTTACTTGTAATATATTAATTACATTTTCAATAACTTCATATTCTGGAATAGTTCATTCAAATACTTTTGTATATATTTCTTTATCTAAATAATTTAATCTTAAAAAAGCTTGACCATAGACTAAAGAAGCATCATTGTCAAATGTAATTCCATCACTGCTTAATCCTTTTAATTCTGGAAGAGAAAATGAGTTATTAGAATCAATTGTAATTGTAAAACCATTTTCTGTTATATTGGCTTGTTCTTTTATATTACTAATTAACTCTTTTATTATTTTTTCCTCTGATGCAAAATTACTTTTTTGAATTTTATTTGTAGCACTTTTAACTGACACATTTACAACAACTTTTTTAGAAACAATATTTTCTAATTTTTTAATAATTTGATCAGGTCCATCAACTATAAAGTCACCTTTATTTTCATCTTGAGGTTTATTTTGATCAAATATACTATCATAGTCATTTTTACTTGTACAACTTGTAACTGAAAGTACTGAAACAGAACTTAACGTCATACACGACAATACTGTAAGTAATTTTTTCATTTTTTTCTATCCTTTCTAATTGTTAATTGCCAATGAATCAACTGCTCTTATTTTTGAAAATTGTTTATATGAAATTAATATTGTTATTAAATACATTAGTATTAGAATTGAAAGAACAGCAAATGGTTCTCACCCTAAAAATTGATAAGGAATTGCAAAAGAGTAATTTGAAGAAATATATTTTATTACTCTCCCTATTGCAAATCATGCTGTGACAAATCCGAATATAAACATTAAGAAGATTGGCAATATATATATTGCTATAATTTGAGACATAATATATTTATCAGAGTATCCCAAGATTTTCATTGTAGCAATAAATTGAGTATTTTCTCCAATAATTAAAACTGTAGTTATAACAATAATAGAAACTGAAATTATTAAAGCAATTGCTGTTACTAAATAAATTATGATTCCAATAATTGCTTGAACTTGAGCTAATAGTTGTCTTTTAAATTTTAATGAGTCAACTTTTTTTAATCCATTTTCTCCATAACCTTGAATATAAGTTATTTTTGAAGTTCCTGTATCATCAGTTTCTAAATTTGATTTACCCATCATACCAATTGTTCCATAATCACCAAATGGTTGAGTTTTAGAAGTATTTATAATTTGATCATTATAATCATCTCTTATTGAATATTTATAATTAAATATTGGATATTGATTTTCAAATAACTGTCATAAATATTTTGAAGCATATTTGAATCCATTTGGATTATCATAATCATCTGATAATTTTAAAAACATGTTGATATATTCATCATAAGGATTATCAGCTCCTGTAATAAATCTATCATTGCCCCCACTTGCTCACTTAACTAATAAGAAGTTATTGTAATAATTTATAAAACCCTCTCATTGAGTTTTGCTAATTTTGCTCATAATACTTTGATCATAGAAATTTTTTAAAGCATTTCCATCTCTTCACTCATTTAAAAAGAAATTATTGAAGAAATATTTTTTAACTTTATCATAACCTAAAATTTTATTAGCATTATCATTTGATACTCAAGCTTTTGAGTCACCATAGTTTTGAGTAATACCTGCAATAACAAATTTTTTATTCTCTCCCGTTTGTGCTTTTTTGATTTCAGAACTATCTGCTGCTTTTTGAATATCTGTTTTTTGAGATATACCAGCTAAAGTATTTGAAGCAACATTATATCCATTTATTTTTGCAACTGATATTGTTGATTCAGAATTTCAACTTCTATTTGAATCATTATAGGCAAAATAGTTTTTTTTATGCTCAGAAATATAATCATTTGAAGTTTGAGTAACATAATTATATTTTGACTTAATTCCCATTTCAACTTTGTCTAGCTCAATTGCTTTATTTTCTTTATCAACTAACTCTTTTTTCAGAATTGAAATATCTATTACATCTTTTGCCTTTAAATTTAATTTTTCAGCAATAGTTGCATTAACAACTATTGGCGTATATTGTTTGTAATCATTTGTTAATCTTTTAAATAAATTTTGACTTAGATCATTTCCACTTCTATCTAACAAATTAACAGCTTTTGAACCTTTATTTATTCCATAAATTTTAATGTTTTGCAATTTACTATTTGAAAAATATGTACCATTAATCATTGTTCCCAGTTCGTCATTTTCTTTATTATAAGGAACAATGTTTGTTGTAATATTGTAGTTTGTTCCTTCCAACAATGCTTTTTTAATACTTTGTTGAGCAACACTATTTGCTTGTTGATAAGTAGCTTCAATTAACATGGTTCCAATTTTTGATTCAAAATTTATTCAGTATCATAAGATTAAATTAGTGTTAAAAATTTTAAATTCTTCAGTTGTTCAATCAACAGTTTCTAAATCAATTGCATTAACATCTTTTTCTTTAAAGAAAACTTTTTTACTTTGCAATTCAAAATTTTTATTTGCAAATTCTAAAACTTTTGAATTTCATTTTGAATTGGCATCTGTTGAATTTTTATCATACCCATAAAACAATCTATTGTTTCCTTTTGCAGCTAACTTAAAAGGAGTTTTTACATTTTGTTCAGAGTAAATGTTATTAGTTGAAGTTGCAAATAATTGATTGTCAAAATTTATTTTTTTAATTTCTTCAATGTTTAATTTGTTCTCACTGCCAGTTAAATATTTTTTAGTAACATTTAATGGTAAAGCATTTACATACTTTTTATAAAAATTCTGAAGTTCTTTTGATATCTCTACAACATTTTCTTTGTTATCATCAATATTTTGTTTAATTGATTTTATTGCAACTTTTTCAATGCTATCAACTAAATTTGAAAAATCAGTTCACTGATTAATAATTGAAACAATTGCATTATAAGGAACTCCTTGTGTATCTCTTGAAGGTATAGTTACTTCATCTAATTTTCTTAAATACTCTAAAGACATGTTCTTTCAATTACTATAATTATTTTTTGTTATTTCTTTATATAAATCAAAATTATTACCTATTACAGGAATATTGTATGAATAAAAATTAGAACTAATATCATTGTTCATTAAATCTTTAATTATTTTTTCTGTATCATAACTGTATTCTGTTTTAGAATCTTTTAATTTTAATGGATAAGCTGTTTGATATTTTTGTTTTGAATTTGTAGCTTCAGAAATATCTGTTACATTATTTTCTTGTTTGTAAGTTCAATTATCTTTTTTATTAGGATTATAAGTTTTTAAAAAAGTAGAAGGATTATTTGAAATCGGTTCATTAAATTCAACTATGTCATTGTAATTTAATCCTGTAAAACTTGCCGTATTATTTTTTTGTAAAACTATTGGAACTATTACAGCTGAAGAAATTAAACTTATTGAAACAAACAATGTTGCAGAAGTTGCAAATATTTTTCCTGTTGAACTCATTAATAAAGCTGAATGTAATTTTACTGTTGGATTTGAATTTTTAAAAAGATATTTAAATCCTCTTCCAACTTTTGAATTTGTTTTTGCAAGATTTCCTGCCAATAATTTTAAAGCACTTTCTTTAATAACAAGATAAGCAATTAATAAAGTTAAAGACATTAATATAAATAACACAAATGCAAATATTAAAATTGATTCTCCCACTACTGGATTAAATTTTAAAAAGTGAATATTAAAATAAGTTGCAAAGAAGTTTACAATTTGATTTTGAAGTGACAGTGTAAGAATATAGGCAAAAATTGAACCAAAAAAACTTATAACTATTGAAGGTGATATAAAGAACATTAAAAGAGAAAAATCAGAATATCCCAATGATTTAAATGTTCCAAGTTTTGTTCTTGTCTCTTCAATTTGTTTTTTTATTATTAAAATAATAATAAAGAAACTTATTAGTACTAGAAGTATTAGTAGAAATGCGGAAAACATTCAATAAACTCAAATTACTTGTCTATAAGTTGCTGTTCTAAAATAATATTTATACTCTGTATCTCTTAAAGAATAAAATAATTTAGTATTTTTTATATTTAAATTTCCATAATTAATTCACTCTTGATTAAAAGCTCTTAAATAGGATTCTGAATTATTACTTTTATTTTTAAACTTTCCTGAAAAATAAACTTCTCTGTCTTTTTCAGATTCTGGATTTAGTTTACTACTTGCAATATTATAAAGATAAAGTTGCATTTTACTTCCATATTCTGATTTAACATTTACTTTGCTTAAACCAAAAATTGAAGGTGCCACATACACTACTAAATTTCTTTTTGTAGAAGGAATTGAGGAGTTAACTTCTGTAACAGGATAAACAAAATCAGCTGATGCTCCAAATCCTATTACTTGAAATCAAACTTGATCTTTATACTCACTTGCTTCAATTCCTAATTTTGAATCATTAATACTTACATCATTTCCAAAAGTTAAATTATTAATATTTTTTTTAACTAATAGTTCACTTCCATAAACATCACTTGTAAGTCTAATAATATCTCCTCTTTTAATATTATTTTTTTTAGCAAAACTTGATTGAATAATAACTTCTCTTGAAGCTAATTTAGTATCTGAAGAAAAATATTTATCTTTTGTTTCATCTTCTAAAATAATTTTGTCCACCATTACTTTTTCTTCTTTTGTTTCTTCAAATCTTTCATCTACAATAGAAGTTTTTGTTAATGCTTTAATACTTAAATCATTATTATTTAGTTTTACACTTGAAAAAGTTCTTCCCTCTGTTCTAGATCAGCTAAAGTAACTATCTCCAGTTACAATACCTTGAGAATTTTTTATTCCCTTTCTTGATAAAGAATTTATTAAGTATTGAGAGTATAAATCTTGATTTGAGAATTTATCAATATCTTCTCCCCCAATTCAATTATGTTCATCAAAAGAGATTCTTGCAGAGTTAGCTTCATCAACTATAAAGTCATGTTGAACAGATTTATTTAATAAGTCAGTATAGCTTTTATCAACTCTATTTTGTACAACAAATATTGACATACCTGTAAGAACAGCTACTGTTACTAAAAAACTCAAAACAAGTAAATGTCCCAAATTTTTTATATTTGTTTTAAAACCAGACTTTATTATTAAAAACATTTTACTTTTCTTTTTCATTATTAAGAAACCTCTATACTATTTACAACAACTGATCATGATGATTGAAAACTACTACATCCTGATCAATCTTGAAGTTTAGAAGATATCTTTATTTTTATTACAAAGTAATCAATTGAATTAGCATTTGTTTTACTAATTGAATAATAGAAATTACTTGTAAATTTTATATTCGTACTTGATGTACAAAAAAATCCGCTTTTAAATGAAACAGGAATTGAGCTAGACTCTCTAAGAGATTTTTCTCCATTTTGATTTCCTTGTGAAAAATCATAAGAAATACTTATATTTTCTTTATCATATTTTTTTAACTCTGCTGCAGACACAGCTGATTTTGCTGACATCTTTTTAGCTTTTGTTGATAAGTTAAAATTAATATTTTTTTTACCAGCATTTATTAAACTCTCATAACTGTCTGGAATTGCATAGCGCAATTCAAAAGTAGAATCATCTGGAGTTTGATACATTGTTGGTACATCTTGTTTTGAATCAAAAGATTCTGCTGTTAAGTTTCCATTCACTGCATTTTTAAAATCAAAGTCATTAATTTTTTTAAACACTGTTTCATAAATTATTTTTACTTGTCCATAATAATTTAGTGATTTTTCTTTTGCTTTTAAATCTATACTTGTATAACTAGGTTTTGAAAAGTCCACACTATCTTCATTAAAATTTGTTCCATTTTTATCTTTGATTTTTTGAATTATATCTGAAGTTTTAATTCAATAAATTTTTCCTAAATTTTTTGTTGTTATTAAAGAAGAAATATTTTCTCTTCTAATATTAAACTTTCCATTTACAGTTCCATTGTAATTTTTTATTTTTAAATTAAATTTTACATCTTTAATTAAAATGTCATTTATTCCAAACTCTCCAATTTCAACATTACTAATAATGAAATCTGAAGCTGGCAGTTTTTTTAATAATGGATTAGATGTTTTAATAGCTTCAACAATTAACTGATCTCTTTTTAAAGTTTCTTCACTATAGTTTGAAATATTTCCAATATTTTTTTCAGTAACAATAACATTTATATCATCAATTTGGAAAGTTAAATTAATTCGATTTGCTAAATTTGGATTTGAAATAATAGCTGAATTTAAATCAAAATCTATAATAGAACTATTTACTTGACTGTATTGAGCAAATATAGGATTTAATTCTTTTACTTTTGATAAAATTGTTTCTTTATCAAGTTTATTTAAAATACCTAAATTTGTATTTTTAATTAAAGCAGCTATATCACTTACATTATAAGTAACCATTAAAGCATTTCCTTCTTGGAAATTAACAATTTGATTATTATATTTAATTGATATGACTGCGTTTTCTGGAGTTTGTTTTGATGTATCAGAAATTATTATTTGATATTGTTGACTAGATAAGAAGGAAGACTCTTTATTAATTTCCAAAATCTTATTTGAGATTCATGAAGAACTAATGTCATTTGTTACTCCCAAATCTGTATTCATAAAAATTCCATCAAGTGAAATTGATTCATAAGTTAAAGTTAACTCTTCTTGTGATTCTTTTGTTTCTTTAGCTCATGTTAATTTAATTTCATTTAGTGATGATACTTTTAAATCAATATCATTAATAAAATCCATACCTGCAATATTAGGATTTAACTCTTTTATTTTTTCAATAATTGTTGTTGATTTAATATTTTTAATTTTTCCAAGTTCTTTATTTTTAATAAGTCCATTTAAACTTGTAATTTTAAAATCAAAATCAAAAGTTCCAGTATAATTCTCAACAGTAATTTTTATTTTTTTCAAAGTTAAAGCTTTAATATATATTTTTTTATCTTTTAATGTTGGATTAACTTCTTGTATTCTTTTAATTAATCCCTCTTCACTTATATCTGAAATTGATCCTAAATTAGATTTTAAATTTAGAACGCTTATATTTTGATAACCTTGATTACTATCTTTTACATCTTCTCCTACTTTTTTCGATTCATCTTCATCTACATTTGGATTATACTGTTCTAAACTTCTAACAAACCCTTTTACAACTAACATGCTTGGTGCTAACACTGCACCAAATCCTATTGTACAAACTCCTCCTAAAATAAGTAATTTTTTCATAATTCACACTCTTTCTTAATTTTTTTAAAAAATATAAGCAAGAACAATTCCTTTTTTAAAAAAATTAAGCAAGTGGAATAATACTTTTCTTTTTAATTAACAGTAAAATTTTGTTTTTCATAAATACATAATTTAAAAATATAAAGTAATCGTTAAAGAATTCAAATACTTTATTTATTTGTTTAATAATTTTTTTAGTTTCTTTTTTAAATATTGGTCTAATTCGTCTAATAAAAAATAATGGCAAATCAAAAATAAAGAAATTAATTGGTTCAAAATCAATTAAAGGATTTCTTTTCTTAAGTATTTTGTAAATAATCATCATTATTACTAAAGAAACAATTAGAATGAAATTCATTGAAAATAATATAAAAATAGTTACTAACTGATCATTGTTTGATTCAGCTATTTCCTTATTTTTAAAAAAGAATATAGTAATAAAAAGAACTAAAGGAATTACTACTAAAACAACTTTAAAAATAAAAATTGAATCAACTCTTTTTTTATAAAGCTTTATAAAATTTCTTCAATCTATTTCTTTATTTTTAATTGTGAGAAGAATTGATAAAAGATTTATAAATAAATACGCTAGTAAACAAGTTAAAAAAAAGTTATTAATTAATACTTTATTTGCAAATAAAAAAGAGTTATTTTTATAAAGTAATAAAAATAATATATAAATTACAATTAGTGAGTAAGATATAAGCAAAGAAAAAGTTTGTTTTGGATTAAATAATTTTATCTTCGACAGCATATCTCTTTCAACTCCTATTGCTTTAATATTTTTAAGATTTTAACACTATAATTTTGTAAAACTTTTTTTGTATATAAAAATCCTTTTATATAATTATTTTTAGTTTAAAAATCTTTTAATTCTACTTTTTATATGCTTAAATATATATTTAAAACCTAAATAAAAAAACCTTTGTATTTAACAAAGGTTTTTTTGTTTTAAATTAATTTTAATAAAAAAAGTTTAATTTTTTTTATTAATTTCATTATTATTATTCAGATTTTGCTAAAAATAAACTTTGAATCTCATTTGCAACATGCTCAACATCAGTTCCTATAATTAATTGTAGACCTTGATCACCAAGTCTTTTTAAACCATAAATTCCCAAAGCCTTTAGTTCTTTATCTTCAATTCCTTCTTTATTGTTTTTAAGAGTCAATCTTAATCTTGTACTGCAATTCTCTACTTTTAAAATATTGTCTAATTTAACAATATCTACAATACTTTTTGCCATTTTATTATATTTATTTTTATCTTTTATTTTATTTATTATCTTTTATTTCCATTTCTTCTTCCCGTCCAGGAGTTAGAATATTCATTTTTTTAATAAGTATATTAAATGTAAAGAAATATGTAGGAAATGCTAAACCAGCTAAAACAAACATTCATAAGGGATTTGATAAAATACCATAAATAGGTCCATTTATTATTCTTTCATATTTGCTCATAGCCCATGAGTTTGAAAATGAAATAGCATAATCAATAAATCCTCCACTAAATCCAAATCCAATATGCATGTGCATAGCAATTGCAATAGATGCAAAAATTGCAGTATATAGAGCATTAATCACTAATAAGATAGGTCCAACAAAAATAAAAGAAAAAACCAAAGGTTCATCAATTCCAGTTAAAGCAGCAACTATAGCTACTCCTGCTAAAAATGATATGACCTCTTTTCGATTTTCCTTTTTAGCTGAATAAATCATTGCTAGTGCAGCTCCTGGTAATCCACCTCAAAACATTGGAAAGTAACCTGTTTGAAAATTTCCAGAAACCATAGATTTTTGAAAAGCATTTATATCTCCAAATATTGTAAAACAAGGGACATTATTTGTTGTTGTCAATATTACATTATTTGGAATTGCACACATTTGTATTGAAAAATACTGATTAAAGTTTTGGTTTGTAATAGAAACTTGTCCAAAAATTGAGTTTGAAATTTGATTCATTACATCTAAGCCAGTTGAAGAAAGTATTGTTGAACTTTTTAGTAATGGATTTTCATACATGTTATTAAATAATACTACTTTTCCATTAAAATCAACAATAAAACCATTTATTGGCATTTGAAATCATAGAAAAGTATTAATGATATGATGTAAACCTGTTGGTTGAACAAGTCGATTTAATAGTGCATAAAGAAATGCTCCAGGTATTGGTATTGCTCAAGAATCACCACTTGAAACCAGCTTTCCAAAATTAATTAAGGAATACTGAAATCATGGTCAAATAATGGCAAACATAAATGCTATTGGAATTGATAAGACCATAGCTACTATTGGAGCAAATCTTCTTCCTCCAAAAAATGATAATGCTTGAGGTAGTTTAACACTTTTAAATTTATTATATGCTCAAGCACTTAAACACCCTGAAACAATACCTCCCAAAACACCAATATTTAATATATAAGTACCACCAATTATCTCGAGTTTATTTTTAATTTCTCCATATTTTGGAACATAAAATAAACTCGACAAAGACCCCGCTAGTTCCGGTCCATTATTGCCTGTTTTATAGAAATCAAATGTAATTACATCATCATAAAATAATTTTGGAAGACAATTTCTACCAAGAAGTCCTGTCAAAATTAAGTAAAATCCTGCACCAATAAGAGCTGCTTCACCTCTTTGATCTTTTGCAAGACCAAATGCTATACCTATTGCAAATAATAAGGGTAAATTATCAAAAATAACTAAACCTGGTTTTTGTATTATAAAACCAATTCACCATCCAACATTATGAACTGTTTGACTATTGAGTTCCATTGCCAAAGACCCAAAACGATTTAAAAAAGCAGCAAAAGGTAACAGTGCAATTGGATACATTAAAGATTTACCAAGACTTTGTAATTTAATCAAAAAACTTCCTGCAAATTTTTTTTTAATAGATTTGTGTTTTTGATTATTTACTTCTTGTTTTCTATTAAACGTATTCATTTGTACTCCTTTCTACAAAAATTTTATTTTATTTTCAAAACTTTATTTTACTTTGCTTTAAAAAATGTGAAAAAAAATGGAATTGTTTCCATTTTTTTTCATTATTTGTTATTTCAACTATAAACATCAAAATATAAAAGAACATAATTAATATTAAAAAGATAAATAAATATATTTAATTAGTTAGTTAATCTACTTTTAAAAAATTTTAAAACATTACATTTTTATAAATTAAATTTTTCAAAACTCTAGTAAAAGTTTCTTTAAAATTTTTTAAAAAAGTTTTTTTATCTTTCAATAATATCTACTTTTATTTTTAAATTTGCAATTGGCAACTATATTTATTTAAATGTATTAAACTTTATATATTTTTTATTAGAATTCATTTTCTTGTTCTATCATAGAGTAAATAATTTTTTTAGGTTCTAAAAAATCATTAAAATTATTATTATCTGAAAAATCTGTTACTAGTATATCTATTTCTTTAATATTCATAAAACCAGCTCCAACTTTTTTCATAAACTTTGTTGAGTCTACTAATAAAATTTTTTTACATGACTTTGTCATAACTTCTTTTAGAATGTTTGCCTCTGGAATAAAATTATCATAGATATTTCCTTTGCAATCAACAGAAAAACAACTAAAGAAAGTATGTGAGAATTTAATTCCCTCTAAATATTTCTTTGCATCTTTATTTCAAAAAACTTGACTGTTCTCTCTAAATATTCCCCCTATTAAAAGAATATCTTTTACGTTATCATTTTTTCAACCTTCCAAAAAAACAGGAAATGAATTTGTTACAAGTAGTTTTATTTTTCTATTTATTTTTCTAACAAAAGCTTCAACTGTTGTTCCTGGACCACAAAAAATATTGTCACATTTTTCTAATAGTTTTATAGCTTCTTTTGCTATATTTTCTTTTTTATTAATTTCTTTATATTTCTGTTCAGATCTTAGAATTAAATTTTTATCATCTTCAATGGATTTAATTAATCCAAAAAATATATTTATTTTACATTCATTTTCTAATTCCTTTAGATCTCTTCTAGCTGTAGAAGAGTTTATATTGAAATCACTGATATAATTAAGAATTACTTTAGTTTCAATTACTTTTTCAATATTTATTTTTTTTAATAGTAATTCTTTTCGCTTAACTTTATGCATAATTTCTCCCTTTATTTGCAATTATAGAACTTTATAATTAATTAGATTTCAAACAAAGTGGAAATATTTTAAAAAAAATGAAACTTTTTGCTTTTTTTCAAAAATTAAATTCTGACAACTCTAAAATATCAAATTTACTTTTTAATAATTTTTATAATATACAAATTATTAAATAACTTCATCAATTGAAAGCATTACAAATTTTATTTAACCTTTCAGTTTTATCTACTTCAATTTCATCTTCAAATAATATTTATTTATTTCTTCAAAGTTAAACTTTGCAAGTATAAAAAATTCTTTTTGAAGAGTTTTAATTATCAAGTTTTCTAGTTAAATTTTTTTCTTACTACCCTAAATAATATTTTATTTCATCTTTATTTTTGAAAATCAATAAATATGAAAAAATAATTAATATTAATTATTTATAATAAATATAATCTTTTTTTCAATAAGATAGTAAATATTTACTAAGAAAAAAGTTTCTTTATTAAAAATAAAATATTTTATATCTTTTTTACACTCATATAATTATTAAGGTAGTAATGATTTTAATTTTAAAGAGAAAAAAATTTTTTTAATCAAATAAGAAATTTTAATTTTTAAATTTTATAAAATTAAATCTTAATGTTTATAAATTAGTAAAATTTAAAAAACTTTTTAAATTTAAAAGAAAATAAAAATTGTTTTATGATAAATTTAAATAAATAAAAAAAACTATTTTTTATAATAGTTTTTGATAATTAATTACTATAATTTCATAATTTATAAAACATATTTGTTTTATTTATTGAAAATATATTTTTTTTCATAACTCAAAGGTAAGTTTTCACTAATTAAATATGTTTCTTTTTCAACATCAACTTTAATTTTATTTTTAGAATTAAATTTTGATGAATCCATTAGAATGTAGCTTCTTAATGAATTTTTAATAACTTTTTCTTTTATCATTGCTTCTTCAATATTTGTAGTGTAGAAATCATTTTTATATAAATTATTCATTCCTAAAAAAGCCTTATCAAAATTAAAGTTATCTAGAAATTTTAAAGCTAATTCACCAGCTGTTGCATGAGTTGTAGGAATAATTGTTCCTCCAACTAAACAAACTGAAATATCATTTTCTAATAATTCTAAAGCAATTGAATAACCATTGGTAACAACTTGTATATTTTTTCCAATTAAATAATTTATCATTTTTTTAGTTGTTGTTCCTGTATCAATAAATATTAAATCATTTTCTTCAATTAATGTTGATGCAAAACTAGCAATTTGATTTTTAGCCTCAATATTTAATGATTCTTTTTCTTCATCAAAGTATTCTCTAATTGTTTGTTGATTATTACTAATGGATCTTGCTCCACCATAAACTTTTATCAAACGACCTTCTAATTGCAATTCATTTATATCCATAATAATTGTTTGAATTGTTGAATTTGTTAATTCAGATAATGTAATATTTTTCATAAAGCCATTTTTATTTAATAACTCAACAATTAATTCTCTTCTTTCATCTTTTAGCAAAAACTTAATCCTCCATACTTATTAATATAATAAACTTTTATTTCTTTTAGTAAAGCAAAAAAAATTATAATTATTAAAAAGTAAAATTAAACATATAATCATTCAGTTTTTGGAATTAAATTTATATTCTCCATTTTCATCATTTTTATTTATAGAAAAATATATAAAATAAAAACTTTGTATTATATACAAAGCTCTTCTTTTTATTTTATATATTTTTCTATTTCATGCACTGATTCAATACTATATTTTACACATTCAAATAACTTTTTATTTGTTAACTCTGATTTTATTAAAAATGAATTATCATTAAATAACAACATTTCTTTATCATTTGGTCCATCACCAATTGTATAAATATCTTTAGAATCTATTTCAAAAGTTTGTGCTAATTTTTTAATTCCATAATCTTTTCCTGCATCTTTGTGAACTACTTCTATTGTTTGATTTGTAATCATTAAAACTCTTAAATCTTTAAAGTTTTTTTCAAAATAATCTGTTACTTCTTTTACATCATTGATATGACATGCAATTTGAAAAGATATTACATTTTCATCTTCTAACAGTTCATTGAAATTTTTACAATTATCTGTTCCTAAAAACTCTTGATAATTAAAATTATCATTTCTAATGACTCCCTTTGGCAAGACATTAATCATTTTTCTTGCTTGAGGTGTACAATATGAAACTTCTCATCGATTTAATTCATCTTTAACAAAATTCCATAATTTCTTTCTAGTTTCAAGATCTATTTCTAAAGAATAAAGTACTTTATTTTCTTTTCTAGAATATCCCATTGTTCCATCACAGCAAACTAATAAATCTAAATCAATATCATTTAACTCAAATAATTTATTCATTTCTCTAGGAATTCTTCCTGTGTTTATAATAAATTCATTGCCTTTTTTTTGTCATTCTTTTACAAATTGTAAATCTTGTTGAGTGATTTTATCATCTCGTGTTTTACACAAAGTTCCATCATAGTCTGAAAAAATTCATTTTCTAGTCATACTTTAATTCCTTTCAAAATATTTTTTATAAACCTATTTAATTTTATATAAAATTAAATATTATTGTGATAATTTTACTTTAAATAATGGAATTAACACTAATGCAGCAACAAAACCAGATATTGCAACAAAACCAAATACTCAGTTATAACCTAAATGCATTAAGCCCATTCCTACAATTATTTTAGACATGATAGCATCTCCTGCATAACCTGCAATACCAAGTAATCCCCCTGCAGTTGAAACAACTCTTCAATGAGAAACTTCTGCAACCATAATTGGTAAAAAACATTGTGGAATAAAAATAACTCCAGCTATTAGTAAAAATACAATTATTAATGCTTCATTATCATTTGCCAATAGTCAAAAACCAAGCAAAGAACCAGTTGCTATTAAAATAACAATAAATGTTATTGGAGCAAATCTTTTTAAATATTTATTTGCAGTTAATCCAATTACTAGTGTAAATAAAAGTCCTCCTCAATCAAACATTGAGTATAGAAACGCTGCACTACTTTGTTTGTCAAAGTGTTTTTCATTAATTAAATAATCCAATGATCAATCACTTAATGCCATTCTTAGAGTATAAATACACAAATTTGAAATAAACAATAGTCAAACATATTTATTTTTTAAAACATATTTAACAAAAAAGTAACCTCATTTTTTATTATCTTCATTAATATCTTCTTGTGTTTTTTCTCTTTTAGCTCCAATTAACTCCATTTTGTAATAGTCTTTTAATGGAGGCAAACCAACTGTTTCTGGTCTGTCTTTAATAAAAAATATTAAAAAGATTCCCATAAGTATACTAATAATACTTGGTAATAGAAAATAGCCCATATAACTTCCATTTAAATATTTGCTAAATAAAGTTTGTGAACCTAATATTAAAAATGTTGCCAAAGCACTTCCAATATTGTGTGCTACATTTCAGCTAATAATTCTTGTTCTTCTTTGTTTATTTGGAAATCAGTTATAAAAAAACCTAACTGATGGAGTTGCTCCTAAACTGTGAATAAAACCAATTGCTACTTGAATAACACAACTTAAAATAATTGGTGTCAATATCATAGAAGCATTAAGTCAAGATAAACCTAAAAGTAAATTTAAACCCCCTGCTCCTATTAACCCTATTCCTAACAGTCACTTGTTGGACTTTGTATCAGATAATGGTGAAGATACAAATTTTGCAATTCCATATGATATAGCAAAAACTAAACCAACTGTGGCAAATTGAGTACTGCTAAGAACACCATCTGTCATTAAAATAGTTCCAAATATTGTTCATTGTTTTCTAGTTAAATAAAATACCATGTAACTTACAAATACAGTTCAAAAAACTTTCTCTTGATTGTATTTGTATTCTTTTTTTATAACAAAATCATAGAGATTTTCTTCTGTTATTAAATCTCTTTCATTTTTTTCTGCTAAAAAATTTTTAAAACTCTTTTTCTTCATTATTTTTAAAACTCCTTTAAAATTTATTTTACTTGCCTTATATAAGTTTTCTTTTGTAGAAATGATTTAAAAATGTTTTTACTTCTACTAAAGGATTTTAAGAAATAAGAAAATATTGATCCCAAAAATTCTTGATTTAAATAAAATAAAAAAAATGAACAACTAATTTTGTTCATTTATAATTTTATATAATTTCTACAAATATAGATAATGGTACAAAATATGAAATGTTTACGTTCTTATAATCAACTTCAGTATCATTAAAGATTAAGTTCTTGGTAGTACTTTCTCTACCATCTAATCATTTTTTATTCCTTTAATCTACCTTTTAGTTTTTATTTAAATTTCCCTCTTATTTTCAAGAAGAGTTTTAATAAAAAATTATTCTAAAACAATATTTTCTTCATTCTTAATACCATTTTTTCTAGTTTTTGATGTATTAAATATGATTAAGAAAGTTAAATAATTTAAACATGGTATTGCAAGAAATGATAATAATATAATTTGCTCTTTTTTTGAAAATTTTATTTCTTTATCTGCTAATAGAGAAAAAATATATATTATACAAGTTGTATAAAGAAGTGAAATCAATATTATAGTTGTAATCAAACTACTTTTGAATGTTTCATCTTTATCTAAGATAGCTCATATTAATGTTATTCAAAAATAAATTTCTAAAAAAAAGTTAAAGAAAAATTGTCAGAAGCATACTATTTTAAGAGTTTTTATGGACTCAGTTTTAAAATTTGGATCTGAATAATTTATATTTAATTTACGAGTAGCTTTTATATAATAGACAATACTTAGAATATATGTTGGTATAAAAATAATTGAAAATACATCAAAAATTCCTAATACTAAATATTTTGTTATTATTCCTTTATCTATTTTTACTCAAGCATTTTGTATTGCAAAAATAATATAGGCGTATGATACAAATATTGCTATAGTTAAAATAACATCAATTATTCCTCCAAAACCTTTTAATTTAACTAAAAAACTTTTATCATTAGAATTTTGTATGAATAACTTACTAATTAAATTAAGTCAAATAATAAAAGCTACACTACAAAATAAAGCAATTATTGTATAAATAAATATTGTTCTGCGAAGTATACTACCATCAAGTCATTTTTTTTCCATAATATCTCTTTTCTAATTTTTATGTTTTTACATTTGATTTCAATTAACAATTATTACATCAAGAATACCTATATATGCTCCTCCACTATAATTTTTAAAACTCTCTATTGTAAAGTGATACAGTATTGCATTTAGCAATAAAATTAGTCCAATTCCCAGAAGAACTCATCAAAGAATACTTGCTATTGCAGCTGCTCCTGTTATAGCTGCATTTACTAAAATAGTTTCAACTGTAAGAACACTTCCTGCTGAACTTAAAACCTCTTTAGCTGCTTTTAAAAGAACATCAGCTCCAATATTAACTAATATTTCTCTTCCATATTGACTCATTTCAAATCTTTTATATCCAAATCAATATCATTTACTTACTAATCAAAAATCGCTTGTAAAATCGATAGTTCAATATGGTATTTGTGAATTATTAATCATGTAATTTTCATTAAATATAAGTTTATTATTAATAATTAGTATTTCATTTGAATTAATAGATTTAAGTATTTCTTTTTCAAAATCTTTTGATTCAAGTAACTCTATTAAAGATTTTGTTAAATTTAATTTATTTAATTCTTTAAAATTAATTTCTATTTTGTTATTTAAATAAATAATATTGCTTAATATTACATCTTCAATATTAATTTTGTCTTCAAAACTATCTTTGCTTTTAAAATAACTAATATTGTCCATTTTTTTATTATAGTTATTAAATTCATTTTCTAATTTCAAAGAAATATTTGAAAGTCCATTATTTTCTAAAGGAACTGGATTTTCTAATTTCTTTTTATTATTTATTACTGAATAAAATATTAATAAAGCAGATACTATTAAAATAGTTGATAAAAATATTTTAAGTTGTTTTGTAAAGGAAAAAAGACTTTCCTTATTTAAAAAACTTTTTAATTTACTCATATATTTCTTTCTAAAGTACTACAAATCAAATTGTTACTTTTATATTACTCCACTTTTAATATAAGCTTAAATTTTATAAATAATAAAATGTATTTTATAAGTTAAAAATTATTTTAAATTTTAACTGGATTATAAAAAAATCCTTTATAAAAATAAAAGGATTTTTCTTAATAAAAACTTAATTGTTAAATTTAGGTCTCTTTTTTATTCATATTTGTATTTTTTTCATTTATTAAAAATAATGTTTGAACTTCATTTGCAACATGTTCTACATCTGTTCCAATAATTAATTGTAAACCTTGATCTCCTAGCCTTTTAATTCCATAAATTCCTAAGGCTTTTAAATCTTTATCTTCAATTCCGTCTTTATTATTTTTAACAGTTAATCTTAATCTTGTACTGCAATTCTCCACTTTTAAAATATTGTCTATTTTAACAATATCTACAATACTTTCTGCCATTTTTCCATCTCTTAAAAAAATTAAATAAAAAAATAATCTAAAAGTAGATTATTTTTAAAATATTTTATATAAATTATTCAAGATTTTTTAATTCCAAACTATTAATTTGTTCTTTTAATTGATCAACAAGCTCTTTGCTAGCTATTCTCTTTGAATAAGCTGTAGCACTTCCACATATGATTGCCATTTTTAAAGCTTTTTCATAATCATTTGTTAATATATACTCATTTAAAAAACCAGCTACCATACTATCTCCAGCTCCTGCTGCATTTACAAGTTTATGATCTCACTTGCCAACACTACAATATTTCATTAGTTCTTTATTCAAAAAGATTGCACCTTTTTTTCCCATGGAAATAAGAATATTTTCAACACCCTTTTCAAGAAGTTTTTTTCCAGCTACTAAAATATCTTTTTCATTATTTATGACAATACCTGTAGTCAAACTTAACTCTTCTATATTTGGTTTTATTAAAAACGGTTTTTTCTCTATTGCATAATTTAGAGGTTCACCAAAAGCATCAACTATACATTTACATTTTAAAGAATTACTTACCTCTACTATTTGAGAATATATTTTTGAATCAAGTCCTTTTGGCAAACTACCTGTTGCAATTACAAAGTCACCCTCTTTTAAATTTTGTTTTAAATACTCAATCATTTTTTTTAAGTCATTTTCATCAATTGCAGGAGCTTGTGCAGTACATTCAGTTTGATCTGAATCAATTAATTTTAAATTTATTCTAATATTTTCTTTTGCTCTAAATTTTTTGTAATCAATTTTTAATTTATCAAGCTGACTGTAAAAATAATTCTCTAAATCCCCTGTTGTAAAAATAATTGATTTACTCTCTAAACTTAGATTTTTTAACATCATTGCTATATGAATACCTTTACCAGAGGGATACATTTCAGTATTAAATGGTCTATTAGTTTTATCTTTTTTTAAGTCATCAAATTCTAAAATATAATCTATTGCTGGACTCAAAGAAATTATATATATTTTATTTTTCATATTTATAACCTTTCTCTTTAATCATTATCTAATTTGAATTTGATTTTCTTTTATTTGTAAATAATGAATATTATTATAATAATTATTTTTATAATTAATTAATGACTCATTCATTAATTTTTCCATTTTGTTTAAAGTCTCTTCAATCTCAGAATAATATTTTTGTGTTTCTATTGATAAATTTATATAACTGTCATTTATTTTTACATTTTGCTTTTCTATTTCTAAATTTAAATTTTTTACTTTATCTGTTTCTAAATTTTTTTCTCCTGAAGTTTTAATTAGTAACTCTCCAATTTCAACTTTTCCTGGATCCTTGCTTATTATTAATTTTTTTCCTTTATTGAAAAGTTTTACACTCTTCTCTTCATTAATCTCTAAAGTTTTGTTTAAAGAATATTGCAAATTAGATTTTTTAATAAGCAATTTATAATGTTCTTTTGTGTAAGGATTAAGTTTATTTAACTGCTTATTAAAAATAAATAAACTTTTTAAAATATCTCTTAATTGTTTTTGTCTATTAGATTTAATTGAATTTAATTTGATTATTATCTCTTTTTTTAATTCAGCATTGTATTTTTCTTTTAATAAATCCTCAATAAATAAATCAATTTGTTTTTCTAAATTGGAATCAATATCAATAAGTTTTTTTCTTCAAAGTAAAATATTTGAAATAAGCTCTTTATTTTTAATTTTTCTATTAGAAACTTTTTTAAGATAATATATTAACTTTTTAGCTGAAAAATCTGTATCTTGGTTTAAGTAATAATCTCTTGCCAATTTTTTTGTAGTTTTAATTGCTAATTGTTTTTCTGTTTTTTCTTCTTTTCACAAAAAGTAAGTTATAACAATTCCCAAAGCAAATGAAAGTAAATCAATTGCTATTGCAAGTGCAAGATGATTTGTATATGCTAAGAAACCAACAATTCCTCCAAGTCCTGCTAAATTATCTAAACTTACTCCCAAAATACCAATCATTCATCCCCCAATTGCTCCTGCAAGAGTTCCTGTAATAAAAGGCAATCCTTTTGGGAGATTAACACCATAAATACATGATTCAGTTGGACCAGAAATTACTCCTGGCAAGACAGCAGCAAAGGCAGCTGACTTATCAATAGTTTTTTTAGATTTTAATCCTACTGCAACAGTTGCACCCATTTGTGCTCAAGCTGCTGCAAAAGCCGCTGCTAAAAAAAGTGAAGGTCTTCCTGTTGTACTAAGATCTGTAACAGCTGCAAAAAATAAGATATTGTGAACTCCTAAAACAACAAGTGGTTGTCAAGTTAAACCAACTATCATTGTTCCTAAACCTAAAGGTCAATTCATAAATCAATTAAATACATTTAATAATGAATTTTCTACTATTCCCATAATTGGACCCATCACAAAGAATGCTAAAAGCCCCCCCACTAATAAAGTTAAAAATGGATTTAATATAAAATTTGCTACTGGATTAAAATATTTCTCCATTAGTTTTTGACAATAAGCCACAAGAATTCCCATTGCTATAAAAACCAATATTGTTGAATAAAATGGTTTTAAAGCAACTTCTCAACTTCCAATTGTAAATAGATTTATACCTTTTTCAGGTAAAATTGGATTTACCATAATTAAACCTAGAGCAATTGCAATTGGAGTTTTGCCTCCCAAATATCTAACAGTAGATCAAATTGCAATTACACCCATCATTTTAAATCCTGTACTTGATATCACATTTAAAATAACATCAAAGATATTATAATCTTGTCCTAAGATAGCATTTTCTTTATTTGGATTATGAACTAAACCTGTTCTTAACAGTAATTGTTCTAAAGCCATAATTAGTCCTACTCCAATTAAGAATGGAATTAATGGACCAAATATTGCAGAAACAGATTTAATTAATCTCTTTCATATTGGTACTTTTGTTGAATTTAAATTATTTTCAACTTTAAAATTAACTTTATCATCCTTATTTTTAAAACTAGTTAATTTATTTTTTAATAGTTGTGTAACTTTAGAAACTACAGGTCCAATTATTAATTGTAACTCTCCATTGGATCAAAGAGCACCTTTAATATTTGTAATAGTTTTCAGTTCCTTTAAATTGGCTGAATCTTGATTAAATAAGGTAAGTCTCATTCTTGTTGCACAATGATAGACATCTTTAATATTTTCAGAACCACCAATTTTATCAAAAATATTTTCTATTAATATTTCATTTTTTGATTCTTTACTCATTTATTTCTTTCATTCTTCTTAATTAGAGCAAATATTAAAATGTATTTGCTTTACTTATGAAAAATATATATCCTTTCGTAATCAGAAGGCAAATCTTCACTGATTAAGTCAGTTTATTTATCAACTTTAACTTTAATTTTAATTTAATTTCGTTTAATTACAGTTTTACCAATTAAGTATTTTATCTTTTTTTAAATGTTGTTGTATTGGTAAATATTAAATCATTTTTTTTCAATTAAACTTGAAGCAAAACTTACAATTTCATTTTTTGAATCAATACTTAATTGTTCTTTTTACTCATCAAAATATTCCCTAGTTGATTGTTGACTATTATTAATGGATCTTGTTCTCCAATAAACTTTTATAAAGCACTTTTTTAAATGAAGTTTATTATATCCATAATAATTGTTTGAATTGTTGAATTTGTTAATTCAGATAATGTAATGTTTTTTTTAAAAATTACTCTTATTCAACAATCCTTTCCTTTCCTTTCTCTTTTAGCAAGGATTTAACCTTCCATATTTATAATATAATAAACTTTTAATTTTTCTTATCAAAGTTTAAAAAAGTTTAAAAAAGTTTAAAATTATTTAAAATATATACTATACTATTCTTGAGAAAGGAAAAGATATGAAAGCGAGTTTAAAGAAAGAATTATTAAAAGCAAGAAATGGTAAATATGCTGTACCAGCTTTTAATTTTGACAATCTTGAAATGATGAAAGGTATTATTGAAGCTGCAGAAGAAGAAAAAGCACCTGTTATTTTAATGGTAACTGAAAGTGCTGCCAAATATATGGGTTTAGATTTAGTATTTTCTTTTGCAAACACAGCAGTTAAAAATTCAACTGTTCCTATTGTTTTACACTGAGATCATGGTTTTGATATAAATCTTATTAAAAGAGCAGTTGATGCAGGTTTTTCAAGTGTAATGTTAGATTCATCTTTAAAACCATTTGAAGAAAATGTTAAAGAAACTAGAGAAGTTGTAAACTATTCTAGAAAAAAAGGAGTTGAAATAGAATCTGAAATTGGTCATGTTGGAGGAAAAGAAGATGATAGAAATTCTAATTCAAAAGGATATACAAATATTGATGAAGCTATAAAATTTGAACAATTAACTAATGTTGATGCTTTAGCTATTTCAATTGGTACAAGTCATGGACTTTTTAAAGGAGAAGTTAATTTGCAATTTGATTTATTAAAAGACATTGCAAATAAAATTGAAACTCCCTTAGTTTTACATGGATCAAGTCAAGTACCTCTTGAGGATTTAAAAAAAGCAATTGAATTAGGAATAACAAAAATCAATATTGGCACTGATTTAAAAATAGCTTGTGCTCAAGGAATTCAACAATGATTTAAAGAAAATGATAATGGTTTTGATGCAAGAAAATATGGTCGAATGGGAATAGATTTTGTTAAAAAAGAAGCAATTAAAAAAATTAGAGCTTTTAATGCTAATAATAAAGCTTGTTAAAATAAAAATAAAAAAACTTAACTTATGTTAAGTTTTTTCAAATTAACTTTATTTTTTTTTATTATAATTTATAACTATATTTTTTTAAGTTCATATATAAAAAAGATAAAAGATATACTTATTGTCTATTACCAAATAAAGGATAATCTGTACTTAAAATTCTATTTCCATTTCCAAAAATTTCAAAATCAGTTTCTATATTTCTATAAAAAATTATAGTTTGTATTTTCTTATTTTTTAAATAGTTGAATAATAGTTTTTTAAATTCAAAATCAGCATTATCAAATATTGAAGAATCAATAACCATAGGTCCTTTTAAATCAAAAAGCTCTAATATTTGAGATTTTAAATAAATTGTTGTTATTTGTTCTCTACCTTCACCTTGTGTTATTTCTGCTCCTGTTTCTAATCCTTTCATTGAAATTTTACATTTAAGATCATTTTTAATATTAAAAAACTCCACAATCAAATTTCTTTGAATTAAATCTTTAAAAATAAGTTCTCATTCTTTTAAAACTTTTTCCTTAAAGTTTTTCATTTTCATATTCATTGAGAAACTATTACTTTTACTTCTTTTTTGTTTAATATCTTTTTTTTCTTCTTCAAGATCTTTAATTTTTTGAATAACTTGATTTAGATTGCTAATTTTAGATTTAATACTTTCAATATCTGAAATTGCTATCGATAGACCCAATTCCTCTAATATTTTATAATTTTCATTTATTTTTATTTTTGTTTTATTTAAAATTTCTTCAATATCCTCTTTTTTATAAATATTTTCACTGTAGCTTTTTTGCATTATTGAGTAGAATTCTTTCACATCCTCAATTTTTTTTATTGATTCCTCTTTTAAAAAATTTTTTGAGTAATTTTTTAAAAATTTATTAAATAGTTTTAAATCAAAATTTAAAGTATTAGCATTTACTTTCAAACAATTTTTTAAGTATCTATATTCTTCTTCCAATATATTAGTTTCTATGTATAAACTATTTTTAGAAAACATAAATAATTTCTCTTGCTTTTTATTAAGTTCTTTGTTTAAATTACTAATTTCCTTAAAAATATCGCTTTTATTAATATCTTTAATTAATATATCAATTTCTTTTAATCTAACTTCTAAGCTCAAATCATAGAATTGAGTATTAAAATCAAAAATACTTCTTATTGTTTCACTTGTAGTCTTTACACTTTCCTTTGAATATTTTTTAAATAGATCCATTTTATTTTCTAAAGGTATTTTATTTATAAAAAATAAATTCATTTGTGTTTGATATTCTTCTCCAAAAAAAATATTTATTTCTTTTAAATAATCTTTGGAAAATAAAAGTTTATTGTTTAAAAAATATTTATTAGTAAATATATAAAATTTAGCAAAATGTTTTTCATCATTTCTATTAGAACAAATTTCCATTTCAAAAAAAACTTCTTCTAGTTTTCTTATTTTAGTTTTTTTTGATTCAAACAAATCTAAAATTATGTTTTTTATATTATCAATACCTGAAGTTTTTTTACCTAATAAAAGTTTAATGATTGTATAAAATGAAGATTTACCTGCATCATTTGCAGATTCCTTTTGAGAGTTCCTAAAACCTGATGAAATAATTGTAAGATTTTCTGAAAAATTAAAATTAAATCCTTCATCAATATTTGAATTTATATTTTTGATATAATACATATTTTATCATCTCCTTCAAAAATATAATCAATATAACCAAAATTGTATGCTAAACACAAAAAATATTTAGTTTTTGTTTCTAATTGTATTTCTTCTAAATATATTTTTTTCAAATTTTCTATTTGAGATAAAAAATATATAAAAGTATTATTAAAAATGCAGCTCTTATTAGGTAAAAGCGAACTGATCTTGTATTTCTTTTTCAAAAATATCACACTCCACAAACATAATTCATATTATTTTTAAAATAAAATATTCAATATTTTCCAAATTTATATTAGCATTCTTATAAACAATTATAGTTTCTTTTTCTGTTGTTTCTTTTAATAACAAGTTAGATAATAAATTTCTCAATTCCTTAATTATTTTAATATTTCTATCACTCAATTTTAAGTCAAAATTTTCTTGTTTTAATAATAAATAATTTTGATTTAAAAAATTTCTAATATCTTCAAATTCCACATTGCTTTTTTTTAGAAAATCCCTATATATTTTATAATCATTTGTCATTAAATTTCTTATTTGAATATTTATAAAAATTTTATCATCCTCATGAAAGCTGTTTATATCCATTTTTTCTTTATATTCTATAGTTTTATAATTAATTTTATCCTCAAAAATATCTTGATCAATTTTTGAAATTAATTCGTATATGATTTCTTGATTTTCTATTCACATTTTTTCTGTATGAACAGCATACCTAACAGAATGTCTTTCTTTTAGTTCTATTAATTTATCCATTGGAAATTTTTCAGGATTTATAGAATCAATGTTTTTATGACAGTTCTTACAAAGTAGAACTGCATTTTCTTCTTTATTGAGTTTATCTTCTCCATATCTAATAATAAAATCATCTTTATATTCACTTCTTGGCTCACCTTCTTTATTAGAAGAAGGTATTATATGAGCAATTTCACAATACTTGAAATTAAATAAGGAAATAAATGAGTTTTTCCATCTTTTTTTTGCATCAGTTTCCATAACAAGAACACAAAGACATATAGTACAAATGCCTTTATATTTTTTATAAACTTCTTTTTTAACTTTTTCACTAAAATCAAATAATCTGTTACTCATTTTAACCTCGTTTAAATAATCAACATTATTATTTTAACACTTTTAATTTTATAATAAATTATTAATAGATTTAAAATACATTTTAGAATTTAAAAATATTTTTAAAATAGTAATTATAAATTAAAAATCAAAGTTATCTGGATCTGGTCCATCTCTGTATTCTTTAATTGTTGCCAATAATTTCATATCTTCACTAGTTAACTCAAAATCATCTATTTGAATGTTTTCTACAACCCTTTTTGGTTTTGAAGATTTTGGAATAATAACATAGTCAAGTTGTAAAGCTCAACGCAAGCAAATTTGTGCTTCACTTTTATTATATTTTTTAGCCAATTGTTTGATTTGATCAATTTCAAAACATTTTCCTCTAATCATTGTTCCTCATGATTCAACAACAATATCATTTTCTTTACAAATATTTACTACTTCTAAATTTTGTAAAGCTGGATGTAGTTCAAATTGATTTATAACAGGTTTTATTTTACATACCTCTAATAATTCTTTAATATGGTGAGGTTGAAAATTGCTTACACCAATTGATTTAACTTTACCCTCTTCTACTGCTTCTTCTAAAGCTTTTCAACATTCAAGTCTGTGTTCAGTTGGTCAATGAATTAAAAGTAAATCAATATAAGTTAATTCCAATTCTTTTAAAATTTCATCAATTGCTTGTTTTGCAAGATCATAGCTGTGATGTGAATTTCATATTTTTGAAGTAATAAAAATATCTTCTCTTTTTACTTTACTTTCTTTAATAGCTCTTGCCACTACTTTATGATTGTTATAAATTGTTGCAGTATCAAGATGTTTATAGCCATTTTCTAGTGCTGCTTTAATAGATTCTAAAGTTTCTTTTTCATCTGTTAATTTGTAAGTTCCTAAACCTACTTGTGGGATTTCTAATCCATTGTTAAATTTTATTTTTCTTTCCAATACTTTATTCATACATTTTCTTCTCCTTTTATAAAGTAATTAAATTATACAACTTTATAAATAAAAAAAATGAAAGATTATTTTTTAAAATAATCTTTCATTTTTAAAATATATCACCATTTTTTGAAATTAAATCTTTATATCAAAAAAACGATTTTTTCTTATATCTTTTAAGTTCTTTTAAATCTTTTTCAGTTCTGTCAACAAATATAAAACCATATCGTTTTTTAAAACCTTGATGTGAAGAAACCACATCAATTGCACTTCAAGGATTATAAGCAATTACTTCTACTCCTTCAGAAATAGCTAATTGTAACTGTTCAATATGTTTTGAATAATACTCTATTCTTTGCATATCATTTACAGTATCATTTTCTAATTCTTCTGTTAAACCAATTCCATTTTCTGAAATCATTAAAGGTAAATTATATCTTTCATAAACTTCTCTAAGAGTTATTCTAAAACCAACTGGATCAGTGTTTCAACCATATTCAGTTTTTTCAAGTTTATCATTTTGTGCATAACTAAATAAACCATTAATATCAAACATTGTTTGTTGATCTATTTTTACTTGTTCAGATGTATTTTTAATATTTTCTTGAACAGTTCCAGAAGTATAATAGTTTATTGATAAAAAATCAGGTTTTCCTTTTTTTAATATTTCAAAGTCATCATTTAAAATTTCAGGCATTAAATCATTGTCAATAAAATATTTCTTAGCAATGGGATTGTAAATTCCTCTTACAATTGCATCTAAGTAATATCAATTTCTCATAACACTTGCATTTTGTGCTGCTAAATAATCTTCTGGTTTATTAGAATTGGGATAAATACATACATTATTTAAAGCTGGTCCAATCTTTGCATTACTATTATATTTTCTAAGCAATTCAACTGCTTTTGCTTGAGCTATAAACATGTGATGTGATTGTTGATATAATTCTTTTTCTGTTAAAGATGATTTTCCCCCATTTAACATAGCAACTTTATTGCCAATCATTATTATTACATTTTGTTCATTGAAAGTTATTCAGTATTTTACTTTTTGAGAAAAGTGTTTAAACAAAGTTTCAACATATTTTAAATAAGCATTAACTGTTAATTCTCTGTTACTTCACCCTCCTCTTTCACTTAAAGAAAGTGGCAAGTCAAAGTGGTATAAAGTTGGAATTGGCTCGATATCATTTTTAATTAATTCATCAATTAACTCTTCATAAAATTTAATTCCTTTTTCATTAATTTCTCCATCTCCATCAGGAATAATTCTTGATCAAGCAATTGAGAATCTAAATGATTTTATTCCCATTTCTTTAAGCAATTTTATATCATCTTTAAATTTATGATAAAAGTCAGATGCTACTTTAAAATCAGCAATTTGCTCTCCATATTTTTTAACATCTTGAATTGAAAGTCCTTTACCATCTTGATTGTAAGCTCCCTCTGCTTGAAAAGCAGAGATTGATGCTCCTCAAAGAAAATCTTTGGGAAATTTATTTTTCTTTAATAACATTTTTATTTAACCACCTTTAGTTTGATATCTTTTTTTAACAAACTTTGATTAACTTTATTTGTCAAGCCATAATTTATATCAAGAGAATGAATAGCATTGAAATATTGTCCATCAATATTTGTTAGATTAGAGAAGTTTAACTCTTTTGCAAGTTTTGCTGTATTTTGTGAAACTATTTTCATAAACTCATCTTGTTTATCATCAAATCATTTAGATTTATTTTTCACAATTACTTTATATTCTTCAATTTCTTTTGTTAATTCTTCTTTTTTATTATTTGATTTAAAATCTTCAAATTTTAAATATAGAATTTTTAAACTTTGAGGATTATCACTGTTTCTTAATTTTTTTAATTTGATAAGATAGTTGTTATATTTTTTCTCATATTTATTTTGATATTGTTCAAATTTTGCTTCTTTTTGATTTAAAATGATTATTTCTTTTTCAAGCTCTTTAATTCATTTTAAATCTTCTTTTTTAAGAAATTCATTTTGAGATTTTAAAACCTGTTCAAGTTTTAATTTAGCTTCTTTTTTAGAAATTTGTTTTCTAGATGCATAAGCACTTATTAATAATTTATTAATTTTATTAACTGTTTTTAATTCATCTGGTCTTTCTTGATAAATTAAAATGGTAGCTACAGCTCCCCCACCAAGAGCAACCAAAAGACAAAGGACAAACATAGCAACATTAGTTGCACCTCCAGGAATATAGCCTGTAATTGAGAAAATTCCATATCCTCCTGGAACGTGTAATTTTACACCAATTATTCCACTTAACATCCCCCCAATTGCAGCTCCTATATTTCCTGCTATAAAAGGTTTTTGTTTTGGTAAGTTTATACCATATAAAATGGGCTCTGACACTCCAATAAATCCTGCTGGCAGTGAAGCAATTGACATTGCTCGCAGTTTAGCATCTTTGGTTCTTATTATAATTCCAATTAAAGCTCCAACTTGTCCATAAACTCCATACATTAATCCAGGACTTAAAAGTTGAGGTATTCCTTGTTGAACTTGTAAACTAATTGGCATTGCAATTGCAATGTGAATTCCCAAAACAACAGCTGGTTGTCATACAAATGCAAAGATTGCAACTCCAATTCCAAATGGGATTAAACCAATTTGATTAACTACATAACCTATTCCATATTCAAATAGTCCTAATATTGGTCCCACCAAAAAGAATGTTCCTACAACTACTATTAAAAATGCTAGAGTATGTCTAAAAATTATATCAACCATTGAAGGCATTCATGTTTTAATTCATTTGTCCAATCAATAATAAGCAATCATTGCAGCAATACAAGGTAAAATTGTATTTGCATATGCTTTAATTCCAATTGCCACATCACCAATTTTAAATCATTCTCAAATTGGTTGACCATTTTGAAATAAATAAGGATTGGCAATTACTAAACAAATTAGCAATCCCATTTGTGAGTTACCACCTAAATATCTTATTGTGTTATAACCAACAAATAGACCTAAAAATTTAAAAGCAACATCAGTAATTATGAAGAAAAACTGACTGAAATGATCTATATCATTTAAAGATACTCCAAATCCTGGTTTTGTCAATACATTTGCTTGAATCAAAATACTTTGAACAGCCATTAACATACCTATTCCAATAAAGATTGGTAAGTTAGGTACCATTACTCCTGCAAGTGAAGCCATGATTCTTTCTTTAATTGGTTTTTTTACTTTTATTTCATTTTTATCTTCATTAATTTTTTGATCAATATTTTGAAAGGCTGTAAAAACTTTTTGAACTTCTCCTCCAATTATAATTTGAAGTTCTTCACCATTTCAATGTGTTCCTTTAACTAAAGCAATTTTTTCAATTGCTTTTAAATCTACTTTAGATTTATTTTTTACAATAAGTCTAAAACGAGTCATACAATTATAATATTTTGAATAATTTGCAGAAGTACCTACATTTTTATAAATTTCTTCTGCTGTTTTTTCATATTTGTTAATTGAAAATAGAGCATCAATATTTTTTAAAATATCAACTTCTTGATCTAATTCAAAATAACCTATTTCATCTCCTTGTTTAACTTTTGTTAAACCTTCTTTTAATTTTAACTTTCACTTTTCATTTACATCTTCTTGTATAACAATTGGTGTTGAAATAGCTAAATTATTTTCTTTAATTAACTTTAAATCTACTTCTACAATTTTGTCTTTTAATGAAATCTCTTCATTAATTTTTGAAATAAATTTAAAAGGTTTTCCTTTTAAATTTACAGTATCAAGTCCAATATGTATAAGAACATTAGGACCATCTTGTGCTTTTACAAAAAAAGCATGTTTTGTTTCAAAAATTAAGTTTATTGTGCTTTTTTCAAAGGGTGAATAAAATACATTTGAACTAGGTTCAATATAAATTCCTTCTCCAAGCATTTTTTCACTAAACACGCCATCATTAAGTTTTTCTATTGGAAAAACCATACCATCACATGGTGCATAGAGTTTTATTTTTTCCATTTCTTCCTCCTCATTTAAATAATAAAGACTAAGAAAAAATATATAAAGAGATTATTGTTCTAATTCATTTAGATTAATTTTTTTCAAGTAAATTAATTGCTTCATGAAAATAAGCAATAATATAGCTCATTGCTATATTCCTGTATATATAATTGTGTGGTTTTTGATTAATATCTAAAACAATTTTAGTATCGTAAAAATCAAATTTATATTTTTGAGAATTAGAACAAAATATAAAGATATTTTTATTTATTTTAGATATTTTTTTATATATTTGAAACAATACATCATTATCTTGACCTGCAAAGAAAAATATAATTGAATCTTTTGAATTAGTATTTTTTATATATTCATAAAATAAATAATTATTTAAAAATAAAGTTGAATCAATGTTATTAAACTTAAAAATCTCATTTAAAAGTTCTGTTTGAACTCTTAGTTGATTTGAAGAGAGTATAAAAACTCTAGTTTTTAAGATTTTGTTAAAAATATTGTCAATATCGCTTTTATTAAAATTAAATAAATCAACTAAATTCTCTTCTTGAGAAATAGTTTCTCTATTATTTGCAGGTTTAATTTGTTCTAATCTTTCAAATTTTAAAAGTGATATCAATTCTCTATATCCTTTAAGATCTAATTTTTTTGCAAATACTGTTAAAAGAGATTCGCTAACATGAATATCTTGTGCTAATTCTTTAACTGATAGAAAATTATCTTCTAAATACATTTGAACTAATTTTTTAGCTATCAAATAATCTGTATTTTCATTTTTACTATTAGAAATTGCTGTTATTTTATCAAAAATCATTTTTCTCTTCTCATATCTATTTTTTAATTATTTTAAAACAATTTAATTATAATCAAATATTAATATAAAGATATAAAAACAAAAAAATCAGTGCATTTTAATGCACTGATTTAAATCTTTTAGTCAAAGAATCCTAATCCGTTAGCAACTTTTTTTGATAACTTTTCATCTAACTTGTATTCTTCATTGTTTGTAAGTTTTATAAATACTTGAGTTTGACTTTTAATATTTACACTAACAATATGATCTGTTAATATTTTAACAACACCATCTTCTTTGCGAATAGTTAGATAATTTTCTTCTAACAAATCAGGAAATTTTCTGTCGAAAAAGAACTTTTCTTCATTTCGATTTTTCATTTTTATATCTCTACTTTACTCCTTTAAAAAAATTATATACCTTTCATAAGAAAATCACATAAAAGTTTTAAAAATTTTATTTAAAATATTCATTTTTTAAAATGCCTTATTCATACTTCTAATCATTAAATTTTTTTACAATAGATTCATCAAATAATTTAAAAATATTAATTTCCTCATTATTTATCTATTTTTAATTTTATATAAAATAAGATTATTAATTTCTATCTTTAAAATTTAGCTAATAGATGCTTTTATAAAAACAGTATTTTATAGATTATTTAATGTAGTTATATTTTTGTTTCTAACATAATCTCTTTAAAAAATTTATGTAAACTTGAAAAGTTTACATTTTTTTATTTCTTTGTATTTAATATGCAAAACAATTTAACATATTTAAGTTTATTAATTATTCTTTTTATTCAATTCCTTAATATAAAATACTTAAGTCCTCTAATTCAATTTTAAGACCTCTTAATGCTAATTGTGAATGTCTTTCATTATATAATATTGATATCATTTTATATTTATCTTTTTTTGTTGAATAATGAATTTTCTTATGACAATTAGGACATAATGCTACATAATTTTCAATAACTTCTATTGAGTTTTTAAAATCCTCACTATAACCATGTGGAATTAAATGATGAATTTCAATATAATTTTCATTTGTAGTCTCTGATATAAAGTATTTACAATTATTATTATTTTCAAAATAGCACTTATTATTATAATAATTTCTAGCTATAGATTTCATTTTATTAAATTCTGTACGATCTTTTCTAGATATTTTTACATACTTAATTTCTGCTTTTTCAATTGGCATTATAACAAGTTCCTGATTATTAATATTTTTATAATCAATAAAATTTACAATAGATGTAAAATCTGAAAATAATTCAATAACTGATTCATTATATTCATTTAAAAAAGAGTCTCTTTCTAAAAAATTTATAATATATTTATAATCATTTTTCTTAAATATACTATATAAAGTTTTTACTGTTTCTTCAAGATTTAAATTTTCAAGAAAATTGATAATAAAATTATAAATAAAAAGTTCATCTTTAAATGTCTTTATAGTATAAACTCCTCCAGATTTCAATTTTTGGTCTAGAATCTCATTAATTTTTAGTAAATCTTCGGTTTCTAAATAATTAAAATTTCTCATAATTTCAGAAGTTAAATCAGAGAAATTAGAAAAATTCCAAAGCATAAATTCTAAACTTCTTACTTTTGAATTATTTTTTTTGGTATATACTTCATAAAATAAATTACTAATTTTTTTATTAAAAATTTGAAATTCTTCAACACTTAAATTATTTTTAAAAACCTGAATTTTTTTTAAAATTTTTACAAAAAGTTTCTCATTATTTGCCATCATAAAATATAGTGTATATATTTTAGAGTCAAAATCTTTAAAATTTGAGTTTTGTTCAATTTTCAACAGTTCATTTTCATAAAAAATAGAATTTTTAGTGATAATCTCAAAATCATTTTCTTTTTTAGTTAAATTGTACTCTTTTCATTTTTTAATTGATTGTTTATGTTTATCTTGACCTGAACGTTGTTTTGGTCAATCTTTTACCTTTATATTTTGCAAAGTCTTTATTGTATCTATATTATGTTTAATGGATTCTAAAACTCTAAAGTTAGTTGAAAATATATTTGATATTAAAGAAAGATTACTTGTTATCTTTGATGAAGTTCAAAATTCGCTTTTATCTTTAATAAATTCTTTATAATATTTATCTATTACTACGTTTGCAGACATATAAAATCTCCTTATGATCTATAAAATTTGTTTTACCACTATTAAATGACTTATATGGTTTTTCATAAATTTCTACTTTTCCATATTCTTCAAAAATTTCAATAATATCCTGTTCTGTAATTTTATTATTTGAAGCTGTTGAAGATGCATTATAAGTATTATTATACGACATTAATATCACTTTACTTTTACTTGAATTGATTAATTCTTTTAAAAAGTGTTTTGCCTTTGATCTTGAATATTCACTTTTTAAATGATCTCTCAAAAATTTCATCGATTTACCTTGAAATTCAGTTGGTTTATTTCAAATTGCTATATTTTCTAATACATGATAAAAGTTTATATATTGTCTTGCATTGTAAGGTGGATCTAAATAAAGAATAGAGTTTTCTTGATTTAAATTCTTTATTAATAAATTTGCATCCATATTAAAAGGAGTAATTTTTGAACTATATTTTTGAACAAATAAAGTTTTTAACTCTAAATTTTTATCAAAATGCTGGTTATTTAAAAAAGATTCATAATGTCCAACAGTATTTGCTATTTTATCTGCACCAAACATAAGACTTGTAATTAAATAATATTTTTCATCTTCATTTATTATTTTACTTTTAAATTTTTTTTCAATATCTTCTCTTATTTCTCCAATTTTAAAAGCTTCAGTTTTACTAAAGTACCTATTTCCATAAATTTCACTAATATAATTATCAAATAAGTATTCATATTTTTTGTTATTATATTTATCAATAATATTAGATAATTTTTCTTGATCAATGTTATCAAAACTATTAAATGCTCTATAAATTACATAATTATGAAATAAATTATCATTTAAAATTGTATTATATCCTTTTTCTGCAAAATAAAAGCCAACAGCTCCTGTACCAGCAAAAATATCAATAAATTCAGTATTTATATTCATTTCCTTTTCAATTGTTTCAAAAATTCAACTAGTTAATTTATTTTTATTACCAATATATCTCCTATTATTATATTTCAAAATTCATCACCAACACTTCTTTATCTAACGTATATCTATTTTTTTTATTATAGCTACTTGAAATGTAATTTTTTTCAATTTCTTTAACTATTAAATTATTTCTTTTAATAAATTTTTTTAATTCAATATTAATTTTATCTCCTCTTTTAAGAATATTTGAAATTATAATTTTTTTATTATTGGCTAATATTTTTTTTTCAATAAAAGCATAAAATTCAATTTCAGTATTAATATCTCATTCCTTATTATAAGTTGCTTCTGTTAACAAATATGGAGGATCAATATAAACTATATCTGAATCTAAAATCTTTTGATTAAGTCTTTCATCTCTAAAATCGAAATTATTTATATCTATTTTCATATTATTTGTCTTTAATTTGAAATTTTCAATTCTCTTAAATGTGGCTTTATTAAAATCAGTTTTACCTACAGGAATATTATAATTACCAATAGAATTAAATCTAATTTCTCCATTAAAACCATAGATCTTTAGAACAAACAAAATAATAATTGCTTCTTCTGTAAATTTATCATTTAAAGAATTGTAGTAACTTCTTAACTTATTAAAAGATACAATATTTAATTCCTTTAATCCATTATTAGAAGTATTTTTTAGTTTACTTTTGTAAAATGAATAACTATTTCTAAAAGAATTTGTTAAATCAAATTTATGTATTACATTTTCTATATCTGAAACAATTTTATCCAATTTATTTTTAATTAAATACTTTAATATTTCAATAATGCTCTTATTTAAATCATTAATTATAATTTTTTTATTTCTCGAATTTATTCCCACAACAGAACTACCACAAAAAAGATCTAAAATAACTTCATCATTTTTTATGTAATTATAAATTATATTCAATATTTGAAACTTATTTCCAGCATAACTCAAAGGACTTTTAATAAACATATATACTCCTATAACTATTATAGTATAACATCTTTGTTTTAAAAATTAATTTAGTTACTTAATATTTACTATTAATATTTTTAAAAATAAAACGAGATTTTTACCTCGTTTTACTATTATTTTCCTAAATTTTAATCTTTCATTTATGAATTTCTATTTCCCTTTTAAATTTCTTTTCTTCTTTTTCTCTTTTTCTTATCTTACTTTAACTTCTAAAAACATTTTATCTAGTGAGCTTAATTCTTTTTGCAATTTTTCTTTTCTTTTTAACTATTATATTTGTTTCTACATATTATAAAAAAACCCTTTTATTAGTTCTGTATATAACTAAACTATTAACTAACATAGAAAAAGAATAATTATAGTATTAATTAATTTAATATATTTGCATAATTGAGTTTAAATCATAACTTTTAATATTAAATAAATCAATATTAAAAGATATATTTTTGATTTTATTATCATATTCTTTGATATATGGTATTTCTTTAATATTAATAAACTTTATTTTTATTTCTTCTTCTGAAAATCTTATAAGATTTCTTTTATCATGATTTTCTTTGAAATCTGTAAAAAATTCTTTCATCCCTAATGCTAATGAAGGAATAGATAAATATCAATCAATTAAATCAATTAAGGTTTTTCCACCTTTTCTTACCTCCGAAATTTTTATTGCAGCAAAATAATCATTAATATTTTCATTTATTTGATGATTTTTCAAAGAAAAAAGATCTTCATCACTTGTAGTAGTTTTAACTTCTATATTTATTTTTTTATTATTATGTGTATTAATTTCAAAATCAGTTTTAGATTCAAATTTTTTAAAATTATTGTACTCTTCTATATGATATCCTTCTAAAAATTCTTTTAAATATTCTCCACTATTTTTTAATATTAATAATTCTCCTATTAAACCTATTTGAATTTTTTTCTTAATTTTAAAGACTAATCCAAATATTGTTTCCAAATTAACTACAGTATCAAAAATTGTTTGAGATAAATCATCTATATTAGAAATAGTTTTAAATACTAAATCTACAAAGTATTTTTCCATTTTAGGTTGTAAAATTAATACTTCTGCATCACAGTCTTCATGTCCTTCAACATCGATATTCATTGTTTGACTAGGAAATCCAGAAAGTTTTTCATCTCCTTCAATACCATTGGAAATTGATTTTATTGATGGATAATATGAAAAGTTAGGCTTTTTTAAACTTTTTATATTTTTTGGTAAATTTACATTTTTATAAATTGGTTTTAAAATAAAATATGTGCTTGACTCAGGTAAAAGAAATAAAGAATATTCTCCTATATCTTTAATTGCTATAACATTTAGTTTTTCCATTGTTTTCTCCTAATTTGTTCATCTTAAAGAGAATTTTTTAAACTCCTCTTTAATATCTTCTGATTTTTTATCATTATGAATAGAATCTTCTTTGTACATTTTTCTCAATTTATTTTCAATAATTTCAATATCTTTATAAAAACTAATTGCTTTTTTTGAAGTAAATATATTCATATCTTTTATATAAGAACTTCTATATCCAAATCATCTAGCTCTTTGGAGTAATGTATCAGCAGTTAATTCATTAGAGTTTGAGTGATTTAACATAATTTCAAATAATAATTCTTCAAAAGTAAATCCTCTTGACAATAAATTACCTCCAATAATTATTTCAGGACATTTTTCTCTTAAGTACTCTATTCCTTCTCTTACTTCTTTAATCTTCAACTTATTAATAATTTTTATTAAATCTGACTTAGTAGTTTTCATTGAAAAAGTATCATTAAAATCACTTGACATTAAAGCAATAGATAAATCACTTACTGCATCTCTAAAAATTTTTTCTAATCATATAATATGATTTTTACCAACATCAATATTTATAAGAAACTGAAAATTTCTATTATATTGGATACACTTATTAAGAAATTTCAAAATAACTTCTTTTATAAAATATTTTAATTCATTTGATAACATCTTATTTTTAAAACTAAAGACAATTTGATCTTTGAGCTCTACATATAAATTATTATTATTAAAAATTTTTAGTCCACAATATGAATTTGGAGATACAAGGGGTATTAAAAAATCAGGTTTAATTCAATCAGTATAATGTGTTATATTTGCATAAGGTGTAGCAGTAATTTGAAAATATAACACATTTTTAAAGCCACAGTTAATAATATTTTCAATATTATTATTTATTGATCTATTTTTTTTACCTTTCTCAGAAGAAGCTTCATCACATTCATCATCAATAATAACTATTTTAAATTCAGATTTTTGATTCTGAGTCATTTCCTCTAAATTTATTAATATATTTTTTATATTTTGTTTTATGCCATATAAAAACTCTGTTTTATTATCATTTTGAAAAAAATTACTTTTATTTGAAAAAGGCAAAAAACGACTTTTTTGATTTGCTTGTTTAAATCTATTTATATTTTGCTTATTAAGATTATTTTTAGTTCCAGTCAAAATAATAAATTTTTTAAAATCATTATCCCTTAAAAAAGAAGTTAAAAATATAATATTATTTGTTTTACCAGATTGTACCTCACCCAGTAGAAGAAATTTTTGTATTTTTTTTTCATAAGAAAGTTTTTCACTTATATTCTTTAAATTTACTTCTATAACATCATCAATAGTATTTTGACCATAAGTTTTATTTTCTCTTATAAATTTTTCTCTAAGTTCTAAGTAATTCGCTCCTTTAGAAAAATCATTATAATTCTTTTTTTTAGCTAAACTTATTTGTATTCTACTCACCTTCAATACCCTCAATCAATTCTTTAAATCTTTTATTTTTTTCTTGATTAGTTTTATATTTAATCAATTCACACATAAGTAGTTTTATTAATGGATTAAATAATATTGAAAAATGTTCATCTTTTAGATTATTTTTAAATCCATAGAATTCTTTGTTAAGAACAATAACAAATAATATTGAGTTATCTTCACAAGGTAAAGCTCTTGTTTTAAATAACTTATGTTTATTTCCAAATTGACCTTCTGGATGGCAAACTATTTTAAAAGCACTTTCTTCTTTTTCATTTACAACTATAAAACCATTTCTAAATCTTTCACCATCTGTATCATTTATTTTTAATTCTTCTGTAATTACAGAATGATTCTCTAAAATTTTATTTTTATTAATTTCATTTGCGAATCTATCAATTTCTTGTTGAAACAGCTTATCTTCAAGAAGCTGATCATTTTTATAAAAAATAATATCCAATATTTTATCAAAAAGTGGAGACAGATAATTTTTAAAAATGTCTGATAAAGTTTTTTCAATATCCTCTTTAACTGTTCCATGAAATCCCATTTTATTATTATCCACTCTAAATATTTTCTTATTATTAAGGTCAATTTCGCCAATAAATCTTTTAGTTACTTTATAACTACTATCACTTAGGGCTTTTGGATAAGAAAGTCATGTTAAATTACTCTTTTCAGAATTTGGACCTGAAATAATAGCTCTATCATCTTGATAAACTGTTAAACCATTATATTTTAGTAAACTACTATTATTACCTATAAAACCAAAAGTGAAGGGTATCCTTTCATTTTCATAATAGTTATAGGGTAATCTAAAAAAAGTTTTAAATTTAAGTTCTTCTTGATTTTCAAATTTTTCAATTATCATTCCATAGGTTATATCTTCTAAACCCTCAATTACATTGTTTCAAGAATCTGCAAATGCATTTTTAATTTCTTTCATTGATTTAATATAAAATTTTGATTTATTAATATTAATTTTTTCCTTATCAGATACTTTAAACTCATAATCCTGTCTTTCTTTGGAATTTTTTATATACATATCAGGTATTTTTGATTTTGTTATTTCAACAGGAACTTTATTTGGCATTTCTTCATCACCATCTTCATTAATATAACTCATATTTATAGATAAAAAGTTTTTCTTTATATATCTTGAATATCTACAAGCTAACTGTTCTTCTAAAGCTTTACCCTCGTTTTTAGTACCTTTATTAAACATTCTTTTTTCATATCTTTCTGAGTGAACAGTATCTATATGAAATTTATCTATTTTTATAATTGTTCCATGATCATAATTGAATTGTATACCAGATTCCTTTTTAATGTTTATATCCTTAGTATCATAAAAATTAAAATTTTTTCCCTTTAATTTGTCTATATCAAGATTTATCATATATGGAAAATCATCTTCAATACTTTTCGTAAAAATTCTTAATCTTTTACCAAATCATATTGCTGCCATTTTCATTCCAACTCCAAACATATTTAAAGAGTTTCCTTGTTCACTTTCATCTTTTCCATTTCTAATTGCAATACTTCTATTTTTATAAGCAATACCAGCTGCATTATCAATTATATAAATTGCCTTTTCTAACATGTTAACAATTATTTTAACTTCAACATATTCAAAATTATTATCTATTGCACTTTGAATTGAATTATCTATAAATTCAGAAATCATATATATATGACTTGTTGTTTTATCAATGTAACCAAGAAATTCTCTATTCGTTCTTGGTATTTCATTTTCATTTATTTTACTCATTTAATTGTACCCCTTTATTTGCTCAAACAATCCACTAATCTTTTCATCAAGATACCTATCATTTTCTAATGCTTCCATTACTATTTTAAAAATTTCTTTTATTTTATTTATTTCCTCATCTGAAATAATCTCAATTTTATATTTCTTCATCGCTTTTTTTAATTTAAGAATTTCTATAAGTAGTTCTTTTCTATAGTCTAATGTATATGGACCTAAACCAACTATTGATAATTTATCATTATCTAAGTTTTTGTCTAATTTAATTACAAAATTGAATAATGGTATTTCTCCCTCTACATAAGGATTTATTTTACGTTGATCAACTTTTTTTCGATATTCTGATTCACTAATTATTTTAAAAACTTTTTTATTATATTTTAATTTTGTAAAATCTTCGTTAATTTCACCAAATATAATCTCTTCTCTTCCCTCTTTTTTTGGTAAATAATAAATTCCATTTTTAAACTTTAAATCCATATATCTATATTTAACTAAGGTTACAATTTTTTTATTTTTCATAATTCTTAAGGAACCATGATATCTATTTTTTAGTAAATCTCTTTCTTTCATTAATTTTTCTCTAAAACTCATAAGTGGTTGTAGTCAATCTTGACCTGAATTTATAAAACCCTGAAGTGATTTGTCTTGAGTAACAACAGGACAAAGTCAACAACCTCATCTAGAATTTCCACAACCCTTTTGCAATTTATCATCTAAACTCGATGGACATTCTCCTGTTCCCACCGATGAATCTTCATAAAGAATAGATAATTTATCATTATTTTTTTTAAAAAAATTAATATTGCTTTCAGCTAAATATTTTCATATATCATAAAGTTGAAATTCTTCAATTGGTGAGAATATATATTTTCCATTAGTATTATTAATTCTCAAATCTGAATCTTCAATTTTGGTTTTATCCATTTTTATATCTCTACTTAAAGATTCTCCTTTACGAACACCTAAAACAGTAAGTATTTCTTTTTTACTTTTTTTAGATATTTCTTCCATATAATCATTCATAGGTTTAATTTTTAATCTATCAGTACATCATCTAAAACTTTGATTAGGTAGTGGATATCCTCTACCTATTAAATTTACTCAAAAAGTCTCATTAATATCTGGTGTAACTTTAAATACTTCCACAGGTAGTTGTTTTTCATCTGCATAAGTTTGCAAAATTTCTAGTGAATTATTTAATTGTTCCAATACAATTGGGTTTTCAATTAAAGTATCAGAACTAACAATATAAATTTTATTTTTTAATTTTGTTTTTATCTCTGTTAATGATTCTAATATTATTTGAACTAATACTGATGAATCTTTTCCACCAGAAAAACCAATCATTCAATCATAATTACATTCTCTATAAACTTTTTTTATTTTTTCTTTTACTATCTTAACTTTTTTAAGATATATATCTTCTCTGTTCATTTTAATAACCCTTATTAGTTTTTTTATTATTATACCTATCATAGTATGCAATTGCAAAAATATTTTTATTTATATTTTTCATATACAATTCCTCTTTCTTTTCTAAAGAATAGAATAAAACTGATCTTATTCATACTAAACTAAGATTATTTATTGATAAACTTAATATTTTTTTCATTTTCCTCCTTTTATAAAAGCTATTAAAATACAAATAAACAATTCAAATTGATATCAATGATTATATAAAAAAAAAAAAAAAATCAAGTTTATTGATTTTATTCTATTAAGGAATGTTCCCCCCCCCATTTAGGCAACAATTTTTATACAATAATAGAAAAGGATAAAGTATATGGCAAAAAAAGGACAAAAGTTTAGAAAGTGAACTCAAGAAGAAAAAGAAAAAATTATTGAATTAAGTTTGAATGGTTATTCTCTAAAGGAAATAGCATTAAAATTTAACTCAACTACAGGATCAATTGGAACAATAATAAACAAATACAAAAATACAGATATTGGTGATTCAAAAACTCGTTTACCTTATAAAATAGATTACAGTATATCTCAAAAGGCAAATGATCTGTTTGTAGGAATTCTATTTGATTACAATAAGGAATTAATTAAGGAGAATGATATTTTAAAAAAGCAATGAGCCTCCAAGGCCAAAACCAAAAAGAAATAGTTCAACAATTATTGATAAATACCAAGAGCAATAGAACAATGATTTGTAAAATTTTAAATATTAATAGAACATCAACATATAAAAAAAATAAAACTTTAATGAATTTCCTGGATGATACAAGAATTATGAATTTAGTTATTTCAGAAATTGAAAGGAATAATTTCCTTAGTGCTTATAGTGCTAAAAGATGAGCCCTATATTTTAAATTAAATTATATTGACCCTTTCAGAATTAATCATAAAAAATTAGAACGTATATTTAAAAAATTTAATCATATTGCATATTACATTAAGAAACAATCTAAACATGAGATTAAAAGATATAACGAAACTATTAGAAAGAATTATTTAAAAGAAGCAAAAGAAATTGGTTTTGAAAATATTTGAACTAGTGATATAACTGAATTTTCAGTTAAAACAAAAAAAGGTTATATTTGCACAGTTCAAGATAATTTAACTGGAGAAATAATAGGAAAATCTAAAAGAATTGATAATCAAAAAACAGATTTTGTTCTTGAAGCTGTAGAAATGGCATATAAAAATAAAAAATATTTAGGTTCAATATTATTACATTCAGATAATGGAAATCAATATACCTCTCTGGATTACATAAGTTTATGTAATGATTTACAAATTATTAGAAGCTATTCAAAACCAGGAACACCTCATCATAATGGTAAACATGAAAGTTTTCATGGTCGTTTAAAAGATGAAACTATAAGAACATGTCATATTGAAAACATTAATCAATGTATGGAAATAGCATGAGCATGATTGGACTTTTATAATAATGATAGAATTAGAATGAATAAAAAATGATAAAAAAAAAAAAAAAACGTTCCCAATTTGGGGGGAACGTTGTAAATCCTACTCACTTAAATTTTTTAAAAAATTAATAATATTTAAATGGAGATTTCTATATATTTTAACCAATTATTATAACAATACACTTTGTTTTATATTGAATAACTCCTGCACTTTTATGTTTATATTCAAATTCAATTTCAATTGGATTTGAAAAATCAGTATTTTTTACTATACTTTCAATAAGATTTGCATCTAAATCATTTTCTGCAAATGCAACATATAATCTATAATCATAATCAAATCTCTCTTCATCTTGATTTTCATACATTCATTTAGCTAAAATTTCAGGATTGTTTTTTAAATACTCCTTTGGATTTACAATATTTAAATCTTCAATTAACTTATTTCCAAGAGATTTTGAAACTTTTTGATCAAACATAGTTCCATCTATAAAAAAATCTACAGATTTATTATGTAATAATAGTAGTATTTTTTAATATAACCCTCTTTAATTAGATTATTAGTATTTTCCAAAACTCTTTGCCTTTTGTTTATTGCATTTTGGATGCATTGGTTGAAGGTTATTTATAAAATTATCCTCGTAATTTTCATTTATATGATCTATATCTCAACTATATTTTTTATCTGGTTGTACTCCTTGATATTGTGCTTTTAACATTAAAGAACCACAAAGTGGACATGGTGCTTCTTGACTAAAATCTCATTTTTCTTTATCTAATTTTTGAAAATATTTAAACATTTTATTACTAATATAATCTTTTCATATTATATTTCTATCTTCTTTACTTCAAGTTCCTCTTTTATCTGCCATATTTTTTACCCCTTTATAATAATATTTTAATACTAAATTTAACTATTTGAGTAAACTTTTTAGTGATTTTTATTTATAAACTAAGTATTTTGTTTTAATTCACAAAGTAGACATTATAAACAGGAAAAAATAAATTCTTCATTTTCAAAAAATGAGAGATAGAGTTTTTTTATGTCAAAAAAGATAATTATTAATCAATGAATTAAAGTAATTAAAATTAGAAAAAATGAGAATACAAAGAAACCCATAAATACTATTTAAGCATTAATAATTCAAATATATCTTATAAAAATTTTTTAAGTTTATATAAATAAAAAATAGGCCTTTTGCCTATTAATTTTAATTTTATATGTTACATACTATTTTTTTCAAAAAATAAATAAAAACAATAACTACTATTGAGCAGATAATATTTCAATAATTTCTTTTATTTTTGGGGATTTTATATTATCTTCTCCAAATAATTTAATTTGATCATTTCATTCTTTACTATTTATACTTATAAGATTTTTTTTAACATTATTTAAATCTATTTTTTCAGAGTTAGCAGCTCATATATCCAATTCTTTATTACTAATTACTATATTTTCATTATTTTTTAATGTTTTTTTCATGATAACTCCCCCCACTTATGTTAAAAACTAAAATAATTAACATAAGTTAATAATATACTATTTTTTTTAATATTATCAATTAAATTAGTTGTTTTATACATCAAGTATTCTTTTGACATTCATATTTGATAATTTACATTTATTGTAACATTCTCCAAAATGAATAATTTAATTTCTTCTAAAATTTCATTTTCTCTTTCTGATTCAAAACTTGCAACATGAACCATAAAATTCTTTACTCTTTCAACTAATTCTGCTTTATCTATTTTTAACAAATAGTTTTTTCAAGTATCTATTTGCACTATCTTTGCAATAATTATCATATTCAACAAATATCACTTCATAGCTTTTAAAGATTCTTCAAATTCTTGTAAAAACTGCTTAAATTGAAATTCCCACAGTATAACCAAAAAAAGTAGAGTTAAATACCTCTACTCACTTTAATTATTTAAAAAATAACAAATTGAGAGCCTCCAATATTATAGTTTCTATCGAATTTAATTTTAACCTTTACTACTCCAAATAAATTTAAAATCATATAATCATAAGTTTTTAAAGATTTACTTGATGAATATAAACTATCAACAAAAACAAAACCATCATTTAGAACTTCATTTTCTTGAAAAACAAATTTAATAGGTTTTTGTATTTCTTGATCAAACTCTTTTGTCATATTAAAAGAAAAATAGATATTTTCTTCTTTAAAAGAGTTACTTGATAAATTAAACTTATTTAAGTGCTTTTCTTTATTTTTATAATAACTATTATTAAAGTTTAATAATGTATTGTTAACATCTCTTACACTTCTTATTTGAGTATTATTTGTAGGTTTTCAAATCTCATATTTATAAAATCATAAATCAAATAATCATTTTCTTTGAGAATGACTTTCTTCTTCTTTTGGCATATAAAGTTCTTTGTAAACATTAAATAACTCTAAACAAAATTCACTAAGACTTTGATTATGTTCATCATTTATTCCATTAATTGAATAAGAAATAGCTAATTTAAAATCAGGTAATTCATGATTATAAAAAGACTCATCTTTTCCAATTTTTATACTAGGTCCAATAAATTCAACATATCCCATAGCTACTCCAAGATCATAGTTTTTTGTTTTTTGATATTCATAAATTTCACTTTGATTTAAAAAAGAGGTTAAAAAACTATTTTGAGCAATTTTATAATTGCTTCTTATTTTGCTTCAATTAGCTCTATTAAATTGAGTATCTAGAAAAAATTTATTTAATTCTTCATTATTATTTAAAAGCATTTTTCTTGTCATTTCATATTCTTTTGTATTTGATAAGTCAAAACTTTTAATATCTTCATCGCTTTCATAAAAATTATTTACAATTAAATAGTTTTTATTTTCTTTTGCAAAGTTATTAGTTTTATAGATACTTTTTTTATTATAACTAATATCTATTGATGGAAATTGAGCTTTAAAATATTTATCATTAATTGTTTTTAGCAAAGAGTTATGAAAACTTTCATTTTCATTATAATATTTTTTTAATTGAGAATTTGAGTTTACATAAGCTTTAGAATCACTGCTATTGTTCTTTATATCACTTCATTTCAAATTTACATACTTTTGTGTTTCTTGTGAAATAAACATATCTTTGGCAATATTTTTATACATTACATCTCCAACTTCTTTAAATGACTTACTATCTGTTGAAGTATATTTTAAAGTTCCTGATTTTTTAAACTTTTCTATATTATTCATTCCCATATATTGAGTTACAACTTTATAATCAACTATTACATTTCCTATGTAACTTCCAGGAGCTATTTCTCCTGAATTAATTTGAAAATTATTGTTAAAAACCAACTCTACATGTTCAAAAACTGAACTAACTTCATCAAGAATTATTTTATATTTAGTTACTTTTTTAAGAGCATCTATCTTTTCTCTTAATAATTTTGCATTAAAAAGCTTTTCAATATCATTTGTTAGCTGTTTTTTATTTTCAATTGTTAACTTATCTTTATTTTCAGGTTTAGAGAATTTTTGAATATTGTACTTATTTAAAAACTCATTGTCCTCTTCCATACTTTCAACACCAATTAAGTTACCTAGAACTTCTTTTTCATAATGCTTTGTTCATATTTTCTCTACATCTTTTTGAAAATCTTGAACTATTTGAGTAATGTCTTTTTTTGATTGATTATTATTTTTTGTTTCTTTTGTACCACATGCAATTACACTAACAGATGATGATGAAACAACTCCAATTGTTGCCAATACACTTAATAATTTTTTCATTTTTCCTCCACTTTAAAGAACGATAAAAGCAATTCAAATTGATACATATGATTATAAAAAAAAAAAAAAAAAGTCAAATTTAAGTGTATAAAAACTAAATAGAATGTTCCCCCCATTTAGGCAACAATTTTTATACAATAATAGAAAAGGATAAAGTATATGGCAAAAAAAGGACAAAAGTTTAGAAAGTGAACTCAAGAAGAAAAAGAAAAAATTATTGAATTAAGTTTGAATGGTTATTCTCTAAAGGAAATAGCATTAAAATTTAACTCAACTACAGGATCAATTGGAACAATAATAAACAAATACAAAAATACAGATATTGGTGATTCAAAAACTCGTTTACCTTATAAAATAGATTACAGTATATCTCAAAAGGCAAATGATCTGTTTGTAGGAATTCTATTTGATTACAATAAGGAATTAATTAAGGAGAATGATATTTTAAAAAAGCAATGAGCCTCCAAGGCCAAAACCAAAAAGAAATAGTTCAACAATTATTGATAAATACCAAGAGCAATAGAACAATGATTTGTAAAATTTTAAATATTAATAGAACATCAACATATAAAAAAAATAAAACTTTAATGAATTTCCTGGATGATACAAGAATTATGAATTTAGTTATTTCAGAAATTGAAAGGAATAATTTCCTTAGTGCTTATAGTGCTAAAAGATGAGCCCTATATTTTAAATTAAATTATATTGACCCTTTCAGAATTAATCATAAAAAATTAGAACGTATATTTAAAAAATTTAATCATATTGCATATTACATTAAGAAACAATCTAAACATGAGATTAAAAGATATAACGAAACTATTAGAAAGAATTATTTAAAAGAAGCAAAAGAAATTGGTTTTGAAAATATTTGAACTAGTGATATAACTGAATTTTCAGTTAAAACAAAAAAAGGTTATATTTGCACAGTTCAAGATAATTTAACTGGAGAAATAATAGGAAAATCTAAAAGAATTGATAATCAAAAAACAGATTTTGTTCTTGAAGCTGTAGAAATGGCATATAAAAATAAAAAATATTTAGGTTCAATATTATTACATTCAGATAATGGAAATCAATATACCTCTCTGGATTACATAAGTTTATGTAATGATTTACAAATTATTAGAAGCTATTCAAAACCAGGAACACCTCATCATAATGGTAAACATGAAAGTTTTCATGGTCGTTTAAAAGATGAAACTATAAGAACATGTCATATTGAAAACATTAATCAATGTATGGAAATAGCATGAGCATGATTGGACTTTTATAATAATGATAGAATTAGAATGAATAAAAAATGATAAAAAAAAAAAAAAAAACGTTCCCAATTTGGGGGGAACGTTGATAGAGTCAAAAAAATAGGCCAAAAAAGCCTATTTATAACTTTAATTTCTTAAAATTTACTTTAACTACTCTTTATTAAATTCTTTTAGTTTCTAATAAACAAAATAAAATTAATTAAATATATTTCTAAAGAAATAAGTTAATTAAAATAATCAGAAAAAATCATCATTTGCTGAATAATTCTTATCAAATTTCACTTTTAGTTTCAATATTCCAAACAAGTTTAATGTCATAGAATTTAAATTGTCAAATACTTTGATATTTACAGTATCAGTTAATCTAATAAAACTCCAGTTTAAGCCAGTATTATTAATTGATATTTTAGGATTAATTATATTCTCATTATAAAAGTTAATTGAGAAATATATATCCTTTTCTTTAAATGTGTTTTCATTTATATTAATTAGATTCAAGTTTGACTTTTTATTTTTAAAATAAAATTGACTAAAATCAACTAATCTTTGATTAATTTTAGTTCCAGTTAAAGAAAATTCATCTTTTTTGTTAACAATAGTTCAAACACGTTTTTGAATATAATTTGGATTAAAATTCATATTAAAATAAAAATAATCAGGTCTTTTTTTAATTGGATCATATATATTTTTATAAACATTAAATAATTTTAAAGAAAAATCAGCAAGAGTTTTATAATTTTCATCATTTATACCATTCATTGAATAAGAAATTGCCAATTTAAAATCAGGCAATTGATGAGCGTAACTTTCTTCACCTGTCCCTATTTTTATACTTGGTCCCACAAATTCAACATTTCCTATTGCTATTGCAAGTTTATAACTGTTAGTTTTTTGATACTCAGATATTTCACTTTTAGTTAAGAAACTATCTAAAAAACTATCTTGTATATTTTTATAACTATTTCGAACTTTAGATCATTTCAAAGCAGTAAATTGATCATTTAATAAAAAGTTATTTAACTCATTTTCATCTGCTAAAAATATTTTATCTACTTTATTTTTTTCTTCTAACTTAGATAAATCGAAAGTTACAATATCATCATCACTTTTATATAAATTGTTAATAATTAAGTAATTTTTATTTGATTGAGCAAAATCCTCTGTTTTATAAATACTTTTTTTATCATATTTTATTTTCATTGTTGGAAACTGTTTTTTAAAATACTTATTATTAATAGTTTCTAATAAAGCCTCATGAAAATCATTCTTTTCATTATAGTATTTTTTTAATTGAGAATTTGAAGTAGCATATGCATCTGAATCATCTTTATATCCCTTAATATCACTTCATTTTAAATTCACATATTTTTGTGTTTCTTCGGAAATAAACATATCTTTGGCAATATTTTTATTCATTTCATCTCCAACTTTTTTAAAAGACTCACTTTCAGTTGAAGTATATTTTAATGTTCCAGATTGTTTAAATTTTTCAATATCACTAACTCCTTTATATTGAGTTACAATTTTATAGTCAACTATCACATTTCCTATATAGGTACCTGAAACTATCTCTCCTGAATTAATTTGAAAATTATCATTAAAAACTAATTCAACATGTTCAAAAACTGATTCAACTTCATCAAGAATTATTTTATATTTATTTATTTTTTTAAAATCATTTAATTTTTCTTCTAATAATTTTACTTTAAATAATTTCTCTACATCATTTGTTAGTTGTTGCTTATTTTGACTTGTTAATTTATCTTTTCACTCTGGTTTAGAGAACTTTTGAATATTAAACTTATTTAAAAATTCATTTTGCACTTCCATACTTTCAACACCAATCAAATTGCTAACAACTTGTTTTTCATAATGTTCTGTTCATATTTTTATTACATCTTGTTCAAAATCTTGAACAATTTGAGTAATATCTTTTTTAGGTTCTTCTGGTTTATTTTCTGGTTTATTTTCTGGTTTTGTACCACATGCAACTGCACTAGTAGCAGATGATGAAACAACTCCAATTGTTGCCAATACACTTAATAATTTTTTCATTTTCCTCCTTTTTTAAAGAGCTATTAAAATACAAATAAAACAATTCAAATTGATATAGATAATTATAAAAAAAAAAAAAAAAGTCAAGTTTATTGACTTTTCTTCAAAAAAGTTGACCTAAATGTCTACTCATTCCATCTCACTTTATTAAATATTTTTTATTAGTATTTAAACTTAACAAATGCTTTTGAATCTTGATTTTCAGATAATTTAAATAATTTTTCGTATTTAAAATTAACTGCTAAATAACCCAATTTAAATGTAATTGAATCAGGATTTTTATCTTTTGCTCCACCCTTTGCTGATGTAAATACAAATATATCATCATTTAATGAAGCTGTTATTTTATTATTTCTATTTCCTCAAACTCTACTTGAGGCATAATCAAATAAATTATTAGAGTCATTAATATTGATAAAAAATGATTCATAAACTGGTTTATCAGATAAAGTTGAAGTTTTTATATTCTTTAAAAGAATACTATGTATTTGTGAAGTATTTGCATATATAATCGTTCAAAATACTGTTGCTAAATAACCTTCTCCCAAATCACCTGGATTATTTTTGTAATATTTTTTCATATTAGAAATTAAGTTTTTATCTCCAATATTCATTAAATAATCTTCATTAGAATTAAATTCAGGATATTTAAAATTTGAATCAATTCCATAAAAATTATGAAACTCTTTTATTATTTCTTTAGATGTAAACTCGCTTAAATAATCAATCATTTGTGAATCATTATTTGAAGCATTGTAAGTTATTGATAAATTAAAATCAGGTAACTCATGATTATATTTATTTTCTCCAGTTCCAATAATAATATTTACTCCTTTAATTTTGACATTTCCAATTGAACTTGCATTATTAAACTCATTTGTTTTTTGAACTGTAGTAATTTGATCTTGAGACATTTTTATATCTTTAAGATAATTATTTTTTAAATCTAATAACTCCTTATTTCACTTTTGAATATTTGTTTTTGTAAAATATAATTCTTTTAAAGAATCTATATTTATTTTACTATTTGGATCATTTCTAAAAATAGCTTTAAATATTTTTTCAGAACTAGCTTCTGAACTTATATAATTTTCAAATGAGTTAGAACTTTTATTTTCAAAAACATTAAGTAAATTGGTTTTAAACTTTGAATCTAAGTAAATATTGCTATTGCTAAACTCTAAATTTAGATTTTGAAAACTTGTAAAGTACTTTTGCTTAATAAAATCAATTAAATTTTTTTTATACTCATCATTTGAATTTATATATTTTTTTATTTCATCAGAAAAATCCCCAAAACCTTCATAAGTTTGTTTATTTCCTTTTATGTTGTTTCATTCAAAATTAGAATATTTTCTCATTTCATTTGAAACTAAAAAATCTTTTTCAGTATTTTTTACTAAATTATCTCCTACTAGTTTAAATGTTGCATCATCTGTTGAAGTATATTTTAATATATCTTTTATTTCAAATTTTTCTATAGAGTTTTTTCCCTTATATTTAATATTTACTTTATACTCATTTATAAAATTTCCAATATAAACTCCTTGAGATAATTCTCCTGATTTTATTTTAAGATTATCATTATAGATAATTTCTACTCCATCAAAAATAAAATCAATATCATCTAAAATAACTTTATATTTATTCACCTTTTTTAATTCATTTAATTTTTGTGCAAGCAAAGTAGAATTTAAAATTAAGTTCTCATCATATTCAATATCTTTTTTATCTTTTAAAGTTAACTCTTTTTCTTTATTTGAAAAAGCTGTTATTTTATCTTTTTTAATAAATAAATGTTTTTTTTCACTTTCTTGTATTCCAATCAAATTTTGCATAACCTCATTTTTAATATGATCTATATAAATATTTGTTGCTTCATCTTTAAAGTCTTTTATAATTTTATTTAAATCTTCTTTTGGTTGCTCAGGTTTATTTTCAGGGTTTTTATTTTCTGATTTTGTACCACATGCAACCACTGTCACAGTTGCTGATGAAGTAATACCAAATACTGCCAACATACTTAATAACTTTTTCATTTTTCCTCCTTTTTAAAGAACTATTAAAATACAAATAAACAATTCAAATTGATATCAATAATTATAAAAAAAAAAAAAAAAGTCAAGTTTATTGACTTTATTCTACTCAGAATGTTCCCCCCATTTAGGCAACAATTTTTATACAATAATAGAAAAGGATAAAGTATATGGCAAAAAAAGGACAAAAGTTTAGAAAGTGAACTCAAGAAGAAAAAGAAAAAATTATTGAATTAAGTTTGAATGGTTATTCTCTAAAGGAAATAGCATTAAAATTTAACTCAACTACAGGATCAATTGGAACAATAATAAACAAATACAAAAATACAGATATTGGTGATTCAAAAACTCGTTTACCTTATAAAATAGATTACAGTATATCTCAAAAGGCAAATGATCTGTTTGTAGGAATTCTATTTGATTACAATAAGGAATTAATTAAGGAGAATGATATTTTAAAAAAGCAATGAGCCTCCAAGGCCAAAACCAAAAAGAAATAGTTCAACAATTATTGATAAATACCAAGAGCAATAGAACAATGATTTGTAAAATTTTAAATATTAATAGAACATCAACATATAAAAAAAATAAAACTTTAATGAATTTCCTGGATGATACAAGAATTATGAATTTAGTTATTTCAGAAATTGAAAGGAATAATTTCCTTAGTGCTTATAGTGCTAAAAGATGAGCCCTATATTTTAAATTAAATTATATTGACCCTTTCAGAATTAATCATAAAAAATTAGAACGTATATTTAAAAAATTTAATCATATTGCATATTACATTAAGAAACAATCTAAACATGAGATTAAAAGATATAACGAAACTATTAGAAAGAATTATTTAAAAGAAGCAAAAGAAATTGGTTTTGAAAATATTTGAACTAGTGATATAACTGAATTTTCAGTTAAAACAAAAAAAGGTTATATTTGCACAGTTCAAGATAATTTAACTGGAGAAATAATAGGAAAATCTAAAAGAATTGATAATCAAAAAACAGATTTTGTTCTTGAAGCTGTAGAAATGGCATATAAAAATAAAAAATATTTAGGTTCAATATTATTACATTCAGATAATGGAAATCAATATACCTCTCTGGATTACATAAGTTTATGTAATGATTTACAAATTATTAGAAGCTATTCAAAACCAGGAACACCTCATCATAATGGTAAACATGAAAGTTTTCATGGTCGTTTAAAAGATGAAACTATAAGAACATGTCATATTGAAAACATTAATCAATGTATGGAAATAGCATGAGCATGATTGGACTTTTATAATAATGATAGAATTAGAATGAATAAAAAATGATAAAAAAAAAAAAAAAAACGTTCCCAATTTGGGGGGAACGTTGTCACCTCAAGAAATTATTGCTTAATATATTTCTTATAGAATATCTGCAAGATTTGTAATTGCTACTTTAAATAGAGCAATTAATATTATTTAAAAAATAAAAAATCTGAGTTGAATAACTATTTAACTCAGATTATGGATTTCAATAGACAAGTTAAACTTGAAAAACTGTTTGTAACCCGAACTATTTAATTATATCAATGGAAATGAGAAACAAGCATGCGTAAATAAAATGATTATTGAAAGTTGTCACTTTTTACTTATAAAGGAACAATTCATAATAACAAATATAAATCACTTAAACATTATATAACTAATGATATGACTCAAGAAAATTTTAAAATAGTTTTTTTAATAGAGAATAAGAAAATAAAGATGTCTTTTATCGAACAATAACTAGATAAATAAAAAATAGGCTAAAAAGCCTATTCACTTCATTTAACATAAAAATATAAAATACTAATAATTTTAAAATAATATAAAACGTCCTTTAGAGTAAGTTACATTTTTATCAAAATATACTTTTATTTTAATAAGTCCAAATAAATTTATTTCAATATATTCTAATTCTTTAAAAATTTTATCCCCCGTATTACTAGTTCACTTTGATAAAATTAAATAAGCATTATTATCATCTCTACTTAGAAACGCTAAACCTCTTTGTTGTTCATAAGATAAATTTTCATTTGTTGCTTTTATTGTAAAAATGATATCTTTATTTTTAAATATATTCTCAAAACCTTTTGTTTTGCTTAATAATTCTTTCATTCTTGTATAATAAACACTGTCAAATTTTTTTAAATATTCATTAATATCTGAGTTAGTTTTAGGTTGAAAAGTAGCAAATTGTTCCTTTGAAAATAGATAATTATCAAAATATAAACCAAAAACATAACTATAACCATATCTCTCTTCTTTTTCAGCAACATTTGCATTAGGTTTATAAACTTGTTTGTATATATCAAATAATCTCATTCCAAATTCACTAAAAGGTTGTTGAATTTGTTCATTGTTACCATTAATAGAGTAAGTAACTATTAATTTAAAATCAGGCATTTGATGATTATAAAAAGAATCTTCTTTTCCAATCTTAATGCTTGGTCCAATAAACTCTATGTAACCTATAGCTATTGCTAATTTGTAACTATCACTTTTTTGATACTCAGATATTTCATTTTTATTTAAAAATTTTGTTAAAAATTCATTTTGAGTTTTTAAATATGCATCTCTTATTTTAGAGATATTTCTATTTGAATAATATTTATCTAATAAAAAAAACTTTATACTTTCTTCATCACCTTGAAGAATTTTGGAGATCTCTTTTTTATCTTTTTCAATTGTTAAATTGAAACTTTCTTCACTCTCTTTATTTTCAGCAATATTATTTATAATTAAATAATCTTTGTTTTCTTTTACAAAGTCAGAAGTCTTATAAATATTTTTTTTATCATATCTAATTTCTAATGAAGGAAATTTTGAATTAAAATATTTTTTAATTGTATTTAATAAAAGTTGATGAAAATCTTTATTACCATCAAAATATAATTTTAAATCAGTATTTGAGTCTATATATCCATCAAGATCATTGGAACTTTTTTGTTTAACATTATTTCATTTTAAGATAACAGAATCTTTAGTTTCTTGTGAAGTAAACATATCTTTTGCAATATTTTTATACATTACTTCTCCAACTTCTTTAAAAGTATCATTATCTGTTGATGTATATTTCAATGTTCCTGACTGTATAAATTTTTCTATATTATTAAGTCCTTTATATTTAGTAATAATTTTATAATCAATAATTACATTTCCTATATAAACTCCTGGAATAATTTCACCAGAATTAATTTGAAAATTATCATTAAAAATTAACTCAACATGTTCAAAAACTGAATCAATTTCATCAAGAATTACTTTATATTTACTTACTTTTTTAAGATCACTTAGTTTTTCTTCTAACAACTTTGATTTAAACAGTTTTTCAACATCATTTGTCAACTGTTGTTTATTTTGACTTGTTAATTTATCTTTATTTTCTGGTTTTGAAAATTTTTGAATATTATATTTGTTCAAAAATTCATTTTTTTCTTCCATACTTTCAAGAGCAATTAAATTATTTCTAACTTCTTTTTCATAATGTTGTGATCAAATTTTTGTAACATCTTGTTCAAAATCTTGAACTATTTGAGTAATATCTTTTTTTGAGTTTTCAGAATTATTTTTTGATTTTATACTACATGCAGCTACGCCAATAGTTGATGAAGAAATAAAACAAAATGCTGTTAAGAAACTTAATAATCTTTTCATGTTTTTCCTCCTTTTTTAAAGAGTTTAAAAACAAATAAGTAATTCAAATTGGTATTTTTAATTATATAAAAAAAAAAAAAAAATGCAAGACTAATTTTACTAAACTTAATTGTAGACTAGACTAAGTTAAAAAAGTAGGTATTGAAATTTATCTAAAATATTTAAAAGAAAGAAGATAAAAATGGCAAAACTTGGTCAAAAATTTACTAAACACAAAGAAGAGTTTAAAGTAAATATAATACTTTATGTAAATGAAAATGATGTAACAAAAGCTTATAAATCAACAATAATTAATGGATTACCAAAAAAAATATTACATCAGATATCTCTTTTAGAATGCTTACAAAATTTGAATTTCTACTTTAAAAAGAACAATTAATATTATTTAAAAAATAAAAAACCTGAGAGAAATAATTATTCACTTAGATTATGAGTTCAATACACAAGCAAAGTCTAAAAAAATTATTTGTTATTCAAACAATTTAATTACATCAATGAGAACAAAAAACATGTGCAAATAACATTATTATTGAAAGTTATTATTCTTTACTTAAAAAAAAATTCATACTAATAAATATGAATCACTTAAGCATTATATAACTGATAATATCAAATAAAATAAAGGATATAACTCAAGAAAATCTTAAAATAGTTTTTTTAAAATATAGAATAAAAAATAAAGATGTCTTTTGTGTGACAACAACTATATAAATAAAAAAATAGGCTAAAAAAGCCTACTCACTCTAAATGCTTTATTTTTTTAACTAAATAAACTTAATAAAAACTTTTGACTCTTGACTTTCTAATAGCTTAAATAGTTTTTCATACTTTAAATTAACTGCTAAATAACCTATTTTTAAACTAATAGAATCAGGATTTTTATCTTTTGCTCCAGCTTTTGCAGGAATAAAAGAAATATCATTATCTTTTAAAACAAATTCAATTTTATTATTTATGCGAGCATTTCCATTTTTTCCGTTTTCAATATCTAATAAGTTTTCTGAATAATTTAGGCCAAATAAATATGTTCTATATACATCTTGATTTGCCATTGAACTAATTTTTAAATTTCTAAAAAAATTAATTTTATCTTGTGAATTAATATAAAATAAAATACCTCAAATTAAAGGATCCAAATATCCATTATAAGGATAATTAATATTTTTAAGATTTTCTTTTATTTGTCGAATTATTTCTTTGTTTCCAATACTCATTAAATAATCCTCATTAGAATTAAATTCAGGATATTTGAAATTTGAATCAATTCCATAAAAATCATGTAACCCTTTTATTTGAATTTTTGATGTAAATTCACTTAAATTGTTTATTTTATCTGCTTCATTATTAGAAACATTATATGTTAAAGATAAATTAAAATCAGGTAACTCATGATTATATTTATTTTCTCCAGTTCCAATAATAATATTTATTCCTTTAATTTTAACATTTCCAATTGAACTTGCATTATTAAACTCATTTGTTTTTTGAACTGTATTAATTTGTTCTTGAGACATTTTTATATCTTTAAGATAATTATTTTTTAAATCTAATAACTCCTTATCTCATTTTTCCATGTTAGTTTTTGTAAAATATATTTCTTTTAAAGAATCTATATTTGTTTTACTATTTGGATCATTTCTATAAACAGCTTTAAATATTTTCTCAGAGTTAGCTTCTGAACTTGTATAGTTTTCAAATGATTTAGTAGTTTTATTTTCAAAAACATTAAATAAATTAGTTTTAAACCTTGAATCTAAGTAAATATTGTTATTGCTAAACTCTAAATTTAGATTTTGAAAACTTGTAAAGTACTTTTGCTTAATAAAATCAATTAAATTTTTTTTATACTCATCATTTGAATTTATGTATTTTTTTATCTCATCAGAAAAGTCACCAAATCCTTCATAAGTTTGTTTATTTTCTTTTATGTTATTTCATTCAAAATTAGAATATTTTCTCATTTCATTTGAAACTAAAAAATCTTTTTCAATATTTTTTACTAAATTATCTCCTACTAGTTTAAATGTTTCACTATCTGTTGAAGTATATTTTAATATATCTTTTATTTCAAATTTCTCTTTAGAGTTTTTCCCCTTATATTTAATATTTACTTTATATTCATTTATAAAGTTTCCAATATAAACTCCTTGAGATAATTCTCCTGATTTTATTTTAAGATTATCATTATAGATAATTTCTACTCCATCAAAAATAGAATCAATATCATCTAAAATAACTTTATATTTATTCACCTTTTTTAACTCATTTAATTTTTGAGCAAGTAAAGTAGAGTTTAAAATTAAATTCTCATCATATTCAATATCTTTTTTATCTTTTAAAGTTAATTCTTTTTCTTTATTTGAAAAAGCTGTTATTTTATCTTTTTTAATAAATAAATGCTTTTTTTCACTTTCTTGTATTCCAATAAGATTTTGCATAACTTCATTTTTAATATGATTTATATAAATATTTGTTGCTTCATTTTGAAAGTCTTTTATAATTTTATTTAAATCATCTTTTGGTTGCTCAGGCTTATTTTCTGAGTTTTTATTTTCTGTTTTAGTACCACAAGCAACAACTGTAACAGTTGCTGATGAAGTAATACCAAATACTGCCAACATACTTAATAACTTTTTCATTTTTCCTCCTTTTGTAAGAGCTATTAAAATACAAATAAACAATTCAAATTGATACCAATGATTATAAAAAAAAAAAAAAAAGTCAAATTTTTGACTTTTCTTTAATAAAATTATCTTTAAACTATACAAATTTAATAAATATTTTTGATTTTTGACTTTCAGATAAATTAAATAATTTTTCATACTTAAAGTTAACTGCTAAGTAACCCAATTTAAATGTAATTAAATCAGGGCTATTACTTTTGCTTCCACCTTTTGTAGGAATAAGAGATATATCATTTTCGTTTATAGTAGGGTCAACTTTATTATTATAATAAGTTCCATTACTTGAAGATGAAAAATCCTTTAGAAATTTTGAATGGTTTTCAAAAATAAAATGCACAAAACCTAATGCATTAGTTGACAACATATTAAAAATATTTAAATTACTAATAAATTCCTTAGATTTTTGATAACTTACACTACTTCAAATATTTCAAAAAACTTGACTAAAAGTTCCTGGAAATTTTAATTGATATTCATTACTAAATTTTTTCTTTATATTTGAAATTATTTCTTTATTTCCAATATTCATTAAATAATCTTGATCAGAATTAAACTCTGGATATTTAAAATTTGAATCTATTCCATAAAAATTATGCATACCTTTTATTATTACTTTTGAAGTAAACTCACTTAAAAAGTCAACTTTTTCTTCAACTTTTGAAGAAGCATTATATGTTACAGATAAATTGAAATCAGGCAATTCATGAATATATTTATTAATTCCAGAACCTATTGTAATAGTTGCCCCTTTCAATTTAAAATTTCCTATTGAATCTGCACTAATATATTCATTAGATTTTTCAATTAAATTAGTTTGTTGATCTGTTAATTTCAAATTTTTAAGATAATTACTTTTTAAAGTAATTAGTTCTTTATTTCATTTATCCATATTATTATTTGTAAAATAAAGTTCTTTTAAAATTTGTTTAGTTGATTCACTATTTGGATCATTTCTAAAAATAGTTTTAAAAATTTTCTCAGAGTTTTGATCTGACTTTGTATAATCCTCAAAAGACTTTGCACTTTTACTTTCAAATACATTTAATAAATTATTTTTAAAACTTGAATCCATAAAAATGTTGTTTTTATTAAATTCTAAGTTAAGATTTTGAAAACTTTCAAAATAATTTTGTTTAATAAAGCTAATTAAACTATTTTTATACTCATCATTTAAATTTATATAATTTTTTATCTCATTTGAGAATTCACCATAGCCTTCATAACTTTGTTTATTTCCTTTTATGTTATTTCATTCAAAATTAGAATATTTTTTCATTTCACTTGAAACTAAAAAATCTTTTTCCATATTTTTTGCTAGATTATCTGCTGCTAATTTAAATGCTTCACTATCTGTTGAAGTATATTTTAATATATCTTTAATTTCAAATTTTTCTATAGAGTTTTTACCTTTATACCTAATATTTATTTTATATTCATTTATAAAGTTTCCAATATAAACTCCTTGAGATAACTCTCCTGATTTTATTTTAAGATTATCATTATAGATAATTTCTACTCCATCAAAAATAGAATCAATATCATCTAAAATAACTTTGTATTTATTTACTTTTTTCAATTCATTTAATTTTTGAGCAAGCAATGTAGAATTTAAAATTAGGTTTTCATCATTTTCAATATCTTTTTTATCTTTTAAAGTTAACTCTTTTTCTTTATTTGTGAAATCTTTTATTTTATCTTTTTTAATAAATAAATGTTTTTTTTCACTCTCTTGTACTCCAATAAGATTTTGCATAACTTCCTTTTTAATATGATCTATATAAATATTTGTTACTTCATCTTGATAGTCCTTTATAATTTGGTTTAAATCTTCTTTAGGTTGCTCAGGCTTATTTTCTGAGTTTTTATTTTCTGTTTTAGTACCACAAGCAACAACTGTAACAGTAGTTGATGAAATAATACCAAATACTGCCAACATACTTAATGACTTTTTCATTTTTCCTCCTTTTAATAAACTTTAAAAAACAAATAAACAATTCAAATTGATATTGCTAATTATAAAAAAAAAAAAAAAAGTCAAATTTTTGACTTTATTCTACTCACTTAACATATCATTTTAATAAATAAAAAAAATAGGCAAAGTGCCTACTCACTTCAAAAATTAGTTTAACTAAATTTTTATATTTTACTGCTCCAACTTATTTTTAATAACTTTGTATATATTTTTATTTTCACAATAAATGCAAGTCCCAATTAAAGTTCTTATAAATAAATAATATACAAATTAAATAAATATAATTTGAAATCTATATTTTTATATTTATTAGAATATAATACTTCATTCATTTACAATATAACTTCTATCAAACTTTAGTTTTATTTTAATAATTCCAAATAAATTTAATGTCATATAATCAAAATTTTGAAATGGAGTTTTTAGAAAATTTGAAGAACTTTCATCATCTATATTAACTCTAAAAAAACTTTCATTATTTCTATTATTAATTCAAACTTGATTATTAACTAAATTTACATCAACATTTTTAATTGAAAAATGTATATATTTTTCTTTAAACATATTATTATTTAAACTTTTTTTATCTAAAGACTCTTTTAAATTAGCATAATAAATATCTTTAAAGTCAGTTAAAGCACTATTTATTTTCAAGTTATTGGCTCCTTTTATCTCTTTTTCCTGTCATATTTTGGTTTTTTTAAAATAAACTGAAGTAGCTGAATAACGTATATTTTTCAAATTAATTTCATAAGTATTTTGATAAACATTAAATAATTTTAATGAGAAATCTATAATAGATTTATAATTTTGATCAGTTATACCATTCATTGAATAAGAAATAGCTAATTTAAAGTCAGGCATTTGATGATTATAACTTGACTCTTCCTTTCCAATTTTAATACTTGGTCCAATAAAATCAATATATCCCATTGCAATTGCAAGTTTATAATTATCAGTTTTTTGATATTCAGATATTTCATTTTTATTTAAAAAATTATTTAAAAAAGTATCTTGAGCAATTTTATAATTACTTCTAATTTTAGATCAATTTGAATAATTAAATTGATCTACTAAGAAACTTTTACTTTCTTGTTCATCTTGAGCAATTATTTTTTGAAATTTTTTGTACTGTTCAGCATTTCTCATGTCAAAACCTATAATATCATTGTCACTTTGATTTAAATTATTGATAACTAAGTAGTCTTTATTTTGTATTGCAAAATCATCTGTTTTATAAATACTTTTTTTGTCATAACTAATTTCCATTGAAGAAAACTCTTGTTTAAAATATTTATCATTAATAGTTTTTAATAAAACTTCATGAAATTCATTATTTTCATTATAGTATTTTTTTAATTGAGAATTTGAACCAACATATGCATCTGAATCATTTTTATTTTCCTTAATATTATTTCATTTTAAATTTACATATTTTTCAGTATCTTTTGAAATAAACATATCTTTTGCAATATTTTTATACATTACATCTCCTACTTTTTTAAATGATTCACTTTCTGTTGAAGTATATTTTAATGTTCCAGATTGTTTAAATTTTTCAACGTCTGCAAGTCCTTTATATTTTGTAACAACTTTATAATCTACGATTACATTTCCTATGTAACTACCAGAAACTATTTCTCCTGATTTAATTTGAAAATTATCATTAAAAACTAATTCAACATTTTCAAAAACTGAATCAACTTCATCTAGAATTATTTTATATTTATTTACTTTTTTAAGTTCATTTAACTTTTCTTCTAATAACTTAACTTTAAATAGTTTTTCTACATCATTTGTTAATTGTTTTTTATTTTCATTTGTTAACTTATCTTTATTTTCTGGTTTAGAGAATTTTTGAATATTATATTTATTTAAAAATTCATTACTTTCTTCCATACTTTCAACACCAATTAAATTTGCTGCAACTTCTTTTTCATAATGTTGTGATCAAATTTTGCTAACTTCTTGTTCAAAATCTTGAACAATTTTAGTAATATCTTTTTTAGGCTCTTCAGGTTTATTTTCATTTTTCGACTCTGTTTTAGTGCCACAAGCAACTACTGTTACAGTTGCTGATGAAGTAATAGCAAATACTGACAAAATACTTAATAATTTTTTCATTTCTCCTCCTTTTATAAGAGCTATATAAAATTCAAATAAACAATTCAAATTGATATTGCTAATTATAAAAAAAAAAAAAAAAGTCAAGTTTATTGACTTTATTCCACTAACGAATGTTCCCCCCATTTAGGCAACAATTTTTATACAATAATAGAAAAGGATAAAGTATATGGCAAAAAAAGGACAAAAGTTTAGAAAGTGAACTCAAGAAGAAAAAGAAAAAATTATTGAATTAAGTTTGAATGGTTATTCTCTAAAGGAAATAGCATTAAAATTTAACTCAACTACAGGATCAATTGGAACAATAATAAACAAATACAAAAATACAGATATTGGTGATTCAAAAACTCGTTTACCTTATAAAATAGATTACAGTATATCTCAAAAGGCAAATGATCTGTTTGTAGGAATTCTATTTGATTACAATAAGGAATTAATTAAGGAGAATGATATTTTAAAAAAGCAATGAGCCTCCAAGGCCAAAACCAAAAAGAAATAGTTCAACAATTATTGATAAATACCAAGAGCAATAGAACAATGATTTGTAAAATTTTAAATATTAATAGAACATCAACATATAAAAAAAATAAAACTTTAATGAATTTCCTGGATGATACAAGAATTATGAATTTAGTTATTTCAGAAATTGAAAGGAATAATTTCCTTAGTGCTTATAGTGCTAAAAGATGAGCCCTATATTTTAAATTAAATTATATTGACCCTTTCAGAATTAATCATAAAAAATTAGAACGTATATTTAAAAAATTTAATCATATTGCATATTACATTAAGAAACAATCTAAACATGAGATTAAAAGATATAACGAAACTATTAGAAAGAATTATTTAAAAGAAGCAAAAGAAATTGGTTTTGAAAATATTTGAACTAGTGATATAACTGAATTTTCAGTTAAAACAAAAAAAGGTTATATTTGCACAGTTCAAGATAATTTAACTGGAGAAATAATAGGAAAATCTAAAAGAATTGATAATCAAAAAACAGATTTTGTTCTTGAAGCTGTAGAAATGGCATATAAAAATAAAAAATATTTAGGTTCAATATTATTACATTCAGATAATGGAAATCAATATACCTCTCTGGATTACATAAGTTTATGTAATGATTTACAAATTATTAGAAGCTATTCAAAACCAGGAACACCTCATCATAATGGTAAACATGAAAGTTTTCATGGTCGTTTAAAAGATGAAACTATAAGAACATGTCATATTGAAAACATTAATCAATGTATGGAAATAGCATGAGCATGATTGGACTTTTATAATAATGATAGAATTAGAATGAATAAAAAATGATAAAAAAAAAAAAAAAACGTTCCCAATTTGGGGGGAACGTTGAACTTTATAAGTTGATAGTTAAATTAGATTTAAAAAATTTAAACGATACTTAAATAAATTTAACAAATATTTTTGTTTTTTGCCCATCTTTTAATTTAAATAATTTTTCATACTTAAAGTTAACTGCTAAATATCCTAGTTTAAATGTAATAGAATCTGACTCTCTATTTTTTTCTCCACTAACAGCTGGATTTAAGTTTAATCCATCATTTTCTAATTTATAATCTAGTTTATTATTTTTTATTCCATTATTAGATGAATATTTATAATTAAACAAATTATCAATAGAGTTATCAAATATATAATAATTATAAGAAATACTTCCTATTGTATTTCATAATTTAGATAACTCAAATATTTTTTTAGCTTTTGAATTCTCTATTTGATCATTTACAAAACGATGGAACATATGTGAGACATTTCCATTGTCAAAACTTTTATACACGCCTTTTTTTATACTTTCTATTATTTCTTTATTACCTATATTCATTAAGTAATCCTCATCAGAATTAAAATCTGGATATTTATATTCTGTATCAATACCATAAACTTTGTGAAAATTACCAATTAATTCTTTTAAAGTATAATCGTTAATTAAATCAACTTTTTGTGATAAGTTTGATGTAACATTATATGTAAATAAGAAATTAAAATTTGGTAACTCATGTTTATATTCATTTTCTCCACTACCTATTAAAATTGAAAGATTTTTAACATTAGCCTGGCTAATTAAGTCTGCATTAATATAAGCACTAGATTTATTAATTGTTTCTAATTGTTCTTTTGTGAATTTTCTATTTTTTATGTATTCATCTTTAAGAGATAAAAACTCTGTATTTCATTGTGTCATATTTTTATCATTAAAATATAAATCTTTTAGTGTTTTTTTACTTTCGCTACTTTCTGCATTTGTTCTAAAAATAGTCTTAAATATTTTTTCTGAACTTGAATTATCATTAAAAGTAGTAAATTTATTTACATCTTTTTTTTCAAATAACATAGCTAAAGATATTTCACTTGATGAATCAGTAATTAAACTTTTATCTTTAGTAAAGTCCATTTTTAGATTTTCAAAATTTTTAAAGTAATTTTCTTTAATAAAATTAATTATTTTAAGTTTATTTTCACTTTTATTATAAAAGTTATCTCCATACTCTGATCTAGTAATTAAATCTGAATATCCCATATATAATTGATCATTATCTTTTTTAACTTGTTGTCACTCTATATTTGAAAATTCTTTCATTTCATTTGAAAATAAAATATCTTTTTCAACATTTTTAATTAAATTATCTGAAGATAATTTAAAAGCTTGACTTTCAGTGGAAGTATATTTAAATGTATCTTTAATCTCGTATTTTTCTATATCATTAATGCCTTTATAATTAACAGTTATTTTGTAATCATTAATAAAATTTCCAATATAAGCATCTTGATTTATTACTCCAGATCTTATTTTAAAATTATTATCAAATATAACTTGAAAATTATTATAAACAGAATCAACAGAATCTAAAATAACTTTATATTCATTAACTTTTTTTAATTCATTCAGTTTTTCTGCCAATAAATCTAGTTTTAAAATTTTACTTTCATCACTATTGATTTCATTTTTATTTTTTGCAGTTATTTCAGTTTCTTTATTAGAAAATTTTAAAATATTGTCTTTTTTAATAAAAGAATAGTTTTTCTCAGTTTCTTGTAAACCAATAAGATTTTGTAAAACTTCAATTTTAATGTGCTCACTATAAATTTTTGTTACATCTTGTTCAAATTTTTGAACTACTTGAGCAATATCTTGTTTTGGTTCTTCTGGTTTTTCAACTTTAGGAGTTTCTTTTTTTGCTCCACATGCAACTACGCCAGTAACTGATGAGGATATAACTCCAACAGTTGCTAATACACTTAACAATTTTTTCATTAGTTTTTTCTCCTTTTTTAAAGAGTTTAAAAAACAAATAAGCAATTCAAATTGGTATTTTTGATTATATATAAAAAAAAAAAAAAAAATGCAAGACTAATTTTACTGAACTTAACTAAGTTGAAAAAAATTAGCATTAAGATTTATGTAAAATATTTAAAGGAAAAAAGATAAATCTAGCAAAACCTGGTCTAAAATTTATAAAATAAAATATAATTAATTAATTTGCAAAGAAAATTATTGCATCAGATATTTCTATAAAATGTCTGCAAAATTTGTAATTTCTCTTTTTAAAAAAGAAATTAATATTATTCAAAAAATAAAAAACAAAATGGATTAACTATTAACTCAAATTATGGAGTTTAATATACAAGTAAAGCATAAAAAACCTTGCAATATAACAATAAATAAAAAGAATATAAATAAAAACCTACTTACTTCATAATAAACAAAAAATAGGTATTAATAGACCTATTTTCTTGAATCCTTTTATAGGATTTATTTTTTATCCTTAATTTTCTACTATTTTTAATTCTTAAAGTTAGTTATTTTAATTTAATAAAATATGTTTTTGATTCAATTTTCATTGAATATACTTCTTTTAAAATATCTTTAAAAAAGATACTTGTTTTGTTATTAGAAGCTCCATAGTTTTTTGGATTAAAATCTGGTAATTTTTTATAAAGATTTTCTATTACTACAGAAAACTGTATATAACCTTGATCATCTTTATCATTATTATCCATTATATTATTTACTAATTCTATTAATTCTTTAACTTTTTTATCATTTAAATTAATAGAGTTTGATTTATTTTTAACAGTTTGTGATTTTTTGTTATTTTCATTGCCAATTGCTTGTTCAATTGTATCTACACTTATAAATCTATCACAAATTTTTTTGTATAATTGATTTGTACCTGATAAACCTGCTCCTATTACAGTTTTATTTTTCAGCTTTAATCGTTTCAATATTGGAGCAAAATCTAAATCATTTGTTGCTAAACAAAAGCAATCAATATATTCTTTATAAAATAACATGTCTTGAACATCTAATGCCATTCTTATATCAACAGTATTTTTACCTTTAGAATAAGAAGGTTCAACAATAAAATCAGTTATACCATAATTTGTAGCTTTTTCTTTTACTTCTTTATCTTTTGTATCACTGTAAAAAGCTCCTTTATATAATATATTTCCCATTTGTTCTAATTCTTCAATTAAAATTTTAAAATGTTGCTCATTATTAAAATTATCAAAATCAATAAAAAGTGCAATATTTTTATTTTTTATTTCCATTATGTCACCCTTTCATAATGAATAAATTATAGACTTATTAATGTTTTGTTTATTTAATTTTTAATATATTATTTTTTTATACTCCTAGCTTATTTTTAATGATTTTATAAATATTTTTATCTTTACAATAAATGTATGCTCCAATTAAAGCTCTTGTTAAAAGAGTCATTAATCGATTATTTTTAATTTTATCTTTTATAGAAATATAGTTTACATTATTTATTTCTATTCCTTTAGGAATATAAATAACAACATAATCTACTTCTAATCCATGAACATAATAAATTGTTGCTATTTCTTCTTTTGAAAATGGAGTATTTAATCATCCAGTTTTAAATTCAAACTTATTGTCATTAATACTAAATGCTTTAATAGATAACTTATTATTTTGTTTTAATAAGTTATTAATATCAAAGTGCATTTCATTTAAATTATTAAAAAGATGAATATTTGCTTTTGAATTATCAATAAATGTTTCATCATCTGAAAATAATGATTCAACCATAGTAATATATTCTGAGTTTTTTAAAAATCTCATTTGATTTAATAGTGTATTTTCATAAATTGATCCTTTTGGATCAATAGATTTAAAAGTATTTTTAATTCATTGTTTTGTTACATTATCTTTTGCATTAATCTTTTGTTGTTCATCCAAACAAATAATAACTGTTTTTGCTACTTTAATAGCATTTGTTACTTGATTCATCGTCAATCTTTGAGCTTCATCAAATAAAATAATTTGATCTTTTGCTTCTTTAAAAGTTTCAACACTTGATGCTCTATTAAATTTATAATTTTGTTCTAAAAAAAGATTTATGTTTTTTACATATGTTGGATTTCTTGCCATTATAAAAGTATTATTTTCATATTTCTTTAAATTTTTGAAATATAAAAATAAAGAATAAAGAAAGATAGTTTTTCCAGTTCCAGCTTTTCCTTCTAAAATTACAAGTTTTTTATTATCTTCTACTTTTTGAACAAAAGTTTTTACTTCTTTTGCTAATTTCATTTGAACATCAGTTAAAACAATATCGTGTTCATTTGTTTTATTTTTTAAAACCTCAACAGTTTTAAATCCTCTTTTATTCTTAGTTTTTTCAAACTCTTCAATAAAATTGCTTTTTTCACAATCTTGAAACACTTCATTTAAATAATTTGCAAATTTGTCATGCTCATCATGTAAGAAAAACTTTAAATTTGTTCCTGTTACTGTTCAATCATTTTTATTTAATTGCAGCTCTTTTTTTATTACAGTACTTCTTTTTAAATTATGAAGATAGGCAACTCCATTTATTTCAAATTCTTTTTCATGATTTTGCATTTGAACAACTGTTTCAAAGAAGTTTATATATCTTTTAATTTGTGAACCCAAATAGCCTCTTCCAGTTTTTCCTGTTAGAAGTTGAATATCATTTCCAAGACTTACTCTGTTAAAAGTTGAATGTTGTTTTAATTCAATTACCAAAACTTTGTCAACTCCTTTTACATTTCCAGTAAGGATGACATCACATCTTGATTCACAAAAATCAAACTTATATTCCAAATATACTTTTACATTTGTGTTTAAGTTTGATTTTTGTATAACTTTAGCAATTTGCATTAAAGATACTTCTCATGCTTTTTGCTCTCCATTTGTAGCTATTTTATATAAATCAGGTAAAACTTCATCAAAAGTTTTTCATAGCATATCATATGAAAAATCTTCTATATTTGCTTCATAACAAATCATAGATATCTCCTATTCTATTCATATTAAAGTTTATAATTAATATTAAAAATGGTTAAAAATTTGAAAGTTTCCTATTTACAAGTTAAAATTAAAATTTTTAAGTAAATACAATAGTTTTAGTTATCATAAGAATTATAACACTCAAAATGTAAAAAAACGAGGTTTTTCCCCGTTTTGTCTAAGATTTCAAAAAAATATTTTAATAAGAGTGACCCTATATGAATTGATGATTTCTGCTTAAATATATAAATCTATAGTCTCTTTTTATAAGTAGGTTTTTAAATATCTTATAGAATATAAATAAAAATATATAATTTATTAAAGGCATTAAACTTATAAAAATATATAAAGCTTTTGGTTTAACAATATCTTCTCTTTTTAAAACATTACAGAGATTATTTGCTAAAATAGCACAATTTGTGGATAAAGAAATTGTTGCAAGACCAAGAACTACTGAAAAGATAATTCATCAAAACTTTGCATCTTTTTCTTTACTAGAAATTAAGAAATAGTAAATTAAATATGATGAAAGAATAATAATTATTACTTTAGCAATATTATATGAAAAGAAATCTATAAAAGCTTTTCGATCTATTTTCCTATTTTCTAAATCATGTGCCTCGAAATGATAATTTGTAATTAAAAAGCAAAAAGCTAGTCCTCAATCCATAAATAATTTACCTCCTAAGTAATTAAATAAAATTAAGATAATCTAAATAAAATATAAAAACAAGTACATCTAATTTTAAATATTATTACATCTCCAAAATTCTTTCTAATTCTATAAATTTGTAATCTTTTTTTCTAAACTGCTTTTTAAAAAAATAATAGAAAAACAATAGAAAAATAAAATTTATAAAAGGTATTATGTTTATAAAAATAAATAACTTCTCTGGTTTTTTGATCTCTATTTTTGTAAAAACATAACACAAACTTTTCACTAAAAATATACAATTAATCGATAGTGAAATTAAAAAACATAATGCTACTACTGAACATCCAATTATTCCCCCAATATTTTTAGAGCCTGCTAATATATAAACTGAACTTAAAAGAGCAATGGTAAAAAAGATTTTAACTAAATTAACTCAAAAGAATTTTTTAAATACTCTTGAATCTACATATTTCTTTTCTAAATCTCTTTCTCAATAATCGCATTTTGTTACTGCTGTTATTGAAGATAAACTAAAAAGATCCATAAAGATTCTCCACTAAAAGAAATATATAAGGGAGTAATACTGCTTTTACTATATATCCAACTATACTTGTATTCAAAGTAGTTGTAACTATACTAAAAGTATTTTTCATAACTTTTATTTCCGTTTCTACACCAAATTCAAGTTATTGTTTGATACACTTATATTCTATTTTCTTAAAGAAAAATAACAATTAAAAAGTTGCATAATAAAAGTCTTTTTATAAATAAAAAGATTTTTAGTAAAAATTAAATTAATAGCTTAGATTTGTTTTAAATGTATTTAAAATAAAAAAATAAAGTCTCTCAATACTTTATTTTTTGTTATCAATTAACGCTTTATTATCGTATTTATTATTTTTTTATCTTTTAATTTTTTTAAACAATTCTTTTACTATATTTAGTTTCTAAACCTTTTTTAGAAAACTCTTAAATTTTTATAAAAAAAGTTAGTTTCCATATATTTAATTATTAAAGAGTTTACTTTTATTATTTTATTTCTTAAAATTAGATAAAACTTTATTATAAAAATCGTAGATATTTAATATTCTATTTTTATTAAAGTTTATAGTTAATAATATAAAGATTTGAAATTTTTAAGAAATTATAATAATTTGAGTTATCCTAAAAATTTAAATACTCAAAATGTAAAAAACGAGGTCTTTGCTCGTTTTTTACTAATTTTTGACCAATCTTTTATCATTCAGGATTTTGTGGATTTCTATTTAAACTTATAAATTTATAATCTTTTTTTCTAAGTGATTTTTGAAATACTATATAAAAAATAACTAGAGCTATAAAATTTAATATTGGAAAAAAGCTTAAAGAAATAAATAATCATTTTGGTTTATTAATATCTTCTCTCTTTAAAATATTAAATAAATTCTTTGTTAAAACCAGACAATTAATTATTAATGAAATAGTTGTGAAACCCAGTATTACTGATGTAAAAATTAACAAACTTTCCTTTTTAAATTTTATAGTATCATAAATTCCAAAAATACAAAGAGAAATAACTATTATTTTAAACATGTTAAAAGAAAAGAAATCTCTAAAAGCTCTTCTATCTATTTTTTTAATATTCAAATCATTTTCATTATAACGGCAATTTGTAACTAATATTAGCAGCTCCAATCCATAGTCCATAAAAAATCACCTCCAAAACAATTAATTATAAAAGAATATATTTGAGATATTTAAAAGATGTATTTGTTCTTTTAGAAAATTACTATTCAAAGGCTCCTTTATAAAGTTTAAATAATAAATTCCCTATTATAGGTACAAGAACAGCTGATGTTATATATCCTACTATACTTGCCGATAGAGTAGTTTTCACAATCAAAAGTTTAGGAATAGCTATCTGACCTATTGTAGAATATAATCTATAAGAGTTTAATGATCAAGTTAAAACATCCCAAATACTATTTAATTTCTCTCTAAATGCAGCTACTGTTAATCCTAATCCTGCTGAACAAACTGTTAAAACAGCTGCTACTCTAGCACAATCAATGGCAAATGGAATACTTATTCCAAATCATCAAGCTGCTGCTCAAAATCCAGCAGCAGCAGCTGCAAGTGCAATAGCTCCTCACCCTAATTTACCAGCTACTAAATTCATATCATCAAGTAGAGAATTAAATCAAGTTTTTGATATATTTTTTTTAATTTTTTCATAACTATCTAGATTTAAAAGATTATAAATTGAATTATTACTAGTTTGTTTATCAAGATTTTCTTTAAATCCATCTACATTATTTTCAAAATATTTAATCATTTCTTCTAAACTTTTTTGTTCATTTTTAAAAGAGTTCAAGAGTTTTTTAGTTTCTTGTTTTGCAAACTTTAAAACCTCATTTGTTATATTTTGATTATCATCTGAGTAAAACTGTGAATTTGAATTATTTACTAATTTCTCAAAAATATTATTTGTTTCTTGATCAATATAGTTTCAATTCACATCATCTTTTTTATTATTAATTTCATTTGATATATTTTTAGTATTAAAAGTTGTTGTTGATACTAAAGGAGCAACCAATACTGTTGATCCTAATATGCTCAAAATTTTTTTCATAACTTTTATTTCCGTTTCTACACCAAATTCAAGTTATTGATTGATACACTTATATTCTATTTTTTTAAGAAAAAATAACAATTAAAAAGTTGCATGCTAAAAATATTTTTATAAATAAAAAGACTTTTATTGAAAATTAAATTAATAATTTAGATTTGCTTTAAATATATTTAAAATAAAAAAATAAAGTCTATCAATACTTTATTTTTTGCTATCAATTAATGTTTTTTACTGTGTTTATTTTTTTTAATTTTAAAAACTATAATTTTAACATATTCATTACTTATGCTTTTCTCATTGATCTATATTTTTCTCCATTTTTTTGATTGCTTCAATTGGTATATTTTTTCTTTTTCTAACACTTGCAAATATTTGTTTTTGAAACTCATCATCTCAATTTTCTGGAAGATTTAAATAAAGTATCTTTAATTTATCTCAATCAGTTTCTAATAGAATACCATGATGCATAACTTTATTTCTTAATTCAACAATTTCTTTTAAATCAGTAGAAAAATAATTTACATCATAATCTGTAAAATCTTTTAAATTAAAATTATTCTCTTTAATTCCTATAAAGCTTAAAATATTGTGAGAATATCCATCTGTGTAATATCCCTTACTCTTTTTAAAATACTTTGCTCAATTATTTAAAACTTTCATAGTTTCTAAATTTAATTCTAAAGATTTTCTTTCTTCTATTTTTAATATATATTCTTTTTCTTGTTCATCAACTACTATATTGTATTTATCTAAAATAATTGTTTTTATTCATTCTTCATATGTTGAAAGAAATTTATAAGTTATATTTTTAATACTTTTATCAAGTCTTACAAAGTCATTTACTATTTTATATTTTACTTTTTCATTAGCATAAAATAGTGAGCTCTTATAATTTTGCTTTATATAATATGCTATAGAATAGTATAATTCCTTAGATGTAACTTTTGAATATATTTCAAAATTCTCTAAATCGTCTTGCTCAAAATCTATAATATCTTCATTTCTCATTTATATTTTTCCTTTATTAATTTACTATATAAAGATTTTAAATTAATTTTTATAATCTATATAAAAATTATTGATTAGAAATTCTATTTTCTTTCATTCTATATCAGTTTTAATAATTTTTCTTTCTATAATTTTATGTATATTATTTTTTGATATAATATCATTTTCTTTTTTAATTGAATATTGTTCATTCATATAAATAACTATTCCTGAAAAAATATAATTATAATTTTTTTTCAAAAAATTCATTACAGTTTTAATATCTTCTTCTTTGTATAATTCATTTAAGATTAAATCATAGAATAAATAAATAATTTCCGATATAGAAATAATTTTTATTAAAATATTTAAAAAAGAAATAACTTCTATTTCACTTTTTATAATTCCTCTATAAATTAAAGAGAATATTATCTCTCTATTATTTCCAATTAAAGTTGTATTTATTAGGAATTGAATATTTTTATTTAGAAAATAAAATTCTTTCACATAATGCTCATCATCATTTTCAACACATTTATTCAATATGAAATATACAATAATAAAATTATTTAATTCTTTTATATCAGTAGTATCTTTTATTTTATAATTCTTTGAAAATATATTTTGAATAATATGGTTTCATGTACATATTAAGTCTACTTTTTCTTGATAACTTGAAAATCAAATTTTATTTTTGATACTATCAATAAAATATTTCATATCTTCAAAATTTGAATAGTTTGAAAAAAAGTTTTCATCTAATGGAATATAAAAAAACTCCTTAATTAGCTCATACAAATTACTTGAATTAATTTTTAATAATAGCAATAATTTAAAGAATTCTCTTAAATCATCACTATTTATATCAAAGTCTATGTCTATTTTTCATTGATAATATTTTTTTATAATATCTGAAACATTAAAAGATAGACCAGATAAAAATGAATAATTTTCCTGATTTTCAACAATATCAAAAAATATATCAGTATTATTTTTTAAATTTAAAAAATTATTTTCTTCCAGCAATAAATTTCCAAACAAATAATCACTGTAAATATTCTTAGGTAAATTTTTAGTCTCATATACTTGCTTTTTTTGTTTATTACCCAAGGGACCATATTCTTCATATTCTTTTAATTCTAAATCAAAAAAATTTATATTATTATAAAGTTTAGATTTTTCAATTTCACTCTTAATAATATTTTCATAAAATAATTCATCTACATACTTTAAATAAAAAATACATATTAAATCATTAATTTTAAATAAAGATTTTAATGTTTCCATATTCTTAAAAGTATTTTCAAAATGAGTAAACTTTTCTACAAAATTATTGGTAATTCTAAAATTACCTATTTTTATTATTTTTTTAATAAATACATTATTTAAATTATCTTTTAATATTTTACTTTTGATTATTATATCTTTTATATTTTTTTTGCTTGCTTTTTTTAATAAAATTAAGTCAAAGTATTTTTCCTCAAAATCTATATTTAAAATTTCTGATTCTGGACTATCTATGAATATGAATTTTGTAGTATTGTTTTCCTTCACAAATTCCAATGCTGAGCTTATTAAATTATAAATTCTTAATTTTAAATTTTTATCTTCAATTCTATTTATATCATCAAAAATAATTAAATCATATTTACAAAAATAGTTAATAAGAACCTTAATATCGCTTTTATTACCATTTCAGAAGAAAAATAAAAAAACAGTAGCAATTGATATACTAATTGGAACTAATCAATATCATGGGCTTGCATTAAATTTATCAATAATAAATCAAGATGTTATAAAAGATATTATTGACAAAATCATATTTAGACTAGTTTTTATGTAATTAAATACTAAACTTTTTGTTCAAGTTCATGAATATTTTGAAGGAATATAATTATCAATTAAATCTTTTATTAAATCATTTTGAGGATTAAACAAAGACGCATTAATTCATATTTCCTTATATGTGACTTCACTATCTTTAATATAATCTTTTAAAGATGTGGTTTTACCAGATCCGTAGTCTCCTTTAATTAATATTTTTTTATACTCTTCTTCAAAATATTTTTTATAATGAGAACTTTTCTCTATATAATTCATTTATAAATCACTCCCTTCAAATTTAAAAAATTAAATTTAAGTACTATTTTTTTCAATATCTAATTTAATTTTTTTTATTATCTCATCTGTAATTTTATATAATTCATGATTTCGCACATCACTACTATTAATTTCTTTTATTACTATTTTTTTAATTTTATAATTAATATTAGGCATTTCATTTTGTTTAAAATAAAAATAATTAATTATTAGTTCTATATTTCCTAACTCTAAAATTCTAAATTTTGAAGAAAACTGTAATGCTATATCTTTACATATTGAATGTATTAAGTGATTATCATTATTCATTGATAATCCATATAAATCAATTTCTATATTTAGATTTTTTAAACTAGGATTGTTACTGTGATTATATCAATAATTCTCAAAAGGTATTTTTAAAAATGAAAGTTGAGTAGATATTTTCTTATCTTCAAGATTTATTTGAATATTAGAGTATCTTTGAATAAAATTTTCTGCGTTAATTTCATTTTTTCCATGAATATTAATGACTCTGAGTTCAAAATGATCATAGTAAATGCTATTTCGTCTTCATTTATAAATAAAATTTTTCAGAATTTCATTATAATTTGTAGTAAAAATTAAATCATATCCTAAATTTACTAAATTTTCAAATGACCCACTTTCAAATTGATAGTTTTCAATTCCATTTTCAAATCACATAGCAATTTGGTCATCAAATTTTGAAGAAAATTCAATATAATAACCTAATAGTGTTTTGCAAATTGAAAAAAATAGATCTTTATTTTTATTTTCTTGATTGAAATCACCTTTATTTTTAATTACATTTCTTGAATAATTTTCTCCAATTAGTTTTATAGCACTCTCAATTGTAAAATTTTCAGTCAAGTTTTCTTTATATTTTATTAACTCTTTATAAAAGTACTTTATTATAACAAATATTTTTTCTTTAAAATCTTCAAAATTATTAAAAACTGTATCAAAAAAAGAATCAAATTCATCAACACTAGAAGCATAATTTTCTAATCATATTAGAAAATTATTATTAAAATCCTTTAGCTTATTATTAAAATGAGCATTTCATCCATTTCCAACTATTAATATTTTCATAGTATCTTGATTATCACTCATAATTAATACCTAAACCCTTCTAAGAAATCTAACATTAATGTTTGTCAATTTCTTCATAATTTTTCCCTATGTTTTTTAATATCTTCTACTTTATTTAAAATAGTTCTTTCATCTGATTCAATTCCATCAACTGCTTTTTGAACAATGCCTTTAAATGTTTCTAAAGAATTTAATTTTCATTTATTAAATTGTTCAAAAGTTTCATTATTATCTGTTTTATCTCTTAGGTTAGATTCAATTAAAATTAACTTTCTAACCATTGAAGTTACAAATACAAAACTGTCAGGATCTGCAATTAAGATATTTTTATTTTTTTGTGATACTAAAAATGGTACTTTAAATTTTTCATGAGTACTTGTTGCAACAAGAATTGCATAATTTGCTCCTTCTTTTGCCATATCTTCTGTTAATTTAGGCTCTCATGTTTCTTTTCATTCTCCATTTTTACATTCAAAAACTATTTTTCCTAGATCTTTATCTTTATCTCTTACAATTTGTAAGAAGTCAGCTTTTGTACCTGTTCGTGTAATTTTATTAACTTCATCTCCTGTTGATGAAGCAATTTTTCTTAATTCTAATTCAACTTCATTTTCTCAGTTTTCACCTTTTGTTTTGTTATTAAGAATTCTGTTTGTAGCATTAGCTATTTTCAGATCAGTTATTTCTATTTCTTTTGTAGAAATTATTGATTCATATTTTTCTTTAAGTTCTAATTCCTTTTGATTTAATTCAAGTTGTTTTTCATTTTTATAGTTCTCCAATTGAGAACTATATTTTGATAAATCTAATTCAAATTTTCTTTTTTCTATTTCAAAATTTGAAGTTAATTCAAGTTGTCTTTTCTCTAACTCACTTTTATTCAATTGATCAATATTTTTAGCATCACTTTCAAGTTTTACAATTTTCTCTTTTAAAGAGTCAATTTCTGATTGTTTTTCTTGAGTAATTTTTGACTCTAATTGAGTTGCTAACATTTGACTTTCTTTTTGTTTATTCTCTTCAATATAGGCCATATCTTTTTTTAAATTTTCTATAATTGTATTTAGCTTAGATAACTCTATATTTTTTTCTAGATCAATTTCTTTAATTTTAGATTCTAATCTAAAATTAAAATTTTTTTCTAAATTTTGACTGATGTCCTTTTCAATTTGACCTCTAATTTCTTCTTCTAAGTGTTTTTTATACTCTAAAAAACTTTCAGTATCTCTATTTTGTACTTTACCTATCTCAAGTAAATCGAAATCTTGGTGACATTTTGGACAATTTATTAGTAATTGTTGCATTTTTTATTCCTCTTTTTTTCTATTTAAAAAGGAATTAGAACTTAAATTTTTAGGTTAAGCAGATTTATGTATCAAGAACTATTTATCTATCAACTATAAGATAACCTCGAATAAATATTTCTATTTATTCAATAATTATAATACTCTTAAAAAAAGAAAAAACAACTTAAATAGTTATTTTTTTCTTTTCTTTTAAATTTTCTATATATAGAAAGCCAACAATAAATATAATACCTATTATTCAAGAAACCATTAAACTAAATCCAAACATTAAAGCCAATACATCAACTGTATACTGTAATGCCCCTATTGAATTAATTATTATAAAAGGTACGAATGTTAAAATATTGCAAATTAATGCTTGAGCTGTTATTAATCAATTTTTACCTTCTCCATTAAAATGAGCACTAAAAGTAGATGCTGAAACATAGAAAATAAAAAACCAAATTAATTTTGAAAATATAGTTCAACTTCTATTTACTAAATCAACATTGTTGTCTGAAAGAAACATTGTAAATTGCTTATAGACAGGAATAAAAATAGCAAAGGAAAGTAGAATTGACAATAATGATATTAATTGAAATTCAAAAATAAGCATTACTCTTTTTTTAAAATTTAGTTGATTTTGTGTTGAAACAATTGACTTATTTATAGAAAAAATAACATTTGGTATCATCAATATTCAAGATCATATAACTGTATTTGATAACCAGTAAGCATCGCTTTCTTTTGCTATATTCATATTTTTTGCCATCATAAATAAGTAAAAAGTATTATTTATTGTTGAAAATAGAAACGAAGCTAATACATTTGAGAAAAATACTTTATTAAAATTTCATTTCTTGATGTTAAAACTAAATGTCTTTAAGTTAAAAAAGTTTTTAAAACCAAATATGTAAGCTAACATAATAATTGATGTAACAAATAAACAAATTTCAGTAAGAAGTGTGCTTAATCCTAATCCAATATATGCATTATCAAAAACATTATTATTTGCAAGAGTAAAGTCAAATATTATACTAATTAATAATTTAACAATAAGTAAAGCTAAAAATCCTTTGTAATTTTTTAAATTTAATAAAATAACAGTTGAAATTCCAGTTAATATACTTGGAATTTTGCTTCACAATTGTAATGAAAAAAATACTCTTTGTTCATAACCTTGTTGTGAACCTATTACTTTTACTAAATCACCTACAAATATATTCAAAACACAAATAAGTATAAAATAAATAATAAATGTAAATATATAAACTTCTCTTATTTTATTAAGATCTTCTTTTTTACCAATTTTTATACTTCCAAATCATCAAAATAAAGGTAAGACTATTGTTTCTTGAATAACTTCTAGCATTATATTTAAATAATCTCATTGTGCATAAGTTTCAACACTTGCAGACATATATCTTGTTATAACAATAGCTCTAACCAATATTCAGCATGCAGGTATTAAAGAATATAAGAATATTCAAATGAAAAGATTTCAATGACTTTTTTGTTCTTTAAAAAGAGAGCTAAATTCCTCTTTTTTTATATTAAATAAATTCATTTTCTATTTTACCCCAATATTTTTTCACTCAGCTTTTAGTATATTCATATCAATTATAAATATTTAAATTTGAGTTTCTTTTTTGATCTTTATTTATTCTTATGAGAATAGAATTTTCTTATGAGAATAGAATTCTTAACGTTAATAACATCTATTTTTTTATAACCCAAATACTTGAAAATTGCAATAATTTGTAACACATATTTGCTATGTTCTTGTTTATCATCTCCAAAATTAACTCACAATCAACAAATATATCCAATATCATCATATTTACTTCCAAAATAAGAGCCATCTCAATCAATTAACTTTTTTGGCAACAATTTATTATTAAATATGGCATTTACTGGACTTATATCTCCATGTACTATTACATTATTTTCACTATCTATATATAAAGACTGAAGTTCTGATATTATCTTTATAATTTTCATTGTTGATTCAAATGGCATAGCTTTTACTTTTTCTAATGTAATGCCTTTAACATATCTATATGAGTAAGTGAAATCATCAATATCTTTGAATTTTGAAAAATATTTAAACCTCTTTTCATTTAAAATGTTTGATATTTCAACTAAATTTTTTGAGTTACTATTTTTTTCCTTTATAATTCATTTACCTTTTTTAATTAACTTTTTACCAGACAATCCATTATTTTTCATATATTTATTTTAAAGGTTTATTGTTTATTTTTGAATAAAAAAACAAACTAATAGTTTGTTTAAAACATTAATTTTATACATAAATAAATATTTTACATTTTCTATATAAATAAATTTAAAATTATCTAATTGCGTTAAACCCTATTGATCCTGAATTTGTTAGATTTATTCATTTTGTTTCAAGTTCTTTTATTTCTTGTTTAGTTCAAGAAATAAAATCTTTATTTTCTTCTACAATATAAAAGAAAATGTCTTTTAAAGATAAATCATAATATTTAATATATTCAACTATTTTTTTATATTTGATTTCAAGATTCTTTTTTTCTTCATAAAAAACCTTTTCGATATTTGCAATATGCTATTTTCATCTTAATGATAAATTTGTTGCTTGTCCTACATATATAGGTATTTTATAATCATCAGCTTGCTTATCATTGTGAATTTTTATTACATAAATTCCCTAATTTGTATTTTCAAACAATCCATTTTTTAAGGGATTAAAGTTTTTACCTCTTTGCTTGTTTAATATTTTATCTAATGATTCAGAGTTAAATTTTGAAACACTATGGAATTTAAAAAAGTAGAGTTTAATCTCTACTTTTTTTATTATAAAAAGCAATAAACTATCTTCTCATAACTTGAGCTGGAAGAAGTTCATCTTCAATTGTTATTTTATCATCTTTAATTTTTAACAATAAACTTGGAGCTGCTCCTCTTATTCTTTGCAGTTCATTTTCTCCATTTGAAGAGAAATTAGAAAATGCTAAAGTTAGTAGATAATCAGAGTCTAAATTATCATACATAACTCCTCATGCATAAGCATAATTTTTATTTCATACAACTTCTCCATTAATTGTTTCATTTTCTGGGTGTGAATATAATATTAATCCATCATCATTGATTGGTTTCATTTCTCCAAAAATACTTTCTTTTGCTGTGAAACCATGTAAGCTATCATTTTTATCTAATCCTGGTGCTAAATTCATATTATAGTAACCATGTGTTGTTGTAAACATATAATATCTATCATATTTGGCATTATAAATTAAACTTGGTCTTTCAGTTTCATCTGAAACTAGATTAGATGCTCATAAAGGATTTAAGAATTCTACTTTTCCTTCTTGTAAATTTAATTTAGCAATCCCTATTGCTGAATTTGCCATATTGCTTCTTTCAAAATCATAATTTTCTGGATAATCTTCAAATCCTCCAGTGTATTCAGGAAGTCTTTCACCTTCTTTACCAGTTAAAAGACCTGTGTTTCCTTCAAATAACATATATTCTTGATTTGTTTTTGGATCTCTAAAGTAAAATGGATCTCTAAATGCTCATTTTTGTTTTGCATAACCTTGTGCTTCTGCTGCTTGATGAGTTTGATATAAATCTCCATCTGGTTGTGCTATTATTTTATGAAATACTGGAGTATTAAATTTTGGAATATCTTGATCAAAATTTAAATCCATTTTAGCTAAAGCTATTCTTTGATTTCAATTTTTTCCATAAGTGTGATTAGAAACAGTATAAAATAAATTAACTTGTTTTGTTTTTTCATCAAAGAGTGCTGAACCAGATCACTCTTCTGTACCTTCAATTAAATTTTGACTTAAAGCATATCCTCCTGGAATTCAATCAGATCCAGTTTTTGAATAAAAGTACATTATTTTTGTATGTCCTGTTCCATCACTTGGTTTTGATAGAGCAAATCAAATTTGATATCCATTTATAGTAGCTACTTGACCATTATTATCTAATAGCGCTCAACTATCTCAAATATCATAATTATCGATAAAAGCAGTTTTATTTGAATAATCAATATTAGGTATTAATCTTGATTGATCAAATTTTACTGTAGATGCAGCTTTTTCTGTTCATCTGTAAGTTTGATTATTAATGACTACTTGTTCTTGAACTAAAACATTACAAATTGATGCACTTGGAAATAAAGAACTTCCAAGCAAACTTAATAATATTTTCATATTTGACCCTTTCTTTCGCAAGCCCACCCAACCAACCAAATATTGATAGTTGATAAATATTTATATTATTTTTTATGATATTTTTTAATTCTTAACTCTAAATATGTCTTTTGCTAATTGCTAATTGTTCTTATCATACTCTTTAAAATAAATAAAACAATATTATTTAATGATTATTTTATATTAATATAAAAAAGAAAAAGTAATTAGATAATTACTTTTTCTAATATTTTAAATAAATTCTTTACAATATAAAAATATTTACAACATTTAATTTGGCTTTAGCTCTTGAATAATATGTATTTATTCAACTTGCATATGCTTTAACTTCTATTTTAAATTCAAATTCTATTCTATTTGTAAATGTTATGCTTCTTACATAACCTTTTGAGAAATTTCAATTTACTGATCCATAATATTCTCTATCTCATAATTTATAAGGTCCACTATTAATTTGATATTTTACAATTCCATTATGATATTGTGTTATAAGAGAATTTTTATCTTCAATTGCTGAAAGAGCGCTAAATTCAAAACTAAAAAATTTAAAATGAGATAAAAAATCATTCATTCCAAATACTGGATAATGAACTACTTTAAATGTTTGAGAGTCATATTGAGTAGAATTATAAGCTTCTACAAATAAATCTCTTGATCTAAATTGATCTTCAAATTCTAATCCAGATCTATAGTTAATAGTTTCTTCTTGTCCTGCAAATTCATATAAACCAACTAGTGTAACTTCACTATATTTAAAGTTAGTAAGTGAGAACATATAATTTTTTAACTTTGGATTTTCTTTCATAAGAGTTTCTCTAATTTTATTTTCATTTGGATTATAAATAAATCCTATATCACTTTGAGTAATATAGTTTGCCAATTTTTCTGGTTCCGGATTTACAGTTGTAGAGTTTGTAATTACTAAGTTTGCAGTTAAGTGACCTTTAAATAATTCATTTTCACTTAAAGCTCTAAAACGCAATTTAGTTTCAATTACTTCTTCAGGTTCAGGAATTTTAAAGTCATATCCGCTTAATTCTCAATAATTGCGATTCTCTAGAAAATCATATAGTGCATCATAAACATCATCATTATCTGCACTGTCCATTATTTCATAAATAAGAAATTTAAGCATATCCTCTTCTGTTTCTAATTTGACATTCTTTACATCCACATATGTTGTTTCAATTTTAATTTTAGTTAAATCAACTTTTTCAGATGAGTCGATACTTAATATATGTGCACTATTTGTACTGTTTATAATTGAAGCAGTTGATGGTGAAGTTAAACCAACACTTGCAACTAATCCTAATAATATATTCATATTTGTGACTTTTCTCCTTTCGAACACTAACTCTTTAGTCTTCATTTTTATAATAGTTAATAATGTTATAAAAACTCTTTTTTCTTTACAAGTAAGGAAAATTAAAAAAACTTTACAGTATTGTAAAGTTCTCTAACTATTTTTTTAGTAATTAATTTTTAATTTTTGATCTTTCTAAGATTTTTCCTTGTGCAGTTTTTTCATTTCCTCCACCTTTAATTACTAATGAATCATGTGTATCCATTCTTTCAAAAGCATTAATAGAGCAATTAGATTTACAGAAAAACATTTTTGCACCTTGATCAATTATTTCTACATATGAATTTTTATTATTTTTTAAAACAGTTTCACAAATAAAATTATAATCTTTGTTCTCCAAATTATTTTCGTTTATTACAAATATTTTATTATCTCCAAACACAGTTGGTTCTATATTTTTATATTTATTAAATAAGAAATCTTTTTTCTTTGCATCAACATGAATTAAATATTCATTCATTGCTTTTCTTAAATTTGTTGTAATAATTTTAAATTTTATATATACATCTCACTTTGGAAGTAAAAATTCTTTTGTAATTGTTAAAATGGCATCTCTTGCTTTTTCAACATTTTTATCTTCCCCATACTTAAATTTAAGTGATGAGTATTTTTCAGATATATGAATAACTTCTGGAAGTTCATTTTTTCTAAACTTATCATATTCTTGTTCTAAAAATTTTGGATTTGTTCTTGCATAAAATCTGTAAATATTACTTCCTTTTGATTCAAAATCATAAATTAAAAAATTAGGTATTTCAAGTAAGTTCCTTACATGAGTTCCACTACACAGTTGAATGGAGATGTTTTTGAATTTTACAATTCTTAAATCTCCTTCTAATTCTTTTTCATTAAATTCTATAGCAAGATTATATTCATTTTTTGCAGTTTGTGCATCAACAATAATTTCTTCTTTATATGCTCCCGATTTTGTTTTTTTAATAACTATTTGATTTAATTTAAAAATTAAATCTCAATCCACTTTTTCATCAAGTTGCATATCAATTCTTAAACCATTTTCATCATTAAAATAACCTTTTCCTAAACTTGTTGGAAACAGTTCTCTTATTGTATCAAATAATAAATGAGCTGCACTGTGGTTTTGACTTACAAGTTCTCTGTGTTTTAAATCAATTTTTGCAACAACTTCTGATCCTACTTGAATATCTTTTATTAATTCAGTTTTATGCACTACTTTATCTTCACTTATTGCAAGACCCAATATTTTATAGCTGTTATTATTAAATTCAATTACCCCTAGATCTCCTGTTTGTCCTGCAGATTCTGGAAAAAATACAGTTTCTTGTAAATACATTAAAGTAAATTTTTCTTTATTTACAAATTCTGTTACTTTAGTATTTATTTCAAATTGTTCATAGCCTTTAAAGTTTTTTAACATTTTTTATCTCCCTGTTATTAAGATAATTTTTTTATTATCAGTATAAATTTATTATAAAGAAATATATTGTTAAAGAAAAGTTAAAAAATAAAAAGAGCAATTTTAAATTGCTCTTTTTATTACAAATGTATTTTTAAATTATTAAAAGTTACAATAAAATAATGCTCCTGTAAAACCAAAATAGTATCTAAAAAAACCTAAATTTACTCTCAATTGTTTATAAGTTGTAGTATTTGAAATCATATAATAGGATTTAGTAGTTCTACTTACAGTATCACTTATACCAAAATTAAATTGTAAAATATTATTTTGATTATTGATAGTCATTTTCTTTAAAGATTCATTATAATCTTTCCATTTAAATGTTGTATAGTAACTAGAACTTGAAGTTGGCAATTCAAGACCATCTCAAAGAGGATTTTTTACAGTTGTTTTTGTTTGACCTAATGCATTATCATGACTTAGTGCTGTTGAATCATCAATTTTTACTATTTCAGCCAAATTGTGAAATTCTTGTGCTAAGTGAGTTAAGTACTCTTTTGCTTTAACACTTGTTTTAGATATGTTATTTGAACTAACTGTAGTATATTGAGATTTATATGTAAATGGTATCATTACTGTTCCTAAACTGATAGGTTCACTTCCAGCATATTTTACTTTTAAATTACTTAAAGTAAATTGACCAAAAGAATAAACTCCTTCTAAGTATTTTGAGATTTCTTCTTCATTAGTATTACTATCATATTTTCATTTTCTTTTCAAAAATATAACTTCTTTTTCAAAGTCTTTATACAAATCTTGATATAGTTGTAGATTGAAGAACTTATCTTATCAGTTATCTTCTAAATTGGCTCTAAACAATATATTGTTAATTACATTAGCTTGTGCATAATTTAAATTATTAGAATCTGTTTGAAATTCTTTTTCTATTACTAAATTGTCTAAAAAATTTGTACCTTCAAAAATAATTTCAGCTTTATCATTTCCATTACTCTCTATTGAATTTTCTTCTATTTCTTTCATAAAATCATTAATATTTTGTTCATTCTTTTTTGGGTCAAAATAGTTTGCAATATCTTGAGAAACATCTTTTCAACTTGAGTAAGGATTAACTCCTAGTTTTGTATCACTAAAATGAATTGTTAATTCTTTTTGATTAAATAATTTTTTTCCCACATCAGTTATATTAATTACTTCTTTAATGTATTCTTTATTTTCAAAAAGATTAAAAGTTACTTTATAAGTATAAACTTCTGTATTAATTGATTGTAAAAAGTATTGTCAGTTAAAATTAACTTCAAATTCTCCTGTATATACTATTTTATCTTCTACATTTTGTTTTTTAATAGTTATTTCTTTTCCAAGATAATAATTGGCATACACATTTTGTACTTTTGAAAGAAATATTGAATAATTATTAATCGTATTTGTTTTTAAAAGATTTAAATTATTCTCAAGATTATTTAAATTAACAAAATTTTGTAAATCATTTTTTAATTGATCTACATTATTTAAAGAGCTTATTGATAAATTCAATTCTTTATCTTCTTTTCCTTCAAATAAACTTTTTAAATTATTTTTACTAAAAAATTTATAGTCATTTGTAAAATCATTTACAAAGGCATTTTTATATTGAATAAAATGATTTTGAAATACTGAACTTATATCTCTTTTTAAATTTTCTAATAATTCTTTATCTATATCTTTATCTTTATCATCTTTAATTTCTGTAACTGGTTCTTCACCACAAGCAACTATTGATAATGTTGAACTTGTTGTAATAGCACAAGCAGAAAACAATATTAAAAGTTTTTTCATACCCTTATTTCCCCTTTAGTTTTACCTACCTAAATCTTATCATAATAAAAGTGTTTTAGAAAGATAAAAAAGTTAATTAAGCTTTTACTTATAGCAATTTTTGAGAAAATAAAAAAGTAATAAAAATTACTTTTTTATATATTTAATTTATATTTTTTCCATTATACTTTTGAAAAAAACAAAGCACCTTTATGAGAAAATTTATATTTAAAATAACCCAAATTAACTAAAACATCTTTTGCAGTACTTGCATCAGAAATTAGATAATTGGAGTTTGTTTTATATACATAGCTATTAGAACTATATTCTTGAATTTTCAATATATCATTTTCATTATTTATAACTACTTTTTTTAAAGATTCATTATAATCATTATAATTAAAAGTATTATACCTACTATTTGTAAAATTCAAATTTAGTTCTTCTCATATATAAGTATCTTTAACTGTACTAGTATATGCCAAAGCTTTGTCTGGTCAATTTGAATCTGTAGATTTTGCAATTTTGGTTACATTGTGAAATTTTTCTAATAAAGTAGTTAAGTATTTTTTTGCACTTACACTCGTTTCCCCTATTTTATCAGAACTAACTGTAGTGTATTGAGATTTATATGTAAATGGAATTACAACTGGAGCCAAATTAATAGGTTGATTATCTTTATATACTAATTGCAAATTATTTAAAGTAAAGTGACCAAAAGAATAAATTCCTTTTAAGTACTCATTAATATTTTGACTATTTGAACTTTGATCTTCTCATAGTTTTGCAAATTCTGAAACTGAGTTTTCAAAACTTATATATGATTCTTTATTTGAATTTAAATCAAAGAATTTAGTTCAATTATCAGTTTCTAAATTAGCTTTAAATACTAAATTATTAAAGATTTCAAGTTCCTCACCAGATAGATATGCACCAGAGTTAGTATATTTAAACTCATTTGCTACTTTTAAATTTTCTATTAAAGTAGCATTACTTGATTGCAAATTAAATTTAGTATTCTCACTATATTTTTTTATTTCTTCAAAAAATGAGTTAACATTTTGCTCAGTTTGAAATATTTTAAAATATTTTGAGAAACATTTTTTCAACTTAAATCTTTGTCAATATCTAATTTTTTATTATTAAAATGAATTAATGAAGTTTCATCATTAAAAAACTTTTTACCAACATTAGCTATTTCAGTAATATGAGGAATTAATTCTTTATCTTCTGAAATAATAAAACTTCCTTTATAATTGTAAGTTTCTGTATTAACTGACTCTGTATAATATTGTCACTTAAAATTAACTTCAAAATTTCCTGTATATGTTATGTTATCATCAATTATTTGTCTTCTAATTATAAAGTCTGGTCCAAATTCATAATTTGCATAAACACTATTCACTTTTGAAAGAAATATAGAATAATTATTTTTATCACTATTTTTTAAAGAGTTTATATCAGTTTTTAGATCCTCTAAATTAAGATGCTTTTGTAAATCTTTATTAAAGCTATCTAAATTTGCTAAGGAGTTTATTGATATTTTTATTTCTCCATCTTGTGAATTTGTATATAAATTAGCCAAGTTAGTACTATTGAAAAATTCATAAAGTTCATCTGCTTTATCAAAAGTTTGTACAAATGGGATGTTATTTTTAATGAAATGACTGTCATATTTTAAATTCGCTTCATTTTTTAACATTTTTAATAAATCTTGATCTACTTCATAGATATCTGTAATTGATTTTGTACCACAAGCAACTATCGATGATGATGTACCTGTTATAATTGCACAAATAGAGAACAGCATTAAAAGTCTTTTCATTTTTTTACCCCCTTTTTTTGATTAGTATAATACTACACTAAAAAATTTTAAAGTAAATAAAACTCTTTAACTTTTAATTTTTGTTTTATTATTTTGATTATCTTCAATAGCTTTATTAATTGACTCCATATTTATTGGTAACTTTACAAGATTTAATATTGGATTTGCCAATCCAATAAAGTATAAGAAGATTCAATTTATTTCTTTTAATGAGTTTGTTGCAAAAACAATAGAGTTTTCATCCTCATTATATCTAAAGCTTTTAATATTTTTTTCTTTTAAGAAGTCTTTAAATTTCTCAACACTAAATTTCTTATCTAAAAATAACTTGTACTTATTATAAATATTTAATTCTTTTTGAGAACCTTGAAAGATTTTTTGACCTTCTTCTAAGATTATATAATCATCGATAATATCTCATATTTCATCAATATTGTGAGCTGTAATAATAACAGTTTTTCCCATTTTTTTATGCTCTTTTAATAAGTTTTTAATTTTATTTCTTCAATAAGAATCTAAATTAGCTCCAGGTTCATCTAAAATTATAATCTCTGCTCTTTTAATAAAACACATAATTAAGTTCATTCTATTTTTCATTCCCCATGAAAAATTTTTAACTTTTTTATTTCTTTCTTCTCAAAGACCAAAATAAGTCATTCAATATTCAATCTCTTCTTTTATTTTATTTTTTTCAATATTAAATGATAAGCAAATTAACTTTAAAAAACTATATGCTGAAATATCATAAAGAGAAAAATCCATTTGAGTATAAAAACCAAATAATGAATTTTGTAAGTATGAACGACGCTTTCTTCTATTTACACTGTTAAAGAATATGTTTCCTTTGTATTTTTTAATTGCCCCTATTATTGAATTTAAAATAACAGATTTTCCACTACCACTTCTTCCACACAAAGCAGTAATTTTTCCTGCTTTGATTTCCAAATCAATAGGACCTATTTGAGTTTTTTTAAATTTCTTTTTAAAATCTTGAAAATTAATAACTGTTGTTTCCATTATACAAAATCCTTTTTCTTATAAATATTCAAACAAATTATGTTATTTATAATTGCAATAGTTAGATGAACTATTAAAAAATAATAAGGTTCTACAAAATTGTTGTAAGTGTCAGGTTTAATTTTATTATTTTCATCTAATTTAAAAATATATGATGAGTAACTTAAAAATAAATTTTTCTGTCATGTTAAATCAATATATGAGTCACTGTTAATTGCAAATCAATTATCTTCTCATGACTCTCCTGCATATCTAGTATAAACTGAAAACATATTTGCCAGTGGGTTTAGATAAAAAGCAATGTTATATATATCTCTAGCTCTTTTGTATTCTCATCACTCTGATCTTGAAGTGTCTAGAGTATAGTTAGTTAAATTTACATAACTGGAAGTATAGTTTATAAAATATTCTTCTAAAACTCTAATTGCAATATATAAAGGATCATATAAAATGTCATTATACAGTTCATTGGCATTAGAATCTCTGATAAATCCTACTGAATTAATTCCATCAACAAAATGTAATTTATAACTGTCAATTAAATAAGCTTTTGAAAAGTCTGCTTTAACACTAGGATCAGATACTAATGAGATTTCTCCTGTTTCAAAGTTTAATAAATCTCCATATAATTTGTAGTATTGTTTTTGAAAGCTTTTTGAGTTTGAATAATAATTTAATAAAGAGTTTGTAAAATCATATAAATCAGTTAAGATTAGTTTTTTCTCACTGTCAGTTTGTGCACTTATTAAAGTTTTCATATTATCCATAGAAATAAATCTACTGTTTTGAAAAATAGATAGATTTACACTATCACCTAATTGAATACATTTTTTTTGTTCTGAGGGTTGGCAAGTATCTCCTCAATTGGTTGGCAATTTTGAAACTGTCAAATTGTTTCCTTTGATAGTTCATTTTGAAGTATTAATTACACCCAAAGAATCCCAGAAATTAAATCGAGAGTTTAAAGTTGTTTGACTAGTTCACTGTGTACTTTCTTTTGAAAATTTGTTAGATATAAAAAAGTTATTTAAATAATTTGATAAATGCTTATATTTTATTTTCTTGTTTGTAACTCTTTGTTGAAAATCAAAAGCTTTATAAATTTCATCAATTTTTTCAACATAAGTATTTCCTAATGTTGATGTAAAATATAAATTTCTATTTTTCTCAGAAGAGATTATAAATTGATAAGGTAAGCTTGCTATAAAGCTCAAAGATAAAATAAGTGTAATAATGATTGTTGTAATTTGATTTTTGAAACAAATACTTAAAAGCGAAAAGAAATTAATCAATGCATAGCTTATAAAAAATAAGTAAATCATATGTACTAAAGTCATATTAATAATCACTTTATCTTCTCAACCAAATATTAAAGCAAAAATATTTATTATTGAAAAGTTCATTAAAATAGCAAACACAACATATAAAAATAAAGTTGATGTTTGCACTAAAAATATTTTGCTTCTTGATATTGACTGAGTTGAAATAATATAGATGGTTTTATCTTCAATTTTAGAATACATAAATAAAAAGACAAGTCTCATAATTAGTATGATTCAAATAATTCCACTAATAAATAAAAAGTAATAATTATAATAAATCACAAATTGACCTATATTTTTTATTAATAAAAAAGTAAAACCAAACAAAACTGACAAAACCAATGATATGAAAGCTATTATTCCTGAAGCCTTATCAAAAAAGATTAATTTGAAATCAATCTTAAACATTGTAAAAATGCTTATAGATTTTTTTTTCATTTTTAATTATTAAACCTTTGCGTAAAATATAGCACCTTTATGAGAAAATTTATATTTAAAATAACCTAAATTAACTCAAGCATTTTTTGTAGTAGTACTATCTGAAATTATGTAGTTTGGATCAAATTTATATACATAACTATTCTTACTTCCCTCAAATTTTAAAATATTATTCTCACCATTTATAACTATTTTTTTTAAGGTTTCATTGTAATCATTGTAATAGAATTGTGTATATTTATTACTTCCAAAATTTAAATTTACTCCCTCTCATAATAAGCTATTTTTAGTTGTACTAGTCATTCCAAGAGAGTTGTCTGGCAATTTTGAATCTGTTGGTTTCACTAACTTAGTTTGTTTATGAAATTCACTTATTAAATTTGTTAGATATTCTTTTGCTTTAATACTTGTATTGTCAATATCATTTGAACTAATTGTAGTATATGAAGATTTATATGTAAATGGAATTATTACTGGACCTAAATTGATAGGTTGACCATCTTGATAACTTATTTGCAAATTATTTAATTTAAATTGACCAAAAGAATAAATTCCTTTTAAATATTCATTAATATTTTTACTATCTAATTGTGGATCTTTTCATATTTTCTTAGCTTCTGATACTGAGTTTTCAAAATTTATGTATGATTCTTTATTTGAATTTAAATTAAAGAATTCTTTTCAATTATCTGCTGTTAAATCAGCTTTAAATATTAAATTATTAAATGTCTCTAACTCTTTTCCAGAAAGATATGAATTTGAATTAGTGTATTTAAATTCATTAGCTATTGTTAATTCATCTAATAAGTTTTTTGGATCATATGTAATTTTAAATTTAGTATTATTTGTATACTCTTTTATTTCATCTAAAAGTGCATCAATATTATCAATTACTTTATAATGTCTTGAGATTTCTTGAGAAACATCTTTTCAACTTTCATTATCTTTAATTTTTAAATCACTATTTTTAAAATGAATTAATGAAGTTGCATCATTAAATAATTTTTTACCTACATCAGCTATTCCAGAAATATTTGCAATTAACTCTTCATCATCTGAAATAACAAAGTTTGCCTTATATTTATAAGTATCTGTATTAATAGATTGTGTGTAATACTGTCATTTGAAGTTAACTTCAAAATCTCCTGAGTATGTAGTTTTACCGTTAGAAGATTGAGTTTGTTTTTTAATTGTAAAATCTTGACCAAAATCATAACCTACATAAACATTATTTACATTTGAAAGAAAAACAGAATAGTTATTTTTTTCATCTTTTTTTAAAGAATTTATATCATCTTCTAAATCTTTTAGATTAACAAAGTTTTGCATATCACTTCTTAAATTATCCAAATTCTGTAATGAATTTATTGGTAATGTCATTTCTCCATCATTGGGATTTGTATATAAAGCTTCTAAATTTTCTTTTTTAAAAAAAGAAAATTTCTTTGAGTTTTCAAAAGTATCTACAAATGGAGTATTATTTTTAATAAAGTGATTATCAAATCTTAGATTTGCATCATTTTTTAACATTCTCAATAAGTCCTGATCAACTTCTGAATTATTTGAATTAGGTTTTGTACCACATGCCACTATTGATGATGTTGTACTTGTAACAACTATAGAAATAGACAACAACATTAAAAGCTTTTTCATTTTTATTATTATCTCCTTTTAGAATTAATTCTTAGTATAATTTTATATAAAAAAAAAAAAAAAATATTTTTAATTTAGTAAAATCATTTTATCTTTTCATTAACTCTAATTAAAATATCTGTAAGAGTTTTATATTTTTTCAATAAAAAAACAGCTAAAATAAGCTGTTCTTTTTTATATTTAATTAGTTCAATAATCTCTTTCATAAAAGAAAATTTAAACTATTATTAATTTTAAATTTTTGAAAATAAATATTTTCAATAAAAATAATTTGAATTATATCTACTAATTATACTTATATTTTTACTTAACTTGCATCTGCAGAAAATATAGCCCCTTTATGAGAAAATTTATATTTAAAATAACCTAAATTAACTTCTACTGTTTTTTCAGTAGTATTATCAGAAACATAAAGGGCTGACTCTATTTTAATTTTATATACAAAACTACTATTATTTCCATTTACTTTCAAGATATTGTTTTCATTATATACAAGTAGTTTTTTTAATTCTTCATTATAATCTTTATAATTAAAACTATTATAATATCCTCCTCCAAAATTTAAATCTAAACTTAATCATAAAGGAGTTTTTACAGAGGCTGTAAATGCTAAGGTATTTCTTAGTACTTGTGAATCTGTAGCTTTTATTGCAGTTTGATTACGAAATTCATTTAACAATGCATTTAAATATTCTTTTGCTTTACCACTTGTATTGACAATATCATTTGAACTAATTGTAGTATATGAAGTTTTATATGTATATGGAATTATAATTTGGCCCAAACTTATTGGACTCATTTTTTTATAACGTATTTTTAAATCATTTAATCTAAATTGACCAAAAGAATAAATTCCTTTTAAATAATCATTGATAGTTCTTGTACTCTCTTCAATTTGTCATAATTTTGAAAAATCAGTAAGTGAATTTTCAAAACTTATATAAGAATTTTTGTTTGATTCTAAATTAAAGAAATCCTTTCAATTACTATCAGTTTTTTTAACTTTAAATACTAAATCATTAAATTTTTCTAACTCTGTTCCAGAAAGATATGCACCAGAGTTAGTATATTTAAACTCATTGACTACTTTAAAATCATCAACTAAAGTATTCTTTTCATACTCAAATGTAAGGTCTTTACTTCCTACATTAAGATTTAATATTTCGTTTAAAAATACATCCACATTTTCAAGTTTTCCATCAGAACTTGTTTTTCTAAAATAGCTTGAAACATTTTGTGAAACATCCTTTCAACTTCTTTTAGAATCAATGCCTAATTTTGTATCAGTTAAGTGAATTAATTAACTTTCATTATTAAAAAGATATTTACCCATATCCTTTATTTTATTAATGTCAATGATTAAATCACCATCTTTTGATATAACAAAATTTGCATTATAAGTATAAATATCTGTATTAATTGAATTTGTATAATACTGTCATTTAAAATTAACCTAGAATTCTCCTGAATATGTTATACTTCCAGATTCATCACTACTTTTTTGTATTAAAAAATCTGATCCGAAATCATAACCTGCATAAACATTTGCCACATTTGAAAGAAATACAGAATAATTATTTTCATCACTTTTTTTCAAAGAATTTATAGACGTTTCTAAATCACTTAAATTGACAGAATTTTGTAGATCACTTTTTAAGCCCTCTAGATTTTTTAAGTTATTTGTTTTTAAATTTAATTCTGTTTGACTAGAATTTTCAAATAAACTTCCTAGATTAGTTTCATTGAAAAAAGCATATTTTTTATTCGCATTTTCAAAATTGCTTATAAATGGAATACTATTTTTAATAAAATGATTGTCAAATTTTTGATTTGCATCTTTTTTTAATTTATTTAATAAGTTTTGATTTATATCTTTTCCACCTGGATCTGGTTTTGTACCACAAGCAACTATTGATGATGATGTACCTGTAACAATTGCTGATATAGAAAATAACATTAATAGTTTTTTCATAATTATTTCTCCTTTATTTATTATTACTAATATAATTTTACTCTAAAATAAACTTTTAAGTTATAGAGTTTTTTAAGCCCTATTTTTTTACTTTATTATCTTCAATTGCCTTATTGATAGATTCCATATTTATAGGCAATTTTATAAGATTTAAAATAGGATTTGCCAAACCAATAAAGTATAAGAAAACTCAGTTAATTTCTTTCAGTGAATTAGTTGCAAATACAATTGAATTTTCATCATCATTGTATTTAAAGCTTTTAATATTTTTTTGTTTTAAAAATTCTTTAAATTTATCAACATCAAATTTCTTATCTAAAAATAGTTTGTATTTATTATAAATATTTAACTCTTGATTAGAACCTTGAAAAATTTTTAAACCATCACCTAAAATTACATAATCATCAATAATATCTCATATTTCATCAATATTGTGAGCACTTATGATAACTGTTTTACCTTCTTTTTTATAATCTTTTAATAAATTTTTAATCTTATTTCTTCAATAAGAATCTAAATTAGCTCCAGGTTCATCTAAAATTATGATCTCTGTTCTTTTAATAAAGCACATAATTAAGTTCATTCTATTCTTCATTCCCCATGAAAAATTTTTAACTTTTTTATCTCTATCCTCTCAAAGACCAAAATAAGTCATTCAATATTCAATTTCTTCTTTTATTTTGTCTTTTTCAATGTTAAATGATAAACAAATTAATTTCAAAAAACTATATGCTGAAATATCATATAAAGAAAAATCCATTTGTGTATAAAAACCAAATAATGAGTTTTGTAAATAAGACTTGCGTTTTCTTCGATTTTCATCAGCAAAGAAAATATTTCCCTTATATTTTTTAATTGCCCCTATTATTGAATTTAAAATAACAGATTTTCCACTACCACTTCTTCCACACAAAGCAGTAATATTTCCTTCATTTATTTGTAAATCAATTGGTCCAATTTTTGTTCTTTTGAATTTCTTTTCGAAATTTTGAAAATTTATAACTATTTTTTCCATTATACAAAGTCCTTTTTCTTATAGATATTTAAACAAATTACATTATTTATAACTGCAATAACTAATTGAATTATTGCAAAATAATATGGTTTTATAAAATTATTATAAGTGTCTGATTTAATTATGTTTTGATCATCTAAATTAAACATATAGCTTGGATAGCTTAAAAATAAATTTTGTTGTCATGCTAAATCAATATATGAATCATTATTAATAGAAAATCAATTAGATTCTGATGCTTCTCCAGAATAGTAAGTATAAGTTGAAAACATATTTGCTACTGGATTTAAATAAAATGCTATATTATATATATTTCGCGCTTTTTGATATTCTAATCACTCACTTCTTGAAGTATCTAAAGTATAAGTTGTTAGATTTATATAATTTGAAGTGTAATTAATAAAATACTCTTCTAAAACTCTAATTGCAATATATAAAGGATTATATAAGACTTCATTATATAATTTTTTTGCATTCGAGTCTCTAATAAATCCAATTGAGTTAATACCATCAACAAAATGTAATTTATAACTGTCAATTAAATAAGAACTTGAGAAATCTATTTTTACATCTTCATTGTCAGCAAGAGAAAGTGTTCCTGTTTTAATATCTAATAGATTTCCATATAATTTATAATATTGATTTTGAAATTCTTGCGAAGTTGCATAGTGTCCTGATAAGTAATTTGCAAAATTATACAAATCAGTTAATATCAATTTTCTTTGACTGTCAGTTTCAGTATCTACTAAACTATTTAACTCTTCAAGAGAAATAAATCGAGTGTGTTTAGAAATTGAAAGATTTACTACAGATCCTAATTTAATACAAGCATTTTCTTCTGTTCCTTCACAATTATCTTTTCAATTTACTGGCAGTTTTGAAATATACAAATTTTGTGCTTCAATCTTTTGCTCTGAAGTATCAATAATTTTTAGAGAGTCTCAAAAAGTATAGCGAGAGTTTAAAGTTTCTGTACTAGTTCAATCACTGTTGTTTTTTGAAAATTTATTAGTTATAAAAAAGTCATTTAAATAATTTGATAAGTATTTATATTTGATTTTCTTATTTGTAACTCTTTGTTGAAAATCAAAAGTTTTATAAATTTCATCAATTTTTTCAACATAACTATTTCCTGTTGAAGATGTGAAATATAAATTTTTATTTTTTTCAGAAGATACAATAAATTGATAAGGTAAGCTTGCAATAAAACTTAAAGATAAAATAAGTGTAACAATAATTGTTGTAATTTGATTTTTAAAACAAATACTTAAAAGAGAAAAAAAGCTAATTAATGCATAAGTTATAAGTAATAAATAAAGCATGTGCACTACTGTTATTCTCAAAATTACTTTATCATCTAATTTTGACATCAAAGCAAAACCATTTATTATTAAAAAGTTAATTAAAATTGTAAATGTTGCATATAAAAATAAAGTCACGTTTTGTACAATAAATAATCTACTTCTTGATATTGATTGAGTTGAAATAATATAAATGGTTTTATCTTCAATTTTAGAATACATAAATAAAAAAACTAATCTCATAATTAGTATTATTCAAATAATTCCACTAATAAATAGAAAATAATAATTATAATAAATTACAAATTGACCTGTATCTTTTAATATAAATAAAGTTAGACTAAATAAAGCTGTAAGTACAAGAGCTATAAATGCTATTATTGCTGATGCTTTGTCAAAAAATATTAACTTTAAATCAATTTTAAACATTGTAAAAATACTTATAGATTTTTTTTCATACTCTTAGCTCCTAGCTATTAGTATAAAAGAAGCTATAATAAGCTTTTTATAAAATTAAGCCCATAACAATTTAAAAATTAGAAAACAAAAAAATGTTTTCCTAATTATTTTCCCCTTTTTATACACTTATATATTATCAAAAAAACCTCATATAGTCTAGTCCAAAATTAACTTTATTCCTATAAAAGTTAAGAACAATTAAATAACTTTTCTACATATAGTTAATTTTCATACATTGAATATATAATATTAATAAATATTTAAAGGATCTATTATGAATAAGGCAAAAGAAAATTTTAACTACTGAATAAAACTTTTAAAAGATTTACAAGAATTAGATAAAAAAAATACAAAAAAAATTGAATGAGAAGATCAATTTGATAAATCTTCAAATAGCAACATAAAAGAAAATATGAAAAGTGTTTACAATAGCATAATGTATTTTTTTGATTTTAATTATAAAAATGATTATAAAAATATAAATAAAGAATCAGTTTTATATTATTTTATGCACGGAGAGTTTAAAAAAAATCTTGATAAAGAAGAAAGAAAATTAATATATCCTTTTGGAATTAATAATAGTCAAAAAAGAGCAGTAGAAAATGTTTTTAAATCAAATATTTCAATAATTCAAGGCCCTCCAGGTACTGGAAAAACACAAACTATATTGAATATAATTTCAAATATTTTATTAAAAAATCAAACTGTTGCTGTTGTATCAAATAATAATTCAGCAATTGAGAATGTTTTTAATAAATTAAATCCTAATATAAATGTTGATAATCAAAATGAAGAAAAACTTGAAAACATCTCTTTTTTAACCTCTTTTTTAGGATCTTTTGAAAAAAATAAAAAATACTTTAGCCAAGAAAATAAAGAAGAATTTGAAAGATTTAGAAAAAATTGAAAAGAAGAGTTTGAAAAATCATCATTCTTTAAAAATAATCAAAATTATAAAGAACAATTATATAAAGCAAATCAAATAATAAAAGATATTCAAAGAGTTCAAAATTTAAAAGAGTCAATTTTTAACAATAAAAATCTTATTAAAAAAATTGAAAAAGAAAAGCAATTATATGAAAGCAAAATAGTTTTAAAATATAAAGAAAATAGAAATTTATTAAATCTTCCCTTAGAAAAGATTAATAAATTTTATCTTCAAATAAAGACTTATAAAAAAGATAAATTATCATTTCTATTTAAATTTATAAGTAAATTAAAATATAAGTTACCAAGAAAGTTTTTTAAAAGCGATTATATATCAGAATTATATTTCTTTGTTTTATCTAGAAAAAATATAGAAACTAGAATTTCTATCGAAAATGATGAAAAAGAGCTTGAAAGTTTAGATAAAGAGCAATTAAATAATTTGATATTGTTATCAAAAGAAATACTCTATAAACATATATACAACAATTATTTAACTAATTTAACAATAGATTTAAATGCAGAAAACTTTTACAAAAATGAACAAAAAATGAAGCAAATATTTAATCAAAGACCAATAATATTGAGTACTATTTTTTCAATTATTAATGCAAAACCCCCTACTTTACTTTTTGATTATTTAATAATTGATGAAGCTTCTCAAACAGATATGCTTGCAAGTGTTGCTGCTATGGCATGTGCAAAAAATATTGTAATTGTAGGAGATTTAAAACAACTTCCTCAAGTTGATTCTCCAATTTATGAACAATACTTTAAAAAAAATGTAGCTCCTGTTGAAAAAGGTTATACTTTTTGAAAAAATAATATTTTAAAAGCTTTTATAGAGATTTATAAAAATACTGTTCCCAATCAATTGCTTAGAGAACACTATAGATGCCATCCAGCAATTATTGATTTTTGTAATCAAAAGTATTATCAAAATCAACTTATAATTATGAGTGAAGCAAAGAATCAAGAAAGTCCTTTTGAATCAATTATTGGTGAATCACTTTATTACAACGATACTGATAATTGAAAAACTAGTAAAAAAGAACTTGCAAATATTAAACAATATATAATAGAAAATAATATTAAAGATATTGGCCTTATTAGCCCTTTTAGAGCTCAAGCAAACTTATTTATAAAAAATTTAGCAAATAACAAAATTGTTGCAAATACAATTCATGCTTTTCAGGGCCAAGAAAAAGATACAATTTTATTTGCAGTTACAAAACAAAAAATAAGTGGAAAAGATGATTTTGTTTGTAATCCTCAATTAATAAATGTTGCAGTTTCAAGAGCAAAAAGCAAATTTATATTAGCATATTCTAACTCTGTTAAAGAAGGTCCTGACAATGATATTAAAGACTTAATAAATTATATTGAATATAATTTTCCTAAAAGTAAAAAGATCTATAAAAAGAATACTGAATTTTATATTCTATCAAAAGAATATAATAAAAAACTAATAAATTTCATTAAAAGTTACAATGAAACTCATAAACAAGGTTCAAAAGAACCAACAGAAATAATAATTCATACAGTTCTTGAAAAGATTATTGCATTAGAGGAATTCAATAATTTAGACATAACTTTATTTAAAAAATTAAGTCATATTATTCCAAATGCTATTAAAAATCAAACTTTTAATGAAAGAGAAAAAGCTTTTTTGAGTCATCACTGAGCACATATAGATTTCTTAATATATGATAAATTTAGTCACGAACCTGTTCTTGCAATTGAAGTAGATGGTCTAACTTATCACAATAGTAAAAAACAAATATGAAGAGATAATCTAAAAGATAAAGCTTTAAAAGTAGAAGGTATTCCTCTTATGAGGATAAGAACAGATACTTACAAAAATATTGGTATTTCAATAATTGAAAAGTTAAGAAAAATAAAAAAAAGTTAATATATTTAATTAACTTTAAAAACATAAACTATATTTTTTTAAAATTTCAAATCTTTTTTAAAGATTTGGTATAACACCCATTTGCTCACTTTTATCAATTTCAGTTTTACTTTTAATTATATTTATCTGTCTTATCATTAACATAATTCACAATGGTAAATATAATAAAAAATAACACAAGACAAAACTTAGACAAGTAAAAATAAATAATGTTTTTGTATAAGATTTTTCTTTTAGATAAGTAATTCTAAAAAATAGAAAAAAACTAAATATATAAACTAAAATAGTTAAAATGCTGAAAGGAATAATCAGATGATAACTTGTGCTAAAAAATATATTTATCTTTTCTCTGCCTTTTTCAGTAAGAGAAAAGATAACTAATAAGAAAAAATTATTTATTAAAACTAAAGATAAAATTACACCTAGAACTAAACCATAAATTCTAATGGCAGAATCAAGTTTTTTCACAATAAAGACCCCCATTCACAAATATAAGGAAATGAAATAAATCAATTAATATTTCATTTCCTTATATTAAAAATCATAATTTTTTTAATTATTTAAAAAACGATATCTTTAATATTATCTTGAAAGTTTTAATGAAAGAAAAATAATAACTATTAATAAGTGAAAGCTATAAATAATTACTCAAAAATAATAAGAAAGGTCTTTCAACATTCCCACCCAACCAACCAAATAGTAAAAGCTTTTTTACACTTATATCTTATTCCTAATATCAACTAAAACTAAAAACATAAAAGAGTTTTTATACTTTAATAATATTTTTATAAACTTATAAAAGGTTTAAACTTATAACTACAGTTGACTTAAATAAATTTGAAAAAATTTTTTTTGAAATAGATTATAATACTGTAATTTACTTTATAATCAATAGGTATAAAGGAAACTTAATTAACATGGATGACAAACAATATAAACAAGATTTACTAGAAATATATGAAACAGCTAAAAAAGCTATAGGAAAAACTTTAAGAGAACTTGCAAATAATAATATTGATAAAATAAGATATTTTGACAATAAAGATAAAGTAAAACACTTTCTTCAACAAGCAATATTTAATATACCTTTATTAAGTAAAGTAGAATATACTTTTGAAGATCTTCAATTAGAATTAAAACCAGTGGCTTTAAAAAGAAACAAGTATGATGAATTAATAGTAAAAGAACGATTACTTTTAAACGATATTTACTATGATGAAATAGTTAATGAAACATTTAAAGACTCTAAATTTATAAATAGAAATCAATTGCTTTTAATCATAACCTATGTTCATGATTATGAAAAAGATTTTTTAGATTTTAAAATTCATGATGCTTTTATAATAGATATATCAACACAAAAAGAATTTTATTTAATAGTAAACGATTGACTTGCTATTCAAGAGAAAGTAAAAAAAGGAAAAGCAGAAGAATTGAATGAAGGATTTACAAAGATTCTTTCTGCTTCAACTAGAAGTCAAAGTAGAATTGATTTAAAAAAACAACCCTATTCAAATGTACTTGCAAGATTTAGAAGTTATTCATTTAATACTAACTTTTTAAAAGAAATTATTTCAAGACACAAAAATAAAGTTGAATATATTAATGAAATTTTTGAAGAAAGAGAAATCAAAGATATTGTTGAATTTAAAAACGAGCAAATTCAAGAATATATGACAAGTATAATTGGAACAGATATTTCCAATTATACTCAATCAAAAGCTAATCAAAAACATCAAATGGCATTTGAAAACTTTTTAAAAGAAAATAACTCTGAATTATATGACTTTTTAAAAATTACAAATTTCAAGCTAACACATAAGTTAACTCAAAACAGTAATTTACAAGAACAAATTACTACTAACTATGAATTAGATCCTTTTGAAATAATGAATGATGAATTTGAAGATAGTACTTTTTATCAAGATATAATATTGAAAAATTATTTAGTAATTATGATTGAAAAGAGTACTAACAAAATTCTAAACTTTAAACTATTTAATCTAAGTGAACAAGATATAAAAAATTCTCAATTAGTTTTTTATAACACTAGAAAAGAAATTGAAAGATTAATTAAAGAAGATAAGTTAAATAAAGAAGAGCCAAATTTTGCTAAGACAAAAGATAATCTCTCAATTAGTTTAAGAAAAAGTAAGAAAAATGAATATGCAATTTATAAAGTAAATGAAAATGAATTTAAACTTCCTGCATATGAGTTTGTAATTAATAAAAATGTAATTTTTAAATAAAATTAAAAAAATCTCTATTTTAAAAAGTAGAGATTTTATTTTTATTATTAATTTTAATAATTATATTTTATGCACTTAATTTATCAATTGTTAAAGTTTTTGCACCTTTAACGATTTTTGAATCTAAGCTTGCATCAATTTTAATTGATCCTGTTGCCTCTTTTGTAGCTTTTGTTTTAGTAATTGAAACATCATCTGCTGTTAATTTTTCAAGTCCTTTAACTGCTTTTAATGCATCAACAATTTGAGCATCTGTTGTATCATTTGTTGCTTTAAATGAACCTAAGTTAACAGTTGATAAATCAACTAGTGTAGCTGGTGCCTCTAATTTAGCAATTTCTAAAGTTTTTGTACCTTTAACAATTTTTGAATCTGATTTTGCATCAATTTTAATTGATCCTGCTGCTGATGTAGTAGCTTTTGTTTTAGTAATTGTAACATCTGATGTTGTTAATTTTTCAAGTCCTTTAACTGCTTTTAATGCATCAATAACTTGAGCATCTGTTGTATCATTTGTTGCTTTAAATGAACCTAAGTTAACAGTTGATAAATCAACTAATTCAGCTGGTGCCTCTAATTTATCAATTACTAAAGTTTTTGTACCTTCAACGATTGTTGAAGTTGATTTTGCATCAATTTTAATTGATCCTGTTGCTGATGTAGTAGCTTTTGTTTTAGTAATTGTAATATCTGATGATGTTAATTTGTCAAGTCCTTTAACTGCTTTTAATGCATCAATAACTTGAGCATCTGTTGTATCATTTGTTGCTTTAAATGAACTTAAGTCAACTGTATCTAATTTAACTTTTGCTGTTGAAGCCCCTTTTTTACCAATTTTAACTTCAACTGATGCAACTTTTACTGGTTCTGCTGCTTTAGTTGATTTTGATTTTGATGCATCTTTTGCTTTATGCATAACATCAATTGTTTCTTTAACTTCTTTATCTGTTAATTTATCTGCTGTTGTTGAAATTATAATAGTAACTTCTCCAGCTTTTTGTGATTTTTCTTTAACCTTTACAGTTAAAACTGATTTTTCCGCTAATTTAAAAGTAATTGTTCCATCAGCTGTAATTTTTTTTGATTTAACAACAGTTTCTGCTGATAATTTAGTTGCAGTTAAACTAACAGTTTCCACTTTTTGTCCACAAGCAACAACTGTTGCACTTGTAGTTGCAACTAATCCAACTGCTCCTAATAATCCTAATAATTTTTTCATGTTATTCCTCCATAATTGAAGTATCCCGACTAACACATTCAAGCTTGATATAATTATAAATTTAAAATGTCCTATTTAATGAACAACCTAAAACCAGAAAAATATTTTAGTTAGATAAAATAATTTTCAGTTTAAAAAAAAAAAAAAAAACCGTTTTTTAATATATAATACGGTTTTTTAATAAAATAAATTTTTCTAAAAATATGAATATACTCATCTATTTTTCTTCAAAAATTTCAGCTTATTATTTTTTTATTTTAAATTAATAGTAACTTTTTAATTACCTTATGCAACTAAAGTTCTTTTTTTGCTTATAATTTAGCAATTACTAAAGTTTTTGTACCTTTAACTATTGTTGAAGTTGATATTGCATCAATTTTAATTGATCCTTCTGCTGATGCAGTAGCAGGTGTTTTAGTAATTGTAACATCACTTGTACTTATTTTTTCAAGTCCTTTAACTGCTTTTAAAGCAGTAATAACTTGGTCATTTGTTGTATCATTTGTTGCTTTAAATGAACCTAAATCAACAGTTGCTAAATCAACTAGTGCTAATTTAGCAATTACTAAAGTTTTTGAACCTTCAACAATTGTTGAATCTGAGCTTGCATCAATTTTAATTGATCCTTCTGCTGATGTAGTAGCAGGTGTTTTAGTAAATTTAATATCACTTGCACTTATTTTTTCAAGTCCTTTAACTGCTTTTAATGCATCAATAACTTGAGTATCTGATGTATCATTTGTTGCTTTAAATGAACTTAAATCAACTGAATCTAATTTAACTTTTGCTGGTGCATCAGCTTTTTTACCAATTTTAACTTCAACTGATGCAACTTTTTCTGGTTCTGTTGCTTTAGTTGATTTTGATGCATCTTTTGCTTTATGCATAACATCAACAGTTTCTTTAACTTCTTTATCTGTTAATTTATCTGCTGTTGTTGAAACTATAATAGTAACTTCTCCAGCTTTTTGTGATTTTTCTTTAACTGTTACAGTTAAAACTGATTTTTCTGCTAATTTAAAAGTAATTGTTCCATCAGCTGTAATTTTTTTTGATTTAACAACAGTTTCTGCTGATAATTTAGTTGCAGTTAAACTAACAGTTTCCACTTTTTGTCCACAAGCAACAACTGTTGCACTTGTAGTTGCAACTAATCCAACTGCTCCTAATAATCCTAATAATTTTTTCATGTTATTCCTCCATAATTGAAGTATCCCGACTAACACATTCAAGCTTAATATAATTATAAATTTAAAATATCCTATTTAATGAACAACCTAAAACCAGAAAAATATTTTAGTTATATAAAATAATTTTCAATTTTAAAAAAAAAAAAAAAAAACCGTTTTTTAATATATAATACGGTTTTTTAATAAAATAAATTTTTCTAAAAATATAAATATGCTCATCTATTTTTTTCTAAAATTTCAACTTATTATTCTTTTATTTTAAATTAATAGTAGCTTTTTAATTACCTTGTGCAACTAAAGTTACTTTTTCGATTATAATTTATCAATTACTAAAGTTTTTGAACCTTCAACGATTGTTGAAGTTGATTTTGCTTCGATTTTAATTTCTCCTGCTGCCTCAGCAGTAGCAGCTTTTTTAGTAATTGTAACATCATCTGCTGTTAATTTTTCAAGTCCTTTAACTGCTTTTAATGCATCAATAACTTGAGTATCTGATGTATCATTTGTTGCTTTAAATGAACTTAAATCAACTGAATCTAATTTAACTTTTGCTGGTGCATCAGCTTTTTTACCAATTTTAACTTCAACTGATGCAACTTTTTCTGGTTCTGTTGCTTTAGTTGATTTTGATGCATCTTTTGCTTTATGCATAACATCAACAGTTTCTTTAACTTCTTTATCTGTTAATTTATCTGCTGTTGTTGAAACTATAATAGTAACTTCTCCAGCTTTTTGTGATTTTTCTTTAACTGTTACAGTTAAAACTGAGTTTTCTGCTAATTTAAAAGTAATTGTTCCATCAGCTGTAATTTTTTTTGATTTAACAACAGTTTCTGCTGATAATTTAGTTGCAGTCAAACTAACAGTTTCTACTTTTTGTCCACAAGCAACAACTGTTGCACTTGTAGTTGCAACTAATCCAGCTGCTCCTAATAATCCTAATAATTTTTTCATGTTTTCCTCCATAATTGAAGTTACCCGACCAACATATTCAAGCTCAATATAATTATAAATTTAAAATACTCTATTTATTGAAATATATCAAAAGTAAAAATGCTTTTAATTTTTTTTTTTTTTTTAAAAAAAAAAAAAAAAACTGCTTTTTTATATATAATACAGTTTTTTATTAAAATAAATTCGTTTAAAAAATGAGTATTACTCTTCTTTTTTTTCTTCTAAAATTTCAACTTGTTCTTCTAATTCTTCAACTTGATCTGATAAAACTTCAACATTTTCTTCTAGTTTTTCAATTTCTTTTTGCATATTAATGATTTCTTCACTTAAAAGCTCATTTTCATTTTGTATTTCTACTACAGACATTTCTTCTAAATTTTCATTTAATTTTTTGTCTTTTTTTAATCTATTTAAAGTAATTTTATCTTTAACTTTATTAGATATAATAAAGATTAAAATAAACAATGATGCTCCCATTGCAGCTAAATTAGCACACCCTACTTGTAAGTCAGGTGTTTCTTTTGTAAAAAATGCATAACTTGTTCATATACATGAATTTAAAAAAGTTAAAAAAAACATTATTGGTGAAAGTGCTTTAGTATTTTTTGTAATACAAACTTTAATAACTTGAGGCATTAACATTGAAAAACTTGTTGCAAATCCAATTCATCCAAGAATTAAACTAGCCATTTCTTTACTTTCTGATGATAACAACAACATAATAAAAACCCCCTTAACTTTTTTATAATAACAAATAAGTTTAGTGGGGTCAAATTGGAGTGTTTAATGATTGTATAAAAATAGTAAACTTTATAAAATAAATTGAAAGTTATAAATAAAAATTTCTAAATTTAATTATCTTTTCAAATATCACAGCAAATTTTTGTTAATTGTTCAGTTCTTTTTTTAATATTATCCTCATAAAAGTTATTAAGTTCTCTTAAATCCATTAATTCTAAAGTTTCATCTTTATAACCTTTAAACTGATAAGAGCTGAGGATTTTGCCTTCCTTTGAATACTCATAAATTTTCTTATTAAAAGTTTTATTTTGAATTTTTGAATTTGATTTACCTTCAATACACATTAAATTACCTAATTTATTTAAAAATTTAGTTTTTCATCTTTTAGCTTCTTCTAATGATAATTCGTGATCACTTCATACTATTATATCTTGATATCATTCCTCATTAGGTTTTTGAGGAATTATATGTTCTAATGTTCTTTTTTCATATTTAGTGTCAATATAATTATAATCGTCTCCAAAAAAGTCCTTATTATTCGATAAGTAATTCTCAATTCTATATCCAATAAGAGTTGCTATCTTATTGGATATATCATACTCTCTCAAACTATTTCTAAATCTTTCTAAAGAAATTCTATTATTTGATTCATCTTCATGTTCACCTATAAATAATTTTCTTATAAAATCAGGAGTTATAATTCCATTTCCTAGCTCTTTTAAAATATTAAAATCAATATATTGAGAAAGGGATTGACCTTTATAATTAGAAACTTGAAGTCTAACTTCATATTTTTCAATTTCAAAAAATACTCTTCTTATCTGTTTTGTAATTTCTTTATTTGTCTTATTATTTTCATAATCAAAATTTATTAAAATTTTCATTAATAGAGGATAATAAATTTCTCTGCCTTCTAACATAGTTAGAATATCTTTAAATCTATATGTTAAGGAGTCTGCTTTATTAAATGAATTAGAGTCTGAAACAGAAATATACATATCAATGTATTTACCTAAATCTATAAATAACTTTCTAGATTCTTCAAATGATTTTAAGTTTCTATTATTAATAAAATCAGAAATCAAAGTTTCTTTAAAACTTTCAAATGCTGATTTTGTTGCATATTGTTTTTCTTTTAATCTTAAAAATACATTTATAAAACTATCCATTTTTGATGTAGGATTCTTAAAATCTTTAAATTTTGAAGTAATTTCTTCTTCAAAAGTAAATTGTAACTGCTGTTCATGTTTATCTACTATTTGTTGATCTATATGCATAAACAAGAAGTTTTTTATTAAATCCATAGTAGAGAGTTGCAAAGATTTAGTATTCAAGTTTTCAAATAAAGTATATTCATTTGATATATGATCTGTAGTAACTGAAAGAATTAGCTGTTCATAAATTTTTTTTAAAAGATCATTTAAACCTGCTTCATTAAAATCTTTAATAATATTAAAAACTGCAACTGAGTTTGTAAATACTGAAGTTGTAGTTTCTTGAATTTGTTCACCTTTTATAATATTATTAAATGTTCTAAAATCACTGTTAGTATCTATTCTTTTAAAAGTTTTTGATATTGCATTTTCATCATACTGATCAAGAACAAATAAATTATATAAAACATCAGGTATTTTATAGTCCTTCATTAAATATACATTATATATTTGTCTTAAAATTATTAAACAAGTTGTTAATCTTTGTTGTCCATCAATTAATTTATTATTCAATCTGTCTCTAAGAGGCACAAATAATACAATACCTCCAATATAATGATATTTTCCTTCCTTTAGATTTAGAATGTCATTTAAAAGACCTGTAGCAAGTTTTTGTTCTCAATTATATTGTCTTTGATAAATAGGAATTGCAATTTTTGAGTTATCTCCTGTTTTTAAAAAATAATGATTTATAAATTCTCCAAAAGAGTAATTTTTTGAGTAAATCAGCTCTTCATTATTTCAATTCATAGGTAAATTTATAATATTTTCTTTATTAACTTTAAATTTTTTAAAGCTATCATTAATAAACATATTCTCTATATCATTAATTTTGTAATAATTCGTTCATTCCTTTTCAAAAATATATTTATAGCAGGCTTGAATTATTTTTTTATTATCATAAATCCCTTTTACTTTATATGTTGTTAGCAATCTTCTAAGAGAATCATTATTTTTTATATCATCTAATCCTTCAATTAAAAAATCAGCTTTATTATCACATTTAGAAATAGCTTTATTAATTCTATTTTTTATATTTTCATCGTTATCATCATAAGTTAATTCATTTTGTATTAATGTAGCAATTGAAAATCCATTATAAAAAGTATGTTCATTTTTAAAACTATATTCAGTATAGCCATTTAATCTTTTTTCAATAATTTCTCTTGCTTGTCTTTCTAAATCTTCATCAAAACTATATTCAACAATAAAATCATATTCAAAAAAGGTATCTAGCTTTTCAATAAATTCAGCATTTTTTAACTTAATAAATCCTAATGTACATCAAACTCTTAGAATTTGCACAAATGTACTTCTATCTCCTTTTTTAATTATGTTGGTATCTTTTTTATTTATTTTAACTTTTAACTCTTTTCCAGATGGAGTAAGAGAAAAATTTACTATGTCTCCTTTTTTAAAACAACTAGTTTTTATATAATCATTTATATAACTATTAAAATTTGTTGCAATATTTCATGCGCTTCCTGATCTCATTAATTCTTTTCCTCTTTCATCATATTATTGAAAAGAGCTACCAATACGTTTACTACAATTGAATTTCCTGCTTGTCTATAAAGTATATCTTTTCGTTGATTAAATACTGTAGCCTTTTCAAAGTCTTCTTCTGTAAATCCCATTAATAAAAAAGTTTCTCTAGGAGTTAAAAATCTGTAATTGGATTTGCCCGTTTTTTCTAACTCTTTTATTATTTCTGTTTCCTTGAGAACAACAATTCCTGCGTTAGGATGTCTATCTTGTTTTGTTGTGATAGTTCTTACAAAACTAAGATATCTATATTCTCCCTTTATAACCTGAAACACTTTTGGATTCTCTTTGTACATTTTTCTTCTACTTGGTGTATTATTTGGTGAACAATTTTTAGCTTCTTTTTCATATTTTTTTATTGAATAATTAACTTTTAAAATTTTTTTTAATTGTTTATTAATATTAAATTCCTTAGATACATCTTCAATATCATCTGAATCATTTATAAAATTTTCTATATCCAATAAAATTTCTTCATCTTTTAAAATACTAATTGCAAATACTCTTTTTCTTTTTTGTGGTATTCCATACTTACTTGCATCTAATATATAAGTTTTTGTTTCATAACCTAACGAGGCTAAAAACTCTAATCATTCAATATAATCATCTTTATGCTTATTAGAAATCATATTTTTGACGTTTTCCAATAATAAATATTTAGGCAACTTATTAAGCTTTTTTAACTCTTTAAGTATTCTTTCAATTTCTCATAACAAACCACTTCTAGTATTTGAACCTTTTGCCATTCCTTGATTAAAACCATGAAAACTTCCTGCAACAGATAAATCTTGACAGGGAAAAGAATAAGTTAAAAGATCAAAATCACCAATATTATTAATAAGTCTATTACCAGTTATTTCTAAAATACTTCCTTGATTATTACAATTTATTAAAGAACTATATAATAACTCTCTAATTTTTCTAGGCTGTCTTAATACAAACTTTTCATCAATTGGTTTTTTTCCATCATTTGAAAGAGTATATTTTGTAATGAAATTATTAATTTCTTCATCACTTAATTTTTCAGCTACATTTTTATTATTATGATGTATTGCATTATAACTTAAATTTGCTCAAATATCTCATTCACTTGTTCCAGCTATTTCATAGTCAAATCCCACTATATTCTTTTTAAGTATTTCTAAAGCTTTATGTTGCGCTCCTATACCTGCAAATGTTTCAAATACTCTTAATTTACTCATAAAAAAATACCCCGTTAAGAGTAATTTTATTGTTTTTTTTTTTTTTTTGCAAGGGGTTAATTAGCTAATTTTAAAAATAAATTTGGGTTTTTTATGGGATTTTTTTTCAGACCCATTTTCTACTTCTTTTCTATCAATTATTTTTTCAATTTTTCCAATAAATACTTTAGCTTTATCTCCCTTTTCATTTCTAAGTTTTTCATCTGAAAAGAATACATAAGTTTTATATTCCTTTAAATTCATCATATTTCTTTGCATTTCAGTAATTTTGTCCATATCAAATTTTCAATCATCAGGAGTATCTCAATATAAAGTTTGATTTTCATAATCATAAATATTACCGTGTCCAAATTTTGTGGAAATTGTATTAGTTGAAGCATCAATTGCAAAGATTTTATCTTCTTTATTACTAATAATTCCCCCTACACCTTTACCTTTAAATTGATTGTCTTTTACTGTAATAGAGCATAATGCTTGAAATTGATTATGATTTAAATGTAAACCTTTAAAACTTTCAATTTCTTCAGTTAGACTTGTTGTTAATAATTTTTCATTGTTTAATTTAAATTTAAGTAAATATTTAATTTCTTTTAAAAAAAACTTATTTTCTATATTAAAAATAGTTTCAAAAGCTAAATTTAAATCATAATAAAAATTATCTTGTTTTGTTGGTGAATGATGAAAAGAAACTAAAAATATTTTATTAATAAGCTTATTATTTGAAATCTTTTTATTTTCTATTATTTCTAGAATCTCTTTAATTAAGTTCTTATTATTAAAAAACATAAATTGGCGAATTCTTGTTTGGTTATTAGTTGTTAAGTTTTCTCTGAAATATGCTTTTTTAAGATTATAAAATTCATAGATACTGACTTCCTTATCTCTAAAAAATGATTCATAATCTTCAAATACTCCAGTTCTATATTCATCAATAATTGATTTATATAAATTATGTTTTTCATATTCTTTAAGTTGATTCAAAAAATCTTCTTTGATAATTTTTGTAAGTATAAAATTAGAATCACCTGGTAAAAAATCGTTAATATGATTTATGTTTTTCTCAAACTCATTTATTTTTAAGTCATTTGTAAGAACATTAAAAGCAGTTAAAGGATTATAATTTTTATTTACTTTAATATCAACATTATTTACAAAATCATATATTTGCAATCTCTTGTCAGTAACTTTTCTCATTCCTCTACCAAGTTGTTGTAAATAAATAAGAACAGAAGCAGTTGGTCTTAAAAACATTATAGTATCTATTTCTGGAACATCAACACCTTCGTTTAAAATATCTCTTACACAAAGAAAGTTTATTTTTCCTCTTCTAAAATCATTTAATATTTCTTTTCTTTTCTCTTTTGTTATTTTTTCAGAAACTAAAAATTCACTTCTTTCTCCCTTTTCATTTAAAAAATTTGATAAATCACGTGCATGCTCTATTGAATTACAAAATAATATGGCTTTAACATTTCTAGAATTTGTACCTATATATTTTTGTATATTTTTATAAACAAATTCATGTCTTTTTTTAATATTTAAAACTTTGTTTAATTTATCAGTTTTTAGAATATCTATGTTTGTCAAATCAGTTGAATCATCTTTTATAAAAAAGTAATCAAAATCACATAATAACTCTTTTTCAATAGCTTCAAATAATCTTATATTTGCTGCATATTCATCATCAAAAAAAATATTTACATTTATATTATCAGTTCTTTCTGGGGTTGCAGTTAGGCCAAATACTTGTTTAGTATTTGGAAGTACTAAAGAATATATTTCCTTAAATGTATCTGCTTGAACATGATGAGCTTCATCAAAAACTACAATATCAAATTTTTTATTTCTTAATTTTTCTTTTCTTCTTATTAAAGTTTCTGTATTTGTAAATATTCAATTTTCTTTTGATAAATCAGCATCATTATTTCTACTATCATAAAATTCCAATCCAAAATCATATATTTCAAGATAATCTCTAAAGTCTTTAACAGTTTGATCAAGTATTTCTTTGGAAGGTGCTATATATAATAAACTTGGTTCTTCTATTTCTCAAAGATTTGCAAGAGCTTCGTATGTAAAAATCATAGTTTTAGTTTTACCTGTTCCTGTTGCCATAACAAGCAAATGTTTATTTTTTCCATTATTTACCCTATTTAAAATATTGTCAACAACTTCTTTTTGATAACTATATGGAGTTATAAATTTATTTTTTGCATTTATTCTTTCAAAATGCTTTGACCTATTATCTTCATCTTCTCATATAGAATTATTAATTTCTTCTCATTTATCATTTTCAATTTTTTGACGTAGTAGTATATTTTGAATTTGTTCATGATCTTTTATGTCTATAAAATCAGTTGAATTAAATAATTGATCAAACTCTTCTCTATAATCTTCAATAATTTTTTTATCTTTAAATTCACTAATTCTTAAATTATGTTCATTGCCAGTTATTAAACCAGTTTTTGTAAAATTACTACTTCCAATATATAAAGAACTAAAGTTATTTTCTCTATTAAATAAATATGACTTTATATGTAATCTTTTTGCACTTTTTTCAAACAGATTTTCTATTTTAACTTGAATTATCTTATTATATTCATTAGCTAGTTTTATTAAATCTTCTAAAGCTAAGAACTTTGAAGTTCCATCATATGTTGTTGTTATTATTTTTAATGATTCTATATTTGGATTATTTACTAAAATATCTTCTAACTTATTTATCATGTGTTTTGAGATAAATGGTGAGATCATTTGAATATCATTTGAAGATTCAAATTCTTTTTTTAAATTAGATCATAACTTATTTTTAATAAGTTTGTTTATACTTATTTGATCTAAACTATTATACTTAACATCTTTTTTTATTGCTTTTAATGAAGTTCATTGTTCCTCATTAGTTAAATTATTTAAAAACTTTATTTTATCTTCTATTGTTTGAAAATTAGATAATTTATCTTTAATTTGTCTAGAAAACTGATTTATTAATCAGTCATCATCAACATTTTCTAATTCTCTAATATCATCTTTTTGAAAAAACTGCAGCTCGTTTTCTTTAATTAAAAGATCATATATTCCCTTTTTAAACTTTTCCATAAAAAATACCTCTATATAAACAGTTTAACAGGATTAACTTTTTAAATAAATACATAATAAAAAAAGTAGATAATCTACTTTTTGTTTTAAATTAATTTATTTTTTTTGCCTCAATTTTTTTTTATACTAATAATTCTTCAGTTTTTGTTAAAAAATCTGAGTTTAAATCAAATAATGATAAATCAATTTCAGAAGAGTATGAGTTTTTTCGATCATTAATATCTTTTGAATTTAGCAAAATCATATATTTTTTAATCTCTAAAATAAGATTTTCTAATTCTTTGTAATTGTCTATTTTTTCATTATCATTGCTAATTAAAGCTACTTTTTTATTTAATTCATTAATTTTATTTTGAATTACATCTTTAATTTCCATATTTTTAGAATTATTTTCATTAATAACTTCTAATTTATTTTCTAAATTCTCTGGATAATATTCTTCTAATGTTAGATAATTTGTTCCCTCTTCTTGAGAATTTAATAAGTTATTTTTATTATTGTAAGTATATTTTTTTAAATCATTAATATGCAATACTGCTTCATGAAAGTATTTATACTTTGCCATTACAACATTGCCAATTAAATTAATGACCAAATATTCTTCTTTTATTTTTTTAATAAAATACATAAAGTCTCCCCTTTAAATAAAATTGATTTTACCCTAACCATTGCTATTATATCAAATTCCAAAGGTATTTTATTTTTAATTTTTATTAATATTTTACAAATAAAAAATGTAGAATAATCTACATTTCATAATCTACATTTCACAACAACCCAATAATGTTGCATCTTCTAAATCTTTGGCAAATTCAAATTTAACTTTATAATTTGCATCTTTTGTTACTTGTCAAACTTTCTTCATGATTTCTGTTATAAATTCTTGATTCTTTATAGCAACACTTCCCCCAATTACAATCATTTCAGGATTTAAGAAGTTAATTGAAGTTGAAAATAAACTAATTAGTTGATTTTCAATTTTTGCAAAAAACTTATTTACAGTTTCATTTTTTTTGGTTTTATACAATTCAAAAGCTTGTTTGGCATTTTCTACTTCTACTCCAAGTTTATTCAATTGAACACAAATGTTTTTTCCACTTGCTTGAAATTCAATACCACTTCTTTGTGGATTTTCACTTTCTCAACATGGAAGTGAATTTGCTATTTCAAGAGCAGTTCCATTATATCCTTGAAATATTTTGCCCTCATAAATAAAACCTGCTCCAATTCCTGTTGAAATTGTAAAATATAATAAAGAGTGCAAGTTTTTTCTAACAATATATTGACCCAAAGCTGCTATATTTCCATCATTGTCTATTTTTACATTGTCAATCTTAAATAAGTCTTTAATTTCTTGTAAAATGCATTTTTCACTTCAATCTGGAAGATTGTAAGTAATTAATATTGTTCCTGTTTTTAAATCTAAAGGTCCAGGACAACAAATACCTATATAGTCAATTGTTTCATTTCAAGATTCTACTGTTTTTTTAATGTAATCAAAGTTACTTTTTCTGTCATTTGGATTAGTATCCATTACTTCTTTTTTTATTATTTGATTTTTGTCAATTAATGCAAATCTTATTGAAGTACCACCAATATCAATAGCTAATTTCATTATTATTTCTTGTCCTTTTCTAGTAGTTTACAACTATTCTTAAATATTCTATCAAAATTAAAAGAAACAACCACAAACTATTGTTAATAAACCTGCTACAAAAAAGATTATAGGAATAGTGTCTAAAAAGTATTTTACAATCCCTCTTTTTATACAAAAAATGCTTTTTGTTTTTTTTATTAAAAAATATATTAAGAAACCCAAAGACATTAATAATAGTCCAAAAAACACATATATTAATATACTAGTCATATATTTTTCTTAAATTCCTCATATTTTCATTGCAATCATATTTTGAAGTGTTTATAGCTCTTAAAAGGCTCTTATAAAAAGTATCAATATTTTTTAATAATAATTTATTGTCTAAATTCTTAATTAAAATAGTTAATAAGAATACTATTTATTTTTTAAAAATAAATGTAACTGTTTTTACATTTAAATTTATTTTACTCCCATAATTAATAATAAAAACTCCATCTTTAAATCCTTTTGAAGCTAAAATATCACAAAATTCTTGTACTCCATATCAAGTTAATTTGAATTCTTGAGTTTCTTTTAATTCATTATTGATGAAGTAATCAATTTGATTAATTGTGTATTGCTCTATTCAATTAATTTCTTTTGATCAGTTTTTTACTAAAACATCTTGATTTTCGACATAATGAGTAGATTCATGTTTTGATCCTGCTCTAAATTCAATTGGCAATATTAAATCGATTATAAGAGTTCCCTTGTCAGTTAAAGATTGATAAAAGTTATCTAATACTTTTAAAGCTTTTTGTCTTGTTTCTAGCAAGTTAAAACTTGCATTAGGCATTATTATATATTCATATGTATTTTTTTCAATATAATTCTCCAAATCTTGGCAAATTAAAGTTGCTTTTAAGTTTTCTTTTTTTAGATTTTCACTGCAAATATCAATCATTTCTTGAGATTTGTCAATTCCTACAATATCTACTTTATATTTTAAAAGTGGAATAAATAACCTTCCATTTCCAACACCAGCTTCAAGTATTTTTCCATCAATTGGTAGTAATAAAGACTTGTAAAACTCTAAATCTTTGTCAATACTTGTTCCTGGAGGCTTTGTTGCATTGTAAATTAAACTACTTATTTTCTTATAATGATTTTCCATGAAAATTCCTCAACTTTTTTTCAAAATTCTTTTAAAAATAATAACATAAAATAAATCAGAATTTTTCTAAACTATATAATTTATTTATAGGGTGCAGGGTGGGTTTCGAAGAAAGGCTAATAAAAATTAAAAATAAGAAATTCAAGTTTATGATTACAATGTAATGTTTTCATTAATAACTTTAATTTTTAATATAAGTAAGATTTAATTAACTCTAATTAAATATTGCTGAAATAAATAAAAATGGATTATAAAGTCTATTCCTTATATCTTTTAGAGCAAGAAATATTCCTACCAAATATGTTTCATGATTACCTGATATGTAATCCGTTTAAAAATAAGTTAGCAATATATAATAAATTGAACTGTATAAAATATTTTTAACTGCCAGACAACATTTTTTAAAAGAATCAAGTGAAATAGATTAATCTGTGAAATAAAGAATTTCAAGTACCATAAATTTTTCTTAAATCATAAAAGTTAAATTTTTAACAAGAAATTTAAAAAATATTGAAAATAGATAGAAAATACAGAAAATAATAAAACTTGCAATTAAACACACAAATTCATATATCAATTAGCATGCATAATACCCACTGGTTGATGTTTGATCTAATTTGAATTTGTATTTAAATGTATCAGTAAACCATATGATAAATTAAATTATGTAAACTATATTCAAAATAAAAGATTTATAAATAAATTTTTTATAACATTAATTTAATAAATCAGTTTAGAAAACAAAGAGCTTCATAAAGCAGTAATACATATAATGAATTAAATTCTCTGTTACTATCATTAGTTTTAAAACTAATTGGCCTTTCAGCTTTATAAATTTTATTCATTTTTTAATAAAAATATTCCTTTTTTTAAACACCTTAATTGGTGTTTTTTTTATATAGATTTTAAAAACTATATTCATTTTTTACTAAAACTTTAAAAGTAAATTCAAATTAAAATATTTTCACTATAGTTTATTGTTTAAAAATTGATTTGAGAACTTTTAAACAAAATAAAAACCCAATGTAAATTGGGTAAATAAGAAACTTAATATTGTTAAATTTTAGATTAAATGTTATTTTTATCTATTAAAAAATAACATAATTTTCTCAAAGTTTAAATTCTTGTTCTCTATCAAATTTTATTTTAATTTTAATTATTCCAAATAAATTTAGCATCATATAATCAAAATTTTGAAATAGTTTGTAACTGTCTTCTTTTATTACATGGAAAAAAGAAGATGAATTTTTGTTTGGTGTTAATTTAACATTATTGGCTATATTATTGTCAATATTTTCAATTGAGAAATATATATTTTTTTCTTTTAAAACTCTTTCAGATAGTTTTACTTTATTTAAAAAACTTAACTTTCTAGTATGATATGTTTCTGAAAAGTCTTTTAGAAGAGTATTAAGTTCAAAATTGTTTAAAGATTTATATTCTCCACTACTATTTCAAATAGTTGAATCTTTATTTTCAAAAAGTAAATCAAAATAATAAAAACTAATCTCGTTTTCAAAAGGTAACATTCCCTCATTTTGAAAAGGTGCAAAAAGCATCTTGTAAGTTTCAAATAATTTCATTGATAAATCTAAAAGACTATCATAATCTAAATCTCTTACTCCATTCATAGAATAAGAAATTGGCAATTTAAAGTCTAGTAATTGATGATTATATGCTAACTCTCCTGATCCTATTTTAATACTTGGACCTGCAATATCAATATAACCCATTGCTATTGCCAATTTATAATTTTGTGTTTCTTGGAATTTTAATATTTCACTTTGACTTAAGAAAGTACTCAAGAAATTATTTTGAATCACACTATAATCGCTTCTAATTTTAGCTCAATTTCAGAAATGAAATTGTTCTGTTAGTAAGAAATTATTAATTGCATCTTCATCTCCTAAAAGTAATTTATTAACTTTTTCATGATCTTCTGTTTTTGTTAGATCAAAACTTATAATATCATCATTACTCGCATATAAATTATTTATAATTAGAGAGTTCATATTTTGTTGTTCAAAACTTTAAGTTCTGTAAATACTTTCTTTATTAAATCCAATTTCCATTGTAGGAAATTCGTTTTTAAAATACTTATCTTTAATAGTTTTTATCAAACTTTCACTAAATGCATTATTCTCATTATAATATTTTTTTAATTGATCATTTGAGTTTAAATAAGCATCAGAATCACTATTGTCTCCTTTAATATCACTTCATTTTAAATTTAAATAATTTTCAGTTTCACTTGAAATAAACATATCCTTTCCAATATTTTTATACATTGTATCTCCAATGACTTTAAAAGATTCATTATCTGTTGAAGTATACTTCAATGTTCCTGATAATTTAAAATTTTCTAAATCATCTAGTCCTTTATATTTAGTTACAATTTTATAATCAATAATTACATTTCCTATGTAACTGCCAGGAACTATTTCTCCTGAATTAATTTCAAAATTATCATTAAAAAGTAACTCTATATGATCAAAAACTGAATCAACTTCATCAAGAATTATTTTATATTTATTTAATTTTTTAAGTTCGTTTAATTTTTCTTCTAATAAATTAATTTTGAATATTTTTCCTATATCAATTGCTAATTGTTTTTTATTTTCATTTGTTAATTTATCTTTTCATTCTGGATCTGAGAATTTTAAAATATTTTCTTTAAATAAAAACTGATTTCCCTCTTCCATACTTCCAACACCAATGAGATTGCCAACAACCTCTTTTTCATAATGTTGTGTTCAAACTTCTCCCACTTCTTTTTCAAAATCTTGAACAGCTTGAGTAATATCTTTTTTAGGTTCTTCTATTCCAGAATTACCATCTTTTTGTTTTGTACCACATGCAATAACACTAGTAGTTGTTGAAGCAACAATGCCAATTGTTGCTAATACACTTAACGATTTTTTCATTTTTCATTTTTCCTTTTTTAAAGAGCCTTAAGAAATAAAATAAGTATCTTAATTGATATTTATAATTATATATATTAAGGAAATAAAAACCTTTTTAACTTTTCTTAACCTTAGACTACAAAAGGAGTTGAAAAAATAATATTAAAATGTGTATAAAATAGCTCGTAATTAAAAAATAGACATAAATACGTCTACTCACTTCATATTAAATTTTAAAATTCAATAATCTTTATCATATTTACTAAATACTTTTAGCTTTTAATGATTTTATTTTTTGACATTAGAATTAAACATTCATTTTCTTTATCTAATTTCTTATAAAAAATTGGTCCTGCAGCTTTAATTTTAACTCCAAATCTTTCAGTTAATTTATCAAACTCAATTTCATCTAGCATTACATAAGTTTCATCAATTTTTTCTACTAATAGATAAGGATCTTCAAACGCATCCAAAATTTTAATATCTGAAATAATATTCTTTGTTACTTTTATTTCCATTCTTTGATATATATACATATTTATAACATTCTTTCAAATGTATTTTACTAAAACTAAATGAAAAAACTCAATAATATTGAGTTTTTTAATTAATATACTTGCCAATTTCTCTTTTAGTATTTCTAATTATTGTTTTTCCTGCTTTTAAAGCTAATTTTGTACCACTTGCCATAACAAATGAATTTTGCACATTTTCTAACATTTCAAAGTCATTATCTCCATCTCCTGATGAAATAATATCTTTTGGATCAATATTGTATTTCTCTTGTAAATACTTTATTCCAGTATACTTAGAAACATCTTGGTGCATTAATTCTAATACAAATGGAGAAGTATGCAATATTTTAACATCTTTTAAATCTTTAAATAAACTTCTAATATAGTCAAAATCTTGAGTATGTGCATAAAGAGCAACATTATTTAGTTTTTCATTTGTTAAAACCGTTTCAATATATTCATCAAATTTATCTTCTTTTTCAAATCAAAGAGGAATAACTATAGTTGCTTCATATCTTGGTTTTTCTTCTTTTATACCCGATATTTCAATAGCATTTAAAGTATCTGATAATTTAATACCACAAAAATTATGTAATTTTTTTAAAGCATCATAAATTTTTTGTCTTTGTGTCATAGGTATTGAAAGCTCATAAAGAGTTTTTTGCCCTTTAAACATCGCAGCTCCATTGTTAGTAATTTTATACTCAACATCAAATCCATGTTGTTGTACTAACTCATTTACATGATCAATATCTCTTCCTGTTGCAATAATAAATTTATTTTCTTTTGTTCATTGTTTTACAAAATTTATATCTCTTTCAATTAACTCATAGTTATTTTCTTTTAAAGTTAAAGTACCATCAAAATCACTTATTCATCATTTCATATTTTTTTATATCCTTTCACAATTAAAAGGTATTCATATTAATACCCTATTAAAAGTATAGAACTTTAAAGTAGGTTTAATGCAAGAGTTTTTTAAATAAAAATAAAATATTTTCTATTAACTGTATTTACTTAATTTAATAAAAATAAAATAAAAAAAACATTTTCAAGTTTGAAAATGTTATTTATAAATAAATTATAAAGGTTTTACTCTATTAAATATTAAATGATATTTTTTTAAATATAATTGTTGATAATCAAGCAAGTGCAAAAGAGATTGAAATAGAAATAACTATTAAAGAAGAATAAGATGCTTTATTTATTTCTTTTAAAACTGGTGTTTCTATAAAAATAATTCTTGTTGAACCACTACCTATTATTTCTTGACTTAATATATATCTTACAGGTTCTGCATCTAAATCATAGTTAAAAACATTTGTAATAAATGCTTGTAATCCAATATAATTAATTACTATTTTAAAAGCCTGACTTTGAGAATTACTAACAAGATAAATTAACTCAAGTATACCTATTAAAATAAAGTATCCCAAAATTAAAGATGCAATAACATTAAACATTGTAGCTCTTTCTGTTAAAAGCAATGACATAATAAAAAATATTGAACTTAACATTATTAGAAAAAAGTAGATTTGAATAAATCCTAAAACTATATTATTATAAGCATTTTTTGCATCTTGAGTAAAAGATGCCATTATCAATAATACTATAAGAGCAGGAATATACATCACTGTAATTACTAAAAGTAAAAATAAATATTTCATAAGTATTATTTGAGTTTTTGTTAAGGGTTGTGTTAGCCATAAAGAAATTTGTGTAGAACTTATTTCTTTTAATAAAATTTTATCTATAAAAGTTATCATAACAAAACCATAAATAGCTAAGCCTAAACTTTTAAAAAAGATATTATAAATCAGTTCTAAAGGTATCATTGATTCATAAGTTCCTGATATTGACCCTGATCCTGATAAAGAAGATTCATATATTGATCCTCTTACTATTGTAAATCCTGAAGAGATTAGAGGTAGCATAAAAATACCTACTATAAATATTGTAAAAATTGCTACAGTACTAACAATTAATTTTCAGTGAATTTGAAAATAAGTACCTATTCCATTAAATATTTTCATTAGAACAAATCCTCTACACTATGATTTTTAAATAATTTTACAAAATCCTCTTGGATTTCTTTCATATTTGTCTCTTTAGTATTATATTCTTTAATTAAAACTCCTTGTTTTATAAATCCCACACGATCACATAACTTTAAAACTTCATTAAATTCATGAGAACAAATTATTATAGTTGTTTTAAAGTCATTTTTAAATTTTAATATTAGATCATAAAACTGAATTGATATTGCTAAATCTAAACCTCTTGTTGGTTCATCTAAAACTAAAAATTCTAGTTTGTGCATAATAGCAGAGATTATAGCTGTTTTTTGTTTCATGCCTGTAGACATTTTTTTTATTTTTTTTCTTTGCATCTAATTCGAAAAAATTTAATAGTTTTTCTACAAAATTTCAGTCAACATTCCGTTTTAATTTAGCAACTATTTTTAAGTATTGTATTCCTGTTAATCCATCATATAAAGCAATTTCTCCAGCAATATATCCTGAGAAAAACATTATTTCTTTAGTTTTCTTAAAACTATCAAAATCTTTAACTGTAATTTCTCCTGAATCTGGTTTTACAAAACCTAAAATTTGTCTAATAAGAGTAGATTTCCCTGCTCCATTAGGACCCATAATTCCATAAACTTCATTTTCTTTAACATTTAAAGAGATATCAAAATTTCCTGTATTTTTACTATATGTTTTTGTTACATTTTTTACTATTAACATTTTTATCCTTTCTACTTTTTATATTAAAATTATCACGCTTTATATCTCACTTCTGTTGCCTTCACTGTTCCAGCAGATCAGTATCAGTTAGAACCCACTCCATAAGCGGCAATTTCATATTTTAATTTAATTTCTAAAGTATTCTTATTTTTAAAATTAGCATAAACATATGCTTTATAATAATTTCCTCATTTAAATCCACCTTTATCAGATTCTTTATGTATAATTTCAAATCATTACCCCATACTTTCTCTTAAGTTTCAAGTAAAAGTACGTGAAGCACTGTATACATTTTTATTTTTTATATATTCATCTCAATCCATGTTTTTTCCTTTTTTAAAGTAATACTCTTCTTCAATTACTACTGTTAAATCTGCATAATATTTTTGTAATAAATCTTTTCCTCCAAATTTAGTTAAGTCAATTTCAATGCTTTCTTCTAAAGGTTTAACATTTATAGTATGTCCTCCTGTACCTCATGCTTTTCCAACAGCTCATGTTTCAAGACCCAAATAAATATCATCTGTAACATCTTGTGCTTTATTATTTAGTAAATCAATGTTTTGTGATTCTATATTTTCATTAATATAATTATTTTCTCGTTTATTTAGTTCAAGTCTAGTTGTATCAACCATTGTTGATGTTAAAGGTGTAGTTAATGTTACTACTCCCAAAATTGGTAATAATTTTTTCATATTGTTTTTTCCTTCTATCGACTTCTCAAGTCTAATTTAATTATATATTAATAACACTTATTAAAGTTTTTATTATAAAAAAGTGTTAAAAACACAATTAAATTAACTTATAAAATAAAATTTAGTTTCAATATAAATATTTATAATAAAAAAATAGTAGCAAAAAGTATTATTTAATATTGTAAAAGTTTTATATTCTATATTATTGGATTTTATTTTTTTTATTTGAATAATATAAATAATAATGAAAGTACAAATAGATACTATAGATATTAAAATTAAAGACCAACTTAAAACAATATACTTTTTATATTGTTGTAATTAATTTTCAATTTGAATAGTGAACAAAGTATAAAAGTCTTGCTATAAATACTAAACAAAAGTAAATATAAATATGATAAAAAATAATGTAGAAAACAAAAAGTGCTATAACTGAATTAGTTTAGAAATTAAGCATATCTGCTCCTGATATTGACACAATAAGCAAAAAGTAAAATCCAATAAATTCAAAAAGAATACAAGCCTCTATTTCATTTAAAGTTTTTACTTTCATAACTTTCTTTGAAAGTTTTTCTCGTTTTCGATAATCACACACTCCAAACTATTATTTTATAGAATTTATCAAAATATTATTTTTATAAATATTTTATCTTGTTTAGTAACAAATTATATTTCTATCAAAAGTAAATTCTTTATACTCAATATTTTTCTCTTTCCTTTTTTTTGATAGAAATAATATAGAAAACTATAAATATACAAATAGAGATTATTGGCAATCATATTAAAACTTTACTTAATTTTATATTTTTATTCTCTTCTTCGAGTTTTGAATTTGAATAGTGCAAAAAAAGATAAGTTGATATCTTTGTAAAGTATCAACTATGATTATCATTGCTACAAGAATAGTAGATAAAGCAACATATACTACATCCAGAGTTGAAGCAAAGTCAATTTTGGATTTATTAAAAAGATTAATAAATAATAATAAGAATTTCAGAAGTAATAAATATTATTAAATAATTTATGGGTTTTCTTTTTTTAATTGCTTTCCTAAAAATTATCTGTCTCTCTTTTTCGTAATAATTTGTATGCTAGAAAATATTGTTCTGAATAAATTTAAAGATTAATATTATTTTCTACTCTATTAGAAAATATAAATATTTAAACTCTCTATTTTTTTTTTTTTTTTTAAAATACTTAAAGTTTTTAAACTATACCTTCTTCGAATCTATGATTTTTATATTTAGCTTACATTCAATGCCTACAATTGATTTTTACACTTATAAAAAGAGTTTTATTTTTATAAGTGTAAAAAAATAAAAAACCAGCATAAAGTTGGTTTAATTTCAAACTATTAATTTATAAAAATTATTAATATTCTATTTTTTATAAGTTCTCTAATAATAAATTATATTTTTTTCAAAAAGTAAATTCTTTATACTCTATATTTTTCTCCTTCATTTTTTTAATAGCAATAATATAAAATGCTATAAATAAGCAATTGGATATTATTGGCAGTCAAATTAATGCTTTACTTATTTTTATATTTTTATTATTTTTTTCAAGTTTCTGATTTGAAAAATATAAGAAATTAATAAGAGAAATTCTATTTAAAGGCCCTAATATAAAATACAATAATGTAACAGTAATAACTAAGATAGAAAATACTATATCTAGTTTTGTTTCAAAATTAAATCTAGTTTTTGAAAAATCTATAAATAGTCATATTAATATAGCTATACTAAAAACTTCTGCATCAATACATATTAAAAGATTCCTTACAGGTTTTATTGTTTTTATTTTTTGCATTTTTATCCTTTTCTATAATGAATTAACACTTCACACTATTAAGACTGTAGCTCATAAATATACTCCATTGCCTCTATTTGCTGATTCAATTCTATACACTACATATTGAATTTATAAAGAAATAACTAACAAAATTTTTGCTGCTATTCAACCAATTTTTGGTATAAAACTAGCTATAGCTGCAGCAGTTCTTGTTGCATCTTGAAAAACTTTTGCATAGCGACATAAAACAATAGTAGCTTCATAATTAAATGTTGCTTTATATGTTCCAAATCAATATCACTTTGTATAAATTTCTACTCTAGGAGCATTTGAATATAGTTGATATTCATTCTTGTTTTCTAAATTAAAGCTAATATTATTGTTTTGTTCTTTATATGGTAAGTATTCTACCTTATTAGCTTCTAAAACAAAATAACCTTTAATAAAAGCGTTATTAAGTTCATTAATAAATTCTTCACTTAAAATTAAATTTATTAATTTATAGTTATTTGTAAGTTTTTTTAAATCATCTTTATAAATCTTTAAAATATCTAAATTTGAGTCATATTTTATTTCATCTAAAATTTGTTCTTCCAAAGACCTGTTTACTTCTGAAAAAAAGTCTATTTTGTCACTATTAAATATTTGTGTTAATTCATTAACTATTTGAGAATATCCATTGTTAGATTCTAACTGGCTTTTAAAGAATTGAGTAGTTTTATCCTTTTTTATTCCTCCAAAAGCTGCAACAGATGAACTAGTAATTAACATAGCTGACGCCAATGTTCCTAAGAAAATTTTCACAAAAATCCCTATTTTCTTTTAGATCAAGAAGTTATATTTAAACTTTAAAAACAATTAAATAGTTTTTAAGCTATCCTTTCTTCGAATCTATGATTCTTATCTTTATTTTACAGTCAATGTCTACAATAGGTTTTTACACTTATAAAAAACCAACATAAAGTTGGTTTTTAAAAATTAATACTAACCGTGATTAGTGTCAGTTGAACACATTTGACATTCAGCACAGTTATCATCTAAGTCACAAGAGCAATTACAATCTTTGCAATCTTTATTACATTCCATGATTACGTCACTTCCTTTCATATATATTTTATTACTTTTTAAGTAAATATTTTTTTACTTTAAAATTTGCAATAAAATTTCACTAATTTTTTCACTACCTTTTTTTAAAATTAATTTAAATTGCTCCTCATTACTTCCACTCTCAATGTGATCACTTATCACTTTAAGAGCTATTAAAGGTTTTTTAAACAGATATGCTCCTTGAAAAAATCCAAAACATTCCATATCAAATATTAAAATTGAATCACTCAAAGGTTTTATTATAGAATTAACTTTTTCTTGTGAATTAATAAATACATCACTTGAACAAATATCTACCTTGCTAAAGTCTTGAAAAGATTTTAGCAGATTTTCATCTGAGCAATAATATTGTTGCATTCCAGGAATTTGACCCATTTTATAACCAAATCCTGTAGCATCAGCATTACCAAGATAAGAGTTCTTAACAACTACTGTTTGTAATAAAGATAATTTTTTGCTCAAAGTTCCTACAAGTCCAGCATTAATATAAAAATCAATTTGATATTTTTGATTAACATAAGAAAAACAACTTGCAGCATTAATTAAACCTATTTTTGAAATTGCTATATAAATATTGTCTTTTTGATATATTTCAAAATATTTATCTTCTAATAAATTAGCACAAAGTTTATCTATTAAACTTTGTGCTTCATCTTTCATAGCAAATAAAATTACTCAATTTTTATTTTTCATTATTTTTCCTCTTTAATTCAATAATTATGAGACTCAATTAGTTTAGAACCAATTGTTTCTTTTGAGTGTTTTTTAATAGCAACTTCATATTGATTTTTAAGCAATTTTTTAAAACCAGTCAATAGATCTGCTTTAACAAGTGCTCTGAGGCTCTCTACACCCTCATATTGTCTTTCAATAGATATTTTATCAGCACAAAATATTATCATGTCCAATAAACTCATGTTTTTAGATGCTACTGTATGATTAAAAACAGCAGATATTACTTCTTTATCATCTAAAAGCCAATCATTTTTTAAATGATATGCACCTACAAATGAATGTCAAACTGGTTCAGGTTCTTTTAAAAGTTCTTTATTATTTTTTAATAAACAATCTTTCATTTCTTGGTTAGTTCAGCGTTTTGCAACATCATGAAGTGTTCCTGCCAATAGTGCTTTTTGCAAATCAATATTATTTAAAACAGCTAATTCTAATGCCATTTGACCAACATTTAAAGAGTGAAAATATCTTTTTTCATCCATTTTACTTTCTAATCTTTCATATAGATACATTAATTGATTATTAACATAATCATTTATTTCTTTTATTTGTAAATCTAAATTTTCTAAATTTCTTATTTTTGTTGAACTTAAATGATTGTTTTCAAATTCAAAAGTTTCTAAATTATACTTTTCAACAATGTTTTGATTAAAATTAGTTGTTCTTAAAAAAACTTTAAAATCTATTTCTTTTATAAGGTCATTAAAATGATCTCATTTTTCAAAATTATCTAATTGATCTGAACCCATTATAAAAGAAAATTTTAAATTGGGATATTTTGCTTTGTAATATTTAACAGTATCATAAGTAAAACTTGAGTTTTGCTTTGATATTTCATATGTTTCGATTTTTACATAATCTAAATTTTTTGTAGCTATTTTTAACATTTCTAATCTTTGAACAACACTTGAAGATGAAAGTGTTTTAAAAGGATTAACATATGCAGGAACAACTCAAACCTCATCAAAATTCAAGTTTTGTTTACAACTTTTAATTATATTTATATGATCTGTATGAATGGGGTCAAAACTTCCTCCAAACAAAGCAATTTTTTTCATTTTCTTTTATCCCTTACTAATTAACTCTTTTAAATATTTACCTACACCATTATTGTCAATGTGATCAATAATTTTTCAAGCTTGTTTTTTTAAGTTTTCAACAGCATTTCCAACAGCTATTCCAAATGGCAATTCGCTAACCATTTCTATATCATTGTTATTATCACCAATTACATGAATGTCTTTCAAAGCAACATTCATAATTTCAGCTCATTTTTTAATACCACTAGCTTTGTTTATTCCTTTTGGCATTGCATCAACTAATATTCTTGATTGAATTATTGTTGAAGGATGATATAAATTTTTAGACTTCAAATAAACTTTTAATTCTTCTGCTTTTACTGTGTCTGTTTTACAATCAAGTGAATACATTAATTTAACTGTTCTGTGTACATCATTTTTAATATCTTCAATTAATTCATTATAATTATTATATAAAATAAATTCTGGTTGATCTTCTTCAAGATAATGTCCATAAAGTTTTTTATAAGCTTTAACTCTTTCTGCGCTTTTAAGTGCACATAAAGTTGTTGCAGTATATACAGAAACATCTAAATCATTTTCTAATGAATGTTGCAGTAACTCTATTACTAAATCTTTGTCCATTATATGTTCATAATATACTTCTCAAGTTAAAGGATCAGTAATTGCTCCCCCATTTGAACTTACTACAGGAAGAGTTACATTTAATTGTTTAATGTAATGCTTCATATTTTGAAATGCTCTTCCAGTAACAATAAAGAATTTATTATTTGATTTTTTTTGATAAGCATTTATATCATTAATTGTTTCTTCCAATATTTTAAAGTCACTGTTTTTAACAACAGTTCCATCTAAATCGCTTCCAATATAAGGTAATTTCATAATCTTATATCCTCCAAAAATAATTTTACAATATATTTTAAAAATAACCATAGGTCAATTATTGAAAATCAATATTTTTTTAATATCACTTACTAATGCTCTGTAAAAAACTAACAAAAAAAATAAAACTGAAAGCAACTCTATATAGCTAAAAATCTATATAATTTATCTTTTTCTCAAATTCATCTCTAATCAGTTTTTTGAATAATTATATGCTTTTTTTATAATCCTTTAATAAACAAACTTCACAGTAATTTTTAACTCTATTTAATTGAGTTACTAACATATATTTTGAAACATTTTCACATGTTTCACATTTAGTTTTATCATTATTTTTTAATTGAGCATTTAGTTCTTTAATAGCACATTTTTTACAAATTAAAGTAACAACGTTTAATTGACTTATCCTCTTAAAATCAGCATTACTTTTACAATTATTGCAAATAAGTTCTTTCATTATTATCACTTCTTTTCTATTAATGTAATTATATTTAAAAAAATGTTGATTTTTTAATTTTTTTTTGATATATTTAATAATGTCCTTTTGGACGCGACTATGATAGTTAAAAAATCTAAGCAGATAACATCACTTGTCTGTATTTTCATTTTTTAATTAGTATAATATCCTTTCTTTCGATTTAGGCCACTTATATTATCATAGTCAATAAGTGGCCTTATTACTCATTCATATCTTTTTAATTATTAGCAAATCAATTACATATGCGAAAGCATGATTAATAATAAAAAAAATACACTTTTATAAAGTGTATTTTTTTTATTAATTTTAACAAAGTATACAAAGCAATTTAATATACTTAATAATTTATTGCTTTTTTTCTTCTTTTTTATCTATTTTTTTAACTTTTACTTTTTTCATTACAATAATTTTATCTTCAACTTTAAACTCATATTCTAAAGCTTTGCAAATTGCTTCCATATTAATTGGTAACTTAATAAGATTAGCTAATGGTAAGTTATTTTTAATTAAGTATAAAAATAAGTAGTTTAATTGTTTATATCTTTCAACTGCAATAACCAATGAATTTTCTTTATCATCGTATTTAAAAGTTTTAATACCATTTTCTTGTAAGAAAGTTTTAAATTTAATTACATCAAATTCTTTTCTAACATATAGTTTATATTTTGAATATACATTTAATTCTGCTGCTGAACCTTCAAATATCTTTTTACCTTGATCTAAAATAATATAATCATCAATAATATCTGAAATTTCGTCAATATTATGGACTGTAATAATTACTGTTTTGCCTGCTTCTTTAGCTTCAATTAATAAGTTTTTAATTTTATTTCTTCAATAAGAATCTAAGTTAGCTCCAGGTTCATCCATAATAATTATTTGAGAGTCTTTTATAAAACATAAAATTAAATTTAATCTATTTTTCATTCCTCATGAAAAATCACAAATATTTTTATTTCTAGCAACTCAAAGATCAAAGAATTTAAGTCAATACTCTATTTTCTCTTTAATTTCACTCTTAGGTAATCCAATAATTAAACACATAGTTTTTAAAAAATCTTTTGCTTTTATTTTGTAAAGTGCAAAATCAGTTTGACTGTAAAGGCCAACAAATTTATTTACTTTATAACTAGTCATTTTTTTTCTTGAAACATTTTTTACCAAGATTTTACCTTTAAATTTTCTTGTAGCTCCAATTATAGAGTTAATAATAACACTTTTTCCACTACCACTTGAACCAAGAATAGCTGTAATTTTACCAGATTCAATAGTCATATCAATAGGACCAATTTTATTATTTTTAAATTTTTTTACAAAATTTTTTAAAACTACTTCCATATTTACCCCCTATTTTAAATCCAATTTATTAAATCTATGAAATGCTAACATTAAAAATGTTATTGTGATAATCAACATTACGATTAAGTAAATTTGAGGATTTACATGCTCGTTATATGCTTTTTCATTAAAAGTACCATTTTCATTTGGTTCAAAAGTATAATTACTATAACTTAAAAATAGATTTTCTTGTTGATTAAAATAAATTTTTGATTTTGAATAACTATTAAATCAAAAGTCATCATAACTAAATCCTGATCAGTTACTATAGTTACTTCAAATTCCATTAAATATATTAAGTGTATTGTAAATATCATAATTTTTTCTAGCTTTTGAATATTGCTTTCAATTATTATCTTGATCAAGAGTGTATGTAGTGGCAACTACATATTTGCTTGTGTAATTTATAAAATACTCTTCTAAAATTCTTGCACAAATCATTATTGGAGAAAATAAACTATTTCTAATAAAACTATTTTCAGTTGAACTTGCTCCAATTGTAAATCCAGATTCCAGTGAAACATTAGAAGCTATATTATATTTATACATATTTATTAAATAATCTTTTTTAAATGGTGCAACAATTGAAGTATTAGTTTGATCAGTTATTTGACTTTTTGCTTCATCTATAAAAATGAAATCATCGTAAAAACTACTAGTATTTTCCATAAAATTAGTTATATTTTTTTGAATATCTACAGAGAAATTATAAAGATCTTTAAGTACTTTTGCATTTTCACTTGCAGATTGATTAATTTTATATTTTAATTCTTCTTGAGATATAAAAGTATTTTCTAGTGACACTTTAATTGTTACTAAATTGTTTTTTTGAAACTTTTTCAATTCATCATTTGTTGGTAAAGTATTTATACGAATATCTTTTGCACTTATTTCTTTAGTATCTGTATTTACAACTCCAATTGCTTTTCAAAAATCATTAATTCTCTTATCTATTGAACTTGTTTCAACAAATTGTTCACGTGTAAAATGATTATCATCTACAAGAAATTTATTTAAAGCATATGATAAATATGGATATCTAATTTGATAATTTGTTACATACTTTTGTAAATCAAATGATTCATATAAATCAGTTACTTTAATTATTTGAGAAGTACCTCTTGAACTAAAACTTAATGTTGCTTGCTCTTCTTTTGCTGTAACAAACAATCTTGGAATATTAGATAAGAAAGTTAAAGAAATTAATAATGTACAAATTATTGTTGTTACTTGCAATGAATTAAATAGCAATAATAATAAAATAAAAGATAATAAAAATATTGTTGATATAAATGAATAAGTTAAAAATGATAAATTAAGTCTTACAATCAAATCCGAATTATTTGATAATAAAATTCCAAAACCTGTAATAACTCCCGTTGATATAGCTGTATTTATAAAAACTATTATTATAATTAATAAGTATTGACCCAACAACATTTTTATTCTTGATATTTGATTTGAAAATACTAGATATAATAGTTTATTTTCTAAAATATTAATTATAAAAAATTGCAAGGATCTTAAAACTATTAGAAAAATAAAAAGTGATATATAAATTAGTACATAGAAATTAAAAAATATTACTAGTTGTGCACCAGTTGATGAAAAAAAGAATAATGCTGAAAATAGGAATGGTAAAAAAAATAAAAATATATTTAATATTAAAAAAGATTTTTCATGAAAAATCATTTTAAAATTAAAAATAAAAACGCTTAAAAAAGATATTTTATTTTTCAACTTCACAATAAAGCTCCCCCTTTTTAGATTTATTTTTATAAAAATTAATTAAAAAATAAGTCTAATAGCTCTATATATAAAAAAATTATATGTTAATCTTTTTTTTTATTTTTAAAAAAGATATTTATTTCATATATATATTATAACAAATATTAATAAAGTTCAATATCTTTTAAAATGTTATAGCAAGTTTTATTATAAAAAAATAAAAAAATCTTATATATTTAATAAAATTAGATTTTATTTATTTCCTACTATAATTTTTGATACTTTATTATTTAGATTAGCATTATTACCACTTAAATTAATTCACATTTCTATGAAGTTAAAGTTAATGTAGAATCCATACATAGCTTCATCTGATCCTTTTCCATTACCAGCTTTAACTGCTTTAATTCCATCAGTTGTTAAACTATATTGCATATAATCTTGTGATAATTGTCATAAACCTTGGAAATATGATGCTATTCCAAAGTTAAATGACATTTGTGATCCTTCATTCATTAATTTATTTCTATAAATTAATTGATCACTATTTTTTAAAGATAAAGAACTATTCATATTTGCTGTACTTCATATTCCAGTGTCTTGAACTGGTGTTTGTCCAGAGATAGTTCTTCATATACTTTGTTCTATTGTATTATCTTTAGTAAGTCCTGTAAATGATACATATGTAGAATCCGTTGTTGGTTTTTTTACATTATATACATTTTGGAAAGATTTAATACCTTTAATTGCATTAAAATATAAAGCTCCCAATACTGCACTACTTTCATTATTAGCAATTTCAGAATTTTTAATTGAGTTGTCAATTGCAACTGAATATGAAATTTTTAAAGCATTAAATGGTAAGTAAAAATTAGAGTTAATTTTCATTTGTAAACCTTCAACATCAAGAGATCCATACATTATTGAAGTAGTATCATCATATTTTCCTTGATAATTTTCATTTTTCTTAAAAGATTTATAAGAAAGTGTTTGAAATGACTCTACTCGACTTTTTCAAGTATCACTTCCAGTAGTTAAATCAAATATGAATTTATTTACTCTTTGATTTCCATAATTTTTGAAAGTTTTATCAGTATCTTCAATTGTGCTTTCTGCAAATATTGCATTTTGAATTGTTGTACTTTTATCTTGTCCATAAACATGTATATAACCATTAGATGATTGAAGATATCCAGTACCATAAATATTAAGTTTATTTGGTGTACCTACTTTTAATGAAGGTTTGTCATCAATAAAAGTAAAATCATAATCTGTTAAATCATAACTAGTTTTAATAAATGAATTTACATAACTTGAAAATTCGCTTGTTTGATAAAGATTTTTCATAGCTTCTTGTCTTGAAGAATCGCTGTAGAATGTATCTAATACTTCATAACCCTTTTCTTTAGATATTCCTAGAGCCTGTCTATCAATTCATGAGTATTTATTATCGTCATTAAAAAATTTACTTGAAAAAGTTTTTTCAATTTCTTTAATTTTTAAACTTAATGCTCCATCATTTGAGAAAGTTATAAATAAAGGAATTTTAATTTCATAAGTATTTTTTACACCTTGTTGATCTTTATAAGCTGCTTTTATTATTAAATCAAACTTACTTGAAGATAGAAGATAATCTTCTGTAACATTTCCTGATACATCCTTACTTGTATATTCAATTACAACATTGTCTGTATATATTGAATCTACAACTTTATTGTTTAATAAAATAGCATTGTATTTATCACTTTTTGAAGCAATTAATTGTAATTCATTAGATAAATCATTTAAACTTAAGAAACTGAAAACATCTGCTTGAAAGTTATTTTTGACTTCTGTAGTCATTACTTCACCTTTATCATTTTCAATATCCTTATTATTTCCATATTTTTTTACATTTTCAATGTTAAAGAAAGAATTTGATCCTGTTTCTTTAGCTTCTTTAACCAAATTAGCTCTTCTTGCATTAATTCATGAAGTTGATGTTGTATCTACTTCCTCTTTATATTCTTTTATAAGTTGTTCAATTTGTTCATTAGTCATAGGATCTTTAGTTCCACATGAAACAGCATAAGCTGTTGTATTTGCTATAAGACCAAAAGCTCCTAGAAAACTCAATAGTTTTTTCATTATTTTACCCTCCATAGTATATTATACACTAAAAAGTGACTGAAAATCTATTTTTGTGATTTTAAGGATGAATTATAATCTGGGTTATTTTTATTTTGAGAAACATGTTTCTTTCAATAATTCATTAATAATTCTTTTCATTTATCTTCTACTGCTATTTTATATTCAAATTGACCATAAGATCTTTCTTTATCTTTTCATCAAGTATTAATATCATCTATTTTTTGATCTTTTGCAACTCCAAAAGTATTAACAGTTCCTGCAAAAATATATTGTTTTTGAGAGAAATCTCATAAAACTTGAATTTCGTTATTAAAAATATTTTCTCTAACAACTGATTCAGATGATTCTTTGTAATCATTAGTTATTAAATTTATTTTTTTACTTTCAAGTAATTCATAAAATGCAATATCGTCATCTGCTTTTGCTCAATCAGTATTCGAGTTAAGACCTTTATTTGAAAAGTCCAAACTTACGTTTCGATTGTGAATTTCAAGTTTATCATTTTGATCTTTTCCAAATATTTCATATATTTTTTCATTTGAGTATTTATTAATTAAAGCTAATAAATGATAAATTCTTCAAGAATCAGCAACTGGTTCATTTTTATTTGCAAAATTAGTAGTTGAATTTAAAGCAATAGCTTCTTTTAATTTATCTAGCATAATTTTTTCTAATTCATCTTCAGTTGCATTAACTTTTGAGTCTTTTAAACCCAATACATCTAACTCTATTGATGAGCTTGCTTGATATTTGCTTAAAACATTATAAGTTTTTTGAGAATAAGCTCTATCAAGTAATCTTTGACTTAAAAAAACATTTCTAAATCCTTTGTCAGCAATGTATTCATCTTCATTTTTTTTATCATCAGGAGAGTATCATTGTTTTCCATTTCCAGTTATTGGAGTTGTTTTAGATCAATAAAAAACTTTAAATTTATATGAAGAATCATAACCAAAATCTAAATAATGTGTTTGATTAGCTAAAGCTATATTATCTTGATTCTTATTTTTAAATAAATTAGCATTTAATCATTCTACAGAAAAATTAAATTGTCCTGATTCTGGGTCATCATTATTTCTTGAATCATCAATAATGTTTCTAAAAACTGATATAAAATTATCTTTATTTACTGATATAAATTCATTATTATCTTTTTTTATTTTATCTATCATATTTGTAAATTGATTTAATAATTGTGTATTTATTGATGGATTATTAGCTAGCACATTTTTAATATTTGTTTCTAATTTTGTTATCATAGATTGAACAATTATATCAGCTTCTTTTAATTGTTCTTCTATAAAAAGTGGTTTTCCATCATTGTCTACAAGATTTCTTCTATCAATTGAATTTTTAAGTAAAATAGCATAAATTTGATTTTTAACAATAGTATCTACTTGATCAGTACTCATTCCTTCACTTAAAAAGATAGGTTTCTGTAATAAATACTCATTTAAAGCTTTTTCAATCTCATCTTGAGAATTTTGTAAAACCATATTTGTAAAATCCAAGTTAACTATAGTATTATTGATAAAATCAGTTGCACTTGGTGAGTAATTGAAAAAGCCTGTAGGTACTTTTGAAGATTGAGTTGAAAGAATATTTTCCAGTTTGAATAAGCTTGAAGAGTTTGCATATCCTCGATAAATCATACCTTTGTTTGGATTTTTTTCGTCTAAAAATGCATCTTGTGAATTTAGAGTATTAGATGAATTATCATTTCGATGAGTTGCTTCTTTATTTGATTTATCTTCTTGTACTTCTCCATCTTTATTTGCAGATAACTTTCTATTTATATTAACTCTAGCATAAGTTGGTTGATCTACACCATTTCATCCTAATAAATCTTCATTTAAAAAAGTAACTGATAAAGATCAGTCTTTGTCTTTTTCACTCATTCAACCACTAACATTATTATAAAATGCTAAAGATGTATTTTTATCTTTAACTAAATCTTTTATTGCTCACTGTGACTGTCATGAAAGTTTATTTGAAATTCACCCATATCCTGGAACTTTTGTAGAAATTTCATTTAAAAATTGATTAGACATTATATAAACACCTAAACTTTTTTTAAGTACTGCTCCATTTGGGTTTTGATTAATTAATTCCTTCAATCCTAATGCTTCTACTACTTTATCAATGTCTGCATCAGTCATTAAAGAATTGATCTGAACACCATTTTTAACAAGTTGATCTTCTGTTAAATTATAAATTGATACTATTTTTTCTTCATCTGTATAATTAAGAGACATGTCAAGACCACCATTACAAGCAATAACAGTTGATGAAGAAACTACAGTTAAACTAATTACACCTAAAAATGAACATAATTTTTTCATATCTTAACATTCCTTTCAAATTTATCTTATTATACTATTCTTTTTAATTATTTTTCTTTTTACTTTTTTTACTATCAAGTTTCTCAAGTTTTAATTTACGCTTTTTGTCTTTTTGTAAAAGTCTTCATTGATTAAATACCTCAATAAGTTTTTGAATTTGTCTTCCCAATCAACAAAGTGCCAATCAAAGAGTTCAAAATAAGATAATTGCTGTAAAAACACAACCTATTGCATAGTATACAATTCCACTTACTCCTGCAATTCTTTCTGCTATATTATCACTAAATGCTCCTGGAACTGCTATGTATGCTTGATGAGGAAGTATTCCTCCCCCATTAATATAAGTTAAAAGTCCTGGAATTATAAAAAATATAACAGCTATTCCTGAAAAGTGAATGAAAGTTGTTCAATATAAATATTTATCTTTTGGTACATTAATAAATTTATCGCTCAATTTTTCCTGAATCAATCAATTTGCAAATGTAAAATACAATATTGGAATAATTGGAATAATTGGAAGACATCCAATAACTGTTGCTGCAAATATAAAACCTTGAGCAGATTTTGGTTCTACTATTGATTCTCCAAATAAAAAATATAGTCCTTTAATTCAATAGTAAAATCCACCATTTTTATGTGGTACTGCATAAGAAAGACTTAGCATAATTATTTGAAAAATAAATAGACATGCTATTATAAATACCATTCAAAAAATTTTGTACAATCTTTTATATGGTTTTAATTTTATTAAAAAATTACTAAACTTTTTCATATTTTGCTCCATAGTAATATTTTAAATGAAAATATGATTTATAAATTAGAAAAAAACAAAAAAAATATAGTATTTTTTTACTAATTTTAAATAGTAAAATAAATAAGATGAGGTGTTTTATGAATGTTTTAAAAGTAACTCCAAGAGGTTTTTGTCTTGGAGTAGTCAAATCAATAAAAATGGCAAAAGATGCAATTAAAATGTATCCTCATAAAAAAATTTATATGATAGGTCTTTTAGTTCATAACAAAATAATAGTAAAAGAATTAGAAGAACTTGGAATAATTGCTATAGATGATTGAAAGAAATCACGTTTAGAAATAATAAAAACAATTCCTAAAGGAAGCGTTGTTATTTTTTCAGCTCATGGAACAGATCCTAAAGTTGTTCAGTTAGCTCACGAATTAGAATTAATAGTTGTGGATACAAAATGTGAATGAGTTTTAGAAACAGAAGAAATCATTCAAAAGTATTTAAGTTTACACTATGATGTTATTTTTATAGGAAAGCACGATCACCCAGAAACAATCGCTTTAACAAGTTTGGACAAGAAAAGAATTCATTTAGTTACTAATTTAAAAGAAGTTGAAGATCTAAATATTGTAAATACAGATATTTTTATAACAAATCAAACAACTCTTTCAATAATCGATACTGAGTTAATATATAAAAAAGTAAAAGAAAAGTATCCTAATGTTGTTTATAAAAATGATATATGTGAAGCAACTCTTGTAAGACAACAAGCAGTATTAGATTTAAATCCTAAAGAAGTAGATTTATTATATGTAGTTGGTGATGAAAGAAGTAACAATACTTTAAAATTAGTTGAATTAGCTCAAAATAAAGGGATTAGATCTATTAGAATAAATAGAAAAGAAGAAATAAATTTACAGGACTTAAAGAATGTAAATACAGTAGCTGTTACTGCTGGTGCATCAACTTCAAGTATTATTCAAAATCAATTTATTAAATATTTAGAGGAATTAAAAAATGAAACTAATTAATTAGTTTCATTTTTTATTGTATTTTTTGCTTTGTTTTTAGTGTCTTTTTGATCTTCTTCTTTTGTTCTAGTATATTTATATTTAGCAATTAAAAATAAAATACCACAAGGAAGATTTCCAGATATAAAAGAACCAACTATACTAAATATTGAAGCTGTTTTCTGTTTTCTGTAACGTTTTATAGAAGAAATTAATCCCATAATTCCCAAAATTACTATTAAAACTGAAGTAATTGTCAATCCTGTAAAAAGTCCCTTATTTTCATCATCTTTATAAACTAAAGTAGTAATAAAAGCTGATAGAGCTAATAAAGTATATATTGCTTTTACAACAATTCCTGCAAAAAAATATTTTTTTGATTTTTTAAATTTCATAAGTATTTTGCCCTTTTATGTTTTAATAGATTATAAATGTATTTTTAATATCAAATGCACTAATTTCAACTTCATTGTCAAATGTTTTTAATAATTTGTTTCTTAAATCATCAATAAAATGATTTTCCATGTAATGACCAAGAGTTAACATATCCATATTATTTTGATCAGCATAAAGTCACTCATTTCATTTAGCCTCTCCAGTTATAAAAAAAGTATTTTGTAACTGTAATTCCATCATAGTTGATGCTCCACTTCCAGAAGTTAAATAAATTCTATCAATTTCCTTCTCCAAATTAGAGTTTCTTGTTAACAATGCCTGTTGTTTTCCAAATATAAACTTAAATTTGTCAATTGTTTCTTTTAAACTAACTGCTCTTAATAATTTAATTTTATAACCTTCATTTGATAAACCTACTTTGTCTACACTTTTAACATTTAATTGTGTTTCAATTAAATCAATAATGTTTTGTTTATCACTGTTATCATAATTTGTATGTATTGAAAAAATTTGAATTTCATTTTTTATACACATATCATAAATTTCTTTTTTAGCTAAATTTTTCATTTCAATTTCTAAATCCATAAATAAAAATGGATGTCTACTTATAATAAAATTTGATTTTTTTTCAATTGCATAGTTTACAACTTCTTTTGTAACATCAAGACAAATAACAATATGTTCTATTTCATCTTGACTTTCTAAGTTATAAACTTCTTCTAATTGAAAACCAACTTTATCTCATTCAGCTGCATTTTTTTGTGGAAACATATCGTTTAAATAATTAGTTAAAGCATTTGCTTTGATTTTATTCATTTATTAAAGTTCTCCTTTTTAAAAGTTTACTAATTTCTTTTTTTCGCTTTAAAGTAACTTTATATTTTTTATCCTTTTTAGGGATTTGTTGCAATAGCTTAAAAAGTTTTTCTTCTTCTTCTAATCATTTTTGTAGAAATAATTTATTTTTCTCATCTTTAATTAGTAATGGACCAAATAAGATATCTCTTTTATTTCTTATTTTAGTTCCTGCAAATTTATTGATTTTAATAATTTCATAAATAATCTTGTTATCTTCAACAATTAATTCTCTCTCTACAAAATATTTTTTTTCCTTAGTTCATTTTCTAATTGGTTCTAAATTAGTATTTGAAGCAATAATATAAGAATAAATGTTTTCATTATCCTTTTTAAGGATATCTAAAATAGAAGATGAACCCATTCCTGCTATAATACATGAATCCAATTTTATTTGATTTAACATAGTTCATTCAATACCATCTGCAAGTATTGTTTCTACTTTGTCAGCAACTCCAAAAGAAGTTAAATTATTCTTTGCAACTTTAAGTGGTCCTAATGCCACATCAGTTGCATATATTTTCTTTGCTTTTCCATCTTTAGCCAAATAAATAGGAAGATAAGCATGATCTGTTCCAATATCTGCAACTACTTCGCCTTCTGTTATTAAACTGGCCAATGAAAATAAGCGTGGAGTAAGAAAACTCAAATTATCCTTTGAAGAAATCTTTTAAAGCTTTTGCTTTAGGATTTGATGCAGATGGCTTGAATTTTCTAATTGTTTTTGCTTCAATTTGCCTAATTCTTTCTCTTGTAACTTTTAATTCTTTCCCTACTTCTTCTAGAGTTTTTGGTGAATCATATTTTGAAAGATGAAATTGAATAGTGGGATTGTTATATTTTTGAATTTTTTCAATTGATGTATCATAGTGAATATCTAAATCTGCAATTGCTTGTTTTAGTTGTTCACAATTTTCATCTTCACACTCTTCTGCAAGTCTAATTAAAGTTCTTAATTTAGTTGGTAAGATACCAAATCTCATTCTTACAACTTTTTCTTCTCTTGGAGCTAAAATATCGCTAAACACTTGATCTATAACTTCTCTTAAAGCTTCTTTTTCTGCATATTCATCTGGAGAAGAAATATCTTTATCTTCAACAAAGTCACCAAAGTGTGTATCATCTTCATCTCCAAATGGTTTTTCTAAACTAACTGGCTCAATTGATAATTTTTTAATTTCAATAACTTTTTGTGAAGTAATTCCTTTTCCAAAAGTTTTTGCAATTTCTTTTGATGTAGGTTCTCTTCCTAATTCTTGAGTAAGTTGTCTTTCAATTCTTGTAAGTTTATTAATTGTTTCTACCATATGAACTGGAATACGAATTGTTCTTGCTTGATCTGCAATTGCTCTAGTTATAGCCTGACGAATTCATCATGTTGCATAAGTTGAAAATTTGAATCCTTTTTTATAGTCAAATTTATCAACAGCTTTCATTAAACCAATATTTCCTTCTTCAATTAAGTCTGCAAAGTCTAATCCCCTGTTTAAGTGTTTTCTAGCAACTGAAATAACAAGTTTTAAGTTAGAAGTAATTAATTTATCCCTTCCCTCTTTTGCGATTTCTGGATCAGAATCTTCTAGCATTTTTGCATATTCAACTTCTTCATCTTTTGTTAAAATTTTTGAAGAACCGATTTGATTAAAATATGATTTAATGATATCTTGAATTTTAGTTTCATTGCTAATTCCACCCACTCTATATTTAACGGGTGTATTATTTTCATTTGCTTTTTTTAGATCTTTTCTTTCTTTATCTCTTTTTCTAAACTCTCCTTCAAGTTCATCAGCTTCATCATCAAGATCTTCATCAAGATCATCTTCATCTTCGTCAATAAAGTCATCTGTAAAAACTACATCTCTTTTAGCAAGTTCATCAAAAAGTAAACTTACCTCATCTTCATCTATATCTTGAAATTTTTTAAAAATAACTTCTTGTATTTCTTCTTGAGCTATTTCATTATCATTTTTATCTAAATAATTTCAAAGATATTCTTTAAAATCCTCAATTGTTTCAAATTTTTTTAAATTTAGTGCCATTATATTTTTCTCCTTTTTTCATAAATTTTATTTCTATCTTTTAATAATTGTTCAATATGCTCTGCAAATTGAATTTTAAGTTCTGGATCTTTTGCTAAATGCATTTTTTCATTATAAGTCTTTATTTCATCTTCAATATTGTAGAGTTCAATTGCATCAAAGCAATCTTGTATACCTTTCTGTGATAAGGTTTTTTGTAATGAAGAGAAATGCCTATTTTTAATTTCATATATGTATTCACAATATTTGGAACCAAGTTCTTTTAAGTCATTTGCAATTTGTTCTCAATTGTGACCAAAATACTTATTTTCCCTATACTGATTAATTATAAAATTTAATATTTTTTTGACTCCAACAGATTCAATAATATTTATTTTTTTCAATAATTCATCTTTTAAAGAATCATCTTCCAATAAATTTCAAATTAGAGCTGCTTCAGCAAAATTTTTTGAACTTTTACTATCAATAATCTTATATTTAGTTTGTTCAATTTTGTCTTTTTTAATTGTGTCATAAGCATATTCTGGAATTTCAAAGTTGGAAGTTTCCTCATCAACATAACTATTCATCATTCTATTTATATAATCTTCATTATTAATAAAATTATTTTCATATTGATTATTTAAGTTATTTTTATCTACTTTCGTTAATGAAGGTTTTATTTTTTCTTTTTCTTGATTAAAAGTATTTCTAATTGTATTTCTTTCCAATTTAGTGATTTCAGATAAGTTTAATATGGCAGAATCTATTATACTTTCATTGGATTCATACTTTAGAATTGAAATAACTTTATTAATAAATTCACTAACTTTAATTGAATTTTTTATATCAAGATCTTTTGAAAAATATCTTGATGCAAAATTTGCCGGGTGAATAGAATTTTCAATCATTTGATTAATCAGATTCTTTTCTCCTAATTTAACAAGTTCATCTGGATCTTTTCCCGTATTATTTTCAATTACAGTTACATCTATTTTCTTTTCGAGTAGAAATTGAGATATTTTTAAAGCAGCATTTACTCCCGCTTTATCTCCATCTAAAAATAATTTATATCGTTTAGCAACTCTTGAAAAGAGTCTTATATGATAATCACTTAAGCTTGTTCCCATAATAGCTACAGTATTTTTTATATCAATGGATTCTAAACTTATTACATCCATAAAACCTTCTAAAATAATAATTTCATTTTTTATTCTAGCTTCTTTTTTTGCACAATCAAAATTATATGCTAATTGTGATTTTTTAAAGATTAGATTTTCACTACTATTTTTATATTTGGGACTTTCATTTGCATCAATTACTCTTCCAGAAAATCCAATTATATTTCCATCTTCATCTGTAATTGGAAATATTAATCTATTTTCAAAAGCACAATTATAATCTATTCCATTTTTATAAACAATTTGTGATTCAAAGATATTTTCTTGTGAAAAACCAAGTTTAATTAAATAATCATATAGTTTTACTTTATTAGGACAAAAACCAATTTTAAATCTTTTAATTTCTGTATTAGTTATTCTTCTTTCTTTTAAATAATTTCTTGCTTTAGCTGATAAAGAAGAAATTAATAAACCATTGAAAAAATCAGCTGCTGCTTTATTAATGTCAAATAAAATGCTTTCTTTTGAATTATACTTAGGCTTATCATCAAAGTCTTTTAAACCTTCAATTTTAATATTTAAATCTTTTGCAATTAATGATAATGCTTTAAAAAATGTTATATTGTTAAACTCTTGAACAAATGTTATAAGATTGCCACCAGTTCCACAAACAAAACATTTAAATATTTTTTTATCTGGAGACACATTTAATGAAGGATCTGAATCATCATGAAAAGGACAAACAGAAACATAGTTTCTTCCCTTTTTTTGAAGATCAATATATTTGCCAATAACATCAACGATATTGGCTTTATTTAAAACTAAATCAATTTGTTGTTGTGAAATTGACAAACTATCCCCTCCTTGATTAAATTAATTTTTTTACTAAATATTCTTTAATTTTTGTAATTTCAATTCTCTCTTGATTCATTGTGTCTCTATTTCTTATAGTTACACAATTATCAGTTTCTGTATCAAAATCAATTGTTATACAAAATGGAGTACCTATTGCATCTTGTCGTCTATATCTTTTTCCAATATTTCCTGTTTCATCAAAAGTTGCATCAAAGTCAATTAAAAGTTCTTTATAAAGTTTATTAGCTTTTTCTTTTTGTTGTTTTTGTAAAGGCATAACTGCAACTGAATAAGGAGCAAGTTTATAAGGAAGTTTCATTACAACTCTTTCTCCACTTTCAATTTTTTCTTCAGCATAACTTTGACAAAAAATAGCTAATAATAATCTTTCAACTCCAACACTTGGTTCAATAACATTAGCTAAGTATTTTTGATTTGTTTCTGGATCTAAGTATGTTAAATCTTGACCAGAATGACTTTGATGTTGATTTAAATCAAAGTCACTTCTATGAGCTATTCCTCATAATTCTCCTCTTCCAAATGGAAAATTAAATTCAATATCTACTGTTCTTTTAGCATAGTGAGCAAGTTCTTCTTTGTTATGTTCTCTTATTGAATAATTTTTTTTATCAATTTGAATTATTTTTTCTAAGAAGAATTTTACTTTTTCTAATCAATATTCAAATCAGTCATTTGAATCATTTGGAGAGAAAAAGAACTCTAATTCCATTTGTTCGAACTCTCTTGTTCTGAAAATAAAATTACCTGGAGTAATTTCATTTCTAAATGATTTACCAATTTGTCCAATTCCAAAAGGAAGTTTTTTTCTTAAAGCTCTTTGTGAATTTTTATATTGTGTAAAAATTCCTTGAGCTGTTTCAGGTCTTAAATATACAGTTGAAGCTTCATCTTCAACTACACCTTGATTAGTTTTAAACATTAATGTAAATTGTCTAATGTTTGTAAAATCATTAGACTCACATTTAGGACAATTAACTTCATTTTCTTTAATGAACATCTCAATTTCTTGATTTGTTCATCCCCCAACATTCATTTCTGTAAACTTTTCTTCAATTAATTTGTCTGCTCTAAAACGTGATTTACACTTTTTACAGTCTATTAAAGGATCATTGAAATTACCTAAATGACCTGAAGCTCCTCAAACTTTTGAATTTAATATAATTGATGAATCCAAACCTATATTATATTCATTTCTTCTTACAAAAAAATCTCATCATAGTTTTTTTAATTTATTTTTAATTTCTGCACCTAATGGACCATAATCTCATGAATTGGCAAGCCCTCCATAGATTTCTGAACCTTGAAATACAAATCCTTGTGACTTCAAGTGAGAAATTAGTTTATCTATTTCTATCTTCATGGTTCTCTCCTAACAATAAAAAAAGCAAACTTCTAGTTTGCATATATCGAGATACTTAGGAATTTTCTAACATATATTAGTTCTTGTCAATACAATATAAGTGTTATTTATATTTATTTGCTTCTATTTCATTCACAATTAAAGCAACAGTTTCTTTCAATAATTTTATTGGCCCCATATAAATACCAAGTACATTTTCATAATAATTTACAACAATATTGTGCAATACTATTAAATCTGTATAAAAATACTTTTGCTCTACATTAAAATGAATTGTTTTTCTGTTAATATTTGCAAATAATTTAATAAATGATTCTGGTTGTACTTTTTCACCAGGTCATAAACATCTGCTACAAACAAAACCATATTCACTATATTCAAATCTCACTAGTGGTGCTGTTGTCTTTTTACATCTTACACAACCTTTAATTCTAAAAGGTTGAATAGATTCTTGTATTAAATAAGTTATAAAAAATAAATAATTTATAAAAGGATTTTTATTATTATTTATATTTTCTAAAGAGAAAATAAGCATCTTAAAAATTTTATAGTTTTTATCACTAATTTGTTCTATTTGATCAAGAATTTTAAATATAATTGAACAATAAATATAATTATTATAATTTTGAGCTATTTTAAAATAGTCTTTTTTTAAAACTCCTGTTTTTAATTTACTTATTTTTTCTTCTTTTCTAGCTTTAAAAATTTCAAAATCACTTAAACTAAAAGTTTGAATAGAATATTTATTTTTAGATGTTGATTTATTCACACCTAAAGCAATAAAAGATAGTTTTCCAAATTGTTTACTAAACACTTTAACAATTTTTGCAAAGTCATCATAATCAGTTGATTCAATAACTATTGCATTTATTTTTATTGCCCCCATTTATTTCACCTAATAACTATCCTTATCATAGCCTAATTGTTTAATTAGTGAAGCTGACTGTCTTCATTTTTCTTTTGTTTTGACAAATAACTCCAAATAAAATTTTTTATCAAATAAATGTTCAAGTTTCTCTCTTGAATTAATTCCAATTGACTTAATTTTATCTCCCTTATTTCCAATAATAATTCCTTTTTGACTTTGTCTTTCACATATTATTGAAGCAATTACTTTAATGATATCTTTTTTTTCTTCAAATTTATCAATTAAAATAGCAACTGAATGAGGAATTTCTTGTTCAGTTTGTAACAAGATTTCTTCTCGAATAATTTCTCTTATTAAAAAACGTTCTGGTTGATCTGTAAAAGTATCATCAGGATAAAACTTAATACCTGTTTCAGGTAAACTACTTTTAATTTCATTTAAAAGTTCATTTAAATTATTTCCCATTGTAGAAGAAATAGTTAAAATTTTTTCAAATTTAAAATCTTGTTGCTTTCATTCTTTTACTTTTGTTTCTAATCGATCTGATTTTACTAGATCACTTTTAGTTATAACTAAAAATACAGGAACATCACGTTCTTTTAGAGCATTTAAAATAAATTTATCATTATCTCCAATGAATTCATCTGCTGGAGCTAAAAATAAAATTAAATCTACTCCTTTTGTAGAAGATAGAGCAACTTTATTCATAAATCTTCCTAATTCATGTTGTGCTTTGTGAATTCCAGGTGTATCTACAAAAATGTATTGTGCATCACTATGTGTCAATATACCATTTATTCTATTTCTTGTGGTTTGTGCTTTATTTGTAACAATTGATACTTTTTTTTCTAATAAAGTATTTAAAAGTGTTGATTTACCAACATTTGGTCTTCCAATAATACTGATAAATCCTGATTTAATTTTTTGCAATTTCTTTTCTCCTAAATTATATCTTCTGATTCTTTAATCTTTTGTTCTACTTCTTTTTCTTCTATAAATTCTTCAAAATCATCGTCATTTTCAAACATATTTAATGCAACAGCTTTAATTTCTTCTTTATCCTTTATGGTTCAAGTATATCTTATTGCCGAGCTTAATGATAACATTCAAGGAATAAGCAATATTAAATATAAATAGTGATATCACATTGATGAAAGATATGCTACATTTTGTACCATATAAAGACCATAGATTATAAATGCAAATAAAAAGAGTTGATTTGTTCAATAAAATATTAAACTTATTCTATTATAAGGTATGACATAAGAAGATAAAAAGATGATATATCCTGAAACAAGTATTATATATTTAACAACATTAAAATTAGTTGATGCAAAAACATCCATTAGATGAAATACACTAGCAGAAACAACTAAAAATCATCCAGCAGTTATCATCAAAACTCTTGCTTTAATTTCTCCAGGAGTAACCCATGTTTTGAAAATGAAACCATTTTCTCTATCTTCTGTTTTTCTATATCTTTCAATTCTAATTCATTCTCTATTTCACATATTTATATCTTTAAAAATTGATTTTAACGGAGCATATGAGAATAAAGCAATAAAAATAGCAAATATTCACAATCATTGTGTTTTAAGTATTTCAAGAAGCTGAGAAATATCTTGAAATTTATGAAGAATTCCCACTCAATCTAATACAAATAAAAAGCTTCCATAAAGCAATCCCTCTGAAATATATAGAATATTAAATATTGTTGTAAAAATAGTGGTTCCTTTACCCATTGTCATATTTAACATAACAATTAAAACTGCTGACATTATAAATAAATGATAAATTTGAATAAACATAAATGTATTTAAAACATTTATTTGGTCTTGATATAATCATAAATCTTGTGAATTTATTGAGTTTATTGGATTGTTCATATATTTTTGAACTACAATTCTTGCATAAAAGAAGAAAGCAATTCAAATAACTTGAATGGGCATACTATAAATTACTTTACAACAGCACCTTAACCTTGCAAGATAATCTCCTTCAGAGACCATCTTTACTTGTTTAGACTTTAAAAAAACTCTTGTAAAAAATTCACCAATTTTTCCTCTTATTAAGTAATTTGTTTTTCTCATATTCTCACCACCTTTTTTAATTATTACTACTATTATTATTTAAAAAATATATTAATTACAATTAATGAAAATCCCACAACAGGAGCTCCTCAAGATATTCAATAAACTATTTTATAATCTTTTCAAACCTTTTCTTTTTTAGTTAAATTAATTTGTCTAACTTGATCATTTATTACAGTTTTTACTTTGGTAAATTCAGTATATTTTACTAAACTTGTAAGTGCATTGGCAAAAAAGAATAATACTCAAATAGAAACTATACCACTATCTGATTTCATTTTTGTCATATTAAAAAGTCAATCTAATATATCTAAATAAGATCCCCCACCAATGACCAAAATTGTTAAAACTCAGATTCCAGTTTGCAATCAAGATTTTTTTCTAATTGTTGAATTAATATGTCTTTTTGCAAATAGTTCATTAAAATATCATACAACTTCTCTTGAATTATAGTCCATTGCACCTCTAAAAATAGTTTTTGCATAGTCAATATCTTTATACAATCTTGTTTTAGAAATACCTGACATTTGTGATAATTTTAAGTCATATTTCAGCTTTTCAAATAGCTTTTCTCCATCAACTCTAGTGTGAAGTCTTTGTTTTAAAATCTTTCTTTGAATATCACAAAAAATTAAAGGAGCTAAAATTATAATAGCTAGACCAATTGCAGCTAATACATCTGTTACGATTGTATCTCATCTTATCATTTTATTTCTCCTTTATAATATATAAAATTATATAAAAAAACTAGGTAAAAACCTAGTTATCTTAAGCATAATTTTTTTTAATATGTTTTAAGTATTCTTCAGATTTCAAAATTCAAAGATTAGTTAATTTTTTAAAGTTTTCTCCTTCAATTCATTCTCTTTGCTTTAAGTGTAAAATTTCTTCATTTAATGAGTTTGAAATTGAGATTATTTCTGCCATTTCAATATAATTTTCTGGCAAGGTAATAATTGGTCCAAAACCTTTAAAAATTAAAACCATTTGTAATAAAAATCAACAAAATAACTTAGTATTTGATCCAAATGTTCCCTTAACATAATTTTCATGTAAAAAAATTGAAAATTCTAATATTATTTCTTGATAATTTTTTAATGTTTGAACTTTCTTCAATATACCTGATAATGCCATATAAACATCATTATCTTCTCTTTTATTTTCAATTAAAAATAAATCATAAACTCTAGCATCCTTATTTAAGATTAGATAAAGTTCTTTATAATCAAAAACTTTGCAATGAGGATAACTTGATTTATTTTTTTTCATTTCAGACTTTTTTTCTAAAATAATTCTTTTAACTTCTAATCAAGCATCTATTAACATAGTAAGATTTCTATTTTTTATGTCTGTTTTATCTTCTGTTTTATTAACTATTTTTAATTTAGTTGCATTCAAGATTTCTTCAAAAGAATGTTCATCACCAATAAACTTTAAACAATTAAAGATATTGTGTGATCCAACATTAATTCAAAAATTATTATTATTTCAATATCTACTCATTTAAAATATAACCCCTTTTTTTATTCAAAAATATATTTTTTCTTTTCGTGATTTGAGAAAAATTCAATTTTATCCTTAAAAATTGAAACAAGTTCTCTAAATTCTTTACATAAACTAAAATTTTTACTATTATTTTCTTTTACAAATTGAATTATGTTTTCATGTAAATAAAATAATCTTTTTATTTCATGTTGATCTTCAAAAATAGCTACCCCATATCCTCTAGAAATCATTACTGTTTCTACAAGTCAGATTAAATATCTAAATGTTATTTTTCCTAAAAAATCATTTGCAGTTAAATCATATGCTGCTGCTAATAAATATTCAACAAGAGAGTCAAAAGTTTCTACTTTAGTCATTTTTACAATAATTCTTTCTAATTTAGATAAAAAAGATTTACTTTCTTTTGTTTCTCCTTTAAACATATCAATATATGTTCTTTCTGGATGAACACTTTCGTATAAAATTGTAAACTCATCTAAAATTAGTGTATCAACTCTTTTTTGATACTTTTTCTCAAATTCTTTTATTTTTAAAATTATTTCTCTTACAGTATCTCAAGCTTTTATATAATTAATAACTTCAGGTTCAAAATCTTTTGCTACTTCTTTATCTAAATATTCTTTTTCAACAATTAGTTCATAAATTTCATCTTTTGATGAACTAATATTTACTAATTTTAAATATGAATAAACAAAGTCTGCTCCTTTTTCATTTCAAAATTGATCACTTCTATAAAACATATCATATCTCCCTTTTATTTTATGTTTTTACTTGTAAAAGCATATGGTAAAAAATCTATCACTTTAAATGAATTAACAAATTTGTTTTTATTATAAACTCAAATTTCTTGATTTTCTAAAAGTAATTCAAAAAGTGTTTGTCGACAAGTTCCACATGGAGAACCTAATTCTTCTGAATCTGTATATAGAGCTACAATTTCTACATCATTTTTATTATAACCTTGTGCTATCATTTGAGTTAAAGCTGACCTTTCAGCACATATAGTAGGATTATAAGCTGCGTTTTCTACATTAACACCCTTTATTTCATTACCATTTTTTAAATAAATTATACAAGAAACTCTGAAATTTGAATAAGGTGCATAAGCATTTTTTCTAAGTTCTTTTAAATCACTATAAACTTTATCTTTATTTAAACTCATATTTTCATTCCTCACTAATTGAATAAATTACTAATTGTTTCTATTAGTTTTGGTAAATAAATTAAAAAGCCAATAACAACAGAGAGTAAAGCATTAATAATACTTGCTGCAGCACAAATATCTTTTATCTTTTTTGCTTGAATATTATATTCAAAACTTAGCAAATCTACAAAATTTTCAATTGAGGTATTTACAAATTCAAATCCTGTCAACACTCCAATTGTAAGAATCACTATTGACCATTCAATAGTAGAAAGTTTGATTCAAATACCTAGTCCTATTGCAAGAATAACAACTATTAAATATACAATTAAAGTTGATTCCTCCTTAAACGCAGTATAAATCCCTCTTGCTGCATTAACAAATTTATTTTTTACTCTTGTACCAACTTTGGTTTTCTTTTTAATATCATTCTTTTTTGCCATATATTTACACCTTTATTCTGCTCTTTTATTATACTTTAATTAACTTTTAATTTGCAATATATAAAAAATGCCTTTTAAGGGCATTTGAATTATTTTTTTACTTTTCTTGATCTAACTTTAATAATAATTAAATAAAAAGCTGTTACAGTTATTGCTGTTGCTGCTATTGAACCAACTGCAATTCATAGTGATTTGTTATTTCATATTGAGTAAGTGTATTCTCCAAAGAAATCGCCTTTGTAAAGATTTTTGTAATTTAATAATTTTGAATAATTAGTTGATCTTTTTAAATTTAACTTACTTCCAAAACCATCAACAACATGACCCATCTCGTGTATTAAGACGCTATATTTATTTGGACTACTTCAAAATCCTGCTTTATATTGATCATTAAATTTCTTATAAGTTAAACTAGGACCTGTAATTACAATATAGGCATATTCAGTACTTACAATTTCTTTGGTTGAAGGATCTAGACTATATTGTGTAGCAGTATAACCCATAGTACCTTGACTACTAGTTCCATCATCACTTATCAATGGAAAATCAGGACTTATTATCAAAGCAGATAACATTTTATCAACTCATTCTTCTCTCTTAATTAAATTAAAAAGTGCATTATACATTTTTAAAGTAAGCTCTTTTAATTGATTTGTATGGTCTTTTGTTCATTTTTCATTATCAATTCTTACATTTGGAGTTTGTGATAAATAGTTTTTCTCCATATTTTCATAAATATATGAAAATCAAACAGCACTATGATTATTTATATCCTTAGAAGAATTTTGCAATTTAGTATCAAGTTCTTCAAATGAATTAAAATATTTTTTATTAAAATTATTAAATGAATCAATTGATTCTTGGCTAGCTGGTGTATATGAGTCATACATTCATTTAGAAGTTATACCATTAATAGTTGTTATATCTTTAAAAAGAACTACCTCACGAGATTCTTTAATAATTTGCGAACTAATCTTTGATAAAGCATTTTGTGAATTATTATTAGATCAAATAACTGACTCATTATTATATTGTAAATTTAAAGAATTAGATTCTTTTTGTTTTAAAGTTGCATTATATTTTACTTTTGAAGCTGAATTTAAATCAGAATTAATTAATTCTACTGTTTTATCAGAAATAGTTTTATTTTCTTTATAATTATCATTATATCTTCCACCAACTGAGATAATTTCAGGCAATATATTTATATAAAAATTATTTGTAATTTCTCAACTTTTATTTTTTAGATCATCATCTGTATTTAATCACTTACTAAAACTTTCTGCAAAAAATTCTGCATCACTTGTAGCACCATAAATACTTGGCATAATTGTTGATGCTAAGATATTTTGAATAGTCAATTCTTTATACATGTCTGATTTATTTCCTGTTACCATTATATTTTCTCTTATTGAATTAATATCATCTTCATTTACTTTTATGCTATTTGCATAATAGTATTTTAAAAGACGACCATAATACATAACTTGCTTATTAGGTTCTATTAAACTTTTATAAGTTATTGACTCTTTTATATTTTTTTGTTTAGTTGTATTTAAAATTAAATTATTTACTGAATTTTCTTTTATAACTTCATATGTTGAAGTTGTATAAGAAAATGGATTTAAAAATGCTCAAAACATTATTAAAAATTTCATTTTTCCACTACCTTTATTCTTATTTTAATTTTACTTCAAATTGTTAATTATATAAATAATACTAAAAAAATAAAAAAATCCCACTAAAAAGACATAATATATTTAATATTTTCACTTTTCAAAATATCATCTGTTAATTTAAACATTTCCTTTGCATCTTGTTCATTAGTTTCGTGGTCAAAACCCAATATATGAAGCAAACCATGTACAAACAATCAAGCCATTTCTTCTACAATTGTATGATTGTAATTTTTTGCTTTATTTTGTGCTTCACTAAAAGTGATAAAAATATCACCAATCTCTTTGAAATCTAATTGATCGTAAATTCCAAACTCATCATTAATTGGAAAAGATATTACATCTCCAACATACTCTTTTTGTCTATATTGTTTATTTATTTCTTTTGATTTATCTTTATCAATATAGTTTACAGACAAACTTAAATTTTTCTTTATACCCAATATTTTTTTAGTAGAAATTAAAAGATTTCTAAATAAGCTTTCATATTCTTTTAAAGATTCTTTTGTTTCATAATTAAATTCTAATAAGTCACCCATTTTTTTAATCTCCTATTTAAGTTTTAAAAAATATTTGATAATAAATAAGATAATAGAGACACTTTTTCTCCATATATCAAAACATTATTTGAAGGATATTTAATACTTCCAATATTGTTTATATTAATCTTTATTAAAGAATTACTATATTCTAGTTTTGAAGCATTAACAAACATATTTCCTTGATTTGTTTCTAAAATTATATAATCAATTAAGCTTATATTCAAATTTTTAGAACTTAATAAATACAAATCCTTTTTTATAATTCCTTGTTCATCAATATATTCTTGTATATAAACTGATCCATAAAAAGTTTGTTGCTTTTTAAGCAAAGCTAATGACAATAAAAATAATAAGAGAAATATTAAAAGAAAATAAAGCATTTTCAACTCTTTTTTCACTAGATTACCTCCACTCTTTTTTCAAAGAAATTAGAATAAGCTAAATCATGGTCACACATTATAATTAAGCTACTTTTTTTATATTCCATAAAAGTTTTAAATAGAAAATAAGCAGTATGTTTATCAACATTACTTAAAGGTTCATCAATAAGATACAAGTCTTTATTTGTAAAAAATAAGGCTATAAAATTAATAATTTGTCTTTGACCTTTGCTCAAGTTATAACCATTGTCATAAATTCTTTTTGTTAAATCTATATTGTTTCTTTCCAAAATTTCGATTAAGTGAAAGTCTTGTAAAATTTGAAAATCTACTTTATTTTTAAACTGTTGAATATTTTGCCATACAGTTCCATTAAACAAATAATCATATTGACCTAAATATATCGTTTTACTCAAAAATGAGTTTTTATCTAAGTTATTAAAATTTATATTGTGATTAACAATTAATTCCCCTTCATATTTTTCATAATGTCCAGATAAAAGTTTTAACAAAGTAGTTTTACCACTACCACTTTTCCCATGTATAAATGTATTTTTATCAAACTCAAAATTAAAATCTTTTAATAAACAAGAATCACTTTTATATTTATATAAATTTTTTGCAGTTATATTCTCTATTTTATTTATTTTTTTGTATTCAATATTATTATCCTTAGAATTGAAAATAAAATTTAATGATTTATCAGCAATTAATGTTTCTTGTATATTTAAAATAAAACTTTCAATATTACTAAAAAAAATATTTATATATGAGCTAACTGCTGTATAGAAAAGTAAATCAGGTAAAGAGTATTTTTCTTGATTTATATAAATAATTGATATATAAAATATTAAATAAAAAAATAGCTTATTTGTTAAAGAAAATAATACTTGAGTCTTACTATCTAAATTAAAGATATTTTTAGTTTCTTTAATAGTAGATAAGTAATTTTTATAGTTTTCAGTTTTAATTTCTAGCTCAATATTTTTATATTTTATTTCTTCAAATCCATCTAATAACTGTCTATAACCAAGAAAAAATTCAATTATTTTTCGCTCTTTTCTTAATTTTAACTCCTTCATAAAATAAAAACATACAATTGATAAGCAAACAGAAATTAAATTCTGAACTAAAACTAAAGTTAAAATAAAAGGAGATATTAAAAGTAAAAATAATGAAGACATAAGAAAAAGAGTTAAGCCCAATGGTAAAGATATTGTACATTGACTTATAAAATCAGACATAGAATTTATATAAGATAATTTTTTTATTCATTCTTCTTTTGAAAAAGAGTTAAATTTTTCAATATTAAGATCTACAAGTTTGGTTTTATAAAAGCAAAATATATCTTTTGTAACTTTATTTTTTATTGTAAATATTATTTTATTAATAAAATAAGAAGTTATTGTTTGAACTACAAAAATTAAAGCAAAAGTTAAAAAAATTAATTGCATTGTTTTATTGTTTTTTAAATTTATATTATCCATATAAATTTTTATAAAATTATTACTAATTAAAATTAAGACATTAAGCAATATTGAAACAATAAATAATAATGATATTTCTAGTTTAAATTTTTTTAAAAAAGTAAATCAATTAAGTAGACTCTTATTTTTAAAATTTACTTTATCAAATACTTTTGTAGTTGATAAATATCCTTGATATATTTTTTTTATTTCATCACAACTTACTCATTTTAAATCATTTAAATTTGGATCAGCTATTAAGAACTCATTTTTTCGTTTTTTATAGACAATTATAAAATGATCCAAATCATTATCATTTAAAACATTTAAAACTATCGGATTTGTAATATCTATTTCTAATAGTTCATTAAAGTTGCATGTATAAGATACAAATTCAATTTTATATTTAGTCAATAAATTCTCAATATCATATAAACTTAACATTTCATCATTTAAAGAATTTTCAAATTTAATTTCTTCAATTCCAAAATCTTTATTATGATAATAATTTATTAACATTGAACTTATTGCAATACCACAATCATTTTCTCCTTTTTGCTTTAAAAACTTATAATTCAAATTTATCACCAATGAATTAATCGTTTAAATAATACAAAAAATTAAAATTTAATTGCAAATCTAATAAATTCTATATCATCTCATTTTAATTTAACTTTTTTTGGTCTTCCTTTAATAAAGAAATCAAATATAAATTCGTCATCTTTAAATTCTGTTAATGTTGCAGAAAATTCTGTAAAAGTTTCAATGGGATTAATAGTTTTTAAGAAAAAATAACTTCCAACATTGCTTTTTAAAATTTCTAATGTCCTTACAACTCTTTCTGCTCCTGCACTGGCAACTTCTAATATATATGGATCTTTAAGTTCTTTTATGTCATCTAATAAAGTAGAAAGATTTTCATTAGCTTTAATTAATAAATCAAAATCCATATTTTTCTTATTAGCATCTTTATTTTCTACCAAAACTTGTAATACTGTTGATTCAAAATCATTTACAATATTTAATTCATAAAGTAGAAAATCACTTTCGCTAAGAATTTCTTTTATATTATCTAAATATTTATCTTTTACAATTTCTAGTGACATAGCTACCTCTTTTATAAATTAATTTTATATTATTTTAGGTTAATAACTAAAAAAAGATAATGATTTTCATTTAAAAATTAAATGAAAGTTGCTCATCATCTTTTAAGTTATCAGTTATTTTAAGTTTTGCAAATATCTCAATTTGTGTCTGTGTTACTTGTGTTCTTTGTTTTAAATCATTAACACTTGTTATTTGTCTATCTTTTCGTGCATTAACAATAGATTTTGCCACAGCTTCTCCAAGAGAGTCAATAACGTTAAATGGAGGTATTAATATTTTTTTATTATCCTCTTTAAAAATAACAAATCTATTACCTTCTGAGATATTAAAATCAATATTTTTAATTTCTATGCCTCTTGCAAACATCTCTAATAATACTTCATAAACTGTGATTAAAGAGATTTCTTTTGCAGTAACTGGAAGTTTATTATTTAGTCTTTGTTTAATATCTTCAATTGATGCTTTAATTGCTTCTTTTCCTTTTAAAGCAGTTTCTAAATCAAAGAAATCTGCTCTAGTTGAAAATCAAACAGCATAATATTCTTCTGGATAGTAAATTTTATATCAAGCTACTCTGTAAGCCATTAATACATAAGCAGTGGCATGAGCTTTTGGAAACATATATTTAATTTTTAAACAACTGTTAATATATCATTCAGGAACATTGTGGTTTTTCATAAGAGCAATTCACTCTTTTGAAAGTCCTTTTCCTTTTCTAACACTTTCCATAATATTAAATGAATTGGAAGAGTCTAAACCTTTTGACATTAAATAAACCATAATATCATCTCTACAACCAATAACAGAAGATATATTTGCAACACCATCTTTAATTAAAGATTGAGCATTTCCAACATAAACATCAGTTCCATGACTTAATCCTGAAATTTGAACAAGATCTGCAAATGTTTTAGGTTTTGTTTCTTTTAACATATTTCTAACAAATTGAGTTCCAAATTCAGGAAGTCCAATTGCACCTGTTGTTTCTCCAAGAATTGATTGTGAATCGATTTTTAGAGCTGAAAGCTCAGAAAATAAAGAGTAAACTTTTTTATCATTTGTTGGGACTTTAATTGGATCAAATCCAGTTAAATCATATAACATTCTTAAAGCAGTTGGATCAACGTGTCCTAAAATATCCATTTTCAATAAATTATCATGAATTGAGTGAAAATCAAAATGTGTTGTTCTTCAATCACTTGTTTCATCATCTGCTGGATAATTTACTGGTGTAAAATCTTCAATTTCATATTCTTTTGGAAGAATAATAATTCCCCCTGGATGTTGTCCTGTTGTTCTTTTAACTCCTGTTGATAAACTTGCAAGTCTTTCAATTTCAGCTTTTCTAATTAAATCTAAATTAGCATTTTGTTTTTCAAAATATCCCATTGTAAATCCATAAGCTGTTTTTTCAGCAACAGTTGATATAGTACCAGCTCTAAAAACGTTATTTTCACCAAAAATTTCTTTAGTAAAATTATGAGCAATTGGTTGATATTCACCTGAAAAATTTAAATCTATGTCTGGAACTTTATCTCCATCAAATCCTAAAAAAGTTTCAAAAGGAATATCATGACCTTCTCCAATTAATTTTGAATTACATTTTGGACACATTTTATCTGGCAAATCATATCCACATTTAAATTCTTCAGATGTATCAAAATCTGAGTATTTACATTCAGTGCAAATATAGTGAGCTTTAAGTGGATTTACTTCTGTGATTAAAGATGTTGTTGCCACAAATGAACTTCCAACAGATCCACGACTTCCAACTAAATAACCATCATCATTTGATTTCTTAACTAATAAATGACTTATTCAATAAACCACTGCAAAACCATGTTTAATAATTGAAGCTAATTCTTTTTCTAAACGTGTTTTAACAATTTCGGGTAACTCTTCTCCATAAATTGCTTTGGCATTTTTATAACATTCATCTGTTAATAATTTATCCACATTTTCTATATTAGGTGGATATGAACCAGATTTAATAGGAATTATATTTTTATCAATTAAATCTGAAAGAGCTAATGAGTTTTGAATTACTATTTCATTTATTAATTCACTATTTTCTAATCATTTAAACTCTTCTAACATTTCATTTGTTGTTCTCAAATGTTGATCAGGATTATCTTTTACTCTTTGTTTGAAATCATAAAGTGGATGATAAACTCCTCCCAATCCTTTTGTATTTATATAAATATCTCTAATTTGTTTTAATTCAGGATCTATATAGTGAGCATCACTTGTTGCAATAATTTTTTTATTTAATTTCTTTGAAACTTCAATTATTTTTAAAATTACTTTTTTCAAACAGTCCATAGTTAAATCATCAGTTTGCAATAATTTTTTGTAAACACTCAATGGTTGAATTTCTATATAATCAAAAAGATTAATTGCCTCTTCTAGCATTTTAAAAGTTCCTGTTCTTGCATATTCAAAAACAATTCCATTAACACATCCACTACCAATTAAGATATTATTTTTTTCTCTCATTTCTAAAAGTTTTGATTGAAATATTTTTGGAGATCCTAAAAAATTCTCTGTATGAGAATAAGAAATTAGCTTATATAAATCTTTTAATCCATCTTGATTTTTTGCCAATACATTGACATGAAAACCTCTAGATCTTCTAAAATTCTCATTCTCAAATTTATTTTTATTAAATTTATTTCAATCTGAGTCAACATCAATTGGAGTAATTTTTTTAGCTTCACTTCACATATGTTCATACATATTTGTAAGTACTTCTGCATCATAGTCAGCACGGTGAGCAATTTTTTCATCATATAAAATTTGATATGCTTTAGCAACAGTTCCTAATCGATGATTTTTCAATTTTGGTTGTAAAAGTCTTGAAAGTGATAAAGTATCAATTACAGTATTTGTTAATTCACCATAGCCAAGTTTACTTGCAAAAGCTTGTAAGAAGTTAAAGTCAAAGTTAGCATTATGGGCAATAAGAATACCATCTTTAATAATTTCCATTATATTTTTAAACTCAATTTCAATTGAATTTTTGTCTTCTAACATTTCATTTGTAATATGAGTTAAATCTATTGTAAATTTTGATATTGGTTTAGTTGGTTTAATCAAAATATCATATTTTTTTGAAGTACCTTTAGCATAGTCATAAACATTTGCTCCAAATTCAATAATTTCATCATATTCTGGAGATAAACCTGTTGTTTCTAAGTCGAAAACAACAAATTTTGCTTCACGTAAGTTTTGATTCTTAGGATTTTTAATAATTCATGCTTCATCTTGTAACATTACAAGTTCACTACCATAAATTAGTTTTAATTTATTTTCTTCTTCTACACCTTTATTAACATCTAACAGTGCATAGTATGCTTCAGGAAATGCTTGTACATTTAAATGATCTGTAATAGCAATAGATTTTCAACCAAATCTTTTGGCAGCTTCAATATAACTTTTTGCACTACTTACTCCATCCATTACAGACATTTTTGTGTGAGTATGTAATTCAACTCTTTTAACTTTTGCTTCATCTTTTCTATAAGTTTTTTTTGATTCAATTTTCTTGTATTTATTAATATAAAAAATATATCCTTTATCAAAAGTTGAGAAATTGAAATTACCATTAAAAGAAACTCAATCTCCTTTTCTTATAATTTGGTTTTCAAAACCTGTCAGACTTTCTTTTGTCTCTTCTGTTATTTCATCAAAAAAAGTTGGGTCATTATTTCTTTGGAAAAAAATACACATAACTGATGATGTACCATCAGTTATTGCAATATTGTAAATATTTCTTCCTGCTTTAGATTTACGAGTATTTTTAGAGATAACTTCACCTTGAATTGTTACATTTTGAGCATCTTCTTCTAAATCAACTATTTTTTCATAAGTTGGTTTATTTAGAATTTCTTCATTTGATCTATATTTAGTTTTTGACAAAGAATAATTTGGCTTAGAATCACTCATTTCATTTTGCTGATTTGGAATTATTTTAGAAGCCTTTTCATATTTTTCTCTAATTGGTTCTAATACATCTGTTTGTGAATTTTTTTTAACTTTAATTTCTAAATCTATATCTTTAAAACCATATTTTAAAAGTTTATTTTTATAATAATCCTTATGTTCTTCTAAAAGAATTTTTTCAGTTTCATTAGAGACATTAAAAATAACTATTCTGTGCTCATTAAAATACTCAACAGTTGAAGGTGAAAGAATTTTAATTGTTCCTGTTTTAACCTCTGCTTTTTGCTCTTTAACATATTCAATATGATTTCATATTAATTCCTTTGAATAATTATTATTATCAACTAGTAAATTCAATTTTGTTGGAATTAAAGTGTTTGTATTTAAAATAGTTTCAATTTTATTTAATAAATGAATTGGTAAAAAATCTTTAATTTTAATAAAAACTCTCAATTTATTAATACTGGCACTAAATTCAGCTTCTTTATAAAAATGAGCTCCATCAAAATAAACTTCTTCAGATTCTTCTAAAAAAACATTTAATTTTTCAAACATATCTTTTACTTCTTTGTTCATTTTGTTAACCCCCTTTTATATTCTGCTAGACTATAAAATCTTTTATAGTAATTACTACAAATAATAGTAAGAATAAAATTGCTCCAGCTGTATTTACAAAAATTTTATATTTTAAAGGTAACTCTTTTCTTAATATCATTTCAATAAAATTTTCTAATAATCTGTATCCATCAAGTGGTGGTAAGAAAATTAAGTTTAATATAAATAAATTGGCACTAATTGTTGCTACATAAATAAAGAATTGATCTGCACTTTGCAATAGAGTTGCAGTTTGTTTTGCAACTCCCACTGGTCCTACAAGATTTGAGAATTTACCGGTAAATACATTTCCAAGAGCTTCTAAAATTGAAATTGAAGCCTTAAATGTTTCTCCTCATCCAGCTCCATAAGCCTGAGCTGTAGTTTCATAAATTCTATTTGGAGCAGCTATTCCTACTGAGTCACCAGCTTTAATATCTTGCAATTCAGTGATAACTCCATCTTTGTAATTATCCAGTGCATATCCACTGTATTTATCGACTTTTTTGTAAGCAAATTGAATTTTTATATTTTCATGATCTTTTGATAATTTTAAATTATCAATAAAATTATAAACGGTCTTTTTATAATCAACAGCTTTTTGTTCATTTAAACTATTTATTGTTATTTTCTCATCACATTTTGTAGTCTTTGCATCACAAATATTGTCAAATAAAATTTCATCTTTTTCATTTTGAACTGAAATCATTTTTCACCCTCAAATAACATAATCTTGCCCCACATATTCAACATTAATATTTTGACTCTTTTCTTTCTCTTTAATTGCTTTTGCAGCAATTCCTTCTTGGACATAGTTTGCCCCAAAATAAGTCATATCATTTTTCTTTTCTCCAATTGCTGCAAAAATAGTTGTAAATAACAATAATGCAATAAATAAATTCATTAAAGGTCCCGCTAAAATAAAGAACATTTTCTTTCATCTTGCAATATAATCTAATTTTCTATCATCTGGAACCACTTCATCTTCTCTATCACTTGGAGGATCTGCTTTATCTGATGCAATTGAACAATATCCTCCTAGCGGAAATATTCTAATAGAAATTCAAGTTTCTTTTCCTTTGAATACAAAAAGTCTTGGTCCAAAACCAATTGAAAATTCATAAACATAAGCCTTTGCCATTTTGGCCACAACCAAGTGACCAATTTCATGAATAGTTATTAATAATAACATAACTATAATTCCAATAAAAAAAGCTAATACAACCATTCCACTACTTACTTCACTCATTTATTATTCTCCAATTCTTGACAATGTAATTTTTCTTATTGCTTTATCATATTTTAATATTTCATCATAAGTTTTTAATTCTATATTTTCACATTCATTAAAAACCATTTCCACAATTTCTGTTATTTGATAAAACTTTATTTTTCCCTTTAAAAAATAATCTACACATACTTCATTTGAAGCATTTAAAGCAATTGACTTTGAGTTTTTGTATTTAAGACAATTTAAAGCAAATTTAATAGGTTTAAATCTATCTTGATCAATTTCTTTTAGTTCTAAATTAATTAAATCATTAAATTGCATATCTTTTTGTTTATAATATGAAAATCTTTTAGGATAATGTAAAAAATAGTTAATTACTTGTTTCATATCTGGAACAGATAATTGTGCTTTTATTGATCCATCATTAAATCCAACCATTGAATGAATAATTGATTGGGGATGTAGTAAAACTTTTATATTTTTAACTCCAAACAAATAATATGCTTCTAATATCTCAAAAGCCTTATTGAACATTGTTGAACTATCTATTGTTATTTTTTTACCCATATTTCAATTTGGATGTTGTAAAGCATCTTGTAAAGTTACTTTTTTAGTTTCTTGTAAAGTCAAATTTCTAAAACTTCCCCCTGATGCTGTTAAAAATAAAGTAGTTGGTTTATTCTCTTTTTCCAAACATTGAAAAATAGCACAATGCTCTGAATCAATTGGATAAATTTTAGTTTTACTTGTTTTAAGCATTTGATTAATTAAGTTTCCAGCTGTTACAAATGATTCTTTGTTAGCATTTAATAAAACTAAATTTTTTTCAATTGTTTTTAAAGTTACTTGTAAACCATAAAAACCACTTAAAGCATTAATAATTATTTCTTCCTTATTATTAAATAAATTTAAGATATCATCACTTATAAATTCAACTTTTGGAAATTTTATTTTTAAATAAGTGAGCTCTTTTTTAGAATAAATCTTTTTCAAACTTGGAAAAGAAAGCAAAAAAGATTCTACTTCTGAATCATTTTCCCCCACACTAAGTGCTATTAAATTATATTTATCTTTATTTTCTCTTAGCAATTTTATACATTGCTTTCCAATATTTCCTGATGCTCCAAATAATATTATATTTTTCATACTAAACAGGTAAACAAGATATAAAGATAAATAATATAAACAATGAAAATAGAATTGAATCCATTCTATCTAAAGCTCCACCGTGTCCTGGAATTAGATTTGAATAATCTTTAATTTTAACTACTCTTTTTACTCAAGAGAATAATAAATCTCCAAATAAACCAATAATTGGAAAGACAATTGCTAATAAAAGATAGATAATTATCTCTAATGCTATTGTTTTATCTCCAAGTGATTGCATTGGTTCTCTTAAAGGTTGGAAATTCTGTAAAGGTTTCACGAATTGAAAAATCATTGCAAAAACTATTCCAGTAAATGCTGCTGTTCCCATACCTATTAAAGCTCCCTCTCAAGTTTTTTTAGGACTTATACTAGGGCATAATTTAGTTTTTCCAAATCTCATACCTCCAAGATATTGGAATGAATCACTTAAAATAATCATCATTCAAATTCAAACAATAGTGTTGAATGAAAATCTTGCTAAATTATTATCAAGTGCCAATGAAGTAATTGAAAATGCTTTTAAAGCAAGAATAATTATTAAAGTCATTATAAAGTTTATCAATGCATTTTTTGTATCAATTCTTTTATCTGAAACAGAAATAATTATTGTAATTAATAAATAAACTGTAATAATAACTGGAAACTGTCATGTTTGAAATCATGTTTCCAAACTTAATTCAGTATAAAATGAAAAATTATATAAATTATACTTTGATGGAAATAACAATAATAATATTGAAATAGTAATTATTAAAACTTGATAATATCAAAATTTAAATCCCATAACTTTATTCATTTCATAAATACAAAGTCCTGTTAAAACAACAGTTAGAATTATTGAAAAATATGAAGCAATTTCTGGATTACCTATATTTGCTGTCTTTAAAGATGTATAAATAGCTCCAGAACAGACGAAACCTAAAAGTAAAATTAAAAGAACTACTGTTGAAAGAAGTCTAGTTTTTAAATTTCTTTTTGCTGATTCTAATTTAAAACGATTCTTGCCAATATTATCGTCAGTTTCTGGTGAAATTTCAACTGTATCAGGGACTTCAAAATTCTTATCATTAGTTTTCATTTTTTATTTCTCCAAATCTTCTATTTCTATTATTATAATATTCAATTGCTAACTTTAAATCTTTTTCTTTAAAATCAGGTCAATATTGATCTATAAAATAAAATTCAGCATATGCTAATTGTAAAAGCATGAAATTACTTAATCTTTTTTCTCCACCAGTTCTAATTAATAAATCTACTGGTGGTGCTTTTTTTGTATATAAATTATCCAAAATTGTCTGAACAGTAAAATCTTCAAGTAAAATTTTTTTATTATTAATATCGCTAAATACTATTTTAAAAGCATTTTCTATTTCTTCAAAAGAACCATAGTCTAAGGCAATATGAACTACAATTTGATCACATTTTTTTGTTTTTTCTTCTATTTCTTCTAGTATTTCTTTTGTTTTTAAAGGAACTTTACTTCTTCGTCCAATTCAAACAATTTTAATGCCCTCTTTAACGTATTGTTCTTGTTGTTTTTTTGAAAAAATTTCACTTGGAAAATTCATTAAATAATTTACTTCTCCATCTGGTCTATTTCAGTTTTCTGTTGAAAAACAAAACATTGTTATATATTTTATTTCCAATTTTTTTGAACTTAAAATTGTTGGCAAGATATTTTTCATACCAATTTTATGTCCATATGTTCTTTGTTTTTTTCTTGCCTTAGCTCATCTTCCATTTCCATCAAGAATAAAAGCTATATGTTCCAATTTTTTGATAATTTCAACCTCTCTTATTTTACTATTTGAAGTTCTCTTAATGGAGTAGTTAAAAATTCATATCCATTTTTAGTAACTAAGATATCATCTTCAATTCTTACTCCCCCAATTTCAGGAATATAAATTCCTGGTTCAACAGTAACGCACATACCTTCTTGTAAAATTTTATTACCTGCTGCTGAGTTATAAGGCTCTTCGTGAATTTCAATTCCTAAACCATGTCCAGTTCCGTGAGTAAAATATTTACCATAGCCTTTACTTTCAATATAGTCATAACAAATTTTGTGTACTTCATTTCCACTAATTCCTGGTTTGATACTTTCAATTCCTAATTGTTGTGAATTATAAACTATTTCATAAATTTCTTTTAACTTTGTATTATCAGTATTTCCCATTACAAAAGTTCTTGTTTGATCAGAGCAATACCCATTAAAGTAACATCCCATATCAAGAGTTACAAAATCCCCAGTTTCAATTTTTTTATCAGTTGGAACAGCATGAGGCATACTTCCATTTTTACCACTTGCCACAATTGTGTCAAAACTTAGTTTTTCAGCACCATTTTTTAAAAATGAATCACTTACAAATCTAGCTAAGTCTTTTTCACTCATTCCTGGTTTAACAAAATCTAAAACTTCCAAAAATACTTTATGTGTAATATCACATGCTTTTTTAATTTGTTCAACTTCTCATTGATCTTTTACCATTCTAATTGCATCAAAATTATAACCTACCATTTGTGCATTTAGTTTTTCTTGGAAAATTTGTGAATCTTTAACAAAAACTCAATCACTTTCAAAAATAATTGTTTTTATTTTATTATTTGATATTTCTTTATTAATTAATTCATATAACTTCCCAAATTCTATTATTTCATCAATATTATTTAATAATTTTGAGTTTCTTGCAGCTATAATATATCTTCCATCAACAAATAAATATGATTTTTCACTTGTATATAAAAGATATCCAAGAGATGAGTGAAATCTAGAAAATCAGTATCTATTTTGAGGTGAATACAATAAAATTGCATCTGCATTATTTTCTTTTAAAATTTTATTTAGTATTTCTTTTTTCATACGTTTGAACTCCTTTTAATAATACTATACAAAAAAAGAGAGTAAAAAACCTTATAAAAAGTATTTTTTATTCTCTCTATTTTTTTTGTTTGTGAACTTGATGTGAATTACATTTAAAACAATGTTTTTTAACTTCAATTTTATCTTTTCTTTTATCGTTTTTTGCTATGTAATTTTCTTCTTTACAAGTTGCACAACGTAAAATAACTCCTTCACGCATATTCTTAAGCCTCCTTGATAATTTTGATTAAGATAATAAGCAAAATAATAATACCAAAAAATATAAAAGAATACTCATTTTTTTACTATAAATAATAATTTTTTTTAAAAAAAACTGAAAAAAAGATTAATTTGTAGTATTATCTATATAGATAGATGTCTATATAGATAACTATCTTAAGGAGGATTACTATGAATAAAATTTCTTCAGCATGTAATTGTGAAGTATGTACTTGTTCAAATTGTACTTGTTCAAATTGCTAATAAAAATTTTTTAAAATAGAGTTTATATAGCTCTATTTTTTATTTATTACAATTTGAGCAGTTCATTAGTTTTTTCTCTTCTTGTATTGAACCTATAAAATTGTTTATTTCTTTTATCATTTCTTGATTTACTTTATATATCTTTGAGTTTTTTTCTTTTGTAGAATTTAAAATCCCAACTTTTTCTAACATTTTCATATGATAACTTAAAGTTGGTTGAGTAATGTTTAAGTTATCTAATATATTTTGAGCACATTTATTACATCCACAATCGCAGATCATATTAATAATTTTTAATCTTGTTGGATCTGCTAGAGTTTTAAAAACTTCTGCAAATTTTGTATATTTTTTTTCCATGTATAAAACCTCTATTTATCTCAATAATTTAAATAATTATATCAATTTTACATAAATTATTTTTGAACTTTATTTTTTTAAATAAAATAAAATTTTATTTAAAAAAAATGTGTAAAATAATAATAGTAAATTAGGAGTGATTAAAGTGAGAAAATTACTTAGCGTAATTTCAGCCACAACACTAGTTGGAACATCAACTTTAACTGTTGTTTCTTGTAGTTCAAATAAAAATTATAAAGAATTTAAAGGATGAATTGATAATAAAGAATCATTCATTTTATATATAGGAGCAGATAACTGTCCACATTGTCAAGATTTTGAATTCGTACAAAAAAAATACGATAAAAAATTTAATGATAAAATTAATGAGTTAAATACAAGTTATAACCAAAAAGTTGTAAATCAACAAGGATCTGAAAATCCAGATTCACTTATTGCATATGGTGAAAAATTAAACAATGATGTTAATTTAAGAACATTTAAAACAGAAGAATATCAAAGTAAATTTACTGAAAAGTGAACAAAAAATATTCTAAATTGAATGATTGATGAAGTAACTGAGATTTATAAAAAACAATATACTATTGGCGATAATATGAGCGATAAATTAGCAACAAAATTAGCTAAAGCAAAAGTAAAAAAATACTTTAATCTTGATGCAACTCAGGGATTTCCAATGTTTATATTAGTTAGAAATGGTAAATTAGTTTCTTGACAAAGTGGTTTTGGCAGTCAATCTGCTGGAGGATGAACTGAAACTTTACTTGATGATTTATTTGATCCTTTAATAACTGCAATGAATAACGGAGAACAAGAAGCTGAAATTATTAAAAAAGTAGATACAGGATTAAACTCTGGTGGAGGCGAAACTGGATCTGGTGGAGAAACTGGATCTGGTGGAGAAACAAAAAATAAACCTAAAACTAAGGCTAAAGCCAATACTAAAACTAACCCTAAAGTTAAAAGTAACAATAAAGCTAAATCAGTAAATTATTCAATAAGTGATAATCTTTTAATTGATTACTTAACTAATACAATTATCTAGAATAAAAAACTCCTATTAAGGAGTTTTTTATTTTTTTAGTTATTAGTTTTAAGTTTCTTTCCTACCTTTTTATTTATTAACAAACTTAATCTTATTCTTTTAATTTTGGAAAAGCTTTATTGTAAAAAAAGGAAATATTAAATAATATAATAAAATAAATAGAAATAGAAATAAGTAAAAAATAAATCAAGTTGGAGAAATGTTTTATTCCTTATTTAAAAAATATCGTGGTGATGGTTTTAATAATGGATTAAAAATGTATGATATTTGTACAATAGCATATATTTTAAATCCTGAGTTATTTATAGTTGAAAAAGCATATGTTGAAATTGATACACAAAAGGAAATAAGTGTAGGTACAATGTATGTTGATTTTAAGGGTTATTTAAGAAAAGAACCAAATGTAAAAATAATGACAGATATAAACTCAAAAAAATTCATTTCATAATTTCTAGATAAAATTAAGCAATGCAAAATTAATTAAAAAATAAGTTTTACAGATTCAAAAAATGCAAAACTTATTTTTATATCTAGTTATTTTTCAAAAAGAAAAAAAGCACTCTTTAGAGTGCTTTCTTAATCAAGTCCTTAATAATGGTCCCCAGGGCCGGACTTGAACCGGCACGACCGCTTAAAGTCGCTGGATTTTAAGTCCAGTGCGTCTACCTATTCCGCCACCTGGGGTTAATAAAAAAATGGTGTCCCGTATAAGACTTGAACTTATGACCCACTGGTTAAAAGCCAGTTGCTCTACCGACTGAGCTAACGAGACGTTACTAAAATAAATGGCTGGGCTAGCAGGATTCGAACCGGCGCATGAGGGAGTCAAAGTCCCTTGCCTTACCGCTTGGCTATAGCCCAATAACTGGTGGGGAGTGACGGATTCGAACCGCCGAACCGTTAGGAGATGGTTTACAGCCACCCGCGTTTAGCCACTTCGCTAACTCCCCTTAAATAATAATGTGGTGCTGACTAAAGGACTCGAACCTTCGACCTATTGATTACTAGTCAATTGCTCTACCAACTGAGCTAAGTCAGCAGTTATCCTTTTCTACAAAAGTAAGAACCTTTTCAATTATACAAAAAATATTAAGTTAAAGTCAATGATTTTTTATAAATATTTTAAAAAGATATTAAAAATCTCTCATTTTTAAATAAAAAAAGCACTCTGGGCGGAGTACTTAATTAATAAATCTAGAATAGTCAATACTTTACATATTATAAATCTAAATATTATGTTCATTTGATAGGGCTAAATAAACATCATGGGCTAATGCTTTAAACTATTCCAGACAAATAAATTATATTTTAAATGCTCTTAAATTTCAATATTTAAAAGTTAATTTTTTAAATATAATAGATATCTAACTAGTTAAAAGTTTAAGAATTAATTCTTCATTTTCTTTTTTATCTTTTATTAAAATTAATTCTTCTGCTTTTTGTTTAAAACTTTCAACATTATCTCTATTTGTATAAAGAGTCATTATAACTTCTCCTTTTTTTACAAATTCATTAGTTGTTTTATTTAAATAAATTCCTGCAGAAAAATCAATTTCTTCTTCTTTAGTTGCTCTTCCAGCTCCTAAATACATTGAAAGATATCCTAATTGATCTGCTGAAACAAATGAAACATAACCCTCTTTTTGAGCAAAAACTTCAATAACATGTTTTGTTGAGAAATTTTTATCATAATCAATAATTACATCAAAATTGCCGTTTTGTGCCTCTATAAAGTCCTTTAACAAGTGTGCAGCACTTTTATCTTTTAATACCTTTAAAAGCTCTTCTTTAGCTGTTTTTAAGTCCTTAAAAACTTCATTTTGCACTAAAGTCAATCCAGCTGCAGTTACACACAATTCTTCTAAATCAGAAGGTCCATTACCATTTAAAGTATCTCATGCTTCTTTTACTTCAATTGCATTTCCAATTGCTCTTCCCAATGGTTTGTCCATATTTGTAATCATTACACTAACATTTCTGTTATGCTCTTTTCCAATACCTATCATTGTTTTTGAAAGTTCAACAGCTTTGTCTAAATCTTTCATAAAAGCTCCACTTCCCATTTTTACATCTAAAATAATGCTATTTGCTGGAATAACTAATTTTTTTGACATAATACTTGAAGCTATTAGTGGAATTGAATCTACAGTACCTGTAACATCTCTTAAAGCATAAAGCTTTTTGTCTGCAGGAACTACTTGACTTGATTGACTCATAATTGAAATACCAATTTCATTTAGTATTTCTTTAAATCTATGATCTGATATTTCACCAGTTCATCCTGGACAACTTTCTAATTTATCAATAGTTCCTCCAGTTTGTCCTAATCCTCTCCCTGAAAGTTTAGCAACTTTAACTCCAAACTTTGCAACTAAAGGTGAAAAAATTAGACTTGTTTTGTCTCCAATTCCCCCTGTTGAATGTTTGTCAGCTATTAGTCCTTTAACTTCACTTAAATCATAAGTTATACCTGAATCAATCATTGCTTGAGTAAATGAAGCAATTTCTTTAGTTGACATTCCATTAAATCAAACTGCCATATTAAAAGCTGACATTTGATAATCTTTTAATGAATTATTAACAAAAGAATTAACTACTCAATAAATTTCTTGAGTACTTAATTCTATATTTTTTTTCTTTTTTTCTATAATATCTACAAAATTCATATCTTTATCTCCGTTTTAATAAAAAACTAGTAATATGCGACTCTATTTTTTTTATCTATTCTTTTTGGTTTTATTCCTAATGCTTTTGGATCTCAATTTTTATAAGCTTCAATATTTTTTTCCACTTCTTTTTGAACATTTTTAGTTAGCATTTCTGTTTTAAGCGATATAAATTTTTCTGGCAATAATGGTTTTCCAAAAACAACTTTAATATGAAATCTTCCTCTCGGTCTTTTTTCAAATAATTTGTATGAATCAATTATTGAAACTGGAACAATTGGAACATATGCCATTTGAGCTAATTTCATACTTGCTGGTTGAAATTCATTTGGTTGTTGTTTAGCACTTCTTGTTCCCTCTGGAAAAATAACTAAACTTCTTTTATATTCAGAAATTAATATTTTTGCTTCTTTCATAGCATTTAGCGCACTTCTTGGATTTGCTCTATCTAAAGGCACATTATCAATTAAATTCATAAAGTGTCTAAATATTTTTGTTTTTCATAATTCTTGCTTTGCAATAAAAGCAATTGGTTGTTGTAAAGAAAAGTCGTTTATAGCCATCATTAAAATTGAATCTAAATTTGATTGATGATTTGGTGCTAAAACAATACCTCTATCTAATCAATTTTCAATGCCAATGACATCTACTTGAACATTAGCAATTTTTAGAACTTTTCTACTCTTCTTTTTAACTCAATTATATCTTCACTCTTCTGAATATAAATTTGGGTCTTGTTTTATTTTTTTTGATACTTTTTTAGCTTTGGCTGTAACTCTTCAAATACTTCATGCATTAGTAAATAATCTTCATTTACTTACATGTGCCATTTCCTTTTTGTCTTTTTTTTCTTCTTGATTTTTATCACTTATTTTTTTTTCTTTTGCTAATTCTAATTGTTCCATTTTTAATACCTTTCATAATAATAGATTTCAAATTCTTCAAAATCCATTTGCTTTGTAATTTTAAAAAGTGACTTATCAAATTGTGGAGCAAAAGTATCTCCTTGATAGTCTTTTTTAATAACACTGATTATTAATCTATCTGCATAATTAAGTGCAGTTTCATAAATCTGAGAACCTCCAATAATGACAAGTTCTTCTTCAATGGATTTATACTTTTCTAGAAAATCTTCTAATTTATTAGACAATTCAATATCATTATAACTCTTTTCCAATTTTCTTGAAGTAATTAATATATTTTTTCTATTTGGTAAGGGTTTAACAGAAAGTGAGTCTCAAGTATTTCTACCCATTAAGATTGTTTTTCCCTTTGTATAATTTATAAAATGTTGCATTTCTTCTTTAATATTTCAAGGTAATTTATTATTTTTACCAATAACTCCATCTTTTGTTTGAGCTCAAATAAGTGAAATCATTAAACAGCCACTGCTCCTTTAATTATAGGATGACTTTCATATCCCTCTAAAGAAATATCTTCAAATTTTATTTCAAAAATTGATTTATTTTTTGTATCAATTTTTAAAGTTGGCAATTTTTTTGGTTCTCTTGTTAATTGTAATTCTAATTGCTTAATATGATTTGAATAAATATGAGCATCTCCTATTGTATGAATAAAATATCTTGGTTTTAAATCACATTCAATAGCTACTAATTCTAAAAGTAAAGAATAACTTGCTATATTAAAAGGTACTCCTAAAAAAATATCTCCACTTCTTTGATAAAGTTGTAAATCTATGAATTTGTCTTTTGAAACATAAAATTGAAATAAAGAATGACATGGAGGTAAAGCCATTTCATTAACTTCTGCTGGATTTCAAGCAGATATTATATGTCTTCTTGAATATGGATTCTTTTTAATATCATTGATTAAATTTTTAAACTGATCTACACCATTGAAATTTCTTCATTGCTTTCCATAAACAGGTCCTAAATCACCATGTTTTTTAGCAAAATCAGAGTTATTTTTAATTTTATCGATAAATTCTTGCAAAGTTTCATTTTTATAATCTTTTTGCTTTTTAAAGATTTCATAAGGTCATTCATTTCAAATATTGACATTATTATCAACAAGATACTTTATATTTGTATCTCCACTAATAAATCAAAGAATCTCATGAACTATTCCTTTAAAAAAAACTTTTTTTGTTGTAACAAGAGGAAATCCTTGTCTTAAATCATATCTTGATTGAGTTCCAAACTTCGAAATAGTTCCTGTATTAGTTCTATCTTCTCTATTTTCTCCAGTTTTTAAAATATCGTTTACCAAGTCTAAATATTGTTTCATACTATCACCTTCTAAGATTATAACTAGTTAAAAAAATAAAAACCACAAAATATACTGTGGTTTTTATAAATTTAGAGCAACTGCAACTGAATAGTTCTGTTCATGACTTATTGATATTTCTATATTTCTATATTCTTGATTTTCAATAATTGGCTTTTCATTATCATAAATAATATTAATTGAATTTAAAACTATTTTTTTTTCAAGACACTTTATTAATGCTTCTTTTGCAGCTCATCTTCCTGCTACAAATTGAGTTTTTGCTTCTTGACTTTGCAATTTATTTAGCAAAATGAATTCACTTTCATGCAAAAACTTCTTTAAGAATTTATCATTTAAATTAATTCTTTTATTTTCAACAATATCTATTCCTATTTTTGCCATAATTAATTAAAATATCCTTTTGCAAAATCAAAGTAGTATTGAATTCAATAACTATTTTTATAGTTATCTTTTCATCATTTTTGTTGTTCTGGTTCAATATCTTCTACATTATTTTTAGTTTCAAAAGTTGCTCGTGTTGCAAAATTTGCAAGTCTAGAAGGTAGTGCATCAATACCATAGAATTCTCCAAGTTTTAATTCACCTGAGGGCACTATTTCTAATCCATCAATTAAATAATTTGCTGTATAAATTGTTGATAAATAAGGCATTGTATCTAAATTATTTCTTGTTGTTGCATTTACATAATTTAAACTTTTAAAGAAGTTATAAGTCAATTTTGGATCTCTTAAAACTGTTGACATATGTCTTTGAGTCGTTTTACCCGTTGCTTTTCATTTTTCATCAATATTATCTGCTAATTTAATAAATGGATTAACTCTTGTATCTTGTTGTGTATTTGGACTTTCACTAACTCATTTATAAAAGTTAATCATTTCACTTTCGTTTAATCACCCTTCATGTAATTTTTCTTTATCATGATTTGTTGATAAATAATATTTATCTAAAGCATTGATTAATTGAACACTTGTAACTTCAGTTTTTGTAGTAGTTGTATCATTTACAAATATAGCTGTACCCATTAACATCATCTCTGTTGTTAATCTGAAAAGAGATCTTGAATCTTTTGGCATTACTTCAATACAAGTTGATACTGGTGTTTCAAGTGGATTTGTAGTTGAATAACCTTTTGCTAATAAATCTTCATAAACCACAAAAAAGTCTTTTAAATTATCTGTTGATTTATCTGCAATTAGTTGAGAAGAAATAACCATAAGTGGATCTAAGACATATTTTGTAATACAAGAGTTTGTATATGTAAATCCAAAGATTGGAATTGCAGGCATTGGTGAGCTTATCTTTCTTGCTAAAGAATATTTTTTATATGCGCTTCCATTAAGAACTTTATCTTTAATTTGTTCTTCTGTCATATTTGAATAATCCATTAACCCTATTCTTTGATTTTCTGTTTGAAATAAAGGAAAACTAGCCATAAAACTAACAGACATTGATAAAGTCATTCCTAAAGCAAGACCATTAAAAGCTCCTATTAATGTATCTACACTTCCAATAATTTTAACTTTGCTCATTTTTCTTTTAAAAGCTCTGTAAAAAATTAAACCAATTATATTTACAAATATAAATATAAATATACTAAAAAAGACATATATTCCAAGTGCTGATATTACTTTTAAAATCTCATAACCTGTTCCTGATCCATCAATTGGTAGGTTTGTCGACCCTGGTAAAAGACCTGAAATAAAGTTACCAAGTGTTACACCAAGAGAAGAAAAAACATCAACAAAACCAGATTTTACTCATAATTTCATAAAAGTTGGATTTAAAGCATTAGTTAAAAGTGCTGGGACAAACATTAAGATTATAAGTGCTATAACTTGTAAAAGAAGTAAATAAAAAGTTGCTAAAAAACCTCTTTTAATTCCCCAAACAGTGCAGCCAATTATAATAGAAAAAGCCATTATATCAAATAGTCATCACGGCCCTATATTAATCATTTGCTTTTCCTCCCATCATACTATAATTTATTATACCAATATTATTATTTGAAACTTAAATCATATTTTACTTTATAATTTATTTTGAAGGAGTAATAAATATATGAATAATAAAAGTTTTAAAAGAGTAAATGAAGAAGTAATAAACAAAATTGTTAATGAAAATCAAAACTTTTTATATACTTCTAAAAATAAAAGTATAAAATATTTATTCAAACTTCCATACGGACTTGTAGTTAATATTTACAAAACAAATACAATATTATTACAAGGTGAGAAAATAGAAGAATTTGCAAGTAAATATTTATTAAACTCTGATTCTGACAAAAATAAGTCTACTTTAGTTAAAAAAATAATAGAACTACCAAATATTGGCTGTGATGAAGTTGGAGTTGGAGACTTCTTTGGACCTTTAATAACTTGTTGTGCTTTTGTAGAAAAAGACTTTCTAAAAAAATATCCTTTATTAATTAAAGAAATAGTAGATTCAAAAAAAATAACTGACTTAAAAATAATTAACTTATTTGAACAAATAAAAGACAAAGTTATTTGAGAAGTTTATATACTTGATAATTCAAATTATAATAAAGCATATGATATTTACAAAAATACTCATAAATTAAAAGCAATATGCCATAATCAGGCTTTAAAGAAATTACTTAAAAATAATATAAATCTAAAGGATATACAAATAATAATGGATCAATTTGTAGATGAAAAAAACTACTATAAATATTTACTAGATCAAAAAGTTGTAATTAAAGATATCTATTTTGAAACTAAAGCAGAATCAAAATATATATCAGTGGCTTGTGCAAGTATTATTGCTCGTTATCATTTTTTAAAAGAAATTAAAAGATTAGAGAAAGAATTTCAAGTAAAACTACCTTTAGGAGCTAATAATCATGTAAAAGATTATGTTAATAGATATAAAATAGAAAAAAAAGATATTGTTGATAAATTTACAAAATTACATTTCAACAGTAAAATATAAAAAACCCATTTTAAAATGGGTTTTTTATATTCTTAACGATGGACGCATTAAGAATATTAATTTACTTTAATAAATTAATGTTTGAAATACAGAGTGCTAGTAAACTAACACAATTTATATTATATTTTAAAAAAGGAAAAATAAAATAACTTTTTAAACTAATTTAATGATACTTTAACTGCTTTTTTAAAAACTAATTCAACTTTTGCATCTTTAAGCATTTTTTTTGCTATTTTATTATGCACTGTATCTTCATATTTATCACAAGAATATATTATTTTTTTAATTCCTGATTGAATAATACTTTTTGAGCATTCATTACAAGGAAATAAATTTGTATATATTATACCTCCTCTTACAGATTCTTTTGAAGACAAAATAGCATTTAATTCTGCATGTACAATATAAGGATATTTTGTATTTTCCAACTCTCCATCTCTTGCTCAAGGATAATTATCATCATTTAATCCTCTTGGCAAACCATTATAACCAGTTGAAATAACTTGTTTTAAATCATTTACAATAACACATCCAACTTGAGTTACTGGGTCTTTACTTCTCATTGCATTTAATTGAACCATTGCTAAAAAATATGTATCTCAATCTATATAATCTTTTCTTTTTTTCATAAACTTTTCTAACTCCAACTAATAATAGTACCATCTGAATTCATAAATCAATTTCATCCATTTCGTTGAAATATTTTATTTGCACTATCTGCTGACATTCAGTTTTTATGAACATAAACAGATAAAGCTCGTGCTGATAACAAATCATGTGCTGGCATATAATAATTAATAAAAGTTAAAGTTAATGGTAAAACTAATGCAAATATTAGTATTACTATTGGTAAAATTATTAATTTATCTATATTTTGCTTATTATAAATTGATAATAAATAAATGCTTGAAGATATAGCAGCTGAAGCAATTATCATAATATATATATGAAATTGTTGTGAAAATAGTGGATAAAAAATTAAACATATTATTGGAAAAATTAATCTATTTTTTGAGAATAATTGAATTGGTTCTCTTTTTTTATCTCAAGTAGTTACCCCAAGCACTCCAACTACACTTGCCATAAATCCTATTCCCCCTGAAAAAATTGCAGTTTCAGATGGAATAGTTGCACTTACAAAAAAACCTGTTAATGGATAAGTTATAAATATTGCAAGAGCAAATCTAAAAGAACCTACAAGTCCTTCAGTATATCTTGCAATTTTAATTGTTCCATAAGTTATAAATATAATTTGAAAAATAGCCATTGGAAGTCCAGCTGAAAGAACTGTAAATCCATATGTAAATATTCTTCACCACTGACCACCAGTTATTGTTAAATTTCTATTTGTTGCACCAAAAAATAAATCTGCTATTCTTGAATCTAAAGGATTAAATCAAAGAAAATATAGTATTGTTGTAACAATTGGAAGTATAAAGAAAATACTAGATAAAATTATAGAAATAGGACTATTTTTATTCATTCTTTGAACTGCTTTTTTAAATTTTAAATTTGTTGATTTTGAAGGATTTTGAAGAATTTCAATTAATTCTTCATCAGAGATTCTTTCATCCTCTTCTTCTTTTTCAGGTTCTTTTAAAGAATCAATTTTTGAGAAATATGGCTTTAATTTTACTTTTATATTTTCTAAATTAGAAACACTAAAAGTTGTTCCTTCTAAAGCAATATCTATATCTTGATCACTTAAAGCAATATTTAAAATGTCAATTTTTTCTCTTTTTTGTTTTTTTAAAGTATCTTTTATTTCGCCTAAGTTTTTATCAGTTGTAACAGGTGAACCCACAGTTACTCTAATTATTTTGAATTCAGCTTTAGGATTAACTAAATATGAAGCATAATCATTGCTATACTTTTCCAAAGCTTTATATTTTTCAACTTTAACAAAATAGTGAACTAAACTTAATTTTAATTCATTGAAATTTGCCATATATAACTACTCACCTATTCTTTTAAACATATTGATTTTATCATTAAATTGTTTTGGTAACTCACTTATTAATTCAATTTTTTCATTAGTTATCGGATGATTAAATGCAAGCTTATAAGAGTGTAGATATTGACCAAACTCATCTTTCATATCCTCTTTAAATGCATAAAGTGGATCTCCAACAACTGGATGTTTTATATAAGCTAAATGTACTCTAATTTGATGAGTTCTTCCAGTTTCAATAATACAACTTATTTTTGTATGATTTTCAAAACGCTCTAAAACTTTAAAATTTGTAATTGCATGTTTTGAATTAATATCTGTTATTGTCATTTTTTTTCTATCACCCTTATGACGACCAATTGGAGCATTAATTTTTCCAGCATTTGGTTCAATAATACCATGAACTAAAGCGATATACTCCTTATGAATTTGATTATTTGCCAACATTTCAGTTAGTTTTTTATGAGATTTATCATTTTTTGCAACAATCATTAATCCTGTTGTCATTTTATCAAGTCTATGAACTATTCCAGGGCGCAATACTCCCCCAATTGAAGATAAATCTTTAATTTTAAATAATAATCCATTTACCAAAGTTCCATTGGGATTTCCTGCAGCAGGGTGAACTACAAGTCCATTTGGTTTATTAACTACTAATAAATCTTTGTCTTCATAAACTATTTCAAAATCAATATCTTCAGCTTGTGCTGTTAATTCAACAGGCTCTTTTAAATTTATTTTAATAGTATCTCCATTTAAAAGATTATATTTAACACTAACTGTTTGATCATTTACAAGAACATCATTAGATTCAATTAATTTTTGAACATAACTTCTAGAAAAATCATAATCTTTTTTTAGGTAATCTGTTAAAAATTTATCTAATCTTCCTAAATCCTGTTCTAATTTAATTTCTAATTGTTCCATAATTTACCCCTTTTGCTTATATTCTTTTCATGTTTTTGAAAGTTCTTGATTACTTTTCAAATATTGTTTATATGTCATTTTTTCTTCTTTTTTAAAATTGAATTTTTGATAATATACTTCAAAAAGAATTTGTTTTCTATTCTGAATATCGCAGTAAAATTCATATTTATCTTTGTCTTTTTTTCTCATCACAAGTTCTATAATCTCTAAAATAACATAAACAATTAAGATAAGTATAATTATTCCCACAGCAATAGAGACTCATGCATCTGCTAAATTGAAAATATAACTATCTGATCCAAAAAAACTAAATTCAAACTTAAGAAAATCAACAACTCCACCTTTTATCCCTTTATTAGTAGCTGGTGCTCAAGCTCTACCTAATAAATTTGCAACACTTCCTGCAACCATTAAATTAATTGGTATTAATCAGTATTTATTTTTTATAAAAATAAATACACCTATTAAAAATAGTGTTACAAGAGCAGCTATTGATATTGCCAAACTTAAGTTCCCTGCGTTCATACCATAAGCAGCTCCGGGATTTATTACATATTGAAAACCTATAAAATTAGGAATAAATGTAACTCCAGCTCCATCCAATACCATTTGTTTAACAACAATTGCTTTACTTATTCAATCTAAACTTGCTAAAAAAATTATGAGTGGTAAGCATCATATTAATTTATACTTTCAGATATAATTATATTCTTTTAAATATGACTTAATGTTAAAAATAAAGTCTCTCATTTTTTATCACACCTTAATTGATTACATCGAAACATCTTTGACAAATATCTTCTTTTAATTCATCAAAAATAGCTCAACATCTTTGGCATTTTAACCCTTGTTTTAATTCTACACTAACATTTGCAACCTTAGAATTTATTTCATTTTTAAAATTTAAAAATTTAATTGAATTAACAATTAAAATTTGATGTAAATCATCAATTTCTTTAATAAAATCAAATTCTTGTTTTAATTCTAAACTAATAACTGCTTCAAATCCCTTTTTAATAATTTTTTCGTTTCTTGCTTTTTCTAAAGCTTCGTTAACATCATCGCGTAAATCTAAAACAGTTTGTCATTTAGAGTTAAATTCCTCTGATTGAACAAAATTTTGTTCTCTTAAATCTAATAAGTGAATTGATGCTTCTTTTTCTATATTTTGAATATGTTGATATGCTTCTTCAACAGTATGAATTAAAATTGGTTTCAACATATCAAGTAATGCTCAAAGTTGTTCATACATAACTGTTTGAACTTGTCTTCTTCTTGTGGAATTTGCAGCTTCAACATAGATAATATCTTTTATAAAATCTAAATAAAATGATGATAAATCATTTGCTACATAATTATTTATTATTTTATAACCACTATTAAATGAGTAACTTTCCATAGTTTTAAAGAATTTTGTTTTTGTTAAAGTTAAATTGTTTAATGCAAATTTATCAACATCTGCTAGTTGTTTTTGATAATCTTTTTTAGGATCAAAATCAACTAAATTAGATAACATAAATCTAATAGTATTTCTAATTTTTCTATATGATTCTGATACTTGTTTTAATATATCTTTTCCAATTCTTTGATCATCTGTAAAATCTGTTGAAAAGACTCAAAGTCTTAATATATCTGCTCCCAAATCATTTGCTATTTCTAAAGGATCAATTGTATTTCCAATTGATTTAGACATTTTTTTACCTTTTTCATCATTAGTCATTCCATGAGTAATTAATTGTTTATAAGCAGGTTTTCCATCAAATATTACAGAGTTAATCATAGATGAGTTAAATCACCCTCTATATTGGTCATTTCCTTCTAAATAAACATCAAATGGTCTTTGTAAATTAAAATTTTGCTCCATTGCTAAATTTGAACTTCCTGAATCAAATCAAACATCAAGAATATCTGTTTCTTTAGTTCAACCAAGTCCTCTAAATTGCTTTGGTAAAAATTCATCTGCTGGTAATTCAAATCATGAGTTTGTTCCTTTTTTAGAGATTACTTCAATTGCAAAATCAACAATTTCTTTTGTTAATTGAGGTTGTTTTTCTTTATCAAAAAAAGCTATAATTGGAACACCTCAAAGTCTTTGACGAGAGATAGTTCAATCATTTCTATCTTTAATAATATTTCTTAATCTTTCTTTTGATCACTCTGGATTTGTTTGAACACTTTTAACAATGACTTTATCAATTTCTTGTTTTACACTTGATAAGCCAACAAATCATTGATGAGTTGCTCTATAAATAACTGGTTTCTTTGTTCTTCAATCATGTGGATATGAATGTTTTACAAATTTTAATTTTAATAGTAAACCTTTTTCTTGTAAAGTAGTTCCAATGATTTTATTAGCGTCTTCATAAAAAACTCCTTCTAATCTTGAGTCTTTTATAGTTACATCAAACTTTCCTTCATCATCAATTGGTGCAAAAGCTTTAATATTATTTTTTGTAACAATATCAAAGTCATCTTCTCCAAATCCCCCAGCAGTATGAACTAAACCTGTTCCAGCATCACTTGTAACATGATGCCCAATTACTGTAAATCCTGTTTTATTTTCAAATCAAGGGTGTTGATATACTATATTTGTTAATTCTGTACCTTTAAATGTTTTAAGAATTTTTACATTTTCTCAACCAATTTGTTCACTTACAGATTCAACTAAATCTTTTGCAATAATGAAATATCTTTCATCATTTTCAGGCTTCAATTTAACATATTCCAATTCTTCTCCCAAAGCAATTAATTGATTTGAAGGAATTGTTCAAGGTGTTGTTGTTCAAACTACTAAATAAGTATCTTTAAAATCTTCGTTTTGAATAATTGGACAAGCAACAAAAATAGTTGGAGATTTAACTTCTGCATATTCAATTTCAGCTTCAGCTAATGCCGATTCACTTGAAGGTGATCAATAAATTGGTTTCAAATCTCTATAAATTAATTTTTTTTCAACCATTTTAGCAAATAATTTTAATTCACTTAATTCAAAATCATCTGTAAGTGTAATATATTTATAATCATAATCTGTGAAAATACCAAGTCTTCTAAATTGCTCTGATTGATTTGAAACTTGTTGTAATGCATACTCTTTACATAAATTTCTAAATTCTACAGGAGACATTGCTTTTCTATTTACTCCTGTTTTTGTTATTGCAGTTTCAATTGGAAGACCATGAGTGTCTCAACCCATAATATAAGGTGAATTATAACCAATTTGATTTTTTCAACGAACTATGAAATCTTTTAAGATTTTATTCAATGAATGTCCTACATGAATATTTCCATTTGCATATGGAGGTCCATCATGTAATATAAAAGTTGGCTTATTTTTATTTGCTTCAATTTTTTTGTTATATATTTTCTTTTCTTTTCAAGTATTTTGAATTTCTGGTTCTTTTATTTTTAAATCAGCTTTCATATCAAAACTTGTTTGATTTATAAGCAAAGTATCTTTATAGTTTTTTTCCATATTAGTTAATTCCTTTCAAAATAAAACGCTCCTAAAATAGGAGCGTTTTACCACGGTACCATCCTAATTAAATAAGCACAAAAAAATATGCTTATCCATCTTAATTAGATTGTTAACGCTATCCTTGCGAGCAGTTCTACTAAGTAAAATTAACTTTTCTTCTGCTAATTAAATAAGTGATAATTTAAATAATCTTTTGTTAATTCTCACCAACCATTAACTCTCTGTGAAAAGTACTTATTTAAATTCTGTCTTATTTCTATTCTTTATATCATTGTTTCATATTTTCATTAATAAATCAATCTAAACTTGATCCATATTTAAAAGCTGTAGGATTTTTTATATGTTCATTTATGCTTTGATTTTCTGTTGCAGAGTTATTTGAAAATATTTGGTCAATATTTATTCCAAAATAATTAAATCCTACTATATTTTTTGTAAATTCTTTATTTAGTTCTTTTGAATTATCATGAAGCTGTTGTAAAGCTATTGCCAAATTACTTAATTTATCACTTTCATTTTTAAACCCAAAAGCACTTGATGTTGAAGAATAGGGACTTGCAGTTCCTATTCTTATTGCTTTATTTGATAAATCATAAAATCTTGAGTTTTTATTTCATTCAGGGTCTAAAAAACCTCTTAAAGTTCCATAAAAATAAGCAGGATCTTCTATACTTGGTGAAAGTTTTGATCTAATTTTTTCACCTTTTTGAATTGTTGTATCTCCAACTGTAAAAGTTTCTGGTGCCACAAAAAAGTGAGTTGGTCTATTTATATTATACACAAGCAATGTAATATCTTTGTATCATCCTTCCAAAGATTGAATAAAAGGTATTACAGTAGGTTTGTTTGTTTCAATTGCTTCTCTATAAAGTCATTCCATTTTTGAAGAAATAGTCAAATAAAAGTCCTTTCCTTCTAGTCAATATTCAACCATAATTTCTTTAACAGCTTGAGAAAGTGTTTCTTGGCTATCTCTATCATATAAAGTTTTTCCAGCAAGAGCTATGTCAAGTCCATCTAAACCATAAGTTGTTAAAATGTCTTTTATTTTATCTTTTAAAGACTGTTTTTGTTTTCATTTTCAAATCATTCTATCAGCTGTTGCTCCACCAAGTGAAGTGATTATTTTAGTATTATCAGTTCAAGTGCCTGCTTCAATACTATTTTTTCTATTAATTAAGAATTGTGAATTTTTTATGTCATATGCTGCATTATTTTCAATAGAGTTTGGATTAAAATCGTTAATATTTAAACTATCAATCTCATATTCTCCTGCTTTTGTATATAATGAAGAAATATTGATAATATTATATGGATTTACTTTTTTTTCCCCCATTTTTGCTTGAATAATTGCTTCTAAAGATGGCTCTCTTCAACCTAAACCAAAGTAATTCTCTTTTTCCTCTACTTTTTCTCTTTTACAATTTGCAACTTTATCATTTTTTATTGAATAAGTATTTCCTCAATTCCATCAAGTTCCCATTAAATTCGACTCTTGTTGATTGATTGGATTTTTAGCATTTTTAACTGCATCCTGAGTCGAATCAAAAGTAATTGTTGTATTACCTTTCATAATATTTGAGTTTTTAGAAGCCCTTACAGTTGCTGAATAAGTTTGAGTTTTTTTATCATTTGAATCTGAAATTAGCTTAATTGAACTATAATCAAAAAAAATACTTGCCAAATTTTCTATATCTTTTTGCTTACTTTTATAATTATCTTTATTAATATTATTAACTTGAGCAATTTTTTTAATTATTTCTTCTTGATTTACTTTTTCTAAAAGACCAAGATCTCAATTGTAATTAAGAGAGTCTAAGTTTTTTGATTTAATTGAGCAAGAAACAATTGTTGATGTTGTTGATGATACTATAAATGAACTTGCTGCAAATATTGAAAGTAGTTTTTTCATATATATCATTTCCTTTAAAATAATTATAAATTAAAAAAATAGCAAAATCTAATAAGAAATGCTATTACTTTTTTAAATTATTTATTATTTCATCTAAATATTTTTCAATATGTTCATCTTTTTTATTTAAAAAATGATCATTTTTATCTAAAAATTCCTTTAAATATTTTGTAAATTCTATTGGATTAGCTTCAATATTTATAAGAACTTCTTCAATATTTTTTTTGAATTCTTGACCTAATGAAATTGCTTTTGCAATTATTATCTCAGCATTTTTTCTTGCAATTTCATAAACATTTTTGGTTCTTTCCAAACCTATTTTTGTATACTCTTCTCTTTTTTTATAATTTTCTAATTCCTTTTCAAGAGATCTAATTCTTTTTTCTAATTCATAATTTTCCATTAAAATTTACCCTCAAAGTTTCAATTTAGTGATATTTCAGCTGTTTTTTTAAATTTCTCTCTGAATTTTTCATTTTGACTAACAATAATATTAAATATTAAGTCAAATATAATCATTTCTCCTGGAACTGAAGATATTGAAGGATATTTAATTTTATCATTGCTTATTGTTTGAGTTTCAATCATATGAATTTTATTAATATCAATTTCATTTTCTAAATGTTCTTTAGTAATTTCTTTATCAGCTGTTAAAACTAAGATTGGAATGTTTTTATTGTAAGTTCATTTAATTGATTCAATTATTTCTTTAGTTCAACCAGTTCTTGTGATAAAAATTGCAAAATCATTCTCATCAAAGAAAATAGTTCTTTGAACATAGTTGTGAATATTTGAAACATTTTGAGCTATTATATTTATTCTTGATAAATTTAAAACAAAAGAACTAGCGCTAATTTGTTGTTGTTCTAAACCAAATATTATTATTCTCTGTGAAGAATAAATTTTTTTTGAGATTTCTTCAATTTCTTCAATATTGATACTATTTAAAGTTTCATTAATTGTATAAATTGCAGCACCTCTAACATTATGAATTATTTCATCTATAGTATTATTTTCTTCTAATTTATAATAACCACTTTGCATACGTGATTTTTCATAAACAAACATTTGAGTTGATTTAAATGATTTAAAACCTAATTTTTTACAAACTCTTGTCATTGTTGAAGGACTTACATTACTCTCTTTTGAAACTTCTTGAATTGAATGACTACAAAAAAAATCGGGATTAGTATTAATCAACTTAAGTATAGAACTTTCCGTTGAGTTTAATTTATTTTCTTCTAGATTAATTATTTTCATTTCTTATTTCCTCCTTTTTCTTAGACTTTTTATTAGCATCATATTGCTTCAAATAGTTCGAATTGATTTTACGATTGTTGATATGTTTTTCTCTTATTTTTTTTAATTCTACAATATCTGAACATTTTTTAATTTCTTTAATATAATCAGTTGACAATTGTATAACAACACTAGTTCCATAGATATCCTTTTTTGTTTGTCTTACTTTAATTATTATAAATGTTATTAAAAAAAATAATAGTAAAAAGATAAAACCAAAAGTTATCAGATAAGGAATTGCAAGATTGCCACCTAATCTAAAGTCTACTTTATAAAGATGATTTTCTCCAATACCTTCAAAAACAAGATTTTTTGCATTAACTCAACCAGCTTGCATTACATTCATCATATATCTTTGAGGTAAAAAATATAAAATAATATTTAATCAATTAATTCTTGCAATAACTTCATAAGGAAATGCACAACCCAGTAAATTATATGCAAAAATATAGATTAATGAAGCATAAATTCCCCCAACAGTTGTTGAATCAACAAATATAAAAATTGAATAACTTATTAAAACAGATAACAACCATAGACAAAATGTTCCTGTTATAAACATTCATCAATTAACATTTGAGAAAAGATTTCTTTGCTCTTTAAAGAAAATTAAAGTTAAAAACATTAAAAAGACACTTATAATAAAATTTATTGTAAAATTTGCCAATATATTTGCTAATGGTCTAACAAAGCCATTCAAACCTGTATTATTAATTCTTTGTACAAAACCTGTATTTTTATTATTTGCAAGTGTTCTGTGAAAAGTTTGAACTCCATTTCTAACAATAAGTGTTCCTATTGCTGATGCAAAAAGAAAAGGATTATCGCCTTTAAAAAATAATCAAATAAATAAAGTAAAAATAACTAGAAAAACTCCTAAAAACATATTAATAGGAGAATATACAAAAGTTTTAATAGATAATCAATATAGATCTTTAAAGCTTTTTCAGTTATTATTCAATTTTATAGAATTATTCTTTTTTACCATATTTATTCTTTCTCCTTAGATTTTTCCTTTTTTGTTTATTTTCTTGGGTTAGCTCTTTAACTTTCATAATTTCATTTAATTCTTCAATTGAATTTGCTTTTTTAATACTGTAAATAATTGCCATGTGCTTCATAGTACTATGATATCTATGAAATTTCTTATTTTCATATTCAAACTTCCTAATAAAGATATAAATAATTCATATAGTTAAAATAGCTATAATTGCAAACGAAACAATATATGCTATTCAATAATTTCCTCCATAACCAAATTGATTTATTTCCATATGAATATCACCAACTCAACCTGATGCCATTATATTTAAAAAATATCTTTGAGGTAAGAAAAAACCTATTATCATTATTGGTTTATTACTCTCAAGTAAGCTTCAAGGAATACCAAGTCCTAATAAAAACACTGGTAAAAAATAAAATACATTCGCAATAACTAAAGCTCATTCCAGTTTTTTTATAATAAATACAATGATTAAAGCTAATAAGTTAGATGAAATTGCCATTAAAAAGAAACCTAATAAGAATATAAGTCAGTTAATATTTGCCAATAAAGCTCTTTGCTCGACAAAAATCATAGATATTGCAAACATAAAAATTGCTACTAATATATTCATTATTTGATTAAATAATACTATTATAAAAAAGACAAAAGTTTTTGAAATGCTAGTTGAAAATAACTTCTCAAAAAATAATGTTGATTTGAAATCAAATAAGGTCTTTACAAAATTATATAAACAATTTCTAATAATGCTCATTCCAATAGCACTTGCAACAATGAAATCATCTACTCGTAGTCCTTTATCATCTGCACCTGTCCCTGCATTTTTAAAAGCTAATCAAATTAAAAGAGTAAGTGTTGTTATTATTCAACCTGAAAAAATTACAAATAAATCTTTTTTGTAATTTGAAGCTTGCATTGAAAATATAATTTTAAATACATTTCAATTAGTTGATTTCATATATTAGTCTCCTATATTTGTTTTATTTTAATTTTTTTGCCTGTCTTTGTTGTCTTTTTATAGCTCTATTTTCTGATTTCATTATTTTTATTTCTTCTTGTATATATTTTTTCTTTAAAGCTGATAGTTGTTTCAATTCTTTTCTAGAAAGAGCAGCCGTAAGTTCTGTTGCATATGCAATATACTTATTAGATTTAAAACTTTTATATAAATCTTCTTCTAAATATTTTACAAAATTTTCAGTATTTTTGAAAAATCTCATTGCTGATTTTTTGTACTTTACTTTTAGATCTAATTTACCCATTTTCTTTTTAACAGTTTTAAAGTATTTAATAAGTATTTTAGTATGTCAAATTACTTGATCAATACTTTTTTTATTCATTGCCGTTGAAAGCAAACTATTTAAGATATTGTGTAATTCATTTAAGTGAAAATCTATATTTCTTATTTCAACAATATAGTTATCATCTTCATAAGCAATATTTTTCTCTAAAAACATATTATAAATTTCTCTAAATTTTTCAACATTTGTTTCAAATTTTTTAAGTATAGGTTTAAAAAGTGGATCAGGTTTAACTGTAATTTCATTTTGTTTAATTGCATTCATTATATTTAATGAGTATTTTTCAAATGTAAGAGTTTCATTTCAATCTGTTATATAGTCATCAGATATTATAAATCCTGTTTCAAGAACTACTACTCTTTCACAAAGAATTTCAAAAGTAGCATCATCTGGAGAAATGATAATTAAAGCTACATCATTTTCAGTTTTATACTCTTTTAAGAAATTTAATATTTTAATCTTAAAATCTAATCCAATTGAAGAAGAAACTTCATCAAGAACAAGTAATTGAGGTTTGTGTATTATTCCTAAAGCAATTGAAAATAATTGTAATCAAGATGTATTACAAGCAGTTAGTGCTTTATTTCATCTTGATTCGATACCAAAAACTTGAACTAAATCATCTAATCATTTTTTGTCTTTAACATTATGGATATTTTTATATAAATTAAAAACTTCTTTAACTGTAAAACCCTCTGGTCATGTTGTTTGTCTAAATTGAAAACCAATATTGGCCATAACATTGTCGTTTTCAAAATTATACTCAACTATTCCACCTGATTGTTTTATTTGACTTGCAATTAATCTTCCCAAAACACTTTTTCCAGATTGATTCGGACCAATTATTGCTACACCCTCACCTTTATAAATTTTTAGATTAACTTTTTTTATAGCTCAAATTGTCTTATTAAAAATTTTTGAAACATTTTCTAGTGATACACATATTTCTTTTTTTTCCATTATTGCCACCCCTTATTTATTCTTTATAAAATTTTCAACCAACTTTCAATACATTTCAGTATGTACTATTTGAGTTCTTATATGTTCTCCCGTTTGAAAAATATGTAATGAATCTTTTACTTTTAAAACTTTTCTTAAATTATAAAATTTCTCACTGTCTTGATAGTTTGTTACAATATCTTTTTTAGAGTGCAAATAAAGTATTGGAAATGTATTTTTACACAATGGAATTCTATAAGTTAATGTATCTTCTTCTATATTTATTTTATATTTATTATTATATACTTTATAAACTTCAACCAATAGTTTATCTAAAAAATTTCCAACTAATGATCCTCCAATAGAATTGATTATTTTTTTCAAAACTTTTGTTGTTTCGAAATAAGGTGAATCTGCAATAGCAAATTTAATATTATATTTTTTAATATTGTCTGATAAAGCAAATCTATTTAGTGTATGTGCTCCCATAGAAAAGCCAATTAAACTTAACTCTTTAACTTTATAATTTTTCTTTAAATAATCTAAAGCACTTTTTAAATCCTTTTCTTCATTTATTCCCATAGTAATAATTGCATCATCTGATTCACCATGATTTCTAAAATCAAATGCAAAAATGTTGTAACCTAATTTATTAAAATAATAACTTGCTATTGCAGATGATTCTTTTGAAGAACCAAAACCATGACATGCAATAATTCATTTTTTACTTCTTTTTTCATTTAAATGAACAATACCTACTAAATTTTTTGAGTCAAATGATTTGAATTCTACTTTTTTAAAATTCTTTATATTTAAATTTAATACTTCTTGATCATTTGTTTGATCAAATATAGCTTGTTGATATAAACCTAATAAATTAATATATCCTTTATTTTTATATATATCAAAATTATTTCTATTTCTATTATTTAAAATAGAGATTATTTTTTCAATTAAAAGTTCATTCATAATTTAATACCTCTTACTTACTTAATAGTATAAAAAAAATCTACATATATGTAGATTTTTTTTAAATATTAATTATAATTTTTATTAATTTCTTTACCATCAATATCAGTTTGTTTTGCTCAATGAGCACCTATTCTACCTTTTGATCAATCCGAAGAAATTATTGCTTTTTCTTCTTTATATTTTTTTAATAGTTCTAGATACTCTTCTCTGCTTCTAAGTTTTGCATCCATAGTTACATTATAAAGCTTATATTGAGAAGTTCCAAAAGCTTCATATGATTTTTTATATGGAGTTAAATGACTAACTGTTCAAACTTTAGGCATAGCTTTTGTATATAAAGGTAAAGCTAAGAAGTTTTTATAAAAGAAATTATATTCTAATTTTGCAAAACCTTCATATCTTTCTGTAGCTACATTTTTTGTTGTATCTACTTCTTTATATCCCTCTGAATAATCCTCAAAAGCTTTTAATAAACCTTTAGTTTCTGTTGTATAAAGATTTTCATTTTTAAGTTTATAATTATTACCTATAACAGAATTTTTCTGTTCAGCTGATTTATTTTTTAATTCAAATAATCTTGAAGTACCATTATATCCTCTATAAGGTCCTGTTAAAGTTATAGTTTCTAAAAATGAAGATGGATCTTTATAGTCAGGAGATCAACCACTCATAAATAAGTCAGTTGCTCCCTTTGATCCTTCTGTTTTATACTCATCAGTTGATGATAAAGTTTTAGTTTCAATATAAAGTGGATTATCACTAATTGAATTAAATTTTTTCATCATTAAATTAATATAAGGATTCATTGAGGTATTATTTGATGGAGATAAGATAAGTTTTAAAATCACTCTTTGTCCATCATAACCTTTTACTTTTTGAGTTTTTAAATTGTTATCTTTTATAAATTTTACAGTTTCATCTCTTAATTGCTCTTGAGTTTTACCAACTAATTTTTCTGAATTATTTTTAAATGGATCTTTACCATCATCTAATGCAGTTAAATCATTGCTTGATGGTGTAGATACTTTTTTAATATTGCTTTCATATTGAGCTGCAATATATTTTGTATAATCTACTACATTTTCATCAGCAGCAACTCCAACTCCTGTATAAGTATTTCTTAACATTTTTGAATTTTGATTTGGTTCATCAATTGTTTTTGAAAAATATCTTGCCATTTCTGATCTATCTAAAGTTGTAGAAATATATGCTCTTGCAGCAGAAGATTGTAATAATTTTGAACCTGTTAAAGCATTTTCTCTTTCACTTTGTGACAACAAACCATTATCAATATTTGAATTATAATAGTTGTAAAATACTAAAAATGAACCAGCTTTATCTGGAGATTCAGTTTCATATGCAGAACCAAAATTTGGTCTTTCATATTTCTCTTCACCTTTTCCAATATATTTATTTCATCCTTTTAAATCATCAGATTTAAGTTCAAATCAACTACTAGAACCTGATTCAAATAATGTTCTTTCTTTTGCAGCAGAACCACCATCTAAATAATTAAAGTGCAATTCTTCAATGTTTGCACTATCTTTTAAAGCATAGTGTTTATTTTTCTTTAAAACTATTTCTGAGTTTGGATCAGCTTTAGCTGCATAGTAAGCTCCATTAAATAAAGCATTTTTGTAGTTGTTAACTTCTGTTTTATAAGTATCTGGTATTGGTGAAAATACTGAATAAGTTAATAAACTTTCAAAATAAGAAGCTGATTTAGTAAGTTCAAAAACAATTGTTTTGTGACCTTGTCAATCTTGTCCACTGTAAATTCCAAATTCATTTGGATTTTCAATAAGTGCCTCTGCTTCTTTTGTTTTTCCATCACCATACAGTTTTTGTACTTCTTGAGCACCTTTTATAAAAGATACTCATAACTCAGAAACATCTGAGTTATTTTTTGGATTTAATGCATATTTTGCTGCATTTTTAACTCCACTAACAACATCAGCATCTTCATATACTATATTTCCACTATTATCAACTCAGTTCATTTGTCTTAAAGCATAAGTTCATTTTTTAGAATCATTTTCAGATTTACCTACTGTTAAGGCTTTTCCATTAGTACCAGAACTTTCTTCTCCAAATTCACTTATGGCAAGAGATCCAAAAATTCTTCCATATTGATCTGTAGATAGAAAAGTATCATAACTATTAGATCAAATTCTTGAATCTTCTCCTTGCATTGAATGAGCTGTATTTCAACTAGATACGTTTAATGTATAATTTATATAATATTTATCTGTTGAAACTACTTTATTTAAAATAATATCAAAAGAAGCTACACCACAAGAAACAACTGAAGATGAAACCATTGTTGTTGCTAACCCTAATCCAAGTAGTCCTAATGTTTTTTTATATCATATTGACATTTTTTTCTTCCTTTCGTTGTTCTATTTTTTTAATAATTTTTTAATTTCGCTAATTTCTCTCTTATTAGCTCATACAAAATGATCTTTTTTTATTTCTTTAAAATATGGTAGATCAAATATGTAATCTTTATGTTCTTCTTCTGGGTTGTAAACAACCAATTTTGTTTTTTTAGCTAATTCTGGTTCTGGTATAGGAATTGCAGATAATAATGCTCTAGTATATGGGTGAAGAGGATTTTTAAATAACTCTTCTGCTGGTGCAATTTCAACTATTTGCCCGTGATAAATAACAGCTATTCTATCTGCAATATGACGAACAACTGATAAGTCATGGGCAACAAAAACATATGTAATACCTAACTCTTCTTGAAACTTTTTAAATAAGTTTAGTACTTGTGCTCTGATTGAAACATCTAAAGCAGAAATTGGTTCATCTGCAACAATAACTTTTGGTCGCATTGCTAAACTTCTTGCAATACCAACACGTTGTCTTTGTCCTCCTGAAAATTCATGAGGATATCTTGATAAATGTTCTGGAAGCAATCCAACTGAATTAACAAGTTTTAAGATAATATGTTTTTTAACCTTAGCTGGTGTTGCATCATCTAATATAATTTTTTCATTTGGATTAGCTTCATTAAATTCTTTTACATATAATTCTTTTGCTTCTTGACTTTTGTAAAGTTCTGAGAAGTTTTCCATACCTTCTGCAATAATTTCTTCAATTGCCATTCTATCGTTTAATGATGAACCTGGATCTTGGAAAATCATTTGTATATTTTTTCTATTTTCTCTTTTTTGTTCTCTTGATTGAACTTTAAATAAGAATGATTCTTTAATAATTTCATCAATTGAAGGTAATTCTAAGAAATCTGTTAATTCAACAAATGATTCAATTTCTTCTGGTGTATATGTATTTTCTATACCTTTTCAAGAATAATATGTTTCAATTAATTCTCTATCTTTAATAATATTTTTATTTATTATTTTTGAAATATATTCAAATTCAGTTTTTAGTGAATCTAATTTTTTATCAGTTATATTTTTTTCATTAGAGACTAATTCTCTTAAAGAATTTTCAAAATCAGTATTTTTTAATTTTGAAATTAATAAATTAATTTTTTCATTTAGATTTTTATCTTCTGATAATAATTTTAAAATTTCTTTACATGCATTTAAATTTAAATTTTTCTTTGATCAAAAGTCTCTTATAAAATACTCTAGTTTTTTATATTCTTTATCAGATGAGTCTATTCCTTCTTGTTTCATCATTTCAAATTGCTTTTTACATTCCTCAAAAAAATCACTTCTTTTTACATATATTAATGAGTTGTAATAACTAACATATTTTTCTCTTTTACTCATAGGAGAAGAAAGAGCTTTTAGTTGAAATTGCAATGATTTAGCTCAAGAAAGTTTTGATAAAAACTCCTTGTGATTATCTGTAATAACTTTTCATAAGTTTAGAATTTTTTTAACTACTAATTCAACTTCATCAGTTGATACTTCATTAATTGATTCTCTATAATTTCTAATTTCTTTTATTTGTAAATAAATTTCATCAGCATTATCTTTCATAGAAATAATTGCTTTTTTTGTTTCTTTAAGTTTTGAAAGAATTGACCCTTCCAGTTTTTTTGAAACTTTAGGTACATAAGAATTTAAATTATCTATAAATTTAATCATTCTATCTTCATTTTTTATAATAGAATTTATATATTTTAAATTTTCTAATAAAATATCTTTTAAATAATCTAATCTAGAGCTTTTCGCATACTTTTCTAATTCTTCTTTATTTAAAGTTCTTGGATTCTCTAAAAAATTTTCATAAAGAGCTTTTAATCCATCAATTCTAGATTGAATTTCTCTCGTTGTTATATTCATTTTGTATGACATATTTTCTAGCTTCTTAGAAATTTCTTTATTTAATTTATACAAACTTGTTGGACGACCAGCAACGATATTATCATCCATATAGATAGCACCGTCTTTTAAAGGTTGTACACCAACTATTGCTCTACCAATTGTAGTTTTTCCACTTCCAGATTCTCCAACTAAACCAAATATTTCTCCCTTGTAGATATCAAAACTAGTTTCTTTAACAGCTCTAAATTTTTTACCTTTATTTCGAAATTCAATTACTAAATCTCTAATGTTTAAAAGTACTTCTTTATTTGTTGACATAGTTTTATCCTACCTTTTCTGCTTCTTCTATTTGTTTTCTTAAGTTATTTAAAACTTTTGGTTTTTCTATTTTTGGAGATCTTGAATCTAGCAATCATGTTTTTGCAAAATGAGTTTCAGAAACTTTAAACATCGGTGGTTGTTTAATATAATCTAATTCTAATGCATATTTATTTCTTGGAGCAAATGCATCTCCCACAATTTCATTAAATAATGAGGGAGGAGTTCCTTCAATTGAGAATAAATCATCACCTTTTTTACCTAATTGAGGTAATGAAGATAATAACGCTCATGTATAAGGGTGTTTTGGATCATCAAATATTTCTTTTGCTGTTCCAACTTCAATAATTTGTCCTGCATACATAACTGCAACTCTATCTGCAATTTTGGCAACTACTCCTAAATCATGGGTAATGAATACTACTGAGAATTTATATTCTTGTTGCAATTCCTTAATTAAGTCCAGAATTTGAGCTTGAATTGTAACATCAAGTGCTGTTGTTGGTTCATCACAAATTAATATTTTAGGTCTTGCAGCAAGAGCAATTGCAATAACAACTCTTTGACGCATTCCCCCTGAATATCTTCCTGGAATGTCTTTAAAACGTTTTTCTGGATTTGGAATTCCAACTTTTCTTAATAATTCAATAGCCTCTACTTTTGCTTCTTTTCTGTTTAATCCTATTTGCTTTCTTAATACTTCTGTGATTTGAAAACCAACAGGCAATAATGGGTTTAATGAAGTCATAGGATCTTGAAAAATAGTTGATATAGTTTTACCTCTTAATTTTCTAATTTCCTTTAGAGCTTTCATTTTATTGACAATATCATTGTGTTTAATTCTTTTTCAATCAACTAAAATATTGTGAAAATGATCTTTATCTAAAGTATTTTTCTCAATTATTGATAAAGATATATTTTGTAATTCAGTTTCAAATCTATTTAAATATTTTTTATCTAAAAAATAATTTAATACACATTTTTTTTGCTCATCGCTTCATACTTCTTGTGATTCAATAAATTTTTCAATCATTTCAGTAATTTTTGAAATAGTATTTCTACTTTTCATATTTAGCGGTTTGACTTTATTAATATCCATTTCTAATTTTAAGATACTTTCAAGTTTTAATATTACTAATTCATCTCTATATGAATTATCGTTAATTATTTTTATAGTTTCTTCTATAGCTTTAATTCTTAATTCACTTTTAATAACTTTATTAGCATGTCGATTATTTGATCTAAATCCTATATCTTCTTGAAGAGCTATTAATTGTTCTTTTCTTTTTGATAATAATAAATTATATTTGTTATTATTAATTTCTTTGATAGATAAAATTGTAGTTTCATCTATTAAGCTAGATTCTAATTCCTCTTTTAATTCTTCTAATTGTTTATTTAAACCAGATAAAATTGTTTCATTTTGTTCTTGTTCAATATATTTTTCTAATCTAATTTTTGTTAATTCTTTTTGTTCTAAATTCCCTTTATATTTAGGATTTAGTTTATATAATTGTTTAATTTCTTTTAATAATTCTTTAATTTTTTCATTATTTATTTTAACAACACTTTTAATAACATCTTTTGAAATAAGTGGACTTTGTAAGTTTACGATATCAATTGGCTCTTTAAAATAAGCACTTTCGTCGTTAAGTGTTTCTTTATTTGGTCTATAAACTATTGAACCATTGCTTACTCAACCATTTGCTTCTAGCATACCTGTAAATGTTTTTGTAATAACTGATTTACCACTTCCAGATTCTCCTACAATAGCGAGAATTTCTTGATCATATAAATCTAAATCAACATTTCTAATAGCAGTTAAAAAATTACCTCTAACTTGGAATTTAACTTCCATATCACGAACAGATATAATTCTATTTTCTTTATTCATAATTTTTTATCTCCTATCTATGTGTTTTAGGATCTAATGAATCGGCAAATACTTTACCTGCTAAGAAGAATAATAATGATATTCCCCCAACAAATACTACAGGAATAATTAATAAGTGTGGATACACTTCTCAATCAGATCCAGATAATAATTCATTTAATATTGATCCTAAAGATGCTTGATCTAATGTGTTAGTTACAAATCCAAAGTTATAATATGCAAGTAATGCATCAATTGCTATAGCTGTTGGTATTGCAAATGTTGATGTTTGAATAACTATTGGTAAGATTTTTGGCATAATATTTTTTCTAATGATTTTTGAACTTGGTGTTCCCAATACTCTTGATGCAATATTATATTCTGCATTTCTTACAAGCATAATTTGAACCCTAATAACAGCTGCCAAAGTAATTCAGCTTGTAAGTGATATAGCAAGTATTAATACTGGAATTGATGTAGTTCCTCCAAATAAGAAAATAATTATCAATCATAAAATTAGTGAAGGAATAAGAGTTAAAAATCTTGTAATTTCAATAAATACTAAGTCTAATTTTGAGAAAAATCCTCAAATTGAACCTAATAATATTCCCAACAGTATTTGAATTGAAGCAACAAAGAAAGTAAATATCAATGTTGTTCTTGTTCCAATTCACATTTTAGTTCATAAATCTTCTCCAAATCTTCCTAGACCAAATATATGTTGTCAGCTTGGTGCTTCAAAATCAATTCCTGGTCTATCAATTGGCACAGGTTCTTGACCAATACCAATTGAAAAAGCCATAATAATTATTGCTATTAGTAAAAATAATGAAATAATAAATGTTTTTGATTTGCTAACTCTAGCAAATACTGATTTTCAATAGCTATATGGTTTGTTTATAATTCTTTCTGCTTCTTCGTGCTTTGCACCAACCATTTTGAAGAGTGAACCATCTATAGAATTCATTTCTTCATTTGTATATTGTTTTTGTTCCATAAATAATTCCCTTCTATTTTGTTAATTTTATTCTTGGATCTAATGTAGCAAGTAACAAGTCTCCAATTAAACTTGAAAATACTCCTGCTGAAGCTGATACAAATATGTATCCTAAAACAACAAATGTATCTTTATTAGCTACACCGTTAAGAATAAATTTACTCATACCATCAATTGATCAGTGTCTTTCAACTAATATACTTGATCCAAATAATGTTAATACAAATATTTCTGGTAGAGTTTTAATTAATCTAACTCCTGCATTTCTAAAAATATGTACATAGAAAACATATTTTTCACTTAATCCTTTTGATAATGCAAATTTAGCATAATCAGCAGTCATTTCGTCTAAAACAAATCTTCTAGTATTTACAATAATCATTGGCATAGTTAATAACATTACTCCAATAACTGGTCATATTTTTGTACCGAAGTTTGATCCTTCAAATGATCCTTGAGCTCCAAATACATATATTGACATTTTATATAACAGTGCTATTACAACTAATGCTGGAATGGCACTAATAATTAAACTCGTTCCATTAATTGCATTATCAGCTGACTTTTCTTTATTTTTAGCAGCTAAAATACCTAATGGTACTCCTAAAAAGTACGATAAGGCAACACCAATTCCACCAATTTTAAATGATATAGGAATTGATTTGGCAAAAGCATCTTGAACAAATGTTCCTGGGATACCTCCACTAGCTTTATTCATAAATACTCCTAAATAAAATCACATTGTAACTGGATCTCCTGTTATAGCTTGAGTTTGATCGTCAATTACGGGATTTTGAAGAATTGTTTTAGGTATAAATGGTGTAATATTTCTTAAATAAATAAGCATTTGTTGAAACATAGGCCCATATACACCAAACATTTTCATTCTATTTTCTAGTAGCCTTTCATATTCTGGACTACCATACACAATACCATGTTTTGCTAAATCAATATCAGCTAGATATGCACCATCAGTAGTTACAAATCTTAATATTACAAATACAAATGCAATTGCAATATATAGTGTTATAAATGCATAAATTATTCTTTTAAAAGAGTAGGATAAAAGTGGATTTTTTTGCATAAATTCATCAAAAGATGCATTTGAACGTCTAAATACACTTTTCATACTCTCTCAATGGCTAGTTTTTGTTTGCTTAACTTCTTCAGTTAAACTAATCTCATCAAACATTTCCAAAATGGAGTTTTCGTTTTTATCGTTGCTTGATTCTAAGCCATTAACTTTTGTTTCCATAAGTTTAAGTTGTCCTTTCTATTTTATTTTTATCTTATAAAACCTATATAATATCTATAAAGGTGATACTATGAAAGATAAAAATAAAACAAGTAATTTTCAAAAATTAAAAGATTTACGTGAGAATGAGAAACAAGCTCATTCACAACAAGTACAAGATAAAGTAAGTGAAATTTCTAAAGATCCAATTGGTTCAAAAACCAAATATATGGATTCAAAGAAATTAAGATGATATGACTATCTAATTGCTTTATTAATAAGTTTAGTTCTTATTGGTTTTAGTTTCATCATTGGGATTTTTGCTTTTAAAAGCTTAGAAAAATCTGAATGAATGATAACAGCATTTGCTTTACTTTCTATATTGATTTGACTAATTATAGGTTGAATCAAAAATAGACAAGTTGCAAAATTTTATAATGATGCAAGAAGACGTTATCAAACTACTTTATCAGAAGAGGAAGGTTTTTTAAGAAGAATTTCTAAAATAACCTTATTAGTCTGCTTGGTATTGACAATAACTTCAATTATTATGGCAATTACACTATGAGTGTAATTTTTTTAATAAAAAAAGAGTAATCTATTTTTAAAAAGTATAGGTATAATAAATCCTAACTGTTTATAAAATAAATCACTCTTTTAAATATTAAATATCATTAATAAAATCAGTTTTTTATTGTAAATATCATTTAAAACATTGTCTATCTATAAACAATTACGATCATTGCGCCATGTGTTGTTTTGCGCAATACATAGCCATTTTATTATTTAAGTTCGCATTGTCTTTAAAAAACATATTTTTAAATGACAATGTAGAAAACGCAAAAAAAGCAATCGGATTATTAAATTTTTTAGTAGTTAATAATACTTTCATTTTTTGGTCTCCTTCATCGCCTATATAGATATTAGCAAAAGGATACTTCAATTTCAACACTATAAGAAAGAAAATAAAAAAAATAAACAGTACATGTTTATTTAAAATATAAAATTTCTTTAATTAGAGAAAAAGTGACTAAATATTTTTATCATTTTTTTCTTAAGAATGTTGGAAAATCTCCATCTTCATCTTCAAGTGAATCTTCAATTTTTTGAGCAATTTTAGGTTCTGAATCGACATTATCTTGATTTCACTGTACTAATCTTTCTTGACCTTGTCTATTCTCTTCTTCCATTTGTTTTACATATTCTGGTCTTTTATCTTGGTTTGCCATAAATGAAGTTCTTTGATCATAAACAGTTTCAACTGGCTCTTCTTGATAAACACCTTGTTGACTTACTAAATGTTGCTGTTCATTAGTTTTTTGTGATGAATTATCATTTATAATTTTTGGTGGCACATATTCATCATCAAATCCTGTTGCAATAACAGTAACAATCAAATCATCATCTAAATGTTCATTAATTGCTATACCAAAAATTATATTTACATCTTCTCCACTTGCTTGTTGGACAATATCAACTGCATCATATGCATCATTTAGTGAAACAGTTTTTCCCCCAGTTACATTAATAATTGCATCCTTTGCTCCACGAATTGAAGTTTCTAATAAAGATGATGTAATAGCTTTATTTGCAGCTTCAATTGCCTTATCTTCTCCAGAACCAATACCAATTCCAAATAAAGCATTCCCTTTACCTTTCATAACAGTTCTTACATCAGCAAAGTCTAAGTTAATAACAGCAGGAACTGCAATTAAATCAGTAATTGTTTGAACACCTTGTTTTAAAATATTATCCGCTTCTCTAAATGAGTCTTGAACTGGAATTCCCCCAATTATTTCTAATAATCTATCATTTGAAATAACAATAATTGAATCAACATATTTTCTTAATTCATTTAATCCTTGAACTGCATAAGAATTTCTTAATCTTCCTTCAAATCTAAATGGTTTTGTAACAATAGCAATAACTAAAGCTCCAGTTTCCATAGCAATTCTTGCTATTTCAGGAGCAGCACCAGTACCTGTTCCTCCACCCATTCCAGCTGCAACAAATATTAAATCTGATCCTTGTAATACTTTTTTAATTTCTTCTTCTGTTTCAATAGCAGCTTGTTTTCCGATTTCTGGATTTGCACCAGCTCCTAATCCTTTTGATACTTGCTGACCTAAAATAATTTTAGTTGAAGCAGCACTTGCAGATAAAACTTGTGCGTCAGTATTTGCAACAATAAATTCAACGCCTTGAACGTTGTCATCCACCATTCTGTTAACAGCGTTGCAACCTCCTCCTCCAACTCCTATTACTTTAATCTTAGCATTTTGATTAAATTCTAATTTTGTAGACATATTTCTTTCCTCACCTTATTATTTATTTCTTTGCGTATTTATAATACCATTTTTTTAAAAGTTTTCATTGTTTTGATAATTTTGCTGAATTAGCATTTGTTGATTAAGTTGTTGGTTCATTTGTTGATTTTGTTGATAGACTTTTTGTTGATTTTGCATCATATATTCTTGTTGTGTCATTGCTCTATTTTGAGGCATAGGCATTCCTTGCATTCTTGGATGATTCTGAACTTGATTTGGATTATCCATAAATGGTAAATGATAAATTTCTGTACTTGTTCTAATCTCTTTTTGATTTTTGTTTATTGCGCGAGAGTGTTTTATTATTCCACAAAGAGCAGTTGTTCAAATTTCACTTGCTCCAGTTATTAAAGAATAATATGCTTCTGATATATTTTTATGCTTACTTCTTAATAAGATTTTTTCAAATCCTGCAATTTCAGTAATTTTACCTGTATGATAAACTTTAAAGTTTTTAACAGCGCTCATTTCTCGTTCAATTAATACATCAACTTTATCAATAACTGAGTTTAGCTCTTCTAATAATAATTTTTTAATATCAATTGTTTTCAATTCATATGTTCTTTTTTCACTAGCTATATATTTTCTATAAATAACTATGTTATCTAATGTTGTTGAAGAAAAATTTAATAGTTTAAATATATATTTATTTGAAATATCAAATTTTGCAGCCATTTTATTAGCTAAATTTTCAATAATATGTTTAATACCAAAGCTTAATGTTTCTTTTTTTACTAAAGTCTCTCTTGAAAAATAACCAATATCAACACAATCTCAATCTCAATTAATTAGAGCAAACGTGTGTCTAAAGTTTAGCCCATCATTGCATTGCTTTGCCAAAGAATATAATTGACTTGCTACAGTTAACTTCTCTATATTTAAAGTTTTTAGAACTCTATCAAATGAATCAACAACATGCTTTTCTGCAGTATATACTTTTGCATTCATAGAAAGAAGATTTGCTTTTATATTTACTGGTGGTTTTGCAACACTATGAGAGTTATTTATTCTAAATTCATATGGTTTAATATTTGTAACTATTTGATTATCATTAAAAATGACTTTTTTTGCATTTTTGTAAAGAGTTCTGATATGTTCAGATCTTATTACTTTATCTGGAGTTTCAATGAAAATGCTTGGTGAAGCTTCTTTAATTTGAAGTGTTCCTGTAGGATATATAACAGAAACTCTTCTAATTTTTTCTTTATACATTGATTCATATTTGTTTATCATTTTTATTAATCTATGAGCAACAAGATTTGTATCAACTATATCATTATTTTCTGTAAGCCAATTACCTTTGCTTTTTTCTCGTTCTTTAAAAACAATTTTTAATCCAATATGTTGTTTATATTTACCTACAACAAATTTAATATATTTTTTACTAATTTCAATTGCTGCATAAGTTTCATTATACATTCTACTCACCAACCTTTCTAATTGCTCAAAGTTTTGCACTATGAGCTCTTCTATTTTTTTCCAATTCCTCTTCTTGTGGTAAAATTGGTCTTTTAATAATTAGTTCAAAATCTTTTTTCGTCTCCATAAATACTGGAAGTTTACTTAAAAATTTATCCTCTTTTGATATAGTTTTAGTCTTAAAAATATCTTTAATAATTTTTTCTTCTAAGGAATGAAAAGTTATTACAGCAATAACTCCACCTGGATTTAATAATTCTAATGAATTACTTAAAGATCTTTTTAACACTTCAAGTTCATTGTTAATATATATTCTTAAAGCTTGAAAAACTTTCTTTGCAGGGTGTTTTTTTTGTTTAAGAATTTTTTGAGGTAGACATTCTTTTATAATATTTACCAATTCAAAAGTAGTTTTAATTTCTTTTATTTGTCTTTGTTCAACAATTTTTCTAGCAATATTTCATGAAAATTTTTCATCGCCATATTTAAAAAAAATTTCTGCTAATTGTTTTTCATCATAGCTATTAACTACATCTTTTGCAGTAATTTTAGTATTTTTTTGATCCATTCTCATATCTAATTCTGAATCAAAACGATAACTAAATCCTCGTTCTGCTTTATCAAATTGGGGACTTGATACTCCTAAATCATATAAAATACCATCTACTTTTTTTACACCTTTTAAAGAGAGTAAAACTTTAATATCTGCAAAGTTTCCCTCTAAAATAGTAAAATTACTTGATATAATTTCAAGTTTTTTTCTACTTATTGCAATTGCCTCTTCATCTTGATCAATTGCATATAAATGTCCTTGATCTATTTTTTTTAAAATCTCAGCACTATGACCTGCTCGCCCTAGAGTACAGTCAACATATATTCCGTTATTCTTTATATTCAATAATTCTATAGATTCATTAAGTAAAACAGATGTATGTTCTTGTGCCATTAATTTACTCCGCCCAATTTCTCAGCTGCATCTACTAGCTGATTTTTAGCATCTTTATCATAATCATGATGCTTTTGTTTATCTCAAATTTCTATTCATTCACCAGCCCCAGTGATTTGAACAGTTTTTGTAATTCCAACTTCCTCTAATAAATTTAATGGAAGTTTAATTCTTCCTGCATTATCTATTGATAATTCATCGGTATTTGAAAAAATTGTTCTAACTACAGTACGTGTTGAAGAAGAAAGTGCACTTTGTGACTTTAATTCGCTGTATCATTCTTTAAAATTTTCTGGTGTTCTAATTTCTAAACAATTTCCATCAATACTTCTAGTTACATATACAAGTTCGCCCAACTTATTACGTAATTTTGAAGGTATTGTTAATCTAGATTTATCATCCAAATTATGTTCGAACTTCCCAAATAACATACATAGTCACCCACTTTCTCCCACACACTTACAATTATATACCACTTTGGTTCATAATCAAGTACTTTTGAATTTTTTACTCCCACAGAGCACTTAAAAAATGCCCAAAAATAGGCATTTATTAATGAATTATTTGTTTTTCTAAAATATTTATTATTTTATCAATTTTCATTTTTAGTTTTCTCTCATTTTCAAGTACTTCTTGCATTGAAGGACTTTTTCTTAAAATTAAAGGTTTTATAAAATATTTATTCAAATAAATCTTATAGTAAAAGTAAAAACTTCTAAGTAAACTAACTGATAATCAAGGATCTGAGTTTTGTACTATTTCATAAAAAGTTTTTTCATCAATTTCATAAGAAAAAGTATTAAAACCATTCTCATTTAATGAATTTATTGCTGATAAAGGAATGATTCTTTCTGATATATCTTTAATATTATTTGTCATATTTTTTCCTCCAAAAGAATTAATCGACAATTTTTTTGAAAAATTTTAATAATTTTAAATATTTTTTAAAATAGATACAAAAAAAAGCACTTTATAAGTGCTCTATTTTATTAATTAATCAACTTTTTTAACTTCTTTATTTTTATAATAACCACATTCACGACAAACTCTGTGTGGTTTAATCATACTTCCACAGTTTGGACATGAAATAATTGCTGAGCTAACTAAAGCCAAGTGACTTCTTCTCTTATTTTTAGCAGCTTTACTGGTCTTTCTAAATGGTACAGCCATGTTTACACCTCCGTTACTTATTTTTCAAAATTAAATTCCTTTAATTTTTCTCATCTTGAATCTACTTGATTTTCTTGTTCTTGTTGGTATTCTTCTTCAGACATAAGTATGTAATCTTTACCGACAAATGAAATTTTACCATAATTATTAGTTAAATTCATAGGGATATTTAAAACAATTTGTTCAATTGCATAGTCCAAAATGTTAAATTTATCGCCTAATAAAATATTGTGTTGATCATCATTTACATTTTCAAAATAATATTCTTCTTGTCAATCATAGTTTTGATCTAATAATTGTATAACCTTGCCATCACGTGCATCAATTGCAGAAATTGATGCAGTTATTTTAGCATTTACAATAAGAGATTTCATTAAATCTTGATAACTTAAAGTACCTTTAATATGGACTTTATCAATTGATTTAATCAAATCATGGTTTATATTCAAACTTGAACTTATTTCAAGTTCTTTATCTAAATTAATAACTTTTTTCAGTTCAATTTCTTTTTTAAGCATTATCTTACCTCTATTTTTAGTTTTGATAAATTACTTAATACTTTATCTAATTCCTTTTGAACTTCTTGATCAGTTAATTGTTTTTCAATACTGTTAAATTCAAATGATACAGACACTGATTTTGAGTTTGAATTTCTTAACTTCTCATCTTGATAAATATCAATTAATTCAACTTTAGTTAAATGATTAACTTTATTTATAATAGTTTTAATAATTTCTGAGTATTTATCTTTTAAGTTAAGAATAAATGATACATCTCTTGTTGTTTTTTGGAATTTTGATACTTCTTGAGCTCTAATAACTGAGTTCTTAATTTCTTGAAGTTCAGTTATATTTAATTCTAAAACAAATGTAGAGTCTAATTTTTGTGATTGTTCAAATCTTGGATTTAATTTATAAATAAATCCTAAAGTTTTACCTTTTGAAGTAATTTTTGCATTAATAAAAGGATGAATATCATTTGGTGCTTTTTCATTTAACTCAAATTCAACTTCATTTAAATTAAGATTGTAAGTTGTTTGTAAAATTGAGTCACAAATACCTTTTAAGTAAGCATAACTTGATTTTATTGAGAGATCATAGCTCTTTTGATTTATAACATCTCCAGATATTAATATAGCTAAATGTCTTTGTCTTAAATCATCCATATTGTAAATATCTGCAAATTCATATAATTTAACATTTTTATTACCTTTTGAGTAATTAAATGAAGCTGTTTCTATAATTGATCTAGATAAACTTAATCTGAAAGTTTCTCTTAATTTACTTAATGGACTCATTAAATTTATTGGATTTTTAATATCAAATAAATTTCATCTTTGTACTGTGTCACTTGATAAAAGTGAATAAGTTTTAATATTTGTAAATCCTAGACCTAATAAATAGTTTTCGCTTTGTTTTTGTAAACGTAAATCCAGTTTTTTTGTTTTATTGTCTGAAAGAATTTTTGGTGGAGTTGATTGAACATTATCATAACCATAAATTCTAGTTATTTCTTCAACAATATTGGCACTATGAAAAATATCAGTTCTAAACTCATCAACTTTAAATAATAGTTCATCTCCATTATCTGTGATTTCAAAATCTAATGTTTTAAACAAGCTTTTAATTTCTTTTCCAGTTAAATTAATACCCATTAATTTATGAATATATTCTAATTTAACACTAACTTCTACTTGTTTTTCATTTGATTCTTTCATAACTTCTAATTTACTATTTGATTGATAAATATTGTATTGATCTAATCAATATATAACTCTATCTTGAGCAATTTTGTATAATTTAGAACTTACAGGTTTCATATATCTTTGTAGATCAATTGTTGATGTATTAAATTCTTTTTGTTGTTTTCTCATAAAAATTGGATCTAGTGATAAGTAGACTACCAATATTTCTTTTGAATCAACTGTTGGTAAGTATTTTTGATTTATTTCAATACCAAGTGTTGAAATAACTTCTTTGTCACTTAATAATTGTAAATTCACACTGTGATCAGCATTTTTATTATTTTTAATTTCCAATTGTGATTTTAATTTACTTGGATCTAAGAATAATATTGGTTGACCAGTTTCAATTGCTATAGCATTTGCTAAATCCATTCAGAAATTATGAGTAGTTTTACAATCATTAAATTTTAATCAAATATCTTGATTTGAATAAATTTTATGTTCTTTTTCTCCAATAGTTAAAACATCTTTTACACTAATAACTTGCATAGCTACACTTCTAACAACTTTTTCAACTTCTTTATCAATTTTTATTGATACAGGTGAATTTAAAGAGTTTTCTTTAAAAGTATAATTTTTTGTAAAGTCATTTAAATCTTTATCAAAATAGTTAGCTAATTCTTTTGCTAATTGCAATGCTCCCAAAGCATCACTTCTATTAAGAGTTAGATCCACTTCTCAAACAGCGTCTAAAAAACCAATTTCTTCTAATGCTGTATCATTTCCTATTAATGTATAAGTATCTTCTTTTGTAACAATAGGATAAATTCAGTCTTTTTCTTCTTCTGAAAGAGCCTTTTCATTTAATCCAATTTCTGTTAGAGCACAAATCATTCCTTCAGACATTTTACCTTTAATTTCTCTATTTTCTAGCTTTAAGCCATTTGCTATTTTTTTACCTGCCTCTGCTAAAATAACATATTGACCTTCTTTTACGTTACTTGCACCACAAACAATTGGAGAAACTAAATCATCACCTTTGTCTACAAAACAAAAGTTTAAATGTGTTCCTTCTATTGGTGTAACATTTCCTACATGAGCAATTTTTAATTTATCATTTAATGATGAATAATCTTTAAATGAATCAACTTCAAATCCAAGTGAGTTTAATGCAACAGTAATTTGTTCATTTTTAACACCATTCAAGTCTATTAACTTTTCTAATCATTTTCTTGTTAAATACATATAAATCTCACTTTCTAATCTCCAAAAAATTTAAATTGGTCTAAAAATCTAATGTCATTTTCATATAAATCTCTAATATTTTTTAAACCATATTTTAACATTGCCAATCTTTCAATACCAACACCAAATGCTAGACCTGTAACTTTTTCAGGATCTAATCCGTTTGCTTCCATTACTTCTGGAGCTAACATTCCTGATCCTAAAATTTCAATAAATCCTGTGTATTTACAAATTGAACATCCCTTTCCACTACAATTTATACATCTTACATCCACTTCTGCTGAAGGTTCAGTAAATGGAAAGAAACTAGGTCTCATTCTAATAACTGCATCTTCGCCAAATAAACGTTTACACATATATTCTAAAACTCATTTTAAATTAGCAAAACTAATTTTTTCCCCAATAGCAAATAAATCCATTTGCATAAACTGATGTGAATGAGTTGCGTCATCATCATCACGTCTATAAACGTTACCATAACTTACAGCAGCCATATTAATATTTCCTGTTTTCGCAGCTTGTGTTAACATTCTAGCTGTCATGTTAGTTGCATGAGTTCTTAAAACTGTATGATTGTCAATGTAAAAAGTATCTTGCATATCTCTTGCAGGATGTCCTATTGGCATATTTAGTTTTTGGAAACAATATTCATCTGTTTCAAACTCTGTTCCATCAACCATTTCATAGCCTAACTCAGTAAAAATTGAAGATATTTCATCAATAACTAAGTTTAATGGATGTTTTGCTCCCATTTTTAAATTGATTCCAGATAATGTTAAATCAATTTTTTCCTTTTCTAAAACTTTTTTTAATTCTTCATTTTCAAATTTATCACTTAAATCATTTAATTTTTCAGAAATAATTTCTTTAATTTCATTTGCTTTTTGTCCTGCTTCTTTTCTCTCTTCTGGAGTTGCAGATTTTAAGTTTTTAAGAATATCATTTAAAGGAGAATCTTTTCCTACAAATTCCTTTTTCAATATTTCTAATTCTTCTTTTGTTTTGATGGTTATTATTTTTTTATTAAAACCCTCTAAAATTTTATTTATTTTTTGTAACATAAGTACACCTTTCATATAAAAATTTAAGCAATTTAATTATACTTGATAATTTATAGAATTTACTTAAAATGGTAGATTTCTAACACTATTTTAGTTATTTTTAATAAAATAAAAATTAATTTTAAATTCTTTAGCTTAATTAGTATTAAAAATATCAGCTAAAAGCTGATATTTTTAATACTTTATAGATTTTTAAACTACTAAAGAGCAGTATACTCTAATGAATTAAGAAGTAATTCAGATTCAAGTTGAATTTTTAAACAAATTAGCTTTGCAAATTTCTTTTTACTTGTTATATTTGAAAAATTAAATAAACCTATTGGATGAATTTCTTGTCTTTGAAAAATTTTTTCTACAGACAAATCATTTTGAACTCACATTTTATAAAAATTTTTATTATTAAGTTTACTTAATGCATCAACTCTTTTAACATCTAAAAATTTAGCCATTTTTAGGTCCAATGTATTAGCATTTGTAGTATATTTTTCATTAAATTCAATTGATTCATTTTTATATTTACCCTTCAAATTTCCTTTTTTAGATACTTTAACTCCTCTATATTTTTCACTAAATTCTTCATCTTTAATTACAAGTCTGTCTAAAGATAATTTGAAAAGTGTTCTTTTTAGAATTGGTTTTAATGCTCATATAATAACTATAATAAAAAATATTTCATAAAAATCTATAAAAAAGAGTTCTTCATTATCAGTAAAGTTAAAAGTTAGAGGATTATCAATATAAAAAAATGATTCCTTATTCTTATATTCAAATTTTAAAAAATTTATATCTTTATAATAGATTTCATTATCATTTTTAGTTTGTAAATACTCCATTATATTTCCATTTTTTTCAACTAAAGTTAAATTTGAATTTAAATAAACAAGTGAAACGTTTTTTAACTCTTTAAATTTATCATTTGTAGAATAATAATAGTTGTAAATATCTTTTAAAATATTTGCATTATAAATTACTTTATTTATACTACTACACTCTTTATAACTTGATCGACTAGTTAATTTAATTAAAAAAATAAGTGGAATATTTATAATAACTAAAGAAAGGATTATATAATCTATTATTCCTCCAAAAATACTTTTTTTAATAAGCATTGTAATAAACGCCCAAGTTCAAAAAACTGTTAAAGAAATTAAAATAAACTCATACATAATTATTAATTTTTTATTTCTTGTTAGTTTTTTTATCTTCTTTTTTAAATCGTTATCAGATTTTACTGATTCTCTTACTTTACTATATAAGTTAGTATCTACTTTTATTTTCATTTTATTTTTCATATTTTCATTCCCATATCATGTTCAATGCTATACACTAATTGCAAAAATATATTTTATTGATAAGTACTTAGAAAAAAAGTGAAATAACGTTTAAGAATTACTTCACTTTTATAACTTCTATTAATTAAAATTTGATTTCAACATCTTCTAATTCTTCACTACTAAATTCTAGTAAATATTTGTAAACAAAATTTAATTGTCTTGCAGCTGAGTTTAAAGGATAAACTGAAATTGTTTGATTAAAAATACTTACATTAGAATTATAAATTCTTCTAGAAGCTGAAATATCATTTTCAACTTCAGAAACAGCACTCATTAATTCTTGAACTAATTTAGTTGATTGTAATTGAGGATAATTTTCTAATCTCATAGTTACATCTTTTGAAACTTTATCTAAAAGTTTCATGTTTTCATTTAGTTCGTTAGGATTAACTCCAGTTCTCATTTGGGTTAAACTTAATAGCATTTCCTTTTCAAATTTAATTCCATCTTTTACAGCATTAATAAGTTTTAATAAAATATCTCTTCTTTTTTTAAGTTGTATATCAATTCCAGATTGTGCTTCTGAAACCTTAATATCATATCTTTTTAATTTATTAATATTTGCTATATGAACAAATAAAGGTATTATTAAAATAAAACTTATATATCAAATGAAGGCTCCAAATCCATTTCTTTTTACTTTAGTTCCTGCTAGTTTATTTATATTTTCCTTTTGTAAAGTTTGGTTGTTACTCATAATTTATCTCCTTTTTAAAACTTGGAATTCTAAAATTATTTTATTACGAATTTCATATAATAAGTTTTTTTTTTACAAAAATATTTTTAAAATTATTTTTAAATTGATAAAAACCTTTTAATATACCTTTGAATTCTTTTATAAAGTCAATATATTTATTTTTTATTTTAAAAAAGAGACATATTCCAAAGATTGCAAAAACAATTCAGCTTCCAACTCAATTTTTTTATAAATAATTTCTACTATTTTTTTACTACTATATAATTTAAAAAAATTAAATACTCCAATAGGATAAATTGCTTTTAGAACCATTTCTTTTTTTACAAAAAGATCATCTTTTACACCCATTTTATAGAAATTTTTATTCTCTATTTTTGATAAATTATCTAATGCATTTGGGGTTAAAAACTTATTCATTCTAATATCAAGAGAATTTGCATTTGTTTTATATTTATTATTTAATTCTATTGATTCAGATTTATAATCCCCATTTAATAAAGTTCTTTTTCTATTAAAAATAGGAATTCCATTAGAATTATTTTTTAAATATTCATCTTTTATAATTAACTTATCTCTTGAAATTAATACTTCTGAGGAATTTTCTGTTTGGTCATAATTTCTTCTTTCAGAATAGTCATTTGTAGTATATATTGGATTTTTTATTAAATATTTTGCATTCCTTCCTTTAAAAGTAAATGACAAAAAATTAATCTCTTCATTATCTAATTTACTATTATTTTCTCTATTACCAGATATATTTTTTAAAAGAAATTTTTTGTTAGCTTTTATTAAAAAGTCTATTTTATAATTTTTGTAATGAAACTCTAAATTACTTATCTCTTTGAATTCTTCACTTTTTAAGTATATTAGATAACCATTATAGGAGTTACTATACTTGAAACTGCAATTAATAATGATCCAAAGACACCAAATAGAATTTTTTTATTGACTTTTTTTCTCAGCCTCTTTATCCTTTTAATTTAAACTTATTTTATTACAAATGTACATAATAAGTTTTTGGAGTTTGTAAAATATTTCTAATTTTCTCTAAAAAGAGAAATTTATCAAATTAAAACAATCTTTTTTTACAATATTTCCCATCTTTGAATTTACTCTTTCATTTAACATTTTTCTCATGGCAAAAAGTCCAGGTATAATTGAAACTGTATCGATTAATTCAAATTTACTATTTTCAGTATAATTAAAGTCTTCTAAATCATTATATCTATCAATAACTTTATAAAGTGTAAATTTAATTACATTTTCATCAGTTTCCATTCTATAAGTACCCTTTTTTGCATAAAATTCATAGAAATTATTAAAGTTAATTTGATCAATATTTATGTCAAAAAAATCTACTTCTATTTTGCAATAAATCTTATTTGTATTTTCATCTAAAAATAATTCGTGATAGCTTATTTGAATTATCTGATTTTTAAATTTAAATTTTATAGAGTTGTTTATTTTAAATTTATTTATAATTTTGAAATTCTCCATTAAATTTTCAACACCAAATTGGACATCATCAAATTTTGGATCTTTTTGTTTATTAAAGCTTGTTATAGGTATATAAAAAGTATTAAGATCTACTTTAAGAATTTTTATTGCTTCTATTGAGTTGTTTACATAAAATTCTCTTCAATCAAAAGACTTTAAAATCTTATAGTTATTTTTATATCTTCTATTTTTAAAATTTCTTTCTATTTTTTTAATAAAATAAAAGGAAAAAAATAAAGTTGAAAAAAATGAAATTAGACCTATTATATATGCAAAATTAAAATCATATTTTAAAAAAATAAATAATAACATTAGTATAAAAGAGAAAAAGTTTGAAAAAATTAAAAAGAGAAAAACTCAACGAAAAAATCTTTTTCTCTTTTTAATTTAAAGTTTTTTACAGGTATTATATCCATATTCATTTTTTTATTTATCATTTTTTTCTCCCTTGAAATTTTTAAATAAATAGCATCTCTGTAGAATTCAATAGAGGTTCAACTCATGTAAATAAAAATTGACTTCAATAATTTTTATCATCATAATTATATATACTATAAAATTCCTTCTTATTTAGTTTTCTCTTTTGAGATTTTTGTTTTAAACTAATATTCAATAAGTTCAATTTCTTATATAATTCTTTTATTTCCATAATTATTCATCTTTTCTAAAATATTTTACAAAAATTAATATTTTATAACAATGAATAAAGGGTTAAAAATAAAGAATAATAACTTTTTAGTTTCTTAAAAAAATTTTAGAAAAGTGTTTAAATGAGTATTTAATTTCTTTTCAAAATTTGAAATTTTAAGTAAAAAATATTGATCAGTATCATAGTAATTGTTTTTATATTCTATTGAACAGTGTATTTTTTCATAAAATAAGTAAACAATCAAACCATTATTAATAATTTCTTTAACTTCCATATATGTCATATGAATTAAATTATCTAATTTATTTAAATCAGAAAGATTAATGTTTATTTCTTTTGCTTGATCAAATATTGTTAAAAGTAAATTTCTGATATTTTCCACTTTTTCTCTTATATCTTTTTCTTGATTAAAATTATATTCAACTTTCAATTGTTTTTGCATCATAGTAAAGAAATTATTTATATTTAAAACATTAAAAAAATCTTCAAACTCTCATTTAAATTTAATATCTTCAATTTTCGTCTCTATAAATTTCTTTTTAAATCTTTTTGTAATTTGTTCTATTAACATAAAATTTCCTCTTATCTATAATATTTTATAAAAAAACCTACTCTTAAGAGTAGGTTTTAAAACTTTTAAACTGGCAGCGCCCTATTTTTGCATTATACTATCGTCGGCGTAGCTGATCTTAACTTCTGTGTTCGGCATGGGAACAGGTGTGACCTCAGCGCTATGACCACCAGATCTTAAGTTTTTTTGTCTGAGAGACTAAGTTTTCTTTTGAAAACTAAATCGTACTCTCAAAACTGAATACTAGATGATTTTATATATCTATACAAGCAATTTGTTTTGGTTTTTCTTTGAAAGACCTCGATCTATTAGTATTGGTTAGCTAAACACGTCACCGTGCGTACACACCCAACCTATCAACCATGTGGTCTACATGGGATCTTACTTCCGAAGAATGGGAAAACTCATCTTGAAGGAGGCTTCTCGCTTAGATGCCTTCAGCGATTATCCTTTCCGCACATAGCTACCCTGCTGTGCCACTGGCGTGACAACAGGAGCACCAGGGGTGCGTCCATTCCGGTCCTCTCGTACTAGGAACAGCTCTTCTCAATTTTCCTACGCCCACAACAGATAGGGACCAAACTGTCTCACGACGTTCTGAACCCAGCTCGCGTACCGCTTTAATGGGCGAACAGCCCAACCCTTGGAACCGACTACAGCTCCAGGATGCGATGAGCCGACATCGAGGTGCCAAACCTCCCCGTCGATGTGAACTCTTGGGGGAGATCAGCCTGTTATCCCCGGGGTAACTTTTATCCGTTGAGCGACGGCCCTTCCACACGGGACCGCCGGATCACTAAGTCCTGCTTTCGCATCTGTTCGACTTGTAAGTCTCGCAGTTAAGCACCCTTATACCTTTGCGCTCTTCGTACGATTTCCAACCGTACTGAGGGTACCTTTGAGCGCCTCCGTTACATTTTAGGAGGCGACCGCCCCAGTCAAACTACCCACCAAACACTGTCCCTGGCCCGGATAACGGGTCTAGGTTAGAACCTCAATGTAACAAGGGTGGTATTCCAAGGATGACTCCACGGCCACTAGCGTGACCGCTTCAAAGTCTCCCACCTATCCTCTACATGTTACACCAAGATTCAATATTAAGTTATAGTAAAGCTCCACGGGGTCTTTCCGTCTAGTTGCGGGTAACCAGCATCTTCACTGGTACTAAAATTTCACCGAGTCTATAGCCGAGACAGCGAAGGGATCATTACGCCTTTCGTGCGGGTCAGAACTTACCTGACAAGGAATTTCGCTACCTTAGGACCGTTATAGTTACGGCCGCCGTTCACCGGGGCTTCAATTCAATGCTTCACCAAAGCTAACATCTCCTCTTAACCTTCCGGCACTGGGCAGGCGTCACCCCCTATACTTCGTCTTACGACTTTGCAGAGAGCTGTGTTTTTGCTAAACAGTTGCCCCTTCCTCTTCACTGCGGCTCACGTAAAGTGAGCACCCCTTCTCGCTAACTTACGGGGTGATTTTGCAGAGTTCCTTAGCTATAGTTATCTCGCTTGCCTTAGGATTCTCTCCTTGACCACGTGTGTTCGTTCTAGGTACAGGCACCTAGTAAATTAACGCTAGAAGCTTTTCTTGGAAGCGTGGAGTCATGGACTTCGCTACTAGCCGAAGCGTTCACTCCCCATAACACTTCAAGGTTACAGTACGCGGATTTGCCAACGTACACCTCTTTGTGCTTAGACCGGCATAACCAACAGCCGGCATCCACTATCCTTCTCCGTCACTCCATCACTTTACTAGGTGGTACAGGAATATCAACCTGTTGTCCATCGACTACGCCTTTCGGCCTCGCCTTAGGTCCTGACTAACCCTGGGTGGACGAACCTTGCCCAGGAAACCTTGGTCAAACGGCATGGGAGATTCTCACTCCCAAACGTTACTCATGCCGGCATAATCACTTCTAATCGCTCCACACGTCCTCACGGTCGAACTTCATCGCAATTAGAACGCTCCCCTACCACTTGCATTGCTGCAAATCCAAAACTTCGGTACTACGCTTAAGCCCCGGTACATTTTCGGCGCAGAAGCACTCGACTAGTGAGCTGTTACGCACTCTTTAAATGATGGCTGCTTCTAAGCCAACATCCTAGCTGTCTGTGCACTTCCACATCCTTACACACTTAGCGTAAATTTAGGGACCTTAGTTGTTGATCTGGGCTGTTTCCCTCACGAGCATGGACCTTATCACCCATGTTCTGACTGCCGAGTATGAAATTATGGCATTCGTAGTTTAATTGTGATCAGTACCCCTAGGTGGGGCCATCACACATTCAGAGCTCTACCTCCATAATCCTTTACCTCGACGCTAGCCTTAAAGCTATATCGGGGAGAACTAGCTATCTCCGGGTTCGATTGGAATTTCACCCCTAGCCACAAGTCATCCACGGTCTTTTCAACGAACGTTGGTTCGGTCCTCCATTAGGTTTTACCCTAACTTCAACCTGCTCATGGCTAGATCACCCGGTTTCGTGTCTACGACATCGTACTAAACGCCCTATTAAGGCTCGCTTTCACTACGGCTCCGTGGATTCCACTTAACCTTGCACGATATCGTAACTCGCCGGCTCTTTCTACAAAAAGCACGCCATCACCCATTAACGGGCTCTGACTTCTTGTAAGCGTATGGTTTCAGGTACTATTTCACTCCCCTCACGGGGTACTTTTCACCTTTCCCTCACGGTACTGGTTCACTATCGGTAAAATGGTAGTATTTAGGCTTACCCAGTGGTCTGGGTAGATTCCGACAGGGTTTCTCGTGCCCCGCCGTACTCAGGATACTCACTCGAGGTTAGTGCATTTCGCATACGGGGCTATCACCCTCTGCGGCGCTGCTTCCCAACAGCTTCTGCTATACACTAACTTTGTAACTCTAACATGAGTCCTACAACCCCGGCCCGTAGACCGGTTTGGCCTGTTCCGCTTTCGCTCGCCGCTACTTACAGAATCACATTCGTTTTCTTTTCCTCTTGGTACTAAGATGTTTCAGTTCCCAAGGTTCCCTTCTCATAACCTATGTATTCAGTTATGGATAACACGAGATTAATCGTGCTGGGTTTCCCCATTCGGACATTGTCGGATCAAAGCTTACTTCCAGCTCCCCGGCACTTTTCGCAGGTAGTCACGTCCTTCATCGGCTCCATTTTCCAAGGCATTCACCATACGCCCTTACTATACTTTCTAAAGAAAAACCTATTGCATATATAGATAATCTATAAAATTAATGAAATTTTAGTTTTCTTAGTATTAATCTAAATTAAGTTACTAATACGTTTTATATTGTTTATAAACGTAAGAAAAATAAAATGTCTATTTTCATCTAATATTCAGTTTTCAAAGAACGATTTTCTTTACAGAAATTGTTTGGGCCAAAAGGCCCGCAAAAACAATCTCTGAAAACTAGATAGAACGAGATATAATCATAAGCTGTTTTATCGTTTCACTCAGCTTTTTCTCTTAATCTACGAATACTCCATAGAAAGGAGGTGATCCATCCGCACGTTCCCGTACGGATACCTTGTTACGACTTCACCCTAATCGCTAATCCTACCTTGGTACGCTCCCTCCTTACGGTTAAGATACGTGCTTCTGGTATTACCAACTCTCATGGTGTGACGGGCGGTGTGTACAAGACCCGAGAACGTATTCACCGCGACATTGCTGATTCGCGATTACTAGTGATTCCGGCTTCATGAAGTCGAGTTGCAGACTTCAATCCGAACTGAGACTGACTTTTTGAGATTAGCTCCCCCTCACAGGATTGCGACTCTTTGTATCAGCCATTGTAGCACGTGTGTAGCCCAGGACATAAGGGGCATGATGATTTGACGTCATCCCCACCTTCCTCTAGCTTACACTAGCAGTCTCATTAGAGTCCTCAACTTAATGTTAGTAACTAATGATAGGGGTTGCGCTCGTTGCGGGACTTAACCCAACACCTCACGGCACGAGCTGACGACAACCATGCACCACCTGTCTCAATGTTAGCCTCCACTACATCTCTGTAGCTTTGCACTGGATGTCAAGCCCTGGTAAGGTTCTTCGCGTTGCTTCGAATTAAACCACATGCTCCACCACTTGTGCGGGTCCCCGTCAATTCCTTTGAGTTTCACTCTTGCGAGCATACTACTCAGGCGGAGTACTTAATGCGTTAGCTGCAGCACCGACTTAATGCCGACACTTAGTACTCAACGTTTACGGCGTGGACTACTAGGGTATCTAATCCTATTTGCTCCCCACGCTTTCGTGCCTCAGAGTCAATAACAGGCCAGTAGACCGCCTACGCCACTGGTGTTCCTCCATATATCTACGCATTTCACCGCTACACATGGAATTCCATCTACCTCTCCTGCATTCTAGTCAGCCAGTTTTCAAGGCGAACCGGAGTTGAGCTCCGGGCTTTAACCTCAAACTTAACTAACCTCCTACGCACCCTATACGCCCAATAAATCCGGATAACGCTTGCCACCTATGTATTACCGCGGCTGCTGGCACATAGTTAGCCGTGGCTTTCTGGTAAGGTACCGTCAAACTAAAAGCATTTCCTCTTCTAGCTGTTCTTCCCTTACAACAGAGCTTTACAATCCGAAGACCTTCATCACTCACGCGGCATTGCTTCATCAGACTTTCGTCCATTGTGAAAAATTCCCTACTGCTGCCTCCCGTAGGAGTCTGGGCCGTATCTCAGTCCCAATGTGGCCGATCAACCTCTCAGTTCGGCTACGTATCATCGCCTAGGTGGGCCATTACCCCACCTACTAGCTAATACGCCGCATCCTCATCTTCTAGCGACCCAAACGGGCCTTTCAACATCTTCTCATGCGATAATGATGTCGTATGCGGTATTAGCAGTCGTTTCCAACTGTTATCCCCCACTAAAAGGTAGATTAGATACGTGTTACTCACCCGTTCGCCACTGGGTGCAAGCACCCCGTTCGACTTGCATGTATTAGGCATGCCGCCAGCGTTCATCCTGAGCCAGGATCAAACTCTCATTAAATTTAATCAATGTGAAAATTTTGATTCATGACTATATCTTGTTTCTCAAATAATTGAACTTGTATAAATTGTACAAATTAATTGGTTGTTGTTGTTCTATCTAGTTTTCAAAGATCGTTTTACGTTAGCTTTTTTCTCAACCAACGACATATAAGAATATATATGATTCGAAACCAATAAGCAATACTTTTTTAAATTTTTTTTAAATTTTTTTTAAATTATTTTTTGCAGTTAAACCTAACCAAATAATAATTTTATAAATCTTAAAAACCCTTTAAAATAGGCACTGTCATTGACAAGAAAGATATTAACATAATAAAAAGTAAAAAACATAAAAAAAATAAAAAAGTTTAAACTTTTTTATTTTATTCATCTCAATCAATTGTTGGTGTGAATTGATCGTCTTTTTTATTATTTACAGGATCTAAAATATTATCCATATTTATTTCCATAGTTTTTGTTTTTCCTCTACTTAAATTATTTACAGTGCTTGATTTGCTTAAACCTTGATCTGTTTTAAGTTTTTTTGGAGTCAATTTTCTATTTTGTTTTTTCATTGCCTCTCAAATTCTATCTGAGTCTCCTAAAAAGACTTTCCCTTGATAATTTTCATCTAATTTAGCTGTTTTTCTTATATTTCTTTGAACATAAGTTGGTTTTACAACATTTCCAATGGGTTGATCAAATTCTCCTGCTCTTTGAGCAGATCTTCTAGGAACTATAGTTTGTTTATATGGATCCTTAGGTTCTAAAATAGGAGGTAATTCTTCTAACTTAGGAATATCGTTAACAGGTGCTACATTTTTCATTGCCTTATTTGTTGCTTTTTTAATTGAGTTATTTTCAAATTCTTCATACTTATCTTCTTTTAAAATTGGTTTTTCTACTTTAAAAATTGGATTATTATCTAAAAATTCAACATCTAATGAGTTGTTTTCATATGCATTATTTTCTAAAGGAACATTTTCTAATGAATTGTCATCAAAAAAATCTTTTTCTAAAGGAATATTTTTTTCTTCTATCAACTCTTCTTCATGAAATTTATTATTATTAATATCTTCTTTTAATTTAGCAAGTTTATCTACCATATTAAATGTTTTTTCATTTGGAGTAGAAGTAAACTCTGGATTAAATTCAGGGCTTTTTTTTGAATTTTCACTAGAAGTAATTGATGATAAATCATTTAGTGATTTTTTTGATAATATATTATCTTTTTCTTTAATATTTTTATCAGTTTTTTTTGATAATAGGAAAATAGGTACTATTGAAGTTAACAAAAGTAATGAACTAATTGATAAAGTTATGATATTTTTTAAAAAATAACTTACTATTGATATTTGTAAACTTAATGAAGTAAATTTTTGCATTAAATTTACTAAAAAAACTATGTTTAAAATTGCTAAAACTATAGCTGGTATTGTATATAAAATTGGAATAATAACACCTTTTTTTATAGAAACTTCCAATATTCCAAAAATAAACAATAATATGATTAATAAAATTGAAGTTATTTGTAAACTTCTAAGTAATGAAAGTTCAGATGTTGAAACGAATATACCAAACTGTTCACCAATCAGAAAAAATCCTAAAAAACTTAAAACTGACGCTGTTACTCAACTAAATACGCTAAAAAATATATTAATTTTCATTTAAATGCCCCTATCTTATATAGCCCTAAAATACATAAATATTTTAGCACTTAAAAAAATGAAAGACAAGTAATAAAATTATAAAAAGAAAACGCCTAATAAAAGTTTTTTAATATCTATTCTCTAATTTAAATAGCTTTTGTGATATTTTTTTGTTTATTTTGCTTTATTTTTTGATTATTAGCAATTTTTTGCCTTAGTAAATCAATTATCCTTCCATTAAAAATTAATACTACCAAACATAAAATAATAGAAAATGATGTATCAGATATTCAGTGTGTTCTTGAAATTATTTGAGTGTATTGAATAATATTTAAATGAATAAATCAAATTATAATAGCAGATCAAATTTTTCAATTTAATTTCCTATTTCTTCCCATAAAAAAATAACATGCATATATCATTGTGAAACAAGATATCATATGACCTGATGGAAAATCTAAGTTTCATCATCCAGCTTTACCAGTTCCTAACGGATTAAAAAGATCTCCAATATTTGAAAAAAAATCATTTATTTGTCATCACTCTAAATAATTTACTCCATTTACACGCCCTGTTGTTTGGTTAATAACTCCCCAACTTTTTATTTTATGACCTGTTTCTAATCAATACTGTCTTCATAAAGGATCTACTCTGTCTGAATAAAAAATATTTTCAAAATCGACACTATAAAAATAAGGCCTACCAAAAATTACTTTCATTAAATAAACAACAAGACTAGTAAAAATAAAAGCACTAAAAGCTTTAATAGTATCAACTTTGTATTCGCAAAGAATAGAATAAGGCTTTTTAATAAAAATAAATCTTATATATCAAAATACAGCTGCTATAGCAAATGATTCAATTATAAATAAAACTATAAGTATTATTTGTCTGATATCATATGATTCTAAAAATCAACCACTAATTCCAATACCATAACCATCATCAATTTTAGTTGTAGTTACAATTCATATAGAATTTGCTGTAATTCAAAATATTAAAACAGCGCTATAAAATGCTCAAAGAACATATTTTCAAATTTTTTTATCTTTTTTTTCAATTACTTTTATCTCAAAATAAATAGCTATAAATAAAAATATAAATAAATAAGATTGTGTCATTCCAATTTCTTCATAAACTCAAGTTAAAATTTTTAATCAATATATATCCATTCCCTTTGCAAATCATGTATTTATTTTAAGATCATAAAAACTTGATAATATAAATGAAATTATTGAAAAAATTAAAAAGGATAGGAATAAAATTTTAAAAGTTGTATAACTTTTGTTACTTTTTTTAAACATTTTACCTCCTATTATAGTGATACTCTTAAAAAAACAAAAGACATCATTAGATGTCTAAAAAGATTATATTGAAAAATAATAAATATATAAAGTATTTATTGAAAATATTTAATTAATGTCTTTTATTGCTAATTCAATAAGTTTTATTTTTAATAATTAATAACAAGACCCTGATATCTTGTCATGCTTAATAGAGACTCTCTAATGCCTTGTACACCTTCTCCAGAGTCTTTAATTCCTAGAAAAGGAAAACTATCAGGTCCTCGTTGTGGTCTTGAGTTAATATTTACTGTACCTGTTTTTATTCTTTTGGCAGTCGATAGTGCTATTGAGATATCTTGACAAAATACACTTGCTTGCAAACCAAATTGTGAGTCATTTGCAATTTTAATCATTTCATCTATTGAATCAATTCTCATAACTGGTAAAACTGGTCCAAACGGTTCTTCTCATGCTACTTTCATATCAATTGTTACTTTATCAATTAATGTAGGTCACATTAAATTTTTTTCCCTCTTATTTCCTGTAATAATTTCCGCACCTTTATTTTTTGCATCATCAATTAAACCTTGAATAAAATCTGCTGATTTTTCATCAATTACAGGAGTAATAAATGCATTATCTTTTGGCATTCCAACACTCAATGAATTAATTTTCGTTTTTAATATAAGCACCAATTTATCAGCTATTTTATTGTTAACAAGAACTCTTTTAACTGCTGTACATCTTTGTCCAGAATATCCATAGGCACCATTTATTATTTCATCTGCATATTTTTCTAAATTCAAATCATCTAATACTAGAGCAGGATCTTTTCCTCCTAATTCTAATACTAAATCAGTTGTACTTCCCATTTTTCTTATTTGATTTCCTATTCCAACACTTCCAGTGAAAGAAATCATATCAATTTCTGGATTTGAAGTAATGATATCACCAATTTCTCTTCCTCTACCTGTAACAATATTAAAGATACCTTTTGGAAGTCCTGCTTGTATTACTAAATTAGACATATATGCTCCAACTAAGCTCCCTGCTGTTGCAGGTTTAAATACTACTGTATTTCCCATTACTAATGCTGGAATAATTTTTGCAAAAGCTAAATTAAAAGGATAATTAAAAGGTGAAATTGCAAGTACAACTCCTTTTGCAACTCTTGAAAAAATTCCAATTTTGTTTTTAGCTCCCATTCCTTCTCCAGTTAAAGCTAATGGTTCAATTCTTTTAGCTTCTTCAAAAGTATAATCTATAATTTCAATTGTTCTAATAACTTCTGAAAGTGATTCTTTTAAGTTTTTTGCAATTTCTTCTGAAATTATTTGAGCTATTTCATTTTTATTTTCATCAATTAAATCTCTAAATTTTCTTAAAATAGAGATTCTATCAAGTAACAGTACCTCTTCTCAACTTTGTTGAGAGTTTCTTGCAACACTAAAAGCTTTATTAATCTCTTCAGCAGTTAATGCTGTTACTTTTCCTGCAACATTTAAAGTTGCTGGATTCATTATTTCTAATCATTGTCCATTATCTATTAGTTCATTATTAATTAAGGCATTATATTGTCTCATTATTAAATTTCCTTTCCTTTATTTTAATGAATAGATATTGTTCATTAAAATTGATCCTGCAATTGCAACATTTAAGCTTTCCAATTCTGAATCTGTGTTTATTATTATATTTTTATCAATAGTTTTAGATACTTCTTTTGAAATACCGTTACCTTCATTTCCAAGTATTAAAGCTATTTGTTTATTTTTAATTTCATTTAGATTACAACTGTTTTTTCTTAATAAAGTACCTAAAATTATTATATTCCTTTGCTTTAATTTATTTATGAAATTTATTAGTTCTTCATTTTTAAGATTTAAATCAAAATGATTAGATTGAGTTGCTCTTAAAACTTTTGAATTATAAAAACTTACACAATCATTTGAGCAAATTATATTTTTAAAACCAAAAGCGAAAGCACTTCTTATTAAAGTTCCAAGATTTCCTGGATCTTGAACACCATCTAAAATAAGATAATTTCCTGGTAAATCTTCTTGTTTTATAATTTTGCAAACAGCAAAAATAGACTGAGTGGTTTTTAAGTCAGATATTTTTTTTGAAACATTATCAGATATTTCAACTACATTTTCAAAGTTTTTGTATTTTTCAAATAATTTTGTTTCCACTAAAATCATTTCAACTACATTTTTCTTTATAGCTAAATCAACCATTTTTATTCCTTCAATAAGATATTTATTTGTTTGTTTTTGAGTTTTTGTATCTTTGTAAGATAAAATTTCTTCAATTAAACTATTAGTAACCGATGTAATTTTCATTTTATTCAGTAAGAGCAAACCCTATTTCATATAATTTATTTTCAGGGTTTGCAAAATCCTTTCCTTTATATTTAGGATTATTAACAGGATATCCAAAAACTAATGATGCTCTTCGTGGTGGATCTAGCAATTTTGCTTGTATTGTTGACATACCAGATAATTTTTCACCTTTTTGTCTTTTTAATCTGTTTTCTTCCATTAAATCTTCAATATCTTTAACCTTAGTTTGTTTAACTAAAATTCGAATTTTATTTTCTTTATATCATTTAACTATTTTTTTATATTCTGCAAAAGTAAATTGAGTTGGTTTATCTGCTGCATAAAATCTATTTTTTTCTTTATTTCATCCAATCACAAAATCTCTTCAAATTATATTTCCTGTTTTACCTTTTATCATTAAATTTTTTGTTTTTTCAATCATTTCATCAAAATCATTATAACCATAACCTATAAAAGCATTTCCATTTCATAAATTTGAATAAGTACTTTTAATAGGATTTCAAATTTCTTCAAAACACGATGCTACAACCCAATATCGATTATCAGATGAGTTTTTAAAAATTTCAAAACCATACTTACTATTTTTAAGCACAACTTCTTTTTGAGTAACTTTTATAACTTTAATTTTAAAAGTACTTAAAATCTTTTTTATTTCCTTTTCTGTAAGCTTTATTCTAACCTCTTTGCGAGTTTTTTTAATTGTTTCTCTAGTTTTTGCTATATTTTCCATACTTCTATACTTATTATTTCTAATTATATTCAAAATATTTAATTCAGAGGTTGGATCTGGCATTATAAGTTCATTTGTTACAAGTTCATCATCTTGTGTTTTAGGTGAATTTTTTGATTCATTAAATTCTTTAATTCTAGCTATTATACTATTTGCATTTTGTTTATTATCTTCTAATCCTTCAATTAGAACTTCTGAATCGTTTTTAGAATTTTCAACAATATTTTTATTAATACTTGATTCAAAATAAAATTTGGAGTCATCAAATGAGCTAATATATTGATTACTTAGTTCTTGATCAAAAGAAGGTATTTTAGGATCATCTGGATTTGAGGGTTTATAGTTATAAATGTTTTTTAGATCTTTTTTTTCTGACATATAATACCCCCTTATATTTTAATAACCTGTATCTTGTCTATTAAAATTAATTTCGTTTTTTTTATTATAAACACTTAAGATTTCATCATTGCTTATATTTAATATATAAGTTATTGATAAAAATTCATCTAATAATTCATCATATGTTTGAACATTAAATTTCTCTTCAAAAAGTAAAGTTTTTTTATAAACATTAATGCTTCAAGAATCTATATCAGTTGCTTTTGTCATTTTACTGTCAAATTTAGAAAAATCAAAATTTACGTTAGTTCCTAAACTAATAATAAAATGTAAACAATCAATTAATTCTTCTAATATAGTTTGTCTTTCACTTGGACCTTTATTAGATCAGTATTTGAATTCTCTATATTCATTTATAAATTCAGAAATTTCTACTAGAAAAGCAATTATTTTCTTTTTAATTATTATTTTATTTAAAACTAAATTTTTTGCTTCCATTATATAGTTATCTAAAATTTTTTGTTTATCTCTTAAATAGATTAAATTATCTTTTGTTAACATATCTCATACTCCTATAACTTAATTTTAGTTTAAAAAAATGATAGTTTACTATCATTTTTTTATTTTTTTCTAAAATCCTGGTTTTTTAAGTAATTTAAACATATTTGTTTTATAAACTTCAACTCCTGGTTGATTAAAAGGATTAATTTCTAATAAATATCCGCTTAAAGCACAAGCCTTCATAAATCAGTAAGCTGCATAACCAAACATTTCAGCATCCATTTTTTCAAATTCCAATATTATATTAGGAACTTCCCCTGCATTTGCATGAGCATCAATTACACCTTCAATTGCAACTTCATTAATTTCATGAAAAGATTTGCTAGTTAAGTAATTTAAACCATCTAAATCTTCTTTATTCTTTGGTACATTTAAATCAAGATTTGGTTTTTTAACACTAATTATTGTTTCAAATAAAATATTTTTTGTTCCCTCTTGAATAAATTGTCCTAGTGAATGTAAATCTGTTGAAAATACACAGCTTGTAGGAAATAAACCTTTACCATCTTTTCCCTCTGATTCAGCAAATAATTGTTTTCATCATTCTGTAAACATTTGCATTTGCAATTCATAACTAATTAAAGTTTCTGCTTTATATCCTTTTTGAGCATTTAATATATATCTCGCAACTGCATACTTATATGCTTCATTGCCAATATTTTTTGTATCCTCCATAGCTTTTTTAGCTCCTTTAAAGATATCATCAACATTAATTCCCGATACTAGTAGAGGAAAAATCCCAACTGGAGTAAACACTGAAAATCTACCTCCAATATCATCTGGTATTGTAAAAGTTTCATAACCTTCAGCTGTTGCTAACTGTTTTAAAGCACCTTTTGTTTTATCTGTTACTGCAACAATTCTTTCTTTTGCTACTTCCTTTCCTTTTAAATCAACTAAAAGTTTTTTAAAAACTCTAAATGCAATACCAGGTTCTGTTGTAGTTCCTGATTTTGATATATTTACTATTCCAAATTCTTTATTTTTAATATAATTAACTATTTGCTCAGTGTATGTAGAAGATATTGTATTTCCAATATAAATTAGTTCAACTCTATCATTTGAGTATAATCCTCTAATCATCTCTTCTGCTGCACGAGCACCTAAATAACTTCCCCCAATACCAACTACTAATAAAACATTTATTTTTGTTCTTAAGTTATTAGCCACTTTTTTCATTTTACTTAATTCATCTTTATCAAAGGTTATTGGTCAGTTAACTCATCCTAGAAAATCACTTCCAACTCCTGTTTTATTTTCAATCATTTCATGTACTTTTTTTAATTTAGATTCATCAAATGATTTAACTTCCTTTTCAATTTTTGAATACTCCAAATTTATTTTTATCATTTTAATATTACTCCTTGTTACTATGATTCTACGCTATTTTTTAGGTTATCAAATCCACTTTTTGTTTCTTTAATTTTAGTTTCTGGTGTTTTTAATAACTCTGGTCTAATTGATTTATAGCTTAATTTAACTTGATTTTTATCAGTTAAAGTTTCTATAACTTCAACTTCATATTCTTCATTTAAAGCTAAAAATTCATCTACACTTTTAACGAAAAAATCTGATATTTCTGAAATATGAATTAAACCTTTTATTACTTGATCTTCATCTATTACTTCACAAAAAGCTCCATAGTTCACTATAGCAGTAATTTTAGCATTTACTTTTTGTCCTTTATTTAACATCCTATTGCTCTCCTTACAAATTAATTATAAACTTAATTTGTAATATCAATAAGAATTTTAAAAAAAATTTTTAAAAGAGAGGTGAAATTTTGGAAAAAATTAGCAATTTAGAAGAAAAAGTAAAAGCAACTCTTGAGCAATTAAGAATGTATATAACACAAGATGGTGGAGATATGGAATTTGTTGCTATAAAAAATAGATTAGTTTATATAAGGCTTAAGGGTAATTGTGTTGGTTGTGGTTTAACAGAACTTACTTTTAAAGAAGGTGTTGAAGGAGTTCTTATTGAAGAATTTCCTTATGACATTGATGGCGTAGAACTTGTGATGTAGAAAAGAGGACTTATTATATGATTTTTTTGACTCCAGAAACAGATATTATAATTGCAATATGCAATGGAATTTCAGCAACAACTTTAGTTACAGTATCTTTTATACTTCCATTTTTAATTAAAAAGTATAATGACAAAAAACAAAAAATTGATTCAGGAGAACGTTCACTTGCAGATGCTTTTGATAAATATTTTTCAGATCAATATCCTAAAAATGATTTTGAATGATATGTAGCAGAAATTAAAGCTATTATTAAAAGAAATGAAATTAAAACAATAAATTGTACAAATTGTAAGAAAAAATGTACAAGTAGTAAATATATGGAGTGATTTGAAACTGTTGACAAAACGATACCTGAAGTAAATAACTTCTCATTTAAAGTAGGAAAAATCGGATTTAAAATTGAACTTTCTGTTTTATTCTGCTATAAATGCATAACAAAAAAAGTAACAAAAAAAGCAATTAGTTAATTGCTTTTTTTTATTATCCTACAGAACCTTCCATATCCATTTTTATCAATTGATTTAACTCAACTGCATATTCTAATGGTAATTCCTTTGTAAAGGGCTCTAAAAAGCCCATAACAATGATTTCTAAGGCTTGTTGTTCATCTAATCCTCTACTCATTAAATAAAATAATTGTTCTTCACTTACTTTTGAAACTGTAGCTTCATGTTCAATTTGTGATTGATTATTGTGTACTTTATTTTGAGGAATAGTATCTGAATGTGATTGATTATCTAAAATTAACGTATCACATTCAACTCTTGCTTTAGAATTTATGGCATTAGGTCCAATATAAGCTAAACCTCTATAATTTGCAGTTCCACCTTGAAATGTAATTGATTTTGAAACAATTTTGGATTTTGTCTCTTTTCCTAAATGAATCATTTTACTTCCAGCATCTTGATAAACACCTTTTTTAGCAACAGCAATAGAGATTGTGTCTCCTTGTGCTCTATCTCCTTTTAAAATACATGATGGATATTTCATGTTTACTTTTGAACCAATATTTCCATCAATTCATTCCATTCTTCCATCTTCTTCAACAAGACTTCTCTTTGTAACTAAATTTAAAACATTATCACTTCAGTTTTGCACTGTTGTATATCTAACACTTGATCTTTTACCAACAAATATTTCAACTATAGCTGCATGTAAATTATTTTCTGAATAAATTGGAGCAGTACATCCTTCAATATAGTGTAATTCTGCATCATCTTCAACAACTATTAAAGTTCTTTCGAATTGACCTGATGCTTGATAATTAATTCTAAAATAAGCTTGTAAGGGTTTTTCTAATTTAACACCTTTTGGTACATAAATAAAAGTTCCCCCTGATCAAACAGCTCCATTTAACGAAGCATATTTGTTATCATCATTTTTAACTAATTGCCCAAAATATTTTTTAAATAATTCTGGATATTTGCTTAAAGCACTATCACAGTCTGTAAAAATAACTCCTTGTTTTTCTAACTCTTCGTTCATTCTTTCATAAACTGGGCGAGCATCTCATTGTGCATTAATACCTGCTAAAAAGTTCTTTTCAGCCTCTGGAATTCCTAAACGATCAAAAGTTCTTTTAATATTATCTGGTATTTCATCTCAAGTTTTTACAGTTTTGCCAGCACCTTCTGTATAGTAATAATAATCATTAAAATTAATTCAATTTAAGTCAGGTCCAAAGTTTGGTTGTGGTTTTTGTTCAAATATATTCAAACTTTCTAATCTATAATCTAACATTCATTTTGGTTCATTTTTATGTTTAGAGATCTCTTTTACAACATCTACATTTAATCCCTTTTGTACTTTATATGTAGAAACTTCACCTTCATTAAAACCATATTTATAGTCAGATATTTGTTTTATTTCTTCTTCTTGTTTTAATTTTTTCATTTTCTACACCTCCTTATTTAAAATAGATTTAAATCCATCTGCTCCTAATAGAGCACAATTTATTCTATTTCCTTGTTTGTTTATTTCTCAAAATGCTATTAATTCATCTAAAATTAGCTCATTATATTCATTTCCTGAAATCATATTGTAGTAATTTACAAGTTGTTCTTGAGCTTCTTTTATCTTTAAACCCTTTATTTTAGAACAAAGTATATCTGTTGAAGCTGTTGAAATAGCACATGCATTTCCATCAAATCTAGCATCAACAATATTGTCATTTTCTATTAATAGTTGAACATTTATTTCATCACTGCATGTAGGTGAATCTTGAAACTTTATAAGTGCTTTATCATTTTCAATTAAACCTTTAAAGTCTGGTTCAGTATAATGTTCCATTATTATTTGTCTTAACTGTATTTTATCATTTTTATCAAACATTATATTAAACCTCCTTATATTAATTCGTTGATTCAACTATCACAATCTTTTAATGCTTCTATAAACTTATCAATATCTTCTTTTGTGTTATATATTGAAAAACTTGCTCTTATTGTTGAATTAACTTTAAGCAAATCAGTTGCTAATCTAGCACAATGTTTACCAACTCTAACTGATATATTATATTTTTTATTTAAAAAAGCTCCAAAATCTTGTGAATTTACATTTTTTAAGTTAAATAAAACAATTGGTTGGTCATTTTCTATATTATAGAATTCAAATTTTGTTTTATCTATTTGTTTTAATTTACTTCTAAAATATATTTTTAATTCTTTTTCATAAGCGATTAAATTTTGCATTTTTATTGTATTGATAATATCTAAACACTTATTAAAAGCATATATGGCAGATAAATTTAAAGTTCCTGCTTCAAATTTATCTGGAATAGGAGCAAGTTTATAATTGCTAATATCAATACTCGCATTATTTCCCCCACCATAAAATATTGGTTTTAACCACTGTAAAATTTCTTTTTTGGCTCACAATATTCCTAAACCAAAAGGTCCATAAACTTTGTGTGTTGAAAATGCTATACAATCAACATTCAAATCTTTTACGTTTATTATATTGTGAGCAATTGATTGAGCTAGATCTAATATTACGATTATTTCTTTATTAAAACTTTTTATTTTCTTTACAATTTCTTTAACGTTATTTAAACCTGCAGTAGTGTTTGAATTCATTGCAAATGAAATAACTTTTGTATTTTTTGTTAATTTGTCTTTAATTTTTGAAATATCTATTAAAAAATTCTCATCTAATTCTAAATAATCTATTTTTAATTGACACTCATCGCTTAAAACTCTTCAAGGCAATAAATTTGAAGAATGTTCAATTTTTGTCAATAAAATTTCATCATTTACTTTTAAGTAATTTCTCATTCCAAATGCTAATTGATTTAGTGAATGAGTTGTTCCACTTGTAAAAATAATCTCATTTTTATCTTCTACACCAATAAAATTAGCTATTTTTTCTCTTGTTTCACTCAATATTTGATTAGCTTTATAAGCATTATTAAATAAATTATTATGAGCATTTGCACCTATTTTTAAGTCATACTCACTTTGTGCTTTAATAACTTCATCAAATTTAATAGAAGTTGCTGCTGAATCAAAATAAATTTCATTAGAATTATTTTTAAAATATGAGAAGTTATCTTTAAAATTCATTAAATCATTTCCTTTAATTTTTCTTTTAAGTAGTCAAGTAATTTTTCATCTTTAATTTCTTGAAATATTGGTTCAAAATAACCATTAATAATTAACTCCTGAGCTTGTACTTTATTTAAACCTCTTGATAACAAATAAAATACTTGATCTGGGTCAAGCATGCCAATAGCATTGGCATGACTTGCTACAATATCATTTTCATCAATTAATAAAACTGGATCAGAATCTGCTTTTGCCTCTTTATCTAGAACTAATAATCTTAATTCTTGATGAGCTTCAGCTTGATTAGAACCTTTTTTAATATCACTAATACATCTTATAAAACCTTTTGAAGTATCTTTTAAAACTTCATAAGTTTTAATATTTGAATAAGAGTTTCGAGCATTATGAATTGATTTAATAATTGAGTTTTTATTAAAATTCTTATTAATGATGGTTGCATTGTAAAATTCCACTGCTGTATTTTCTTCATTCAAATTAATTGAAAAATTATCATCACAATTATAATTTGCTATATTTGATATTTTTAAATTTAATTTTGAATTTTTACTTAAGTTAAAATTAATATTAAAGTCTTTTTTTGAATTGTTCTTTGATGGAAGAAATAAAATAATAATAGTTATTTCAACATCTTCTTGTAAATTTAAATCAACTGTTCCAAATTTATTTTCCAACAATATTATTTTATTTTCATTGCTATCAAAAGTAAAACTTGAAGGTAAGTTATCTCTAAAATCTATATATGATTTATTTAGTTCAAAATTAGTCATTATTTAGCTAATTCCTTTACTCATGAATAACCTTCTTTATTAATTCTATCAACAATTTCATTTCCTCCACTTGTTACTATTTTTCCCTCAATAATAACGTGTGCATGTGTAGGTTTTACTTTTTTGAAAAATCTATCATAATGAGAAACAATAATCATAGCATTTCTTGCTAAATCAACTTGGTTTAGGTTTTTTGAAACCACTTTCAATGCATCAACATCTAGTCCTGAGTCAATTTCATCAATTAAACTAAATATGGGGTTTAACATTTTTAACTGTAAAATCTCATTTTTTTTCTTTTCCCCCCCACTAAATCCATCATTTACAAATCTTTTAAGCATATTTAAATCAAAATCTAAATCCTTTGCTCCAGATTTAATATCTTTAAAAATCTCTTGCAGTTTTTTCTTTTCATCACTGTGAGCATTGACAATATATTTTAAGAACTCCAAATTTGATACTCCAGGAATAGTTTGTGGATTTTGCATTGCTAAAAATAATCCAGCTTTACTCCTTTCATCAACGCTCATTTCTAAAATTGATTCCCCATCAATCAAAACATCTCCTGATATAATTTCATACTTCGGATGTCCCATAATAGCCATAAGTAATGTTGATTTTCCATTACCATTAGGACCCATAAGAGCGTGAATTTCTCCTGAATTAACAGTTAAATTAACTCCTTTTAAAATTTCTTTTTCTTCTATACTTACATATAGATTTTTTATTTCTAATTTATGCATTTCAAAAACTCCTTGCTTTATTATTATAAATACTTATCAATGAAAAAATTATTCATTTTTAAATGGTTTCTTAATAACTAAGTAATATTTTATTTAATAATTAATTGTTAATTTAATGTCTTTTTATTTATTTTTTCTTTATAATTATTTTGATACAAAAACCAAGGAGTGAATGGTGTGAAAAAATTATTAACACTGTTAGGAAGTGTTAGTTTAGTTGCAACAACAGCACAAATGGCTGTTGCTTGTAGTACAAACTATGACAAAAAAGATAAAGACGGAAACTCAATTCTTATTCAATTTTTACAATCAATAAATGGAAAAGCACAAATTAGTACAAATGATATACTTGTTAAACTAATTAATGCTGAAAATGGTCCAAAAAATAAAGAAAAACTTACTTTGGATCTTTTAAAAATGATAAATTTATCTATTTTAGCAAATTCAGATAAAAATACAGATCTTATAAATGATAAAAACATTTATACAAATTATGATTTATCAACAATCTTGAAAGATAGATGAAGTGCTTTAAATGACGCAGTAGATAGACAAATATCTTCTGAAAAAGATAAATATAAAAAAGACAAAGGTAAAAAATGAGAAAAAGAATGAAATAAAATGCTTGTTAACAAGTATAGTGTTTATCAAGATGATGTAAAGTCAATGGACAAAGACTTCCTAGAAAACAAATATAAATCAGATATTTTATTGTCAGATGCAAATAATAATGCTTCAAAAACATTATTAGATATTTTAATTAACACAGATCAAATGGGTGTTACTTGAATAAGCTCAAACGATATTGTTAAAAAATATAGTTCTTTAGAAAGAATTGTTAAGGCAACAGATGCAAATGATTCAAGTATTGCAAATTATTTGAGAACAGATTTAGATCAATTATCTCAAATTAAAAACTCAGTAGAAAAAGACACAAATAACTGAGAACAAACAAAAATAAATTCATCAATGTCAGATAAAGAATTAGCTGACAAAGCTAGAGAAGTTATTAATGATACAAATATTACAAGAGAAAAAATTCAATATGATGCACCAGTTAATTTAAATAACTTCACAGTTAGTGATACAAATAGTTCAAGAGCTGGATTCTTAAGTAATTCTCAAAGATTCTTTTTGGACAAATGATACAATACACAAGCTCCACTTGCAATAAGTGAAGTTGTAATACCTTTTTCTGAAGGTGGAACATTTGATAAAGGATTTACTAAAAATAGTTTTATGTCAAAAGATAAACAAGATGAATCTAAAACTAATAATCTTTTAAAAGCAGCAGTTGATACTACTTATGGAGATGCTAGTTGAAATCGTTGAATGATAGCAGGAAAAGCAGACTATAGAGAAGATGCTACTGTTAAACATTATGATAAATTAATGACTTTAAGTAACTCAACAGACTTTACTCAAGATATGAGAACTGTTGTTTATGATTATGTTTTGGGTGGTAATGAAAAAAATGGTATAGCATTACCACTAGATGAAACAACAAAAGCACCTACAGTTGAAAGTTTAATTGATAAAATCTCAAGAAAAAAAGGAACTGAAAAAAATTTCTATGCTTACAATGATAAAGGACAAGTATTCTATGTAGATGCTTCAGGACTTCATATTGTTAAAATTGATAGATATGATCTTTTAAATAAAACTGCAACTGATAAAAAAGGTATAAAACAAGAAGGATTAGATGGAACAAAAATAAATTCTAATACAACAAATGAATTAAATACATTTAAAAACTTTAATAAACTAAAACCAGAACAAAAAGTTGAAGAACTTCAAAATATTAGCAATGCAGAAAAAGAAAAAGAAGGAAGTTATTATAGAAGTTTAAACTCAACAGTTAAAAATGATTATCTTCACTATTTAGTTAATACTTCAATGTTAAAAGGTCTTTCTGGATCAGCTTCTAGTTTTGATATTATGACAGAAGTTAAGAAATGAGCTCAAGTAAGTTCAACTGCAAGTGACTCTTCAAGTACTTATTGAATGACTTGTGTATTAGATTATTTCTTTGAAATTTCTATAGGAACTGAAAAAAATCTATCTCAAGAACAATTTATACAAAACTATGTAGAATTTGGTAAAAGTGATAATTCAACAACGCAAGAAACAATAGACAAAACAAAAGACTGATTTGACAGTCAAGTTAGAACAAAGCAAAGTTGAATTGGGCAAAGCTCTTCAAGAGCATTTTATAGTGCAAATAACAAATGAGCTGATGAAATAGAAGCTAAAACAGATGCAAGTAATTATCCAAAAAAAACTATAAAAAATACTTGATATGATGGAGAAATTGTAACAAAAGTAGATGAGAAATTTTGAAAACCTACAAATGATGTTACAGTTTCAAAAGCAAAAAGTAATAAAAAGACATCAGAAACAAATCAACAAATTTCAAGAAACTATAATTTAGTTTATACAAATATTGAAAACTCATATGCTTTTTATAAAAATGGAGGTGCTAAATAATGAAAAAATTACTAGGAATACTTAGTGCAGTTTCATTAACTGTCTCTTCCCCTTCTTTAGTTGTTGCTTGTGCAACAAAAGAAAGAATAACAAGTCCAAAATTAAACAGAGATTTGGCAAAACAATTGCTAGTCTCTATTTCAGGAAATAAAGATTTAGCAAATATTGATTTTGGTTCAATGTTTACTGATTCAGAAATTGAATCAGTAGTAGTCAATATGGTAAATGAATTACTTTCATTACAATATTCATTTGACTCTACAAATAGTATCTATGATAGATTAGGTTTCAAAGAAAAATATACTTCTACTAGTGAAGGTATTGAAAATTTATTTAAAGATAAATATAAATTAGAGACAAGAACAATTGCAGAAAATAAACTTTTTGAAGAATATACTAAATCAATAAAAGGTGACAGACTTGACTATTGAAGTGTTCAAAACAGTTACAGTTTAAATATTCAAAAGGCTACAAAAGTAAAATCATTTGATGGAACAGAAGATATTAGTGTTTCAAAGAAAAATAAATATATTTATTTTAATAGTGGAGATACTGCTAGTGAAGATAAAATTTGAAGATTTACATATGAAGATTCAAAAAATAAATCAGCACATCTTCCAGAAATAAAAGATTTAACAAGTGAATATAGTGGAGAAAAAAAAGCAGTCTTTGGAGTAGTAGATGACAGTGGAAAATATCATAAGATAAGTTCAAAAACAGCTTTATATCTAAGATTCCAAGATTATTTTGAATCAAAAATCTTAGAAGAATTAAATGAAAACTTATTAACAACAGCGTATTTAAAATCAACAATGTTTGATATTAAAGATAGCAAAGACAAAGGAAAAAGTCCATATATAAACTCTTCTTCTTCTGTTTTTTCTAAAACACAAACTTTAAGTGATAGTTCAAGTGAATCATGAAAAACTAATGTTAAAATGGTTTGAACTATTAGATTTGATATTACAGAACCAAGTACAATTGATATAATAAATCAAGAATTAAGAAAACAAAGTATCATTGACCCAAGTAATGGAGCTTTAAAAACAGGAAAATCTATAAGTGAAATATATAATTTATTTCCTACTACATCTTCTAAAGATGGAGTTCCAAAACCAGTAATTGATAATAAATCAGGATATGATTCATACTTTGGTTGAAGTGGATATCAAGGATTAACAATTTATAACGGAGATAGTTCACTAGGTGATAGTCCTATTTCAGGAAAAGCTTATGAAGCAAATGTTAAATCATGAACTAAAGGAGCAGGAATTGTTAAAAATGGTTCTAACTTCTTAACAGTTGATTCATCAAATTCAAATTATGCAGATTTAGTTCTAGTTTTACCAGTTTATATGATCGAATTATTAGGTGGATCAAATCCAACTGAAAGTACATATGAAATAACTGGTAAAGGTAAAGATGACAAAAAAGCAATGATTTTCAGTAATACAATTGGTAATGACAATGTATATACAGATAGATGAAACAATAACAACAATAAAGATCTTCATTCTAAAGATATTCAAGATTTAGTAAATAATCAAAATACAGGAAAACAAGCTCAAGCTGCTTTACTAAATCAAATTATGTATGGAATTTCAAAAGATAGCTCTTCAAGTGATTTGGCAAAAACAATAATATATTCAAAATATTTAGACAAAGACGAAGTATATTATGCAGGATTATGAAATAAAATTGGTTCATACATTAAAAATGAAAATGATAAAGACGAATAAAAATGAAATAAACCTAATTTAAGGTTTATTTTTTTGTAAAATATTAATGAAATGAGGTTTAAAAATGGATTGCATATTTTGTAAAATTATTGATAAAGAGATGAATGCAAAAATTATTTATGAAAATGACTATACATTGGCTTTTTTAGATATATTTCCAAATAGTAATGGTCACTCACTTGTTATTCCAAAAAAACATTTTGAAGATTATGAGCAAACTGATGATTTTTACTTACAAGAAGTTGCAAAAACTAAAAAAATAGTGGCAAAAATATTAAAAGAAAAACTAAATGCTAAAGGGATTAATTATGTCTCAAATCAAGGTTCTGAGGCCTTTCAAGTAGTATTTCATTATCACGAGCATATTGTTCCAAAATATATAAAAGAAAAAGGATATACTTTTAAAATTAATACTGAACCTGGAGATTTATTAGATTTAGATATTATTTATAAAAAATTAAAATAAAAAAAGAAAACTATTTAGTTTTCTTTTTTTGATAATGATTTAAATAACTTCTACCTTCTTCTGAAAGAATTCTTGCAGTTCAACTACCCTTTTCTACTTTTGACAATTCATCATTAATTTTATAAATTCTTGCATCTAAAGCATCTAATGATGAAATTAAAACTGCTTCAATTAAATTTGGTTCAACTGGTGAACCATATTCATTTTTACCATGACTTGCTAAAATAACATGTTGCAGTTTTAAAACATCTTTATTGTCTTTTAAACCTAATTCAATAGCTTTATTAGAAACAAAAGTATTTCCAATTGAAATATGACCTAATAATTTTCCTTCATCTGTATATTCTGATGCATTTTTTCCATCCATTTCAATCACTTTTCCAATATCGTGAAGTATTGCTCCACAATAAACTAATTCTCAATCAATTTCTGCATATTTATATACTTCTTTAATTGCTTTTGCTCCCATTAATAAGGAATAACTGTGTCAAAATAAACCCCCAATAACATTGTGGTGAATGCTTACTGCAGCTGGATAGGATTTAAATTCTACTTCATATTCTTTCAATATAGATAATGTAATTTTTTTATAATGTTCATTTTCAATTGTTTCTAAAAAATCGATTAGTTTATCATAATTTGTTTCAACATTTATAGGAGCACTTATACTAAACATTTCTGCACTAATACTATGTTTTTCGAAATCTTCTTCTTTTATGATTTCATAAGAATTTATTTTTAGTTGCAGTTGTTGTCTATAAACATTTGTTGCTGCTTCAATTTTAACAATTTCTCCTGTTTTTAACTCTTCTACATCAACATCTGTTGAATTTCAAAGTCTTGCTTCAATTCTTCCTGACATATCTATTAAGTTTAAAATTAAGTAATTAGAACCATTATTTCCTGTCGACAAGATTGTTTTTTCAATTCTAGCTATCAAAGTTATTAATTTACTATCTGAATTTATTTGATTAATCATATTTATTCTCCCCAAAGATAAATTAATTTTAACAAAAAATAACTAAATATATCAATTAGAAAAAATTAACAATTTATAAGGTCTTTTAATAATATAAATGATATAAAAATTACAAATAATAGTAATAAAATAGTTTTTATTTAGTTTTTTTTTAAAATATAGCTTATATTGAGAGTTATAAATTAGATATGCAAAAAGTTAACTAATATTTGTATTATTGATCTAATTAAAATACATTCTATTTTTCTAAAGCAGATATTCTTCAAAAGGTAATTCAAATGACAATAAAAAAAATGATTATATAAAAATTAGATATAGTCATAAAGAAATATGCCTTTTATAATCCTATTAAATATTTATAAAACTTGCCTTGTATTTTATATAATTACTTTGGGTGAAAAAATGAATAAAAGTAAAATGATAGAAGAATATCTTTTAAAATTAATAAAGGAAAATAACAAAGTAAAGACTTTTCCAAGTGAAAATTTTTTAGCAACAAAATTCAAAACTACAAGACAAACAGCAAGAAATGAATTGTTAAAACTATTGAATAAAGGATTTTTAAAAGTTAAAAAAGGAAGTGGCTATTATATAAACCCCCATATTTCTACTATAAAGTTAACAAGCATGGGTGAGAAACTTAAAGAAGAGAAAAAAGAGGTATTCGAACATAATTCTGGAAGATTACCCTTGATTCTTGAAAATTTAAATATTAAAAATGCAAATGAGAGTAATTTTCATTCTTATAGAAAAATATATTATAGAGATAAAGAAGAAAGTTTCTACATTGATTCTTTCATTAATAAAGAAGTTATTAGTAGTTTAGATTTGTTTAAAATAAAAAACTCATTAATTGATTTCATTAATGAAAATGAGATAGAACTTGATAATCAAATAAATTATCTAAAAATGGAACCTAAAAATAAAGATGATATAGAAATATTGAAAGACAATGTCTCTAATTTTACCCCTGTTGTTTATGGTATTTTGTTTTCAAAAGAGAACAAAATAATAGAAATCTTTGAACGAAGATATAAAAATAACACTTTTGATGTAAGATTTTCAAAGTTCTACTAATATGTATATACAACATATTTATTTTCATATTCTAAGGAAAAAAATTAAAAAACCCCTATTTTAAAGGGTTTTTTTAATATTTTAGAAAAAATTCCTTATAATCTATGTTTTTTGGAGATTGATTTTTTGCAATAAAAGCTTTTTAATTAAATTGGATACAACCAAAGAAAGGAATGATTACAATTAAAAAGTTATTAAGTGTTTTAGCTAGTTTACAAGTTATTACATTAACATCAAGTACAGTTGTTGCATGCACTGGTCCACATTACAGTCTAAATTATTCAAAAGATTCAGGCAAATTGCAACAAACTATAAAAATTGATAATGAAAAGCTAAAAGAATTTGATAATACTACTACTCTTGTAAATTATATTCAAAAGCAAACAAAGGATTTAAATAAAAAACCATATCAAGTTACAATAAATGTAAAAAATTCATCAAAAAATGAAGTTAAAGAAGAAGATTATGATAAATCTAAGGAAATGAGATTTGTTATAGTTTATCTAAAAGCATTTCTAGAAACAGAGGATGAAAAACAATGAGAAGAAGTGAGTTCTTTAGCAGAAAATGCTTCTTTTGCTTTGTTAAATAAATAATTATGTCTAAAAAAAGGAAATTAGAATTTTTAACTGATGAATATTTAGATACTCTTCTTAGTGCTTTGGGTGGTAAAGAAAATATTGCTTATTCTACTCATTGTATTACACGTTTTAGAATAGTAGCTAAAGATAGTAGTTTAATAAATGAAAATAAAATTAGATCTATGGATGGTGTTAAAGGAACCTTTACAGCTTCAGGGCAATTCCAAATAGTTTATGGAACTGATGTTGGAGATGTATATAATACTTTTACAAATAAATTTAATTTAGAAAAATCAACAAAACAAGATGTAAAACAAATAGTTAATAAGAAAGGTAATTTATTTAAAAGATTTCTAAACTATATGTCAGATATCTTTATACCTATTGTTCCAGTTTTAGTTTCTGGGGGAATAATATTGGGAATAAGAAATATATTTGAAGCTAACTTTAATGAAACATTCTTTACAGGCCGTTTTAATGCTGATGGAACACCTATACTTGGATGAAGTATGGTAAATGTAAGTCAATTCATTAATGGATTAAATGCTTTTCTATGAATACCAGCTCAAGTCTGTTTCTGGTGGCTACCTGTAAGTATTTGTTGAAGTATCTTTAAAAAAATGGGAGCTGATGAAATATTAGGAGTTCTTGTAGGACTTACTTTACTAGTTGGTCCTCTACTTAACGTTTATGATGTTTTCTCATCAGGAGAAATGCAAAGTCTTTGAATCTGAGATATAGTCAAAGAATTAGAAAAAGCGGGAAAAGATGTAGCATTTGATTGAGGATTTATGCAATACCCATGAAAAATTGCATATACATCACAAGTTATCCCAGCAATGGGAGTTGGAGTTGTTGGAGCTTACTTAAACTTATGAATTAAAAGAGTAAGTCCAAATGTAATAAATCAAATCTCTGTACCAACAGTTACACTATTAGGTTCATATACATTAGCATTATTTATAATTGGTCCACTTGGATATATACTTGGTAGTGCTATTGGAATTGGATTTCAATGAGCATTAACAAACTCAGTTGCAAAATACTTCTTTGCATTAATTATTGGTGCTCTACATGCAGGACTGGTCATTACAGGAATGCATCATTTATTAAATGCAGTTATGATACAAAATGTAGCTCAATATGGAGGAGACTTTATATTTATGAGTGTCTGTGCCCAAGCTATTGGTCAAGGTAGTGCAGTAATTGGATGAATGATATTAAACAAAAAAGACCCAAAAGCTCGTGAAGTTGGAGCAGCTTCAGTAACAGCAGCTTATCTAGGAGTAACTGAACCAGCACTTTATGGGGTTAACTTAAAATACTTATTCCCATTCATTGCAGGTTGTATATCAGCTGCTATTGGATTAGAAATCTTAGTAATTAGTGGTGTTACTGCTCAAGCCATTGGTAATGGTAGTTGATTAGGAGTACTTAGTGTACAAATTAACTCTAAAGTTGAAGGAGTTAAAACTTTCCCTGGTACTGCTTACCTATGATTTATGATAGCTAACATAATAAATATGGGAGTTTCAATTGTATTGACTATGGTACTTGGAAAAATCTCATGATTCAAAAAATTTGATCCAAATTATATTGAATTAGAAAATACAAAAAATACAAATCTAGAAAATAAAAAAGCAAATAAAAAAATAAAAGAAGCAGTTACTTCTTAGGAGATAAATATGGCAAGAGCAGTTGATAATTCAGAAAGTATAAAAAAAGGAAGTTTTATGTTAGGTGGTGTTTGATCTGCTACTTTACTTATAGCAACAATTTATATAGCTATTAGTTCAAGATTCCCTTTTTGATGAATTCTGATACTTTTATCTATAGTTAGCATTACTCTATTTATAATTCATATTATTATTTTTATAAATATAGCAATAAATAAAAATACTGAAAAAAATATTAGCAAATTATATTGGCTATGCATAATTCAATTAATTACTTTAAACATACCTCTATTTGCTTATGAGTTAATTGGCACATTACATTTTAAAAAAGCATTCTATACGCTTTAATAAAAAAATCTTGGATTTACTTCAAGATTTTTTTATTTTAAATTATAAGCTTGTATTATTTTATTAATGTCTATTTCATCTAAATTATTAAAGATAATATTGGCTTTTGCCAATAATTGTCTATCTCCAATTCCTATAGAGAAAATATTTGCCTTATTAATTGAAGTTATTCCTGCTTGAGAATCTTCTACTCCTCAACAATCTTTTGGATCTATTTTTAGAACTTCATAAGGTTTAATAAATATTTCTGGGTCAGGTTTTGGTGCTACTTCATCAGGATTAGTTATATATGAAAAATACTTAGTTAATTTTAAAGTATCTAACATTCTTTCAGAGTTTTTAGAAGCTGAAGCTAGAGCCAACTTTATGTTCTTATTATAAAGTTTTTTTATCAAATTTATAGTTCCTTGAAAGACTCTTAAAGCATTTTTATCTGAAAGTGTTTCTAAATATATATAATTTTTTTTATTAACTATTTCATTAAATGAAAATTTAATTTTATCTATATCAATTTTATAATCTTTTAATAAAATCTCAAGACATTTTTCTCTCTTAATTCCTCTAAATTTATCAAGATAAATTTCATCAATTTCAATACCAAAATAATCAAAAAATACTTTATATCATGCTTTAAAATGAATTGGTGCTGTGTCTGCAATTACTCCATCAAAATCAAAAATGACTAGCTTTGGTAATTTCATATTTTAAAGTTCTATTTCCAATTTTTCTGTCAAACTATATTTTTTATCATAGCAAATTATTTCGATTGCTTGATCTGATTTTGATTTTTCTATAACTAACTTTTTGTTTTTTAAACAAAATGATATATCTTCTTGTAAATACTCTATATTTATTTTAAATTCTGATATTATTTCATTATATCTTGGATTTATTGCTATATTATTTTTATGTATGTTTAAGCCTAATAGCCCATATATTATAAACATTCTTGCTCCACCCATATTGGCCATATGAAGTCCTCTGCTTGTATTTTTATGAATGTCTAAAATATCTAAGTTAATACTTTCTTTGAAATAGTCAAAACCAAAGTCTCCTATTTCTAATCTAGCTGCCATAATTGCATAAATACATTTTGATAATGAAGAATCAGCTGTATCTGTTTCATCATAGAATTTTCAATTATTGATCATTGTAGATTTTTTTTCTTTATCAAAAAAGAATAAATTAGCTAAAACAACATCGGCTTGTTTTGTTACTCTTAAAGTATTTATTGATAAAGGATGTAAAGTTCTAAGAAGAGGTTTATACTTCTCAATTTCTTCTTTTGATATTGGTTTTCGTTTTAAAAAATTATCGTGTTGAGGATTTAAATCCAACTTATTATTGTAAGGAATTACTAAGATTTTGCTTAAATAATCTCAATCTTTTATTTCTTGTTTATCAATTTTTAATTGTTCGACTTTTTTATCATATAAATTTTTATTAGTTTTTTCTAATAAATTCAATATCTCTACTGCACTTTGCAAATTATATTTGGCAACACAATTTGTTCAATAATCATCATTTACAAGTATTTGATATTCATCAGGACCTGTAATTGTATTAATGTGACCTTTTTCATTAGTTACTACTATTTTGTCTTCTCACAGTCTTGAGGTCTCTACAAGAATGTCTAAACCATAGTTATAAATAAATTCATAATCTTTTGTGGCATTAAAATAATTCATAACTGTAAAACTTATATCTCCATTTATATGATATTGAGCTGTTCCTGCTGGATAATATGTACTTGTTTCTTCACCATTTATTGTTCTTCAAGGATAAAGTGCTCCCTTAGGATGATTTAGTACTCTTGCTCTTTGTCTTGCCTTATCTAAAGTATTATATCTGAACATTAACATTAGCTTTGCTAATTTACTATCAAAAAGAGTTAAAGCAGTTATTATATAAATTTCTGAATCTCAAAAATAATGTCCTCCATAACCTTCTCCTGAAAGACCTTTAGCTGCAATATTAGTTCAAGCTAACTTACCAACATTAGTTCATAATTGAAACATATTATAATTATTTGCTGTTTCAATTTGCTTATTATTATTTCCAAAATCAGCATATGCCTTTTTTCAAAAGTTTTTAAAAAATAAAATATGTTCTTGTAAGTGTTCAAGATAATTTTTTTTGCTATATGTCTCAACTGATTCTTGTGCAATTTTTACACTAACTTCTTTCAATCTTGATTCATATATTGAACTTATTTTATAAATGTTTACATCTTCTTGTAAAACACTTTTAGTAAAAATTAAACCCTCTTCATCATGATTCAACTCAAAATTTTCTAATCCTTTTATTTTTGTTGAATAAATATAGTTTAATTTTGATTTTAAAGTTTGATAAATAATAGATTGATGATTTTTATTAAAACTTTTTTCAATTGTTGTAAAACTTTCTTGACCTTTTAATAACGATCTTGGATCATTTGGAATACCCTTATCAGTGTCTTGTTCCTTAAATATTAAGGGAAATTTTAATTTTAATTCAGTCTGAACTTTAAAATTTGTTCTAATATTTATATTCTGTAAAAATAAGTCAAAGTTTTTTTGAGATAATAATTTTTTAAATGATAACTCCAAGTAATTTTCACTATTAATAAGTACTTTATAACATCTTCTAATTTCTCCTGTTGACATGTCAAATTCTAATTTATAATCTTGAACTTTTGACTCATCAAATAAATACCTTTCATTATTTACAAAAATCTCAATATTTTGTGCATTAACAATTGGCACCATTCTTTGATATACATCAGGATAGCCTGTATATTTTGCAGCATATTGAATATCAAATAAATCATAAAATGCGTTTATATAGGTTCCTTCAATACTACTTATAGAAGAAATACTACCCTCTTCAAACGAGGCTCTCATTCCTAAATAACCATTTGATATAGAAAAAACAGATTCTTCAACTTGTCTCTCTCTAGCGATAAATTCACTCTTTTTTATTAATAAACTCATTCTTTCACTCCTATTCAACTTAATTTTAATTACTTAACATTTTAGTTTTTGTAAAATTACAATTTTCTTGTATATACAGATAAAATGTTTTTAGAGTTACTATTTTGATTAAAATTAAAAAAACACTGTTAATTAAAAATTAATAGTGTTTCTTATTATATTAAAAATCCTGGATTTCTTAAAATACTTACAAATTCTTTTCCAAACATTACTGCATCTTCTATCTCTATTACATTTTGATTAAATGCAAACGAAATTTTTACAAAACTTGATAAATTTCCATCTTCTTTAAAATAGTTAGATAGAGATGAAATATAAATTGATATTACTGAGTTATTTGATAATCCAAAATTTGCATTATCAATTCCCAAATTTGAAAGATCAAAAATTGATACTTTAATATTATGATTATTCATTTTATTATTTTGAGCTATTTGCTTAGAAATATCTAAAATATTTGAGTCTCTTTCAATTTTAACAACAGTATCTTTTATTGAATTATTATCAGCTTTAATTAGCCTTATAAATGAATCCTTTGAGTCTAATTCATTGTATTTATTTAAAGTTTTTTTAAGAGCTTTTGTATAAAATGCATTAAGTTCTAAATCTACTCCTGATTCTTTTAATGGTTCAATCATAAGTGCTTGTAAATTAACAAGTGCTGTAATATCTAATTTAAATGAAAATGTTGCTATATCTTTTTTAGTTAAAAGAACTGTTTTTTCATTAACATGGTCATTATTTCTAGAGTTTTTCAATGATAGTGAAGATATTTCTTTAACTTTTTCATCTAAATTATTAATTTTTTGATTAACTTTTGTTAATAATGAGGAAATTGCTTTTGAACTATTCTCTTTTGATTCAGATATAAATTTATTTACTCTTGTATTTACTTCTTCAAATTTATTATTAAATTTATTTATATCATTTTCAATTTCTCTATTAGAATCTTTTATCTTTTGATATAACTTTGAATTAAAATTATTAATTTTTATATCAATATCTTTAATTTTATCTTTAACTTCTTTTTCTTTTTCTTCAATTACACTAAATTTATTTTCAAACTGCTCATTATTTTTTATTATTTTTTCTATTTGATTAATGTCTACATTTATTGAACTTTTATAATTAGAGTTTTTAATTTCTTTTGCAGTTTCTTGATTTTCGCTTGAAACCGCTTCACTTTCATGAATTAAAGTGTTTCTTTCATCTTTTTGAGATTCTTCTTCAATTATATTTGAGGTAACTAATACTTCCTGAGTATTTTCAATAATTTCATTATTTTCTTCAATTGAATCAGGTGATTTCAATTCTTGATTATCTTGTTTGATTTCTTCTGCTAAATTTGAACTAACTAAGATTTCTTGAGTATCTGCAATAATTTGATCACTATTTTCATTTGAACTTGAAGTAGTAATGATTTCTTGACTATATTCTATAATTTCTTTATTATTGTCATTTTCTTCTTTATTTAACTTTTCCATAATTGAGTAAGATAAGTTTGACATTTCTTGTGTTAATAATCCAGGAGCTTCTTCTTTTTCTTCTTGAATAGATTCAATTTGATAATCTTTTTCTAATTTCTCTGGTGCACCTAAATTAGTTTCTTGTTCAAAATCCTGACTAAAGTTTTGCAATTTAGATAGGTCATCATCGTTTTCAAAAGTCATTTCAATTTCTTCCTCATCAATTTCAGATCCATTTATTAATTTTTCTAAATAGCCAAATTCATTTAATCCCTCTCTTAAAGTATCATTAATATTTGATGGTTTTTTTAAAAGAACTTTTATCTCTTTATCTGAAAAAATATCAAAAACAGTATCCCCATGTGAAACTATTAAAGACTCTATTACATAAATATTTCTAATAACACCATCAATTGTAGATAATATCTCAAATTTTTCTAATTGAGTTGAAATTACAGCAAGAACTTGATTTTTTTTAACTGGTTGTCCTTCTTTTACAAAAACACTCTCTACAATACCTTTATATTTCTTAGGATTTTTAAACTTAATTTTCTCCATAAATAGCCCCTTTTAATTAAATTATGATTAAACACTATACCTTCTTATTTTACACTAGTTTAAGCATGTATTTAATTTTTTTTATAGAGCCTCAAGTATCAACTTATTATTCTCTGACATATCAAGTAACCTTTTATAGCAGCCCTTAAATAAAGGAGTTCTATTATAATGTTCTATTTTTAAACCTTTACACTGAATAATTAATTGAGAAGCTTGCTTTGCAAAGTCAATCATCTCATTTTTATCTGAAGGTCATATTGGTCCAAATCCTCTATAAAGTAGCATTGCATTAGAGATTAAATTTATAAAAATAAGAGTATACTGACCCAATGGTCTTTCAATTGCAAAATAAATAAAAGTTATCAACATATCTTCTATAAATAATTCTAAAGTTGCTTCTTCAATTAAACTCTCTTCAAAAAACTCTATCATCTTAAGAGTTTTTGATTTTTCATCTTTTATCTTTTGAAAAACATATTCAAATTCGCCTGCTTCATCAAGGAGCATATAAATTTTTATGTAATCTTCTATTTTAAATGCCCATTTATGGACATTATCTCTTCTATAATTTTCCTTAGACTCTATTATTTTTTGTCTAATAAGCTCTCAAATTTGAAGAAAATTAATTAGTTTTTTTCCATAAATTTCTTGTGAATCATCAATTAAATATTCCTCATTTGCTATCAATTCATATAATTCTTCTTCTGAAAAAATATATTCTTTATAAAAAGACATATTTGATATTATGCGTGATCCTACTGTAGCTCAAAGCTTTTTATTTTTATACAAAAAAAATACCTCCTTATAAACTAATTTTATAGTTCAAATTCGGTAAAATTTTTTAGAATTGTTAAAGAGTTTTTATAAACAAATTTATTTTTTTCTTCTTTAGAATTAAATTCTAGATTTTTATCAATTGTTATTAAGCCCATATTTGCTTTCATAGGTTTTAGTTTTTTATGTTTTGGATTGGTAATATAGTTTATTAAACTTCCTATTACCGTTTCTTCAGGAAAAGGTACAAATTTTCTATTATTAATAAAACTAATAATTCCTTTTGCTGCAACTAATCCAGTAGCAAAAGACTCAATATATCCTTCAACTCCTGTTATTTGTCCAGCAAAAAAAACATTTTTCTTTCTCATCATTTGCAATCTCTTATTAAGTATTTTAGGTGAGTTTATAAAGTTATTTTTGTGCATAACACCAAATCTTTTAAAAACAGCTTTTTCAAGTCCTGGAAGAGTTGAAAATACTTCCTTTTGTGCCTTTCAAGTCAAATTTGTTTGAAAACCTACCATATTATATAGACTATCAATAGCATCATCTTTTCTTAATTGAACTACAGAGTATGGTTTAATTCCATTTTTATTTTCAAGATTATTCGAAGACATTGCAGATTTTAACAATACTTTTTTAGAAATTTTTGCTAATTGTTCAATTGGTTGACACCCTTTAAAAAATATTTCTTGTTCAAAATCTTTTAATTTAACTTGTTGAGCATTTATTAATTTTTCATGAAAAATGTTAAATTCTTCTTCATTTAAAGGAATACAAATATAGCTATTATCATCACTATGTCTAGATTTATAATAAACCTTTGTAAAATCAATAGACTCTTTCTCTAAAATTGGTGATGAAGCATCTAAATAAAATAACTTCTGTTTTCCTAACATTTTTTCTATTTTTAATTGAAAAGCATTAGAAGATAAAGGGCCTGTTGCAATTAAAATAATGTCTTGATTATCTTTATCTATTTCTAAGAATTCCTCTTCAAAAACTTCTATATTTTTATGCTTTCTTATTCTTTCATCTACAAGTTTAGAAAAAGATTCTCTATCAACAGCAAGAGCATCATCTGAGGGTATTTGAGTTTTATAAGCACAGTCCAATATAAATGATTCTAACTGTTCAAGTTCTTTTTTAAGTATTCCCACTGCATTTTGAGTTGAAACACTTCTAAAAGTGTTTGAACAAACTAATTCAGAAAAAGTATCTAACTTTTGAATTTCATTTTTTTGAAGTTTCTTTTTTTCATAAAGATGAACTTTAATTCCTTTTTCAGCTAACTGTCATGCAGCTTCACATCCAGCTAAACCAGCTCCAACTACTATAACTTTCACTATTCTAACTCCAACAATTCATTTATTTTATTTAAATTGACTGATTTATCTCAACTTAAATCATCTCTTACACATGAACCAACATGAATATTATTTGATATTTTTTTAAAGCTTAAAAAATTTTGTTGATTTATTCCCCCACCAACTAAAATTTTTGTTGATAAATTTAAAGAACATAATTCTTCTATTATTTGCTTACCTTTTTCAATATCATGTCCACCACTTGTTAAAACATTTGTTATTTTAAGTTCATTTAAAGTTTTATAAGATATTATAAAATCTTTTACTTCATCAAAAGCTTTATGGAAAGTTATATCCAAATTACCTTTTATTTTAATAACTTGTTTAATGAATTCAACATCAATTGTTAAGTCTTTATTCAAAGCTCCAATAACTATTCCATTTGCTTTAGTTTTTGAAATAAATTTAACTTGTTCTAACATTTCATTTTTTTCATCTTCAGTGTAAAAAAAATCTCTTGCTGTATTTCTTACAATAACATTAACTGGTAATTTAGATCTATTACAAGCACTTATTATATCTTCACTAAATGGTGTTAATCCTCCAATTTTTAACTCTCTACAAAATTCAATTCTATTTGCTTTTGAGTTATTTATAAGCTCTATATCATTTAAATCTTTTGCAATTACTTCTAATAACATTTTATAAATATGCCTCTAATTCTCTTATTTTATCTAATTTTTCTCAATTAAATTCTTTTTTACCAAAATGTCCATATTTGCTTGTTCTAAAATAAACTGGCAGTTTTAATTCTAATTTATCAATAATTGAACTAACTTTAAAATCAAAATTTTCTTTTAAAGCTTTATACATTATATCCATTGATACTTTATTTGTTCCAAAAGTTTCAATAAATATTGAAACAGGTTCTGATTTACCGATTGCATAACTTACTTGAATTTCTACTTTATCTGCTAATTTAGCAGCTACCATATTTTTTGCAGCATAACGACACATGTAAGCAGCACTTCTATCTACTTTACTTGGATCTTTTCCTGAGAAAGCTCCACCTCCATGACGTGAATAACCTCCATAAGTATCAACTATTATTTTTCTTCCAGTAAGTCCAGTATCTCCTTTTGGCCCCCCAATTACAAATCTTCCTGTTGGATTTATTAATACATTAAAATCAGTATTTAAATTATATCTTTTTGCTATTACATCCATAATATTGACTTTAACAAATTTTTCAAATTCCTCTTTATTATAATCTTCATCATGTTGAATTGACATTAAAATCGTTTCAATTCTAGGATTATTTTCATTTGTATAGTCCATTGTAACTTGTGATTTCATATCAGGTTGAGCTCATTTAAATTGCTTTGCTTTTCTCAATTTTGAAGCAATATGAACTAAATCATGAGCAACTTGAATTGAATAAGGCATATAAGTTGGTGTTTCACTATTGGCATAACCAAACATAATTCCTTGATCTCCTGCACCCATTTCCTTTTGCTCTACACCCATTGCAATATCTGGTGATTGAGTATTTATTCTCACTATAATCTCACAAGTTTTTGGATCGATTCCAGTTTCAGAATTATTATATCCAACTCTTTCTAAAACTCATTTTGCAATTGATGCATAATCAACTTTAGCTTTTGTTGTAATTTCTCCCCCAATTAATAAGTAATTTTCTGTAACAAAAGTTTCGCATGCTACTTTTGCATTTGGATCTTGTTTTAAGCATTCATCTAAAATAGCATCACTGATTTGATCACAAATCTTATCAGGATGTCCTTCAGAAACTGATTCACTAGTAAATAATCTTTTCATAATTTTTCTCCTTTTAAAATAAAAACTTCTCCCAACAAAAGAGAAGTTTTTTTCTCTCATCGTTGGTTTCCCCTTAATTTAAGCACCTAATTGAATAGGTTGCTACCACTTCATAGAGTTTTTTCTCTCAGCAGTTCTTAATAAGAATTTTTTTAAGTTTTCTAAAGTAATAATATCAAATATTTATAAACTTTTAATTATTAATTCAAATATTTTTTCAGAATTATTAGTATTTAAAATATAATGCTTATATCCCTTAACTTTTTCAAAAATATATTTATCTTTATTAAGTTTTGATAAATATTTAGCAATTTTTTTTGAATTACAATAAAAATCATTATTCGAAAGTATTAATAACATCTTTTCTTTTGATTTATTAATATTTTTGATACTAATTTTATTAGCTTTTTTTCATAAGTAATAATCTTTGGTATTAAATAAATTTTTAGTTAAATTTTCATCTTCAATTTTCTTGGCAAAAACACTATCATCTGTTAAATCTATACCATTAATAGGACTTATAAGTTTTGTATCTGCTTTAAATAAAGTTCCCCATCAAAGTTTTAGATAAAATCCAAAAGTTTTTTGATAAGCATGATTTAATCTTAATGAACAAGAAATAATTTTATAAACCTTTTCATTATCTGATAAAAAACTTGCTATTGTTGCTCCAAAACCTTCTCCCAACAAAATAATTTTCGCTGTAGGATTTTTTTCACTAATATCTTTAATTATTTCTCTTAAATCAGAAATTGTTCAGCCAAAATGGAATTGTTTTTCAACTATATTTTCTCCACAATTTCTTTGATCAAAAGAAACTAATGAACAATTACTCTTTTTATTCTTATTTAATCAAACTTCCATTTTATCAAAATCTTTTCGATTTCTAAACATATCATGAATTCCAATAATTATATACTCACTATTTGGATTAATTTCTCCAAATCATCTAAGTTCATAACCATCACTTGTTTTAAACATTTTCTTTTTAATTAATTCACTTTTAATAATTGGTTTTCTTTTAGTTTTAAGTTTATTAAAATTAATAATTCTAATTATTAAAGCTAATAAAAAAATTAAAACAAATGTACCCAATATTGAATAAATAATTATACTTAATAAGTCTCAAACAGCTTCTCAAACTCCCATAAAATCACCTTTCTTAATTATAAAGAAAAAAACACCTTTTTTTCAGTGTTTATTATCGTAAATATTTTATTAATTTTTATTTGATAAATCTAATGCATAGACATCAAATTGTCCCATAAATCAAAATGCAAATATAACACTTTGTTTTCTAACTATAAACTCTTGACCACCCATAACATTAATTGCTTCATATATAAGATTACCAGCATCTTGTTCAAGATTAATTCTAGTATTTTCAAAATCAGAAACTGATGGTCTACCATATATTTCATTTTTACTTTCCAGTTCAATTTCTGTTATAACTCTTTTAAATGTATCTTTATATTTTAAAGCTTTTCCAAGCTTTTGTTCTATACCTGCACAAATATTTTGAATTTCCTTGTCCAAAGCAAATAATGTTTCGTGTAAATTTCTAAGTTTATCATATCTTTTCATATTTTATGCTCCTAAAAATATCCTTTGTCAAAAATATTATACACAAATTTTTATTAAATCTTTTTTCTAATAAATTGTCAATTAAATATTAATTTATTTAATTAAAATCTTTTTTCAATTATTACTTAATTTGCAATCTTTCTATAGAAATAGCTTTATTTTTATCATTTATAGATAAAATAACACCACAAAGTAAACCTTGATTTTCTGAAGGTTTAAATTTCACTGGTAATCCAGTTTTTTCTTTATGTATAACTTCTTCTGGATTTGCCCCAATTATTGAGTTAATTGGTCCTGTCATTCCTAAATCTGTAATAAATGCTGTTCCCTTTGGAAGTATTCTTTCATCAGCTGTTTGCACATGAGTGTGTGTTCCAACAAGAGCTGTAATAATACCATCATAATTTCAAGCAAATGCTATTTTTTCTGCACTTGTTTCAGCATGAAAATCTACTATATGAATATCAGAATCATCATTTTCAATTATTTTATCCATAATTTCATAAGGATTATTAACGTGCTCCATAAAGCTTTTACCCATCAAATTTGTTATTCTTATTTTTTTATTTTTTCAATTATATTGATTTGTTCCAATACCTAAATTGTAAGAATTCATATTTGCAGGTCTTAAAAGATCATTAACTTCATTAATGTATTCTAATGTTTCTTTTACTTTAAAAACATGATTTCCTGTAGTAATAACATCAACTCCAAGTTTCTTAAGAAAATCATAATGATTCTTATTTATCCCTTTTCCATGACTTATATTTTCTCCATTAACAACAATAAAGTCGATACTATTTTTTTTCACAATTGATTTTAAATGTTTTTCTAATATATCTCTTCCTGATTTAGAGTAAACATCTCCTATTATTAAAAAATTCATTATAAATTTTGCTCCACTTCCACTATCAATTGGTCAATTGATATTTTATTAATTTTGGCTTTATCTAAAATATCTTTAATTTTTGTATTTTTTAATTTTAAATTTAATTTTTCTTCTAAATCTATCAATATTATTGAAGTTTTATTTATACTATCATAAACTGCATTTCTTGATACACCAAACTCTTCTGAAATTTCTTGTAAAGTTAAATCTTCAAAAAAATATAGTTCAAAGTATTGAGATTGTTTTTCTGTTAATAAATTTTTATAGTAATCATACAATTCTGCTAAATTAGCTGTTTTTTGAATATCTTGATTAATCATTTTTATCATTTTCCATAAAATCAGATGTTAATTCTCAAATATAATTATCAACATCAAATTCTTCTATATCATTGACAGTTTCACCTGTTCCAATTAACTTAACAGGTATATTTAAAGTATCTTTAATTGCAAGAGCTATTCCACCCTTACTAGTACCATCCATTTTTGTAAGAACTATTCCTGTTACATTAGTTGTTTCTGAAAATGCTTTTGCTTGACTTATTCCATTTTGTCCTGTTTGAGCATCAATAACTAGTAATCTTTCATGAGGACCATCAACTACACTTTTTTGAATAATTTTAGTCATTTTTTCTAATTCTCTCATTAAATTTTCTTTATTTTGAAGTCTTCCTGCTGTATCAATTAATAATAAATCATATTTTTCTTCACTTGCTTTTTTAATACCATCAAAAACTACACTTGCTGGATCTTTAGAATTATTTTGTGATTTTACTAAGTCTACATTTTTAAGTCTTTTATCACATCACTCTTGTAATTGTTCAACAGCTCCTGCTCTAAATGTATCTGCTGCTGCAATTAAGACTTTTTTGCCCATATTTGAATAATAATTTGCTATTTTTGCAATACTTGTTGTTTTTCCTACACCATTTACACCAACCATTATAAAAACATTTAATCTTTTATCTTTATAATTTAACTCTGTTTTAAATTTTCCACTATCTGTGTAAGTTTCATAAATTTGCTCTACTAATATCTCTTTTATTTCATTAAATGAGTGTTTAGGCTTTGATTTTTTTTGCACTCTATTAGAAATTTCCAAAACCATTTTCATACCCATATCAGTTTTAATTAAAATATTTTCTAATTCTTCAAAAAAGTCAGAATTTGGTTCTTTATAATTTTTACTTAATTTTTTAATATCACTTGAAAAAGTTAATGTATTTTTATGGTCCTTTTTGTGTTTTTTAATTTGTTTTTTTGTTTCTCTTCTTTGTTTTAAATTACTTCAAAATCCCATAAAATTTCCTCTTTTCTCTTTATTAATTGTATAATAAAAATAATGTATTATAAATATATTAATGTGTGAGGGAAAAATTATGAAAAAACTACTATCAGTTTGACTATCTTTAAGTTTAGCTGTTTCAGCTGGAGTTACTTCAACTCTAAAAAATGAAAATAAATACGCAAGTAAATATACAAGATACTTATTAGCTATGGATGACTTTTTATATCACAGAGTTGAAAACAAAATGGATATAAAGAATTTAACAAATGAGAATTTTGAAGAAATTCTAAAAGAAGCTTTTTATGTAGATGATTTTGGAAAGGAATTATTTAACAATATAACTTTTGAAGTTTTAAAAATTGAAGATGGAGAATTAACTATTCTTTTTAAAGATAAAAACAATTTAAAACTTTTAAATGAAAATATAATACTTAAATTTAATTTAGTATTATTTAATTACGATAAAATCAATGATTTCATTTATGTAATGAATAATTTTTTAAAGAATAATCCATTAATTCTAACAAAAAGTAATTATATTCAATTAGAAGTTGAAGATTTATTAAAGTCTAAGTTTAAAAAAATCTTCGATAGATATTCTTCATCAGTATTATTTTTAGATAATATTAATGAATTTTGAGAATTTATAGATTTTGAAGAATTAGAAAATGAGAACCCTAAATATTTAAATGCTAGTTTCTTAAATGATACAAAATTAGATTTTAAATTATTAAGAGATTCACAATCTTTTGGAAATGAAGGATTTGATAAATATATTAACTTTTCTGTAAATGAAAACATATTTAAAAGAGAAATCTTTAATTGAATAAAAAAACATTCTTTCTTTAAAGAAAATGTTAAAAATTATGATGATATTTTTACAATAGAAGAAATAAGAAAAAATAAAGTTACAATTTCTTTATCAGATAAATTATTTACAGTTCCAAAATTAATTACTTTAAATAAAATAAAATAAAAAGAAGAAGAACAATTTTGCTCTTCTTCTTTTTATTTAACTGAGACTATATTTGTTTTAATAATTAAATATTACTCAATTTAGAGTTTAAATATTTAACTATTTTTTTACAAGTTTGCATATCTTGTACTTTTGCTCCTGATGCAGTTTTATGACCTCCACCACCAAAATGTTTTGCAACTTTTGATACATTTATACTATCTGATCTAAATTCAACTCTGACATAATCTTTATTTTCTACAAAAAAGATTCATACTTTTGCAGAATTTATCTCTCCTAGCATATTAACTCAAAGTGCTATTTTATTAACATCTGATATATTATAATCGCTTAATATCTCCTTTGTTAATTCAATATATGCTATTTTATTTTCAGACATTTTATAATTTTGCAAAATATAAGCTTTTAATTTAATTTCATTTCCATCTAAACCATATATATTTTTATAAATTAAATTTAAGTCTATATTTTTCGACATTAAGATACTTGCCATTCTAAAAGTTCTTTCAGTGACATTTCTATACATAAATCTGTCAGTGTCTGTTACTAAACCATGATATAAATTAAAAGCTGTTTCTTTTGAAAAAATTAAATCAGTTTGTGAAAATATATCTGTTAAAAGTTCACAAGTAGCAGGACAAGAACTATTAACTATTTCATAATTTCCATATTTCTCAACATTTATATGATGATCTATTTTGAATACACAACTAGCTTTTTTAAGTCATTCTATATTTGATATATCGATTCTTGAAGTTATTGCAGTATCTGTAATAATAACTAGTGCATCTTGAAAATCATTTTCTTGTAACTTATCATTTTTGCCAATACATTCATATTCTATTGGCAATTCTCCACCGCAAAGCACTATTTTATTTGAGAAATTTTCTTTTATAAATCTATATAATCCCATTTGTGACCCAATTGCATCAAAATCAGGAAAAATATGTCTTAATAATATTATCTTCTTATGTTCCTTAATTTTTTCTAGAAATTTTTTAATCATATTCTTAATAATCTAAACTTTCTAATTTAATTTTTGTGCTTTTTTTAATAAAACTAACTGCTTTTTTTACTTCTAAACTTTGAATTTTAAATTCTTTTTTAGATAATTCATCTTTCTTATTTTTTAAATTATCAAGAATAACTTTAATTTGAGTTTTCTTTTTATTTAAAATTATTTCAATATCATTTTTTCTATCTACTTTTTTTAATTTGATTTTTGTATTAAAGTTCTTATTGTGTTCTAAATAGATTTTTTTTGCTTCTTTATAATCTTTTATTTTTTCTTTTGATAATTTAAAGTAATCTATATAACTTAAATATCAAGCTAAATTGAATTTTATTTTTTGAGCTTTAGATATTTCTTTTGCCTTTTTATAAATTTCTTTATTAGTATATGAATAAAATGCCTCTGATTGAGAATAATCTAATTTTTCACTACCAAATACTAAATACTCATTGGCTTTATAAACTGCAAAATTTTTATGTTTAAAAAATAATATAACTCTATCTACATATCATGGATTTATACCTAAATTTAACTTTGCTCTTAAAACAGTTGATACATACTCTACAAAGAATGTAAAGAGCATTATTCCAAATAATAAGGCCCCAAATTCATGGAAGTAATGTTGACTAAAATAACTATTTAATAAGTAACCCATATTTCCTGCTCCAACTACTCCCAAAACTGAAACTTCTTTAAAATTAATATCAAATCTATAAACTATATAAGAAACAATACTACTTGTAGTTTGAGGCATAATTCCATATTTGAATACTTGAAATTTATTTAATCCTGTTGATTCCAATTGATAAACTATTTTTAAATTAATTTCATCAAAAATTTCTCTGTTATATTTTGTTAACATCCCTATTGTTCCCATTGCAATTGCAAGAGTTGCAGTAAATGGTCCCATACCAACTAAGGTAATAAAGAATATTGCATAAATATAAGTTGGTACTGATCTTAATATTGATGTGAATACAACAAAGAATTTTGCAACATAGTAATTTACAACTTTTTCAGAACTTAATAATCCATAAATATAGGCGAATATAGCACCTATTAAAGTTCCAACAATTGCAATAGAGAGTGTTTCAAATATTAAATAAAGTACAGAGTAAGGAGCATTACCACTCGCTCTAAAAAAAGAAGCTCAATTAAATTTCAACATTTCAAGTAAATTATTATTTGTATTTTGAATTGTTTGAGAACTTTCAAGGTGAAAACTAATAAATGAAAGTGAATATATAAAAATTGTAAATAATATTAAATATAATGAAACTCTTTTAATTCATTTTCTTGGATTTTTCTTAATTACTTCATTTATTGTCAAAGTTTTTAAGTATTCTTTATGCTCATTTAAAGCACTCTCTTCTATTTCCTTTATCATTTGTTCTTTTAAAAACATAACTTTAAAATTAAAATCTGATAGATACTTTTTATCTCTTCTAATATTAATTTTTTTATCATCATCTCAAATAAATCATGATTTTGAGTTTATATTTTCTAATTTAAATTTTTCAAATTCTTTTTTCTCTTTATTCAGATTATTTTTAAATTCTTGTTTAAAATCATGTTTAGTTTTTTTGATTTCTTGCTTTATTAAAAGAACTTTCTCATTATCTTTATTATTTTTTGCTTCTATTAAACTTTCATTTAAATCTTTTTGTAATATAAATTTTATATAAAAGTTTACATTATTAAGTTTTGATATTTGTTTAATTAAGTTATTATATTTCTTTTGATCCTTTTGATCTAAAATGAAATCTCTATCTAAAAGTATATAATTTTTAACAAAATAAATTAAAACTTCTAAAAAGACTACTGTTAATATCAATAATGTAAGTAAAAAACCAACTCTTCCTCATTCATCATATTCAATAGAACTATCTATCATTCTACCAATACCAAATTTTGTAACTCCTCCAATAACTGAAATATATCTTATATTAGTCTCTAAGGCATAAAATGTAGCAGATGTAATATGATTTGATATTTGAGGAACAACAGCAGTTCTAAAGGCCCTAAATTTTCCTGCTCCTGTTGCTTGTTGAGAAATAAATATCCTAGTATTAATGTGTTCTATTCTTTCAAAAAATATTTTTGAAGTTATTGAAAATGTAAAGATAGCAAGAACTATAGTAACTGTTAAATTTGTTTGACCGAAGTATCCAACAAAAATTAGTGCATATACAAAAGAAGGTACTGTTCTAAAAAATGCAATTATAGTTTTTGCAGTATTATTTATAAATTTATTTTGAACAATGTTTCCAGCAGCAAGAATTGAAACTGGAATGGCTAATATAACACCAATTATAGTTCCAGAAAAAGCTATCAACATTGTTAAAAATATAGAAGACATTGCCTTGTTAAAAAACACATTTCCTAAACTATCAGGTTTTAAAAAATCTTTTCAATCTCATTTAAATAAATCTGAAATTCTGGATACAAATAAATCAAAACTTGAAAACAGTTCTCCTCAATTTGCATCCAAAACTTTAAAACCAAAAATAATTAATACTATTAAACATACTATAGAAAAAATTAGAAAAGTCTTTTTAGGTGCTTTTGTATAACTATTATTTATTGCAAAAACATTTCTAGATTTTATTGACTCAAATTTCCTTTTCATCTAATAATTATCTCCATAAATTTCTTTAAGAATATCTTTGGTTAATTTTTCTGGTTTATCATCAAAAACTATTTTTCCATCTCTTAAACCTATAATTCTTGTTGCAAATTTTATTGCTAAATCAACATGGTGAATATTCAAAATAATTGTCATATTTTCATTCTTATTAACATTTTGAAAATCTTGAATAACTTGACTTGCCAAAATTGGATCTAAAGCAGATACAGGTTCATCAGCAATTATAAGTTCTGGTTCTTGTGAAAGAGTTCTTGCCAAAGCAACTCTTTGTTGTTGTCCTCCACTTAAGTTATCTGCTCTAATATATGCATAATCTAGTAAATTTAATTTTTCCAAAGATCTTAAAGCAACTTCTTTATCTTTTTTTCTAAAAATACCAAATAGTGATCTTCAAAAAGATAATTTGGATATTCTTGAGTTTAAGACATTTGCCAAAACTGTTTGTTTTTCTATATTGTTATATTCTTGAGACATTAATCCAATTTTGTTTCTTAACTTTCTTAGTCTTTTATTACTTATTTTACTTAAATTATATTCCTCAATTTCTTCACCTTCTTTTCAAGATATCAATAACTCTCCAGAAGATATTTTGTTAATTCCATTAATTGTTTTTAAAAGAGTGGTTTTACCAGCACCTGAAAGTCCTATTATAGCTACAAATTCTCCATCATTAATAGTAATATTTATATCTCTTAAGACTTGCTTTCCATTAGGTCATACTTTATTTACATTAGTGAATTTTATCATAACTTAAAAAAATACAAATAGAATTTAATCTAATTGTATTTTCTCCTTTTCTATTTTAACTAATTATCAATTTTTCATTAATTCTAACATTTTTGCAGTTTCCACAGTTGCTCTTGTTATTGAACTATCCATGTCTACTTCGAAACTTTCACTAGCTTCTTTAGAAGTTGGTCCAATATAACCTGTATGACTGTAAATATTAAATATTTCTTTATTTTCTGGTTTTGCAATAAGGTTAATAAATGCTGTTCTTAAATCATCTTTATATTGTTCGTCATTAATTCTTTTTTTAGAGTAAACAATTAAATCATTTGGAATTGCATCAGTTGCTCCTATAACTGTTGAGTTTGCAAAAGCCTTTTTAACTTTATTATCATCTTTTTGTTCAGATCTAATATCACTGAATCCTACTGCATAGTTTGCTGCCCCATCATTTTGTGCATTTGAAATATTTTCAGCAGCTTGTGGATAGCTTTCTTGTTGACTTGCTTTTTTTCACAGTCCTTGTAATTCACTATCTTCAAATCCAAGAACATTTTTAAGTCAAAGCATTGGATATAAAACTCCTGCACTTGATGTCTTACTTTTTCCAAAAGAGAATTTAAACTTATCTTCTGTGGCTCCTTTTAAAATCAATGCTTTTAAATCAGCTTTATATTGTTCAGAAGATTCAACGCTTTCTTCTCTTGTTAAATTTTCTTTACCATATTTAGTTATATCAAATCCGCTAGCGCTTAAAAATGCATTATTTGCATAAATATATGATCTATAATATGAAGCAGTATTTTCAGAATCCTCCAGTTTTTCTTTTGCTTGTTGTAAATTTTCAATTCCTGTTGCAGTTTTATTATAATATTGTGCTAATTGCATAGAAGTTTGAGCATCAATTGCTTTATTTTGTGCTTTTGAAGAATCAAATTTTCCATCAGTTTGAAATGGTTCAAAACCTTTTGTTTCAGGAGTTACACCACTTCTTGAAGCACTTAAAAGTACACCTTCTGAAGAGAATTTTCCTTCATTATCTTTACCTCTATATTTTACATATGTGTTAATAGGTAAAAATGCTAAGTCAGCTTTACCATCTTGTAAAGTTTTTCCTGCTACTTCATAGTTTGTTGAAGTTGAAATCTTAACTTTTTTATTTAAAGTTCTACCATCTTTTTGAGCAATACTAGATAATTCTGTTGCTAATTTTTGTTCTAATGGTTTAACAGTATTTATTATTTCTGTACTATTATTTGAAGGAATAAATAATATATTTATTGTATCTGAACTTCCCCCACATGAAACAACTGTTGATACTGATGATGCGATTAGTGTGCTTACAGCAAAAAGTGATAATAATTTTTTCATTATTTCTATTTTTCCTTTTCCTTAAAATTATTTTGTGTAAATAAACAAAGAGCTCATTGTTAACTAATTATTGTTTAAAAAAAAAAAAAAAAACTTATAAAACCTTTTTTCATAAAGTTTTTGATAAGTTCCTTTCTAAAAATTTGCTTATAGAGATATATAGGTATATCGTAGAGACACCAACCCAATATGTTGGTTTATACAAGCTTTTTATTTAATTTACATTTTCTATTTTATATTAATAAATAAAAAAGTCTATATTTTAAAATAAAAAATCACTCTTTTAAAAGAATGATTCTCTAGCTTTTTGTTTAACTTCTACAGAAGCTGTAAATGGAATTCTTGTTGTATATCCTTGTTTTGCAGCAACTATTTTTTTAGTTGGTCAAACTTGAACATCTTGATTTCATCTTGAAACATAGTCATTATAGTTACTTCTTGCAGCAGATATTTCTCTTTGAGTATAATCATTTTTTTGCATTGCTGCTATAATTGTTTCTTGTGATTTTAAATCTGGATATCTTTCAAAAGCAACATTAATTATTCCATATGCTTTATCTAATTGTTCAGACAATTCGCTACTTCTTGCAGCATCAAAATTATTTCCTGATCTTAGCGCTGCAACACCTTTCATAACATCCTTATCTAAATTAATTGATTTTTCTAAAAGACCTGCCACATTTTGAAGTATTTGATAACGTTGTTCTAAATAATTATCAACTTCACTAGCTGAAGCTTGAATTCTTTGTTCTAATTTTGAAAAATAATTTCTTGCTCCTATTTTTTTAAAAGTAAATATTAAACCTGGTAATATTAACATTAATCATAAAAATATTTCAAATACTTTTGATCCAGTACCAACTTTAATTTCTATTTGTTTATTTATAACTTTAATATCTTGTCCTTCTTCTTTAAAAGGACCACTTTGTTCATCTAATAAATTTGCCATTTTTTTCTCTCCTACTAACTTATTTTATCAAGTTTTACTTGTTATTATTCATTTTTTCTAACAGTATTCTTTGGTTTTCTGTTAATCCTTCTTCGCCTAAAATTGTTGCTAGAATATTATTTGTTTTAACCATTCCTTCAGTATCAATTGAAAGTTTTGAAGTAAATTCATTTAAACTATCAATAATTTTATTTGAATTTACTGAAGTTTTATCATCATTTAAAGTACTAATCACTATATTAGATTCTTTAATTACTTTATTATACTCATCTCAAGGTACTGGAACAGAGTGTATTCCTCCATCTCCTCCACTAACTAAAACATAATCAACTCTTGGAGTTATACTATATCCTTCAGCAATAACATTTACATATTCATTATTGCCTTCTTTTTTTACAAAACTAGTTTTTAAAATACTAGGTGTAACAGAATTTCCATGCCCTAATGCTTTTTTATAATATTTATTTGCAATAGCTTCATATTCTCAATTTGATAGACTTTGTTCTTGAGGATTACCTGCTGATATTTTTGTTTCTCATTTTTCTTGATAAATAGGAATTGCAAGTAAAGGTGAAAATGCTAAAAAAAAGTTATTAAAAGAACCCATATTAAGTGCCATAAAATTATTTCTAATTTTTTCAAAACTGAAATGTTTATATTGCTCTACATCTCTTTCTAAAGATAAATTATCAATATAATTATTAAATAGAATACTTAAATTTGAAACTTTTTTCAATCTAAAGTTATTGCTAGAATCAAAATAAGGTGCTTTAATTAAATCTATTAATTGTTTTTGAGCCAGAGCTGAAAACATCATTCTGAATTCAATTTCATTTGATCTTTCAAAACAATCAAAATACAATTCAAATTCTTTATTATTCATTAAATTAAGTTTTTGATTATTTTTAATTGCCTTTTCTGCTTTTTTATCTAGTTGATTCAATTCTTTTTGAAATTCTTTATCACTTAAATCTTTTCTAGATTTACTTGGATTTCGATCAAAACTTAAATTAGGACAATGTTCACTATAATAAAATATAGAAGACTTTTTATAATAAAAAGGCATTGGTTTAACAACACTTGCAAAAAGAGTTTCAGATCTTGTTCGTGTTTTTGAGTTTCCATCTGAATCAGTATAACTTTCAGTTCATGTTATAAGTAAAGATCCAGTATATTCTTTTTTTCTCATTTCATGAATTCTTGTTTTTACTACTACAAATGGATTCTTTGCAAGTTCTCCACTTGATAAATCAACTATTGATTTATCTCTTTCAAAATCCTTAAGACCAATACTTTTTAGAAAGTTAAATTTATTATTATGTAAGTAATTATCGAATTTAACTGAACCTAATGTACTTTCAATTAGGTTTTTTGATAATCTACTATAAAATAAATTATTTAAAGGTCTCATTTGTTCCCAAGCCTTTTGAGTCAATTCATTAATTTCTGACTGAATTTTTTCTGCCATTTTTGAAAAGTCTTTTATTAATTTATTTATTCTTAAAAAAATTAATAATAAAAATGTAATAAACAATATTGCACATATCGAACTTGTTATTGAGATATACAATATAAATTTATCTAAATCTTTCAAAAAATAAAAAGCAACAACTGGCACTAAAACAAAAACTATACACATTATTATAAGAAATACTCTTAATGCTTTATATTTACCTATAACTTTTTTTGTGCTGTTTAATTTTTTTTCTTGTTTTTCAATTGTTTTTACAGTTGTAATATTTAAATTTTCATCAACTTTTGCTATTTTTAAAAGTCTTTCAAATTCCTTTTCACAGTTCAATTGATGTTCAGATTGGTAACTTTGAAATTCTTTCGCTGGATTATATATAATTTGCTCCACTTTTTTTGTTCCTCCAAAATTAAATAAATTATATTACAGTTTTTTATAAAAATCTCACCTTTTTGCAGAAAATAGAAAAAAATTCCATAAAAAGAATGGAATTTTTTATTATTTAGTTTCTAAATTATTAATGATTGTTTCTTGAAGCTCTTCAAATTTTCCTGTTCTAATAAATTGTAAAGTTTCTTCAATATTAATTAAGCATTCTCCAGCTCTTTCTAAATTCTTTAATTGTCTCACTATTGTAATAATTTTTTTTGATTCAACTTGATTTTTGGCTTCAAAATTTCTTAAAGCCAATGTATTTGAAAGTGTTGAGAACTCTATACTTAACTGTTCTTCTGCTTTTAAAACCTTTTGATGTTGATCATTGTCATAATTTTCAATTAAAGCTGAAACTATGTTTAACATTTTATTTACAAGATCAAACATTTTTGAAATATATTCAATTTCTATTGGTTCAGGATTGTATTTAATTGTAAATGCACAAATATGTTTTGCAACGTCAGCAATTCTTTCAATTTCACGACTTATTAAAACTCCCCCAACAGCTAATCTTAAATCACCTGCTACCATTTGTTGTTTTGCAATTTTTCATAAAGCCATTTTTGTAAATGTGTTTTGCATGTCGTTAATTTTTAAGTCATTTTCAACTACTTCTTTTGCTAGTTCAAAATTTTGTGCTTTTAGAGATTCGAAAGTGTTTGCATACTGAGATTTAGTAGCTTCAACTAACTTAATTAATTCTCGCTTAATAGTTTTAATATCATTATCTAAAATTTTATTGTATGACATTTTCGTTCCTCCTATCCAAATCTTCCTGAAATATAATCTTCTGTTTTTTGATTTTTTGGATTTGTAAATATTTTTTTTGTTCTATCGTATTCGATTAACTCTCCTTGTAAAAAGAATGCTGTATAATCACTTACTCTTGTAGCTTGTGCCATTGAATGGGTAACTATTACTATTGTATATTCATTTTTCAATTTTAAAATAAGTTCTTCAACTTTCAAAGTTGCAATTGGATCCAAAGCACTTGTAGGCTCATCCATTAATAATATTTTTGGTCTCATAGCAATTGCTCTTGCTATACATAATCTTTGTTGTTGTCCCCCACTTAATCCCAAAGCTGAATCTTTTAAATAATCTTTTACATCTTCTCAAAGTGCAGCTTTTTTTAATGAATCTTCAACAATCTGATTTAAAGCATTTTTATCTGTAATTCCCTGATTTCTAGGACCAAAAGCAACATTATCATAAATTGACATTGGAAATGGATTAGCTTTTTGAAAAACCATTCCTACCTCTGTTCTTAATTTTACAACATCTGTTCCCTTTTCATACACATCTTTGTTATGAACTTTAATTGAACCATCAATTGCAATATTATCCACTAAATCATTCATTCTATTAATTGATCTTAGAAGTGTTGATTTACCACAACCTGAAGGACCAATAAATGCTGTTACTGTATTTTCTTTAACAGCCATATTTATATCAAATAAAGCTTGTTTTGAACCACCATTATAATAAAAATTAAAATTTTCAATTTCAATTACATTAGATCTTTGCTTTAATGGTAATTTCTTAGGTTTTTGAAATATTTTTTCTTCTGATATAAGTTCCAATTCATCAGTATTAGCAGGTATTATATTTTCATTTTCTACCACTGTTTTTTTATCTAAAGGCATTTTTTACTCTTCCTTTTCTTTTGCAATCTTTTTGACATCTTTATTAGAGTTATTTTTTGCTTCTAATTTAATTGTTTTAATTACTTTATTTCTAACTTTTGAATTTTTATAATAAGTTTTCCACCTATGTATATTGAAATAAGATATTCATTTTTTGTACAGTGATACTGTATCTTTTTTAGTTTTTTTAGCAACCTTTTTTATATGAGATATTGTAAATATAGATATAAAAGCTTTAAATTTAACTTTAAATGGTATTTTTTTATGAACTGGATTTAATTTGACTCCAATATATTTACTTAAGAAATTTAAACCTAGTACTAAGAATATTGTAACAAGTGCAATTTGATATGCAACACCTAATGTATGTGGATCATTTCCTTCTGAAGCCATCATATATATTTGAGTTGTTAAAGTAGCACCTGATGAGAAGAAACCTTCTGAAGGCATTCTAACTGCTGTTCCCAATGTTAGATATACAGGAGCTGATTCACCAATGATTCTTGCAACAGCTAAAATAGTTCCTGTCACAAGTCCCTTAGTTGAGTTTGGAATAATAATTTTGAATAGTACTCCTGTTTTTGTCATACCCATTCCATATGCAGCTTCTTTATATAAAGAAGGAACAGATGTTATTGAGTCTTCAAATGCTGTAATCATTGAAGGAAGAATAACTATTGTCATTGTTAAACTTGAAGCAAATACTGACATTGGTATTCCCATTGTAACAACAAATAAACTTAAACCAAACACACCAAATACAATACTTGGAGTTGATGCTAGAACATTTATTGAGAATCTAATTACTTTAGCAAATTTACTATCTTTATGAGCATATTCTGCTAAATAGATTGCCACAATTAATGCTAATGGTATTGCAAATATAATAGTTCCTAGCACTAAAAGTATTGTTGTAAACAATAGTGCAAATATACCACTTCTTTGCCCTTCAATTTCTATAAATGCACCAGGATCAAAGCCACCAATCCCTTTAAACATAACAGTTAACAATATTCAACTTGTAAATCCAATAATTATCGTAGTTGAAGTTATCATAAAGAAATTTAAAATAGCACTCTCCATTTTTTTTCCAAATCTTTTTTCAGTATATGTTTGTACTAAAATATTTAAATTGTGACTATCATATTCATAATTATTTTTTCTAACTTTAATTTTTTTATGTTTAATCTTATTAATTGATTTACTTTTCTTTTTATTAATATTTCCAACAGCTATAATTAATAAATTAATAAGAATAACTATTATAAATAAAACCATACCAATTGCATATAATGCAGATTCATGAGTTGATCCATGATTTTCTAGCATTTCTAAACCAATTGTTCCTGCTAAAGTTCTAATTGATGAAAAAATAAATCCAATGAAACCATCATCTGTATTTAAACCTTTTGTTGAGTTTCCAGCAATTAAAATAACTGCCATAGTTTCTCCAATAATTCTTGCAACTCCAGTAATGATAGCTGTAATAATTTTTGGCATTGCAGAAACTAAAACTACTCCAAAGGTTGTTTTTTCCTTTGTCATACCTAATCCTAACGAAGCATATCTATGACCTTCTGGAACTGCTTCAATAGCATTAATTGATAATGTTATCATTGTTGGCAAAGCCATAAAAGCTAACGTAAAACTAGCTGTCATCATGTTACCACTTGTTGGAGCTCCCATTGCTACAAAAATTGGTCCAATTTGATCTAAAGCAAATAGACCAAAAACAACTGAAGGAATTCCTGCAAGTAATTGAATTACAGTAACTACAAATTTTTTAGTTCTATTTTTTAAATACTCAGTTATGAATAATGAACTAAATATTGTTAATGGAATAGCAAATAATAATGTAAAAAACATCATCATTAAAGTTGAAAGAATTATCTTACCTAAACCGTATTTACCTGCACCATCTTTTCCAGGTGATCAATCTCCTGAAAATAGGAATTTAAAAAATGAAAATTCTTTAAAAACTGGAACTGATTTGTATAAAATAAATCCTACTAAAACTGCCAATATTAATAAAACAATAGTTGTTATAGTTAAAATAGATATTTTAGTTGATAAGTCCATTTTAGATGCTTTTGCTTTAGGAAGTTTTTTTACATGTGTTTTAAGCATAATTACCTCCTAATACTTTTTTAGGAGATGGAGATTGATAATTCATATCTCTTACAAGTCCCTCATCTTCAAAAACTGATTTTGCTTCATCTGCATTGTGCATTCATTCAAATAATTGAATTAATTGTTCTAAATTTTTATTATATATATTAAAAATTGCTATAAATGGTCTTTTAAAAGTATATGCCTTTTTAATAAAATCTTCTGAGTTTCCATCTTCACCATTTATTTTTCAATTTTCTCATTTATGATCGGTTTTGTTTCATTCTTTTGGTTTATTGCTCTTGTTAATAGCCAATTTTTTACCATCAATACCTGCTAATTTAATTGCTCCCTGATCTGTTAATTGTCCTAAGAAACCATTTGAAACATATCCTATACTTGGAACATTACTCATATTTTCAATCATTGAACCATTAGAATTAACCACATTTGATGAGTGCATATCTTTTATTCCTGTTAAATCTGAAAAAGCTGATCTAGTTCCTGAACCATCTTCTCTTGTAAAAGTAACTATTTTAGTTTTATTACTTGTTGGGATTTTTGCATTTAATTGAGAATAAAATGTGCTATTCTCATAACCTTTTAGTACTTCTTTTGCCAATTCTTCTCAATACATATTTCCTGAATAAATTTTTGCCAATAATTCTTTATTATTATTTAAGTCAAAATTCATTAAATCATTTAATGATATAGTTTTTTGATCCTCATCGTAAGTAATTACTTCATTTCAATAACTTGGTGAGTTAAAAATCACACCAATCGCATCAATTGCAAATTCTAAAGCAATATATGAATTATTTTTTGAAATATCATTATTTTCATTTTTTCAATGATTTAAATCAACATTTTCAAACCTACATTCTTCTTCTTTTGGATTTGCACATACATTTGAAAAAGTATTTCCTTTTGACAATGTAGTATCACTTATTTTTTTAGAAATAAACCCTGCACTATACATTCCTTTTTCTACGCCTCCAACACCAGCTTGACTACCTGTTGAATTGTAAATAAAGTCTTTTTCTGATTCATGATAATATTTTTTTGTTAATTTTTGCATAAATGGATTAACACTTGTGCTTCCACCTAAAATAATTGAATTTTTAGGTGCTGCAACACTTCAAATTCATAGACCTAACACCACTGACAATAATGCCAACAGTATTATGCTTATTTTCCTACTCATAAAGTTTCTCCTAGCTGAATGCTAATATTAATTCGTATTTGATAATTTTTTTGCCTCAATAAGTTTAATTTGAACAAGTTTTGTAATACCTTTTTGTTCCATTGTTGCTCCAAATAGAGTATCACAATTTTCCATAGTACCCATTCTGTGAGTAACAATCATAAATTGTGTATTTTTTGTAAAAGTTTTAATATATTTTGCAAAGCGTTCTACATTGGCAATATCAAGAGGAGCTTCAACCTCATCTAATATAACTAAAGGTATTGGTTTAACTTTTAGAATTGAAAATAAAACTGAAAGTGCAACCATTGATTTTTCTCCACCACTCAATAAATTTAAGTTAGCAATTTTTTTACCCGGTGGTGACATTTTTAAATCAATACCTGTATTTAAAATATCATCTGGATTTGTATAAATAATTGAAGCTGTTCCTCCACCAAATAGAGTTGCAAAAGTATCTGGTAATACTTTATTTACATCTGTGATAATTTTTCTAAATTGAATTATCATTTGTTGATCCATATCACCAATTGCTTCTTTTAAGTTTTTTATTGACTCAAGTATATCTTGAGTTTGTTCAATATAATTTTGATATCTTATATTTTCTTCTTCATACTCCTCTATTGAATCCAAATTAACATTTCCTAATAAATTTATTTCTTTTCTTAAAAAATTAATTCTATCTCTAACTTCTGATTCAGTTTCCATAACATTTGTACTTAATTCTAAAGCTGATTCAAATGTTAAATTATAATTTAAAGATAATCTTGATGTTGCATTTGATTGTTTTTCAAAGATTAAAGTACCATCAGAGTTTAGACTAGCATATTTATCTTTTAATGAGAAAAGCATTTTTCTATCTTGCTCAATTATTGAATTTAAATTATTTTGTCTTTCATTTGATTTATCTTTTAAAGATCTAATTACATTTATTTGTTGTTGAATTGCATCTTTCTTATTTTCTTGTTCAGATATTTCGGAAATAATTTTAATAATTTGTTCATCAAGAGATTGGAATTCTTGTTCTCCACCATCAAGTTCTTTTCCTGTAATTACTCTAAATTCTTCTTTAACTTCGCTTGCTTCTTTTTCAATTAATTCTGATGAATGTCTTGAAGCTCCAATTGCTGTTTGAATTTCAGCTAGTTCCTCACGAAGAATTTCTATTTCATTACTATATAAAGTTACTTTTTTAGAAATTGAGTTTTCTTTTTCATCAAGATCTTTTTTTCTTAACTCTAAATCCTCTATTTGTTGTGAGTCATTTAATAAGACTTTCTTATTTTTTCTACTTCCCCCAACAATAGCACCATGTGGTAAAATTCTTTGGCCATCTAAAGTTACGATATGATATTTTTTATTAGTTAATTTTGAAAGTTCAATTGCATTTTCATAACTATCTACAACTATATAATTTGAAAGTAAATAATCTAAAACAACTTGATATTTTTTTTCTATTTTAACTAATTCATTTCCAAATCCAATGAAACCATTTGCTTTTTGAATTATAAATCTAGTTTCATTATTTATATAATTTGGTTTTAAATTGTCTAAAGGTAGAAATGTAGCATATCCTGCTTTATTATTTTTTAAAAATTCTATTAAAGCTTTTACATCAGTTGTTGATTTAACAACTATATTTTGTAATCCATTTTGAATTACAGTAGAGATTGCAATTTCGTAATTTTTATCAACTTTAATTAGATCTTGAACTGTACCAATAATACCTGAAAGTGTTTTTTTATTTTCAAGAATTGTTTTTACACCTTCAAATAAATTATCTAAAGAGTTTTTTCTTAACATTAAACTTTCTAAAGTTGATTCAGTTTTTGCTAATTGTTTTCTTATTAAATCCAATTCTTGATTTAAGTTGAAGCGTTTTCCACTAGTTTCATCAAGTAATTCTCTTTTATCAACTTTATCTTTTAATAATTTTCCTAATTTTTGTTCTTCAGCTTCTAATCTAATTTCTAGTTCTTTAGCTTTATTTTTTAATTCTGATGATTTAAATTCCTTATCATCAATATCAACTTTACTTTTTTTAGATTCTAATGAGATTCTAGAAACTTTTAATTCACTAATTTTTTCAACTATTTTAGTAAATTCTTTATTTAACTTAGATAATTCTTTTTCATTATTATAACTTGATTGAGAAATACTATTAAATTCTTCATTTTTTTTATTTATTTGCTTTTCAAGAGAGTTAATTTCAATTTTTAGTTCTGTTTTTTGATCATTTAATTCAATAATTTTTTGCTTATAAAGTTTAATATCATTTACTAATACTGAAACTTCTATGTTTTTTAATTCATTAAAAAGTTCCTTATATGATATTGCTTTTTTAGATTGTCTTTTTAAAGAAGGTAATTTTCTTTCAATTTCATTTATTATGTCATTTAATCTATCTAAATTTTCTTGAGTTCTTGAAAGTTTTCTAATTGCTTCTTCTTTTCTTTTTTTATATCGAGCAATACCTGCTGCTTCATCAAAAAGTCTTCTTCTATCTTCTGGTTTCGATTCCACAAAATTACTAATTGAACCTTGCGAAATAATAGCTAGACTTGATTTTGTTAAGCCAGTTTCTAAAGCAACTTCTTGAATATCTTTTAAACGAACTCTACTTCCATTTATAAAATACTCTGATTCTTTTGTTGGTCTAAAAAACTTTCTTGTAATTGATACTTCATTATAATCTAATGAGCTAAATGCTCTATTACTATTGTCGAATACAAGGGTAACTTCAGCCATATTTAATGGTTTTTTTTCACTACTTCCTGAAAATACAATGTCTTCCATTGAATCTCCACGTAATGTTTTATATGATTGTTCTCCAAGAGCTCACATGATAGCATCGTTTATATTAGATTTACCACTACCATTGGGACCTACAATCCCTGTCATTGAAAAATCGAAATTTAAATTTGTTGGTTCAGCAAAAGATTTGAACCCATACGCTTCAATTTTTTTTAAGAATATCATTTTTTTACCTCGTGTAATCGTATATAGCCGTCCTATATAACAAAATCATTATATAGATTTTAATTAATTTATACAATTTTTTAATAATTTTATAAAGATAAAAAACCCCTTATTTACTGGGTTTTTTGACTTTACTTATTTTTTTTAATTTTAGACAAAGCATTTTTAGCAGCTTCTTGTTCTGCTTGCTTTTTATTGCTTCCAATACCTGTTCCAAATACCATTCCATTAAGCGTTACATTAACAGTAAATGAAATTGTATTATTTTTAAACTTTTTACAAGCAACAGTTACATATTGAAGTTCACTTCTCATCTCTATTTGAATTAATTCTTGTAATTCAGATTTAAAATCATGGGTTTTATCTAAAAATTGATCAATTATATAATTGCTAAAAATAGTTTTTTCTAATCACTTGTTTAAAATTTGATCACCTTGATCTAAAAATATAGCTGCTGTCATACTTTCAAATATATCTGAAAGTATAGAGTCTTTTTCATAGCCTTTTGAGTCTAATTCTCCTACACCAAGTCTAATAAATTTACCTAAACCTATTTTTCTTGAAATTTCAGCTAATGCAGTTTGTTTAACAATTGAACTTCTATATTTAGTTAATAAACCCTCATTTGATTTTGGAAACAATTTATAAAGATATTCACTTACTTTCATTTGTAAGATAGCATCTCCTAAAAATTCTAATCTCTGATAATTTTTAGCACTTCTATTTTCATTTGAAAAAGAATTATGAGTTAAAGCTTCAAAATAGTGATTTTTTTCCTTAACCTGAATTGAAAATTCTTTTAAAAGAAAATTTATTATATCCATTATTCAGCTAAAGCCTTTTTAACTTTATTTACAACATCATTTTTAATTGCATTATAAGTCATTTTTAATGTTGCATAAAAAGCTATTTTATCACTAGAACCATGTGATTTAAAAGCAATACCATTTGCTCCTAATAATATTGCACCTGCATGATTTTTGTAATCAAATTTTGCTCTAACTTCTTTAAATGCTCTTTTTAATCTTAATGCTGCTAATTTCCTAAATAGAGTTTTTGTAATGGCTGATTTAATTTCACTTAGTAAAGCTTTACCCATACCTTCTGCTGCTTTTAAAGCAATATTTCCTGTATATCCATCAGTTACAATAATATCTACAATACCATTTGCCAAATATCTAGATTCAATGTTTCCAACAAAATTAATATCTTTATTTTCTTCTAATAATTTATATGTTTGTTTATGTAATTCTAATCCTTTTGATTTTTCTTCTCCAATATTTAATAGAGCTACTTTAGGTTCTTTTACACCGTTAACAGCTTTTGAATAAGCTGTTGCCATAATTGCAAAATTAACCAAATCTTCTGGATCACATTCTAAATTTGCACCAACATCTAATAAAAGAGTAATTTTTCCTTTAACTAATGTTGGAATAACTGGCATAAAACCAGGTCTTTCAATACCATCAAGTTTTTTTATAATAAAGTGACAACCAGCAATAAATGGAGCTGTTGCTCCTCCAGTTGTTATGCCATCAGCTTTACCTTCATTTACTAACTCAAGAGCTTTTACCATACTTGAGTTCTTTTTTCTTCTAATATCCATAATTCCGTCAGTCATTTCAATAACTTCTGTTGTATTAACGATTTCAACTTGATCAGGATTATATTTTTTTGATGAAAGAGCTTTATTTAATTCTGTTTCATTACCTACAAAGATTATTTTTAAATCTTTTTGCTCACCTAAAAGTTTAATAGCAGCATCAACTGCTGGAATTAAACCATTATCTGAACCCATAACGTCAAACGCTATTTTTTTATATTCCATATTTATTCTCCTTTTCAATAGTGATTATATAGGTATTTAGAATTTAAAGCAAAAAAAATAAAACATATTAATGTTTTATTTATTATATTTTTTTGCATTTTCTTGTTGTCTTGCAGTTCCATTACTACAACATGGACATTGTTTAGATAAGCATACTTGACAACTTATACATTTTAAGCAACTTCTACATCCATGGAATGAAGCGCTACATACTCTACAAGTATAACAATTGTGAGCTCCTCCTGGACAACAAATATCTTTATTTATTTCTGGTTTTTGATTTGGCAATGGCATAAAAATACCCCCTATGTATAATCATACTATTATTATACATAATTACTAGTTTACTAACAAGGTTAGAGGTCTTTTTTTAATTTGCATCATTGCAGCCATTCATCCAATGTATAGAATTGCTCCTAGAATGATAGCTGATACAAATGGTATCCATGGTAAGCTAGGTAAAGCAATTAAGACTTTAAATTTACCTCAAACAAATATCTGAATGAGTTTCCATACTCCTATTGATGCAAAGAATGCAAATATATAACTTATTGCAGCTCCACTGACATATTTACCCATGACCATTCAATTAATTTGAGCATTTGTATATCCAAGTGATCTCATAATAGTAATTACATTAATTGAATCTGTAATAATAATATTCATAATTACTATTAATAAAATAATTAGTAAAACTACATCAATTAAAATATACAATAGCATTGCATTTGTCATTTTTCCTAAAATTTGATTTATGACTGATTTTAATATTGGTAAAGTAATTACTGATGAGCTCATGAAAAAGTTTCTTGATTTTGGTGATGTAGGTTTATAATCTCCAACTGAAGGAGCTAATATACTTGCTAGTCATGGTTCATTTTTAGTTGAAGCCATTGTATATGTATCTCTTGAATAGGTAAAGTTTTTTTGAGATCCAGCTATATCTTGTAAATCAACTTTTCCATAACTTGCTTTTTTTGTACTAACAATTGAGTTGAACATTAAATCATTCTGATCAAAAGAGTCTGATTTATTTACTTTTTTAAGAGTTGTTGTGTAATCTAGATAGATATCTTGCATTAATGTATCATTTTCATTAATTGCAGCAATTCTTATTTTTAATAGAACATCTTTTCCTACAATAATATCAAATGTATCTCCTACTTTTTTATTTAATATTTTTGAAAGTCTATAAGAAATTATTCCATTTAAATACTCATCATTATTTTCTCTTAACTCTTCTCATTGTGAGTTTTTTACAGATTTAAAGTTAACAACACTTCTTGCATCTCCCCCAATTTCACTTGTTGTATCAATTAACTTAATAAGTGAGTTTTCTATATCAACTTCACTATTATTTGTAATGTGATATGAAAGACTAGTTTGAAGTGCTTCTTTGTTACCATTAAAAATAACATTATTTACACTTATTAAAGAATTAACTCCACTTTGCATTTTTGCAAAGGTAGACATAAGAGTTAAAAACTCATTACTAAATACTGGAGTCATATCTTTAGTAGCATAATTCTCACTACTAGTATTTTGATTTTGTGTATAGTCAATAATATATTTTTTAAATGACTCTATATCTCCACAACTGCCTTTATAGTTAATAGCAAAAGGAGAAATACAAGCAAATTTACCAATATCATCTAAAAATATTCCACCCATTTCTTCTGGTTTAATAGTTAAAATTGATTTGTCCATTGGTTTAACTATTTCTTTAATATTAATTTCACTAGGATTTTTATCTAGTGGAAAATTCAGTGCAATTAATGAAAATAGAGTTGCTTCTGTGGTACCTCAATTACTTGATGAATCTCTAATATCAGATATGATATTCATTAATTTTGAAAAATTATTTGTTGTTTGGTAAATAGAATCAGCTTGATTTGAGTTTTTTACATAATCTTCTACTTTTTGATCTTTTATATTAGTAAATTTAATACCATAATCTTCTCTTGTTATATCTTTAGAAATTTTCTTAGATTTAGCAGTAATATGCATTGCTTTATTGAAGTTATATGTATGATCAACTTCTTTAGAATAAATGTTGTATCCACCTTCAATCATATTTGTAATTACAGGCATTGCTCTTAATTGCAATGTAAACAAAAAGGAGCTAAATAAAAATAATCCCATAATTAAAGCAAATTTACCTTTTCCAGCAGAAACAAAAGCATGTTGCATCCTAAATGTAAATCCTTTATTTTTATTTTTTAATGATTTTAATATTAGTCAATTTACAAATGAGTAAATTAAAGCTGGAAAGAATATTATTTTTAATACCAGTACAATATAATCTGATTTTCCTTTTTTAGGACCTGTTGTTAATAAAGCAAGAGCTCCTTCATTTAAAAATCTAAATATTATTAAATAACTCAGTCCAGCAAATAGTAAAGGAATAATTACTATTATTATAAATAAAAATACTGGCGAAGTATAAATTGTCTGATAGTCAAATATAACAAATGTATTAAATTGTTTTGTTGCAGAATCTATTTGAAATGGAAATGATAATAGATACCCTATTCCTATCCCTATAATCATTGTTAAAAATGTCTTTACAGAAAATACCCATGTAAGTTCTGTTGTTTTATAACCAAGAGATTTAAATACTCCAAGTTGTTTTCTTGTATTATTTATTTCTTTTTTAAGGACAAATAATATAAACATAAATCCTAATAAAAATAGAATTATTCCAATTACTATATATATTCAAGTTATTATATATAAATTAATTAGTTGCTTAATACTTGTATGAGATTTAGATTCTTTAAACATTGTAGTTCCAGGAACTATAACTGATAATAATTTTTGTTGATTATTTTCATCAATGCTTAATATATTAGATGTCAAAATCTCATTTAAATTATAATTATTTGTATTTTTTGAAATATATGTTTCTGCTCAAAAATCTAATTTGAATCCTGAAGTAGCATTAAGCTTATAATTATTAGTTAGAAAAATTTCATTAAATGAATAGCCACTTTCTGAATCTGTATTTTTTTCTTCCTCATAGGTTGAAAAGAAACTTTCATGAACAAAAATCTGTGAATAGTTTTTAATTGAATCTTTAAATGAACTAAATCCTAATGGTGTTAAAGCTGAATATTTAGATCCAATACCTACAATATCAAATTCCTTTACTGTTTTTTTATCAATTTTTGATCCTTCAAATTTTTGATCTACTCCTAAATTTAATTTATCTCCAATTTTTTTATTTTGCTTTTTAGCAAATCCACTACTTATTACAATTTCGTTTCTTTTTTCTGGTAGTCTACCTTTTTCTAAAACAACATTGTTTATATTATATTCATCAGTCCCACCCAATGCAGTTGCATTAGAAAGATTATAAACAAAATGATCATCTGCTCCCTTAAGCATTTGAAAGTTTGCATTTAAAAATAGTTCAAATTGAAATTCTCCATTTGATTGGTTTTTTAATTGATTTAAAATTGAATAAACTACATAATTTTTGAAATTTCTATTTTTATAATTAAATTGTTTTCCCCCTGAAATTTGATCTTTTGCTTCTTTAGTAAAAATTTCTTCTACTTTTAAAGTACGTGTTTTATTTTCTTCTGTTCTAAATGAAGTTGAAACGTATTTATCTCCACAAATATAATATAAATATATAACTTTTTTAACAGTTTCAATTTCTTCTTGTCTAATCAATTCTTCAATATTATTTGGTTTGTTTTCAAATTGACCATTAACTATTTCCTTAGAATAGTCTTTAATTAATTTTTTGGTTTCTGTACTAAATCATTCATCAGGTATTGCAAGTTTAAAGTTCATATCATCATATTTAAAATTCATTTCTTTATTATTTCAAATATACTCTTCTATAAACTCATCAGTCATAACACCATTATTTTGTCATTGTTCTTGTCACATGTTTGTTTCTTTTTTTACTGAAGATGATTTCAAAGAAAGTTGAAGTGGAGTTGATAACATACCAAAAATTAGCATAGTAAATATCATTAAGAATAAAACTGTTCCCAATGTTTCTACTCAAGCCTTTATGAAGGCTTTCATATAAGATTTAAATATATTTTTCATTTTTTATTCCTTTCTATTTAATAAATTAGAATTGATACTGGTGGACATTTTCCCTTTAATTGATTACTTAAAAAATCACTTCTTTTAGCTGATATTCTATTTTTTTGATTAGAATCATAAAAATATAGCTGCTTAACTGTTGCATTATATATGTTTAAAATTAATTCCTTAATTTCTGAAAATTTTATAGATAAAAAATTAATAAATTTTATAAATATAAAATATAATTTCTTACTAATTTTTTTTACATAATTATTTTCAACTTTTTTATTAGTTTTTATTAACTTTAATACATTAAAAATAATAAAAATACTTATGAATTCAAAAAATGCAAATGATATTAAAGATAAAATTAATTTCTTTATAAAAATTATTCCACTCATTTCAATAGTTTTAACTGCTTTTCCTTGTGATATCACAGAAATGAAAATAATAAAACATGAGATAAATAAAACCAAATAACTTCCTGGATTTAAATATACTCTTATTTTTTTTATTAAATCATTAAATAAATGATTATTATTTTGATTAAACTTCATTTTTTTAACATAACTTACAGTCTTAAAATAATTAAATAATTTATATCCATAAATAAAAGCAACAAAAAAACCTAAATTAAATAATCCAAAAAGCATATTATAATTTGAAATTACCAGACTTTTTGTTATACAAATTTTTGCTATTGCAAATAAACAAAAAACTAAAAGAAGAATAATTATTGAACTAATCATTACAGAAAAAAAAGTTTTATTTTTATTTATTTTTTTAAAAAAAGAATTCACAATTGCTCCTCATATCTCAAATTATTTTTATTATATATCATTAAAGACAAAAAAAAAAAAAAAATAATTCTCAGAGAATTATTCTAAATTATTCAATACCTATGATAAATGAATATACTTCTTGTTGCGCATCAATTACTTCATACTCAACATCATGATTTTCATCTAAATATTTACGTAAATCATTTATATCCTTAAATGATGCATCTTGGCCTGTAAAAATTGTTAGAATTTCAGTTTTTGAAGTAATGAATTTTGACATAAATTGACTAAAAATATTACGCAATGATTTTGTAGATGCTATTATTTTGTTATCAGCTGTCATCATATATTCGCCAGTTTTTATAGTTATACCATCAATTGTTGCATCTCTTGCTGCTTTATTAATTGAGATTGAAACAACATTTTTAAGTGCCTTTGCAATATTTGATTCATTTTTTTTAGTACTTTCATCTGCATCTAAATTTAAATAAGCTGTCATTCCTTGAGGAATAGTTTTTGTTTCAATAACAGTAACTTTTGACATCTTTTCTAAATCTTTTGCTTGTTTTGCAGCTAATAAAACATTTGAATCATTTGGAAATATATATACTTTTTTGGCATCAACTGCTTCAATTGCCTTTAAAAAATCCTTTGTTGATGGATTCATTTTTGCTCCACCATTGATAACATAATCAAAATTTAATTCATTTTTAAAATAATCTTGCATTCCTTTTGATCTAACAACAGCAATTGTTCCAACTTCGTTTTTTAATTTACGTTGTTCTTGAGCTGAATTTCTTACCAAAGAATGATCAGATGTATTAGCAACATGTTTATCAGCTTGTAAAGTCATGTTTTCAGCTTTAATAGTTCTAAATTCTCCAAACTGTTGTAAGTATGATAATACTTGACCTGGCATTAAAGCATGAGTATGTATTTTTAAAATATCTCCATCAATTACTGCAACAATTGATGTATTTCCATATTGTTCAAATGTGTTTCTTACTGTATCAACTTCTAATTTATCTATATACTCTTCATTAAGCATAACAATTGCTTCAGTACAATAGCCAAATTCATCTTCTATGGCCATTTCTATATTTGCCCCTGTATTTTCTTCAAGTTTTTTTAATTTTGCAATAGGTTTATGTTTTTCAACAAAGTACTTCATTCCTTCAAAAAATTTAACTAAACCATATCCTCCACTGTCAACAACTCCAACTTCTTTTAAAGCTGGCAATAAATCTGGTGTTCTCTCTAAAGACTCATTAGCAGCTAATACTAACTTATCTCAAAAATCAACGGGAGTTAAATCCTCAGTTATGTTATTTACAAATTCGCTTGTTTCACGAATAACAGTTAAAATAGTTCCCTCAACAGGTTTCATAACAGCTGCATAAGCTACTTCTTTGGCTTTAATAAAAGAATCCTTTCATGTTTCTAAATCTAAGTCTTCTTTATCTTTCATTCCATTAGAAAAACCTTTGATAATTTGAGAGAAAATAACACCCGAGTTTCCACGAGCGCCCATAATTAGACCTCTAGAAAATTTGCTCATTAATGAGCCAATTTTATCGAAATCTTCATTTTCAATTTCTGCAAATCCATTGGTACAAGTTAAATTCATATTTGTTCCAGTATCTCCATCTGGTACAGGAAAAACATTTAGCTTATCTATATGGGGATAATTATTATACAAATTATTAACTCCACTAGTTATCATACCTTTTAAAATTTGTGCATTTTTCATAGTATTGTCACCCTCTAAACTATATTACTTCTTTATTATTTAAAAATAAAAAATAATAAAAAATTGCAAATATTTATTTGCCAGATTATAAGTATATATTGATTAAATAAAAATATTGCTAAATTACAATAAGATCATCTACTGCAACATCCACTATATAATTTCGCACGAATTGTGATAGTTTTTCCAATTCATACTTTACACGTATTTGAACTTCTTTAACAACGTCACTTATGTTAACTCCATTAATTAAAATTATATGCACTTTTACCCTATTTGTTGTATCTGCAGTTGTTATTTCTACTGCTTTTGAAATATCATCTGTTTTTAATTCTGATTCTAATTTAGCTGTAAAATTAGCAAAAGAAGCAACTCCAGGAACTGTAACAACAGCATTTGATATTGAGTCTAAAATATCTTTTTCAAGCATAAGGATTCCCCCATTAAAATTTAATAAATGCATTTATCTAATCTAGATAACATGTTGATCATGATGCCACGTTTCAAATTAGTACAAACATATTTTACACTAATAGTAAAAATAAATAAACCATTAAGATATTAAAGTTGAAATATTTCTAAATAATAATTAAATATATTGTTGTATTTTAAACTTAATTATTATATTATTTATAGGTCCGAGGTGAAAATATGGCAAGAAAAGACGGTTTAACAGGTAAAGGTCCTTTGTCAGGTAATTCAAGATCACATGCTATGAATGCCAACAAAAGAAAATGAAACCTTAATTTACAGAAAGTTCAAGTAATGGATGAAAATGGTAAAGTTATGACTTTAAAAGTTTCAGCCAGAACACTTAGAACTTTGAAAAAAATAACCAATTAGCAAAATAAAAAAACTACAATAAAAAAAAGAAACTCAAAGAAGTTTCTTTTTTTTATATATAATTATTATTGGTTATGCCCTCTTGGCGGAATTGGTAGACGCAGCAGACTCAAAATCTGCCGAGAAATCGTATCGGTTCGACTCCGATAGAGGGCACCAGTTTGAAAATAAAACAGATTACAATTATGTAATCTGTTTTTTTATTTCGTCATTATAATCATTAATTCTTCTTTACAAACTATTTTAGGATTTACATAAGATATAAATTCATTTGAATAAGCAAATGAGTTAAAAGCTTCTAGATTTGCTTCTTTGACTTCATATTTCATTCCTTCAATTGTTATTATATTTTCTTTTAAACTAAATAATGAAACATATGTATAGTCTTGATAATTATTAAAATCCAAACTATTCTCCCCAGAGTTTAATTTAAATATTACAGAATTATCATTTATTACTTTTAAATTATGCTTAAAAACATATTCAATTATTGTTAAATTCATATCATATCTTTTACTAGGATTAACTACCATTGTAATATCTTTATAGTTCATACTTTTTAAATGATAAATTGCTGCAATGCCATCTAAAAAATCTTTTTTTGAGTTAAAAGATATAAACTCTTTGGATTTTTCTTTTATTAATTTTAGTTCACTATCTGTTACTTGATCAAAATCAGACATTGAAATATCAATTGATACTTGTTTTTCTATTAAGTCTAAACAGCCTCTTTCAATACCCACAATTAAGTGAGTTTTTTCAAATAATTTTAAATTAATATTAGTTTTAGAAATAACTAGTAAAGCTTTTTTATCCTTCAAGTTTTGAAATCCTCTCTTCTAGATTTTTAATTTTAGAATCTACTAAATAACTTCCAGCAACAATCATATCAACACCAGCTTCTTGAACTGACTTATAAGTATCTTCGTTAATTCCTCCATCAACTTGTATTAAATATTGATAATTATTAGTATTTCTAATTTCATTTAGTAATCTTATTTTATCCAATGATTTTTTTATAAAACTTTGTCCGCCAAAACCAGGATTAACGCTCATTACTAAAATATTTTGTAAATTCGGTAAGTATTTCTTTATTTTATTAATTTCTGTGTTTGGATTAATTGATAAAGAAGCATTTATATTATTTTTTTTGCAAAATTTAATAAAATCTATTAATTGCTTTTTATTTAATGCTTCATAATGCATTGTAACCTGTTTAACATTTTTTTGAATAAAAGGTTTTAAATAATCTTCAACTGAGAACCCAACTATTTTAACCATTAAATGAAGATCCATTTTAAAATCATAATTATTAACTATATCTGAAAGTATTTTTGGTCCAAAAGATAAATTTGGTACAAAGTTATAATCCATTACATCATAGTGAATTCATTTTATTTTAGCTTTTTTTAATTTATCCAAATCTGATTTAAGTTCTAAAAAATTAGCTGTTAAAATACTTGGAGCCACTATATATTTTTTCATTAATATTTTCTCCTTCTATTTTGTTCTTCAATTTCTAATTGAACTTTTACATAATCATTGTATATAAATTCTGGAAACACTTTTTGTTCTACAGCTTCAATAACTTTACATCCAGGAGTATTGTTGATGTGCAAACAATCACTAAATTTACAATTAACTTGCTTAAAAAATTTCATGCTCAAAGCAATATCTATTGCCGATATTTCTTTATAATCAAATGATGAAAAGCCTGGAGTATCTCCTATTAAAGCATCTTTATAAATAAATAATTCATTTTTTGTTGTAGTATGCTTTCCTCTATTTAATGTTTTTGAAATTTCTTGAGTTCTTTCAAATAAATTTGGAATAATATGATTTAGTGTAGTTGATTTTCCTGCGCCAGTTTGTCCTGTGAATACTGAAGTTTTAGATTCTAAACTTTTTAAAAAAGCTACTCATTCTTTATCTGTTTCTATCATATTATTTATTAAATATGTTTCATAACCTAAATTTTTATACAGTTTTGCTTTAATAAGTTCATCATCATCTTTATTTGTTAAATCAACTTTTGTAAAAGCTAATAAAGGTTTTATATTCAATGACTCTATAAAGAATAAATATTTATTTAGTGTATAAGTATTTAATAAAGGATCTTTTAATGAAGTTATTATTACAACTTGATCAATATTTGAAATTCTTGGTCTGTACAATTCATTTTTTCTTTCCAAAATATTTGTTAGAGAACCTTTAAAATTTTGACTATCAATTATTTCAAACTCAACATAATCACCAGTAGTTGGTTTTTTATTACTATGTCTTATTTTACCTGTTGCCTTGCATTCAAATAACTTTTCTTCAAATAATACATATGCATATTCACTTAAAATTTTTAAAATAATGCCTTTATTCATAATTAAATTACCAGTACCACAACAAGCAAAATAATAAGTACTAAAAAGATAATTATAAAGGATAAAAAGAATCTTGTTTTTACTATAATAGGTAACTTATCATATGTGGTTCCTACTTTAATTGTTTTTTTACCTTCGCTCAAGATAAGAGTTGCTTTTTTATGATATATATATGGTTTTGAATTATCTGTAGATCTAATTTTTAATAATTCTTTTTTAACTTCATCTACAGATTCGAATCTATTTTGTGGCTCTTTTTCAATCATTTTTAATATTAGATTTTCAAGACTTTGAGGAATAGAAGGATTTATTAATTTTGGATTTGTTGGGGTTTCTTTTAAATGTTTAGCAGCTATTTTTGGAGCTTCTTTTGCAATAAAAGGAGCAGTTCCAGTTGCAAATTCGTATAACATGATACCTAAAGAATAAATGTCACTTTGAGCAGATGGAGCTTGTGCTGCAATTATCTCTGGGGGCATATATTTTGGAGTACCAATAGCTTTATTAGTTTCTGTTGAAATACCTTCCATGACAGAGATACCAAAATCTCCTAATTTTACTTCTCCAGATTGAGTAAGCAAAACATTATCTGGTTTAATATCTCTATGAATTATTTTTAATTTATGAGCTTCTGAAAGAGCATCACAAATTCTTGAAAAATAATATTTTATTTCTTTTAAAGTCATTGAACCAAATTCTTGAAATTTATCCTTCAAAGTTCCCCCTTCGACACATTCCAAAATAATAAATCATTCATCACCATTTTGAATAATATCAAAAAGTTTCACAACATAAGGATTTGACCCTAACTTTGCAAAAGCCTCTTTTTCAATCTCAAATCTTTCTTGGCCAACAGGTTTAATAACTATTTCTGGAGCAACAACTTTTACAGCAACAATTGTTTTTGTAAAAATGTCATATGCTTTAAAAACAGATGCCATTCCACCTTTCCCAAGTTGACTTATTACTTCATATCGATCATTTATCATAGATCCTGGATCATATTTATTCATAGCTTTGCTCCTTAACAATAATATAATAACAAAAAAAGCAGATTTAAATTACTCCGCTTTTACTTAAAATTTTGTATTTCAGTGTTTTTTTTGTTGCCTATTTTATCTAATGAAGCATCAACAACTAGATTGGCAATTCAAATTGTTACAATTGATCACATTCAAGTAAAACTTGTATCAGTAAGTCAATGAGAACCATTTATTAAGAAACTTAATACCATAATTAATTGATGGAAGAAAAACAAGTAAATAGGAACTACTTTTTTTCAATTAATTGTTTGTTTATCTCTAGGATTAATAATAAAACAAAATCCCATGCCAACCATACCCATTTGAGCCATGTGACCAGATGGAAATGCATTTGCATTAAATAATTGATCAAGTGATCAATTGATACTTTGGGGATTGCCAATTAGTCCATTGAAATTTCACCAAGGTTGATACTCTGGTGTAGTTACTCATTTTGGATTAAATATTATTCAATCTCCTGTTTTTTCATAATAAATATCAATTCTATTATAGATAACATATTCCATTCCTCTATAATAGTCTCTTCCCATACAAACTTTTACTGTTCCAACTAAACCATAAGTTATAAAAAAATACATTAATATTTTTACAGATATTTTTCAATATTGTTCTTCATAAAAATTCTTCTTTTTTGAAAAAACTAATTTATAATACATCAAGATAGCAATTAAAATTATAAATTGATAAGAAAATATTAAAACTAATATAGTTCTATATTCTGATGGACTTAACAATTTTGCAATATTGTATTTAAGTTGTCCTTTACCTTCAATATCAACTCAATAATTAAATTTTCATTTTTTATAAAATTTAAAAAACATTAATGTTATTCAAACAATAATAAAAAAACAAATTGTAATTCAAGAAAATATTTCCTTTTTCATTTTCTTAGTATTTTGTAAATAAAATCAAACATAATCAAGAATTATTATAGTAACAAGTATAAATATAATATATAGCTCTGTAAAACCTAATTCATGATAAAAAATTGAGATATATTTTAAGAAATCAATCTTCATTATTTTTGAAAAAATATCCATTATTTGAAGATCAAATACAGACGCCAAAATGAAAAAAACAAGTTGACAAAAAAAATTCCAATTAATGGAAAAATAATAAAATTCATTAGCCTTTTATTATTTTTAATAAAATAATACCTATTCATTTAGTTCCCGTTAATAGTTGTAAAATAAAAAATTTTAAAATCTTATAATTTTAAATTATACTTTTTAATTATCAACAAAAAAGCATAAAAAAACAATACTTTAAAGTGTAAAAAAGAAATTATTTTTTTTTAATAAAACTCTACTTCAAATAGTTTTTCATTTTTATTTTATTAATTTTTTTAAAAAAATTTTATTTTTCAACTTCAATTATTAAAATTGATAAATTGTCAGTTGAGGCATTATCTTTTGCATCTTCAATAATTAATTCAGCTTTATCTTTAAGCTTAACTTTTTTATTGCTTAAAGTTGAGGCAGTAATTTCTTCATCCATGTAATCGTGAACACCATCTGTTGTAAGTATATAAGTGCCTTCTTGATTCTCTACATAATAGGTGTCAATTCTTAAAGTTTTTTGTGGACCTAATGCACTTGTAAGAACTTTTCAAAATGTAAAATCATTTGCTCTTTCATAGACTCCTGACATCTGAATATCTTTTCTTTCAGCTTCTGGAGTTGAGTTTCATAAATTTTGATCTTGAGTTATTTGAAACAGTTCATTATTTACTAACTTATAGGTTCTTGAATCTCCAACATTTATTACAAAAGCACCTACATTTGTGAATAAGATTGCTGTTAATGTAGTTCCCATATCTTTTGTTTCAAAATTTTCATTAGAGTATTCAATCATTTCAGTTAAGATGTTGCTTACTGAATTTCTTAATCATCTATTAACTTCTTTTTGAGTTAAGTTTGAAAAATCCTGTTCTTGAAAATATTCAACAAATTTTTTAACAGCTATTTCAGAAGCAATTTCACCACAAGCATGTCCACCCATACCATCACATACTATACCAAATGCTTCTCCTGATTTTTTTATTGAAAAATCAAGATTATCTTGATTTGACTTTCTGTAATTTCCTACATCAGTAAGTTTTGCATTTTTAAATTTCATTTTTTATGACACCTTCCCTTTTGGCTCTTAATTGACCGCAAGCTGCATCAATATCTGCTCCAAATTCTTTTCTAACTATTGCATTAATTCCCTGTTTCTTCAGAATTTTAAAAAATTCATCAATTCTAGTTGATTTTCTATAAGGATTTTCCTCTACTTCATTGTAAGGTATCAAATTTACATAACCATTAATTCCTCTAATTATTTTTGCTAATTCATTTGCATGTTCTGGTTTATCATTAATTCCATCAATTAAAATATATTCAAATGTTACTCTTCTATTTGTTTGATCTACATAATATCTAACAGAGTCCAATAATTTTTCTATTGGATATGCTTTATTAATAGGCATTATTTGATTTCGTACATCGTTGTTTGAAGCATGTAAAGATATAGCTAAATTTATTTGAGTTTTTAAATCTGCAAATTCTTTAATTTTTGGAACAATACCACAAGTTGAAATTGTAATATGTCTTGCTCCAATTTCAAAACCTCTTTTATCATTAATTATTTTAACAAAGTTAAGAACATTTTCATAATTATCAAACGGTTCTCCAATACCCATAACAACAATATGACTTACTCTAGCTCTTTTATTATCTGGATCATTTTTATATTTTTCTTTTAAATATAAATTCATTGTGTATATTTGCTTAACTATTTCATCAACAGAAAGATTTCTTTCTGTTTTTATAAGACCTGATGCACAAAATTTACATGACATTTTACAACCAACTTGAGTTGTAACACAAACTGATTGACCATATTTTTGTGGCATTAGAACTGTTTCAATAGTTTTTTTATCATCGAGCATAAATAGAATTTTAATTGTTCCATCCTTTGACTCTTCTGTAACTAAATCTTTAAGTAAATTTGATGTAAATCTTTTCTTAATAAATTCTCTTAAATCCTTACTCAAATTAGTCATATTATCAAAATTTGTTTCCATTTTAATATAAACTCAGTCATATATTTGTTTTGCAGAAAATTTTTTAAAACCATTTTCTAAAAGAATATTTTCTAATTCTTCAATTGTATATCTAAATATGCTTGTTTGTTCCATAAATTTTTACTCCAAAATATATTTTATCACACTAATTTTTTTAGTTTGAAGACTTATTTTTATTTTGTTCTTTTTTATAAACTTTTTTTAATACAAAAAATAATAAAATAGATATTCCAAAACTTAAAGGAATTAAAAATAATGCCAGAATTTTTATCACTTTAGATTTATTATTTTTAAATTGATTATCTTGATTTTTGCTATTACTTTCATCCTTTTTATTACTTAAAAGAGTTATTTTTAAATTTTCTCCATTATCATTGAATAATTCTAAATAACCTATTTTAGAATTATCAATTAAAGAAAAACTAAACTCATTGTCTGATTCTACAATTTTAATATTGTCATTATACTTTTTTAATTCATGATTACTTTTACTATATTTAATAATCTCATCACTTAGTTCTATTTCTTTTTCAATTATTTCTTTAAAACTTTTAACTTTTATAACACTTTTTTGTTTTTTATAATTGATATTTAATTCAAAAACTCCTTTATCTTTTGGAAATAAAATAATTTCAGATTTATTTTTAGTAAATAAAAGATTCCTTGAATTTGACTCTATTTTTATTTGGTCCTGATCTAACTCTTCATAATTTAAAATTTTAATTAAATTTGATGTATTCATTTCACTAATAACTATTTTTTTATCTAACAGTATTGAGCTATTTGTATTAATCACTTTTATTTTTACTTTTTTAGTTATTTTTGTTGTACTTGAAATTATTTCAATTTCAAATACACCAGTTATTGTTGATTTAATTGAGAGTTTATTCTTTTCAAATTTTGCATTTATATTTTTATTTCTATTCACAATAACCAAATTCTCTATTGAATTAGTATCTACATTTATAAAATCACTTTTACCTTTTTCAATAACAATAAAATCTTTTTCTAATGAAAAGTAATCTTTTAGTTTTTTAACTTCCACTTCAATTATTTTCTTATTTATTGCATCTATTGAATCTAACTCAATAAAGCCTTTCCCTACTTTTAAAGCCTTTATTTCTAAAAGATTATTTCCTTGTTTTTTAACATTTATATTACTACTGTTTTTTATTTTTATATTTTTAAAACTCTCACCATTTATAATAAAAATTTTTCTTGTCTCGTTATTATTTATTTCTATTTTCTCTTCTGTTACTTTAATATATTTAAACTTCATTTCCTCTCCCACAACAGGGCTTTCATATACAACTTTGAATTCATTAACTTCATAATTTTTACTTGTAGTTTCAAATTTAATGTCCTTTCAATTTGACATAAGAACATCCTCATCAAATTTTTCCTCTATATGAAAAATAGTTATATAAAAAGTTAGAATACCTCCATTAGGTTTTTTATATGTATATTTAAAAACTGCAGTTTCTTCAGAATTAAATTTTTTTATAGATACTGAGTTTTCTAAATCATTATTATCAAAGTACACATCCTGATAGTTAATTTTATATTCATTAGATAAAAAATACTTTATTTTTTTATGATTCTCATAAATATTTTTAAACTTACTTTTATATTTTAAGCCTATAGAGTTGTTTTTCTTATTGATTTCCTTTTCTATAAAAAATACTTTTATATTTTTTATAATTATTTTATTATTTTCATAAAAATCCACTATTCCAATAATTTTATTTTTCACAAATAAATCTTGATTTAGCTTAATTTTTAACTTTAAACTATAATTTGTTTCTTTATTCAGGTTTAGAAATTTATAGAAATTAACATCATTAAATAAGAAACTCTCAAGATTCTCTCTTCTAGCAGAATAGAAATTATTAGAATCTACATAATAAGTATAGTAATTCTCCTTTTTATCTTGAAAAAAATCACTTCTAGAAATAAAATTACTTTTAACTGATGTTAAAAGTAAACCACCTCTAGTTGGTCCTCCTAAAAAGGATTCAAGAGCTGCTTTATCAACTATATTTGGATCTGCTAAAATTTCTTCATTTATAGTTCCTGAAATTTCAACTCCCTCATTATTTTGTTGATAAATCTTTTTAAACTTCAGATTTAATTTAGTAAAAATAAAAGTATCAGTTCATTCATCATGATAACTGTATTCTTTTTCAATTTCTTTTATTTGTTGTCTTTTCTCAAGTTGAATTTGAAAATTAAAATTCTCTTTTACTAAATTTTGATCTAAAGAACTCATTTCTTGATCTATAACTTTGGCATTTCTTTCTAAAACACTCTTAATATTTAATTCTAAACTGGAATCAAATCAATAATCTTTCATTGTCTCTAATTTGAGTTGATCTAAAGAAATAAACTCTTCAATAGTTGATTTATAAATACTACTTTTTTCATTATGTTTTACTTCAACGCCTTTATCAGAAAATTTAGGAATTTCTAATAAATAATATGGTGCTTTAACTATTAAATTATTTTTTGTAGATATATCATTTTCCATTAAATTAATAACTTCAAATTTTAATAAATTAGATGAGAAAAAACCGAAGTTAAAAAATAGAAATAGTAATTTAAAAGCTTTTATCATTTTTAATCCTCCCAATAAACTTATCGATAAAAAAAATGAAAAAACTAATGTTTTTTCATTTTGCATATATAAAAACCATCATTGTCATACTCAGTTCCAAAAAAAACTTTTTCATAGATTTTTTTCATATCCTTGTGTTTTTTTAAAAAAATATCAATTTGATTTTCATTTTCATTTTTATTTATTGTACAAGTAGAATAAACTAATTCAGAGTTTTTAATTAGACATTTATAAGCTTTTTCTAAAAGATCAGATTGCAATTGAATTAAGTTTGAATTCTCCTCATTTGAATATTTCTTTAGTTTTATTTCTGGTTTCTGTCTTATAACACCATATCCAGAGCATGGAGCATCTAATAAAATATAATCATATACTTCTTCTTTTATATCAAGTGCATTTTTACAACTTAGATTTACATTTTTAACTCCTAGTCTTAAAATGTTTTCTTCAATTAATCTAATTTTATTTTTTTGAAGTTCATAAGCATCTATAGTTCCAGTATTATTCATAATTTGTGCTAAATGAGTCAATTTGCCTCCAGGTGCTGAACACATATCTAGCACTCTTGAATTTTCTTTGGGATTTAATATAAAAGATGCAAATCCACTTACTTGATCTTGAACAGTTACATATCCATTTTTAAAAATATCTTCATTTATAATATTTGAATCTGATATGTAAAAATAATCAATTAATTGTGATTTTTCTAAATTATATTTATCCAAATATTGTTCTTCAAAATCTTTAAGAGATATCTTCAAAGTATTTAATCTTAAACTAATTCTACTTTCTTTATTAGAATGTAAAATAAATTCTTTTGCCTCTTCTCTTGAATAGTCACTTTCAATTTTTTTAAATAATCAAAAGGGAAAGCCATTCTCCAAGGGAAAAATATTTTGCTTATTTTTTATATCTACTTTTCATAATTCTTTGTCAAGTAGTTTTTTTGATACTTTATTAACAAAACCTGAAAAATTTTCTTTAATTGTTTTTGCAATTTCTACAGATTCATTTATTACATAATAGGGTTTTGATTCTAAAAATTTTATTTGATACAAATTCATTCATAAAAGAATCTGTATTTTATAGTCAGTTTTATTAGGATTAATGACTTTATTAACTACATATTCCAAATAAATTTTGTATTGAATAGTTCCATAGACTAATTTAAAAATAAAGGCTATGTCTTTTTTTGACATAGCTTCTTTTTTTATAAGATTATTAAGCAATTTATTTGAAAATTTATTATTTTTAAATACCTCAAATAAAATATTTAATGCTTCTTTTCTTGAATTCATTATTTTTTGAATTGTTCTTGTTCAATACTAAAGAAGTTAACATCAATCATAAAGTGTTCAACAATTGTATTAATAAAATCAGAACTATTAAGAATATCTAATTCCTCATTTGCTAAAACATGTGCATAAGTTTTATCAGTTAATAATTCAACTAAATAATTTTTAAAATCAAAATTTTCTTTAATTTCTTGACCGCCTACTTTTTGAACATTTTCTTTTCAATTATTAACAAAATATTCATACTGCTCACTTACAATTTTAAGAACTTCTTCTTTCAATTTAAAATATATACTTTCTGAATAATCTATACTTAAACAATTTTCTTTTGTTAAAACTTCTTTAACTTTTGCAACTGCATTTTCAACACTATCAATTTCAATTACATATTGATATTTATGTTTTAAAGGAATCTCTAAAAGTGCTTTATCTAATCTTTGTTTAATAATTTCTTCTGATTCTGTACCACGTTTTCTTAATCTTTGTTCCAAAGATTTTAAACTTGGTGGCATTAAAAATATTGATACTAGATTTTCAGGTTTTTCCTTATTAAGAACCTGAGTTGCACCTATTACTTCAATTTCTAAGATGACATTTTCACCTTTAGCTATTTTTTCATATACTGTTTTTCTTGGAGTACCATAATAATTATTTATAAATTCTGCATATTCAATTAATTCATCATGTTGAATTGCATCTTTAAAAGTATCTCTATCTACAAAAAAATAGTTAACTCCATCTATTTCTCCTGGTCTTGGAGAACGAGTTGTCATTGAAATTGATTGCACTAGGTTTAATGATTTATCTTGTGCTAATTCCTTATTAATTGTTCCTTTACCAACTCCTGAAGGTCCAGACAAAATAATAATTTTTCCTTGTTTATTCATTCTTTTACTCCTCTTTTTCAAGTCTCAAAATATATAAATGCTTATTTTTAAAGTTTTTATATTTTAAAATATTAAGATTTGAAATTTTTGAAACATCTAATTCGAATTCAGATTCTATTATTAATATACCATAATTACTTAGAATTTCTTTTTCATATATATATTTAAAAAACTCATAATAATACTCAATTTTTGCAAATGGAGGATCTAGAAAAATAAGATCAATTTTTTTATTTAAATTAACTAAATAATCTAACATTTTTTTATAATCCAGATTAAATATTTGATATTCATCACTCTCTAAACCTCTAAAATTCTGTTTTATAATTTCTAAAGCAGGTTTGTGATGATCATTTACATAAGCAAAAGAGATACCTCTTGATAATGCCTCTAATGACAAAGCTCCACTTCCTGCAAAAAGATCCAAACATACTTTATTTTCAAAAATAAAGTAGTTATTTAAAACATTAAACATATCTTCTTTAATTCTTGTAATTGTAGGTCTTGTATTCATACCTTCTAATGTAGCTAATTTTCTTCCTCTAAAACGACCACTTATAACTTTCATTTTTAATATTTCCTTTGCTTTTATATTATACAAAAAATAATTAATATATAATCAATGTTGAGGTATTGATTTTATGAAATTAGACTTAAAAAAAGATTTATTGCAAAAAGAAATTCCAACAAATAATTGACTTTGAAAAGATAGTCAACCTGAAGTTATTAGAAATGTTTCTGTTAATGTTGAACTTCCTTTAAATAAAGAAAATGAATTAGTTATGAAAAAACTAATTGACTTTGTAAGATACAGTCAAGATCCAGAATTAAATAAAAAAGAAAATGAAGATTACTTAAGACCCGCTGTTGGATTAGCAGCTCCTCAAATTGGTAGCAATGTAAACATGTTTTTTGCCAGATTTGAATGAGATGTTGAAACAAACGATGTAGAAGAATTTGCAATGATTAACGCAAAGATAATTGCAAAAAGTGATCAAATTTGTTGTTTAAGTGACGGAGAAGGATGTTTAAGTGTTGATACAAATCATAAAGGATTAGTTCCAAGAAATTATAAGATTCAAGTGCAAGGCTATGATTGATTGACCAATGAAGAAGTTGATTTAACTTTAAGAGGCTATCATGCAATTGTTTTTCAACATGAATTAGAGCACAATAATGGGCAACTTTATTACGATAGAATTAATAAAGAAGAACCAGACTTTAAAGATGAAAATTGAATAATTATATAAAAAGTATTTAAAAATTACTTTTTTTTATGCTTTTTTTCTCTTTTTATTTATTTTTTTTGTTAAAATACTCTTAACTATGACTTTTTAAAATATTTGGAAATGATAATACAATTTAATACTTTTAAAGTATCTTTCTACAAATTTTTACAAAATTAAATATAAGGAGTTGATAAAATGGATGACAAAAAACAAGAGTCTCTACAACAAACAAAAAGCGTAGTTGCGGATTTAGAAAAAAAAATAGAAATAAAAAAACTAAAAGATAATATAAATCCACCAAAGAAAAAATTACCACAAGCACCCTTTCCTACTAAAGTTTATGCTTTAGGTGGATTAGAAGAAGTTGGTAAAAATACTTATTGTATAGAATACAATGATGAAATCATAATGATAGATGCTGGAGTTAAATTTCCAGACGCTACACAATTAGGTGTTAGTGCTGTAATTCCTGATTTTAGTTATTTAGTTGAAAATAATAAAAAACTAAAAGGTTTATTTATAACACACGGTCATGAAGATCATATTGGTGGTATTCCATATCTACTTCAACAAGTAGAAGTTCCAGTAATTTACGCTCCAGCTTTAGCTGCTGCTTTAATTAGGGATAGATTAAAAGAATACAAACTACAAAATAAAACAGTTGTTAAAGAATACGTGGAAAATGACGTATATGCAACAAAAAATTTTACAATTCAATTTGCAGCAGTTAATCACTCAATACCCGATGCATTTGGAATTCACATACAAACACCTAATGGTGCAATCTTTTCAACAGGAGATTACAAATTTGACTGAACACCATTAGGTCATGACGCAAACGTTCAAAGGTTAGCATCATGAGGAAATGACGGAATTGAATTATTAATGGCTGATTCAACAAATGCTGAAGTTGAAGGTTATACAATTGGAGAAAGAAAAGTTATTCAAAATATTGATACACATTTTCTAAAGTCAAAAGGAAGAATTATTATTGCTTCTTTTGCATCAAATGTACACAGACTTCAACATATTATCGAATTGGCCAATAAGTATGGAAGAAGAATTCTTGTTATAGGTAGAAGTATTGAAAGAATTATAAAAATAATTAGACAAATGGGTCACTTAAATATCAATGATAAAATGTTTATTAAAGCAAATGAAATTGATAACTTTCCAAAAAATCAAATAATGATTTTATGTACTGGAAGTCAAGGAGAACCTATGGCAGCTCTTTCTAGAATATCTAGAATGGAGCATCAAACAATTAAAATAATTCCAGGAGATACTGTAATTATGTCTTCATCACCTATTCCAGGTAATAGAGCTGATGTTGAAAATGTAATTAATAAATTAACAAAAATTGGTGCTAATGTAATTGAAAACAGCACAGAAAATAAAATTCACACTTCTGGTCATGCCAGTCAAGAAGAACAAAAACTATTATTCACTTTATTAAAGCCAAGATGCTTCATGCCAATGCATGGTGAATATAGAATGTTAAAAATTCACGGTGAAACTGCAACAAAAGTTAATGTTAAACCACACAATGTATTTGTAGTTGCCAATGGAGATCAAATTGAACTACACAATGGAGCAAGTCAAGTTGGAAAAAGAGTTCCAGCAGAAGCTGTCTTTATTGATGGAAAAGATATGACAGGAAAAGCAAGTAATGTTATTAGAGAAAGAAACATATTGAGTAAAGATGGTCTAATGGCTGTAATTATTTCAATAGACTCTCAAGCAAATAAACTATCTGCTCCTCCTAGAATTGTTTCTAGAGGAAGCTTTTATGTAAGAGATAGTGGAAATGTAATTGCTGAATCAATTAACATTGTTACAAATGCAGTACAAGAAGTTCTTAACTCACAAAAACCTACTTTTGGAGCTATAAAGAACTCAATTAAGGAATCATTATCGCCTTTCATCTTTAGATATAAAAGAAGAAATCCGTTAATCATTCCAGTTATATTAAATAAAAAAATCGAGGTAAAGTAATGAAAACAAAAAAAGAACAACTAGGTTTATTTTCAATTATATGAATTGGATTTACCTTTATTGCTGGAATAACATTCACGGCAAGTTTTGGAGAAATAGTTCTTGCATCCGATGGATCAGGAATTGGTCTTCATATTATATGACTATTTGTTTTAGAAGGTTCTATAGCATTTATGTGTGCTTGAGCTTTTGCCAAATTAGTTAGATATCACCCACAAGCAAATGGTGGAGGAAGTCAATATGTTAGAACCACATTTAGTAAATTTTGAGGTTTATTAATGGGATTCTTCAACTATTCAGTTATTCCAGTTATTGGAATGGCTTTAATAGTTACAATGGTTAGAGCAAATTTCGGACCACAAGATGATGTAAGATTCTGATTAGTAGGACAAAATGGAGCTGGAGATTATGGTAAATTTGGATCATGAGGTAATTTATACTTAGATTTAATAGCTTTTGCTTTATACATGTTTGCAGCAACAATTATATTCTTTGGTATCAAAAAATATAAATACGTTGGATTAATTATTGGGTACATGACATGAGGAATTACAGTTTTATTAATGATATTTGGTTTAGTTGCTGGATTTATTAATCTTCAAACAAGTAATCCTTTTGAAGTATATACACAAACAGATTTAAAAATTAGTGAATTTACAAAAGCATTTACAACTTGCTTCTTTGCTTTTGGAGGAATTGAAACTTTTATAACAACAGGTAAAAATATTAAAAACAGAAGCAAAAACATGCCTATTGCAATAATAATAATAATGATTGCAACAACAAGCTTCTACATTGTTTTTTCACTAATAACAATGTTTGCTATTGGGGGAAAAGGATTTAGTTCAAATCCAAATACACAATTCTTTGGAGATAATAACTTCTTAAAAGTATTTGGACCAACTTTAATTATTATTTGTACAATGTTAATGAGATTTAATTCATCATTGCAAATTACAATGTTTGGTGGTTCAACTCTTGAACCATTATCAAGTCAAGGATATATTTCACCAGTATTTAAAAAAGAAAATAAAGAAAATGTTCCAGTAGCTGGAGTATTTTCAACAATTATATTATTTGTAATATGTGCAACAATGTTCCTATTTATTCCAGATATTATTGAAGGAGTTACAAAATCTCCTTCTCCATTAAACTATGCAACAATTGCTAGTTGTGCATCAATATTGTTGATCGCAATTTATGGAACAATTATTCCAACAGCTATTGTTCAAGGAATAAGAAAAAATGTTAAAGTACAAATTTGAGAATATATTGCTTGAAGTATAACTGTCCTATTCTTATTATTTATATTAGGAAGTTATTTATGAACTTCATTATTAAATCCATTTACTAATCCTAAAGGTGATAAAATAGGTTCTCCTGAAAATGTACAAGCTCTTGTAAGTAGTGTATTCCAATTAGTATATGTTTCAGGTGTAATTGTATGAGCAGTAATACAATACTTCTTGTACTACAAACCAAAAATGGCTAAGATGGATCCAAATTCTGAAAGAGCCAAAGAAATTGCTGAGTATGAAACATTATTCAGACTTCTAACTGCTGAAGAAATGCAAGCAATTGCTTTTAAAGAGGCTAAAGAAGATGAAGAATATAGACAATATAAAGCACAATTAAAAGAAGAAAAAATAAGAAATAAAGCAGTTTCAAAATAGTCAAAATATGACTATTTTTTTATATTATAATTAACTTAATATGGAGGGTTAAAATGAAAAAAATGCTTAGTTTTTTAGGTGTTACAACTTTATCTGTTGGAGCAATAACACCAGTAATTAATTATAATGTTTCTAGCACTAATAATATTATAAATGTAACTGAAAGTTATACTTATAGCATTACAAATGAAGATATGCAAAATCTTAACTTTGTAACTGAAAATGGAATTGAAAAAGCAATTTTAAGCCCTACTGACTTAAAGAAAAATTTTGAAAAATGTGTTAATAATTTACTTGCAGCAGTTGATATTAATTTAACAAATGATTATAAAATAGAAAAAATAACTACAGATTTTATTGAAAAAGATGCTTGACAAAATAATGATGTAGATTTATTTAATAAAAAATTTAAAGAGGCTAAGAAGAAATCAACTAGTTTGAACATTAAAGATCATTGAATAGAAATAGAAAGATATAAGGATCCAAATTCAGGTATATCTTATTTTGTAAATGCTCTAGCAAAAATAGATGATGATAATGTTAGACTTTATGGTTCAAATTCATATAAACCAATAAAAGATTTAAACGAACTACAAGTAGAATTTAAGAACACCTTTAACCTAGAAATGAAAATGGAAATTTCAATTGAAGGAGCAGACAAAGAAGATTGAGGATTTGAGTTACCACAAAATATAGATTTTCAAAGTAAGGAACAAATAATAAACTGACTTATGAATGAAAAAGACAAGGTTAAAGAGCATATTTATAAGATTGAAGATGCAAAATTAAATGATATTGATAGACCAGAAAATTTATATAAAGCTATCTTTTCTAATGATACATATTCAGTAGGAGAAAAAATTATTACCAATGATAATGCCCCTATAAAAGATGAATACTTTTATATTGGTATAACAAGTAAAAATGAAGCAAAAGGAGAATATAAAATGCTTGTTAAAAATACTAAAGGTACAACAAATAAAATAAAATAATAAAAAGATTAGTAAATAAAACTAATTTTTTTTTATTACTTATTAATGATACAATTCTTTTAAGGAGGTGAGAAAATGAAAGGAAATAGACAAACTTCTTCCATAAGAACACTACTTTTTATAGCTAACGTATTTGGATTAATTATTGGATTAATTGGATTTGGTGTATTTATATATGCAATGACTAGAGTTGGTCTGATGGATCCAAAAGCAACTGGAGACATAAGTAAAACTTCGCCTTATGTTCCACTAATATTTTCAGTAGTAACATTTGCTTTTGTAACTAATACATTCTTTTGTTTATATATAATAAATTTCTTAAAAAAAGCTGATGATATAACTTTATTAAATAATAGATATATAATTGCTTTATTTTCAATATCAATTGGAGGAATATTTACACCATTTGTTTTAGCACAAATGCAAAATATTCCAGTTGAATCAACAATTAGTCCTAAATTTACAATTTCTAAAGGTTATGGAGGTAATTCACTAGTAGCAGGTTTTAGTGCTTTAATTGTATACTTTGGATTTTCATTATTATGATATAAACAAAATATATTTGCTAGTGGACTTGCAGATATAATTTTAGTTTCTGTATTAGCTGTTGTATTATTCTGAGGAGTTTTAAATTGTTTAGTTTTTGCAACACCAGGAGCACTTGCTACTTGAAATAAAAAAGAAACTGCATATAAATTCATGAACTTTATAGCAGTTATTAATCTTATTGTTGCAACAATAATTCTAATAATGCAATTAATTCAAAGTATTCTTTCAATTATCTCAATTTTTGCAGATATGTTTGACAGAAAAAGAGGATTTTTGGGTACTATATTCAACTCAATGTATGCTGCATATAGAATAGCAATTCAGCTATTTATTATTTACACAATAAATAAAATAATAAAAGGAATCTGAGCTAAAGGTGATCAAGTTCAATACAATGATTACTCAAAACTTGCAGAAAAACAAAGAGAATATGACATGGCAAACTAAAAGATTTATATAAAAAAATAACTCATATGAGTTATTTTTTTATATTTAATAGAAAATATTTAAAAAATCTTTTCCACCACTTTTTTCAATTTTTTTAGTTAGAAAAAAAGTATTATTAAGTAAAACTGCTCTATTTATAAAGGATTTATCAAAAGTCTCTTTTTTATTATTTAAGATATTTATCAATACACTCTCTTCTTTTTTCTTAAAACTTATTAACACGTTATTTTTATTTAAATAATGTATTCTTTTAAAATCCTGTTCATTATCTAAAACACTAATTATTTTAAAACTAAGATCAGTCAAAACAATTTCTTCATTTGATTTTTGAATTACAAAATTATTTTGAAATTGAATAATATCTACTAAATCTATTTTTATTTCTTTAATGAGTTTAATATTTTCATCAACTAATAAAATCTTATTATCTCTTTTTATAATTAGTCCTTCATTTATTTTTTTTATTATTTGAAATTCTTCTAAATTTTCAATATTATTTAAATTTGTTGTAAAAACTTTTCCATTAATAATAAAGCTAATATATTTAGTATTATTAATAACTACAAAATTTTGAATATAATGTTCATAAATACCATAAACTTTTATATCAGTATTAGAAATCATATCCATAGATGAAAAATGTGGATTTGGATGAGCTATAAATGTTCTTTCCAAATCTTGTTTTATTTTAATATTTTCTAAAAATATTTTTTTAGAAATTCAACATAATGTATTTATATTTCCATTTGGAATACTATCTACGAAATAAATATTTTCATCATCTAAAAAAATATTTTTTATTCACTCACTATTTTCTATTTTTCTTACTTTTAATTTCAAGTAAATCACCTTTTTAATTATAAATTAAAAACACGATATTAATCGTGTTTGTATCTAATTATTTATTTTGAATTGCTTCAACACCTGGTAATTTTTTACCTTCCATATATTCTAATGAAGCTCCTCCACCAGTTGATATATGAGTAAATTTGTCTTTAAATCCTAATTGAATTGCAGCTGCAGCTGAATCTCCCCCACCTATTAAAGTAAATGAGTCTTTTAGGTTAGCAATAGCTTCACAAACAGCTAATGTACCTTTATTATAGTGTTTAAATTCAAATACTCCCATTGGTCCATTTCATGCTACTGTTTTTGCATCTTTTAAAATAGTTTTAAATAATTCAATTGATTTAGGACCGATATCTAATCCCATTAAGTCATCTGGTAAGTCAACTCCTGTAATTGTTGGTTCAGTGTCTTTAAAATCACTGTTACATGCTGAATCAATTGGTAAAATAATTTTTCCATTAGCTTTTTCTAAATATTCTTTAGCTAAAGAAACTTTATCTTCTTCACACAATGATTTACCAATACTGTGATTTTGGGCTTTAAAGAAAGTATATGCCATTCCCCCACCAATTATAATTTTGTCAGCTTTTTCTAATAAATTATCAATAACTCCAATTTTATCAGAAACTTTTGCCCCACCAATAATTGCTACAAATGGATGCTCTGGTTTATCAATTCCTTTTGATAACATTTCTAATTCTTTTTCAACTAAAAATCCTAAGCAGCTTTCTGCTATATTTGAAGCAATTCCTACATTTGAAGCATGAGCTCTATGAGCAGTTCCAAATGCATCATTTACAAATATATCTCCTAAACTAGCTCAGTATTTTCCTAATTGTGAATCGTTTTTTGATTCATATTTCACAACTTCACCATTTTGAACATCTTCAAAACGTGTATTTTCAAATAAAAGAATTTCTCCTGCATTTAAGTTTTTAATTGCTGTTTCTAATTCTTCTCCTCTAGTTTGAGGAACAAATTTAATTGATTTTCCTGATAACTCTTCCAATTTTTTAGCAACTGGTGCTAAACTTTTTTTAGCTTTATCAGCTTCTTCTTTAATTCTGCTTAAATGTGAAAATAAAACAACTTTTGCTCCTTTTTCAGCTAAGTGATTAATAGTTGGCAGTGCTGCTCTAACACGATTATCATCTGTAATAACTCCATCTTTTAATGGGACGTTAAAATCAACTCTAACAAGAACAGTCTTTCCAGATACTTGAATATCATTTAATGTTTTTTTCATTTTTTTGCTCTCCTATACTTAATTATTTTAAAACATTTTTTACTATAAAATCTATATAATGAAAAAAATTATTAGTATTTTCATTATGAAAATGAATAATGTCTTGATCTTTTATTAAATTATTTCTACTAGGTTTATACAACTTTTTTCATGGAGTTTGTTCATGACAAATTGTTACAATATCTCATGACTTTAAATTTAATAGAAATTTAACTATTTCATAAGCTATTTTATTTTCTTGAGGAAAGTCTTTTTCTATTTCTAAATCAGCTTTTTCTAAATAAATTATAGGTATATCTGATTTTGAATAGATTGTATGTTTCTTTCACAGTTCATAAATAACAGGACCTCACCTTCATGTTTCAAAATCTACATTTGCTATTTTTTCTCTAAATAATAAAAAATAAGAATAAACAATATAAATTATTTTTTGAATCTGAATTTGAGTTACTCTCTTAATACAATTTTGCTTTTTAACTTTAGCAATAACATTTAACATATAATTAATAAAATCTTCTTTAAAATAAAAAAACATATTTTCACCTCAATATTACTATCGTTGTAAAAATATGTTAAATATTTTATATTTAGAAAATTATAAACTCAACATGTATTTAATTGTACGGATAAATTGTGAAGTAAATGAGTTTTCATTATCGTATCATGCAAATACTTTAACTAATTGTTTTCCTTCAACTTCCATAACTTTTGTTAATGTTGCATCAAAGATTGAACCATATGTTGATCCAATTACATCTTGTGAAACGATTTCTTTTGTACAATATTCTAATGCTGCATTTAATTCAGCGTCACTTGAAACTGCTTCTTTAACTGCATTATTAATTTCTTCAACTGATGTTTTTTTTGCCAATTCAGCAGTTAAATCAACTATTGATCCTGTAATTGTTGGAACACGTAGTGCTAATCCATCTAATTTTCCATTTAAGTTTGGTAATACTTTACCAACTGCTGCTGCTGCTCCTGTTTTTGATGGAACTATGTTTCATGCAGCTGCACGACCACGACGTAAGTCTGAGTGTGGTAAGTCTAATAAGTTTTGATCGTTTGTAACTGCATGAATTGTATTCATCAATCCTTTAACGATTCCAAATTTTTCATCTAAAATTTTTGCTACTGGTGATAAACAGTTTGTTGTACATGAAGCTGCAGAAACAATTGCATCCTCTTTTGTTATTGTTTTGTGGTTTACACCATAAACGACTGTTTTTAAATCTCCTGTTGCTGGTGCTGAAATAATTACTTTTTTAGCTCCTGCATCTAAATGAGCTTGAGATTTTTCTTTAGAAACATAGAATCCAGTACATTCTACTACTAAGTCAATTCCCATTTCTTTTCATGGTAAGTTTTTAGCATCTCTTTCTGCTAAAATTTTAATTTCTTTACCATCTACTATAATAGCTCCCTCTTTTGATTCAATTTTTCCACTCATAAATTTTCCATGAGCTGAGTCAAACTCTAATAAGTATGCTAATGTTTTTGAATTTGTTAAATCATTGATTGCTACAACTTCAATATCTTTTGATAAGAATAATTGTCTAAAAGCTAGACGTCCAATTCTTCCAAAACCGTTAATTGCTATTTTTTTCATATTTAGTCGTTCCTTTCACGCTTTTATTTTATACCTTATTGCTTTATTTAGTGAATAAAATAATAACATTTTATTTCTATTTTTTCCATATGATATTTTTAATACTGGAAAATAATTCCACTAATATCGCTTATTTTCACCTGTCATTTCAAATTCATTAGTTAATCCTTTGATTCTTTCTGTGAATCTAAGAGTTTTTTGTAATTCAAATTTTTTTTGTTCTGGTCCAATTACTTTTTTATTTAAATAATATTTTTGTAGATCTGCTATAGAAAAGTTTGAAGTAAAATAAGTAATACATTTATTTTCTAATCTATGATTCAAAATACCAAATAATAATTCATCTCTACTTCAATCACTTACAATTTCTGCACCAATATCATCAAGTATTAAAATATCTACTTTAAGACAATCATCATAAAATTTTGACAGTTCTGTTTTTTCTAATTGATTAAAAGTATCTTTAACTATTTTTACAAGCTTATTGACAGTTACAAAAATAACTTTTTTATCTTTTCTTGCATAAGTATTGGCCAATCGTTTCATTAAAAAAGTTTTACCAATACCTGGAGCTCCATATAAATAAAGACCCTTAAATGAATTATTTACCATATTTTCTCTTATCTTTGTAAAAAGAGTTTTAGATTCTTGATTTAACTTATTTAAATCTAAAGATTCAATATATTCTCCCATTGTCTGAGTATTTTCTTTTAAATCATAATCTGCATATATTATATTTCTTAAAATTTTGTAATCTTTATTTTGAAAAGTTCAGTGTTTGCAATTTTTACTTGCTATATAAAATAAGTTATTTTTATATACTAGTTTTTGTTGAACACCAGGAATTGATTGTTTACAATATTTTATTTCTTCTTCTTTTTCACAATAAACATAATCATTTAAAAATCTATTTATCACTAATATATTATTTTGTAAAATCTGATCGTCTATATTATATTTTTTAATTAGCTCTTTTAAATCTTTATGATTTTTTATATCATTTAAAGTAAATTTTAACATCTAATATTCTCCTCAATCTAATTTATCAAATGTCAAATCTTCTTTAACTTCAATTTTATAAGTTTCTTTATTTAAAGCATCATCTCATTTTGAACTTAATTCTGGTTTTAAATTAATATTAGATTTAATATTAACTTTTGATTTTTGATGAGCAACTTTTAAATATTCAAATGCCTCAGGAGCTTTTTTAAAGCCATTTTCAGACATTGTAGAAGCAATTTTATAAATATAGTTCGGAACTATTTGACCTTTATTTTTTAAGAAAACAAAATCAAATAAACAATTGATAACTCCATTTCTTAATTTATATTTATTTTGTAAAATTTCAATTATTTCTTCAAATTTTTTATCTAACTGTTTTATTTTTTTATCTTTAGAAATTAATAAAGCTAATAAATATTCTTCTGGTTCAATTGTTTCCATTTCACTTAATTTTTGATTTTTTTGTTTTAACATATTTAATTCAACATCAAATTCTGGGATTGTTTCAGAGAATTCCTCTTTTTTAAAGATAAGTTTTGCAACTTCTTTATAAAATTTTGAGTTACTAAAAGAGCAAGAATCCTTTTCATAAATTTTTTTAATAATTTCTTTTATTTCAAATTGACTAATATTATAAGAACCAAAAACATCTTCAATTGCCTTTTTAATGATTTCATCATTTTCACTAATAGTAATATCTTCTTTTTTTAAAGCATTAAGTAAATTAGCATAATCTAAACCTTTTAATAAAGCATTTGTTCTTTTTGGTTTAGCTTTAATCATAGCAGCTTCAGATGTTTTTAATTCTTCAATCTCTCCAAAAACTTCAACAAATTTGGATGAAGTATCTTTGTAACCACTTTCTAAAGTTAACTCTCCTTCATCTCTAAAAGTAAATCTAATTAATTCATAATCTTCTTTTTTTATTTTGCTCAATAAAGCATTATTAAATACTTTATTGTTAAAAAATTCTACTGGTTCTAAAGGTGAATATATATTAAATATTATTGTATTTTTACTTTTATTTTCTAAAGTTCTTAATAAACCAAGAGCTTCTAATTTCTTGAAATATTTAGACAATATATTTTTAGAAATTCCTGTTATTTTAGATAATCTGGTATTTGATAAGGTTATTGTTTTAAATTCACTTATTATATAAGATTCATTTATTAATGTGAAATACAACGAAACTGCTTTTGATCCTATTATTGGCTGATACAAGTAAGTTATTATTTTATTATTTGAACTATCTATTATATTTTTAAGAACAACTCTGTAACTAAACTCATCCATGAATTACCTCCCAAATACTCTGCTTCTTAATAATAAGAAAAATGAAAAAAAATGAAATACATTTAATAATTTTTATGAAATTGACTATCATTTGTTAATAAAAATCATTAAAAAAACCCTATTTTAAAGGGGTTTTTTAAGTTATCCACATTTTAATATAGATTTTGGCATTCTGGACAAAAATATGTTCCTCTACCATTAACTTTTATTTTTTCTATAATTCTTCCACAATCAAAACACGGTTTTGATTTTCTCAAGTGAACTTTTAGCTCTCTTTGAAATTTACCATCAATACCTTGTTCAGGTTGATAACTATCGATTGTTGAACCTCCAAGCTCAATTGATCTGTTCAATATTTTTATTGAAGATTTTAAAATATCATTATAATTTTTTAAACCTAAAGCACTTGCTCTTTTTTCTGGATGAATTTTTGAATCAAAGAGAATTTCATCTGCATAAATATTGCCAATTCCTGATATTTTTGTTTGATCAAGAAGAACAGTTTTTATATGTTTATTTGATTTAGACATTATATCCATCAAATACTGACCGTTTAAAGTGCTATTAAAGGGCTCTGGGCCTATTTTATTAATAGGTTTTTCATTTCTAAAAGTTAATTTATCTTGTAAATGAAAAGTTCCAAATTTTCTTGTATCATTATATATCATAAATTTATCATCGCTTAATTCAAATATGGCTTCTACATGCTTTGTATCATATAAAGTTCCTTTATCATATACAAATCATTTTCCTTCCATTCTTAAATGACTGATTAAAACTAAATCTTGCAATTCAAAAATGATATGTTTTGCTATTCTTGAAATATTGTCTATTTTTCGACCTTTCAGTTTTTCTTCAAATTCACCAATTTTAATATCTGTTTTAATTAAATTTGGATAAGTTATTTTTACATTTTGAATAGTAAGACCTTTAACTTTTGAATTTAGAACTCTAACTACGGTTTCTACTTCTGGTAATTCAGGCATTATTTAAGCCTCCTTTATTTTAAATTAAATCAATCACTTGCTTGTGAGTAATTAATTTCTAATTTTACAAGAGCTTCTCTATTTTTATTTGATATTTTTAGCAAATCATTGTATGCTTCTTTCATTATATCAAGAACCATATTTTTAACTTTTTCAAGTTCTGATTTTTTAACTAATAAAATAATTTCATCATGTATTTGAGCAACCATTTTTGATTTCAATTTATTTTTATTTAAATTTTCAAAAACATTTATCATTGCAACTTTTAATATATCTGCTGCAGTTCCTTGAATTGGAGCATTAACTGCTGCTCTTTCACCAAATTGTTTGATCATATAATTTGAGTTATTTAACTCATAAATATATCTTCTTCTATTTCCCTGAGTTTCCACATAGCCATTTTCATAACCAAATTTAATAACTTCTTCTTTAAACTTTAAAATTTGAGGAAAAGCTTTATAATATGCTTTAATATATTCTTTTGCTTGTGCTATTGATATTTTTAAGTCCTTAGCCAAACCAAAATCACTTAATCCATAAAGAATCCCAAAGTTGAATACTTTAGCTACTCTTCTTTGCTCTGAACTTACTTTATCTTCTTCATTTAAATTGAAAATACTTCTTGCAGCTTCTGAATGTATATCTCGATCCATTGAAAAAATTTCAATTAGTTTTTCTTCTTTGACAATATCTGCAAGTACTCTTAGTTCAATTTGAGAATAATCGAAACTTAAATAAAGATTTTCTTCATTTGTAACAAATATTTTTCTTACATTTTTTTGTTCTTCATCTCTTATAGAAATATTTTGCATGTTGGGATAACTAGAACTTAATCTTCCTGTATTTGTAAGGGTTTGATTAAATATTGTATGAACTTTATTATCTGAATGAATAAACTTCTCAAAACCTTTTAAATATGTTGAATGCAATTTGCTATATTTCCTAAAAGCAATAATTTTTGAAATTACTGGATGCTTATCTTCTAATAAGTCCAATGTTTCTCTATCAGTGCTTCCTTTATTATAATCTGGCAGCTTTAATTTATCAAATAAAAGCTCTTTCAATTGTTTTGGAGATCCTATATTAAAATCTTCATCAATAAATTCTTTTAAATCCCCTCGAATTTCAAACTCTAAGTTTTTTAGTAATTCTAGAATTTCTTTTTCTTGATAAGCCAATTCTTGCTTATCAACTTCAATACCTTCAACTTCCATATCAATTAAAACTTTTGCAAATGGAAATTCAATTTTTTCATATAGATTTAGTTGCTCTTTTTCTTGTAATTGCTTTATAATTTCTTTTTCATATTCTTTAATAAATAAGGATTTGCTAACTAAATAGTCCATTTTAATTTTTTCATCAATTAAATGTGTTTTTTTAACACCTTTTCCAAAAATTTCTTCAAATGTTTTTATTTCATTTGAAGAATCAATCATAACAATGTGCTGTTCAAAAGTTGATTTAATGTTTGAATTAAGTATATAACATGCAATCATCATGTCATAGATAAAAAGTTCAGGTTTTATCTTATAGCCCATTTTTTTAAAAGCAATAACTGTCTTTTTAACATCATAAGTTTTAAACTTTGAATTTAGTAAAAAAGCTTGAAACTGATCATCTATTACAGATTCAGTTCAATTAAAAATATTTATCTCCTTACTAGTATTAAAAGAATAATAAAAATTACCTTTTGAATTAACAATTGACAATCCTATAACATCACTTACATGATAATTATCGTTTAAAGTTTCTAAATAAATATAATTGTGTTCATCATTAAATGTGTTATCTCATTTATCAAGTATCTTATATTCTAATTTTATTTCATCTGTAGTTTCTTCATTTTTAGAACTGTATTTTTTAAGAAGAGAGTTCATTTCATATCTAATAAAAAAATCTCTCATGTTTGCAAAATTAATCTCTGTTTTAGTAAAATCAATTTTATCTAAATTCATATCTTTATGAATTGTTGCAATTTCTTTTGAAAGAAAAGCATCATCTTTTCCTGCTATCAATTTAAGCTGTTTTGCACCTTTAATACTTTCAATATTATTATAGATATCTTCTAAGGTTTTAAACTCTTGTAATAATTCTTTTGCAGTTTTTTCTCCAATACCTGTAACACCTTTTATATTATCTGATGAGTCTCCTCTTAAACCTTTATAATCAATAACTTGTTCAGGACTAATTCCTCATTTCTCAAATAATTTTTCTTTGTTATAAACAATTAAATCACTTGTTCCAATTTGAGGAGATAAAACATAAGTTTTATCAGATATTAACTGATACATATCTTGATCACTTGTTAATATATGAGTTTCAGCTTCTTTATTTGATTCAAGAATTTTCGAGATAGTTCCAATAATATCATCTGCTTCATAATTGTCTGCTTCAAATCATTGAATATTTGCATTTGTTAAAAACTCTCTAACAATTGGAAATTGCATAATAAGTTCTGAAGGAGTTTTGGCTCTTCCAGCTTTATAATCTTTTAATTTATCATGTCTAAAAGTTTTTTTACCTTTATCAAATGCAACTTTTATGCAAAAATAGTCATTTTTTTCAATAATGTTCATAAGCATATTAATAAACGAATATACAGCATTTGTTGGTATACCACTTTTTGTAGTTAAAGTTGCTCTTCCATAAGAGCTATAAAATGCTCTAAAAATTAAAGCATTACCATCGACAAGCAAGAATTTATTTTTCATATTTTTTCACCATTAATTCTATAATAACAAAAAAAGTACTTGTAGTACTTTTTTTATATCTCTTTAATAACTTCAAGTAAAACCGCATTTATTTTATTATTAAATTTTTGAGTTTTTATTTTAATAATTAAATTTTTACCTAAATTTAATTTGGTTTTAAAACTATCATAAACAGATGAAAATACTGTTATCATCATTATTTCAGTTTCATCTGCAATGTCTAAAAATGCCATTTGATTGCCATTCTTATCTTTTTTAGTGACAATATTTTCTATATTAATTAAAACTTCACAAATAACTCCTTCATTTTTCAAAGTATTTAATGTTCTTAGTTTATCTCCATTTATTATTTTTTTTCTAATAATTGATAATGGATGAGATGATACAAAAAAACCTAAATATTCTTTTTCAAAACCAATTATCTCTTCTGGTTTATCTTTTCTTTTTTCTAATTCCAAAATAATATCTGGATCATTTAATAAAGTTGCTGTTGAAGCTAAATTAAATATCTGATCTTTTTTCAATATTAAATCTTTTCTTGAGAAACCAAAGCAATCAAATGCTCCTGAATAAACTAAAGCAATGTATCTTTGTTCGGTCAATCCCTTATCTTTCATATTTCCAATAAATAAAAGAATATTGTTAAATGCTGTTTTATTTGTTTTAAATAGCTCTTTAATATTTTTCAAAAATTCTGGACCAATATATTTTATTACATTTAAAGGTATATTTATCATATTGTTATGATAAATATACACACTATTTGGATTTTTAATTGTTGGGGGATTTATATTAAATCCTGCATTCTTTATTTCATTTAAATACTGTGAGGTTTTAACTTCATTTCTAATTGAACCATTTAATAAAGAACAATAAAAAGATGATTTATAATTTGCTTTTAAATATGCCATTCAATAACTTATTAATGAGTATGCAATGGCATGTGATTTATTAAATCCATATAAAGCAAATTTCTCAATATAAGCTCAAATTTCTGTTGCCTTATTACTAGTATATTGATTTTTAATTGCTGATTGTATAAATTCTTCTTTAAATTGAGCCATTAAATTCTTATCTTTTTTACCAATTGCTCGTCTAACAACATCTGCTTTACTTAAACTCATACTTGCTACTCTTTGCAAAATCTCCATAATTTGTTCTTGATAAACTATAATTCCAAAAGTTGGTTGTAATATATCTTCTATATTTTTATCAATAGAGTATTTTAATTCTTTATTATTTTTTCTTTCAATAAATAAAGGAATATTATCTTGAGGTCCTGGTCTATATAAAGCACTAGTTAATGCTATATCATCAACTGAGTTAACTTTCATTTTTATCAAAACATCTGTCATTCCAGGTGATTCTAATTGAAATATACCACTTGTATCTCCATTTCTTAAGAGTTCAAATGTTTTTTTGTCATTTAAAGGAATGTTTTCTAAAACTACATCCACTTTATCTACTATTTTAATGTTTCTCAAAATCTCTTGAATTATTGAAAGATTTCTTAGACCTAAAATATCTGTTTTAATTAAACCTATTTCTTCTAAATAGTTCATTGAGAATTGAGTTTGAGAGATTCCATTAATACCAATTTTTGTTGGAACAACTTTATATAAATCTATATTTGAGAATACAACTCCAGCTGCATGAGTTCCAGTTTGTCTTGGCAGTCCAATTATTTTTTCACTTATTTCAAAAATTTGAGGATATTTTTCTTTATACTTTCTAAGTGTTTCACTATCTTCTAAAGCAAGCGATAAATCCTTTATATTTTTTTCATTAATTTGTTTTGTCATATGATTTATATCATTTATAGACACATCAAAAATTCTTCCACAATCACGCAAGGCATTTTTTATTCCAATTGTTTGAAAAGTTGTTATTGTTGCAAAATGATTTTTTCCATACTTATTAAATAGATACTCTAAAATTTCTTCTCTTCTATCATCTTGAAAATCAAGATCAATATCTGGAAGTGTTATTCTATCTATATTTAAGAATCTTTCAAACAAAAGTTTTCACTCAATTGGATCTAATTTTGTAATTTTTAAAAGAAATGCTACTAAACTTCCTGCAGCAGATCCTCTACCTGGACCATATAAAATCTTTAATCTAATGCACTCATAAATTATGTCATGAACTATTAAAAAATAATCTTCAAAACCCATCTTATTAATAACTTCTAATTCATAATATAATCTAGTTTTATAAAGTTTTTTATCTAAAATATTTTTTAATAACAAATATTCTTCTAATAGTTCTTCACATATTATTTTTAAGTATTCTTTTGAGGGCATTTTTTTACTATTTGGATATTTTAAAAAATGCTTTTCATAATTGAAAATATTTTCAATATCAATTAAAGAAGTAATTTTTGAAATATTATTTACATGATTTTCAACTTTTATATAATTTGAAATTAACTCTTTTGAAAAATAATAATTTTTTTCTAAATTTGAAAGTTCTGTAATTAATTTTCCTTCTTTAATTGCAATCAAAGTTTTATAAACTGGATATTCATTTTCATGAAGAAAGTTAATTTCATTTGCAAAAACTACATTAGAGTGCTTTTTAAAATAAGAAGAATTATGTTTTGTAATCCCTATATAGAAATTTTTATCACTTAATATTGATTTAAATTTTTCTAAATATTTATCAACATTTTCAACTGAAAAACTAGATATAACTATAAGATCATTAGATATTGTTTTTCAAAATAGACTTTCTAAGTGTTCTAAATTAATTTTGTCATTTTGATTAATATAAGAACTAATATAACTTATTTCTTCAAAACCCTTATTATTTTTTGCATATATTAAAATATTTCCAAAAGATAAATCAAAACTTAATCCAATAACTGGTTTAAGTTTTTTTTCTTTTGCTTTTTCATAAAACTCTGCAGCACCATACATTGTATTCTTATCAGCATAAAAGGCAAAATCATGATTATTTAACTTTAAAAAATTCAAATAATCTTCTATTCTAATTGTAGAATTTAAGAAATTATAACAACTTTGAACATTAAATAAATTTAAATACTCCATATAAGACCTCACTTTTCTTATTTTACATCATTAATAAAAAAACACCATTTTATTAGTTTAAACATATCTTAGTAAGTATATTTTTTATAGTTAGCTTTATATTTCATTGTAAAATTTTTAAAGATTTTCCTTTTAATTTAAAAACCTTTTTAATAATTTTGACTTATAAAATAAATGTAAAAATATATTTTATAAAATAGCTCTATTCTATTTTTAAAATTAAATATTAAAAAATCTTCTAAATTAGAAAACCGGTATTATAATATTATTTTTATTATAAGTTTTATATTTAGAAGATTATATTTAATAAATTTAGAAACTATTTTAAATTATTTAACTTTTTTTATCTTATTAAAGAAGATTTAAACTATTTTAAGAGAGTTTAAATTTCAGATAATTTTAACTCCTGCTTATCTAAAAGCGAGAAAAAATTCTCTATTAAAATCGTTGATATTTTATTAGCTTCATATAAATTTTGTCCTACTATAATTTGTAAGTTTAGTGGATTTTTTGCATAAAATCAAAATAAACTACCATTTGCTCTTAAATATCAAAAAAATATTTTTATTTTTTTATAATTATCTTCAGTTTTCTTTAAATTTGCTATTTTTCTTTTTAAGTACTTTTGACATCTTTGAAAATGCTTATTAACTTGATCAATTTTGCTTGTATCTTCTATTTCAAAGGATTTATAACTTAATTTTTTTGGCATTTCTTGTCTTAATTCTTTAAATCCATCTAATGCTTCTTTTTTATTTAAAAACTTTACTTTTTTTAATCTTTTATATATTAGAAAATAAGCAAATATTAAAATTTCTAATAAGCAAATAAAATATATAATTGAAATTACAATAATATAACTTAAAAATTCTTTCTCTTCTGGTTTTATTAAAAAAGCTGCTCATATATATATAGAAGTCATTAAAACAAAAACAACAAATGTTTGAATATAAAACTTATAAAGCTCTCTTTTAAGAACTAAAAAATCCTTTTTAAAATTACTATAATTATTAAATGCGCTAATTACATTTTGAATTATAATTTTATAAGAATAAATCGAAAGTTGAATAAAAATTGGAACCAATAAAGAAAATGTTAACCCTACAATTATTATAATTAGATATCCTTGTCAATCCATTTTTTATATACCCCCTCTAAAAATTATAATTAATTCAACTTGCTACTGCTACTGCAATTGATATAACTGCTACTACTGCTGGCATAGCTCAAATAAATGGTGTTGCAGTTGCTGTGAAACTTACTAATACTGTTTTAGCAATTCTTCCTAAAGCTTGAGCTGCATTTATTGCAACACTACCTGCATTCCTAGCTTTATCTCATTTCTCGGCTTTTTCATCATAAGCAAGTAAAGCTCCTGATAAACCAGCTGTCACAAGACCTGAACCAATAGAAATTGCTGTACAACCTGCTGCCCATGGAATAGTTGCTCCAAGAGTTCAAGGAGCTGCCGCATAGAAACCTGCAGCTGCTACTGCAGAAGCTGCAGTTAAAGTTACAAATGAAATCTTTGCAGTTTTTAATCTTGATACTAATTCTCCATTTTTTTGATAAGCACTTGAAAATGAAATATTATATTTTTCCACATTTTCACTATTATTTATATAATTAAAACTCTCTTTATAAGAATTTTTTAATTTTGTTTCTTCTAAATATGAGTTAGTTAATGTACTATAATTTTGCTCCTGATATGTTGATATTTGTTTATTATATTCCTTTTCAAACTGAGGATATTTTGCTTTAATAAAGTCTAATGCTTTATCTAGACTAATATTTTGTTCAGTAAATTTATTAATTATTTTTTCAGATTCTTCTTTAGCTTTTTGTAAATAAGTATCTTTAATATTGTTTTGACTTAATTGTTTATTAACTATATTTTTATTGTTAGATACATCATTTGCAAATTGCAATGGCATATCTCTATTAAAAATATCAAAAGTCATTTTTTTTACTTCTGCTCATTCTACAGAATTTAAATTACTTTCATCACTTTTTACATTATTATGAATAACATTTTTTGATGAAGATAATGTTACACTAAAAGCTGAAGATGATAATCCTACTGATGTTAAAATTGATAGTAATTTTTTCATATATAATTCCTCTTAAATTATCTTTCTATATCATAATTATATTTCCATAACACTTAAATATTCTTTTATAATATAAAAACTCTTTTAAGTTTTCAGCATTTTATAGTAATTTTATTTCTATGATTTCTATTTATATTTTTTTGTAATTAGACATATAAATAAATAATAAAAAAAATCTTCTAAGTTATAGAATTTAATCTTATGATAAAATTTTCTATCATAAATTCTATATCTTGAAGATTACATTTATTATTTAAATAATTTTTTATTTTCTTCTATTAAAATCTTCTACAATTGTTTCATAAGCATTATTAATTTTTGTCATTTCTGCTTGTGCTTCAACCTTATTTGGGTTTTTATCAGGGTGATTTTTTTTAGCCAACTCTATATATCTTTTCTTAACTTCCTTTAAAGAACATCCTCTAACTAAACCAAGAGCTTGATAAGCTTGTTCTAATTGAGATTCTCCTTGATAAAAATCTGAATAAGATCTTGATTGATCATAACCTGCTCCTCCAACTGTATCTTCATTTGAATAACGACTTTGACTATTATCATTATTTCTTGTTCTTCCTCCATTTCTTCGTCTTCTTCCACCAAAAAGTAAATCAAATATAAAAATAATAAAAATAACATTCAATATTCTAAATATAAACCTTAATAATTCATCCATACTCTCACTTCTTTCTATTTAACAACAAGTCACACGATTAATAAAACTATTAACAATAATATAATTATATACGCTGTTAGTTTATAAATGAAATAATTTGCCTTTCCTTTTTTATTTTTATTATTAATTTCAGGTTTTTTTTCTTTTAAATGTTGTTTTTTTATTTCAGTTATAATTAGAGATTCGTCTTGATAGTTTTCAATTTCAAATTCTTGATCATAGCCTAATGTTTCACTGTTAATTACATTACCATTAAAAACTCCAAATTTATTATTTTGTTGCTTTTTCTTTTTTTTGCTATTTTTCAACTAACTCACCTTCTCTTCATATATATATTTTAATTAAATTTTTAACAGTATACTCAATCATTTCATCTAATAGTAAACTTTCTTCTTGTTTAATAGCTATAAATGTTTTTGGTTTTGTAACAGGATTTTTGGGAACATACATTGAACACACATCATCAAAAGGCAATATTGATGTTTCATATGTATCTATTTTTTTTGATATTTCTATAATTTCTTCTTTATCATATGTTAACACTGGTCTTAATATTGGTAAATCAGATACTTGATTTATAACATGAATTGATTCAATGGTTTGACTTGCAACTTGTCCTAATGATTCACCTGTAATTATTGCTTGTGCTCCTATAATATTTGATAACTTGTTTGCAATTCTGATAAATATTCTTCTCATAATTGTAATTCTGTATGATTCTTCTTTAATGTGCATTAACTCTTTTAAGATCATAGAGAAATCACAAACATAAAGTGAAAAATTAGCTTGATTATATTTTTCTATTTTACTTGCTAATTTAAAAACTTTGTCCAATGCTTCTTTAGAAGTATGGGGAGGTGTCATAAAATGTAAGAAATCAACTTGCATTCCTCTCTTTAAAGTTAAATAGCTTGCAACTGGTGAATCAATTCCTCCACTAAGCAATGATAATCCCTTACTACTTACTCCAACAGGAAGTCCTTTTAAAGCACTAATTCTAGATGTAAATATAAAAGCACCATTATGTTTTATAATAACTGTTAATTTTAATTCTGGATTGTGAACATCTACTTTAATATTTTGATTATTTTTTAATATATTTACAGCAATTTTTGTCTTTAGCTCCTGAGAATTTATTGCAAAGCCTTTATCTTTTCTTTCAACTTCAACTTTAAAAGTGCCTAAATGATTTTTGCATATTTCCAAAGTTTTGTTTAAAATAATTTCTTCATTTTTTTCAACAATTTCAACTATTGACAAAGAGTATATTCCAAAGATATTTTGCAGTATACTACATATTTCATCTAATTTTGATTGTTCTTTTATTTCTAAAACTAAGTTATTGTGATCTTTTTTATAAACTATAATTTCTTTATATTTCTTAAGCTTAAATTTGATATTTTGTATTAACTTACTTATAAAAGTATTTCTATTATTTCCTTTTAAAGTTAATTCTCCATATCTTATTAATACGTTTTTCATTGATTCCCTCTTTATCTAATTCGATTTTCTTTTAGTTTCATTAATATTTGTAAAGAATAACCAATCAATTGATCTAATTCTCTTTCTTTGAATAATTTTTCACAATTATAAATAACTTGCTCAATTCCTTCAACTTTACCAACATATCTTTCTAAATACACAATTATCTCTTGTGAAATGTAATCTAAAAAGATTGTGTCATTTAAATCTCTTGCAAGTATAAGTGTATCTTGATTGCATATTTCAATTTGATTTGAAATTCTTTCTTTTTCTTCTTGAGTTGTTATTTTTTGTAAATTTTCACGTGAATATTTTAATAATCTCAAGTGTAATTCTTGAATTGAATCAATAAATCTTTCTAACTCATAAATTGATTTAAATTGATTAATTTTAACATCAAGTTGATTTAAAATTGATTGAATAAAAATAACTTGATTAACTAATGAATCAATATTTGTGCTTTTGCTTTCAACTATTTTTGCTGATTTTTCTAATGCTGACATGTCTTTTAATGATTGTTCCATTAATTTTAACATTTCAGTTTTAATTTCAAATAAATTAATCTCTTCTCCGTTATTAGTTCCTAAATCAATTTGAGAAAATAATAAATCTGCTTTAGCTTTTGTTTTTCTAAAAGCTGCTTTGGCAATTTCAAAGTCATTTCTTTCTTTTGAAAATTGCTTTGTAATATCTTCAATTCTTGTAAAATCTCTTTCAAGTAGTCTTGATGAATGCTCTATCATATCAAATTTATTTCTAATACTTGGAGTTTTAACTTCGAAAAATGATTTTAGATTATCTTCATTTTCAACTGCACTTTTAAATGAATTTATTTGGTTAAATACCTCTTTTAAAGTTCTATTAGCTTTTTTAAATTGCAGTTTTTGTAATTCATTGTTAATTTTAATTCTTAAATTATCTATATAATTTTCAAGTTCTCCATATTTCATTGCATTTAAATGTAAGTTTTTTCTAACTGGTCCGAAAGTTATATGTTTATTTTTTAATTCAGTCATCATTTGAGGAATAACTGTTGTTATTGTAGATATAACATAAGGAATTGAATCTAAAAGTTCAATTAAAAAAATTAAAGCCTGATCTATTTTTAATAGATAATCTCAACTTTCTTTGTATCTTCCTTCATCTAATTTGAAATAAAACTCTTCAAAAAGACTTTCTATTTGATCAATTGTATCTTTTAATTTATCTTGATCAATTGCAATATCTTTAAATGTTGTCATAATAACTTCATCTTTTAGTATTCTGAATAACTCTTTTTGAAATGTTAAAGAATCTCTTTGAATAAATTCAATTTCTAAATTATTCATTGTTTCAATAAAAATTTCATGAACACTCTTATTAATAGTCATTGTCTTTTGATAAACTGCTTGAAATTTCTTTAAATTATTCAAACTTGGTCTAGTATTCTTTTTATCTTCAATTAAAGCTACAAAGTCTCTAAATACTTTTTGCATTTCTATTTCAAAAAGTATTTCATATTTAGTTCTTCAAATCATTAGTTCTTTTTCAAAACTTCCAGTTTCATCAAAAATCATTGATATTCTCATTAAACGATATTTTAATGGTGATTTTTTTAAATCATCTATTAAATCAATTGTTTTTGCAGCAGTTTGAAGAATTCTTTTATAAATACTCATCAAAACTAGAATAATTATTGCTGCAAAAAGGCAAGCAAAAAATATACATATTGCGCTTATGTATATCGGATTTTTAAATATTTGATCAATATTTCATAGTGGCCCCATTTTTTACTTCCTTAAAATCAAAATCATTATATCATATACAAAATTATTGAGTATTTTTTTCAAATAACTTATTTTTTAAACCCAATTTGATATATAATTATTTTTGGTTAATCTGCAATTAAACACTGTAAAACAATTAGTCTATAACTTATTTAAAAGTAACCCCTGCAGATGAAGGGCGAAATATATACTTCCTTTACTGGAGTTTAACCTTAGTTATGATTTTCCAAATAATATATATAATAGAAAAAAGAGGATATAGAAAATGTCAAGATATACAGGATCTACATTTAAAAAAGCTAGAAGATATGGATTTTCTATCTTAGAAACTGGTAAAGAGTTCTCAAAAGGTAAAAAAAGAACTACTGCTCCAGGTCAACATGGTGCAAGAAGAACAAAACTATCAGGTTATGGTCAACAAATGCAAGAAAAACAAAAAGTTAAATTTATGTATGGTTTAACAGAAAGACAATTTAGAAATACTTATGCAAGAGCTAAAAAAATTAAAGGAATTACAGGAACAATTTTCTTACAACAATTAGAATCAAGATTAGATAATGTAATTTACAGAATGGGATTATCTTTAACAAGACAAGGTGCAAGACAATTAGTTTCACACGGTCATATTTTAGTTAATGGTAAAAAATTAGATATTCCTTCATATGCAGTTAAAATAGGAGACATAATATCAGTTAAAGATAAAATGCAAAAAAATGATAAAATTGTTGAGTCATTAGCATCAAATGCAGGAACAGTTGAATTTGTAAAATTTGACAAAGCAAAAATGACTGGTTCATTATTAAGATTACCAGAAAGAAAAGAATTAAATCAAGAAATCAATGAAGCATTAATTGTTGAATGATACAATCGTTTAATTAAATAATAAAAAAGCAATAAATATTATTGCTTTTTTTTAGCTAAAAATTCATAAAAAAAGTAATTAGTTTTATTCTCTAATTACTTTATTGTTAACTAAATCTATGATTTTAGATGGTTTTCCTTTAAGTTCTCCATCTCAAAAAACTTCGCTTATATTTATATTAAATAGATCTAACTCTTCTTTTTTGCTTAAATATGGATTATTTGAATAATTAACACTTGTTGAAAATATCAATCCTGTTTTATTAATTATCTTTACCAAGTCTTTTCTTTTAACTTTTCTTAAAGCTATACTCTCATTTTTATAAGTATTCACTATTTGAGTAATTGGAATCTTTGATTTAACATTCTTTTTAAATTTTTTATTAATATTAATAATTTTTTTCAATTGCTTTAATTTAGAAAACAGTACAATTAATTGCTTTGATTCTTGAGATCTTTTGATTTTATTAATTCTTACTCTATTTTCTTCATTGTACAAAGCACTAAGTCCATATATACTATCTGTTGGCAATATGACAATTTTATTTTCTTGTAATATATTTATTGCTTTTAAAATATCATTTTTTGCAAGCATTATTTTGTTTTCCTTTGATAGTTATAGACTGAATTTAAAACAACGTATTCGGGCATTATTTTTGTTAATTTTTTAGCCAATTTATTAAAAGTTCCAAATATAATGTAGTTCTTCTTTTTTGCTTTTAAAGCTTTTTTTAAACTATTTTTTGCATAAACAGAAGAACTAATAGTTTTTGAGTTATTTCTTATTTTTGCTCTCTGCTCATTACTACTTCTATTCCAAAAATCAGTTTTCAATGCTCCTGGACAAATAGTTATAACCCTTGCTTTAGATTTAAGTTTCTTTAATTCCGTATTTATTGCAATACCAAAACTTAAAACATATGCTTTTGAAGCATAATAACTTGAAAATACAGGACCTGGTGTAAAAGAACCCATTGAAGCAATATTTATAACTCTTCCTTTATTTTTTTGTATAAAATATTGAGTAAATTTCTTAGTAAGAATATGTAATGATTTAATATTTAAATCAATCATGTTCATTTCTTTTTCCAGATCTGTTTCATGAAAATAACCTCAAACTCCATAACCTGCATTATTTATAACTATTTCAATGTCTAAATTCTTTGATTTTTCAAATAGTTTATATGAGTTATTTAAATCGCTTAAATCTAAGTTTCAAGTTTCTATTTTTAAATTACTATATTTTTTTTGAAGTTCTTGTAAACTATCTGTATTTCTTGCAACAGCAATAATGTTATACTCTAACTTTAATAACTCTTCACAATAAGCATAACCTAATCCTTTGCTAGCACCAGTTACTATAGCATAAGCTTCTTTATTTAGATTTTTTTTCATCATTTTTCTCTGTAGAACTATCAAATAAAACTTTTTTATTTGCATTTATATAAATTACAGCAGATAAAATTGAAAGAACTACTGTTACATACATTGGAATTAAAATAACTTGATTAATTCATCCAAATTGATTGAAATTATCTCAACATTGAGCTCCTAAGAAAAATAAAATACTCAATCCAACCATTTCCGCAGTTGCTCTAATTTTTCCCATTTTATTTGCAGCCATTACAACAGCTGAATTTGCTAAAATTTGTCTTACAACATCTATTATAAAATCTCTACATATTAAAATAATACACAATCATATTGGTAAAATACCAAAACAAGCAAATATAATTAATACTGAATTAGTTAGTAATTTATCTGCAATTGCATCAAAAAACTTACCAAAATTAGTAACCATATTGTACTTTCTTGCAACATAGCCATCTAACATATCTGTTAAACTTGCTACTATAAACAATATTCCTGCTATTAGATAAGTTAAAGGTAAATGATAGTTTCCTATTGAGAATACATTTAGATTCCCTAGTTGTGTTATAGCTTCATAATTAACTCAGCTAGCTGGAGTTAATAATAACAATATTACTATTACAGGTATTAATAATACCCTTACAAATGTAATTTTATTTGCCAAATTCATAAACTTGCCCTCTTTTCACATATTCTTATTATAATACAACACCATTAACTAAACTAATTAATATTAATTAAAAGGTTATAAAATAATTTCCTTATATTGAAAGTTCTTTATAACAAGAAAATATTAGTTTAAGTTATTTATTGCTAAATCCTTACTTTTCAATAAAAAATTAATAATTTTAGAAGAGTTTTAACTATTAAATATTTTTGATCATTATGTTTAAAATGAAAATTAGTTAACTCTAAACTATTTAAATTTTTTATAATAATAACTAGTTTATTTACTTCCTTTTTTAAAAAAAGTAACATTTATTTTTTTATGGAAACAGAGCAAGCAAAAAATATTGAAGAAAGAGAAGAAAAAATAATTTAGAAAAGTATCTATTGTCCCTTTACATTCTTTTTAATAGAAACACTTTTATAATAGTTTTTTTATTCTTTAAAGTATTTCATTATATAAATAATAAAAATCACGAATACTCGTGATTTTTATTATGCTCTGACTTTATTTTCTTTATAAGATTTTTGATTAATTACATTTGAAAATATCTCTATATTAACAATTAATCCCATAAATTCAGCATTTGCTGATGATAATTTTACAATATCATGAATTCACCCATATTCATCAACTAATGCATCATAATTAATAAAATAATCTAATCTTTTAATTTCATCTTGTTTTAATAAAACTTCTTTTGCTCAACAAAGAATATCACTAACATTTTCGCTTTTTGAAATTTTATTTAAGCTATTTAAAAAGTCTGAAATTTTCTCATTATTTATAAATCTAAATGATAGGTTTTCATATTTATTTATAACTCTTTGAGAATTTGATGCTAATTTTCTAACCACAAATTTTTCATTTAAATCTATTAAATTTTTTTCATGTTCAGTGTATTTTAGGAAATTCAAATCATGAAAAGCCTCTTTTATTTTTCTAAATCCTTCAGTTGCTGAAGATAAAAGAATTTCTGTACTTGCATAAAAAATATGATTAGCTTTTTTGGTTGTTAATAAATCTTGATTTTCTTGTCTTAATTGATTCAATTGATCAATTATTAAATCTATACCTTCAAAATTATCTGTACTAATTTTTTCAAATAGATTATCTACAGAGATTCTTATATCTTTCCCATTTAATTTTAGGTTTTTAAAACAATCCTCATTAAAATAGTTTAATAATTCTTCTACAGTATTTTTTAAAATTAAGTCAAAATTCATTTTTTAATTGCTCCTATATAATTTCTACAATAAAATATTTCTTTTTACCTTTTTTAATAATAATAAAATTATCTACAGTTATCATTTTTTTGTCAACAATTGTATTTTCTTCAAATTTATTATTGTTATTTATTGAAATAGCACCTTCATTAATCAGTTCTCTTGCTTCTCTTTTTGAACTTGCTATTTTTGTTTCAACTATTAAATCAATTAATTTAATATTTTCCTTTACTTTGTTTTTTTCTAATGAGTTAATTATTGATAATAAATCGATTTTATTTAATTTTAATAGATCTCCACTAAATAATGCCTCAGATATTTTCTCTGCCTTTTCTAAACCTTCTTTTCCATGAACGAAATTTGTAACTTCCTGAGCTAATCTTTTTTGCATTATTCGCTTAAAAGGTTCTTTTGCATGATCTTCTTTAACTTTATTAATTTCATCTAAAGAAATTGTTGTTAAAAATTTAAATAACTTATCACAATCTTCATCATCTTGATTAATAAAAAATTGATAAAACTCATATTCACTTGTTTTATTTTTGTCTAATCAAATTGCTCCTGATTCTGTTTTACCAAACTTGACTCCATCTTTTTTTGTTAAAAGATTCATTGTAATTCCACAAGCTTTTGAGTTCTCTCTTCCAACTTTACTTGCAATATAGTCAGTTCCACTAGTTATATTACCTCATTGGTCAGAACCACCAATTTGCATTAAACAGTTATGATCTTGATACAATCTATAGAAATCATATCCTTGAAGCATTGTGTATGAAAATTCTGTTATGCTCAGTCCTTTTTCAATTCTTGATGAAATATTTTCTTTTGCTAATAAATATGCTAAGTTAAAATCTTTTCCGATTTCTCTTAAAAAATCTATTAAAGACATTTTCCCTAATCAATCATTATTATTAATTACATTAATATCTGGTATTAAAAAATTCAATTGTTGTTTAATACCTTCAACATTTTTACCAACTTGTTCTAAAGTCAATAGATTCCTCTCTTCACTTTTAAAACTTGGATCACCAATCATTCCAGTTCCCCCACCAAGTATAGCAATTGGTGCAAAACCAAAATCTTTAAATCTTTTAAGATTTATAATTTGAATCAAGTGGCCAACATGAAGTGAATCAGCTGTTGGATCAAATCCACAATATAAACCTGCACCTTGCTTTTGAGCGTTTAATATTTTTTCTTCATTTGTAAATTGCTTAAGCAAGTCTCTTTGTTTTAATTCTTCTAAAATGCTACGCATTGTTATTTCTCCTTATTAATATTTGTTTTTACTTTTTTTGAGTCTCCAACTTCATATACATCTTCACTCATACTAATTGATACATCTTTTACTTTTGAATAAACTTCATCTGCTTTATCAATAATATCAACTGTTATCATTGCTAAATCCTTTGCTATTATTTTTACATTATCAGATTTAACAATTTCTTGACCTATTTTAACTGTGGTCTGCCCTATTTTTTGTAGAGCTTTGAAAGCTAATTCTTTTGTTTTTGCTGCGTCTAATTCATCACTTGCATTTCTAATATTTGAAAGTTTCATTTCAATATTTGCAATGACTTCATCACTTTCATTTCCTTGAGATTTTTCCCAAGTTTCTTCTATTGTTGTTATTAATTTTTTAATTTGTGGTCTATATTTTTTTAAATAATCTACAAAATCAGATCTAATTTCTACACCTTTTTTAGGAGCTAACATCATTCCAAGAAAAACCCATGAGGCTAATTTTAATAACTTAAACATCTTAAACCTCCCAATTAATCTTCTGAATTCGCAAATTCTCTTAGTTTATCAACTAGTTTATAAACAACATCTTTATTTTTAGTTGCAACTTTAACTCATGATTTAACATTTCTTTTCGCAAAAGCATCAAATATATCGATATAATTTGTCACTCTTGCTACAGTATCAACTGTAGCATTTAGCATTTCTGATTTATAAGTTAAGTCTTCAAAAAAATAATCGACTTTCTTAGCTGCAATACCTACTTTTCTTAATGTAATTATTGTATATAAAGATAATATAATTGCTAAAACTAACAAAATAATTATCATAACTGTTTGAGTGGTTTCAACGCCTGTTGAGGCATAAATAAGTCCTAAGTTCATACATATTCTCCTAATATTAATAAAATTATACAATAGTAATAATGTATTTTCATACAAAATTAACTAATAAATAATATTTAAAAATGTCTTAATACTCTTCCTTATCCCATTTTATTTTTGCTTTATCAGATTAACTTTTTAGGTTTTTAACTATTTTAATAATAAAAAACATATTTTATTAAGTATAAAATATGTTTTTTAAATTATATAGAAATAAATTTATTTTTATTTATCTTTATCAATACCAAGTCTTTCTCTTCAATTTTCACTTGGTCTTTTATCATCTTGTTGTTTTTCCTTTTTAATTTGACTAGCTCATGTTTCTTTATTAGAGTTTCTTAATTCAACAAGTCTTCTTGCTCTCTCAGTTTCAGCATTATAAGCTTTATTATATATATATTTTCTTCTTTCTCCTAAAGATATGTTATTCTCTCTTAAAACTAATGTATTTATACCTTCTTGTACTTTATCAAATGCTTTTATATATTGCTCTTGAAGATCAACACTTTTTTCTAATTGTTCCATATCTTCTTTATCTATTAAACTGCGTATTCTTCTATTGGTTTTTGTTATTAATCTAGAGATTTTGACTTCTTCTTTTAAAAGTTTTTTTTCTATATTTTTTTGCTCTTTTTCAATATCTTTATATTCATTTGTAATATCTGAAATAGTTTTTTCAAGTTCCTTTTGCTGTTGATCTGTAAAAGGAAGATTTTTTTTCTTTCTTGGTTTAATTAAAGAAACTTCTTCATTACTAGAGTTAATAGTTTTTCTTTTTGGAACATAAAAATTATTAGAAGCTACTTGTGAATTTATTAAATCATTGCTTAATTTAATTTCTTCAAGCCTTTTCTTAGCTTTTTCACTTTCCAACTTTGATTCTTTTGTTAGATCTATGTTATTACTATTTTTTTGATCCATTTGAATGTCACCTTATTTCTTTTTATTTTGAAGTCTTCTAGGCTTAATAAGCTCTGGTTTTCTATTTGGTTTAGTATTTTCTTTTAAAAGTTTATCAAATTCTTTTAATTTCTCTTCAAAGAATTCTTCTTTCATCGATTCATTATAAAATATTTTAGAGTCAATTTCTTGAATTGTTTTTTCAACTTCATCTTCAATATTTTGAAACTTAATTTCTTTTAATTTTAATAGCTTTTGTTTTACCTCATCTTTAATAGAATTATTTTGCATTTGACTTTTTGAAACTGCTAAGAATATATTTCTCTTTGGTTCAACTTCTTTTTCCTTTGATACTTTGGAATTTGATTTTACTTTATTTTGTTTATTAAGCTCTTCTCTTTCATTTTGAACTCTTTGAGATAATCTTCTAACTCTTTCCAGTTCTGATTCAACTGGTTTCATTGAATTTTGTTCTAGAAATTCTTTTGCTCTTTGTGAATAACTTATTGTATTGTTTTTTATTTTTTCTACATCAGTGTAAAGATCTGCATCTACTCCCCCTGATTTTCTCAATTCTTCAATTTTTTGTAATTTAGCAATTACTGGATCAGTTTCTAAAATATGATTTTGTATACTTTGTGTATTTTTTCTAGCATTATCAATTATAGAACCAAGAACTCCTTCAGTTTTTTTTGGTTGATTATCAGCTTGTCCAATATTTTTTTTAATATTTTTTAGCTTTTCCTTAATTAAAACGTTTTCTGAATCTGAATTATCTTCTGCTTCCAAGTGTTTTTTATTTAATTGTCTTGTAATATCTTCTATAGATATTTTTTTTGCATTAGGATCATCAGTAAATATTGGATCCATATTTAACATTGGGTCATTATTATAAGTTCAATGATTAGGGTTTCTATCTTCATATTTTTCTTCAGAATTTTTAACTTTCTGAGTTTTCTTTCTTTTTCTTAAAAAGAATTTCATAAGTAACACCCCTTTTCATTTAAGCGAAAGCAACTAACTATATTTTATACTTTTTATTTTATTTGAAAAACTATTTTCTCTTCCAAATTTTGCTTGTTTTTTACCATTAATTAGAACTATATCACCTGTAAAACCTATTTTATTTTTTGTAATTGCATCTCCAACTCCATATATATCAACTGGTGTATTTTGTGATTCAAACATTTTAATTTTTTCTTCATTAAATCCTGAAGAAACTATTATTTTTACTTTATTGTGTCCATTTAAATCAAGTTTTTCTCTTAACATTTTAACTAGTGTTGGATTAACTCCATGTAATTCTTGACTATTTTCTTGCATATCTTGAAGTGATTTATCTACTAATGAAGGAGAAGTATCTAATCTTACTGCATAAATCTCATCTTTAAAGGCATTACATACCTTTATAGAGTCACTTATACAATCATTGTTATAATCAACTAATATAATTAAATTATTTTTTGGGAAAACTTCTTTATATGCTTTTGTTGCTTCTATTAAATCTCCATCAAATGAAGCAATTAATGCATGAGGCATTGTTCCATTTAAATTTGGCTCTTCTGCTAAAAATTCAAATGAAGCAGCAGTTACTAAGTTTTTAATTCCTCCAATTGCTGATGCATAACCATCTATTTGTTGATTTGTATAATAGTCCATTCTGTCATTCATATTTAGCACAGTTTTGCCATTTGCAGCTGATGCTATTTTTTTAGCATTTGTTGCAATTGTTGAAGCTCTTGATAATATACCATCAAAAAGTCCCTCAAAATGAGCAAAATCACTGTACTTTCCTGTTATTTTTAGTACTGGTTCTAAACTATTGACAATTTCACCCTCATCAACTGCTTCAACAAATAAATCTTTTATTTTTGATAATCTAAGAATTTCTTTAATTATTTCAATACCACAAATTACTGTTTGATCATTTCTTTGAAATCATTGCATTGTAACTAATTGATCTGGTTTAAATTTATTTAATATTTCTTTAGTTTTTTTAAAATAATCTGCAGAATAATAATCTTCAAAAATTCTCAGATCTATATTAAATCTATTTTTCATTTAGAACCTCTCATATTGATCTTCCAATATATGAATCATCAACATCTCATTCCATAATTCCAGTTTTATTATATTTTTCATCTCTAATTTCAAGTTCTTTTGCAGAACACAACATCCCAAAAGAATCAAAACCTTTTAATTTACCTTGATTAATTTGAGTTCCATCAGGCATTCATGAACCAAGTGTTGCTAATGTTGTAAATAAGTTTTTTCTAGCATTTGCAGCTCCACAAACTATTTGAATAGTTTCTTTTCCAGTATCTACTTTGCAAATAGATAAATGAGTGTCTGGTATTTTTTCACATTCTACAATTTTTGCAATTATAAATTGATTTTCAAATTTAAAATCACCTAAGTATTTTTTAATAAACGGTTCAGCTTTTTTTTGAACTCTTTTATCTTCTAAATTAAAATTATCATCTGATTCAAAATTAAAAATATTTAAACCTATAACTTCATTTTCATGAAATAGAATCTCATAATCTTGTTCTTTTTTTGTACTTATCACTTTTTTATTTTTAAATAAAACCACTATAGTATTGAAGTTTTTAACATATTTTAAAAATATTTTCATTTGAATTACCTTCATTTCTATTGGAATAACTTCAAAACAATTATATAATATAATAAATCTTTTATATAGAGGAGGAATTATGAAAATTGCAATATTAATTGACTCTTCTTGCGGAATTAAAGATACAAAAAAGTATAAAAATTTGTACCTTATTCCATTGATGATTACTAAAGAAGATGGCCAACAAATAGCTGATGATGAAAATTTGAGTTCTGATGAATTTTACCAATTAAATGATTCACAATTACTTAAAACATCACAGTCTATTCCTGGTAATGTTATGAGAAAATGAGATGACTTATTAAAGCAATACGATGAAGTTGTTTGTCTATTGCTTTCAAAAGGTCTTTCAGGACAATACAATACTTTTAAAATGTTTTCACAAGAAGGTGAATATAAAGATAAGATACACGTAGTTGATACTAATGGAGTGAGTATAGCTCTTAAACGCCAATTAGAATTAGTTATGAAATTAATTGAAGAAGGAAAAACGGGACAAGAAATAAAAGATATAGTTGAACAATATTACAATCAAATTGTGGGCTACATAATCCCAAAATCACTTGATCAATTAGTGCGTGGAGGAAGAATTAGTAAGGCTGCTGCTAGACTTGCAAAAATATTAAAAATAACTCCAATACTTAAATATAATGGAGAAATTGACAAGCAAGGAAAAACCAGAACATTTAAAAAAGCTGTTGAAGAAGCACTTAAATTATTAAAATCAAAATATCCAAAAAATAAAATTATTGATATATCGTATTCAAGAGCAGATGCTGAAACACTTGAAATTGTTAAAAAAGTTGTTGAAAAATTAGATTTAGAAATTGGTCTGTGAGATGAATTAGCAAATACAATTACTTGTCATACAGGTAGAGAAACATTTGCATTTATGCCATACCAAGTTTGAGGAGAAAAATTATGAAAATAGCTGTAATTACAGATTCATCAAGTGGTATAAAAAATATAAAGGATTATAGGGATTTATATTTGGTTCCATTGATGATTACTAAAGAAGATGGTCAGCAAATAGCTGACGATGAAAGTTTTGAAGCTGATGAATTTTATCAATTAAATGATTCTCAACTGTTAAAAACTTCTCAATCAGTTCCAGGAACAATGTTAAAAAAATGAGATGAATTATTAAAAAGTTATGATCATGTTATTTGTTTATTACTTTCAAAAGGTCTTTCAGGACAATACAATACTTTTAAAATGTTTTCACAAGAAGATGAGTATAAAGATAAAGTGCATGTAATTGATACAAATAGCGTAAGTATAGTTCTTAAACGTCAAATAGAGTTAATTATGAAGTTACTTGAAGAAAAGAAAACAGCTCAAGAAATAGTTGAAATAATTGAAAAAGATTACAATAAAGTTGTTGGATATATTATTCCAAAATCACTTGATCAATTAGTGCGTGGAGGAAGAATCAGCAAAGCTGCTGCAGGTCTTGCAAAAATATTAAAAATAACTCCAATACTTAAATATGATGGAGAAATTGACAAACAAGGAAAAACCAGAACATTTAAAAAAGCTGTTGAAGAAGCACTTAAATTATTAAAATCAAATTACCCGAAAAGTAACATAGTAGACATTTCTTATTCAAGAGTAGATGAAACAACTTTAAATCTTGTTAAAGAAATTGTGAAAGAATCAAATTATGAAATAGGCTTATTTGATGAAATGCCAAATACAATTACTTGTCACACAGGTAGAGAAACGTTTGCATTTATGCCTCATCAAATTTGAGAAGAAAAACTATGAAAATAGTTACAAATTCAGATATTAGTAGTAAAAAATATAAATAATATTAAAAATATAATATCTAGTTGCCCCTAATAATTGTTAAATACTAAGGTGAGTAAATAGATAATAATAAAAAATTAATTGTTGAGGAGTTTTATAAATTAAATTATTCTCATCAGTTAAAAATTTCTAAATCAATTATGGGATGGATAATAAAAAATCATTTAATCAATTAGTACGGAGTTGAACAATAAATAAAACTGAAGCAAGATTTGCAAAGTTTTAAAAACAACTCCAAAATATAATTGAGAAATTGAAAAACACAGGAAAGAAAAAATCTTTAAGAAGGCTATTAAAGAAGTATTGAGAGTGTTAAAAATATTTTGAAAAGTAGAATTTTATAGATATATCTTATTTTATAATTAAAGAAGAAATATATAAATAAAGTAAAAAGAATCGTAATCGCTTAAAATTTAGAAATGAAAATACTAAATATTTGTAAAATACAAGTAATAAGTATTTAAATTAGCGATATGAAAAAAATAAGGAGTTTTTTATATGAAAATAGGAATATTAGTAGATAGTTCTACAGGTTTTATTGAAAAAGAACACAATACAAATAATATAAAAGTTTTACCTTTACATTTAATAGTAGATGATAAAGATGATTACTTAGATACACCAGAAGAAATTAAAAATAATGATTTAATTACAATATTGGCAAGTGGTAAAAAAACTACTACAAGTCAAGCTTCGCCAGGAGAATTAATGAATAAATATGATGAAATGTTAAAAGAATTTGATCATATAATTCATATGACAATCCCTTCCAATCTTTCTGGTATGCATCAAACTGCAGTAATGATTGCAAATGACGAAGATTACAAAGGTAAAATTACAGTTATTGAAAACTTTTTAGCAGCAAATTGTGCTCAACTATTAGCACTAAAGTTTGATGAAATGATAAAAGAAGGAATTGAAGATCCTAAAAAATATCAAGAAGAATCTGATAAATGAACTGTTGGTTCATGAACAGCTATTATACCAAGTGATTTACAAAAAATGTCTAAAGGTGGACGAGCAAATTCATTATTAATAACAATGCTAAAAATGATTAAAGCAAAAGTTGCTATTCAGTGATTGGCTAAACCAAAAAAAATTGGTATGGGCAGAACATATGGATCAGTCTTAGACAAAATGATAGTAGCTTTAAAAAAAGAAATTACAGAAGATTTTGAATTACTATTAGTTTCATTACCAGAAGTAAAAAAAGCCCATATAGAACAAATAAAAAAATATTTGAAAGCTAATGATATTAAATTTAAGGAAAGCAAGATACCTACTGTTTATCCTTGGCATGCAGGAATTGATACAATAGGATTAATAGCTGTTAAAAAAACATTATTAGCAAAAAAATAAAAAACAAAAGCATTTAATTAAATGCTTTTTTATATGCTTAAATAAAAAATCTATACAACTTAATTTGTATAGATTTAAAATTTCTATTTGGCAAGGATAGCAGGACTTGAACCCACGACACTCGGATTTGGAGTCCGATGTTCTACCAACTGAACTATATCCCTATTTAAAAAATACCCATAAAGGGTATTTTATTTCTATTTGGCAGGGGTAGCAGGACTTGAACCCACGACACTCGGATTTGAAGTCCGATGTTCTACCAACTGAACTATACCCCTATAAAAATACTTTTTAATTATATCATTAAAAAGTATCATATATAAAAGATGCTTATTTTATTTACATTTTTTACAAATTCCATGTAGTTCCAATTTAAAATGTTCTAACTCCATATCCTTATCTTTTAAAATATTTGAAAATCTAAGAAATAATTCATTTGCTAAAGAAGGACTTTCTAAATCTTCTAAAGAACCACAATGATCACATGTAATATGCATTAATTGTGATGAAATAGCTTCATATATAATTTGTTTACCATTTATTGTATTTGCAAATAATAAATGCATTTCCAAAAATAAATCTATGTTATTATATATTGACATTACATTTACACTACCTAAATCTTTTTCTACCATTGAAATTAATTCATTAATGGTGAAATGTTTTTTTGTAGAGATTATTCTTAACATAGATAGTCTTACATCTGTAAGTTTTATTTTTTTGTTTTTAAATAATTCTAAATATTCATTCAATTTATTTTCCATAAATTATTTAGTTATTTTTTCAATAACTTCCAAAAGGTCACTTACTTTTTTCATAGATAATAAATCATCATCTGATATAGATATATTTAATTTTTCTTCTAAAGTAACTATCATATCCATTAAATCAAGTGAGTCTAATCCCATTGACTTAAATTCTGTATTTGTACTTATAGTACCTTTTGCTCCTTTATTTACAAGAGCCTTTTTTATTTCTTCAAAATAATTCACACTAATCACCTTTTATAATTATATATTAAATTAGCTTAAAATTTCAAGTATATATTTTATTAGGTTGTGGGAAAAAGTAAGGGGGTAATGATCCTAATAATTAATTTGGATTAACCAAATTTAGACCATATTCAAGTAAATATTTAAAAACTGCTTTTGAGTTTTTTATTTCACAAAGATATTAACATAAATAATTTTAAAAAACTAAATAAATTTCTTTTTTTACCGAAAAACGAAGTTTTTGGTAACAGGATAAGGAATACTATCACTTTTTTTGGAAAACCCTTTATTAAAGGGTTTTTTACCAAAAAAAATGCTAGCATTCGCAATTTTTGTGCTAGCATAAATACTAGCTCAAAAAGAACTTGGAGGCCAAGTTTGCAGTTTAATAGATTTTAAAAATTTAATGTATTAATTTTCTAATTAGTTCATTATATCCAGTTTTTTTATAATCTAAAATAGAAATTTTAACACTTTTTAAATTTCTTTTTTCTAAGTTATTAGACTTATTTGAAATAAATATTTTTTGATTATCATATATTTGATCTTCTAAATTTTCTTTAAACTTAAAATAAATTATTTCTAAAATATCAATATTATTAATTTTTGTTGCTTTTAAATTAATAAGTAACTCAAATGTTTTTTTATTATAAATTTTTGCTCCATAACCTTTAATAGATTTTACTAAGTGACTTACTGCAGATTCAGCAAAACATCCAATATATCAATCTTTAAAATGATTTTCAATTCCTTTAATATTATTTGAAATATATTTAATAGCTTCTTTAATTCTTTTATTTTTTAAACCTATTGAATCAACATTTTCATATAAAAAATTAATTAAAGATTTAATATTTTTAGAGTCATATTTTTCAATAGCTAATTCATATAGTTTCATTAATTTACTTTTATTTTTACTTCTTTTATAAGGAAAACAGAAATATATTTTTTGAAATAAATGAAATTTATCTAAAACAAATTCAGCTCCTAAAAAATTTGCAATTTCTAAAATTCAATTTGCTCCATCACCACAAATCACAAATTTTTTATTAGTTAAAGTTCCATAATTTTTTTCTATTTCTTGTTGTAATCAACATGAATAATCATAAGTATTACAGGAATTACCTTTTAAAAAAGTTTTTAAAAATACTTTTTTATTAATTAATTTATTTCTTTTGCCTTCCTTAATTTTTCCTTGATACGCAACAGCAACTCTAACTCTAATTCATCTTTTCTTGTTTTTAAATCTAACTGTTGTTCAACAATCATCTATGTCTACATAAACAGGCAAATCATTTTTAAATTCATCTTTAGTTAAGTCTAACTTTTTAAAATTAAATTCAGCATTACGTTTTAAAATATTTGATATTGTTCTTTTTGTTATATTTGATTTTTTAATCTTTTCTCAAACTATAATATGACTTTCACCATGGTTAAATGATTCAAGAATTTCTTTTTCTAAAGAAAATGATATTCTTTGATATTTTTCTATTTCCATATAAGGATCTGCCAAAAAACTACATTTACCATTATATTTATTTATAAATTTTGTTCTTTTATAAGTAACTTCTCCAAATTTAGTAATTATAGTTCTTTTGATATTTCTTTCTTTTATAATTCATCCTTTATTCACTCTTCACTTTGAATTTACAACTTCTTCATCTATTTTTTCCAAACTTAATTTAAAATCGTTTTTTAATTTTAAAAAATACTTTTCTTCTAAATTATTTAAAAGATTTATTTGATTTATAGAATTAAATTCACTAGCAAATATTTCATTCATAATAATTCCTTCCCTTTTTATACTCATTACTTTTTTATTTTATTATATTAAAATAAAAAAACACCAAATATTATGGTGTTTAATTAGTTTTTATTTTGATTAATTTTAAAAATTGATTTCTCCTTCTTGAACATCAATTTCTTTTTGTTCATTTGGAGAAGGTAAATTTACATCAATTGCTTCTTTTACTCATATTTGTTTAGCTTCTTTTGCTCAAGCAATTGTGTCTTGATTAATTTTTAAAAGATCTGAAAATAAAGTATTAGCTTTAATAATTTGCTTATCATACTCTTTTATTTCTTTATCTTTGTTTTTTTCTTTATCTAAAACATCAATTGTAATTTCTCCACTATTTGGAATAGCTACTTGAACAAATGGTGATTCTTTATTTTCAGATAAAGAAAATGTTTTACCTTCTTCTTTTGAAAATTCAATATTTTTAATTAACTTAGTTGAAAGTGTAATATATTTTTTTTCTTTATCATTATTTATAATTTCTAAAACAGCAAATTCATTTCCATTAGAATTTAAATAAGTTTTTTTAACAGCATTTCTATGTAAATAAACATTTGTAAATTTTTTATTAACTTCGCTCATTTTAATTTCCTCCTATTAAGCTTTAGTTTAAATTTTCCCCAGGGAAAATTAGATTGAAAAAACTCTAGTTGTACTAGATTCTTTTTAAAATAAAAAAAAGAGTTGAAAGGACAATTAAAGACAAAAAAAGATAGAATACTAGTACAACTAGTGCTCTATCAACCTTAATTAAATAATAACATAAATTTTACTTTATTCTTTTATTTTTTTTATTTTTCCTTCATCAAATAATAAAAACTATTAATCCTGTTAAAGGAATAATTAATGAAATTATTCATCATAAATTTTGCTTATTATATTTAGTTTTATCTTTCTTTTCTTCTTTCTTTTCAGGAATATTTGGTGGTTTTGGTCTATCAGGGGCAATTTCTTTACTTGTTGGATCATTAATAATTTTATAACTTGTAAAACCACTTAACTTAATTGATTCATCACTAGAATTAATAAATATTTCTAAGTTTTTTTGATTTTTTGAATTTAAAAAGTTATTTATTATTTCATCAAAATTATCTAATTCTTTAATATCTTTGCCATTTTGTGAATTAATTGAAATATAGTAATCCTTTTTATAATCATAATTTCAATTAACCTTATTTGGTTTGTAAATTTCAAGAATTTTTTCAACATATTCATAAATATAATTTTGAACAAATTTTTCTTTTTTTTCATTTGAAGTATCAGTAAAGTTATATTTAATTTCTTTTAAATTAGCTATTTTTGATAAATCTAATACCTTACTTTCTTCAAAATCTTTATTATTAATAATATTGAATTCTTTTTTTCCTGTTAATAGAGTTGAAGTATTTAATGATTTAATAAATAAATTAATTCTTTTAATTTTATTATTTTCATTTAAATCAACAAAATTATTAAAATCTAGATTTTCTATTTGATTTTCAGTTGAATCACAAATTATATAATCAGTTTTATAAATTGCTTTATCACTAAATTTTTGCATATATTTTTTAACATGCTCAATAATTTTATTCTTAACTTCAATAGGATTTATTTCATTCATTTTTAAGTTACTAATATTCAAATTATTTAAGTCTTTAAAACTTACAGGAATTTGGGGAACATCAACTTTTTGAGAAATTTGATCACTTACATATTTTTTTCAATACATAATTACTTGTTCATAAGTTAACTGCTCTATTTTTTGACTAGTATTAATTGTTGTATAAGCTATTAAATAATTTTTTAAATGAACTCCTTGCAATGAATCTCAAAACTTAGATATGTTTTGATCTTTAGCAATAAAATCTAAACTAGAAAATTTTGTATAATCTTTAGTTTTATTAGATATGTAAAGCAGTTTATGAATCGTACTTCCCTTTGTAGCTAAAACTTTTTCATTACCTGGATTAGAAGGATCTATTTCTTTTTCAACATAATCTTTTAAATAAATTACATAATGTCATAAGCCTTCTTTTGATCATTGTTCATTTAAATTTAAACTTATTTTTTCTTCTTTTTCAATTATTTCAAGTTTTTCATTTAATTTTAATCTATCAACTTGATAAACTTTTGACATATCAAATTTATCAAGAAGTGTAACTCCACTATTTGCAACACTTGCTTCAGCAATAATTCCTTTATTTATATCTTTAAAATCTTTTATTCTATTTCCGTATTTATCAAGTGGATCTTGATAGAAAGGAAACTTCATATTTCTTTCAAGAAAAATATATTCATTTCTCATTCCTGTTTTAGGATTAATTGAAGGATCATAATCAGGATTAGGTTTTCCATCTCCTAAAGTTTTTTCAATTAATTTACTTTGCTCTAAATTTTCTTTTGGATTTCATCCAAGTCATCGATAATTTAATTGATTTGAAAGTGATTGAATATTAATATTTAAACTTAACTTTGTAATTCTTCCAACATTTTTAATACCATTTACTTCAATTTTATAAGTATCTACACTATCATCTAACTTAATTCTATAAATATTGTTAAATACAGGTACTTCTTTACCATTAACTGTCATTATTTCAGATTCACTAATTGCAGAAAATGTAACATCAACTGAATTATGATAAATTAAAGTATTATTTTTTGGATCATATTCAGGTTTATCAATAACCAATTCATTATTATCTGTATTTGGACTTACAATTTTTCCTGGAACAACTTGTAATCTTTTTTGAGCACTTCTTTGATAATATAAATCTGTTAATTTTACATTAATTGGCATAATTACATTAGTTAAAAATTGATTATTTCCTGATATTTGTTGTTCATCTTTAAAAGTTATTGAAACATAACTTTTCTCATCATTAAAAGTATCATTTCTTTTTAAAATTGGTTTGTTAAATCATGCAGAGTAATCTATTCCAAATGCTAATTTTAATCTTTTTTCAATTTCATCAATTATTAACTGTTTATTAGATTTTTTAAAGTTATCAACACTACCGTTTTTTTCTACTGATGAAATATTAGGAGAAGTATCACTTGCAATGGTAAATGAGTTTTCTAAACTTTTTTTAATTTTATTTTTTAAATTACTTTGATTAAAGCTGGATTTAAAATTTATTCATTCATGATCAACTACTATTAAACTTGCATGGTTTACAGTTGAACCCCCTTTTCAATAAACAGCTGCACTTAATTTTCACTTTAAAGTTAAATCATTTCCGTTTCAAACTCATCCAAAATCCATATTAGCATGAGCTTTATTTGTTTCATTGTGATAAGCTGTTAAATTAATTCATTGATTAGAAGTATTTAATGTATAATTTTTATTTACTCTTAAAGTTGCATTTATATCTTTAGCTTTACTGTCACTTCAACCAGTTGAAGAATCTCATGTATTGTAATTGTAATAAAAATCTACCTCAATATTTTTATAGTTATCTAAAAAAATCTGTTTATTAGGTGCATATTGTAATATATTAATTGTTTTAAGATTTCACTCAAAATTGTATCAACTTGCATTACCTACTTTTGAATAAGTTCTGTCATCAGAACCTCGATAGTAAGGCAAAGAACTATCTCTACTACTATCAATATAAAGTCTTTTAAGACTATTGTAAAAATCACCATAAAAATTAAAACTTGGATATGTTGGATTATAGTTATAATTTGAAACTAATTTATCTGTATTACTTTCTAAATTAGCTATCTGATTATTTTCAAGAAAAATTGGTTTTGTTGGAACATAAACTAAATTTAAACATATTATTAAACTTAATATTAATTTTTTCATACTTTTTTCCTTTCTATTTTCCCTGGGGAAAAATTAATAATGATAAATAAAAAAACTAGCTGCTGCTAGTTTTCAAAATATTAATTTAAACAAAAAAATAGAGTCCTAGTGCTGCTAGTGCTCTATTTACCTTACAAATATAATAACATAATTTTAGATAAAAAAATTTCTATTTATTTACTATATTTTGCAACTAGCTTATATTTTATAATAATTTATAGTTATAAATTATTAATATTTATAAAATCGATATCTTTTGAAACAAATTCAATAAAAGGATCGTTAGTTTTTAGAATATTTTCACAAAAAGTTTTATTATTATTAAAATTAAATTTTTTTAGTTCAATAAGAAAATAAAAATATTTTGTATATCAAATATTTTTATAAACTTTTTGCTTCTCTAAAAAAGATTCAAAAAAATTTTCAAGTATCAAAAGATTTTGCTCTGATATCTGATTATATTCAATACTTAGATAATTTGTACAAATAGCTAATGAAAAAATATTAATTTTCATTTTAGTTTTTACAAACATTTCTATCAATTGATTTGGATTTTGTTTTAACTTTATTAAAATTGAATAAAGATATATTGAAGATATATCATCATAATTTTCAACGCTTAAAATTAAATTTTCTATTTTTGATTGATAATAACTAACAACATTATTATCAGTATTATTTTTAATTAAAAAATAAAGAATTTCATATAATACACTTGATAAATTTGACTTTAAAATTAATAAATTAACAAAATACGAGAATAAACACTCTACAACTTCTTGATCTATTTTTATTTCTTTTTCATTTAATTCTTTAATATAATTTTTAAACCTAATAACACAATATTTTATTTTTTGATTTTCAAGAGAATTTAATGAGCTTATAAGTTCAAAAGCTAAATTTAAATTTAAGTACTTATTTTTAATTTTATCTAAAATTAAATTAAAAAAAGTAGTTTGTGTATCAAAATCATCATAAAAATTTAATATTTTCGTTTTTTGATCATTAATTCTAAGATTTATTTTACTAATTATTTCTTTAAATTTACTTTTTATTAATTTTAGTTCATTTTCATTATTGCTATAAAATTCAAAATCATCTTTATAATGTAAAAAAGAAATTTCATTTTCATGTTTTAATTCATTAGATATAAATGCCAAAAGTAGTTCAGAGAAAATATTAGACGAATAAGGACCAGTTATTAATTTATCAGTTTGATTTTCATTTTGAATTTGCACAATTGATTCTAAAGAACTTGTAAAAGAATTTAATCTTGATTCTTTTATTTTTAAATTTTCTTTTAAAAAATTTAAAAAAGCTGGTTGACCAAATATATGAGTATATACACTATTATAAAACTCTTTAATATCTAGTTTTAAAATTTTTAAAACTCCAATCATTTTATTATATTTCAATAATTTATTTTTATTAAAAGTATTTTTAATTTTATTATTATCAATATATGTCTTTCTATCTTCTTCATTTTCAATAATATCAAAAGAAATATCATAAGAATCTTGCAAGTATTCAATTTTTGAAATTTTACCCATTTCTATAACTTTTTGTAAATTTTCTTTATTACTACTTATTATTTTAAATATTTCCTCTTTATACTCTAAAAGAAATATAATTGAAATAAAAAAACTCAGAAAATTTGGTATTGATATTTTTCTTTCTTCTCCATTGTTTTTACTTATATAAAATACAGTAGGTTCAGTTCCTTTAGGTATTTTTCCTCCTATATATTCATTTTTCTTTTTTAAAAAATTTAAAAAACCTGAGCAATTTTTGTCATTTTTTAACTTAGAGTAATTTTCATCATTTGAATTTATAAAAAAATTTATAGTTTTTATAAATAATTCCTTATTATTTTTTTTAAAAAAACAAGGAGGAAGTTCTCTAAAAAAACCTGACTCAAAAAAAACATCTAATTCTTTTTCATTTATTTCATCGTTTTCAACTTGCTTAAGAATTTTTTTTATATCCATTTTATGCTTTATCTCCTTATATATAAAGTTTTAAAAAATTAAAAATAAATATTGATTTATTATTATAAATAATAAAAATAATTTATAATAATAAAATGTAATTTCTTTAATAAATTTTGTAAAAAAATATTATTCATTACATTTTTATGTACTACTATTAGTTTTTTTATTAGTTCCACCCTTAGATTTAACTTTAGTCATCCTTTTTCTTCTTTTTCCTTTAAAGTCTTATTTAATTTTTTATAGTGTTTTCTTTCTTCTATTTCAGCCTTTTTTCCTAAACCTAAAATTCAAGATATAATATTCAAAATTCCCATTTTTTACCTTCCTTTTAATAATTATATAAAAAAGATATGTTTATTTTCAATATCTTTTAGTTATTTTTTTATTCTTTTTATCAATTAATTTATTAATATATATCTTTTTTATTTTGTTTATTAAGTTCTTTAATAAATTGATTTTCATATTTAGCTTGTATTTTATTAGCTTTTTTGTATTACCAATTGAAATAAAGTGATTAACTTATAATAATAGAAACTCCTAAATTTTCAAGTTATATCATATAATTTTTCACAACTGTAACATAATATAGAATACATGACATAAATTCATATGTATAATTTTTTACTATATTTATTATGTTTCCCCTAGCTTCTTTTGGTAAATATATTAGTCTAGTATGATGCGTTATTTGATTTCTAATATTTTTTAAATAATTCTTATAAAAACCTATATTATCAATTGTTTCAATAAATTCAGAATTTCTAAAGTAGATTTTTCTTAAATAATCTTCAATTTCACTGTCTAATTCTAATTTTAAATAACTACTATTATAATTTGAGTTAGATGTTTTTCTGAGTGTTTCTAAAACATCTAGTCTATTTATTATGCTTAAAATAACCATTTCTATTTCATTTCGATTAAATTCTAGATATGAAACATCAATATTATTAATAAGTTCTAGTTTTACACAAATTCAATTATTAAAAGAGAAAGTATCATTTTTAATATCATTATCCAATAATTCAGAATTTCAAATTTTTAAAGTTAAAAGATTGATAATATTTTTTAAAAAAAGACTAATTTCAAAAAAATTATGGATATTTATACCATTATTTCTAAGAAAGTTATCAAATTTAATTAAAATATCATTATAAATGGATGACTCATTTTTTATTAAAAATTCCTTATAATTTTTGAGTATTAATTCTATTGTTTCTTTATTTTCAATATACATATTATTTTAACTTTTTTCTAAATTATTTATTTAGAAGTTCATTTCTGACCTTTCATAGATCTATATTTTTGTGTAAAGTCTTTTTTACCTTTTTCAATATTGCAACTATAATGAACTGCAACTCAATTTGATGTAACCCCATTTGATTTATTTCCATCTAAATGATCTACATTTCAACCATTATTAGGATTTGAATCTGAATTTCATTTAGTACCATGATTCATATTTTTTTGACATAAATAACACATTCTATATTGCTTTGAGTTTAAATTCTCTCATTCAATAGCATTTTCTCAAGCATAATAAAATTTATTCATATTTTTTACCTTTGTCTTTCTCTATTATTACTATTTTTTAAATCCCTAATTTGTTTTTCTAATTCTAGTATTCTTTTTTCTTTTTCAAGCATTTCAATTTTATCTATTTCAGATTTTTTTTGATTTAACATTTCTTGATCGATTTCTTCTGCTATTTTTAAAATTTCATCATCTGTTTTCTTTCTCTTTATTTTTACTTTTCATTTTTCAATAAGATAATATTTTCCTGAATCACCTTTATATTGAGGTTTTTTTGCTTCAGAAACTAAATCATCAATATATTTATATGCTATTTTTTCTATATATGTACTACCAGAAAATACATATTTTTTTGGAAAACTATTTACTAAATCTGAAATATATAAATCCAATCTAAAACTTTCAAAACCTGGTAACTCTTTTACAAATTTTTCAAGTTTAGAAACTAATTTATTTCTTGTATTCTCATAATCCTCTCTTTGATTTTTTGAATATTGTCTTTGTTCTGCAGGAGGAACTCCAAGCAATCAACCTAGTGCTTTAAATACTGACATATTAAATTTCCTTTCTATAATACTTTAATTTTATTATACTAAAAAAAGCATTTTTTTAAATAAAAATGCTTTTTGACTATTCATTATTAATTTTAGATTTTTTTTCTAATTTAGAATTAATTTTTTCTAATTTAAAATTAAATTTATTTTGTCTTTTTTCTAAAATATTAACTTTTTTGGTTGGTTTTGAAATTTGTTTAGCATATTTATTTTCAAGTTCTAATGCCTTTTTAGCAATAAGTGGATTTTTACTGTTTTTTAAATTAGATACTAGATTCTCATGCTTTTTAAAGTTAGAGTTTTCAATTTTTTCTACATTTTTTTTAAGAGTATTTTTAAGTAAACCTGAATAAGTACTATTTACTTTATTTCTTTTTACAACAAATCTATTAATAGTATTTGCTCCTGCAATTACACCAAAATTAGTTGCTACACCTTTAACAACGTTTTTACTAGTTTCTCTCATACTTGCTCAACCTTTTCTTGAAAACAAACCTCCAGCAAATGCAACACCACTTGTTGCACCTCTTGCAACTCTTCCAATAACACTTGGAAAGCCCTTCATTTTTTGACTTATATTTTGAGCAGCTGCAAGATTTTGTTTACCCCCAGCAATTGAACCATCTGGGTCCGAAGCAGAAAAGTTTTGTACTTTATCAGCAGCTCTATTTAATGCATTAGTTGCACCATTTGAACCTTTAGATTTAAATAAAGCCATCATTCCAGCTCCTCCAGCAGCTCATCCAAGTGCTTTCATTCCAGCACCAAATATACCTTTACCGTGTTTTGCACTTAATAAAGCATTCTGACCTTCACTGTGTGTTACACCTTCTCCACCAGTAAAACTAGCTATAATTTGAGGAGCAACAAGTGCAAATGTTGACACACCAAGAATTACAACAATTAGTAAAAACATTTTTGTTGAAAATTCAAATTTATTAATTGATTTTGAAATAAATAGCATTAAGAAATTAATCATTACTATGTAACTTAAAATATTTCCTATACTTACGAATGCTTTTGCAATAACCATGTCTTTTCATTGTTTCATTCTTATACCATGATCATTTACCATTCATGCTGCAACAAGTGGTCCAATTAAAAATAATAAAAATAATTCAATACTTTTTTGAACAATTGCCATACATAACATTATTAAAGTATAAAGTAAAAACGCAACTGCTAATATTTCTACAACTATATTATAATTTTTAATATTTCCAGGAACCGAGTAATCACTAGGAATGTTTCCAAAATCGCCTTTCCAATCAGGGTCACCCATTTTATATAACAAATCTGCTAAATTTGCATTTTTTAAACCAAAAGCTAATTGAAAAGCTTTTTGTAAAAATTCGATTAAAAAAGTTAATCCATAAAAGCCAATTGGTATAAAAAATACAAAAACTATTGCAAGTCCAGTTGATTTTAAAGATTTTACAATTCTGGTTTTTCAGTCCAAATCTTCATTAAAAGTATAAGTCATGTACTGAATTGTAAAAATTAAAACAGCTACAAAACCACCAATAATACAAAATGCTCAAAAGCTTTGTGGTATATTTTCAATTCTAAAGTCTTTTTGACCATTAAAAAGTACATCATAAATAATTCCAGTTGTTAAATACTCAAATACTCCTTGAACTACAGAAATTAACTGTAAAGGACCTTGAATAAAAACAAATCAAATAACTTTAAGAATTACTTCTCAAATAGCTTCTCCTATAAATCCCATATCTTTAACTCCTATCTTTTAATTTTTTAAAAATATTGCAGAAAATACTCCTGCTGCAATAGTTGCAGAAAATACAAGTGCAGCCCCAATTGAAGCTCAAATTATGTCTCTAATTGCAGCACTTCTCCCTTCAACATCTCCATCGCTTGATGCTTTAGCAATTCTAAAACCTATTTTTACTAAAACAAATACTAAAAATAAACTGATTAAACTACAAACTGCTGTAACTGCAGCAAGTCCATAACCTCAAATATAATCTGTAATAGGCTTAAAATCTGGTACATCTGCAAGAAATACTATATTTAATTTTGCAATAAAATTTTTCATATGTTTTCTTCCTTCCTAAATTACATTTCATATTCAATTTCATCTTTATTTAATTCTGATAATAATTCTCTTTCGATTACATCTTCAATTGCTAGTTCTAAACTTGAATAATCTTTAAGCAAAGTTCCAGAATTATTTTTAGAATTAAGCACTTCTAAATCATCTATTTCGTTTTCATTTAAATTTTGATTATTTATTAATTCATCTCTTATATGTTCAGCTATTTTTTCAATAACTTCATGATGTGTTAAACTATTTAAAATTAATTCTTTTAATTCCATGTTTTTTTCCTTCCTATTTTCCCTGGGGAAAATTTAATAATGATAAATAAAAAAAACTAGCAGCTGCTAGTTTTCAAAATATTAATTTAAACAAAAAAATAGAGTCCTAGCGTTGCCAGTGCTCTATTTACCTTAATTTAAGTATAACATAAATTTTAAAATTCAAAGTCAATTTCATTATCTTTTAAAACTTTTTGAAGTGTATTTATTTTTTTTTCTTGTTCTTTGAACTTGTTTTCTTGTTCTTTGAACTTGTTTTCCTGTTCTAATAAAATTTCATTTATTTTTTCTTCTCAAATTTTATTATTTTTTTCAATTTCTACACTACATTTTGACATATCTAGTTTAAACTCCTTAATACAATTTCCAATATCTTTATTATACTTAATTTTTTGTTTATTTGTTAAATTTAGATCATTCAAAAATTGTTTAACTTCTTTAGGAGAATTACCATCATAAGAAATACCAACAATAATTTCATTATCTTTATTTTCAACTGTAATAATAATTCTTTTCATTTTGTTCTCCTTTCTTAGAAAATGAGTAAATAAAAAACTAGCAGCTGCTAGTAAACAAAAAAATAGAGTCCTAGCGCTGCTAGTGCTCTATTTACCTTAATTAAAGTATAACATAGATTTTAAAATGACGGCTCTTGGTTTTTATCATTTAAATTTCTAATTTCTAATTTAAGAATTTTAATTTCCTTATTTTTATCTTCTAATTCTTTTTTTAAGGAAATATTATCTTTATTTAATTCTATATAATTAGCTTTTAATTCTTTTAACATCAATTTATCTTTTACTCTTTGTTCTTCTATTGCTTTTAAATAATCTATTTCTTTATCTAAAACTTCTCTATTAAACTTTGATTTTTCAGTAAAATCATTAATATTTTTTAATTGAGAAATAATAATTGAATCATTATTTTCTAGATTCTTTTCAATTTTATTAATAATTTCTTGATGATCTCGAATTAAAGAGGTATTTTTATTCTCTCCAATTTGATTTTTAATATCTAAAGTATCACTTTTAATTTCATCTGTATTCTTTACTTTTGGTCTTTTCACACTTACTCCAATTATTACACCAATTAAAGTTATTATAGCTGTTACTATGGCTCCACAAAAACCTCATAATTCTCCTGACATATGTTCGTCTCCCTTCGTTGTTATTACTCTATATATTAGAATTATAACACTTACTATAAAGGGAATAAAAAATCATGTGTACATCCAAATATTAAGAAATTTATCAACATTAAATTTATATTTTTTCATTTTGTTCTCCTTTCTTAGAAAATGAGTAAATAAAAAACTAGCAGTTACTAGTAAACAAAAAAATAGAGTCCTAGCCCTGCTAGTGCTCTATTTACCTTATAAATATAATAACATTATTTATTTACTTTAATAAAAAAATTTAGCCATTTAAATATCTATTTATCAAACTCTTTTTCCAATTTATCTAAAGTTTCATTTATATTACTCATAAAATCACTAATTTCTTTATCAGATCAATTTGCACTATATTTTTTAAACTTTTCTAAATCATCTTTATTTGCTAAATTTAGTCTTCCTTCCTCACTTTCTACATAAATGCAAACTTTTAAACCATCTAATTTTTCAAATCTCTCCATTATATTTCCCTCCTTTTTAAACTTTATTTTTAATAAACTTAATTAAATTTTAACATAACGTAATTTACTCAAATTCTTTTTCTTTAATATTCTTATTGTTTTTATCTTTATAAATATCATTCATTTCTTTTATTTCTTTTAATTTATTTTTTAATTTTTTAATATATTCATTTTTATCTTCTCTTTCTAATTTATATAAATTTAATTGCTTTTTATATACATCAACTTCTATTTTTAATTTTTCTTTCTCATCTGAAACTTCAAAATAAAGTTTTTGTAAATTTTTATCTTTATTATCTAAAAAACTTTTACTATTTAATAAATTAATTTTTTCAATTGTTTCTTTTGCTTTTTTAGTAAAAAAAATTAATTGTTTTGAAATTGATAATATATCATTATTTAACTTTTTTTGAGTTTCTTCCATTAAATTATTTCTCAATATTACTTTTTTAATATTAAAATGTTTATCTTTATTACTTTTACTAAATTGTTTCTCTCTTTCTCATAATTTTTGTTCATTTAAAGTTAATTTATAAATTTTTTTATTCTTAATTATTTTTATAAATAAAGATTTTTCTTTACATTCAAATAAATATTTATTTGATATTTTTTTAATCTTATTTATGTCTTTAATAGCAATAGTTCCTACTTTTTCTCTTAATCTTTTTTTATGAAGAATATAAATATCATCAATTAATAAATTATGAGTATTAACTAAAACACCATTTTTATAAAGTTTATTAATACTTTTAATTTTTACAGATTTTGTTTTTATATACTTATTACTCAAAATGCCAACAATAAATCAATTATTGTCAATATTGTCAATTTTAATTACTTTTCTAATTTTTAAATCACCTTGTTTATAATTACCTTTTTCATCATTTTTTATATGAAAATCATCTGGAAATATTGATTTCATGTTATAAATATTCATATTTTAGTTCCCTTCCATTTTTAAAATGTAATAATAAAAAACTAGCAGCTGCTAGTTATCAAAATATTAATTTAAACAAAAAAATAGAGTCCTAGCGCTGCTAGTGCTCTATTTACCTTAATTTAAGTATAACATTAAAATTAAAAAAAGAAGTAATAAAATACTTCTACTCGTTTATATTTCAATAAACTAATCTGTAAACCAACTTGTACTATCAGTACTACTTGCACTTTTATAATATCATTAATTTTTAATATTAGTTTATTTTATTTAGCTGTTCATCAATTTTATTTGCAAATTTAGTATATTTATTTATTTTTGAAGACATTATTGGATTTTTTAAGTATTCTCAAGCTTCTTTTTCTTTTTCATATTTATTTGGTTCAAATTTAGGATCTTGAGTTAAATAATTTCATCACTCAGTTTGAATTTTTGTAAATTTTTTAATATTTATATATAAATTTGAAGTTTTTCTAGATAATTCTAAAAGTTTTATTTTATCATTAACAACTAAAATATTATTTAATAAATTATCTTCTTTATCGTAATCAATATCAATTTTATTTTCATATAAATATAAATAAAAATCAGTTTCTTGATAAATAACAAGATATCATGAATATAAAACTTCTAAAGTTAATCTCAATTTTTTATAAGATTGTTTAGCTTCTCCAGATGAATTTTTTTCTCATTGACTAAACTCTTCAACTCCTTTTTTTGTTTTATCTCTTTCTTTTGAGTACAAACTGCTAATATAATTTCAATCTTGTTTTGTTTTTGCAATAACATCTAATTTTTCCTTTGGAGTTTTTAGTATATTTACAATATTGTATGGATTTTTATCATCTTTTTTATCAATACCAGGTAAACTTCCTGATAAAACCCATCCACAACTTGCAATATTTGAACTAGTACTAACTATTAAACTACTTGCTCCTAAAAACAATAATAACTTTTTCATTTTTCTTTTTCCTTTCTAATTTAAGAATTCTAATAAATTTTGAAACGAATTTAAAGTAACACCATAAATTCCTTTTTCTGATGCTTCAAAATTAATATAATCTGCTAATAATAAAAATTTATTATACATTCCATTATTTTTATCTAAATTTTGTTTACTTAATTTAAAAAATTCTACTCAATTAAAATTCATTTTTTTATTTTCTTTTGAATCAAAAAATTGAAGGTCAAGTTTATAAAAATACTTATTTTTTATAGAAAACCTATACTCATATTTATTATTAGTTAACATTTTAAAAATAAATCAACCTTTGCTAGTTTCAATAATAAGATCTCAAATCAAGAAATTATTGTTATCTTCACCAAAATAAAATTTATTACTCTCTTCTGAAGACTGAAATATTATTTTAGCATCAGTAAGTTTTTTACTAATCATATTAAATACTTCATTTATTCATTTTCTTTTCTTTTTATTCATTTGTTTATTTTCTTTATTTTTTTGTTTTAAATTTAAATCTAAATTTTCTTTTTTTAAAAATTTTTTTAGTCTACTATACTCAGCAAAGTCAATTATTACTTGTAAAAGAATATATTTAGTTTTTTCATTACATATTACTCTAAAAGATATAACTTTTAATTTATTATTATCACCTTGTCATTTAAAAGGTTCTAAAGTTTTATAATCTTTATTGCTTATTAATTCAAGAGCATAAAACTGCTCTCCATATAAATTTGTTAATTCTTTAATTGTCATTTTTATTCCTTCTTTCTATTTTCCCCAGGGAAAATTTAATAATGATAAATAAAAAAACTAGCAGCTACTAGCAAACAAAATATTAATTTAAACAAAAAAATAGAGTCCTAGCGCTGCTAGTGCTCTATTTACCTTAAATTAAGTATAACATTAAAAATAAAAAGAAGTAATAAAATACTTCTCTATTTGTTTATATTTCAATAAACTAATCTGTAAATCTATTTATACTACTTTCACTTTTATAATATCATTAATTTTGATATTAATTAATATTATTTACACGTTCCTCAATTTTTTTGTCAAATTTTTCATATTTATCTCTTTTTGGTCACATGATTTTATATTTTAAATACTCTCATGATTCTTTTTCTTTTTCATATTTATTTGGCTCAAATTTAGGATCTCTACTTAAATAATTATCTCATCAATTTTCTTGAGCAATACAAAAGTCTCAAACGTCATGGTATAAAAGTAAAGTTTTTTTTGAAATTTTTAGAAGTGTTATTTTATCATTAACAACTAAAATATTATTTAATAAATTATCTTCTTTATCGTAATCAATATCAATTTTATTTTCATATAAATATAAATAAAAATCAGCTTCTTCAGAAATAACACGATATCATGAATATAAAACTTCTAAAGTTATTCTTTCTTTTTCATAATTTTTTTTAACTTCTCCTGATGAATTTTCTTCTAATTGTTTCAACTCTTCAACTTTTACTTTTGTTTTATCTCTTTCTTTTGAGTACAAACTGCTAATATAATTTCAATCTTGTTTTGTTTTTGCAATAACATCTAATTTTTCCTTTGGAGTTTTTAGTATATTTACAATATTGTATGGATTTTTATCATCTTTTTTATCAATACCAGGTAAACTTCCTGATAAATCTTGTCCACAACTTGTAATATTTGAACTAGCACTAACTATTAAACTACTTGCTCCTAAAAACGATAATAATTTTTTCATAATTAATTCCTTTCTTTTTTTCTTTTATATTTTAATTTTAATCTAAGTTTTCTTTTTTTAAAAATTTTTTTAGTCAAGAACATAAAACTGCTCTCCATATAAATCTGTTAATTCTTTAATTATTATTTTTCTTCCTTCTTTCTTTATTTAGTTTTTTTGCTTAATTTTAAGCTATGTTTTTTTAATTTATTATCAATATCTTTATTTATTTTTTCAATTGTTTTATTTAAATCTTCTTCTAATTCTTTTTGCAAGACAAAACTTTCCTTACCAATTGAAGCAAAATCTTTAATTATTTCAGTTTTTTGTAAATATGCAAATTCTGAATCTAAATTATTTTTTTGTTTTCTAACTCATGGAGCATCACTTAATTGCTGTTTGTGAGGTTCTGTAAAGGCGTTATCTTTTATAATTCCTGATTCAAATAATTGACTTAATAAATAGTTACTTTTCAATTCATCTATTTTTAAAAATTTTATTAAATTTAAAGTTATTAGATCTTGTCTTGCAAAAACTCTTTTCAAAATAAGATTTATATTTTTTTCTAATAAATTTTGAATTACATCTTCTAAATAATCTATCTTATTACTTAATAAATCTTGATTTATTGAATTTATAAGTAAATTCTCTAATGTTTTATTTTTACTAATATCTAATTCACTTGAATTATATTTGCCTTCTCACTCTGAAAAAATATCTAAATTTTTTTTATTAGTGATTCTGATATTAACTTGTTTTTGTTTATGATTTGACATTTAAACTCACCTCGTTATTAAAAGCTCTAAATTGTTCTGGAGTTACTTTTACAGAAATTGTGTGTCTATCAAATCCTGTTACCATTAATAACCCTTCACCTTGTTTTGCATATGCTATAAAATTAAGTTCTTCTTCACTTAAACCATCACCATAATTACTATAGAGTTGTGCAATATCTTGAATATTTTTTGATAATAAATTCATTAAAACTGAATATTGTACGTTGTTTAACATAGCCATAGTTTTTTTTCTAACATCTTCACTTCCTAAAAAATCATCTGGATTTTGAGTAATTAAAGTCATTGATCCTTTTCTTTTTCTAATTCTTTTAACCATTTGAAAAATAAAATTTAAAGCTATTGGTTTGTCTTTATCTACTAGTAAATGTGCTTCATCTATTAAAACAAAGCTTTCTTTTTTTGCATTAATAAAATTTGTATTTACTTCATTTCCAATAAATGCAGTAATCAAATAAAGTTGAGCTTGAATAATATTTTGTTGTCCTTTTTCAAATAAAGTATTTATATCAAAAACTATAAATGGATTATCATTTTTAATTAAAGTTGAATAACCATTATATAAAGTAGCATATTGACCATAATTTTCAAATTCTGATTTTAATAAAGATAATAATTTCTCTTGAACATCACTATTTTCTTTAACAACTTTAGTTTTATTAATAAATTTAATTAAATCACTCATTGTAGGATATTGTTCACTTTTTAAATTAACTATATCTTCAAAATCCCCTAATCAAGTTTCATATAGTTCTGCACAATTAGAGCTAAAACCTCTAATTATGTCTTTATTTAAATCACTAAATAATATTTCAAATCAACCAGTTAAAAATGCAACATGATTAGAAATAATTGTTTTATTACTTGGTTTTATTTCATCATCTAAAGTAGTAAAAATTTGTAATGGATTAATTCTTCCTGAAGTTGCATTTCCTACATCAACTCAATTTCCACTATGATAATTGCAAAGTGATCTATATTCTCTTTCAGGATCAACAACAATAACTTTTCTTCCAACTGAAGCATGATAATTTAATAGTAATTTTGCTAATGTTGTTTTTCCACTTCCAGTTGTTCCCATAATAACCATATTATGATTTTTTCTATCTCCTGTTAACTTAAATTGATCTAAAATAACTGGATCACCTAACATATTTTCTCCAATTCTAAATCCATTAGAATCATTTAATTCACTTGTCAAATATGGAAAACCTTCGGCTAATGTTATTGAAGGAACTTCTCTTGAAAAAGCTAAACTTAATGGATCTGTTGGTTTTAACATTATAGAAGATAATCCTTCAAATTGTCTATAAGCTAAGTGATCCAAGATAAATCCTGATTCTTTAAAAGAATCACTAAGGCTTTTAAATTTGTTTTCTAAATCAGTTTTATTAATTCCATAATTTAATACAAATACATTCATAGATTTAATAATTTCATTTCCAAAACCTATTGAATCTGCAACTTCATTATATATTTCTAACTCTTGTTGCATTTCTCTTGCTCCAACTAATTCTTTTTTTGATAATGTATACATGTTACTTTGTAAATTTAAAATTGTAGATTGTAATTTTTTAACAACTTTTTGTTTATTTAAATTTCCAATATTAATAACTACACTAGAATCATTTGTCATTAAAGGTAACATTCAACAGCGTTCAGGAAATTTGGGAAAATCTCTTATTACATTAACACTATAATTGATTTCTCCAGAATTAAAAGATTCTTTTTTAAATGTACAATCATCAAATTTCATAATATCTTTTAAATTACTTTTATTTTCATCAATTAACTCTTCACTAAATTCTTCTTCACTTGGATCAAATAAATATTTAATTGTATTAATAATTTCATAACCATTTAAAGAGTTTATATTTAGTCCTGCAATTTGACCTTTTTGAATAACACTATTAACCATTTCTTTACATTGTTTAAAATCAGAACAATATAAAAATAAATAATATTTATGTTGAAAATTATCTTCACTTAATTGTCCATTTTCTTCAAATAATTGTAAACTAGCTTTTAATTGTTTAACTCTAGAATTAATTTGTTCATTTGTTAATTTCATTTCTTTTAATTCATTTATTTTATTATTTAAATATTGTGCTCCTTTAATTTTATTAAAGTTTTTCTCTAATTTTAATAATGAACAACTAACTTCTATATTTGATCAAAATGTTTTTAAAATATTTATTTTTCTTATTTGTTCATCATAACTCATATTTAATAAGTTATATCCTTCTAATTCAACAGCACATACAAAAAATTCTTTATTTTCAAATAATTTGTCTGTTTTAATAACTCCTAACTCACTAATATTTCCAACTAACTCTTTATAGGGAATTAATAAACTAGTAGGATAATTTTTACTATTTATTTCATATTTTTTATTAGAAGCTTTAAATTTTAAAAATAAATAGATTAAGTAATAAATTCTCATACCACTTCTACCATTTGGCAATAGAAATATAGTTAAAAAACCAAAAATAAATATAGTTGTAATAACTTGACCAACTCATCCTATTACTGTTAAAGGTAAAGAAATTGCTAATGCAATTAAAATAAAAACTACACAACAAATAAAATCGATAAGAGTAATATTTCCTTTTATTTTTAATTTCTGACTACCTAATTTTTTGGGAATTATAGCACTCATACTTTTTTCCTTTCTATTTTCCCCAGGGAAAATTTAATAATGATAAATAAAAAAACTAGCAACTGCTAGTTACTAAAATATTAATTTAAACAAAAAAAATAGAGTCCTAGCGCTGCTAGTGCTCTATTTACCTTAATTTAAGTATAACATTAAAATTATTTTAATTTTTTCTAAATTTTTTTAAATTTGAAGATAAATAAACTTTTTCATTATCTAAATTAATAAATAATATTTTATCAAAAAAATATTTTTTTTCATCTAAACTTAATTTTAAAAAAGCAACATTTTCTTCTTCTGTAGAATTTTCAAAACCAATAGCTTTATAGATATTAAAATCTTCAAAAACATTAAATTTTATATCCATATTTTTCTTAATCGCTCATAATAAATTTTTTTTAACCCTAAAATATATTTTAATAAAAATAATATTAATTGCTTCAATTTCAATATGATTATTTGTTGTTACTGCTTTATTACAAAATACTTGAAATTTTTTAAAAAAACCATAAATATATACACTATAAGGGCCATAAATATTTACATTAAACTTATCATTTAAATATTCATTTTCTTTTATTAAAAATTTTAACACTCTATTATTGAAATTTCTTTTATGTTTAAAAAACGGAATAAAAATATAAGAAATTATTACAATTAAAATAGAAATAGTCAATGAAATTGCTGATATTAGTACTTCTGAATTCATATTATTACCTCTAAAAATATAATACCAAAAAAACATCTTTAAAGGTGTTAAATTTGTTTTAATAAAGACTTTAATTCTTTTTGAAGTCTTTTTATTTCTTCTTTTTCATTACTTGATAATAAATCTTCTGATTTAGATTGTAAAATATATAAATCATTTCTAATATTTCTTTCTCTAGTTTTTAACTCTAATAATTTATCAATATCTTGATCAGTAGTTTCTTTTAAAATTGAGAAAATATCTTCTCTAGCACTAGTTCCATCTTTTTCCAAAGCCTCATTTAAATTTACATTATCAGTTAATAAATCATCTTCATTAATTTTAGGTTTTATATCTAACTTAAATAAATTAATAAAGTAATCTTTTTCAAAGTTAATTGATTTATTTAAAGATATATCTTTATCTTGAATTTCAATCCCAAAAATCTCTTTAATTTTATAAAAATATTCATACGTTACAATATTTGGATTTGCTTCTTGATAAATTACAATAGCATATTTATTATTTTCTTTTTTGTTTGGTGGAAATATCAATTTAATATCACTAGGTTCAATTAAAGGTTTTTTTTGTAAATGATATGAAAAGTTCTTTTTACCAGTTTTATTATCTATATTTGGAGTACTGTTAGATACTTCTACAGTTGTATCTCCACACATTTTTGAAATTTGTTCATGAGTTTTTGTAGAAGCTGATTTTAAATAAACTGTTAGTAAACAGTTAGCCATTATTGTACTTGCAGTATCTGCTCCATATTTTGAATTTAACTGTTCAAAAGATTGCAAAACTAAATTAAAAAACATTCTTCTTCCCCTAGAAACTGTTAATATTGTTGCAAAGTTAACAATAGCTGGAAAATTACCAAATTCATCAAGATAAAATATTACATCCCTTTCTAATTGTTCTTTTCCAAATTTAATCAAATTCTGTCCTGCTTTAAATACATTAGCTTGATAAAGTTGACTTATAAATAGACTTGCTAATGGATGTTTTTGTTCTTTATCATCAGGAACTATCATAAAAATAGCTTTTGGTTTTTCACTAGTTACAAATTCAAATAAATTTATATTATTTTTACATAATAGACTTCTTAATTCATTTCCTTCAAATAATTGTAAACTAGTAGAGATAATTGAAAAAAAGTTACCAATTGATTGACTTGAACTTGTTAAAACTTTATTTGCTGCAATTACAGATTGATTAGATTCTCTTCCTTCACTTCATTTTTTAAAGAATTTTTGAATTTTATCTTTATCTGATAAATGAGTTGTAACAGTAACAATATTAAACTGATTTTCTGCAATTGAGTCAATATCTTCTTCAATCATTTCCATCATAGAGAAAATAAATCCTTTAAATAAACCTTGAGCACCATCATATCATTGTTTATTCTTATCATCTGCTCCAGGATTTAATAAAATTGCAGATAGATTATTAACTTCTTCATATGCGAGATTCTTTAATTTATTTGTTTCTCCTGAAATAAGTTCCTTTGCTAACTGTTCATCATTTGTTCAATAATCATCAATTTGATATATTAAAACTTCTTTTCAAATTAAAGCTAATTCATATTTTTCTGTATTTGGTTCAACATCATTGTTAACAGTATTATTTTTTAAAATTTCTTCTTTACAAATAGAACAGTTTTTTGCTTTATGATTTCTACATTTTATTTTTTTAATATAACTTTCAAATCCAAATTTTGAATGAAAAGTATTTTGTACTACATGTTCTTTTACATAGTTAATTGCAGAAATTAAAAATTTATAAGCATTAGATAATGGATTTCAACTTTGTGAATACATTGGATCTCTTAAATTTAAAACAAGTATTTCATATCCTTGCTCTTCTAAAATTGAACCCAAATTTGCATGTAGTTCCCCTTTTGGATCTGAAAATACCATACAAGGTTTTTTCTCAAATTCTAATTGACAATTAACAAAAGCAGATACATAAATAATTCTTTCAGTTTTTCCACTTCCTGTAGAACCAATTGTTATTGAGTGAACTGCTTTTTTAACAGGTATTCCTCAAATTTCAAGATTTTTTTTCTTATAATCAATTTGTGTTCTTGTAATGTAACTCGCTTCAGTAAAATTTTTATTATATACCTTTTCAAATTTAGTTAATTGTAGATTTCTAACTCTAATTTTATTACTTATTGGATTTTCATATTCATTTATATCTCAGGTTGCTTTACCAAAAGCTTTTTCTTTAGCTTCTTTTACTAAACTTTTAGACTTAACTTTTCCTTTAATATGAGCAAACAAGATAATAAATATTGTATGAATTAAACTTAAAAAAGTAACTAAATAAATAATTAAATTCTTTTCATTTTGAAAGTTAAAGTATTTAAATTTCTCTATTGTAATAATAAAATTAAATTCTGTTTTAAATAAAACTACTAAAAATAATAGAAATAAAGTTAAAAATAAAATTGAAAAAATAGAAATTATAAATAAGGCAATTAAAATGAATTTTCTATATCGATTTAATCATTTATTTTTTTGCATAAACTAAAATATAGGTAATTGTTGTAAAAATTAAAAATAAAGTTAAAAAAGTTAATCACAATATTAATGCATTTCTTTTTAATTTTTTTTGCTTTATTTTAAATTCATTATCAATTACTTGCTCCTTATTAATTTTTTTTAATTTAATTATTAAGCGAATATATTTATAAAAATAATAAATATAAAATACAAAAAATAGTGCATATATACATGACATTATTTTAATAATCAATTCCATTATAATTCCTTCTTTCTTTAATTAATTTATTTTTTTCTTTTGCTTCATTTTTTATAATATTCATAGCAGATTGTCTTGCTTTTCTTTTTTCTTTTTGAATCATTTGAAATAAGTTTTTTGGCATATATAAAAGAGAAGAAAAGTATTTTTTATTGTTACTTATTCCATTAGGATTAAATAAATTACTTCCTACATAACTTCTCTTAGATTTATATTTTTCTTTTTTTCAATTTCAAATAATTTTTTTTAATACTTTATTTCCAAAAGCTGGTAAAATACCTTGAAAATAACCTTGAGCATTTAATGACTTTATATGTTCATTTCTATACTTCAGTTTTTTATACTTAATTTTTTCAATTGGATCTTCTAAATTTCAATCTTTTTCATCTTTTAATAAGTCTTGTGTAGTTAAAATAAAACTTTTTTCTTCTATTTTTAAATCAACATTTTCTAATTCATAACTAGAATAAATTTGACAAAACTCTTCTGCTTTTTTATTATTTTCTTCAACAAAAATGTCATATTCTTTTTTTAAGTTAACATCACTTTTAATAAAATCTAAGGTAATTTCATCTAACTTTTTTCGATCTAAATCACTTATAAATTTAGAACCATAAGTAATTTTTTTTAATGGAATATCTTTAAAACTTCCAAAATTTAACTTTAATTTTTGTTGTAATTGATTAGAAAATAACTCAATTTTATCAATTAAATTTACTTTACTTTTATTAATATCTACATAAATTTGTTTTGCATCTTTTCATGATGTATTTACATTATTAGAAAATTGCTCTCATGATATTTCAAATCTTTCTCTTAAATTACGTTGAGTTTCTAAAAATCTAGAATTATCTTTTTGTTGATTTCTAATATTCATATCTAATCCAGCTCTAAATTCAATTTTTGAATAAAGTTTACCATTTTGTTTTCAAACTCTTTTTCTTTTTGGTTTTCCATATTTATTTAAAACTTTATTTTTATTATTATCTAAAACATACTCATAACTGGTAGGTTCTTTTTCAAAGAAACCTAAATGAATATGATTATTATCTGTATTTGTATGCATTGAAAAAAATCAATTTACTTTTTCATAATCCATTCCATTATCACTAAAAAAGTTTTTTAATTCAGTATTTAAAGCTTTCTGAACTTTTTCGGGAGTATAAAGATTATTTTCTTTAATAAAATCATCAGAAAAAGAAACAATAGTATCTCAAAAAACTTGGTTATCATCTAAGTTCTTCATATCTTTTCTTAATTCTTTAACTTCTTCTATACTCATTAGTCCATTTTTTGAATAAATTCCAGTACTTTTAAAGTTTTTATTTATTTCTTCAAGCATTTTATTATATTTAACTTTTTCCTCTCTTGATCCAGTTCTTAAAGTATTTAATAGTTTTACTTGTTCATCATCTATATTTAGATTAAAAACAGCATCAGGTCTAGAAATATAATTTAAATAATCACCAGATTTATAATAATTATCTCTAGATTTTTTACTTTTATTTCTTACTTCTTTTGTTACTGGATCAATTGGTTGATTAAAGTTTAAAGTTTTAAAAATAACTCCAGGAGCTTTTTTCATATATTTTCCTTTCTATTTTCCCCAGGGAAAATTTAATAATGATAAATAAAAAAACTAGCAGCTGCTAGTTTTTAAAGTATTAATTTAAACAAAAAATAGAGTCCTAGCGCTGCTAGTGCTCTATCTACCTTATAAATATAATAACACATATTAAATTTAATATTATTATATAATTTACTGTTATTTAATCTTAAAAAATGCTTTCATTTTATTGATATTTGTTTCTCCTTTGACATTTGGCAAGTACCAATAAGTTAAGTATAAAAAAACCTCTTTATTTTTAAAGAGGTTTGGTTTTTTAGAAGAATTTATTTTGCTATTGAGTCTAAGTATTTTTCAAATCTAAATAAATTAAACATGTTTTCAATTCTATCAAGAGCATTTATAACAATATCTCTATTTTTTCTTAAACCAGGTCCATCAGCAACATAAATAAATTGATATTTTTTAAAATCTTTAAATTTATCTTCTAGTCTAATAAATCTTGGTAATTCACTATTCATTTTAGAGCCTGAATCATTGAAAAAATTGCATTCTAAACAATATGTTATATCTTTTATTTTAAATACAAAATCGAATCTTTTGTCTTCTTTCAGCATAGCTTCTCCAAGAATTTTATTTTGACTAACTTCTTTTTCAAAAGATATATCTTTTGAAATTAACAATTCTTTTATAAAGTCACTCATAAATTTTCCAGATTTATTTTTTTTATCGTGTGAAGATAATCCAACTTTTAATCCAAATAAATATGTTTTTATATCTTTATATTCCGAATTAACAAACAGATTATTAATTAATCCTGATTCATCCATAAAATTAAAAATATCATCTTTATCATTTAAATTAAATTGATTTTCAGTATTCTTATTATCTATATAAGTAAAAGGTTCTTTTTTATTTTTAATATTATTATTTGCTAGTAATATAGGAATTAATTTTAAACATTCTCTTCTATTTTTGAATATATCATTAAAATTTAATCTAAACTCTTTAATATCTTGTGAAAACAAAATATTTAAATCGTTTATCAAAATTTTATTTTCACTTAGAAAATCTTTAATTTTATCTCATGAAACATATTTTTTTAAGATATATGATGTAGATTTTAATTCTTTAAAAAACAATGTTTGATTTAATTTATACTCTTGTTCTTTACTCAAAATATAGTTAGTTATTATAGTTTCAAAAGTGGAATTTTGTCTATTATCAGAATCTGAATTAATAAATCTATTTACAGGAATCCTATAAATATTAAAGTTTTTATAAAGTTCATTAATTAATTCGGTATTATGATTTGTCAAAATTCATTTAACTCCTTTTTTATCGACATTAATTAAAAAATTATTTAATCTAATTTGACCTTCTTTACCAAAAGAATTGGATGTGTACGAATCAAATCCTTTGTTATCAAAATCATATGGAGGATCCAAAAAAATAAAATCATCTTTCTTAGCTTTATTTAAAATTTCTTCAAAATCATCATTTAATATCTCTATATTATTTTTATTTAAAAACTTAGAAATATTTAATAAATTTTTTGAATCAAATATTGTTGATTCTTTTATAATTTCCTTATTATTGAAGGGAGTATTAAATTTATTATTTTTATTAACCCTATAAAGTCCATTAAAACAAGTTTTATTTAAGTAAATAAACCTTGCTGCAATTTGGATTTCAGATAATTTATTTGGATCTTTATCTCTCAATTTATAATAATAATCTTTTCCGTTTTTATTATGCTCTTTCACATATTTACTTAATAAATTCATTAATTCAGAACTATTGGATTTTATAACTTTTCAAGTAGTTATTAATTCAAAATTAACATCAGATAAAACAGCTTTTTGTGGCAGTAAATCTAAGAATACTGCACCACCACCTAAAAATGGCTCAAAATAATTATTTATTTTTTCTGGTAAAAATATATTTAAAATTTCTAATAATTGTCTTTTTCCGCCAACTCATTTTACAAAAGGCGCTATTTTTTCTTTATTCATTAATTTTGATTTCCTTATCTATAAAATATATTTTGACTTAATAATTTTACCATTTCTATATAATTATTATGATTTTTTGGTTTATTTTTTTCTTCTGTCAACACCTTTAAACTCATAAAAATCAAATAAATTCATCCTACTAGATATTCTATTTTGCAAATGAATTTCAATTGTACCTAAATTTTGTAAAATATTTTTAAATTCTTTCGGACTATAATTTGTTATAATTATTGTTTTTTTATCATTTTCTAACCTAGTATCGATTATTTCATAAAATATATTAATGTTATATTCGGTTGATTTTTTTAGATAAAAAATCATTAATAACTATAATATCTGAATTAAAGTATTTCTTAATTTTATTATCACCATTTAATACATCATTTATTATTTCATATCATTTATAATACATGCCTCTTCCACTAATTAATTCTTATGAAAAATAGGTTTTACCAACACCTATATTTCCGAATATATATAAATTATTATTCAATAATTCTGACTCTTTTAATCTTATTGATAATGATCTAAACTCTGTATCTCATTGAGTTTTTAGATCTAATTTATCATAATCTTATTTTTCTTTTTTAAATTTATTTAAAATGTCATAAAAATCATTTTGGATTTTAGTCATTCAAATATTCTCCTAATTTCTTAAATAATATTTGAACTGGTAAAATATCTTTACAAATATAAGCTGTTTCACTTGGTGGATTTTTACAAATCATTCCTTCTTCAGATTTAAATTTAATTCTTTTATCAAAAAGTAATAATTGTTTGTCATGTAATTTTCCCCTTATTGGTTTTAAAGCAATTGAAACTAAAGGAACTAACATCGCAAATGATTTATTCAGTTCTTCTAATTTATTAAAAACCTCCTTTCTTAAACTATATGGTGGATTTGAAATTATATAATCAAATAATAAAACATCCTAAAAAAATCAAATCCTTCTTTAATATCTCTATAAGTTAGATTATGTCCTGCATTTTTCAAAACATTTACATATTCACTATTTTTAGTATCAAAAGAGCATAATATATTTGAATTTGGTTTTAAAAATTCTAAAATTGGTTTAACTGCATATGGTAAGATGTATCATTTATCTTTTTTATTAGAAAAATATATTTTATTTATCCTCTTTAATTTTTAACTTTCTTTTTTGTAAAGTATCTTTACACATTAAAAACTTATATTTAACTATTGTATTAATTAAAAGTATATATAAGACTTCAAAAATCTCATTTTCTTAAAAATTTACTTACTTTCATCATTTTATTTCATAATTTTCTTTTCAAAATTGAATACACTTTTGTAATAATTCATTTTCAATATAGTAACTTTTGCCTATACCATTTAAAGTTGTATTTTCTTTAATAAAGGCTGGTGGTCTATAAAATGGTATTCCCCCTGCTCACTTATTTCATGTTTTTAGATATTTTGATTCTACATATCAAACCTTAAATTGATTATTAAATGTTGCTTTATTCATAAATTCTATAATTCTGGCATATCAATTAGCTTTAATATGCACTTTATTTATTTTTCTTTCCATTTTCTTTTACCTTTTCACTAAAATTATAAAATAAAAACTGCAATCTTTATTGCAGTAATTTTAATATTATTTAGTTTTAAAAATAAGTAATAAAAATGCTTAAAATACTGCATTTTTACAACTTGGGTAGTCTGAACAACCTATAAATTTCTTAGTTTTTTTGGTTTTTTTATCAGTATAACTTCTTTCGATCATGTAACCATTTTTACAAATTTCACATAATTTATTATTTGAATAATCTGGTTTATTAAACTTAATAAAATCACAGTTTGGATAATTTGAACAACCTTTAAATTTTGTTCCTTTTTTACTTACTCTCTCTAGAATATAGCCTATTTGACATTTTGAGCACTTTAATCCATCAAAATTGTAATTAGTAGATAAATTATCTAATTTTAAATAAAAATCCTTTAAATATTGTTTATGATTAACTATTTTATTATTAGCTATTAAATCTAAGTCTTTTTCCATGTTTTTAGTAAAATCTAAATTTATAATACTTTTAAAATTTTCTTCTAAAAAGTTATTAACTTTTAAACCTAATTCATTAACTATCATTGATTCAGATTTAGTTTTTTCTAATTCAACATAACCTCTTAAAACATTTACTTCTATTGCTGTTTTATAAGTACTAGGTCGACCAATTTCTAATTTTTGTAACTGTTCAATTAAACTAATTTCATTTAGTTTGCTTGGAGCTTTATCATAATCTTCAATAATTTCTAAATTACTTACATTTAATTTGCTATCTTTAAAGTAATTAAATTCAATATTTTTAGCTAATTCCAAACTTTTATCAATTTCATAATAACCTTTATTAATAAACTGCTTTAAATTTGTATAAAAAATACTTCCATTATTTTCTAAGAAAACTTCTTTTTTAATACCACTTGGCTTTTGATAAATTGAATTAATTGTATTTTGCCAAATTAATCAATACAATTCTTTTTCTTTATTACTTAATTGCTCACTACAATAATTGTCAATGTCTTCAACAAGTCATTCAAAATGAGTTGGTGTAATTGCTGGATGTCCTTCTTGATCTGTTTCTTTAGTTTGAGTTTTAATAAGTTTGCCCAATTTATCTTGTCCAAAATGATTAATAATAAATTTAATTAAATTCTGTTCAGTTTCATGATCTAAATTATTTGAATCAGTTCTAATATAAGTTATTAATCCTTTTTCATATAAACTTTGAGCTAATTGAGTAGTTTCTTTAGTTTTTAGCTTTAATTTTGATTTAGCTGCTTTTAATAAATCTGCTGTTGAAAATGGTTTAAAATTACTTTCTTCAAATTTAGTTTCTTTTATCTCTTTTACAATAAAACTATCATTTAAACTATTTTTTAACTCTAAAACTTTTTGCTTATCATAAATTTTATTAATTACTAACTTGTTATTTTCATTATAAATATAATTTTTAAAAATTATATCTTTAATAACTTCATCTTGTATATAAAAGTATTGTTTTTTATCAAAAGCTTCAATTTCTTTTTGTCTATTACACAATATTTTTAACACTGCACTTTGTACTCTTCCTGCACTAGCAGCTCCAATAGTTTTTTGCAAAATTGGAGAAATTCTAAACCCAACCATTCTATCAAGCATTTGTCTTGTAATAGCAGAGTTTACATAACTTTGGTTTATTTCATTTAAGTTATTTAATTCTTTTTGAATACATTCTTTTGTAATAGCATTTAATCTCATTCTTTTAAAATTATTATTATATTTTTTTAATATTTCAAATAAATGAAAAGCAATTGCTTCACCTTCTCTATCAGGATCTGTTGCAATAATTATTTCCTTTACATTTTTAGCTTGTTCAATTAATTCATTTACAACTTGTTTTTTATCATTTGAAATTTTATAAATTGGATTCATTTGTTTTAAATCAATTCCCATATTAAAGTCATTTTCATTTGAAAGTTCTCTAACATGTCCAATTGAAGCTTTTACAATGTAATTATTACTACTATCAATTTCTTTTAAAAACTGACTTACTTTTTTAATTTTACCTGGTGATTCTAATATAACTAGTTTAGTCATTTAATCAACTTCTTTCTATATTTAAGTTTGATATATAATATTTATATCTAGAAAAGGATTATATAATATCTATGTACTAAAAATATATGTAAAAACTTCTAAATAAGAAACAATAACATTGAAAAACAAATAAATTTTAATATATTAAATATAATTGTCATAAAAATAAATAACTGTTTTGCATAACTTGGTTTTTTTATTTTATAATTTCAAATAAAATAAGTTGTTATACTTGTATTAATAAAAAATAAAATAATTATTATAATGGATAAATAAATTGGCATATTTTCTACTTCTTTCTATATAAATTAGATAATATTGAAAAATTTTTAACAAGTTGACTACTTTAAATATAAATTATTATAAAATGGAGCAAATTTAAAATCTGATTTACACTTTGAAGAACAAACAGCTCTTTTTATTTTTATTCCTTCATAAAAATCTTTATTATATAATAATGGTACTTTTATATTTTTTTTACCCTTAGATATCTTTGTTTTACACATAAAACAATATTTTAATTTAATATATTCAGTTTTCCCACTTCCAGTTAGTCCCATAACTAATTCAATATTTAAATTATTTTTTTATATATATCACTTCTTTTTTTATCCCTATTAAAACTTTCTCTTTCAGGATTAGAAAATAAAAATACTATTCCATTTCTTTGAAAATTTTGAATTTCTTTTTGGTTAAATATTTTTATTTTTTTATTTGATTTACCAAAATAACAAATTTTTGAACCTTCTTTCTTTTCATAATCACCTAAAATACTTTTTGCTAGTGCTATAATAGAAATTTCATTTTCATTATTTACTTTTAGATTACTAATTTTTAATTCTAGTTGTTCAATACTTATATTTTCTTCAAAATTATCAATTATTAGCTTTTTAGCTGATTCTATTCAAAATTTATCTGTTGTTTTTTCTTTAGTTTCTAAGTCTAATTTTTTAATTAAAGTTTCTAAGTTTAGTTTCATATATATTCCTTCTCTATCTTTCTTTATTTAATTTAGCTATTTTTAGTTTTTTATTTAATACCTTTCTTTTCTTAATTTTTTCTTTTTGAATTTTTATTAAGGTATCGTATTCTATAACTGATAAATTTGGAAATTCATACATTCAAATTGCATGACTATTTTGTAACTTAATAGCTTCTTTTCCTGCTTTTCAATATTCTAATTCTTCATACATTTGCTTTAAGGTTTTTTTTCTTGACATTCTACTCATTATTTATCTCCTTCAATAGCTTCTTATATCTTTCCTTCACTTCTTTTAATTTTTTGATTTCATTATTTATTAACTTCACTACTTTTTTTCATCTTTCTTTATCATTTTCTATCATAATTTTCCTTCTTTCTTTATTTAATTTTTTTACTATCCTTTTTCTTTAATTTTTAATTCAAAACAATATTTTAAATTATTGTCTATTAAAAAATCTCTTATATTTTTTAATTTTGATTTTTCGTTTTCATAGAAAAGATAATTATTTCAATTAAAGGTTAAATCCCTTTTTTCTAAATCTCACACTTCATAATCATTGATAATAATTTCTTTTTTATCACCACAGATTCCCATACACGACATACAGGTTCTGAAAATAATATTTTTTTGACAAATGCAATTATTAAGTTTTTTAATTTTAAATAAACCTTTACTATCAATCTTTTCTAAAATATTAATATTTTCACAAACACTTCCTTGAGAACAGTAACAATTAACACTATGAGCTCATAATTTATTTACTTCTTTTGAAGTTATTAAAATATAAGTATCTTTAATTAACATCTAAAATTTTTCCTTATTTTTGATTTTTTTAAAAGCTTCAGGTTCATTAAATCAAGCTTTTCATTTATGTATTCCATATGTTAATCAATAAATTGGTATTCAAATAATTCAACCAACTGGAGCAAGAAATAAAATTGTTAAAAATATACCTACTATAGTTTTTCTCTTATTATAAATTTTTTTCTCTTTTAACTTTTCATATCAATTTAATCATTCAAGAAAAAATGCTCCAGTGATTGATAATCATATTAAAAACCCCAAAATACCAAAAAATATTCAAATTATCATTTTATCTTGCCTGCTCTCTATTATTTTTTCTATAATCTTCATAAGTCATTCATTGCTCATTGTGTCAAATATGAGTTATGTTATATCAATATAAACTATCTCCTTGCTTAAAATATTCTTTCAAAAAAATTCTTATAGAATTAAACATTTCTCATTTCATATTGTTTGAAGTAGAATACATCTCCAAATTATGTTGAATAAATCAAGCAATATGCAATGCATTCATAATAGTTTTTTGCAATTTAACTTTTACACTTGATTTAACCCTATAACAACCATACTTAAAAAGTATATTTTTTTTATTTTCTTGAATTTCTTCAAAATAATCAGGTCAATCGTGAGGGCATTTTTTTTCTTTTCTTTCGTGAAATTTAACTCCATTACAAACTACTTGTAATTCAACAATACCTTCTAAATCACTATCTTTTGTAATTTCAAAAGATTTATCACCACTCAAAATATAATTTTGAAAGTATTTAGTTATTTTTTTAGTTTTCATTGTTTGCATTGTAACACTCCTCACATAATCCCCATTCATCATCTTCTGTTTCCATTCAATGTGGTTCATAACAACTTTCACAGAATTCCTTTTTACATTTTTTACATCATCAAGTTTCTACAATATCATCTGATAAAATTTCACTATTCTCTGTAATCTCATTACAATTAGGGCAATATTCTTGTATATAAGTAAATTTCTTTTTTTCTATTGACTTCATTAATTTGTTTCTCTTAAATCTGGAGGTCAAAATAATCCAGTATAATCTTTAGGCAAATTATTTTTATTTCAATCAAAAAACTTAGCTAATATTTTAAAATTACCTTTTGCTAAAAAACTAACTCATACGTCTTTACAAGAATCACATAATTTTAATTTCAAATAAATGGGACCATTATTTTTTGTATCTTTAAACTCAAAATATATTTTCTTTTTATTTCAAATATTTTTATTACAGTTTTGACATAACTTACTATTAATTAATTTTGACTGATTTGTAATATTCATATATTTAATCTCCTCTTCTTATATTTTTGTAACAATTATGACAGACTTTTATTAACTCATTATTTAAATAATATGAAATCAGTTCTTTATTTTTAAATTTACATTTTTGACACATTTTAAAATCCTCTTTTTATTTATTATCTTGAAAATATTTGATTTAAAGAATTTAGAAGATCATTATAATTGTATTTATCCATTAATGTAGAAAGTATTCAATATCTGTTTCTACTTAAAGTAGTTTGATTAACTCATTTTTCTTTATCATCAACTATTTTCTTTTTTTCTCTAATTATTTTTAAAGCTTGATGAATTTCATCATAATCATGATATTTTGAAATATTTAAAAGTCATAAGTAATGATTTTTTTCTAATAATTTATAAGCCATACAAACACCTACCTTTTAAATAAATTTACAATCTGATTTAGCTGATCTAAATTTTTAAAATTTATAATTAATTTATTATTTTTTATACTAACTTTATATTTATTCTCTAAAGCTAAACAAATTTCTTGTTCTTGAATATAAAAATCTTCTCCAACTTTATTTTTAACTTTTTCTTCTAAATCTTTTTTTGAAACTTTATTGCTAATAACTTCGTTAATTAAATCATTTTTTTCTTCATTAGATAAATTTTTTTGACTTGCAATAATTGAAGCTTTACTAATTTCTATAGAACCATTTTCAATTTTTTCTTTTGCTTGTTCATCTAAATTATTAATTGCTAACATTTTATTTACTCAACTAACTGACTTTCCAAGTTGTTCACCAATATCTTCTTGAGTCATTCCAGAATCATAGAGCTCCTTAATACTTAATGAAGTTTCATATGAACTCATTTCTTCTCTTTGAATATTTTCAATAATTGATGCTTGTCTAAAATCTTTTTCAGTTGCATTTCCTACTAAAATAATACATTCAATAGTTTTTTTATTTAGTAACTTACAAGCTTCTAATCTTCTTTGTCCTGCAATAAGTTTTATCTCATTTTTATTATTTAAATTTACAATTATAGGTTGAAGTAAACCCACCTTTTTAATTGAATTTGCTAACTCCTCAATTTTTTCTTTATTAAAACTTTTTCTTGGTTGAAAAGGATTGGGAAGAATTCTTTCAAGTTCAATTTCTTTGATTTTATTTACTGCCATATATTTTTATCCTTTCTTAGGAGATTCTATTACATAGTAAAATATGTTATCTTCTTTATCATATTTAAGCTCAGCATTTTTATATTCTCATTTATTAATAATTCCATTTGGATTAACAACTTTTTTATGAATGTAATTTTGATCAATAACTTCATTTTCTTTAATAGATATATGTATTTGAAATTCTTCACCATCTATTCTTAAAATAGAACCTTTTGGAATATCTATAATTTCATCTACTTCTATTTCTTCAACTTTTTGTTTTTCTTTTGAAGTTTTTGCTTTATTAACTTCTTTTTCTTTATTATTACTTTCATTTTCATTAGAATTATCTGTCTTTATTTTTTCTTTAATTTTTTTACCAGTTTTAAATTTAAAAGCTGGTCATGTTACTTTTGTTTCTTGATTTTCATTAAATATTGACATATTTTTTACCTTTATTTTTCCCTGGGGAAAATCTTTCTATCTTTTATTAAAAAGTATTTTTTCATTAATTTTTTTGTATTGTTTTAAACCTTCTAATCCTTTTAAGAAATGTACTGGTTTTGTAAACTCTTCATTTATTTCAGTTCATTCATGACTAAATTTTGTAGAGAATATATAGTTTATAAGATTATCTAATTCATTTAACTCTTTTATTTTTTTTAAAGAATTAAGATTTCCCAAACATAAATCTCCAGATTCATAAAAATGAGGTAAGCGCATTGAGAAAAATTTAGTTTTTTCATTTAATTCTCCACTAAATGCAAATAATCGAATATTTCAGTTATTGGAAATATTTAATTTATCTAATCTAACTTCTGCAATTAGTTGAGGCAAAAATATAGTTTTGTGAATATATTTACCTTTGCTATAAGCAAAAATATCTCTTATAGAAGGTTCATAATAAAAGAAATAAAAATCAGAAGAATCATTGGATTTCATAGCAATAAGTTTTTTTGAAAAATTTATATTTCCAATTTTATCAATATTATTTTTTGTATTAATAAATAATCAATTTAAAAATTCATTAAATTTAATTCATCCAGATTGATTAATTCCACTTTTATTTTCTAATTCTACTTTACAATAACCTTTATCATTTTTATCAAACTCCAATTTCAATTTAGAAAAGGATTTCATAATCATCATTCCTTTCAAAAGTAATTTCTGTACAAGTTATCTCTTTTTCAGGTATAGATGAAGTTTTTGTTTCTTTTTCAACTTCTTTTTTTAGTTGAATAAAATTATAAAAACTATTTACATTAAGTTTTAATAATTTAGGATTTTGATCAAGTATTTCTTTAATTTTAATAACTCAATTTAAATCTAATTCACCTCATCCACAAATTTGTGCTCTAAGTTTTTCATATATGTATCATGTTTTAGATATTTTTCTAATTGACTGAATAAGTTCTAACTCAGTAAAACTGTTTTCATTTTTTTTAATAAATTCATTGTATTTACTTTTATCAATAATTTTTTTATTCTTTAAAGGGTTTGCATCTAAAAGTTTAATCTCTTTTATTTCTTTTAAATTTAGCTTCATCTATAAGCTCCTTTATCAATTTACGTTTTTCTTCCAATTCTTTTAAAAATAAAATATCTTGATTTTGATTTTTATTAGTTATTGATATTATTTCAAAATATAATTCATTTTTTAAATCTAAAATTTTTATATTTTCTGAACTTTTAAAGTTTTGTAATAAATACTCTTTTTGATATTTAGGAATTTTAGTTAAATACTTTGTTGTAACAAATAATTTATTTTTATTTTTTTCAAAAATAAAATTAGGCTCTGATAAATTTTGATTTATATTAAGTAAAATTGTTTCATATAAATCAAACTTATCATGATTAGGTATGAGCACTTTATTATAAACTGCAATATTTTTTATTAATTTATCTCTTTGTCAAGCTAACAAATAAATTTTATTTATAATATGTTTTTTCAAAAAATAGATTCTTTCTACATTACAATCTTTAATAATTTTTAAATTACTAATAAATGTACTAATTTGGTGTTTTTCCATTTTTAATACTTTCTTTAATTTTTTCAATTTTAGAATTAAATTCACAAAACTTAATATGATATTTCTTTTTTATATACATATCAATATTTGATAAAACTTTTAAAATTAAATTGCTTGTTTGATCATTTGTTGCAAATTGTTGAACAACTCCGTCATTTATTAACTCTTCACAACTTTCTTCTGATATTTTTAGTTCTGTTTCTTTTTCAATTTTTAAATTATAAATATTGCTTCTAAATTCATTAATTAAAATATCACCATATACATCTTCATTTGCTGAATCAATATAAATTACATCCGAAGTTTTAGAATATCCGATTCAACTAAAATCTTTTTCTGATAATCAATCTTTAAACATATCTGTTGATTTTTCAATAAATATTCTAGTTTTATGATTATCAACACAACTTATTATTATTACTTTATTAAAAGTATTATTAAAAGTATTATTAAAAGTATTATTAAAAGATTTAATTATTTTAAATAAAGAATTCTCTTTATTTAAAAATTTATTAATAGAATAACAATTTTTAAATCTACTTATACTATTTATTTTTTTAGCTAAACTTTCAGCCTTGAAGTTATAAACATCATGAGTTTGAAAAGGTTGTCTTGTGACATTTTTATATTCAACTTTATCTCCATCAATTAATACTAAATTATCATTATTTGATAAAAATTTTGCTAGTTTTCCAGCAAGAAGACCACCTGTGCCTCCTACTCCAATTAAAAATATTATTTTATCCATTTTTTCCCTGGGGAAAATTAAAAATCAATATATTCAAAATTTTTATTTTCAACTTCATTGGAGTATCTTTTATCAATTCCTTCAAATTCTATATTTAAATTCATTAATCCTTTTAATCTAGAAATTATTCTTGAAGAAGTTATATTATCAGATTTAGTACTATAGTTTTTTTCTAACTTATCTAAATCATAATTTGAAGTAATTATTGTAATTAAAGTATTATCTTGTTTACTCTTTTCAAATCTTTCATTTAATAAATTGTAAATATAAGGAAGTGTAGATTTGTGAATAAATTCACTGCCTAAATCATCTAAAATTAAAATTTGTTTTTGAGCTAAGCGACTAGGACTAGGAGCATAAATTCCTTCATAGCCATTTTCTCAAGCACTTTGATGAGATTTGATTCATTGTGAGACATTAACTAATTCAAAATTAGATCTTGAGTTTTCAACGAATTTATTAATAAAAGTGGTTTTACCAACTCCTGGTTTACCATAGATATAAATTCCATTATTTTTAAAATTTTCTTTTTGTTTAGCTTTTTCAAATAAAGAATCAAATTTTGTATAATCTAAATCTTGATCAACATTAAATTTAGTTTTAATCATAAATTTTTTCTCCTATAAATTTTGTTACAAATTCTCTATACTCTTGAGAATTTTTATTATTTAATTCTTCAAAGAAATTAGCTAAAATTTTACCTGAAATCAGATTTACTTGCTTTTCTCCTAAAGAGTAAATTATTTCTTGATAGTAATGAATTTCCTTGGTTTTAAAATTAACAATGTTAACTTCAATTCCAAAACGATTCTTATATTTACTAGATAAATAGTAATTTTTATAAATTCAAATTAGTCCGTTTGTATTTCAAGGGCTTTGAATTGCAAAAGCTGTTTTATTACTATTTCAACCCTTAAATCAATGGTTCAATAACCACACTTTTTGATTTTCACTCCCCATAGATGTCCTTTCTATTTTTCCCTGGGGAAAATTTTGTTTATTTAGTTTTCAATTTTTTTATAATCAAGTGATTATAATCAAAGATTATTAATAATTTAAAATTAATTTCTAAGTTTAAAGTAATTAATTTTATTTTTAAATGGTTTTTATAAATAATTCAAGAGAATAATCAAAGATTATAATCCAATTATTTATATTTATTTTTGTCATTTAGGTACTATAAAAAATAATTGCATTTGTTTTGTTAAGCATTTAATAGCTTTAGCAACTTTTTTAAATTTTTATATTTATAGTCATGACGTTTTTTTATTTTATTTTATTTTTTAGGTATAGAGCACAATATGTGCAAAAATGTTAAACTGCGTATTTGCAGATAGCTTAGATCACCTTTACTTTCTTAATCAAAATAAAAACTGCTTTTTATAGCAGTTTTTTTATTTACTTGGGGTATTTCTTACCCCCTTACTTTTTCCCTCGCCCTTTTATTAGTTCCATCATATTTTACACTTATCTCAGTTGGTTTTTTTGGATTATTAATTAAATAACTCAAATTAATTGAGTTATTTTTTGGTCCTAGTTTATTAAATTCTAATATAAAATAATATTTAAACTCATTCATTTTAAAAAGTTTTTCCTTTGAAAAATTTATAATATATATTTTTTGTTCTAAACTAAAGTTAATGCTCAAGTTTTTTTTCGCGAAATCAGTTTTTTTAATAACTGATGGCTTTTCTTTCTCTTGAGTATCGTTTTCTCCTTTTATTTCTACATTATTAGATTTAGTATAAGAATATATTAAAAAACTCAAAATAGATATTGTAAATAATAATAAAATTGATACAAAAAACAGCTTATAATTTTTTTTCTTTTTCATTTATATAATTTATTATCCTTTCTTTATTTTTTCATCCTATATTGTTTAACTCCTCTATTTTATAATTAATTAAATAAGTATACTTTTTATTCACTTTATCATAAGAATAATTAATCTTGTAGATATCATTTTCAAAATTATCATAAGTATAATCAACTAAAAAATATCTTGAGTTAAGATTAATAAATCTACTATAAATAATTGAATTATTATACAATGGATTTCAAAGTATCCCTTTTGTCCCTACTTCACTATCCTCAACTATATTTTTTGTAAATAAATATTTTGTCCTATTTAAACTAACTATTTCATAATTATCTTCTTTTTGTTTAACCTCATCTATTACTTTTTTAACATTATAATAGCTGCCAAAATTGGAATCACTTTTTAACTTTGGAGTAGAAGTTAAAAACTCTGTTCTATTTAATCCTTTTAAATAAAGTTTCAAAAAGGAAGTCATTTTATTTCCTAAAATTGATAAATCTAAATAATCTCATAAACTATATTTATTTTCCAAAGTCATAATAGGATCTATTGTATTTGAATATCTTGAATAGGTTTTAATTTTTATATCATTTCTTAGCAACTCAAAATAATTTCTTTTATACTTAAAATTAAAATCATAATTTATATAGCTATAGGCTAAATTAGCAATTGTAATTGTACATTGATTTTCTTCATACTTGTGTTGAGTTAAATTTCTTCTATCTATTTCAATACTTCCATAATTTGTATGTGGCTTTAATTCAAATCCTTGTACATCATAACTAGCACTATAAGAAATAAATATTTGTTGTTGATCTTCAATTAAACTTGCAGGAATATCTAATTTTATAAAATCAAAATCATTCAATATATATTTGCCATTTCTTTTTGCAGTAATTATATAACTTGGAATTTTAAATAAGTCTTCTTTACCATTTTTAATTGGTTGAATACCATTTTTAGTTCTTATATAAAATTGAATCATTCCCATCTTAAAATAAATTTGGGCTTCATTTTGATAAGTTTTTTTAAAAAAATTATCAAAATAATCATATCCTTCTGCATTAGATAAACTTGGTCTTATAAATAATCTATAGTACTCCTTTTTGTTATAAGTAAATTTCTCATTAATAAATATAGTATCAATATTGAAACTATTCATTTCAACAGGACTTACTTTTATAAACTCTTTATTTTGATTTTCTTGTGTAAATTTTATTTCATCTTTTAAAGATATATTTAAAATGTTTATCACCTCAATTAAACTATCGTCAATTAAAATAAAAAAAATCTCTTTTATTTAAAAGAGATTTTAGTTTCTTAAATGGGGCGTGTAAAGGGAATTGAACCCTCGAGTGCCGGAACCACAATCCGGAGCGTTAACCACTTCGCCATACACGCCATGAAAATATTTCACTTACTTATTATACTAAAAAAATATTTTATGTGTTAAAAAAGAATAAAAAAAATACAATAAATTATTGTATTTTAAGAAACAGTAAAAATTTCTGGTTTTTCAAGAATTGATTTAACTTTTGCCAAGAATTGTCCTGCTTCTGCAGCATCAATAATTCTTTGATCTACTGTTAAACTCATATTCATTATTGCTTTAATAGCTAATTTTTCATTATCAACTACAACTGGCTTTTTAACAACTTTACCTACACCAACAACTGCAGCGTTTGGATAAAAAATTGTTGGAGTTGCTTGAATTGCTCCAATATTTCCATAGTTGGCAATCGTAATTGTACTTCCATCAACTTCATAATTATAAAGTTCTCCTGATCTAAGTCTTGAAGTTACTTCTTTAATATCTATTGCCACTTCTTTTATTGATAACTTTTCCACAAACTTAAGTACAGGAATAATTAATCCTTCTGTTGTTTCTGTTGCAAGACCTATATGATGATATTTTTTAATTAATACTTCATTTGTTTCAGCATCATAACTTGAGTTCAATTTTGGATATTCTTCAAGAGCAATAGAAATAGCTTTTGCTATAAATGAAATTGTAGTAAATTTAATATTATTTTGAGTTTGTTTCAACATGTGTTTTAATTTTAAAATAGCACTCATATCTATTTCAGTTGAAATAGTAAGAGGAGGTATAAAATTTTGACTTAAAATCATTGATTTAACTGCTGGATTTCTATTTTTATTTACCTTAGTTCTTTCAACAACTTTATTTTCATCATTAGATTCAAATTGTAAATAACCTAGAGAGTTATCTGGTTTATCTTTTTCAAAATTTACATCCTGAATATTTTCTTTCTCTCTCTCTTTTTTATCAAATTCTCATTTTTCTTTTAAGTCTCTTTCAACTCTTTCAATTATTTCTCTTTCTAATCGAGCTCTTTCTTCTTCTTGACATTTTTTTTCTTTTAAATCTTTTGCAAATGAATTAATTTCATCTTTAATTATTGCTTTTAAATCATTTGCATTAAATTCTCTGTTAGGTTCTCTTTTTTGATTTTGATTCATATTTTGGATCATATTTTGCATTAACATATATTGCATCATTTGACCAAATGTATCTGTTCCAGCATTAAAATGTGATTGTTGATTTAATTTTGAAGTTGCTGCATTTAATTGATTTTGTTCTTTTAAAGTTCTTTGCAAATCTTTAATTTGATCTTTTAAAAATTCCAAAGTTTCATCTGCAACTTTTTTATCTGATACTTTCACAAGTTCATCATCTTTCTTCTCAATTTCTGTTTTAATTTCTTTTTGAATAATTTTTGGTGTTTTAACCAATATTTTTTCTTCTTCAAAATCCTGAGTAGGCTCTATTTGTTCTGTATTTTCTACAATTATATTTTCATGAGTTCTTTTAAAAGGCACTCGAATATTGCTTAAAGTTTCTTGAGTAGTTTCAATATTTTGTTTTTCTTTATATGCAGTATATAGATTTGTAGCTCTTAGTCAAGCTTCAAACTCTTCTATTCCTTTTGGTGTTTGATTATAAGGAATATAGAGCATAGCTCCAGTAATAGGGTCTTGATGAGGTACTTCTCTTAAAAATTCTTTTGGAATACCAATTTCATTAATTTTTTTATTGAAATCCATATTATCTTCTTGAATTCCTTTTTCAACCACTTTTCTTCTTTGATTAATAAGATTTCTCTCATCACGATTTTTTATAATATCTCATCTTCTTGAAGTATCATAAAGATTTGAAAGTTTTGATTCAGCATAAGTTTTGGTTGGTTTATGAATAATCTCTTCCACTAATTCCTCTGGTTTCTTTTTAGGCATAATAATTCCACTATGAGGACTTAAATCATTTGCATCAATTGTATTTTCTTCATCACTTTCAATATAAGACCCATATGATATTCCAAAAAGACCATCTTGAGAAGATCCTTGTTTTATTAATGTTTTCTTTAAATTAACGTCAAAATCTCTTTGTTTCATTTTTTCAACCTCTTGTGTACTGTTGACATTATTAGCAGAGCTTTTAAGTCTTTGATTATCGAGTATAGCATTACTTTTTGTTGCTACTATATTTTGTTCAAGAACACTTGGATCTCCCCCAGCATTATTTAATTTTTCCATTCTAGCTTGAATAATATTTCTCATTATTAAAGGTCTACCTTTTTCATCAGTTTTTGACATTGCATCAATTACTTGATTTTCATTTTGAGCCTCTTTAAAATCATTTTCTTCTAAAAGTTTTTCTTTTCTAGCTTGAACTAATTGTCTAAACTTACTTACTCCTGATGAATTATTTGTCGAAAATAAATTACTACCAGCTTCTTCATTTATGTCTTCTTTAGTCATTTTAAGTAATTCTTCTCTTGTTAAATCACCTATAACTTTATTTTGAGGAGCATTTTTAATTGAGTCTTTTATATTAGCTCTCATTTGAGCAAACTTATCTTTTGGTTGTTGATTTCCTTGACTCATGCTTTGATCTTTTTCCTCCATTTTTTGAACTTTTTGTAAAGTATCCATAATGTCATCTCTGCCTGTTGAAAAAGGTGTGACTGCTTGATTATATCTATCATATACAACAGCTCCTGAAAATGAATCAGCTACTGTTTCAACACCTTCTAACTTAGGTTCATCTTCTTGTGTTGAAATAAAAATTTCTTCTTCATTATTCTTTTTAGAATTTGTTTTTTTAATACTTTTATTTTTAAATTTTTGTATTTCTTTTTCACCAACAGCAATATTTGCTAAAATACTTCCATTTTTTACAGAAGTTCCTAAATTAATAGTTTTTGTAATTATACCATTATAGTTGGATTTTATATTAATTTTAGACCCATCATCTAATTCTATAAGAGCAAAGTCTTGTCCAAAATTAATTTCTTCATCAGAAAATAATCATTCTTTTAAAATTCCTTTAGATGGTAAATTTCTAACCCTCATATGAACCATAAAGCATCGCTCCTTTTTAAAATATCCACTATCTATAATTATATAAAAAATAAAGGCAAAATCCTACCTTTATTAGTTAACATATTAATATATAAAATATTATTTTTAAAACAGCTAATCAACATACTTAGTTTTAAATATAATGACTCCTTTTTTTACAAGTTTCTTGTAACGTTCTGCTTCTCTAAGATTTTCTTTAACAAAAGGTCTATCCTTATAATTTAAAGAAACAATAAATCTTTTAATCTGCTCTTTATTTGCTTTTTTCAGTATTTTCTGTTGTTTTATAGCAGCTTTTTTTACTTTTTCTTCTAAAAATCTAGCTTTAAAGTATTCTTTTCTCTTTTTTATTCTTTCTTTTTTTGGTAGTGATTTAATACTTTTTAAAAATACTTTATAAGCTGTTTTTTTATGAAGTAGAGTCATTTTATATTCATTTTTTGCAGTACTTTTTTTCAATTTAGCTTTTTGTTTACGATAGGCATGTTCTTCACTTGTAATAAGATTTCCCTCAATATCATGTCATCTATAGAATTTTTTATTATTTCAACTTAAATATACAAATTGTAAACCAACAACTAGAAAAGTTATAGCAAAGCAAGATATTACAAAAACAAGAAGTATAAATCATTGTGGTAATAAATTTTCACTAAAAACTGTTCCATTTGCTTCTAATTTAAATTGATGAATATTTAAAAATCAATATGGATATCACATTTGTTGACTAAAGTGTCTAGTTTGGTCAATAACTCCATTATCTGAGTTTCAGATATTTGTCCAAAACCAACTATCTGCAGGAAGAGAATAAATTTTTTTAAAAAGTTCCGGCGAATAGTAATTAAATCGAATTTCACCTCTTATCATTGCAAAAGCTAAATATCCTGCAGGATAAGTACATGTCAAAGGAAGTGCAAATTTTGAATATCTTCTAGCAGAAAAATATTGATCTCCACAAGATAATAAAAAGTAACCTATCATAATACTTGGTATACACAAATGTAAAACCATTGTAGAAATTCAATTTGATGGATAATATGCATCCATTTCATCACTTGATGCTAAAAGACCAAATCAGAAAACTAACATTGTTACTGTAATATAAACTGTCATAGCTAATTCAATACCAAAAACCGGTTTTGAATTATATATTCTTTTCATAAACAAGGCAGCTACTAAATATAGAACTACTGCATAGTTAGATTGTGTTGTAAAAAAAGAATAATATATATTTAATCTTTCAATTGCTGGTAAACCTTCAAGATTTTTTTTAGGTGAATATATTTGAAGTACAAAGTCTAATATTAAAAAGGAAATTAATAATATTAAAACCATGACCTTTAAAGAAAATTCAAAATCTTTATTAAGTTTCATTTACTCTCACCCGACTTCTCAATATAAAAATTATATCTAATTAAAAACAAAAAACCAAACCTGAAATTTGATTTTTAGAAATATTTTATAAAAATTTTAATGTTTCTTTGCAAATCATTAATTCTTCATTTGTTCTTACTTTAAAAACAGGTATTTTTGAATCTGTTGAAGATATTTTTAAATAATCTCCATATTTTTGATCATTTAATTTAGAATCTATTGATAATTCTAATAAACCACACTTTTGAGCAACTCTTTCTCTTATATTTGAAGCATTTTCTCCAATACCTGCTGTAAATATAATTCCATCAATTTTGCTATTAATTTGATTTACAAATTTGACTACAAAATCAGCAACAGTCTGTGTGTAAATTTCTAAAGCAAGTTTAGCTTGTTCATTATTTTTTGAGGCTGCATCAACTACATCTCTCATATCACTGCTTATTTCACTTATACCATACAAACCTGATTCCTTATTTAACATATCTGTAATTTCAAATACATTTTTTCCTGTTTCTTTAGAAACATATTGAAGAATTGATGGATCAATATCTCCACTTCTTGTTCCCATCATTAAACCTGCTAAAGGAGTTAATCCCATTGTTGTATTATATGATTTTCCATTTTTAATAGCACAAATACTTGCTCCATTACCTAAATGACAAACAATTAAATTTAAATCTTCTTTATTTTTGTTAAATATTTCTTGAGCTTTATATGTAATATAATCATAGCTAATCCCATGAAAACCATATTTTCTAACTTTTAAATCTTTGTATCATTTGTAAGGTACTGAGTACATATAACTAATTTCTGGCATTGTTTGATGATATGAAGTATCAAAACATCCAACAAGTTTAGCTTTTGGCAAACTTTCTTGAAATGCATTAATTGAAGTTAAAGCACCTGGATTGTGTAATGGAGCTAATCTAATATTTTCCTCTATTATTTTCTTAATTTCTTGTGTTAATTCTACTGTATTGACAATTTTGTCACCACCATGTACTACTCTAAAACCAATACCTTTAATATCTTCTGGTTTTTCAATAATTTTTAACTCAGTAAACTTACTTAAAATTAACTGAACTGCTTGTAAATGGTCTATCATTTGCTCTTCAAAAACATGTTTTTTTTCATTAACTTCAATGATTAATTTACCATCAACACCTATTCTTTCTGCTAATCCTTCTACTAATGATTTAGGATTTTCAGGATTTTTAATATCAAATAATTTAAACTTAATTGAGCTACTCCCCGCATTTACTACTAATATCATTATTTATTTCCTCCATTAAACATTGATGTAAAAATTGTAATTATAGATGTTTGTTTTATATCTTCTAATGTAGCTCCTCTTGATAAGTCATTTACAGGTTTATTTAAACCTAAAATAAAAGGACCTGCAGCTTGATAATTACCAAGTCTTTGAGCTATTTTATAACCTATATTTCCTGAATTTAAATCTGGAAATACATAAACATTTGCATGTTCTTTAGTAATTTTTGATTCTGGATATTTTTTATCTCTAACGCTTTTGTCAAATGCTGAATCAAATTGCATTTCTCCATCAAACAATATACCTTTAGTATTTTTAGTTTTCAGTATTTCAACTGCCTCTTTAACTTTTTCAACACTAGGTCCCATTCCTGATCCTTTAGTTGAATAATTTAACATTGCAACTTGAACATCATCTTCATTTAGTTGCTTTGCAAAATTTGCTGCCATTGAAGCTATATCTGCTAATTGTTGAGAAGTTGGATCAACATTTAAAGCACAATCTGTAAATAAATATATGTTTTCATCTTTTGACATTAGAAATACTGAAGAGGCAATTGAATACTCTGGAGATGTTTTAATAACTTGTAAAGCAGGTCTTAAAGTATCAGCTGTTGTATATTCTAAGCCACAAATCATTGCATCTGCTAAATTTAATTTCATCATCAATACACCAAAATAGGTTTTTTGTTTTAATAGCTCAACAGCAGTTGGTTTATCAAGTTTACCCTTTCTTACCTCCAAAAATACTTCAATCATTTCTTCTTTGTTATACTCTTCAAGAACAACTACTTCAATTTTTTCATTTAAATTGCTAGGTACTTCTTTTCTTGAATTAAATAATAATATTGGTTTTGCTAAATTTTGCTCCACTAAAAATTGAGCATTTTCTTGAATTTTTAGTTGATTTCCCTCTGGAAATACTATTTTTTGTTTCTTTTCAACTAATTTTATTTTATTTTCGATTTCTTTTATTGTTCACATATTTTAACTCTCACTTTTGTATTTTTCTATTTCTTTTAATAAAGAAGATGAAACTTTTCTATTTTCATTGTCTGATAAAAATAAAACTGTTTCTAATTCACTATATATACTTTTATTACCATCATGTAATTCAATTTCATAATCCAATGTTTGAGAATCTCTTATACCTCTAACTATATAATTTATTTTTCTCTCTTTTGCAAAGTTTGCAGTAAGTTGGTTTTGATTTATTTCAATTTTTACATTATCTAAATATCTTATTTTTGATTTTATTTTCTCTATTCTTTGAACTAAATCTGGATTTTTATCTTTTGAAATATTTTTTGTAACTACTAAAATTACTTCATCAAACAGTTTTGCTGCTTTTAATAAAATATTTAAATGTCCATCATGAAAGGGATCAAAACTCCCAGGATATATAGCTTTTTTCATATTTATTCCTTTTTTAATATCATTATAATTTTATAACCTTTTTAATGAAATTTTTTTCCTTTATTATATTTTATGTAATAAAATATTCTAAAAGAAAGAAGAAAAAAAATGAAAATACTTTTAATAGATATTGGAAATACCACAGCTGATTTTCGTCTTTGAGACAGTCAACAAAGTAAATTAACAAAAATCATAAGACCTTTAACAAAAGATACGCAATGAAGAAGAAGTAAAGCCTTAGTAAATTATTTTAAAAATAGTAATATAAGTTTTGATAAAATAGTTTATGTTTCTGTAGTTCCTGAATGAAATGATATTTTAAGAGCTTTTGCAAGCAATATTGGAATAGACATATTGAATTTAAGAAGTGACTTGAAAATAAATAAAACTGATTTTGAAGTTGATGATATAAACAAACTTGGTGCTGATTTTATTAGTAATTTTTATGGAGCTTTAAAATCTCACAATATTAAAAATGGAGCGATCGTTTCTATGGGCACAGCTTCTACAATTGCAATCGTAGAAAATAAAAAATTTAAGGGAGCAATAATTTGTCCAGGGTTAAAAAACTCTCTAAACTGTTTAATTTCAAGTGCAGTTCTTTTAAAAGATAATGCTTATAGTAAATCAAATAAAAAGTATGGAACAAATACAGTTGATGCCATAAATACAGGAGCTTTTAACGCTCACTATACAATGTTAAGTTCCACTGTTAAAAATTTAGGTTATGAATTTGCTATATTCACTGGTGGTAACTCTAGCGATTTTAAAGACGAAATTATCAAAGATAATTTTATTTTGGATGAGGAGCTAATTTTTAAAGGTTTAATAGAACTTAATAAATAAAAATAGCATTTAACTTTAGTTAAATGCTATTTAAAAAACTCAATGTATCTACAAAAATTTCTTTTTTATTAATATCAAAAAGAATCTCATGTCTTAAATTTTCATATAATTTTAATTTAGTATTCAGTTTAGCTTTTTTAAATTTTTTATATGTTTTTTTAACACTCTTACTATAATTTCCCACAGGATCATTTGAACCAGATACTAAAATTATTGGTAAGTCTTTTCTTATTTTTTTAATATTTTTATTATTTTGAATGTATATTAAGCCTTCAAATAAATCTTTAAACGCTGAAGTTGTGAAGATTTGACCACATAGTGGATCTTCAATAAATTTCTTAACATTATTTTCATCTATTGATAATCATTCCATTCCTGTTGAAGATTTCTCATTGAATTTTTTATTAAATTTTTTATAACTTAAATTTCAAATGAATTTATCTATATTTTTTGACCCATATTTTTTTTGTCTACTAATAGCAATTTTTCTACCGAATTTTAAAGCTAAATTACTTTGTCAAGCAGTTCCACTAAGTATTAATCCTTGAATAGTTTCAGAAAAATCAATGGCATAACTTCTTGCTAAAAAACTTCCCATAGAATGTCCTAACATTACTATATTTTGATTTTTATAATTTTGTTTTATATAATCATTAACTTTTTTTAAATCTTTTACTAAAATATCTCAACCATCTTTATCTGCAAAATATCCCAATTCATTATTATTTAAATCTGCTGTTTTACCATGACCTCTATGATCATTTGAAATAACAACTCAACCATTAGCATTTAAGAATTTTGCAAATTCATCATATCTTTTTGAATGCTCACAACTACCATGAACAAGTTGTAAAATTCCCTTTACAGTTTTAACATCTTCTCAAATATAAGTATATAAATTTTTACCCTCATGTCCTTTAATTAATAGTTCTTTCATAAAAAACACTCCTCTAATATTTATTTTATTCCTAAAATAAAAAAACCCCTAATTATTTAAGGGAGTTTTATTATTTTATTGCTGCTTTTGCTGTATCTAATGCTTCTCTTAATCGATCACAAGAATTTGTTAACAATTTTTGTTCTTCTTCAGCAATATCTCATTTTACAATTTCTTCAATTCCGTTTTTTCCAAGAATACATGGCACACTTGTATAAATATCCTTGTTTCCATATTCACCATCTAAATAAGCTCCAACCATCATCATTTTTAGTTCATCATTTAATATTGTTTTAGCAATTTTTGCTAAACAAGCACCGATACCATAGTTAGTAACTCTTTTTTTCTCAATAATTTTATAAGCTAAATTTGTTGCCTCATCTTTAACTTCTTCTAAATCTTCTTTAGTAATTGAACCTTCTTTTATATATTCTTCAATACTTTTTCCAAATATATATCCTCTACTTCAAGCTGCAACTGAAGAATCTCCATGCTCTCCTAATAAGAAAGCTTGAACAGCTTTTGGCATTACTCCTAATTTAACTGCCAACAGTCTTCTCAATCTTGCTGAATCTAAAGTTGTTCCTGATGAAATAACTCTTTTTTTATCAAATCCTGTAACTGATTGATAAACGTAAGTTAAAACATCAACTGGATTTGATGCAATTAATGTAATTCCTTTAAATCCTGATTTTTTAATTTGTGTTGCAATTTCTTTCATAATTTTTGCATTATCTGCAACCATTTCTAATCTAGTTTCACCAGGTTTTTGAGGTCTTCCTGCAGTAATAACTATTAATGCTGCATCTTTACAGTCTGAATAATCTCCTGCTTTAATTGAATTAAATGAATCTGGCAATACTGCTTGTGTATCAGCAATATCCATTTCATTTCCTTCTGCTGCATCTTTGAAAACATCTATTAATACATAATCATTTGCAATTCCTTGGTTAACAGCAGAATAAACAAAACTTGTTCCTACAGCTCCACAACCAACTAATACTACTTTTTTGTTATTTATCATATTTATCACTCCTACACTATTATATTAATACAAGCACAACTTATTTACACAAAAAAATACAAAAATGAAAAAAAATTGCAAAAAAATACCCTTTTGGGGTATTCATATGTACATATGATATTGTAAATTAACGTTTTGAGAATTGTGGTGCTCTACGTGCTCCATAAAGTCCGTATTTTTTACGTTCTTTAACACGAGCATCACGTGTTAATAAACCATGTCCTCTTAATTCTGGTTTGTAATCTTTTGAAGCTTCCAACAATGCTCTTGCTATTCCTAAACGAGCTGCTCCAGCTTGTCCAGTAAATCCTCCACCTTTAACAGTAATTTTGATTGAAAAATCTGATTTTGTTCCAGTTGCTTCCAAAGGTTGTTCCATATCTTGCACTAAAGTAGCATATGGGAAGAACTCTAAAGCTGGTTTCCCATTAACTATAATTCCACCTTGTCCAGGAGTTAATATAACTTGAGCAACTGAAGATTTTCTTCTTCCTGTTCCTCTATACATAACAACGTCTTTTTTTGCTGCCATTATTTATTATCTCCTTTTTTTGATTGAATCACTAATACTTCTGGATTTTGTGCTTGATGTGGATGTTCATTACCTGCATAAACGTGTAATGCACGGTATTGATTTCCCCCTTGAACATTTTTTGGTAACATTAATCTTACTGCTCTTTCAATAATTCTTTCAGGGAATAATTTACGTTGTGTTGCAACGTTTCTAGATTTTAATCCCCCAGGATGCATTGAGTGGTGGTAGTAGTTTTTATCATTTTCTTTTTTACCTGATAAAATTACTTTTTCTGCATTGATTACGATTACATGATCTCCATTATTAATATGAGGTGTAAAAGTTGGTTTATTTTTTCCTCTAAGTACCATAGCAATTTGTGTAGATAATCTACCCAAAGTTGCTCCAGTAGCGTCAACTACATATCATTTTTTAGCAATATCTGCTGTTTTAATAAGTGTAGTTTGTTTCATGTGCTTTTTCTCCTTACCTTCCGGGGCTTGTGAGTAAGCAAATATATTATACATTATTTCTTAATAGTGACAAACAAAAATAATAGAAAATATAAAAAACCTCAGGTTTAATCTTTCAAATAGAATAATAACATAAGGTTTTTAATTTTAATTAAATTTTATTGAAAATAACTAAAAGTCAATTCAATACCATCATTGTCTTTTAAATAATGTGCTTTTTTATCATAATCTCCATTTTGCTCTTCTGGAGATTCTGGTCTGTTATCATTTTCTTGATATGGTTTTAAAGTGAATTTCATTTTATATCTATTTTCTTGTCCTTCAATTGGCTCTGCTTTAAAATTATCTAAATCTAAGTCATTGACAAATAATCCCCAATAAGTTGGATTTGTTAAATTATCAATAATAAATTGCATTAATACAGTATACTGATCTTTTCCAGGTAAAGTTCCTAATTCTGTTTTTGGAGAATCCAAATTATTTGAAGCTTTGACCATTTCCTTTATAGTCATTGGATATGTGTCATTTTCAGGAGAAATAAATTCTTTGACATCATAATTTAACTCTAAAGATCCATAATAACCAGTAGGTTTTTCTTTAGGAATTGTATCATTTATTTTTATGGTTGCTCCATCAAGATTTTTATTATATACAAAGTTTTTAGAATTAGTTAACTCTTCTCCAACTTTTGGAAGTTGTTTAATCATGTCCATATTATTAAACATTAAACCCATCATTATTGTTCTTGGTCTATGATCATAAATTGTACCTATACTAGTAACTTTAAAAACATCTTGTAAATGTAAGGAATTTGTAATTTTAATTGAAGCAGTTATTTTATCATTACTATTTTTTTTGTTTGTAATAATAAAATCATAGTTAGCATTTCTAAATATATCAGTATTTTGTAAATCAGCTTCAATTCCATTTTTTAAAACTTGGATATTTAAATCACTCTCTTCATATCCTGCTAATTTTAAACATTGTAAAATTTCTTTTAACAAATCATCTGTATAAAATATCTTTTGAACATCTACACTATCCAAGTTTACATTTTCAAATCCATTTTTTACTATTGGTAAAATGGGAGCTGGTCTTCAAATATTACTTCCCCCCACACTCTTACAAGAAACTACACTCATTGTTAAAGAAGGAACAAAAATAAATGCTGAAATACTTATAATTATTTTATTAAATACTTTACTCATTTTTTTAGCCTCCTTGTACTGCCAATAACATACTTACTCTTTTTAAAGAATTTCAACTTAAAATATTACTTATAATATATAGTAATCATGTTCCCAAAATTCCAGGTATTATATATCATATTTGGAAACTTAATGGTAATGCTATAAGTGGTGTTAATACATTAACACTAAGAGTTATAATTCCCCAAGCTACTCCAAATCCTATAATTGAACTGATAATAGCAACTGGAATATATATACCAATAAATAATTTACTTATATAAAATTCTTTATAACCAAGTATTTTCATAACAGCAATTATTTTTGCATTTTCAGAAATTACTAAATTAATAGTTAATAAGATAATAATGGCACTTAAAAATATTGAAACAAATACAACGAAATAAATAATCATATTTACTGTATCATTTACTCTAGAAATAACTTTTAAAGCTTCATCAGTTTTAACAGCTTTTTCAATTGAGCTATTTGAATATCCAGAATATGAAGTGGTAGCATCTGATCCACCATTTAAACCAATCATGGAGTAATCTCCATATTTTTGATTTGTTGAAACTCCTTTTGAAATATCTGTAAAACTATTATCATAAGAACTTTTATAATTAAATAAAGGATATTCAGATTCAAATAATTTCATATATATTTCGTTTCCAGATTGATTTGTTCAATTTTTAAATTCACTAAACAGCTCACTATTTGAAGTATTTTTGCTTATTAGTTCATTTAGTTTTTCTGATAATCTTTTTATTTCATTATTTGGGTTTTTAGGATTTCGTCACTCTTCCATAAAAACTCTAAATAATAGTTCTTCAGACTCTTTATATTTAGACATTTCTTTAGCTTTTTCATTATTAATTCAAGCTTTATTATCTCCATATTGATCAACAATTCCAGATATTGTGTATTCAAAGTCTGATTCTAAATTTTTAATAGATATATTTGAGTTTGCAATATTTTTTGACATTTCTGTTGCTCCAACTAAACTTGGGCTAGTTACATCTATTTTTGATTTATAAACTCTATTATCTCCTAAAGGATTTATAACAGAGTTTTTTCAACCATTTCCATTATCTTTAATCATTGAAGAACTATATAAGTTAGAAGCTAATGTAAATCCATCTTCACTAGTTGAAGCTTTTAAAGATGAAGTATTTCAACTATCCATTTTTATTTCTTGTTCTTTATAATTTAAAGCACTAATTATGTGAGTTACGTTTACTCTATCTCCTGTTTTTAAATTTAATCTTTTTGCAAGAGATTGATTAATTAATATTGAATCATTGTTTTTAAATAATTCTTTTTTTAAATCGTTTCCTTTTACATCATTTAAAATTTGAGTTTTATTATCTTCTTTAATACCATAAAGTTTTAAATTCAGATTCTTAATATAACCATTTAAGTAAATTCCAATATCTTCTTTTTGTGAGTTATAAGGAATTAAATTAAATAAAGTATTAAAGTTTCCATCTTCTTTTTTAAACTCTTCTTCAAGAGTTGTTTTTATCATAGAAGGTGATTGACTGTAAATTCCTTGTAAAAAAGCTTGTTGTAAGTTATTAAAGAAAGATGCAATTATTCAATTATAAATTGGAATCATAACTGTGATTCTGGATTGAGTTCAATTTTCATTTTCTTCTCTATAATCATAAAGAGATTTTTCCATTGGTTCATCACCTTCAATTTGTCCAGTTTTCAAAACAAAAGTTGAAGGCATAGTATAGCTACTTCCAAATATATTTTTAAAGTCGCTATTAGATATCATTGGTTTTCCATCTTTTTCAGAACCACCTGTTGCATTTAAAAGATATTTTGAATTAACTTTCCTGAAATAATCACTTCTAGAAACTACAGAATCTATTCCAATAGTGTTTCTATATTTTAAATAAAATTGTCTTAATTTTTCTAACTCTTCAATATTTTCATTAGCTTTTGCATCACTTGAAATAATATTTAACAGTGATTGCTTGTTTCAATATTTATCTAAATTAAAACTTTTTAAATCAGGTCATAAATTAAAAATAACTGTTTTATAATAATTATTTTTAGTTCAAATATCTGTAATGTCTCCAAGATCTAAAGTAAGATTTTGATTTTTTAAATAATCTATATCAATTGATTTATATGTCATATCAGTTAAAGAACCAACGTCAGTTGAAGGATTATAAATCTTTTGTGAAACATTATTATTTAAATACATATTTCATATATTCTCTGATTCAGATACATCTAAATTATTTCCACTACTATAAGGATTATAAGTTTTATAAAAACTTGTGGGTACATTATAAAGAGGACTATTATATTCAATTTGATTGTCATAACCATCTTTTATATAAGTTTTAACTTTATTTTGATTTAATACATTTGGCATGATAGCTCCAACTGTAATTAAAGATGAAGAAACTAACATAACTGTAAATACAGATAATAGTTTTAAAATGGAACCAGATAATATAGCTCCTTTAAATCTACCATCAAATTTTCTTCCTTTAACCAATACTTTTTTTATAGTAAGTTTAAATCTATTAGTTGAACTTCTGCTTTCAAAATTTATCATTTGGAGAGGTGTAAATTTATTAAATACATAAAAATATGTAATTAATGTAATAATTTCTAAAAAGATAAACATTCCAAAAATAGTTACAAGAAATGATTCTCAAGATATTTCAAAAGATTGCATTTTTATAGAGAAAAAGTTATTAATAATTGATATAACTGCTTCTTGCATAACCATTCCTAATAAATAACCCGCTGTTCCCCCTATTATAGAAATAAATAAGGGATACAAACCATTTGATCATATTAATTGAGCTTTTTTATAACCAAGAGAAAGTAGTACTCCTGATTGTCCAAAAGATTTTTTAATTTGATTATTTAACATTACAACCAACATGACAATACCAATAGATAAAGTTATAAATATAATAATGTAGCTAAATATTTTATAACTATTTATTGTTAATTTTAATAATGTTGTTCTTCCATAAAATTTATATCTTGTATCTCCTCTTTGTAAGACTATTGGAACTGTTTTATTTAATGTATTTTCATAACCAGCATATAAATTAAGTTCCTTTGCTTTATCTAAATTTGTTAAATATTCATTTATCTTATCTGTAGAGTTTTTAATATCATTTCTATTTTTAAATTTTGCTACAAAAGTTACTTCTTTATCTGTATTAGAAGAAGCTGAAATAACTTCTTCATTTTTAATTTCACTGTTTGTATATCAAATTTTTTGATTTTGTGGATTATTAAGTTCAAAAATATTTTCTGGAAAAATACTTTGATAATAAGTATTTATAATTCCCAAATTTGAAGGTTCAATATAAACTAAACCTTCACTTTTAGTATTTGGAAGAGGTTTTGTTTCATCTATTATTGGAGTTGAAAAATCAGCAGTTGAACCAAAACCTACAACTTGAAATCAATCTTGACTAGCATATTTTGTATTCTTTATTCAAGAATTAATATCTATATTTTTATAAAGAGATAGATTAACTGGAGTAATTTCACTATCCTCTACACGCATAGTTGTTCCATACTCATCATCTTTTAATCTAATAACATCATCAATTTTAATATTATTTGCTGTTGCAAATTCTTCATTTAAATAAACTCATTTTTTTGTATTAATATTTGTTGCCTGAGTATATTGCTTTCACAGTTCAATACTCATTCCCTTGCTAACAACAAATTTATCAACTTTTTGATCTGGGTTTAATGCAAAAACCTTTAAAGTTTTATTTGAAGATAAAGTAGAAATTCTAGACTCTACTCTATCAAAATCAAAAGCTAAATCTGTATTATTTAGTTTATTTTGTAAATAAGTTATTAATAAATTATCTTTAATTTCATCATTTGAGATATTTTTACTAAATAAATCTTTTTCAAAATCTTTTACATATGAAGCTTTTGATAAATCAATTACAAAGTCATGGATATTACTATTATTTTCAGAAATAAAACTATTATAGGACTTCTCAATTCTACTTGTTGAAGAGTAGGAAAGAGTAAAGACAAAGGAAGTTAAAAACACTAGAACAATAATTGTAATTAACTGTATTTTATTTCTTAATAAGTTTTTAAAAGCATTTTTAAAAAATGGTTTTTGATTTTTCATTAGTTAGTTGATGTTACTTTAAAACTTTGTGATTTATATCCATTAACTTTAATTGTAATATTAGCGTTTTTTGTAGCTTTTGATGAGTTTAATTTTATTGAATAGTTGTTCTCACCTTTATCGATAAGTTCTGCAGTTATATCTGATTTATCTGATTCTACAGTTACAATTTGACCTTCCAACATATTTATCATGGCAAAATCAATTTGTAGTTCTTCAGTTATTTTGAATGTTTTATCTGAAATTGCTTCTGAAGGTTTTTGATTTAAAACTATAATATCATGACCTTGATAAAAGTTTCCTTTAGTAGCTGCAGTCATATCAAAATATCCCATACCTTTACTATGTCTTTCTTCAAATTTTTTATTCTCTTCATATTTAGCAAGATTCCCTGCACCTGTACCTATTCCTGCTCAAAAACCAGGACTAATGTAACTTTGAAATGCTGCTCCATCATGTCCATATAATATATCTGATCCTGGTAAAACATCAAATTTAAAATCAAGATATTTTCCGTTATCATCTTTTGTATTAAAAATAATATTTGTAAATTCAATAAAATGACTTAAAGATATTTTACTTTTAAACTCTTGACTTAACTGATTGTAAACTTCAGTTTTAGCATTTTTTTGTCCACTTTTTGATTTATCTACTAAATTTTGAGCACTTATATTAACTTTTTTATTTTCTGGCAATGATTCATATATAGTTATTCTATCTTCTTGTACAAATTTTTGAGTAAATTCAATAACAGAATTTGCTTTAAAAATACCTTTCAGATCTGGCATTCCATTTATCTTAAAAGTTGTTGCTGAAACTGTAGATTTGCTCATTAACTCTTTTCCTGGAGCTCCTAAATCTTTAACTAAATTATTTTTTATATATTCTAACTGTTTATTTTTAGCCCCAACTTGTTCAAAAATAATTGCTGCTAATGATATACTATCTTTTGAATTTGCTAAAACTTTATCTAGTTGATTGAAAGAACCTTTAAATAATCTTATTTCACCAAGATTTGTATTTACAAAATACTTTACTGGGTCGATATTTTGATTCAAGATAAGAGTTGTTTCTCCTTTTACATTTTGGTTTCCCTCTTTAGCAGCTATTATACATTGAGCTCCTATTCCATTATTTCCAGTTCCCTCAATAATTTCTATATTTAAGTCATTTAATAATAAATTAAGTCCATTTATTTCATTGAAACTAGCTAATACAGATTCTTCAGTTACTTTAAATCCCTCATCTCCAATAGCAATTGAAGAATCGATTAATCCATTAGTCATATTACCTGCCATAACATTTAACACTAAATTTTCTTGTGCTAAATCAAATTCTGCTAAAGTAATTTTAATATTTACATCAACACTAGTATTGCTTGATGATTTAATTGTTAATTTTAAATCATCAACTGCTTGATTATTAGCTGTTACTTTAATTCTTTTATTTGCTGAATCAAGTTCTGCAGAAGCATAGCCTTCTTTATTAAAGATAAATTCTGAAGGTTTTTTATCTTCAGACAATGAATCTCAGTTCACTATAGTTAAGTATTCATATTTACTTGTTTTTAAATATAAAGAAGTTTTATCCAATTTAAACTGATCTTCTTGTTGTATTTCATTTACATTAACTGTAATTACTTCTTTATGTCCTTTTTCAGACTCTGCAGTAATCTTTACTACAGATTTTTTTGCATTAGCTAAAGGACTTATTGTTATTTGCCCCTCTAAACCAGTAGTTGCTTGAACAATACCTTCTTCACTATAAGTAAATTTTGTTGGTTTAGATCTATTATTTAAAATCTCTCAATTAGTAATTTTAATATTTCCAGGGTTTTTTGTATCTATATCTATTTGATTTTTATCTAATTTAAAATTTGCATCTGGTAAGTTTTCATCTCCTCCAGGTGCTGTTACATTTCCACATGCAACAACTGAAAATACAGGTGCTGAACATAAAGTTGCACTTGCTAACAATATTAATAATTTCTTCATTTTCCTATTTCTCCTATTTATTTTTTTTAAAATTTTTAAGTATAATAAAAAATACTATTTTTTTTATTAATAGAACATTTATAAATTTATTGTTAAAAATTTGTAAAATTAAATTAGAGCAGGTGGAGTTGTTGCCTTTTTACTCTCTTTTAAAAAAAGTGCTACTTTTTCACTAAATAGTGTATCTTTTTCGATATTTGTAGATGTTAAAAATACTTTTATCTCATCTTTTAATTCTTTTGAATAAATTTTTTGATCATAGTTTAAAATGTTCAAAAAGATTGAGTTGAAAAAAATTTGTTCGACTAAAAAATCAAATTCTTTATCATAATTTTCTACTCATTCAATTCTCATAGCAAATTTATATACAAAAAATAGGATTATTAAAGTAACCATCAATAAAAAACTAGAAGATGCAAAAATTAAAATTCCTATGCTATATTCTAAATCATCTGTCTGCTTTGAAAAAAATTTTATTAAATAAAGAATAACAAAAGGTGCTGTTAAAATAACTAGTTTACTAACAGCTCTTAAGTGATCTTTTTTAATCATTCATTTTAAATTTTTCGTATTATTTGAGTTGATTTCTATGAAATATAGAAATTTACTAAATTCAATAGTTGTAACTAAAAGTAAAATAAACATAAATAATATATTAATAGAAACATTAAAATGGTTAAAAATAAAATTTGCTTTCCCGCTTATAAATATATTTTCTCCAGAAATAGCAGATAAATAGAAATGCAAAATTAAAGAAAAAATAAAAACACTTGGTATAATTTTTTTGCTAATTGCTTTAACTTTTAACATTATTTCATCCCCATTTTTTAAATTATACAACTTATGAATTTAAATACAAGTTTTGTAAAAGCATTTTAATATTTAAAAATATTTTTATTCATTCTAGAATAATAAAAAAATCCTTTAGGGGATTTTTTCATTTTAGTCATTTACTTTTAACGCTTCAATTGGATTAATTTTTTGTATACTCAATCAACCTATTGCAAACGTTGTAATATATATTGATGCAATTACTAAAAACACAAGGAATGGTAATCAAATTTCAAATTGTACTGGTAATACCCATGTTGTATTTATTGCCAAATAATTTGTAATAATTATAAATATATATCATCCTACTGCAAATCCTATAATATACATTATAATTACAGGCGCTATATATATTCCTAAAATTTGTCTTACTACATAACCATTTGAATAACCTAAGGTTTTCATTGTAGCTATAAATTGTTTATTTTCATAAATAATTAAACTTGTTGTTAAAAGTATTATTGTTGTAGAAACAATAACTGCTATTGTTATAAATAATATAATAATCATATTTACAACATCTGTTAGTTGACCTAGAATTATTCTAGTTTGCTCTTTTGGTAACATTGTTGAAAGTGTACCAATTCCATATCCTTCATTAAAGTTTTTTGTATCTATTACATAACATTTTTGTTTTTCTTCTGTTGTTTCATATTCACTAGTTTCTTGATCACATTCAGTTTCTATCATATTGTAATTTCCATTTAAACCAATAGAGCTAAAATCAGCGATTCTTGAAGATATTGAAAATCCATCAGTTAAATCAAGCATTTCACTTGTTGGACTATATTTGTAATTAAATATTGGAAATAAATTTTCATATAATTGATTCATATTTCTTCAACTTGAACCAATTTCACTCTTATTAACTTTTTCTATAAAGTCTTTATAAGAAACTTTTTTTCTCCCATAAATTCTTCTAAACTTAAATTATCAACTTTAATTTGATCATTAAATCCTTCATATTTATAAATTGGATTTCCTTTTGGATATTCTTTTGCAAATCATTGCTCAAAGTTTTTTTCATTTATTTTGTCATATCCTAAAATTTTATTTGCATTATCATTTGAAATTCAACATTGAGGTTGTCCATAACCATTTTGAATTCCCACAATTTTAAATTGCTTATTTAGTATCTCTTGATTAATTGATAATTGACCATTTCGATAATTTTTATATATTTCCATTGTTTCAACTGCTTTATCAGCTTTAGAACTAGCAATAGTATTAGATTGTCCTATTGATGATGCAGATACGGTTTTTCCAACAGGAAGTGGAGAAGCAGTTGGGCTATCTGCATATAGATAGTCATTTGTATATCATCCATATGTTGATTGTGTTCTTAATTCTGAAAAATCAATAGCCTTATCATTTTCTAAATTATGTCCATATGTAACATCATCTAATGAAATTTCTTTGTCATTTTGATATAGCATATCTCTTAAAACCTCAAGATTAACAATATCTCCTGCATTTTTATTAGTTTTTTTAGCAAAACTTTGATTAATAATTAAAGGAATTGTATCTGAATCTTCACTTAAAAATAAATTTCGTTTTAGATCTTTATTTTTTGAGTTTTTTAAATCAATTAAAGATGAGTTTTGATTTATTCCAAATATTTTGGCATTTTCTTGTTTATTATTTACTGTTTTAAATTTAGTGTTTAAAACAGTTCCCAATTCATCTTGTTTATTATCATAAGGTATAATATTAAAACTTATATTATAATTACTATTTTCTTGGATAGCTTTTTTAATTGCTTCTTGTACAAAATATGTTGCTCTTGTATAAGTTGTTTGTAAAACTGCCATACCCATTCTTCCATCAAGAGTTGCTCCAAATCAATAAGTTAATCCTGTATTTAATTCTTTTAATTCATTCTCTGTCATTTCATTAATCTGACTATCAGTTAAATCAAGAGGACTTATCTCTTTTTCATCTTCTTTAATTCAAACAAAATCAGCAGTTTTTTCTTCTACTGGTTTAATTTTATTTAATAAATTTTTGTCATAATAATTTTTTTTATTATTTTTTATTTCCTTATTAAATTTATTATTTATAAAGTTATGAACGAATTTATTATCCTTCACAGATCCTTCATTATAAGTTAATGATAATCCTTGTATATATTTATTATATATTTTTAGCATTTTAAAAGTATATTCACGAAGCTCTGTTTTACTTGGTGTTTTTGTCATGCTACTTAATTCTTTCATCAATTGTGTATAATCTGGTCATTGACCTTGCAAAGTTTGTAATGCAGTTCCAGAAGTTAGAAGTCCTGTTGCTGTTGCTTTATCTAAATTTCTTAGAAGATTTGTTGACATATTTCTTCAATTTAAATATGAAAATTCTGATCAAAAGAAAACATTATCTGCTGCTATATCATAAGTATAATAATAAGGACTTATCTCTCCTTTTAATAGTTCTTGTACAACTTTTTCTCAATCAATACTATTATTAATATCGTTTGATGATGGTTGATTTTCATCAACTCCATCTTTTATTGGATATGCAGTTCACCCTTTAGTAAAACCAGCAGGAGTTGTTTGAAGAATACCATTTCCTGTAATTTTTTTTCCTGCTCCTGCATCTCTTATTAAAACTTGTTCCTTATATTGACCTCAACCTGTATTTTCACTTTCAAAATTTGGATTATATGTTTTATAAAATGATCATGGATTATTTGCAATTGGCTGAGTATATTCCACCATGTTTTCATAGTTCATTCCATTAAAAGTTGCTGTTATATTATCTTTCATAACTTTTGGAGCAATGACTGTTGTTGTTATAAGTGTTGCACTTAATAACATTGTTACACTAACACCAACTAATTTACCCAAAGAAGTAGTTAAAAGTGCAGTTCTCAATCTATAATTAAAGCTTCTTTTTGATGAAAGTTGTTTTATTTTTATTGATAATTTGTTAATTACTTTATCATCTCCACCTTTTAATAAAGTTAAAGCTGATTTTTTTATAGTTCAATAACCAATAGAGAATGTAAGAATTGTTAATAAAACTCACAATGCTAGTAGACTTGCTGCAAAAGCAACTGGGTTAAATTGAAATTTAAAGAATGAAATATTGAAGTAAGTTGAAAAAACACCAACTATTTCTGATTCTATAAAAATTGATAATATATATCCTGCAAGAGAACCAATTATTGAAACTATTAAGGGTATGGCAATAAAGTTATTTACAATTTCACGTTTTTTATATCCCAATGATTTTAAACAACCTATTTGTCTGCTCTGTTGTTCCACTTGTTTTTTTGTTGTTAAAATTGTTGTAAATCCAGCAATTAGTATAATAACTATAATTAAACCATTTGCCATTACATTATAGCCAATCATAACTGAATCAAAACTTGTAGTTCTTGTTGCAAATTTATATAAAGGATCTTTTGCATCATATATATATTTTAAATCTTTAATATTTACAGATATATATTGTTTATATTCATCTTCCATTTTACTTCTTAATTCTTCTGAAGGACTATCATTAGATTTAATAGAAAAATATACTTCTCTATCTTTTTCAGAAGCAACAACTACTTTTGCTGTTTGAACTGTATAAGTTGACATTTTTCTTTTATATAAATTATTTTCATTTTTTTTATCAGTAAAACTATATATATCTGATTGATAACCCATTCAAATTGAATCCATATAAATGATTGCTTCATTTTTTGTGTTAGGCATAATAGTTGTTTCATCTATTATTGGCGTTATAAAATCAGCTGAGGTCCCTATTCCTACAACTTCAAATCATACTTGATTTTCATATCTACTATTTTTAAGTAAATCTTGAGGAGAATCTTTATATTGATTTAAGTCTTCTTTTAATTTTTTACCATCTTGTGAATTGAAGTTCGAGTTTTTTACTAAAAAATCATCTCCATATTTATCAGAATTTACTCTAATAATATCGTTTAATTTTATATCATTTGCTTTTGCAAAAGATTCATTAATAACAACTTCTTTTACTCCTGCATTAAAATTTCTACCTCTTGATACTACTAATTTATCAACACCATTATTTGTATCTGAATTAATTTTAGATACTGTTTTAATTTTCATACTTTCGTTATTATTTTTTACTCCATTTAATAATCTTGCTTCTGTATAAGAAATATCAAGATTATATTTTAGAGCGATTTGATTTAAGATATATTGTTGATAAAGTTCTTTATTTTGAACAATAGTTTTATCAACTTTATAATCTGATAGCTTATCTCATAAATTTTCTTCTTTTGATTCTTGACTATTTGGATCATTAATTTGATTGTCTAAATTTACATCTAAAATATAGTCTTTCATGTTTGAAGAAACTATAAGTTTATCATAAGCACCTGCAACTCTAGTTGAAGTTGCAGATAAAACAGATGTTACTAAAGAAACAAGCATAACTAAAAGTGACAAACCTATTATTTGAGATTTGTTTTTTCAAGAAGATTTAAATGCGTTTTTTAATAAAAGTCTAATTCCTTTCATATTATTTTTTTCCTCCTATTCAATTTATTTTTTTAAATTAAATAATGAATTTGGTGGAGTCACTCCTCTTTTAAAAATTCTTAAACTTAAGCTCTTTTTTGAATTTATTATTTGCTGAATAAATAAATTTTTTTCAAAAACCTCTTTAAATTTAATTTTTATTTTACTAAAAATTAAATATGGCATATTTACAAATTTTGTATCATTTTCCTCTTCAATAAAATTTTTAAATACTGCAAAAAATATTTTTTCACTTATATTTAACTTTACAACTTTTCTCAAACGGTTAAAAATTAAATTTAAAGAAATAATTATAATTGAAAAGAAAATAATAGAAACTAAAGAAAAAATTAACAAAATCTCTAAATTAATAATTTTTTGATTATCTTTTCAAATATAATCAAATGCTTGTGCTTCTGTTGAAATAAAAATAGGTACTGAAATTATAATAAGTTTGAAAAAATCACTTAAAAAATTACCCCTTGCTAGGAATTTAAATGTTTTTATTTCATAAAAAGTTCTTTTTAAATGAGAAATAATAATTGATGATTCAATTATTATTCACAAGCATAAAGCTGTTATTATTATTGTATTTATAATTGATGCTATTTGAATTACTTGATAAAATTTATAATTCCCTTTAGCATATGAAATTGAGATAAATAAGATACTTAAATGCATGATTACAAATAAAATATATACATTTTTAGCAATTTTTTTATTTATTGAATGCTTCATTTTTGAGTACCTCTACTATTTTATATGATAACACTATAAGGTTGAAAATCAAATCTGGTTTATAATAATATTTTCTACTAAAACTTATAAAAAATAAAAAAATGTGCTAAGCACATTTTAGTCAGTTAACTGTAAGCAAAATTTATTATATACCTTTTCCTTCTTGTTCTACTAAAACTTATGCAAAAAAGATAAACTAATAAAGATTATTTACTTCTTATTTTTTGGTATATTTAAGTTCTCTTAACTGACTTAAATATATATTACACTAAAAAATAATTAATAGTCTATTTTTTTTAAAATAAGTCCTTCTGGATTTGCTATAAAAGGCATTTTTTCTTCTCTCATATTTAGAACATTTTCAATTTTTTTAAAGTTAATTTTATTTAAACTATAAGCAATAGAGGCACCAACAATCATTCTTATTTGATATCTTATAAAACCTTTAGCTTTAAACGTTATTGTGAAAATATCTTTTTCTAAATTTGTTTCAATTGAATTAATCGTTCTTTTAGTCTCAATTAACTCTTTTTCTTCAATTTTTAAACCTGAGAAATTATAAAAATCATAAGTTCCTATAAATATATTTAAAGCTTCTTTCAATTTAAATAAATCAAGTTTGTTATTTGGTGAAAAATAATATCTATTTTCAAAAACATTATTTTCCCCTAAATTGATTTTATATTCATAAGTTTTCTCTTTACAATTTCTAACTCTAAAATCTTTTGCTATTTCTTTTACATTTAAAATTTTAATGCCCAAAGGAAGACTTCTATTAAGTGCATTTAAAAACCCTTGTACATTTGGTTTAAAATTTAGTTCTACTCATGCTTTTTGATCTTGTGCATGAACTCCTGAATCAGTTTTTGAGGCTCCCACTATTCTAAATATTGAGTTTCGTGCAACTCGCGAAATTGCAGATTCTAATTCTCCTTGAATAGTTGATTGATTTTTTTGTTTAGCTCAACCACAAAAATCAGTTCCATCATATTGAATTGTAAATAAATAATAATACATATTAATAAATTTTAAGAAAATAGAATGCTATCTATTCTAGGAATTTGTAATAGGTTTTCAAGTGAAGGAATATTAATATAACAAATTAAAGCTGAAAATACACCTATTCCTAATATAAAAATAACTATATCTAAAATTCTAAACTTAACTTGTCTATATCTTGTTCTTTTTGCATGTGGATCATATCCTCTTGAATCCATCGCATATGCTAAATCCTCAGCTTTTTGGAAAGCAGAAACTAGTAAAGGAATTATTAAAGAAGTCATTGATTTAGCTTTATCAACTAATTTACCATTTTTAAAGTCAATACCTCTTGAAGATTGAGCTTTCATAATTCTTCCTGCTTCATCAATTAAAGTAGGAATCATTCTTAAGGCAATTGAAATAATTGTTGAAAAAATATAAACAGGTATTCCAATTAGTTTTAATGGTCATAATAAATCTTCAATAGCTAAAGTTAATTCCAAAGGTTGTGTTGTTCCAGTCAATATTGTAGTTAATGTAATCATTAAGAATATTCTAATTGTCATATATAAAGCTGAATATAATGCTTTTTCTGAAAAACAAAATGCTTTTCATTTATAAATATAACCAAAGCTATTTGCACCTGTATTATATCCTCCATCAGCAAGATTTGAGAAGTTTTCTGGCCTTAGCATGAATATATTTATAAGTATAAGAACTATAAAAATAAATGTTATTGGAAAAAACAATTTAAACAACATTTTAAAACTTAATTTACTTACAGCATACATTAAGAATATAAATGTAGCAATTAAAACAAATCCTGTATATCCTATAGGAAAAAATACAACAACAATTAAAGCAATAATCATAAATAATTTTAACCTTGGGTCCATTTTATGAATCATTGAATTATACGGCATATATCTACCAAATACCATTCTCATTATTAATTTTCTCCTTTCCTATTTTCTTTTAGATTTAATTGCTTTTGCAAGCTCTTCTACTGTTCTAAATTCAACGTTTGTAATATCTAATCCTGCATCTTTTAATTTATGTGCAAGTTTATATAATTTTGGTGGTTCAATTTCTATTTTTTTCAACAATTCTGAGTTTGAGAAGATTTCAAAAGGTGATCCTTTTGAGATAACTTTTCCTTTATGCATTACAATAACTTCATCAGCTATTTGCAACACATGATCCATATTATGAGTTACAATAATAATTCTTTTTCCATTTTCTTTATTTAGTCTATAGAATAAATTCATAAAATCTTCTTCACCTTGTGGATCTAAACCTCCAGTTGGTTCATCTAAAACTAATGTATTTCCATTCATTGCAATAATTCCTGCTATTGCCACACGACGTTTTTGTCCCCCACTTAAATCAAATGGACTTCTTTTTACATAATCTTCCGGTAAATCTACCATCCTTAATAATTCAGGAACTTTTTCAAAACTTTCTTTTTTATTTGCTCCTAAATTAATTGGACCAAATGAGATATCTTTTTCAATTGTATCTTGAAACAATTGATATTCAGGAAATTGAAATACTAAGCCAACTTCTCTTCTTAACTCTTTTACTTGTTTAATTTTTTTAGTGGAAGCAGGTATTTGGAAATTCCCAATAATTGTTCTACCTGTTTCTGTTACTAATAAACCATTTGTTAATTGAATTAAAGTAGATTTACCACTACCTGTCATACCAATTACTGCTGTAATTTTACCTTCTTGTATTGTTAAATCAGTACCATTTAATGCCCTAAATTCAAAAGGAGAATTTTTACTATATGTATATGAAACTGAATCAAATTTAATTTCTCCATTAAAGTCTCATTTTGGTTCAGTTGCAATATTCATTTTTCTTTTGAATTCTTTTTTATTAGCTGAGTTTTTTTCAGATATATTTTCATATCATTTTTTAACTTCATTTACTCTTTCTGGTATTAATTGTTTATCATTTTTTATATAATCTTTAATTTCTTTTTGATATTGTTTTTGATTTTTTTGATCATTTTTTATTAAAAGAGAGATTTCTTTATGTTTTTCTTTTCGCTTTTTAGCATCTTTTTTTTGTTTTATAGAAAGTTCTTTAGTATGTTGTTTATGCTCAGCTTTAGCTTCTTTTTTATCAGCTAATAATTTTGCCTTTTTCTCTGGTGACATTTTTCTTATTTTTGACATATATTTTTCACCAACTCTTCCAAATTTGCACTTCCTGAGATTTTCATTCCTTCATTTTGAAGTGCTTCTTCAATTTGGGCAACAAAAGGAATATCTAAATGAATAGATCTTAAAAATTCTTTTTCACTTAGTATTTCTTTTGGTGATCCAAATTTTACTAATTCCCCTTTATTCATAACCATAACTTTATCTGCATTTAAAATTTCATCCATATCATGAGTTATTGAAAAAATTGTTTTTTCTCTTGTATTTTTTAATTCCACCATGATTTCTTTAACTTCACTTTTTCCTTTTGGATCAAGCATACTTGTTGCTTCATCAAAGATTAAAATGTCAGGAGATAATGCTAAAGCTGATGCAATAGCAACTCTTTGTTTTTGTCCCCCACTTAACATTAAAGGCTCATGATCAAGATAGTCTTGCATTCTAACTTTTTTAGCCGCATTCATTATAATATGAGGCATTTTTGATGGTTCAATTCTTCTATTTTCTAAACCAAATGCAATATCATCTCTAACTGTAGAACCAATAAATTGATTATCCGGATTTTGAAAAACAATTCCTAAGAATTTACGAATCATATTTATATTATTTCTCGTAACTTTATTTCCATAAACTTCTATTGATCCATTTGTTGGTTGTAAAACTCCTATTATTATTTTTGATAAAGTTGATTTACCACTACCATTATGACCTATAATTGCTACATAATCTCCGTGTTTAATTTCAACACTAACACCATTCACAGCAAATGGATGTCCTTCTCTATATCTGAATTTAATATTATTTAATTTAAGAGCAATATCTGATAGTTGAGCAAGTTGTCCCCCATGTCCTCTATCTTTTATTGCAACTTTTGATTCTTTATATATAAAAACAGCAAGTTTATAGTCCTCAAATAATTTTCAATACTCTTTTGAATTTTTGCTTACAGTTTTTAATTTGGCTTTTGATTCTTTTACATTTTCTAAAAAGAAACTATTGTCAGTTATTTCTTTATATTCTTTTTTTATTGTTTTGTATTCATTTTCTGCATTTTTTACAAAATCAATATCTACCTCTCGCTTAGAGAATTTGCTTCTTGCGATAATCATTTTTTGACTTGCACGAACTAATTTATCATTATATTCATTCAATTTAAGTCTAAAATCATTCAATTTTTCAGTTGCATTTAAATTTGTTGACATAGCATTACCTCTCATACATTAATCATTATATCAAATATAAATATTTAAAAGTACTTAATTATAAAAAATATAAATAAGTCTAATAAAAAATAGCTAATTATTTAGCTATTTTTCTAATTAAATTATAATACAAAGCATATGAAACTATATCAGTTTTAGTTTTTTTGTATATTAATTCAAATTGATTTTCTTGAAAATTAAACTTTATATGTCCAACTTTTCCAAAAACTTTTGCTCCCTCAAAATAAGCTTTCTTAAGTTGTGAAGTTTGATATTTTTTTCAAGTTCCATTTATTTCTAACTTAATCTCATTTTTTATTCGTAAAACCTTAAATGATTTAAGTATTTCACCATTACATACAAATCCAAAATCAGTTAAATCAATTAGTGTATTATTATAGCCAATATAAGAGTTTAATAAATTATTGTTTCTATAAGAGAAAATAAGTCCTAATATTGCAGTTAATATTGATCCTATTAAAGCACAAATAACTATTATAACTTGATTTGAATAATTAGAATCTAGTTTTACTTGAGTTAATAAAATCATTGATCCTATTAAAGTAAAAATAAATATTAATTCATAAACTATTACAGTTTTTCCCATATTATAGCTTGTTATAAAAGTTAAGTTATAAAAGAAAAAAAATAATAATAGTTAAAATTATAGCAATGATTTTAAATCTTGAGAAAATTTCATTTATATAAGAACTTGCCATAGGAAGCAAAATAATCAATGGAATTAATATAAGTAATTGAATTCATATTGCAGATCTATATTTTGCAAATATATTATCAATTCTTCTCTTTTTTTTACTTTTCACTGTTATTTATATACACTTTTTAGATTATTAAATTTAATTTCTTGATTTTTTCTTATTGCTTTTACAGAATCTAGAAACATTGTTACTGATGAATAAAATATAACAATAATAACAATTCACAATAAGATTTTTTTAAATTCAACTTCACTTAATCCAAGACCATATTTAATTCCCATAAATAGAACTAAAAAAGAGATGAAATTTCCTAAAATTCCTCCTATCATTAATGATACAGAGAGTTTTGGAACATAATTCTTATCTTTTACAAATTTAAATGTTGATACTGGCATTAGAAAGGCACATGCACCCATCATAATTGGATATGCAGCTCCCCCATCCATTCCTAGCAAACTGATAACAGCAAGAGCTGGAGCATATAGACCAACTCCAAAGCTCATAAGAGCACCTAAAATTAAGAAAGCAAAAGTGGCTATATAAAATTTCAGATCGCTTAAAGAAAATCCTGTAACACCTTCACCACTATTAATTAAAGCAACACTTGGGTGACTTAATAACATAAGCAAAGCACTTATGAATAAAACTACTGCCATTGCTGTTTTAATAAATAATTTATTTACCTTATTGGCAACAGCAGCTCCTATATAACTTCCAATTACAGCAGCTATGATTAAAACAATAAGAGTTAAAATATCTACTTTAATAACAGATATCATAATTAAAGCTTGCAAAATTATAGGTAAAACATAACCAGCATTTAAAGTTCCAGGTATTTTTTTATCATCTTCAATTAATCCTATTGTATTTGAAATTGATATGGTTGGAGCAAATGCCCCTACTCCAAATAATCCTAACAGACCTACAAATAGTGAACTAAAGAAACCCTTATTCATAGGATATTTTCTTTCTTTTGCAAGACTAGTTTTTGCATTAATAACAATAAAACAGGTTGTTATCAATCCCAAAACAACTAAAAGCATTGAAATAATAAATGCTGGTAGTGCTTCTTTATTAAAAGTGGAGTAATTTTGGTCTGTATTTGGTAAATAAACTGCATAATTTAGTGCTAGGGTTGTTGCCATTACAAGTGGAACTATAATTAGTGGAATAACAATAAATAAAGTTTTACTTATTGAACTTTTAGATGATAAGTATTTATTTTTTGCTTCTAAAAGCTCTTTATTATATTTTTTAAAAATTTCTTCTAATTTAAGCTCAAAATTTCTTTTTTGTTTTATTAAAGCACCTTTAGTGGATAAGTTTTCAGTTGATTTAATAAATTCTTTTAATAATTTTCTTTTTTTATATCAAAACTCTTCTTTAACTTTTTTTAAGTTTTGTTTGCTAGTTTTTGATAAGATTTCTTTTCTATTTTTAGATAGTTTTTTTAATTCTCCTCTCTCTTATTTTTAAAAGGTTTAAATAATCTTGACTATCTTTTTCAGAATGTTTAATTGCCTTAATTTGCTTTATAGTTAAGGTATTTTCATATTTAAGTTTTTTTACTTCTTCTTTATATTTTGATAAAACTTCTAAATAAGTAATCTTATTTTTTAATCTAATTTCTTTTAATTCCTTACTTTTTTTTAACTTTGAAAACTCAGTTAACATTTTATCTGATTCTATAAGTTCATTATTAAGTTTTGTTGATAAAATAGCAATTTCAGTTTTAGTTCTTTCAGCTTGTTCAACTTTTTTAGCAATCTGATCATCTAAATCATAAATTTGTTTTTCAATTTTCATTTTAATTTCTTCCTTTATACTCTTATATCTTTTTTTATTTTTTTGAAGTTGCTTTTTTATCAGCAGCTTTAAGACATTTTTTTATGATGTTCTCAAATCCATCATTATCTAAAACTTTTTGTCCTTCAATTGTTGATCCATTTGGTACACAGATTTGATTCACCATTGTTCTTAGATCAATTCCAGAATTAGCACAATTTTTAATGCTTCCAATTACAGCAGTTTCTACAATTCTATAAGCTTGTTCTTTTTCAAATCCCTTTTCGATTGCATAGTCTGTGATTGCTTTAAAAAAAGAAATCACATAAGATGGTAAACACCCTGAAATTGCAGTAAGTGTACCAAATTTAACTTCTTCAATAATTTCAACTATTCCACAATTTTGAAACATTTCCACAACAAAATCTATTTTTTCTTTTGATGCATCTTTATGTGCAATAGCTGTAACTGATTCTCTTATTGACGCGTTCATATTTGGCATCATTCTTATAATTGTTAAATCTTTTTGATTTTTAAAGTTAGATTCTAATCGTTCTATATCAACAGCATTTGCCATAGATACAATAGTTCTTCATTTTAAGTTTAATTTATCTAATTGAGAACATAAAGAATCAATAGCATCTGGTCTTGTTCCAATTACAATAACATCAATTCCTTCTGATTCAATTTCCTCAAGTGAATTAATAGCTGTTAATTTATCTAATGAGTTAACAATTTTATCTTGTAAATCCTTAAAAGCATCATATCCATATATTTTTGCTTTAAAATTATTATTTGCAAGAATTCCTTTTACTAGTGAAGAACCCATATGTCCTAATCCAATAAACAAAATTTTTTTCATAAATACCCCCAAATATTATAAACCTTTCATTAGAAACTTTTTTAATCAAAGCAAATTAAAAAAAAAAAAAAAAACACCAAATAGTGTTTTTAATTATGCTAAGAGTTTTTAATTAAACTAACTCTATGATACACATTGGTGCATTATCACCACGACGGTTATCCAATTTAAGAATTCTTGTATAACCACCTTCTCTTGTTTTAAATCTTTTTGCGATTGTTGTAAACAATTTTTGTAATGCAGTTTCTTTTTCTGAAGCATCAACATGTCTTAATCAAGCAGCTGCTTGTCTACGAGCATGTAAATCTCCTCTTTTACCAAGTGTAACCATTTTGTCAAAGTGTTGTCTTAATTCTTTAGCTCTTGTTTCAGTGATTTCTAATCTTTCTGAAATAATTAGCTCAGTAGTTAAGTTTCTCATTAATGCAACTCTTCAAGCAGTATTTTTACCTCTTTTTTGAATGTATGACATATAACTACACCTCTTCCTAATCTTGTTTAAAAGTTAGTCCTAATTGAACCACTTTATCTTTTATTTCTTTTAATGATTTTCTACCCAAGTTTCTGATTTCTTGAATATCATCTTCTGTACGTGATACTAAATCACGCAATGAGTTGATGTTTGCTCTTTTTAAACAGTTTAAACTTCTTTGTGTAAAGTCTAGATCTTCAATTAAGCGATCTAATTCTTTTTCATCTTCTTCGTTTGTTGCACCAATAACATTTAAATCATTAATTTCGTCATTTAAATTAACAAAGAATTGTAAGTGTTCTACTAAGATTTTTGCAGCTGTTGCTACTGCATCACTTGCTGTAACTGTTCCATCAGTTTCAACTTCTAAAATTAACTTTTCTAAATCTACTGATTTACCAATTTTTGTTGCATCTACATTATAAGAAACTCTAACAATTGGAGAATAATTTGAATCAATTGTAATTGCATCTACAACTAATTTTTCTTTTTTATTTTCTTTAAATGATCTATAACCTCTTGAGTTTTTTGCAAATAAAGTTAAATCTAAAACTCCTCCATCTGCTATTGTACAAATATGTAGTTTTGGATTTATAATTTCAACTCCTGTAGGGACAATAATATCTCCTGCAGTGATTGCTCCTACTCTTGTTGAATTAACTTTTAATTCAACAACTTCATCATCTTCAAATATTTTTGTATCAATTTTTAAAGCTAATTTTTTTAAATTTAATATAATTCTACTTACATTTTCAACTATTCCATTGATTGATGTAAATTCATGAGCAGCTCCAGCAATTTTAATTGCATAAACTGCTGCTCCTGGTGTTGATGATAGCAATGTTCTTCTAATTGCATTACCAAGTGTAGTTCCAAATCCTCTTTCAAGTGGTTCTACTTTAAATTCCCCATAATTTCTGTTTTTTTCTTCTTTTAATAAATTAAATTCTGGTCTTGAAAACTGTTTCATTAATTATATTAACCTCTTGGGCGTTTTGGGGGACGCACTCCATTATGAGGAATTGGTGTTGTATCTTTAATTGCTGTTATTTCTAATCCGATACCTTGTAAACTTCTTACAGCAGCATCTCTTCCTGGACCTGGACCTTTTACCTCAACTGAGATAGTTTTTACTCCATTATCCATTGCTCCTTTTCCTGCAGCTTCTGCAATCATTTGAGCAGCGTAAGGTGTTGATTTCTTACTTCCTTTAAAACCCATAGCTCCAGCACTTGATCAAGATATTACGTTACCTTTCTCATCTGAAACCGTTACGATTGTGTTATTGAATGTTGAGTGAATGTGAGCTATACCTTTAGCAATATTCTTTTTAACTTTTTTCTTGTTATTGTTTTGTCTATTATTTGCCATAGTTTATACCTCTCTAACTATTTTTTCTTGTTAGCTACAGTTTTTCTTGGACCTTTTCTTGTACGTGCGTTAGTCTTTGTAGATTGTCCACGAACTGTAAGTCCTTTTCTGTGTCTCATTCCTCTGTAACATCCAATTTCCATTAAACGTTTAATGTTTAATGCTGTTTCTCTTCTTAAATCTCCTTCAGTTTTAACTTTTGAGATTTCTTGAGAGATTGATTTGATATTATCTTCTGATAAATCTTTAACTCTTGTATCTTCGCTTACTTTTGTAGCCTCAAGGATTTTTTGTGAAGTTGATAAACCAATACCATAAATATAAGTTAGAGCAATAACTACTCTTTTTTCATTAGGTATTTCTACCCCATTTATACGAGCCATTATTAATTTCCTTTCTAAAAGATTAACTAATTTTTTGTTTAATAATATTAATTATTAAATAATTAACCTTGACGTTGTTTATGTTTTGGTTGTTCACAAATAATCATTACACGGCCTTTACGTCTAATTACACGACACTTGTCGCAAATTTTTTTGACAGATGATCTTACTTTCATCTTTTCTAACCTCCTGATTTTGTGCACTTATTTTTTTATATTTATTTTAATTGAAATTACCTATTTACCATTTTTAAAACGGTATGTAATTCTTCCACGTGTAGGGTCATATGGTGAAATTGCCACAGTTACTTTGTCACCTGGTAAGATGCGAATGTAGTTCATACGGATTTTACCAGACACGTGGGCGTCTATAACTATTTCATTTTCTAATTTCACCTTAAAAGTAGCATTTGGTAGTACTTCTAAAACAGTACCATCCACTTCTAAATAATCTTCTTTTGCCATTATTCTGTTTCCTCCTTTGGTTTAAATAAAGTTAATACCTCTGGGTTTCCTTCAGTTACCAAAATAGTATGTTCAAAGTGGGCAGTCATGCTACCATCTTTTGATGATACTGTTCAATCATCATCAGCAACAACAGTTTTATCTGTTCCTATTTGTACCATTGGTTCAATACAAATAGCCATTCCTGGAACTAATCTCATTCCAGTATTTTCTATTCCTACATTAGGAACAAAGGGATCTTCATGCATTTCTAATCCTATACCGTGTCCTGAATAATCTGTTGGCAAATGATAACCATTTTCTTCAATAAAATTTTGAACAGTTGAAGAAATGGTTCCGATGCGCACACCGGCTCTTACATGCTCAATTGCCAAGTATAGTGACTTTTCAGTCAACTCTATTAGTTTATCATACTTTTTGTCTTTTGAGTTACCACAAGTTACTGTTATTGCTGAATCTGCATGATATTTTTCATAAACACAACCAGCATCAATTGATACTATATCGCCATCTTGTAATACTCTATTTTTAGGAATACCGTGAATTAATTGTTCATTAATTGAAATACAAATATGGGCAGGAAAACCTCCATAACCTTTAAAATTGCTTGTACAACCTTTACTTGTAATAAAATCAATGAAAAATTTATCTAAATCTAAACAATTTATTCCTGGTTTAATAAGTTTTTTTAATTTATATAAAGCTTCTCCAAGTACTTGTCCAGCATATCTCATTTTCTCAATTTGTTGTGCATTCTTAATTGTAACTGCCATCTATCTTAAGAACCTAATACTTTTTTAACTCTATTGTATAGTTCTTCAGGAGAACATTTATCAGCATCTACTTTAATAATTTTACTTTTATAGAATTCTATTAAAGGTGCTGTTTGAGTATGATATGCTTCTAATCTTGTTTTAATTTTATTTTCTTGATCATCTGGTCTTGTAATTAATTGTCCACCATCAAAATCACATATTCCCTCTTTTAATGGTTTTCTGTTAATTTTGTGATAACTTCTTTTACAGATTTTGCAAATCATTCTACCTGTTAATCTTCCCAATAAAACATCTTGATTGATTTCAAGATAAATAACTTTATCAATTTGATTATTTAAATTTTTTAACATAATATCTAATGATTTTGCCTGATCATCGGTTCTTGGATAACCATCAAAAATTAATTCAGATGATCTTGTTTTTAAATAATTTTCAACCATTGAATTAGTAACAGAATCAGGAACTAAATTTCCATCATTCATATACTTTTGAGCTTCTATTCCTAAATCTGTTTTATTTGAAATGTTTTCCCTAAATAAATCTCCAGTAGATAATTGAGTAAAGTTGTCTTTCTCACAAAGGAACTCTGAAAGAGTTCCTTTTCCACTACCTGGAGCTCCAAGCAATATTATATTCATAAATTATTGTTTCTCCTTATTATCAAATATGTGAATTATATGAAGTTTCTTCTTCTTTAAATTTATCTTGTTTTTTGTCCAAGAATGATTGTTGAATTAATCTTCCTTTTAATTGCTGTACTGTTTGAATTGAAACAGAAATAACAATAATTAATCCTGTTCCTCCAATAGCCAAGTTTGATGGCAATGAAGTAATTTTTGTAATTACATATGGAAGAACTGCAATACCTGCAAGGAATAGAGAACCCATTATACTTAATCTATTGATTACACCAGTTAAGAATTTCTCTGTCTCTTTTCCTGGTTTAATTCCAGGAATAAAGGTTCCTGATTTTTTAAAGTTCTCTGCAATTTTTTCTGGATTGATTTGAACTTGTGAATACAAGAAAGTAAATAGAATTGTTAATACTCCATATATTGAAATTCCTCATCATGTACCAAATGATAGATAATTTTGTGTAAATGCTACAAATCCGTTACTTGGATTACTTGCAGCAATAATTTGAGCTACTGTCATTGGAGTAGAAATAATTGCTGATGCAAAGATAACTGGAATAACTCCCGCATTATTTAACTTAAGTGGTAAATAAGGGGTGTGCTCTTTTGTATCTACTAATCCCGAACCTGTTTGTTGGATTGGAATTTTTCTTTCAGCTTCATTCATTACAACAACAACAAATATAACAAATAAGAATGAAACTATATAAATTAAGAATTTTAATAATCCATCAAATAAGATTGTTGGTTCTCCCTTTAATTCAACTCAGAATTTAAATGTATTTGTAAAGTTATTAGGCATTTGTGAAACAATACCTGTAAAGATGATAATTGAAACTCCATTACCAATTCCCTTAATTGTAATTTGATCTGAGATTCATAACATTAAAAATGTTCCACCAAGCATTATTGTTGGGATTAATATGTAATAGAATCAAGCAGGACCTGTACCTTGAGCATTTGTTCCTCATTTTGCATCTATTAATCCTTGACTTGTAAGTGTAAAGATTGTTGCAACTGATTGCATTAAAGCAAAAGGAATAGCCAATAATTTTGTTAATCTATCTAATTTTCTTCTTCCTCTTTCTCCTGATTTACTTCATCTTGTTAAAACAGGAATAACATCTGTTGAAAGTAATTGAACTATAATAGATGCTGTAATATAAGGAGAAACTCCTAATGCTAAAATCGAGAATTGCCCAATTGATCCTCCCCCTAAAGTAGAAAGTAACTGGAAGAAATCTTGATTTCCAACTTGTTCTTTAAAATTTGATGATACTTGAATACCTGGGACTGTTAATAATGTTCCCATTCTAATTAGAATTAATACTATTAAAGTAAAAACGATTCGTTTTATAAGATCTTTGTTTCTGATAAAGAAACCACCTTTAGCGAATTCGTTTTTATATTTAGTTGATTTAGCCTTTTTAGTTTTTTTAACTTTAGCAGCCACTCTAAATCACCTCTACTGTACCGCCAGCTGCTTTAATTAACTCTTCAGCGCTTTTTGATACTTTATTAACTTTAACATTTATTGACTTTGTAATTTTACCATTTCCTAGCACTTTTACCAAAGTTTTTTCATTTTTAATGATTTTTTTCTCCATTAGTGTTTTGTGATTTACATCTTTTAAACCTAATGTTTCTAATTTATCTAAATTGATTAATACAAATTCTTTTCTATTTAAACTTGTGAAACCAATTTTAGGTAATCTTCTGAATAAAGGAGTTTGTCCCCCTTCAAAACCAGGTCTTACCCCTCCACCAGAACGTGAATTTTGACCTTTATGTCCTCTAGTTGATGTTTTACCTTTACCAGAAGCCATACCACGACCAACACGAGTTGCGTCTTTTTTACTTCCTGGTGTAGATTTTAATTCATGTAATTTCATAAAATAATTACTCCTTCTTAAGCTGTTGTAGCTTCTTTAGTTTCTTTTTTAACTTCAACTTGAGTTCCACGTAATCTTGCAATTTGTTCTGGTGTTTGCATTTGTTGTAAACCTTCTAATGTAGCTCTTATCATATTTATAGGTGTATTTGATCCCAATGATTTAGTATAGATATCTGAAATTCCAGCTAATTCGACAACAGCACGAACTGGACCACCAGCAATAACCCCTGTACCTTTTCTTGCAGGTTTAATCATGACTTTACCAGCTCCATAGTGTCCCATTACATCATGGGGAACTGTTGAACCAGCTAAAGGAATTCTAATTAAAGATTTTCTTGCTTCTTTAATAGCTTTCTTAATAGCATCTGGTACTTCATTTGCTTTTCCTGTTCCTAATCCAACTCTACCTTTTTTATCACCAATAACTACAACTGCTGCAAATCTGAATCTACGTCCACCTTTTGTAACTTTTGTAACACGGTTAATTGTAACAACTCTTTCTTCATAAGGGTTGTCTTCTCTATTTCTGTTGAATTTTGGATCTCTTCTTTGTCCATTAGGTTTATTGTTGCTATTTGGTCTTGTGTCTTTTTTGTTTTGACTGTTTGAATCTGCTTTTGGAGCAGTTTCAGTTTTAACAACTTTTGTTTCTTCTGCCATTTTTCCTTAATCTCCTTTTAGAATTTCATACCATTTTCTTTTGCAGATTCTGCAAAAGCTTTTACTTTACCATGGAATAAGTATCCACCTCTATCAAATACTACATTAGATATTTTTTTATTTTTTGCTTTTTCTGCAATATCTTTACCTACAGCTTTTGCTGCATCAATATTACATCCATTTTTTAATCCCAGTTTGATTGAAGATGATGATACTAATGTAACACCTTTAACGTCATCAATAATTTGAGCATAGAAGTATGTGTTTGATTTAAATACATTTAATCTTGGTTTAGCACTAGTTCCTGACACTTTATTTCTTACTCTATAGTGTCTTCTTTTTCTTGCTTCTGCTTTAGTGTATTTCATAATTACTTCTCCTTAGCAACAGCCTACTTACCAGCTGCTTTACCTTCTTTTCTAATGATTTTTTCATTTTTGTATTTAACTCCCTTACCTTTATAAGGTTCAGGTCTTCTATATGCTCTAATATTTGCTGCTACTTCTCCAACTAATTGTTTATCAATTCCTGATATTTTTATTTCTGTTGGTTTTGGGATTTCTACTGTTATTCCTTTTGGAACTTCATATTCCACTGGGTGTGAAAACCCAAGTGATAAGTTGATTTTATTTCCTGCAAGTGCAGCTCTATAACCAACCCCAACAATTTCAAGTTCTTTAATAAAACCTTGACTAACTCCTGTTAGCATACCTTCAATTAAAGAATTTGTTGTTCCATGCAATTGTTTTGTATGTTTATTTTCATTTGCTCTTAAAGTTTTTAGTTCTGCACCTTCAACTTTAATTTCAATTAATGGACTAAAAGTTTGAGTTAACTCTCCTTTTGATCCTTTTATAGTTACAACGTTATTTGTTTCAACTTTAACTTCTACTCCAGCAGGAATTGCTAATATTCTGTTTCCTATACGTGACATATATTAATTCCCCCTATTATCAAACAAATGCTAGAACTTCTCCACCAATATTTTGGTGACGAGCTTCTTTATCTGTTATGATTCCATTTGAAGTTGAAACGATTGCAATACCTAACCCGTTTAATACTTGAGGTAAGTCATAAGAATTTGAATAAACTCTTAATCCTGGTTTTGAAATTCTTTTTAATCCTTTAATAACTCTAATTTTCCCTTTGTATTTTAAGCTTATAGTAATGTCTTTCTTAAAGTCATCTGCAACTTTGAAGTCTTCGATAAAACCTTCTTTTTTAAGAATTTTTGCTATTTCTAATTTTACTTTGCTTCCTGGAATTAGAACTTCTTTGTGATAACGTTGGTTAGCATTTCTAATTCTAGTAAGCATATCTGCGATTACATCTGTTGTCATAATTTCTTTTTCCTTTCACTATCATGAAGCTTTCTTAATACCAGGGATTTGTCCTTTGTATGCTAAATCTCTAAAGCACACACGACATAGATTAAATTTTCTCAAAACTGAATGAGGTCTACCACAATTTCCACAACGTGTGTATTCTCTAACTTTGAATTTTTGGACTTTTGCTTGTTTTACTTTTAATGATTTTTTTGCCATTTTATCCTATTCTCCTCAATTACTTAACGAAAGGCATTCCTATTTTTTTTAGTAATGCAAATGATTCGTCCTTGTTAGTTGCTGTTGTAACTATTGTTATGTCCATCCCACGAACTTTTTTTACTTTATCATAATCAATTTCTGGGAAGATAATTTGTTCTTTGATACCCATTGTATAGTTTCCTTGTTTATCAAAACTAGTTTTAGGTACCCCTCTAAAGTCACGTACACGTGGTAACGCAACTGATATTAATTTGTCTAAGAATTCATACATTCTTTTTCCTCTTAAAGTAACTTTTGCTCCAATTGGCATACCTTCACGCAATTTGAACACCGCTAAAGATTTTTTAGCTTTAGTTACAAGAGGTTTTTGACCTGTGATTTGTTGTAATTCAAGAACTGCATCATCTAATTTCTTAGTATCTTGTACAGCATCTCCAATTCCCATATTTATAACTACTTTTGTGATTTTTGGAACTTGCATGATTGATTTGTATTGCTTTTCTTTAAATAATTCTGGGATGATTTTTTCTTTATATTGTTTTTCTAATCTATTAACATTTGCTTTTGTTGCCATATTAACTTATCCCTTTCCTATTTAACTTCTGTTCCAGATTTTTTAGCAATTCTAACTTTTTTTCCATCTGCAATTTTGTATCCAACTTTTGTAGCACTATTTTTTACTTTTGGATCAACAAGTGAAACGTTTGAAGCATCAATTGATGCAGGAATTTCTCTAATTCCACCTTCTTGATCTGTTTGTGAAGGTTTTGCATGTTTGATTGCAACTATTCCTTCTACATATACTCTTTTTTTATCTTTTGATAATTTAACTACTGGTCCAATTTTTCCTTTATGTGTTCCGGCGATTACTTTTACTACATCTCCTCTTAAGATTTTTGATTTATTCATAAAAGTTCTCCTTCTATAACACTTCTGGAGCTAAGGATGCAATTTTTGCAAAACCTGCATCCTTTACTTCACGTGCAATTGGACCAAAGATACGAGTACCTCTTGGTGATTTATCATCTTTAATAATTACTGCAGCATTTTCTGAAAATTTGATGTATGTTCCATCAGCTCTTCTTAAACCTCTAACAGTTCTAACAATAACAGCTTTAATTACTTGACCTTTTTTAACAGCTCCACCAGGTGCTGCTGATTTAACAGTTGCAACAACAATATCTCCTATATTTGTAAATTTTCTAACACTTCCACCTAAATTACGAATAACCAATATTTCTTTAGCTCCTGAATTATCTGCAACTTTTAATCTTGATTCATTTTGTATCATTCTACTATACCTCTAAATTAAATAATTGCTTTCTCAATAACTTTAACAAGTCTAAAGTTTTTAGTTTTACTCATTGGACGAGTTTCCATAATTTCAACTCTATCTCCCATTTGAGCTTGTGAGTTTTCATCATGTGCTTTATATTTTTTTGAATACTTAACTCTTTTTTTGTAAATAGGGTGGTTTTTATATGTTTCAACTAAAACAGTTATGGTTTTGTCCATTTTATCTGAAACAACTCTACCTGTGTAAGTTTTTCTTAAATTTCTTTCCATAGTTATTTAGCTCCTTTTGTTGTTGCTTTTTTAAGTAATTTTTTTTCTGCTGCCTTTTTATTTGCTTCTTCAATTTGTTTTTTTGCTTCTTGAGCATTAGATCCAAAAGTATATGTTTTTGCATCTTTTGGCTTACCTGAAAGTTTTAAATCAATACCTTCAATACCTTCACCTTTAGCAACTCCAACTTTCATAGGTTTCATTTCAAATCCTTGAAGTGATTTTTTACCTTTTCCTGTTGGTACTGCTTCACCAGTTTTAATTGGTTTAATAACAGTTTCTTTTATTTCAGGTTTTTTTACTTTAGATTCAACTTTTGTTGTAGCTGCTACCTTTTTAGGTTCAGCTTTCTTTACCTCAACTTTTGGTGTAGCCTCTTTTTTAGGTTCAGCTTTCTTTACCTCAACTTTTGGTGCAGCCTCTTTTTTAGGTTCCGCTTTCTTTACCTCAGGTTTTGATGCAGCTGCCTTTTTAACTTCAGCTTTCTTTACCTCAACTTTTGGTGCAGCCTCTTTTTTAGGTTCAACTTTTTTTACTGTTTCTTCTTCAATTTTTGATTCATTTACTGCATTTTCCATTGCTGCCATAATAGCATCTTCTGAAACATCATTTTGTGAACCAAATTGTTCTTGTTGAAGTTTTTCAATCATTTCTTTGTGTTTTTTACGAACTTCTTTACCAGCTTTTTCAGCATTTTCAACTGCTTGTGAATAGTTAGCTTTAATAGTCTGATTAATATTTTCACCAGTTCTTTTTCTTTCACCTAATAACATTTCAATTCTTGCAATATCTTTTTTTAGAGCAGGAATTCTATGAGTTTGTTCTAAACTACCTACTGCTACTTGAAACTTAAGTGCGAATAATTCGGCACGGCGATCTTCACCTAATTTTATTAAATCTTCAATTGATTTTGTTCTTAATTCCATCATGAAGTCAACTGATTTAGACATTATTCATCACCTCTCTTAACGATTTTGCAACGTACTGGTAATTTGTGCATTGCTAAACGTAAGGCTTCACGAGCAACTTCTTCTGAAACTCCACCAATTTCAAACATAAATTGGCCAGTTTTAACTACTGCTACTCATTCTTCAGGAGATCCTTTTCCTGAACCCATACGTACTTCTAATGGCTTTTTAGTTTTTGCCATATGGGGAAATATTCTAATTCAAACTTTTCCAAAACGTTTCATATAACGTGTCATAGCAATACGTGCTGCTTCAATTTGTCTTGAAGTAATTCAAGCACCATCTAATGACATTAATCCATATTCACCAAATGCGATGAATTTTCCACCTTTTGCTTTTCCTTCATAACTCACTCTGTGAGGACGACGGAACTTAACTCTTTTGGGCATTAACATAACTATTTAACCTCCCTTGGTGTTTTTTGTTGAATTTTTTTATCTTCAATTACTTTTGAATTGTTTTGATTGTTTTTTCCTAAAATTTCCCCGTGATTAATTCAAACTTTAACCCCTATTTGCCCATATGTAGTTCTTGCTTCATATAAGGCATAATCGATATCACTTCTTAAAGTTGACAATGGTACTGAACCTTCTAAGTAACCTTCAGTACGAGCCATTTCAACTCCACCAAGTCTTCCAGAAACTGAAGTTTTAATTCCTTTAGCTCCTGCTTTTAAAGCTTTTCTAATTGCTAATTTTTGTACAGTTCTAAATGATGCACGATTTGTAATTTGTTCTCCAATAAATGTTGCAACTAATTTTGCATCAACATCTGGATTTTTAATTTCTATTACTTTAACTTTTACATCAGCTTTTCTGTCTTTAATTGTTTTTCTAACTGTTAAAACGATATTTTCAACATTTTTACCTTCTTGTCCAAGAACGATAGCTGGACGAGCAGAACGAATTACTAGAGTGATTTCTTTTTTAGTTCTTTCGATTTCAATTTTTGAAACTGCTGCATTTTTTAATTGTTTTTCAACAGCTTTTCTAATTTTGATATCTTGATGTAATCACTTAACATATTCACCTTTTTCAGCATATCAACGATTTTCTCAACCTCTGATAATACCTATACGTAAAACATTTGGAGATACTTTTTGTCCCATAACTCTATAATTCCCTTCTATCTTTCGTCGCTAACCACTATTGTAATGTGGCTAGTTCTTTTCAAAATTTCATATGCTCTACCATGAGCTCTTGGTCTAAAACGTTTTAATGTTGGTCCTTCGTTAACGAAGATTGTTTTAACAAATAATTGATCAGCTTCCATACCATTGTTGTTAACAGCATTTGCTACAGCTGAGTTTAATAATTTTAATACTGGTTCTGAAGATCTTTTGTCTTGATTTTGAAGAATTGCTACAGCTTCTGATATTTTCTTACTTCTGATAGAGTCAGCTACTAGTCTAACTTTTCTAGGTGATATTCTAATCATTGTTAATTTTGCTTTTGCTTCCATATTTTGAAACTCCTATTTCCTAATGATTATTTTTTCTTTTTCTTATCATCACCGTGTCCACCAAACTTACGTGTTGGTGAAAATTCTCCTAATTTGTGACCTACCATATCTTCTGTAACATAAACTGGGATAAATTCTTTTCCGTTGTAAACTCCAAATGTGTGACCAACAAAATTTGGAAATATTGTTGAACGACGTGATCAAGTTTTAATTGTTTCTTTTTTGTCACCTAATGCTTCTACTTTTTTAATTAAGTAGTCATCTGCAAAAGGTCCCTTTTTTAATGATCTAGACATTTATTCATTTCCTCCTATTTGTTGTCATTTCTTCTTCTTACTATTAATTTAGTAGAAGCTTTCTTTTTATCACGTGTTTTAACTCCAAGAGCTTTTTTACCTCATGGTGTTAATGGCGCTTTACGCCCAATTGGAGCACGACCTTCTCCCCCTCCGTGAGGGTGATCGATTGGGTTCATAACTGACCCACGAACTGTTGGTCTAATTCCTCTTCAACGGTTTCTTCCAGCTTTTCCTCAGTTTACTAAGTTATATTCTTCATTTCCTACTTCACCAATTGTTGCATAACACTCAGCAAGTACTTTTCTAACTTCTCCTGAACCTAAACGTAAAGTGATGTATTTTCCATCTTCATCTTTACCTAAAATTTGTACTGAACTTCCAGCACTACGTGCTATTTGTCCACCTTTTCCTGGTCTTAATTCAACATTGTGAATTAATGTTCCTTCAGGAATATTTTTTAATGGTGCAGCATTACCTACTTTAATATCGGCATGTTCACCTGCAATAATTTCTTGACCCACTTGCATTCCTTTTGCAAATAAGATGTATCTTTTTTCACCATCAATATAATTAACTAAACAAATAAATGAGTTTCTATTTGGATCATATTCAATAGTTGCGATTTTTCCAGCAATATCTAATTTATTACGTTTAAAATCAATGATACGATATTTTCTTTTATGTCCTCCACCTTTATGGCGAGTTGTTATTTGACCATGATTATTTCTTCCAGCCTTTTCATTTAGTTTAGAAACTAATGAACTTTCAGGCTTTGAAGTTGTAAGGATACTATAATCTAAGCTAGTCATGTTTCTGCGACCATTAGTCGTAGGCTTATATTTTTTGATTGGCATAATATATCCTCCTGTTTTCGCCTAATCTCTTTTCTTTCCTTATAAATTAATTTTATAAGTCTGATAAGATATCTAATTTTTCTCCATCTTTTAGTACAATGATGGCTTTTTTGAAACTTGCTGTTTTACCAACAAATTTACCCATTCTTTTATCTTTTCCATCATAGTTCATAGTTCTTACATCTTTAACTTTAACTTGAAAGATTTCTTCGAATGTTTTTTTAATTAATGATTTATTTGCTTTTTTATCAACAATAAATGTGTACGCACCATTTTGTTGACCTAAGTAAGTCTTTTCAGTTAACAAAGGTTTTTTAATAACTTGTGTTAAATGCATTATGCATACACCTCCTCGATTTTGTTTACAGTTTCTTCAGTAACAATTAATTTAGTTGCATTTAATAAATCAAAGATATTCATTTTTTGAAAATCTAAAGTTTTAACTCCTGGAATATTTCCAGCTGATTTAACAACTAATTCTTCATGTTCTTTAGTTACTATTAATGTTTTTTGATCTTCAGCTTTAATATTTTTCATTACACTTAACATTTCTTTTGTTGAAGGTTTTGAGAATGCAAATTTATCCAATATTACTAAATTTGCTTCTTTTGCTTTAATACTTAAAGCACTTCTAATTGCTAATTGTCTAACTTTTTTATTAACAGCTTTTTTGTAGTTAATATTTGGTGTAGGACCAAAAGTTACTCCCCCACCTCTTCATTGTGGAGCTCTAATAGAACCTTGACGAGCACGTCCTGTTCCTTTTTGTCTTCAAGGTTTTCTACCTCCACCACGTACTTCAGCTCTAGTTTTTGTTTTTCTTGTTCCTTGTCTTAATGCAGCTTGTTGAGAAACAACTGTATCAAATATAGCTTGTTGATGAGGTTCAATACCTCAAACTTTATCGTTTAATGTAATTTCTTTAAGAGATGTTCCCTTAACATCTAAAACTTTTGCTTTCATGTTAAATTGTATCCTCCTAATTATTCAGCTACAGGAGCTGCTTCTTCTACTACTGGAGCAGCAGTTTGTTCAACTGGTGCTTTAGTAGCAGTGTTTCTTGATAACAATGAAACAGCTTCTTGTGCTTTTCTACCTTTAACGTTTTGTTTAATTACAACAAAGCCTTTTCTTGGACCAGGAACTGATCCTTTAACTAAAACTAAATTTCTTTCAGCATCGATTTTCACTACTTCTAAATTTTGAATTGTCACTTGTTCATGTCCCATGTGACCTGCCATTTTTTTAGATTTAAAAATTCTATTAATAATTGCACCCATTGATCCAATACCTCTGTGGTATCCTGAACCATGACCCATTGGCCCTCTTGAGTAATTATGTCTTTTAATTGCTCCTGCAAATCCTTTACCTTTTGATATACCTGTAACGTCCACAAATTCACCAGCGTTGAATACGTCGGCTGCATTTATAATTGCACCAGTTTCGTATCCTTCCATATCTCTGATTTCTTTTACGAAGCGCTTAGGTTCTGAGTTAACTTTTTTAAATTGACCCATATCAGGTTTATTTAATAAGTTAGCTCTTTTTGTAACAGTTCCCAATTTTAGTGCTTGGTATCCATCTTTTTCAACTGATTTTACTTGTAAAACTGTATTTTGTTCTACAAAAATAACAGTAACTGGAATTAATTTACCGTTTTCACTAAAAATCTGAGTCATCTCTAACTTACGTCCTAAGATTCCTTTCATGATATTTCCTCCTGTATTTTTTTTATGACTATTCATGTATATCTTGATTGTTTACTATAATTTAATTTCGATATTAACACCTGTTGGCAATTGAACTCTTGTTAATGAATCCATTGTTTTAGGTGTTGGTTCAACTATTTCAAGTATTCTTTTATGTGTTCTCATTTCGAACTGCTCTCTACTATCTTTGTATTTGTGAGTAGCTCTTAATATTGTAATAATTTGTTTTTCTGTTGGTAATGGAATAGGTCCACGAACTTTAGCTCCTGTTGATTCAGCTGCTTCAATAATTTTAGCAATTGATTGGTCAACAATGGCATGGTCGTAACCTTTTAATTTAATTTTAATTTTTTGTTGAGCCATTTGGTCCTCCTTCAACATTGACAACCCTTTTCAGTGTGTTGTCTTAATGAACACAAAATATACATGCTTTTCAATTATCACACAACAATGTTAGGAAAGCAATAGATTATTTAAAAAAATAATAAATAAATGTGAATTCTTTATTTATTAAAAAATAAAGTAAAAATCAACTTAAATAAGCTGATTTTCTTTATTTCATTAAAGATACTGGTGATTCTTTTCTAATTTTTCAAGTAGTAATTAGAATTGAAGTCACATAACTTGTTATTAACAGTATTGACGATATTAGTAATGCTCATCAACTTAATCCCAAAGGAATGGATCCTACATTTTTTCGAATATAAAATCCAGCTGACAGTACAATTGCAGCACTTCCACATATTCCCAAAACCATTGCTATTGCTGCTAGTATTGATAAAGTACCAAATGAGTATTTAATTACTTTTCAATTTGAATAACCTAGAGATTTCATAACAAGCATAAATTTTTTATATTGATTTACATATAAATCAGTAATTATTATCATTGATAAAGTTGCAGTTATGATGATTACTACAATAAAAGATATTCCTATTGTTAAAATTAAACCTGCAATTTGATTAATTAAAGCTTTTTGCTCTGTTAAAAACTCTACACTTTTCATTTCTAAACCATCATAATATTGGCTTCCTCCATTTAAAGTATACTCACCAACTCTAATAGTTTTAGAAAATGAGGCCTGACTTGTTAAAAAATAGGGCTCTTTTGATTGAGACATAATTCCTGTAAATCAACTAGAAGGTTCATAGTTTTTCTGTTCTCCTTCTCCTCAAATTTGTTCTTTTAAATCTCTTTGCACTAAATCTTTTGGTTTGTTTCATTCATAAGTTTTTATCTCTTCACCATTTAATAGCTTATAAGAAGATTTTTGTTGTTTTTCATAAACATAATTGTATGGCATATAAGAACTTGTTGAATAACCATGAAGTAGATTTGCTAATTTTTGATCTGTAAGTATTACATTACTTCCATAAACATCTACTGTTGAAACAGGAACTAAGTTTATATTAGTTGATCATTGCATTTTTATATCTTTATCAACTATTCCTGGTTTTGATTCTAGAAAATTCTGTCTATAGAATGAATTATAATATCTTAAAACATTTGCTATTTCTGTTCCAACCTCTCCTTGACCCTCATATGTTGAATCATAAGTTCATGAATAAGGTCTTATTCACATAAAATCATTGGCTGAATAATTTTTACCAACACTAGCTCTATTTCAATCATCAATTGTTTTTTGAGGAATTTTATTAGTATTGTTTAAATCATCAAATCATTTATGATTTTGAGCTCCAGCATTTAAAGCTGCCATACTATCTTTATATTCTTTGGGAATAATTAAAAATAAATTATCAAAAGTATAATATGGTCTTATCTCTGATTTTAATACTCCATTTTCATCATAATATAAATTAGCAAAAGCCATTGCATTTTCTGCAATTGATTTAGTTCTTGCTGTTCTGTCAAAGGCATATGAATCTTCATTATTATTTAAACCTTGTTCCTTATCATATATAAATGATCTTGCAAATGTAAATTTTGAAGTATCTAATGTAGAAGGGTCTAAAAAATTCTGTGCTGAATAAGTTTTTTTGTTCTCTTCTCTTTGTGAAGCTCAATCATTGTCATCATAAATTCAAGCACTATTTGGAATGTTTGTATTATCTTTTGACATTACTAACCTTTTGGAAACAAAATCATCAAGTTCAATTGAATTACTTTTTGATTTATTTAACGAAAATTTTGCTTGTTCATTCATAGTAACTGGTATATTTAATGTTCCATTTGAATAAAGTGTAAATCCATTTGCTGTTTCAATTGTTTGATTTTTATTTGTATCTATTCCCTTAATAATTTTTTCACTTTTCAATAAAGAATCTTGATCAATATACATTTTTTTAGAGTTATCTTTTAGCTTATAGGCTTTTTGATTTTCTTGAACTCCTGTTAGAGACATTTGTTTATCATTAGAAATAAAATTAGTAGTTGTATAAAAATCATCATCTCCTGGGATATAGTTCGTGAAAGTTCACCCAAAAGTATATTGATTATATCTATTTTCACTTTTATTTAAATAACTTTTTACATAACTTGGCGATTGACTTAAAATAGCAGATGTAATTTGGTTTTTTCAAGTACTATCTTCATTATTGTTAATCTCTGATGGGAAAATTGCTTTTAGAATTGGAGGCAATCCTTCTGAAAGAGTAGCTGTTAAATTATCTATTTTCTTTATTCTATCTTCAACACTTAAATGTTCATCACCTTCACTATGAGCCATTCATTCAATAATTCTTTGCATATCTGCTATATTTATAGCTCTTCCTAAAGTTTGAGGTAAGTTATTTCCAAAAATATACCCAACTAAATTTAACAGTGAGTCACTGGCAAGCATCTCTGTACTTCAATTAGCAGATAAATTTCCATTTGAATCTTTAGTATACATGAATTTTGGAATTAAAGAATAATCTGTATTTCCAGTAACTTCTGTAACTGAATCACTTAAATAATCTACTGTCCCATAGTTTCCTTTTACATTTCTTAAATATGACTCATAATAATCTACACCATTTCAAGCAGATAAAGTTGTTTTGGATAAAGGAGAATTACCAATAGGTTCAAAGTTCTCCATTTTATTAGAATATTTAACATTTTTATAATATGAAGTTACAGCTTTATTAACCATTCCAGGAATTGACATGGATGTTGTTATTAAAAGAGAAGAAATTAATATAGTTATTGTTGAAACTAGTGTTGGTTTCATACCACTAATTGCAAGTTCTATACTAAATTTAGTTGTGAATTTTGTATTTTTTGTTAATTTTAGTTTTAAGTTATCAACTCATTGGATTCTTTTAACACTCTCTTTTTTATTTATAATTTCAAGAACAGGTTTATTAATAAGAACTATTGCAGTTATATATGAAACCAAAATAGTAAGAACTCCAAACAATAATATTGAAACTCCCAATGATCAGCCATTAAAGTAAATACGATTGTAAGAGCCACCAGTATAAGATATAAATAACCTAGAAAATAATTCTTGAATTAAAGTTCCCATAAATCAAGATAAAGGAACAACAAATATTAATAGAATCAGCCCATATGAAATATATGAAAAAGCAATTTGTGAATTTCTTGCTCCTAAAGCTTTTAAAATCCCAATTTCTGAAGCATTGAATTTTATTGTTTTTCTTATAGCAATTAGTGTTGTTGCCAAACAAATTGATAAAATAATGGCACAAACTATGTATGAAATTGTAGAAAAAGTTTTTAAAGCTATTGGAGTTAACTCTCAGTTATATGAAAATACACTATTTTTATAGTTTTTAAAAGAGTAATTATAATCAATATAACTAGGAGTTACTTTTGAAATATTTTCGTTGTCTGCTTTTAAAAAATTAACATAATTATAATTCAATGATTTAAATAAATTAAGATTTTGTGATTTCTTATCTTTATCTTTAAATGTCAAAAATCTATAAACATTTGATGTTGTAACTTTCGCCTCATTTGAAGGAAGAATAAGATCTATAATATCTTTATTTATATATATTATTGCTCCTTTTTTATTATTTGGAAAAGGTATTGTTAAATCAGCAATAGGAAAATTAGTATAAGGATCAGCTGCAAAACCTGAAACTATTAAATTTGCAGCTCCAACTTTTATATTTGAACCTATTTGAATTTTATTTGAATGAGCATATTGAGAATTTAACAATATCTCATTTTTAGTTTTAGGTTTTCTACCATCATAAATGGTTACATTATCATCAATTCATTGATCCATTACAATCATTCTATAATGTTTTTCAGATGCATTATCTGAATAAATCATTTCTGTTCTTGAATAAACTTGTGCATCACTTACCAAACCAATTAATTTCTGTCTTATAAAATATGATGAAGCTATATCAGCATTTTGTAAATTGTAATTATCTTTTTTAATAAATCCTCTTTTATCTTTTAATTTATTTTCAATAAAATCACCATTATCAATTAACTTTAATCCATCAGCTTTATCTTTTACATTTCCATTTAAATCAACATGAGCTAATTGTCCTTTAGCTCCACTTAAATAAATATTATCTTCTTGTTTTAGATTTCTTGAAGAGTTATTAAAATCTTTAGAAATTAATCATGAATATAATACTTCTTTATTTGAACTAGTATCTTCTATTCCTAACTTACTTGATATTTTAAAAGTATTTAATACTTTTTCTTTTTGAGGCAAATCAATATTTTCTTTGATGGCTTCTTGCATATGATATTCAACATAATCATGAATCATTTTATTAATTTGTATTACTAAAGATAAAAAAGCAAAATCCATATAAGTATTTACTTCTCTAATGAATTCACTTTCTTGTGAATAGTCAAAATTATCATTTATTATAATATCTTTTGCTGAGAGCAATTCATTTTTAAAAAGCAACCCAAAAAGGGAGTTTTGTTTTTTTATACCATTTTGCTCTTCTACATCTTTTATTAACTCAGTTTTTAATATTTTTATTGTTGACTTACTAAATTCGCCCAATTGTTTAGCTATAAAGTTATTTTCATTTGTATAAACATCTAATGGAGAAAAGTTTCTATTAGTTCCCTTAGCATCATCTTTATCAAATTGATATCAATAGTTTGTTTCTCTCACATTATTTTTCTTTGAATCTAAACCATATGCATTATAGTATGGACTTTGATCTCATTCATTTCATTTATAATTGAATCAGCTTTGTGAATAATTATGATTATCTATTAATTTGTTAAAAGATAATTTAAAATCATTGCTTTCAAATGCTTTTGTAATAAAAGTTTCTTTTTCATTTTGTTTTGCAATATTTACATTGTATCCAACAGATTCACCTTTATATACTAAATATTCATCAGATATAAAATCCATTATTGGAACCATCATTTGACTTCCAGTAGCATTTGATGTTTCTAATGCTTTTTCATCATAATAATCAAATTTACTTGTTTTTTGCATAGTTTTATTATATTCATATCTAATTCTGTCACTTATTGAGTTACTAATACTTAATATAAGAGATGCAAAAAAACCTAATATAACTATTAATATAAATTGTGTTTTATATCTAAATACACCTTTTAATCCTTGTTTAACCAACAAGAAAAAATTGCTCTTTCTCATTTATTTTTGCTCTTTTCTAATTTTCTTTTATTATTTTCAAATTTTAAAAAGCAAAAAAATCAGGAGGCACAATTCCTTTTTTATTTTTTCTAAGTTGTTTTGATTCAATATTATTAATTAAAATTATAGTTTCCTTTCAGCTTTTTTGAATTGAATAGGTTTTACTGTTAGTTATTTTAATTTTTTCAAAAATTAGCTTTATAATTTGATTTAACTTTACTGATTTTTTATAAATAGTATCAATGAATTGTTTATTTGAACTTATAACAGTTTTTATTATTGAATAAAAAAATATCAATACAGAAGCATAGCAAATTGAATATATTAGAAATAAATTAAATAAAGCAATTAGAAGAAAAAATATGACATTAATATTTAAATATTTATTTATATTATAATTTCATCATCCATCATTTTTAACTGTAATAGCAATTATTTTTTCAAGAAAAATATAAGTGTTTAAAAAGGACATACCAAAGAACACAAAAATTAGAGTAATTATTAAACAAAAATTAGAGTTAATATTTAAAAGATTAATATTTAAAAGATTTCTTTTTGAAATTTCAAAATTGCATTTCTGAATATGTTTTAAGCATTTTGAGATATTTATAGAAATAAAATAAAAGGAGAATAAAAAAACTGAGATATTTACAATAAAGGAAATAACTAATACCGTAACTCTATTTTCTAAATAACTTTGTATTAAGAATGTAAAAAAAAATAATATAAATAATAATACTAAGTTAATGTACTCCCCACACTTTTTCATAAGTCACCACTTTATAGTCATTATAAATAAAAAAAAAAAAAAAAGAACTGAAAATTCTTTTAATTAAAAAATAAAAAAACTTTTTAATTTTTAAAAGTTCTTTTATTCATTCCCTATTAGCGATGCTAATCTAACACGTTTAATAGATAACATAACTATAATATATCCAAATAAGAATATAGACATTCCAGCTATAAAAATAACTGGCATGATTGATCAACTAAATATTATTGGAACTGCTATATCAATTGACAATAACACGTGTGGCAATAAATTAGTTATTAACAATGATATTATTGTTATACCTAATAGAACTGAAATTATTGTTAGAGGTAAGAATATTCACATAATAATAGAGTTTATTTCTTTCATTGAATATCCTTGAATTCTCATATAACTCATAAATCTCTTATACTTACCAACAAACATATCTGTAATTAAATAAATAATTATGATAGCTGTTATTAAAGATAAAGAAACAAATATCAATGATATTGAAATTACTGACATTATTAGATTATTCATAGCCTCTTTTTTCATATGAATATAATCTGTATTTCCAATTGACTGATTCATATATTTTGCCAATCCATCTGTAGCGTTATTTGAATTAAATGTTGTAAACAATATTCTTTGTAATTGATCTGCATTTTGAGTATTAGAACTCATTTTTGCATTACTTCAAATATTTATTGAAGTTCCATCATTAAACATTTTTCTTGCATTAAAATTATTATTTACTTCCATTAGTTTATTTGCATATAATTGGTCCATATAAATTTTATTTCCATCATATAATTCTTCTACACCTACAGCTTTAAGTTTTTGATAACTAGTTGTATCAATTAATTTATTAGCTAATAGTCCCTCTTTTAACGCAATATTGAATCAACTATTTGTTCCGTTTAAAAGAGTTTGAGTTAGAAAAGGAATACGTCCAATATTTTCTTCATAATGATATATATCAAATGGTTTAACAATATAATAATCTCCACTTTCTTTATAAACATTTTCGTTATTTGAATATTCTTTATATTCTTGATTTACTTTATTAAATAATTCCTCATTAATTAAGTCTTTCTTAAGTTTTAATTCAATATCTGCCATATTTTCATATGGTTTATAATTGTCTTGAGAATCTTGATAATAAAATTTATTTTCATCTAAATAATAAGTAAATCTATTTAAATCCATTGTATATAAATCCTGATTTTTATAAGTTCAATCACTGTTTTTTATTTCATTTAAATTACTATTAGAATCAAGTGTTGCTAATAAATTTTTTGATGTTTTTATATTAAACTCATCACCAACTTTTAGACCTTCCAAGATATCTTTTTTATTAATTAAAACCGGAACATAATTTAAATTTTCATCATACTTAATTAACTCTTTATTTTTTAAAACCAAATTATTTAAGTTTGAGTTTAAATCAATACCATAAATTTTAACTTGTGTTTCTGCACTATTTTGTATAGATGAATTAAATGTTGTATACATTTGATCTAAATTTTTATCTACTGATATGCTTGAAAAATTAAATGAGAAGTTTAAAAACTCATTTTCGTTAGTATCTCAAAGTTCTTTTACACTCGAAGGAAGTATATTATTTGAAATAGATTTTATACAATCTTGATAGTTTGCTTTGTTATCATTAATAGCTGCTTGTCCAAATAATTCTGGTAATACTTTACATGAAAAATCATCAAGATTATTTTTAACAGTTTTATTTTGTCCTACTATTTCTTTTTCCAACTTTACAAGGTTGTTCATTACACCAACAGAGATTAATCCACTTTTAAAAGTAAGAAGATTATTAACTAATATATTTTCAAAATTATCTGTAAAATCTTTTGCATTACCTTTTCATTTGGAAGCATCTAATAAATTTTTATGTTCTGTTTCATCTTTAATTCATATATTAAATAGTGAAGCTTCTAAATTGCTTTTTGATTTATTTTCTTCATCCATTTGATAAAAAGAATATCTTGATAAAGGATTATTTTCAACAACTCCTGAATAATTAAAGTCATTATTATATTTAATATTTTTATAATATTCTTTTGTCATATTTTTCATTGTTTTGGGTGCAATAGATGTAAGAGTTATTACAGCACTTGAAAATAACAATATAGAGAAAAATATAAAGATATCTTTTATAGAAGAAGAAATAATTACTAATCTTAATTTTGAAGTAAAGCTTTTAATTTTAATTTTATTTAAATTTCTTAGTAAAAAGATATTAGGTTTGTTACTTCTACTTGGAGAAAGTAGTTTTAATGGAGATTGTTTAACTGTAGTATAAGCCAAAATAAACACCATTAAAGAAACAATTGATATAAATGAGATTCATTCAACAAATAATAATTTTCAATCAATTGAAAAGGCTGCTGAAATATTGAAATATCTTTCAAAAACTCCCATTAAGGATCCTTGTAAAAATAAACTTATTGTTCAACCTATTGGTACAAGAATTATGACAGGAAAAGCCATATAAAGTATATAGTTAAATATTATTTTAAAGTTCGAAAATCCCAATGACTTTAAATTACCTATTTGAGTTCTTTGAGAGACTAAAACTTTTTTAAAAATATTGTAAACAACAAACGCTAAAGATATTGCAAAAACTAAACAAAATATAATAGCTAGTGCTAAAAACCCAAAAACCACACCAGAAAATAGACTACTTCTCATATTTAATAAAGTTGTTTCATCATACTTTTGAATCTTAGCTCTTGAAAGATCATTGTTGAAAACATTATTTGTAATATTTTCTTGAACTTGTTCTAAATTTAATATATTGTCTGCAAAATAAGTTTTAAATTTATCAATATCTGAATTCATTTGTGTCTTATTTTTATTAGTATAAGTTAGATATGTTCTACTTACATCTTGATAAGATTTTTCATCTGGAATTGTTTTTGAATTTCTGTTAAATTGCTGATTAAAAAGACTATTATTTATATAAAATATTGCTTCATTTTGTTGATTAGTTAAAAGATCTTCTTCATAAATTGTAGGATAAACATTTAGTGAATCTACACCAATTCCATCCATTTTAAGAGATTGTTGAAAATCATTAAATATTTTATAAGAATTTCCTAAAATCATATTATTATATTTAGCATATCCACTAGAAACAATAAATGAATTTGCTGTTAAAGAATCAACATCATTAGTTCTTTTATAAAAATAAAATAAATCTTCATTGTAAAAATGAACTTTGTATTTATCTGTTCCTATTTCTTGTTCATTATAGAAAGCCGAAATATATCGATATTTATTACCATTAGAGTCTCATTTAACTGCTTCACTTGTTGTTCTAATTTTGAAGTTTGTTAAATCTCCTAGTAGATTCATATATTTACTGAATCAATCACCTTGAGTAATTTGTCTGTTAGCAACTAAATAACCATCAGCATCCAGACTTGTTTTAAATAAATTATAAGTGTCAAATTCTTTCATTAAAAAACTTGCATTATTTTTAATCATATTAAATGATTGAGTATCATCATTTCAATTTTCATTTTCAACTTCATGGTTTAGAAATGAATATTTTCCATTTTTATCTAAATTACCTATACCTTTTTTAAGATAATCATCAATAGCTTGTTGACCTCCCGTATTGTATAGATTTATTAGATCAAGTTTAATTTGATAAGTTAATCAAGAATTATTTAAATAAAACATGTAATCAAAAATATTTAAAGCACTTTCTTTAGCTTCAGAAGTTAAAGAATTAGATTGAAAATAATCATACTTTTCATAAATTTGACCTATTAAAGATTTCTTAAAATATTGTGATTTAAAATTTATTTTATAAAAATCACCAAACGCACCTTTTGCAACAGTGTCAATTTTATCTTCATCAGAGTAATTTGTAATTGCCTCTTCTGGTGTTGGAATTATTCTTTTTCTATTTGCTGTATTGTCAAAACCATAATTAGATTCTACATCTCCAAAATGAAAATTTAGATGTTCTTTGCTTCCAAATTTAAAAATTGATGATTTATAACAACCATTAACTGAATCTAAGCAACCAGCTTCTTGTTTATCAATAAATTTATAGGATTGAAAAATACTATCTTGTTGTCCAAATGTTAATTGAGGTAAACTAATATTATTTTCATCCTTTATTAAATTAGTATTAAATGCAAATCAGGGAGTAAAAGTTTGAGTATCATTAGATTTATACGAAGTCGACGTATATCTAAATGAGTAATCAAACTTTTCAAAATTTCTATTTATTTCATTATCTGTTCTTATTAAATTTGAAGTGACAATACCAAAAGAAGAAGTAAATATAACAGCAATTGTTATAAGTACTAAATAAATTCCAAATTGAACATAATCTTTTAGTAGTTTTCTTAAACCATTTTTAAATAAAAGCATTTATTAATATATATTATAGAATTCTTCTCCACTTTCATTAAAGCATTTAATTGAAGTAATAATTCAGTAAGGTGATTCAGTATTTTTAGAAATATTTTCTCAAACTATTTTATATGAATTTTTAACATTGTTATAGTCTTGATAATTTCCTTTACCATCATATGCTGCTAGTTCATCTTCTTTAATAACTCCTTGCTCAAGTCCAAGAATTTTTCCTGAATTAGCTATTTTTTCTTGATCTAATTTTGATTCCAATCCATCTTTTCACTTATCTTTTTGATTTTCCACTATTGTTTGATAAGGATTGAACTTCTCATTTACTTCTACTTGTTTTGTTTGTTTACTTGCATTTGAAGTAACATCTCCAATACCATTATATTTCAGATTGAATTCCATTTTAGCTCCAGCTTGTGTATTACTTGTTGAAGTAATTTTTACATCATTTACATCTCAATATTTTTCATCTACTAAATATTGTAATACTGGTTCATGAACTTCTTTCATAGCATTAGCTACATAATCTTTGAAACTTGCAAAAAAGTTAGCTAAGTCAGATTGTCCTACAGTTTTTGAATCTGTCATAGCACTAAAAATTCTTGCCCCAATTGAACCCTCTTCATAACCTTTTTCAGATCAACCTATATCTTTTAATAATTCATTTTTCTTAGAAATAGTTAAATCTCTAAAAGTTTTTTCATCTTTAAAATCTTCAATTATTTGATCCAAAGTATTTCTAACATTTTCTTCAGTTATCATTTTATAAAAACTTTGAACTAACTTAAGAAGTTTAATTCCTCCAGCATTATTTTTTCCATACATAGAGTTTTTTCAATTTTCTTCTCCAATATAAGTCATCATAGAACTATAAGCATCATAAAATCCCTTTTTAGAAGTACAAAACATTTCTGTTATAAAAGCGTTCTTATCAGTACTTTGTTCATATGAGTTTACAATACTATCTATAATATCAACTATATTTGCTGCATTTGTTCCTGGATTAATTTTGTCTTTATCCTTACTTTTATAAAGATCACTTACTATAGGACTGCTAAGTCCTAAAAATGAATAACTTGGAGCTTCATCTAAATTATTTATTTTTTCTTTAGTAGATTCATCTAACCTATCTGAAGTGCTAGGATTTTTTATTCCCTTTCAAATATTGCTTGTCAATGAAATACCAACAGATTGCATAATATTGTTAGAGTCACCTATACTAATATTTCCTGACCTTACCATAGGAAATAAAACATTCATAAATTCTGCAAATATTAAAGCACCATTTTTTGTAGGTGAAATATTTTCAAACATTGATCCAAATAAACTTATAAATCCTTTAATATTTTGTTCTCCTGCAACTTTTGTTATTAATCCCCCAGTTGAGTTAAATTTAATATTTCCAATTTGAGATTGGTTATCTGAATTCGCCTTTGAATAATTTTTATCTTTCAATTTATTTTTACTTAGTTCTTGTCCCTTTGAACCAAGTCATCCATCTTTTACACTATAATCAGTGCTTTTTTTAGCACCATCGTTCATTAATATAGAATTATATCAAGCATATCCTGAACCATTTGTACCAACTTTCTCTCCTGCAGAAGAAGCTGGTCCTGATGAACCATTGGTATCTGTTGGATTTGCACCATCAAATTTCATATTTAATAAGTAATTTGAAAGTGCTCCTGTATCTTGAATAGCTCAAGCAAGATTTCTTCTATCTTGATTATCAGATAAATTAATATCACTTCCTAAACCTGCTGCATATCCCATTGCATTTTTTCCATCTTTTTTGTTATATCCTTGGTTACCAGTTGTAGAAAATGTATCATTGAAATAATATGCCTTATTATCACTATTTATCATAGTTTGATAGAAATCATCATCATACATTCCCATAATATAACTTGCAAACATTCCTGCATAATTGTCTCCATTAAAGTAATTTAAAGATGGAGCCAAATAGTTTTTATATTTATTAATATCTGATGCCATATTTATACTTTTTCCATCATATTTATATGAAGTTGGCATATTCATAGCAGTTGTTGAAGGTGTTAAGAAAATTGACAATATTTCGTTAATATTGTAATTTAAATTTTCATGTCTTCCCCCAACAATTAATCTTGATATAAATTCTGCTCCTTGAAGCATTTCTTTTTGAATATCTGTTAAACCATTTGTTTCTGGATCTGGTTTCACAGGAACTTTACATGACATAACTGTAGCAGTTGATGATCCTAACAATGTAATAACTGCTAACGAATTTATTAATTTTTTCATTATTTTTTCCCCTTATTTTTAAAAATTTATAGATATTTATTTTATATTTAAAATAATTTAGTTTATTAATGTCATTTAAAATTTTAAACTTGGGGGAGTTTTTCCCTTTTTATTTATTTTTAATTCCTCTGATTCATATGTACAAATTTGTCTAATAGTTGAATCTCAACTTTTATCTTTACTTGTTTCTTGAGAATTTTTAATTTGAATATCTCCAAAAAGAGCTTTTATAAGATTTTTCAACTTTATAGAATTTTTATAAATTTTATTTATAAATTCTTTATTTGAATTTGAAACAACATCTAAAATAAAAAATATAAACAAACAAATACCAATATAAGAAACATTATATATTAAGAAAATATTTACAAGAAGAATGAAAACATACATAAATAAACTGACATTATGCATATTCAAATATTTATAAACTTTATAATTATTTCATCAATTTATATCATTTGTTACTGAATCTGTTATTGAAAATGATCTAATTGTTAATAAAATTGAAAAAGCAAAAAATATTAATATGATAATCATCTTACTGTAGAATTTGTAATTAGTATTTAAAATATTCAAATTTAAGAGATTTTTTCTTGATATTTCAAATTTATATTTTTCTGTATACTTTAAAAATTCAAAAATAAATTCACTTATATAATAAAGAGTTATAAAAATAAGAATTGCATTGATTATAAAGCAAATTGAAGTAGTGGCAATTTTATTATGAAAAAAATTTTGATCTGGGAACGCTAAAAAAAAATAGTAATAAATAAGGTATTAAATTTTTTTTACCCCTAATTATTTTCATAAATACCCTCTTGATAATTATTATATTTCAAAAAAATAAAAAAATACACTTATTTTTATAATAAATATAAAAAGAAATGTATTTAATTAAACTATTTTTCCTTGAGCAAAGGTATTATTTCCTCCACCTTTAACTTCATATTTGCCATTATTTTTAAATAGATCTATTGCTTTGTTATCATTTGAAATACTTTCACTTACTGATACTATAAATACTTTATCTTTTGTATTTGCAAATTTAATAATTAAATTATCATATTTATTTTGCATTTTATCTGAAAGAACTTTTAATTCTTTCATTTCAAGATCATTTATTTCAATATCAATTAAATTTATATTTTCTTTTTTAGTTGGTTCAATATTTGAATATTTTGCTAAATTCTCTTCAATTAGCAAATCTTCTACTTCCTTTTGATAAAGTTTAAATGTATTTTTTAGATCATTTACTTTTTGTTTTATTAAAATCAAATTAGGTTTAGTTACTTGCATAGAAGTAATTGCATTTATTTCTTGTTCAATTTCTTGATTTTTAACTTTTAATTTAAAATTATTGAACTTATCAATTAATGAAGATATTTCAGATTTTTGTTTTCTGAATTGTTCATTTAAATAATTTGCAACTTCTTTATGACTTGTTACTGCGTGATATCTAAAAACTCCACTACCTTTTGATTCCACATTAGTAATTAATAAGTCTTCAATATCTTTGGTATTTTCAACATGAGTTCCTCCACAAAGTTCACATGAAAATTTTCCAAATTTAATTATTCTAACTGTTCCACCATATTTTTCTGTAAATAATGCTAAAGCATTATGTTTTTCAATTGCTTCTTGTAATGAACAGTAAATGATTTCTCTTGGTATACAGTTTTTTATTTCTCTGTTTATAGCTAAGTGAATCTTATCTATTTCTTCTTGAGTTGGTAATCTATTGTAAGAAATATCAATTCTTAATCCATTTTCATCATTATAACTACCGCTTTGCAATGCTTCTTTTCCTAAGACTTCTTGAATACCTGCTTGTAATATATGAGTTCCTGAATGATTTTTCATAGTATAAAAACGTTTTTCACTATTAATTTCAGCTTTAATTAAATCCCCAACTTTTAAAGTTCCATTGACTTGAACTTTGTGAATATGTTGACCATTTGGCCCTGATTGAACATCAAGTACTAAATGACGATTTTCTTGTTCATCGATTAAATAACCATTATCTGCTGCTTGTCCACCTTTTTCTGCATAAAAGGGTGTTTTTGTTAAAGTAACAAAAACTACTTTATCTTTTGCAATTTCAAGAGATTTTTCATCTTCAAAAATAAAGTTAATAGTAGATTCACATTCTTCTAATTCATAACCTACAAATTCACTTTCAACATTTAATCCAGTTAAAATAGCAGATTGTTTATTTCATGCCTTATCATTCTTTCTAGAATTTCTAGCTAACTCTTTTGTTTGTTCTAATAGAGCTTCATAGCCCTTTAAATCAACTTCTACATTTGATTCACTTGCTATTTCTGAAGTTAATTCAATTGGAAAACCAAAAGATTCAAATAATAATAAAGCATTTTTGGCACTTACTTTATTTTCATTTTTAACTATATTTTCTAAATGCTCATAACCTTTTGAAAGTGTTTTCAAAAATCTTAACTCTTCTTGTTTAATTATTTCTTTAACTGATTGTGCTTTTTCAATTAAATAAGGATAAAATTCTTGCATTGCTTCAATAACTTTATCAACTAATTTGTATAAAAAAGCATCTTGAATTCCAAGTTTTCTTCCATACACTGAGCTTCTTCTTATAAGTCTTCTAATAATATATCCTCTATCTTTATTCCCAGGAAATACTCCATCACTTATTGCAAAGACTACAGCTCTTACATGATCTGCAATAACTTTAAAAGCTGTATTAATTTTAGTTTGTTCTTTATTTTCATTATAATAATTTTCAATAGAGTATTTAAATTTTGAGTTACATATCTTTTCTACTTCTTTTATAGTTGGAAAAAATATATCTGTTTCAAAGTTTGTAGGAGCATCTTGAAATATTGAAACTAGTCTTTCAAATCCAGCACCAGTATCTATATTCTTTCTTGGCAATTCAATATAATTATTATTTCCGTCATTATTAAATTGTGAAAAAACTATATTTCAAATCTCAATGTAGCGATCATTTTCAATATCATCTTTTAAAAGTCTAGAACCTATTTTTTCTGTGTCTCATTTTTCACCACGATCAAAGAAAATTTCAGTATTTGGTCCGCAAGGCCCTTGTCCTACATCTCAAAAGTTTGTATCTCTAGAACCTTTGAAAATATGATCTTCTTTAATACCTATAGTTCTTGTTCAAACATCATAGGCTTCTTTGTCTTCATTAAAAACAGTTATGTATAAAAGTTCAGGATTAATAGCAAATCATTTTGGAGATGTTAAAAGCTCTCAAGCAAACTCAATTGCTTCTTTCTTAAAGTAATCACCAATTGAAAAATTTCCTAGCATTTCAAACATAGTTTGATGACGAGCTGTAACTCCAACATTTTCAATATCATTTGTTCTAATTGATTTTTGTGAATTAGTTAATCTTGGTGAAGGAGGATTCATTCTCCCATCAAAATAAGGTTTTAATGTAGCCACTCCTGAGTTAATTCACAATAAACTTGGATCTTCAACAGGAACTAAACTTACAGGTTCTAAAAAATAATGATCCTTAGATTTGAAAAAATCTAATCACATTTTTCTAATTTCATTTGCAGAAAGTTTTTTCATTATATTGTCTCCTTATAAATAACAAAATAATTTTAGCATATAAGAACTTTTAATTATTTTATAAAGCAATCTTTATGTACTGCCATTGTTATACCACTAAATTCAACCTCATTATAATTTTCATTATTGTAGAATTTAATATTTCATGCACTAGAGTCATCAACTTTTGAGTAATGTTTATTATAATCCATATGTTTTAAACAAACTATGCAAAGTCTGTGAATATCAAATTTATCTTTTTCATCTCCACATTGACAAAGTAATGCATTACTTCAAGCATTAGTTGCTATATTATCTAATTTAATTTTTTCCATAATTTAATTCTCTTTTCAAATTTTGTTTAGAAAGTAAAAGGTTCATATCGAACCCTTTTTATTTATTGTAATTTGGTGCTTCTTTTGTCAGTTCAACATCATGAGGATGACTTTCTTTTAAACTAGCATTTGTTATTTTTACAAATTTTGTGTTTAAACGAAGATGTTCAATAGTTTCACTTCCAGTATAACCCATACCACTTTTCAAACCACCCATTAATTGAAAAATAACATCTTTTATTTTTCCTTTAAAAGGAACTCTTGCTTCGATTCCTTCTGGAACTAATTTTTTCGCACCTTTTTGAAAGTATCTATCACTGCTTCCTCTTTTCATTGCTGCAAGTGATCCCATACCAACATAAGTTTTATATTTTTTACCATTGGCAATAATCTCTTCTCCAGGAGATTCTTCTGTACCTGCAAAAATACTTCCCATCATGACACTGTGTGCTCCACCTGCAAGTGCTTTTACAATATCTCCAGAATATTTAATTCCCCCATCAGCTATAATAGTTAAATCTTTATCTTGTGCTCAGTTAAATACTTCACTAATTGCTGTAATTTGAGGAACACCAACTCCTGCAACAACTCTTGTTGTACAAATACTTCCTGGACCAACTCCAACTTTAACTGCATTTGCTCCTGCTTCATAAAGTGCTTTTGCTCCTTCAGCAGTACAAATATTTCCAGCAATAATATCAAGATTTTTATATTTAGCTCTAATTTTTTTAATAACTTCAAGTATACCTTTACTATGTCCATGAGCTGAATCAATAACAATAACATCTACTTGCGCTTTAACTAAAGCATCAACTCTTTCAATAGAATCAGATCCAACTCCCACTGCTGCTCCAACTCTTAATCTTCCTTTTAAATCTTTGCATGCATTTGGATGATCAATTGCTTTATCAATGTCTTTTGTAGTTATTAAACCTACTAAAATATTGTTTTTATCAACAATTGGTAATTTTTCAATTCTGTTCTTTAATAAAATTGCTTTAGCTTGTTCTAATGTAGTTGAAGGATTTCCTGTTATTAAATTTTTTTTAGTCATAACTAAATCAACTTGTGCATGGAAATCTTCAAAATATTTTAAGTCTCTGTTTGTAACAATTCCTATTAATTTTTGATTATCATCAACTACAGGTAAACCAGAGATTTTATAAGTTCCCATTATTTTATTTGCTTCTTCAACTGTTGTATCTTTTGAAATTGTAATTGGATCAGTTATAAATCCTGATTCATTTCTTTTAACTTTTTGAACTTCTAATACTTGTTCTTCAATAGTTAAATTTTTATGGATAACTCCAATACCTCCAGCTCTTGCCATTTCAATTGCCAATCTTGCTTCTGTTACAGTATCCATAGCAGCACTTATTAAAGGAATATTAAGTTCAATATTTTTAGTTAATTTTGTTTTTAATTTAACTTCGCTTGGTAAAACTTCAGAGTATCCAGGAACTAATAAAACATCATCAAAAGTGATTCCCTCATTAATTATTTTTCCATTTAAATCATTTCTACTCATCTTTTAAAACTCCTATTCTCATTCAATTGTACCTGGAGGTTTTGAAGTAATATCATAAACCACTCTGTTAACACCATCAACTTTATTAATAATTTCATTGACAGTTTTATCTAAAAATTCTCAAGGTAAATGACTACTTGAAGCTGTCATAAAATCAATTGTATTTACAGATCTTAAAGCAACTACATAATCATAAGTTCTATTGTCTCCCATTACTCCAACTGTTTTTACAGGAAGTAATGTAACAAATGCTTGTGAAACTTCATTATATAAATTAGCTTCAATTAAATTATTTATGAAAATATCATCAGCTTCTCTTAAAATATCACATTTTTCTTTTGTTACTTCTCCAATAACTCTTACTCCAAGACCAGGGCCAGGAAATGGATGACGATTAATCATTAAATCAGGAATACCTAATTCTTTTCCTACAGCTCTAACTTCATCTTTGAATAATGTTCTTAATGGCTCTAGTAATTCAAATTTTAAATCTTCTGGTAAGCCTCCAACATTGTGATGTGATTTAATTGTTTTTGAAACATGACCATGACTTGAAGATTCAATAACATCAGGATAGATAGTACCTTGTGCTAAAAATTTAGCCCCTTGCATTTCTCTTGCTTGATCACTGAATACCTCAATAAATTTGCGTCCTATAATTTTTCTCTTATTTTCAGGATCTGTTTCTCCTTTTAAAGCATTATAGAAAGTTTCTCCTGCATCAATCAATTTAATATTCATATCAAATTCTTTATTGTACAAGTCCATAACTTTTTGTGCTTCATTTTTTCTTAACAAACCTGTATCAACTAAAATACATGTTAATTGTTTTCCAATTGCTTTTGAAATTAAAACAGCAGCTACAGAAGAGTCAACTCCCCCTGATAATCCAAGAATGACTTGTTCTTCACCAACTATTTCTTTAATTTCTGCAATTTTTTCTTTAATAAATTCTTTCATTTCTCAATCTTTTTGACATTTTGAAATATCAAATAAGAAGTTTTCTAGCATTTGAATACCTTGTTCTGAATGAGTTACTTCTGCATGAAATTGAATCCCATAAATTTTTTTCTCTTCATTTGCAATTCCCGCAACAGATGAATCTGAATGAGCTATTTGTTTAAAACCTTTTGGCATTTGTGTTAAATGATCTGCATGACTCATTCAAACTTGTGAGTTGTTTTTTACATTTTTAAATAGAGGAGTTTTTAAATCATCTATAAATAATTGTGCTTTACCAAATTCTTGTGAAGAAGCAAGTTCAACTTTTCCTTCAAACATTTCAGTTATAAGTTGCATACCATAGCAAACACCAAGTATTGGAACATTTAAATCAAATAATGCTTTATCAACAGTATATGCTTCACTTAAATATACACTACTTGGTCCTCCTGAAAATATAATTGCTTTTAAATTTGTATATTCTTTTTGTAATTCTTCTTTTGTTTTATCAAAAGGAATTACTTCTGCATATACATTTAAATGTCTAACTCTTCTTGCAAGCAATTGAGTATATTGACTTCCAAAATCTAAAATAAGTATTTGTGTTTTTGACATATTTCTTACCTTTCGCTAATTTTATTAAAACCAATGTTTTATTAATTATACATTAAAAAAACATCAGTATAATTCAAGTATACTGATGTTTTTTAAAATTAAAAGTTAATTGGTTTTCCTGTTTCTAATGCCTCAGCTGCTTCTCCAATTGCCTCACTTAATGAAGGGTGAGGGTGAATTGATCTTGCTATTTCAGTTATTGTAGCTTCCGATTGCATAACAGTAGTTATTTCTGAAATCATATCAGTTGCTGTATTAGAAATAATATGACAACCTAAAACTTGTTTGAATTTAGGTTCACAAATTAATTTAACAAAACCTCCTGTATTTCCATCAGCAAGTGCTTTACCAATTGCAGCAAATGGAAATTTATAGACTTGATATTCAGTTCCTGCTTTTTTAAGTTCATCTTCTGTTTTACCAACAGCAGCAACTTCTGGATAAGTATAAATACAACTTGGTACTCTGTCAAAATTCATAGATATATCTTCAGCGTGTTCGTTTCCCAATCTTCTTGCTATTCTATTTGCAGCAATGATACCTTGATGAGATGCAACATGTGCTAACATCATTTTTCCTGTAACATCACCAATTGAATATACTCCATCAATATTTGTTTCACAGTATTCATTTACATTAATATGTCCACGTTCATTCATTTCTAAATTAATATTTGTAAATCCCTCTGTTACAACTTTACGTCCCACTGATTGTAAACAATAATCAGCTTTAATTTTATATTCTTTACCATCTTTTTCATAAACTACTTCTTTTTTACCAAATGACTTTGTGTTTACTCCATAAATAATCTCTAAGTTTCCTCTAGAGATTAACTCTTTTGTCATTTCTTTTGAAACATCACTATCTAACATTTCTAAAATGGTTGGTAAAAATTGCAGAACAGTAACTTTTGTTCCTAATCTTTTATATACACAAGCAAACTCAATACCAATAACTCCTCCACCAATAATTACTAATTCTTTTGGAATTTTTGGAAGAGATAAAGCTCCTGTTGAATCAATTAAGAATCCTGATTCCATAGCTTCTTTTGCTCCTGGTAAATTAAAGTGATTTGGTACACTTCCTGTTGCAATAATCATATTGTCACAAGTATATTTTTTATTATTTACTTCAACTGTGTTTTTATCTAATGCTTTTGCAAAACCTTCAACTGATGTAACTTTATTTTTTTTCAATAAACCTTTTACACCTGTTGTTAATTTTCCAACAACATCATCTTTTCTTGCTTGAATTGCTTTTCAATCTGCTTTTACTCCACTAACATCAACTTGAATACCATACTTGTCTGCACGTTTTGTAATTTGTTCATATAAATATGCTGATTTTAATAAAGTTTTAGTTGGAATACATCCAATATTTAGACAAACTCCCCCATAATTTCCTTTTTCTACAATTAAAGTTTTTAAACCTAATTGAGCACACTTAATAGCAGAGACATAACCTCCAACTCCAGCTCCCACAACAATAACATCAAAATGATCTTCTGGATTTTTTGGTGTAAATTTTGGTGCTGGTCTTAAAGCTCCACCTTTGCCTTTTACAAGCCCTGACATATTTACATTATTTACAGCATTAACAATTGTCTCTACTGGTGATTTTTTGGGAGGAACTGCTCTTGTTCTTCCTCTTGAAAGTAAATCATTTGATACTGGTGTTGCACCAACAACTGATGCATTTTCTTCAACTGGTTCAGCTTTTGCTTCTTGTGGAGCATCACCTTTACCATCATCTATTTCTACAACTATATCTCCAACTTTAATTTCTTGATTTGGTGAAATTAAAATTTTTGCTACTGTACCATCTGTTGGTGCATAAATATCTGAAGTAACTTTGTCAGTTTCAACGTTAAATAAAGAGTCTCCCATTTTAACTTTGTCCCCAACTTTAACTAAAACTTCAGTAACTGTTCCTTCTGTTAAACCTTCTCCGATGTCTGCGAATTTTACTTTAAACATATATCAATTCTCCTAAACCAATAGAATTGCAGGATTTTGTAAATAATACGCGATTCTTGTTAAGAATCTTCCTGCATCAGCACCATCAATTACTTTATGATCTGCAGTAATTGAGAATGGCATATAATCTCTAATTTCAATTTCATCTTTAACAACTCCAGGAGCTTTTGTTATTGTTCCAACTCCTAAAATTGCTGATTCAGGGAAGTTAACAATTGGTGTTGCATAATCTAAACCTACAGCACCAAAGTTTGTAACAGTAAAAGTAGCTCCACTCATTTCACTTGGTGCTAATTTTTTAGCTCTTGCTTTTGTTGCAAGATCATTAATTTTTACAGCAATTTGTAAAACACTTAATTTATCTGCTCCTTTAATTACAGGAACCATTAAACCATCTGGTGTATCACATGCCATACCAATATTAATTTGTTGTGCAAATTTTGTTGCTTTATTTTCTTCATCAATTCTTACATTTAAATTTGGCATATCTTTTAAAGCATTTGCACTAGCTTTAATAATAAATGCTAAATAAGTCAATTTAACCCTTAATGAATCTGCATGACCTTTTAATTGATTTCTAATATTTACTAATTCAGTAATATCTAGATTTCTCAATCCTGTAAATCCTGCAACTTTTTCATGAGCTGTTGTCATTGCTTTTACAGTTGCTTTTCTAATAGGATTTCATGGTTTTGATTCAAATGTTAATGGTTCATTAATTTCAGGAACTGAAATTAATGGGTTTGAATAATCAATTGCAGTTCCTTTTGAAGCACTTGCAATTGGTGCTGAAACTGTACTTGGTTGTGGTGTTGCTGAAAATGATTGAACATCTGCAACTAATATTCTTCCATTTGGTCCAGATGGACTAACTTTTGATAAATCCACTCCCATAACTGCTGCCATTTTTCTTGCTAATGGTGATGCTTTAACATCAACATTGCTATTATCAATAATACTTGGTTGAGATGAAATCTCTTGTTTTGGTGCAACCTCTCTAGCTGCTCTTGAGATAACTTCATTAGAAACTGGTGTTGCACCAACAACTGATGCATTTTCTTCAACTGGTTCAGCTTTTGCTTCTTGTGGAGCATCACCTTTACCATCATCTATTTCTACAACTATATCTCCAACTTTAATTTCTTGATTTGGTGAAATTAAAATTTTTGCTACTGTACCATCTGTTGGTGCATAAATATCTGAAGTAACTTTGTCAGTTTCAACGTTAAATAAAGAGTCTCCCATTTTAACTTTATCTCCAACTTTAACTAAAACTTCAGTAACTGTTCCTTCTGTTAAACCTTCTCCAATGTCTGCGAATTTTACTTTAAACATATTTTCAATTCTCCTATGACTATTTAAAATTTATAATTTAAAATTTCTTCCATTTTAACTAATATTTTTTTTGGATGAGGTTGGTGATAAGCTTCACCTGAATCAAAAGGAATAACAATATCATAACCTGTGCATCTCATTGAAGGAGCCTTTAAGTATTCAAAACACTCTTCATTTACTGATGCAATAATTTCTGATGAAACTGAAAATGATCTAATTGCTTCATGTACAACTAATAATCTTCCAGTTTTTTTAACTGATTCGAAAATCATTTCTTTATCTCATGGTTGAATTGAACGTAAATCGATTAATTCAATTGTGATATCTGGATTTTTAGATTCTAATTCATCAATAGCTTTTTGACAATCAACAGTTTGTGCTCCATAAGTCACAACTGTTAAGTCATTTCCTTCTTGAATTTTAAAAGCTTTTCCTATTTCAACTGTATAGAATCCTTCAGGAACTTCTTGTTTGAAAGCTCTATATAATTTTGTTGGTTCAAATACAATAACTGGATCTGGTGATTCAATTGCTGCTAATAATAAACCTTTTGTATCGTATGGTGTTGAAGGACAAACAACTTTAATCCCTGGTGTATGTGCATACATTGCTTCCATTGCCTCAGAGTGTAATTCAAGAGCTCTAATTCCCCCACCCATTGGCATTCTTATAACAACTGGTGTAGGATATTTTCCTCTTGTTCTGTTTCTCATTCTACCCATATGTCCTAAAATATTTTGCAATGATGGTCATCCTAAACCTTCAAATTGTAATTCCACAACTGGTTTCATTTTATTAATAGCCATACCTATTGCAACTCCAGCAAATACTGCTTCAGAGATTGGAGCGTCAAAACATCTTTTTTCTCCAAATTTAGCTTGTAATCCTTCAGTGGCTCTAAAAACTCCACCTTCATAACCTGCATCTTCTCCATAAACCACAACATCGTCTCATTTTTCCATTGCAACTTCAAGTGCTTCTGAAACGGCTTTAACGTTATTTAAAACTTTCATTAATGGTGTCCTCCTTTTGCAACTTCTGGATATTTAGCAAAGAATTCTTTTGCTTCATTATATTGTTTTTCAAGATCTGGAGTTTTTTGAGCATATTGAAAATTAAAGACATCTTCTAAATCATATGATTTATTTGCTTCTGCTCAATCAAATTCTGTTCTAATAAATTCATCTTGTTCTTTATCTAATTTTTCTTGTTTTTTATCATCTCATATACCTTTTGCAATTAAGAATTTTTTCATTCTAATTAAAGGATCTTTAGTAAGTGCTTCTTCAAATTCAGGTTTTGGTCTGTATATATCTGGATTATCTGAAGAAGAGTGAGCTCCTAATCTATAAGTATCACATTCAATAAATACAGGTCCATTTCCACTTCTTGCATATTCAACTGCCTCTGATGCAACAGCATATACTGCCAATAGATCATTTCCATCAACTTTAACTGAAGGAATTCCTGATGCAATACCTTTTACAGCAATATTTATTGCTTTTGTAGATTTTTTATAAGGTGTTGATATAGCTCATTTATTATTTTCACAAATAAATATAACTGGCAGTTCGTGAATTTTTGCAAAGTTCATAGCTTCGTAAGTTTCTCCTTCACTCATTCCTCCATCACCAGTAGTAGTTAAAGCAACTCCACCAGTACCTCTATATTTTTCTGCAAATGCAATTCCTGTTGCTTGTGAAAATTGAGAACCAATAATAATATTTGGTGGAAGTGAATTTACACCTTCAGGTGATTTACCTCCATACTCATTTCCCATTCAATAAAGCATAATGTTTCTCATTGGCATTCCAACATTTAATCATGCTGCATTGTTTCTATAACCTGAAGCAAATCAATCTTTTCCTTTTATCATTGGTAAAGTATATCCAATTTCTGATGCTTCTTGTCCTGTTGATGAAAGAAATGACAATAGTCTTCCTTGTCTTTGTGCTTTATTTTGAAAATCATCTTGTCTTCTTGAAAGATTCATTAATTTGTAAGCTTCTATCATTTCTTTGTCAGTCATTTTTGGCATTAATTTTTCATTTAATATTTTGCCATCTTTATCCATAATTTGAACGATTTCGTCTTTTAATGGATCAAATTTTCCTATAAATTTCATTTTATACCTCCTATTGAATTAATAAGTTAAGAATGTCTTGAGTTGTAAATGTTTCTCCAAACATACCTTTAATATCTGAATTGTCTAAGATTTTCTGTAATTCGAATGTCTCATACTTTGCATTGATTAGACTTTTTTCAAGTGGTTCTGTTCCTTTAAATCCTAAAAAATCTCCATAGAATTTAGCTTCTTTAATAACTGCTTTTTCAATTTTTAAAAGAACTTCTACAGAACCCTTTCCTTCTAATCTTTGTTTGTTTCTATAATCAAAATCTGCATTTTTTGCAAAATTTCAATCTGGATTTTTGAATTTATTCTCACTAAGAGTTTTAATTTCTTCTAATTCTTCTTGAGATAACTCTATTGTTTTAATTTCTTGTAAATCTTTATATGTTTCAATTAACTGATTCATAAATTGTTCTATATCAATTTTATTTTCTATTTCAGAGTTTATATTTGTAACTCTAGCTGCAATAGATTTAATATTTTTTGAAAGAATCTTTGCTCTATCAACAGTTAAATAATTTGTTAACTTATCAAGATTTGCATTAAACAATATTGTTCCATGTTGCAAAAACCTATCCTCATATTTTCACATTGCATTTCCAGATATTTTTTTGCCATTTAATTCAATATCATTTCTTCCAGAAAATTTTGCGGGAACACCTAAATTATTTAAAGTTTTAATAACTGGCTCTAACATTGATGCAAATAATGAAACAGCTTTGTTATCAACATCTGTATAAATTATGCTAAAATTCATATTTCCCAAATCGTGAAATACAGTTCCCCCACCACTATTTCTTCTAACAATATTTACCATATCTTTTTGCGCATTTTGAAGATTAATTTCTCAAGCAGCATTTTGATTTCTTCCAACAACAATAGTATTGTCATTTTGCCATAAAAAAAGAATTGGTTCGTTATATTTTTTTACTCTTACAAAGTATTCTTCTGTTGCCAAATTAAAAGCAGGATCAACACAAGAAGTTTTATAAATAAACATTCTACACTACCTTCCTATACATATATATTTTAGAACTTTTCTCTGTTTTCTCCAAAATTTTTTTAAAGTATGAAAAAAATTTTCAAAAATTTTTATTATAAAAAATATATAATCTTAATTAAAGGAGTTGAATATATATGCAACTACAACATTTATCTAAAAAAAGACTAATTTTAATAGATTTAGATGGAACTACTTTAATGTCTAATGGAGAAGAAATTCATCCAATTACAAAAAAAGCATTAATAAATGCAAGAAAAGAAGGACATGAAGTTTGTATAATAACAGGTCGTCCACATAGAGCAAGTATCAGATTTTACAATGAATTGGGTTTAACTACTCTTTTAACTAATTTTGATGGAGCTCATATTCACGATCCAATATCAAAGAAATTTAAAAGAATTGTGTTTCCAATAAGTGAAGAAATTGTAAGTGAAATTATGAATCACGAAAAAATTAAAAGTTCTATTTCAAATATATTAGTAGAATCATACAATAAAGCAATGGTGAGAGAGAAAGACGAATTTGTAGAAAACTTTTTTCACTTAGATGACGTTGATGATGATGAATACAAAATAACAGATCCATATAAAAGCTGAGAAGGTTCAGCAACTAACTTAGTTTTGTTTATTGATACAGAAGATAATAGAGATGAAGTTTTAAGAGTTTTAGAAAAATTTAAACATACAATTAAAATTCAATCTGGAAATGTTTATGGAAATTTAACAAAGTCTTCAAAACTAATGATTACTTTAACAAATAAAATAGTAAATAAGGGATTTGTAACTGATATATTAGCTCAATATTACAATAAAGATATTAGAGATGTTATTGCTTTTGGAGACCAAATGAATGACTATGAAATGGTTCAAAAAGTTGGTTATGGAGTAGCTATGAAAAATGGAAGTCAAGAGTTAAAAAATATTGCAGCAGGTATTACAAATTTAACTAATAATGAAGGTGGAGTTGGAGAGTACTTAGAAAAATTGTTAAAAGGATTAGAAGTTTAAAAAACTGGCTTAAGCCAGTTTTTTATTTTACTAGTTTTTCTAATTCGTCTATCAGATTATCTATTTCTTCAATTAAAGGCAGATAAGTATTTTTATCTAAAAAATCTACACCTACATCTTTTAAAATTTCTAAGGGTTCTTTTGAGCCTCCCATTTTTAAGAAATTTATTATATTTTCTTTATATCCATTTTTAAAATCATTGTAAAGTTTAAAACTTGCAACTAAATCTATTGCATATTTGTAAACATAAAATGGAGATTGAAAGAAATGAGAAATATAAGGTCATGAATAATTTGACTCATCCTTATCTGCAAATTCATCATATCCAAACTCTTTTTGTTTTTGAACAAATAAGTCTTTTAATGTTTCTGTAGTAATTGGTTCATCTTCTTCAATTAATTTATGTGCACTATATTCAAAATCTGCAAATTGTATTTGTCTATAAAAAGTTGAAATTAAATCAAATATTCTTTGCTGTAATAAGTATTTTTTCTCTTCTAAATCGTTTGTATTTGAATATAAATAATCAAATAACAAATGCTCATTAAATGTTGATGCTACTTCTGCTAATATAATTGGATAATTATTTAATGGATAAACTTGATATTCATCTGAAAATAAAGTGTGCACTGAATGACCTATTTCATGTGCTAATGTACTTACTGAACCTAGTGTATCATCTCAATTCATTAATATTATTGGTTCAACACCATTTCCCCCAGATGAATATGCTCCATCAGATTTATTATCATCTTCATAATAATCTATTAGATTATCTTTAAAAGCTATTTGTAATTTATCAATATATTCTTTTCCTAAAACTTCTAAAGAATTTTTTACAATTTCTTGTCCTTGTTCAACACTAAATTTTTTATTATAGTCCTTAGTAATTTTTAATAATCTATCTGAAGAGTTAAATTCTTTTAAATCATAAACCTTCTTAATTAATCTATTATATTTTCTAAATGATTCAATAGTTTCCTTTCCAAATTCAATTAACTTTAAATAAATACTTTCACTAACTTGATCATCAAATAAATTCATTTCCAGTATTGATTTGTAATTTCTTACGTTTTTGCTTTCATATTGTTCTTGAATAATTGCCTCATATATTTTTGCAAAACTATGTTTTCTAGAAATAAAGTTTTCAAAATATAACTTTTGAGCTTCTTTTCGTTTTTCTTGATCCATTTTAGGATCTGAATTTTCCATAATTTCTTTATAAAGAGAAGAGGTTAATTCTTCTTCTTTATTTTGTCAAATTATTTTATTTGACTCTCTATCTGCATAAGCAAGAGAATCATATAAATTTCCAACTGCATTTCTGCTTCTTTCTAATTTGCTCATTAACTCTTCTTGTCTATCATCAAGAATATACTTTGAAGATTTAAAAAAAGTTCTAAAATAATAATTATAATTTTGTAAGTTACTTTCGCTTAATCATATAGATATTTTTTCTTCACCTATCTCTTTTAACTCATTTAATAAAAAAGCAGATTTAACTTTGGATTCTTGATAAAAGTTATCTAAAATTGAACTCAATTCTTGATTTTCATTATTTGTTTGATCAATATCAATTAAATGAGCATATTGATTTATTTTAGTTATTAGTAAATCTTTTTCCTTTTCTAAATTTAAATATTTTAAAAAATTCTCCTTAATATTTAAAGTACCTTTTAAATTATGAATATCTTGACATAATTCTTTGGCCTTTTTAATTTCATCGTTTCATTGTTGTGTGTTTTCATATAAATGGGAAAAATTTCATTTATATTTATTATCAGCGTTTTTTCTTTTCATAGAGTTATTATATAAAATAAAGTTTGTCTTTATAAAGAAAATAAAAAATAAGGTCTATAATTTTATTTTTTTATTTTATAATAAAAATGAACTAATAAAAGTTGTTTTAATAATAATATAGAGAGAGGTTTTTAGTTATGCTAAAAACCTTTAATTTGATAAGACTAATATAATAAAAACTTATAGTTTTTTATCAAATAAATTATCTATAAAAAATTTTTTATTACTTCTAAATTTTGAAATGTGAAATATTAAAAAAATTGAGTATTTAAATTATAAAGGAAATAAAATTATGATCTATGAACCATTAAAAGAATATGAAACAACTCTAAAGAAGAAGTTTGAAGATACTTTAGAAGAAGAATTTGATAAACTAGTAAAACTTTCAGGAGTTGATAAAGAAGCAAATGAAAAATTAATGAAGTCTATAAAAAGCGATCGTAAAAAAATAGCAAAAGCAAATGATAGATATCAATTAATGAAAAGATGAAAAGGCTTTTTATTCATTTTTTTTATAGTTTTTACTATAATAACAACTACAGTAGTATTAAGTATATTTATTAATTTATCACTTTTTATTGCCAATATAAGTTTATATGGAAAAGCTCTTTATCTAAGAATTTTAATAATGGGAATTTATGCAATTTACTCGTTCTTTTATTTAAAGTATTTTTTTATAAAATATAAAAAATTTTGAAAAGAAATAGATAAATTAAAAGCTAGAGCAGAAGAAAATATAGAAGTTGCATGACAACAAATGAAAAAATTAAATGATTTATTTGAATGAGGAATTCCTTTAAAACTTTTTTCAAAAACTATTGATTTTATAAAATTTGATAATAACTTAACTAGTAATAAAATGCAGTATTTGATCAGCAGATATAACTTACCTTTAAAAAATAAAACTTATTCAACAAAAAGTTTAATAAGTGGAGAAATAGCAAAAAATCCATTTCTAATTTGAGAAAGAAGTTTTTTTATAATGGAGGATATAACTTATAGCGGTCAAAAAAATTTTCAATATAAGAGAAACATTATAGAAGATAATGGTGATATTAGCTATTCAATTGATGATAAAGTTTTAAGAGCTGAAATTGTAAAACAAATTCCTGTTTTTAAAACTGAAAAAGTAGTACTTTTCATGTCTGATTTAATTCCTAATTTAAGTTATACAAGAAAACCACAAAATTTAAATTCCTTAAATTTAAAGGAATTAGAGGAGTTTATAAATAAAAATAAAGAACTTTTAGAGAAAAAAGCTATTGATTCAATTAAGGAAAATAGTAGTTTTAACTTGATGAATAATACTGAATTTGAAAGTTACTTTAATGTTCAAAATAGAAGTAATGAAATTGAATTTAGAAGACTTTTCACACCAATTGCTCAAAAAAATATGATAGAACTAATAGCAGATCTTAAAAGTGGATTTGGAGATGATTTCACTTTAGAGAAAAAAGGTATGATAACTTGAATTAAATCTGATAGATTAAAAAACTGATACTTTGATCAAAATCCTGTTGACTATACTTCTTTTTCATTAGATTCAATCAAACAAAAGTTCTTTGATATTAATAGAGTTCAGTTTAGACACATGTACTTTACACTAGCTCCTATTTTAGCAACTCCTGCATTAATTAATACAAATGCAAAAAGTTTAATTATAGATAGTCCAGAAGTTAATACAAATAGCTCCCCTTCAACACATGTTTTAGAATCTATCATCTATAAATTTTTAGATGATAACTATTCATTTACTTTATTTAAAAAAGAAAGTATTCTTGATTTAACTTCAATTGAAGAGAGTGGTGGAATTAATATTTCAAATCTAAATGTAAATTCCTTTAACAGAAATAGTACCACTGAATTTATAGTCAAAAAAACACCAGATGGTGATCAAAGAAATATTCCAATTAAGTATAAAAATTTCTTAAGAACTGTAGATTCATTTTATTTCCACTCTATTGTTGTAAAAGATATGGATAATGCCTTATATCTTTACAATATTTTCAACAATAACAATTGAAAAAAAATAATGGCAAACAATTCTTTAATGGAGCAAAATATGTTCTTTTCTCAAAACATTATCGGTATTTTTTCAAAAGAGAAAGTATCTTTAGACGATTTAAAAGTTTTTAAAAATAAAATGGATTATCAACAAACATTTTAATTAAAACTATAATAAAAAAATCAGTGATTTATAAATCACTGATTTTTTTCTTTTTTTATAATTATTTATTTAATAATTCAAACATAGTTCTTAGCATAGGTGCTCTACCACGTTTGTTGATATCTGCAGTTGATGCAATATCTAAATGAATAAAGTCTTTTCCTTCAGCAAATGAATCTAAGAATGCTGCAGCTGTTGAAGAACCTGCTTGTCTTCCTGGTTCTGAGTTAGCTAAGTCAGCTACTTTAGAACATTGCATTGCTTTTAGGTGATCTTTAAGAACTGGCATTCTTCATACTGCTTCTTGTGCTTTAATAGCTGCTTTATCAAATTCTCCATAGAATGAATCACTTGTTGAGAATGTTCCTGTGAATCATTTTCCTAAAGCAACATCAATTGCTCCTGTTAAAGTTGCAACAGTAATTGCTCTATCAGCTTTTGCATTTCTTACAGCATAAGTAATACCATCAGCTAAAACTAATCTTCCTTCTGCATCTGTGTTTGTAATTTCTACAGTTTTACCGTTCATTGATTTAATAACTGATTCTGTTAAAGTTGCTTTTCCACCAATTCTGTTATCTGTTAATAATCCAATTGACACTACATTAGTTTTTACTTTTGCTTTTGCAAGCGCCATAACTGTTGAAGAAACAATTGCAGCTCCTGACATATCGAATTTCATATTTTCAATAAAGTTAGATGGTTTTAAATTATATCCTCCAGTATCGAAAGTAATTCCTTTTCCTACTAAAGCAGTTCTTTTTTGAGATGGATCTGAGTTATATTCCATTACAACTACTCTAGCTTCAACATTACTTCCTGCATTAACTGATAGTAATAATCCCATACCCATTTGTTCGATTTGTTTTTTGTCATATACAGTAACTTTAATATCACTTAGTTCTTTTGCTTTTGCAGCCAATCTATTTGCAATTTCAACTGATGTACCAATATTTGGTGGTAAATCTTGTAAGTCTCTTGCAAAATCCATATATTCTATTTTTATTAATGATACTTCATAAATTGAATTATATTTTTTATCAAAAACAAAATTAATTGATTTTGGTTCTGTTGATTTTTCTTTATAGTCTAAATCTTTGTGTGATGCAAAAGCTATTGCTTCTACAACTGTTTGAAATGCTTCTTCAGCTTTTTCAAACTTAGAAATAAATGAATCAACATCTACATTTAAATCATATTTATTTGATTTAATAAATGACTCTAAAGAATTTCATAAATCTTTAAGACAAGAATTTTCTTCAACATAATAGTAAATTATTTTATCTTCACTTATTAATGATACTGCTCCATTTTCTTTTAAAACTAATTCATTAACTTTATCTTTTGAACTTACAGCTTTTAAAGTTAATGTAAATTGTTTTGCGTTGTTTGTTATCATATTAATTCTCCTTTATTTTATAAGATTATAATATCATTTTTTTTCATTAGTTTATTTTAAACTTGATTTTACAAGTTTTATTTTTACATATTCCATAAACGATTAAATGAATATGATCTTTATTTTTATCATATGAAAGAGATCCTTTAACTAAACCATGTCCATTTGGACATCTCAATTTTCTATTTACCAATTTTGTATTTAAAGAAAAGTGTTTAGACTTAGTTGTATATATATAGTATGTCTCTCTTTTTAATCTATCATTTTGATCTTCAATCTCATCTAAAAAAACAAAATTGATATCTTTAATCTCTTCTACTCTTTTGTTCATAATTGAATACATTTTGTTTTTTTTATTAGCATATCCTTTTATGTGCTGTTTAAATCTCTCTTTAACATTTACAGATTCACCAATATAGCAAAATCTTAATTTATTATTCACTATCGAATATAAAAGATAAACCCCTGGTTTTTTATTATCCATTTTATTCAGTTCATCAAACTTTAGTGATTTTTTATTCTCTAAAAGTTTATTTATAATTTCAAGTAAATAAATTTCAGATAAACTTCTAACATCTAAATTACTAGAGTTTTTTATTTTAGATATGATTTTAAATTGATCAGCTAATTTCATAAAACTTCCTTTATAAAATTATTATAAAGTAAAAAGCAATATTAAATAATTTTCAAAAATATATTCACTCTATGATTTGACAATCTCTTTTTTTATTTTTCTCTTTTCTTAACGTGTACATAAGAACTAAACCTGCAACAATTCCTATAACTCGCCCAATCACTATTAAAATCATTGAATACTGATAAACTATTTGATAATTGTAAATACCTGATATTTCAGTTTCAACTTTATATTTATCTAATAAGAAGGAATGGAATTGTCAAAATCATACATCGGGAGAAAATGCAGTAACTGAAACTAATCCTAGTGCTGTTGCATAAATTTTTTGATCTACTCCTATTTCATAAATTGTTGCTCATCTATTTATAACAAGTCCTCAACAAATTGCTCCCAAACTTAAGAAAAATATATAAACAATAACTTGTATTATTATTTTAAAAGTTCTAGACTGTTATTTAAATTAATCTACTTTAATAAAATGTTTTTTTACTAATACCCATCATTGTATTCTTTTTACTTTTAATAAAACTCCCTCCTTATTAAAAGTTAATTAACAAATCCCTTTTATCACTAATAAAAGAATTGATTTTATCTTTATATATTGATCAGATAATTTTTGCATCTTCATCATTTTTAAAGGTTCATATATTTAAAGGTAAATTTATTTTTTCAACTATCTTATAAGATGATTTGATTTTTAGATTCTCTACATAAGGATGTAAATAATCAAATTTCTTTATTAAATCAAAGTCTACTTTTTTAATATTTTCAATTAAATAACCCTTTTTAAAATTATTATCTAATTGTGAAATAAACTTTAAAACCTTAAGTTCAAATGATGAAACAACAATCTCTGCATTAGTTTGTTCTCTTAAAAGATTTAAAGCTCTCTTAATTTGTTCAAACTCTTCTACTGTGTTTCTATCTGGTTTTATTTCAACATTAATAAAGTTATACTCTTTTGAGATTTTCATAATAAAATCTTCAATGAATAATGGAGGTAGAAAATCAGGATTTTGCTTGAAGTAATCCATATTTTCAATTTCTTTATAAGTTAAACTTCTAACAGTTTTATTTAAATTTCCAATTCTTTTAAAATTGTGATCGTGAAAAATTATTATCTTTTTATCTTTTGTCATTCTAATATCAAACTCTACAGCTAGACAAGTTTTTAAGGCATCTTCAAAATCTATCATTCTGTTTTCTCTATTTTTACCCCTAAAACCTCTATGCGCTACTAAAAACATAATCTTTCCCTCTTTCAAAGATTAAGAGATACTTAAAACTCTCATTAATACTTTACTATTACTAGCGTAAACAAAACAAGTTATTCTTATTCACATTTTTATTATATAAAATAAATTAAGAGTTTCCAATTTTGCAAAACTAGTTTAAAAAAAATTACTAAATAAAAAACAAAAAAATCTTTGTATATATTTTATATACAAAGATTTTTAATTTTTAAAAGCTTTTATTTTTTATATTGTTTAAATTATTGAACGATTGAAACAACTGTTCCAGCACCAATAGTTCTTCCACCTTCACGGATTGAGAATTTTGTACCTTGTTCAACAGCAATTGGTTTAATTAATTCAACAACTAATTCAACGTTATCTCCAGGCATAACCATGTCTGTTCCACTTGGTAAGTGAACTTCTCCAGTAACGTCTGTAGTTCTAAAGTAGAATTGAGGACGGTATTTGTTGAAGAATGGTTTGTGTCTTCCACCTTCTTCTTGAGTTAAAGCATAAACTGATGCATTTAATTTTGTATGAGGTTTAATTGTTCCTGGTTTTGCAAGAACTTGTCCACGTTCGATGTCGTTTCTGTCAACCCCTCTTAATAATGCTCCAACGTTATCTCCAGCTTCAGCAAAGTCTAGTAATTTTCTAAACATTTCTAATCCTGTAACAACAACTTTTTTGCTATCTTCTACTAATCCAACAATTTCAACTTCGTCGTTAACTTTAACAACTCCTCTTTCAACTCTTCCAGTTGCAACAGTTCCACGCCCTGTAATTGTAAATACGTCTTCTATAGGCATTAAGAATGTTTTATCTGTATCACGAGTTGGTGTTGGAATGTATGCATCAACTGCATCCATTAATTCTTCCACTTTTTCAACTCATTTAGCATCACCATTTAATGCTCCTAAAGCTGATCCACGAATAACTGGTGCTCCATCTCCATCAAAGTCATATGCAGATAATAAATCTCTAACTTCCATTTCAACTAAGTCAATTAATTCTTCGTCATCTACCATATCACATTTATTTAAAAATACTGCGATTGCTGGTACTCCAACTTGTCTTGATAATAGGATGTGTTCTCTTGTTTGAGGCATTGGTCCATCAGTTGCAGCAACAACAAGGATTCCTCCATCCATTTGTGCAGCTCCTGTAATCATGTTTTTAACATAATCGGCATGACCTGGACAGTCTACGTGTGCGTAGTGTCTTTTATCTGTTTTATATTCAACGTGAGAAGTATTAATTGTAATACCTCTTTCTCTTTCTTCTGGTGCATTATCAATATTTGCATAATCCTTGAATTCTGCTCCACCTTTTGCTGCTAATACTTTTGTAATTGCAGCTGTTAAAGTAGTTTTACCGTGGTCAACGTGTCCGATTGTTCCAATGTTAACGTGAGGTAAACTACGGTCAAATGCTTCTTTTGCCATGTTTTTTCATTCCTTCCATTTGGTTCTTATTTATTTTATTGCGACCAAGTGTCCTAATAATTATAAATAGATTTTGTTTAAAGTACAATATTTTTTTAATTTGATAAATAGCTATTATTTACCTTGTTTTTTGATAATTTCTTCAGCAATGTTTTTTGGTGCTTCATTATAGTGACTGAAAATCATTGTGTAATTTCCACGTCCTTGTGTAAATGAACGCAACTCTGTTGCATAACCAAACATTTCTGATAGAGGAACTTTTGACTTAATAGTTTGTGCATTTCCTCTTTGTTCTGATCCTTCAATTAAACCACGTTTTGATGAAATGTTACCCATTACATCCCCATAGTATTCATCTGGTACAGTTACTTCAACTGACATAATTGGTTCTAAAAGAACTGGATTAACTTTTTTAGCAGCTTCTTTTAATGCCAATGATGCAGCAATTTTATATGCCATCTCATTTGAGTCAACATCATGATATGATCCATCAACAATTGTTGCTTTAACATCTATCATTGGGAATCCTGCAATAACCCCGTTTTGTAAGGCATTTTCAAGTCCCACTCTAGCAGCGTTGATATATTCTTTTGAGATTTTACCCCCAACAATTTTATCAACTCATTCAAATCCTTTATCATGATTTGGTTCAAATTCAATCACAACGTGACCATATTGTCCACGTCCCCCTGATTGTTTAACATATTTACCTTCAACTTTTGCTGAACCTTTAATTGTTTCACGATATGAAACTTGAGGTGCTCCAACATTTGTTTCAACTTTGAATTCTCTTTTCAAACGATCCACAATAATATCTAGGTGTAATTCACCCATTCCAGCAATAATTGTTTGTCCAGTTTCTTCATCTGTATAAGTTCTGAAAGTTGGATCTTCTTCTGATAATTTGTTTAATGATAAACCTAATTTTTCTTGATCAGCTTTTGTTTTTGGTTCTAAAGCCAAATGAATAACTGGTTCTGGGAATATCATTGATTCTAAAATAATTTCATTTTTTTCATCTGTTAAAGTATCACCAGTTGTTGTATCTTTAAGACCAACAGCTGCTGCAATATCTCCAGCATAAACTTCATCAATTTCTTCACGATTGTTTGCATGCATTTTTAATAAACGTCCAACACGTTCTTTTTTATCTTTAGTTGCGTTTAATACATAACTTCCTTTTGCTAACTTTCCTGAATAAACTCTAAAGAATGTTAACTTACCAACAAATGGGTCAGTCATAATTTTAAATGCTAATGCTGCAAATGGTGCATCATCTGAAGCTATTCTTTCAGCTTCTGTTCCATCTGGTAATATACCTTTAATTGCAGGTACATCTAATGGAGAAGGTAAATAAGCAACAACAGCGTCTAATAATAATTTAACACCTTTGTTTTTAAATGCTGACCCAGCCAATACTGGGAAAAATTCAGCAGATATTACTCCTTTACGAATTGCTGATTTTAATTCTGGAATTGTGATTTCTCCTCCATCCAAGAATTTCATCATTAATTCTTCGTCATATTCCACAGCCATCTCAACTAATTGAGCTCTTAATTCTTCTGCTTTATCTTTTAAGTCAGCAGGAATTTCTATTTCTTTTGCTATTTCTTCAGCAGCTCCATCAAATCCTCATGCTTTCATTTCTACTAAGTCAATGATTCCATTGAATTGATCTTCTGCTCCGATTGGCAATTGAATAGGTGCTGCTTTAGCTCCTAATCTATCTCCAATTGTTTTTACTGAATATAAAAAGTCAGCTCCTGTTTTATCCATTTTGTTAACAAAAACTACTCTTGGTACTCTATAAGTTGTTGCTTGTCTTCAAACAGTTTCAGTTTGAGGTTCAACCCCACTTTGACCATCCAATACAGCTACAGCTCCATCAAGAACTCTCAATGATCTTTCAACTTCAACTGTGAAGTCAACGTGACCAGGAGTATCTATGATGTTAAATCTATGGTCTGCTCAAAATGCTGTTGTTGCAGCAGAAGTAATTGTAATACCACGTTCTTGTTCTTGAGCCATTCAGTCCATTTGTGATTCACCTTCGTGAGTTTCACCAATTTTATGAATTCTACCTGTGTGGAATAATATACGTTCTGTTGTAGTAGTTTTACCAGCATCGATGTGAGCCATAATACCAAAGTTACGAGTCATATCTAAACTATATTCTCTAGGCATATTCTTTTCTCCTTAATCTTCTATTATCAACGATAATGTGCAAATGCTTTATTAGCTTCAGCCATTTTGTGAGTATCTTCACGTTTTTTAACTGATCCACCAACTCCATTTGATGCATCAATAATTTCATTTGCCAATCTATCTATCATTTCTTTTTCATTTCTTAGTCTTGAATAATTAATTAATCATCTTAAAGCCAAAGTAACTTTTCTGTCTGTTGAAACTTCAACAGGAACTTGATAGTTTGCTCCCCCAATACGACGAACTTTTAATTCTAAATGAGGTTTAATGTTTTCTATTGCTTTATCAAATACTTCAATTGGACTTGTTCCAGTCTTTTCTTTGATTTTTTCAAAAGCTTTATATAAGATATGTTGAGCTGTTCCTCTTTTACCATCTAACATAATTTTATTAACTGCTCTAGTAACTAGTTTTGAATTATATATAGGATCTGGTAACACATCTCTTTTTTCTGCTTGATGTTTACGCATAAGTTAGTAACTCCTTTCTTTTTTTAATTGATAAAATGTGAATTACACTCTATTATTTTTTCTCTTTAGGTCTTTTTGTTCCATATAAAGAACGAGATTGCATTCTTCCATTTACTCCAGTTGTATCTAAAGTACCACGAATTATATGATAACGAACCCCAGGTAAGTCTTTTACCCTTCCTCCACGAATTAACACAACACTGTGTTCTTGTAAGTTGTGTCCTTCTCCTGGAATATAAGCTGTTACTTCCATACCGTTAGTTAATCTAACCCTTGCATACTTACGTAAAGCTGAGTTAGGTTTTTTAGGAGTCATAGTTGCAACCCTTGTACAAACACCTCTTTTTTGAGGTGCTGAAATTTTAGTAACTTTTTTTAATAAAGTGTTAACCCCTCTGTTTAAAGCAGGAGCTTTAGTTTTTCAAGTTTTTGCTTTTCTTGGTTTTCTAACTAATTGATTAATTGTTGCCATTTAAGGTTCCTCCTTTCCACAATACCGAGTGTATTGTAATCACACAAAATATATTATATATGAAAAAAGCTTATAAATGCAAATATTAATTAAAAATACAAACCTTTATAGGTTTGTATTTTTTAGTTATATAAAGTAATATCTGGCATTATATTATCAAATGCTTGTTGATTCATCATTTCTTCTTGTAAAGGATAAACTAGTATTATTTCTAATAAATAAGTCATTAAATAGTAAGTGTTCATATATTCCATAAACATTTCAATTCTTTGATTTGTTAAACTATCTTCTTTTATATTAGATAATCTAATATAAATATTTTTGTAGTTTTTATTGAATTCCAAGATATTTTCCATTAATTTTGCAAATGCTGACTCTACATCTTGTTTTGAAACCTCTTTAAAGAACTTATTTAAAGGTTTAAATACTTCATTAGTATCTTGATCTAAATTTAACTGTTCATATTTAGCAATCATTTCATTAGCTTTTACTCCAAATGCTTGTACAGCAGTTGCAACAATAACATCAATTCCTTTTGGATTTGTTATTACTTCTTTTTCTAAATTCTCTTTTTCCATATTTACATCAATTGAAATAAGAACAATAATTGAGTTTTGCAATATTGACATTAAATGGTTTAAAAGTATTAGCCTATCTAAGTTTTTATCTAAAACTTCTCAATCTGCAAAAGTCTTGTCAAATTCTTTTCCTAAATTTTCAATATCTTCTCTAGTAGATAATTGAGAATTCTCATTCAAAAAACTTTCAATATTTGAAGGTACTTTAAATTCATTTTTAATATTTTGTTTTAAATTTTCATATACAGTATTTACTCTTTTAACAATGATTTTTTCATAATTAATTGATTTAATTTCTTTCATAAAAATCTCTTTTCTAATTTTATATATAAAATAATCATACTACATTTGATATTATTATAAATAATAAGGGGGATTTTAATATGGTATGAGGTGAATCAAATTCAAGAGATTTCTTAGATTGAGCAGATTTTTGCAGAAATAATACTGTTAGAGAAAAATCAATAAATACTTCAATAAATGGAGCAAATTTTGCAAACGATAAAAGCTCTTCTCAATACAACTCTGTAAAGGCAACTATTTTAAATACTATAGAGAGTTATAAAAGCATTAGTGTTCAACAATTATATAACGTTTTGCCAGAAAGTATTGTTGCAAATCCTACTTCAAAACATGTAATTTTACAGTTATATTTTGAAGATAACTTAAAAATACAAGGACAAGCTAAAAATAATAATGATCGTGAATCAAATTTTGTTTTAATTTTTGTCAAAAAGATGATACCAAAACAACCTGCTCCATTAACTGATAGACAAAAAGGTCAATCAAATATTGAAGACTTAATTGATAATAACTGACAAGCAACTGGTAGAAAACTTGAATTTGACAAAATGGAACGTAAAGATAAAAGCAATCTTAATATTAGCTTAAAACGAGTTAATCCAACTCCAACAAATAGAGTTGGAGAAAAGCCAAATATTGATGTTAGAGAAACCATTAAAGAAAAACCAATTCCTACTCCAATACCAAAAGCTATACCAAAAGAAGAAATACCTGTAAAAGTAAATTCAAATATAACTTACATTGAAATTCCTAAACCAAAACCTGAAATAATAAAAGAAGAAGTGGTTAGTCCAATTAAAATGAATCTTGAGTATAGACCAACTCCAAAAGTTAAAGAAGTTATAATTGAAGATAAAGTCTTTTATGGACTAAGCGCATTTGATCTATATTACATAGAAGCATTTTTAAGTGATGCTGCAATTAAAGAAGAAGCATATCAAAAAGAAATAAAAATTACTAGAGATATTGTAAAAGTAAGAGGAGATATTAAATATACTGAAGAAAAGCAATATTCTAGTTTAGGTAAAAACATTGCAAAATTTTTTGGTTGTTTAACTATAGTTGGTATTCCCTTTGTAATTGCATACAGTGGAAATAAAATAAGAAAAAAAGCAACTAAAACTTATAAAGAACAGTTGAAAAATAGAGGCTATGATTCTATTAAGCAAGATTTAAAATTAGCTAATCCTAAGATAATAGAGTTTTAAAAAAAAGAACCTAATTTTGAGGTTCTTTTTTTACATTTCTTGTCTTTTAAAACTACTTTTTAAAATTTTTGCTTCACTTATAATATTTTTTAATTCATTTTTCTTAATTTTGATTTCTAACTTTGCTTGTTTAATTGCTTCTTTACATTTTTCAATTTCAGTTTCCTTAGCATTTTTTTTTACTTTAAAATCAGCTAACTTATCTTTTAATTCTTCTTTTGTCATAATTGTTTCTCCTTGGTTTATAAGAACATTTTGCTTACTCAATAATTTTAATTTAAAAGCCAATTATTGTCAAATATAGTCTTTTTATGCTAAGAAACTCTTTTTTTATTTTTTTGTATTCGGATTTTCTGTTAAAGCTCACTTTTCCATTTTTTCAAAATGATCTACAATTTTTTTAGGTGTTAATGAGTTAATTAACTCATTTTTTGTTTCATAAAATCTTTCAATTCTGTTATCCTCTTTTAAAATAATTAAATCTATTTCTTTTCCTTTAGGAGAATATAAAGTTTTTCTATAATCCAAATTTGGAGTAAACTGTTGAATTTTATATTTATATATAAAATCTCAAGCTCTATATATATCATTTTTGTTTTTCTACAGAAGTAGCATTAAACTCCTTTTGTAATTCAGTTTGTTCTTGTTTTGTTTTATTAAAATAGTCATTTTCAACTTTTCATTTATATGACTTTTCTATTGCTATTTCTCTTCAATAGTCCAAATCATCATATTTTACTTTTATTTTCTCTTCTATTTCTTCAATACTTTTTGGTTGTTCTGTTTCCATAAAAAAGTCTTTATCTGTTTCTATTTCTTTTTCTCCTTTAATTTGACATGAAGTTAAAGTTAAAGTACTCATAGCAGTCATTGAAAAAGCTGCTATTAAATTTAATAATTTTTTCATATTATCATTTCCTCTCTCAAAAATATATATTCTATTTTTTTGTATTCGGATTTTCTGTTAAAGCTCACTGTTCCATTTTTTTATAGTGATCTACAATTTTTTTAGGTGTTAATGAGTTAATTAAATGGTTTCTATTATTATAAAATCATTTCATACTATTCTCATTTTTTGATATATCTAAGTTTATTTCTTTTCCTTTAGGAGAATATAAAGTTTTTTTATAATCTAAATTTGGAAAAAACTGCTGAATCTTATACTCATATATAAATTTCCAAGCTATATATATAAAATTTTTGTTGTTCTATGCAAGTAGCATTAAATTTTTTAGTTAATTCTTCTCTCTCTTCTTTAGTTTTGTTTCAATAATCATTAGCTCAAACTCACTGATCTCATTTATCATGCGACAATTCATTATACTCCTTTTGTATATCATATGTATTTATTATTCTTTCTTCTACTTCTTCAATACTTTTCGGTTGCTCTGTTTCCATAAAAAAGTCTTTATCTGTTTCTATTTCTTTTTCTCCTTTAATTTGACATGAAGTTAAAGTTAAAGTACTCATAGCAGTCATTGAAAAGGCTGCTATTAAATTTAATAATTTTTTCATATTATCATTTCCTCTCTCAAAAATATATATTCTATTTTTTTGTATTAGGATTTTCTGTTAAAGCTCACTTTTCCATTTTTTCAAAATGATCTACAATTTTTTTAGGTGTTAATGAGTTAATTAGATCATTTTTTATTTTATAAAATCATTTAATGCTATTTTCATCTTTTAAAATAATTAATCGTATTTTTTTACCTTTAGGAGAATATAAAGTTTTTTTGTAATCTAAATTTGGAATAAACTGTTGAATTTTATACTCATATATATTATTTCAAGCCATATATATATAAAATTTTTGTTGTTCTATGCAAGTAGCATCAAATTTTTTTTCTAATTCAGCTTGTTCTTGTTTTGTTTTATTAAAATAGTCATTTTCAACTTTTCATTTATATAACTTTTCTATTGCTATCTCTCTTCAATAGTCTAGATCATCATATTTTACTTTTATTTTCTCTTCTATTTCTTCAATACTTTTTGGTTGTTCTGTTTCCATGAAAAAGTCTTTATCTGTTTCTACTTCTTTTTCTTCTTTAATTTGACATGAAGTTAAAGTTAAAGTACTCATAGCAGTCATTGAAAAAGCTGCTATTAAATTTAATAATTTTTTCATATTATCATTTCCTCTCTCAAAAATATATATTCTATTTTTTTGTATTCGGATTTTCTGTTAAAGCTCACTTTTCCATTTTTTCAAAATGATCTACAATTTTTTTAGGAGTCAATGAGTTAATTAGATCATTTTTTGCTTCATAAAATCATTTAATAATATTCTTATTTTTTGATATATCTAGGCTTATTTCTTTTCCTTTAGGGGAATATAAAATTTTTTTATAATCTGAATTTGGAATAAACTGTTGAATTTTATATTCATATATTTCATTTCAAGCCTTATATATATCATTTTTGCTTTTCTATAGAAGTAGCATTAAACTCTTTATGTAATTCAGCTTGTTCTTGTTTTGTTTTATTGAAATAGTCTTTTTCAACTTTTCATTTATATGACTTTTCTATTGCTATTTCTCTTCAATAGTCTAGATCATCATATTTTACTTTTATTTTCTCTTCTATTTCTTCAATACTTTTTGGTTGTTCTGTTTCCATAAAAAAGTCTTTATCTGTTTCTTTTTCTCCTTTAATTTGACATGAAGTTAAAGTTAAAGTACTCATAGCAGTCATTGAAAAAGCTGCTATTAAATTTAATAATTTTTTCATATTATCATTGCCTCTCTCAAAAATATATACTCTATTTTTTTGTATTCGGATTTTCTGTTAAAGCTCACTTTTCCATTTTTTCAAAATGATCTACAATTTTTTTAGGTGTCAATGAGTTAATTATTTCATTTTTTGTTTCATAAAATATTTTAATTCTGTTATCCTCTTTTAAAATAATTAAATCTATTTCTTTTCCTTTAGGAGAATATAAAGTTTTTCTATAATCTAAATTTGGAGTAAACTGTTGAATTTTATATTCATATATAAAATCTCAAGCTCTATATATATCATTTCTGCATTTCTATAGAAGTAGCATTAAACTCTTTATTTAATTCATCCTGTTCTTGTTCTGTTTTTTCAAAATATTTATTATCAACTTTTCATTTATATCATTTCTCTATTGCTATTTCTTTTCAATAGTCTAGATCATCATATTTTACTTTTATTTTTTCTTCTATTTCTTCAATACTTTTTGGTTGCTCTGTTTCCATAAAAAAGTCTTTATCTGTTTCTATTTCTTTTTCTCCTTTAATTTGACATGAAGTTAAAGTTAAAGTACTCATAGCAGTCATTGAAAATGCTGCAATTAAATTTAATAATTTTTTCATATTATCATTTCCTCTCTCAAAAATATAATATATTTTTACATTATAAAAACATTTTTAAATGTTAAAAGAAATTTTATAAGTTGCTAAAAAAAATTATTTTAAATTAGAATAATATCGAAAGGAATAAAACTAAATATAATTGAGAACAAAAAAAGTAGTTTAGGAAAGTTTGTTGATAAATTACTTAAAAGTAAAGAACAAAAAAGTATAAAAAAATACTTAGTAGTTAGCTCCATAATAGGACTTGCTTTATCTTTAACTTTATCAGTAACTTTACCTATAGTTTTAAAAAATAAAACAGCACAAATTCAAGAAGAAATTTATTATAAATTTGAGGATAAATATTTTTCATCAAAAGAAGAAATATATAAATATTCAAGTGACAAAGCTAAACAAAATAACTACTCATTTGAAACAAGTAAATTCATTCTAGATGATAATGTTTTTTCATCAAAAAATAAATTAAATGAATATATTAAAAATAAATTTAACATTGAAAAAGATATTACAAAAAATAATCCTAATGATTATTTAATTAACTCATCAGGAGAGCTTTCACCACTTGTAAAAACAAGTGATTATGAAAAAAATATTAAAGTATATAAAGGGGTAAATGGTGATGCTTATACTTCTGAAAATGATGCGAAAGAATCATTTATAAACAACTATAGAATAAATTATCAAGTAGATGGTAGCTTATTTGATAATACTTTCAGTGCAAGAGAGTATTATTTAAAGAAAAAATTATTTGATTTAGAAAAACAAATAAAAAAAGAAGTTTGTTATGAACAAGGAGGAATCTGTCAAACAAAAGAAGAAATCAAATCTTGATTAAGAAATAATATTGAAAAAGGATTTGAATATAACGGAAAGGATTTTTCAAATTTAAATTATACAGACTTTCTAAATGCTATGAGAGATTTAGATGAGGACATTATTAATACTCATATTAAAGATGTTATAAATGCTAATAAAAGTTCTTATTGAGTAACTCAAAATACATCAAATCGACTTGGATATTTTGTTGGACCTAAATATTTTGAAAGTAAAGAAAAAGTATCTAATATTGCCAAATTTAATGCTATAGAATCTTATGATGTTAATTACTTTATGAGCTACTTTGTTGCTATTCCAGCAATTGGTCTGCTTATAAATTCATTCATTGAATCTAAAGAATCTACACAAAAAAAATATAATATGGAAAACTACTTGAATAATATATTGAACAAAGATGAAACTATAGAAATAAATAGTATAATTCAAGAATTAAGTCTAAACCAATTGGATAGTTTATCAGAAGGATTAAATGATATTAATGATCCAGAATTTAGTAATTTTTATAAACTATTGGTATCTTTTAAAAGATTAATAGAAATATCAAAAATTTTTGGTATAAAAAAAATAGAAACCAAAGATCTGGAGTCAATAATCCAGCAAACAGTTATTAGTATTTTAAATAAAAATAAAGACTTTATTAATGGAATTTTAAACACTAGAAATAATAAAGAAAGTTTGAGTATTTTAAACAAACTTAGTTTTGAAGATATTTATTCTTTATTTTTAAACACAAGTAATTTCTTTAATAAAGGAGGAGTTAATAAAGTAGTATGAGATCTAACACAAGGCTTTTTAAATAAAGTAGATAAAGTAATGGATGCTTTTGGTGATGGAGTTAACGCAGCTAGTGATTTAGCAGGTTTATTTTCAAAAGATAAGAAGAAATCTAATAAAAATGATAAAAAACTTTCAGTAAGTTTAAAGAAAAAAACAGCTGAAATTTGAAGCAAATTACATAAAAAAAATGAAGATGTTTTAAAAGCTCTTGGAATGCAAGATTATAGAACTAAAGAAAGAGCTGGACCTATTGTAATAATGAAAGCTATTAGTACAGTATGAAGTTTAGGAAAAATAATGAGTTTTATATCTTTGAAAACATATGAAGCAAAGTTAGATAGTAACCAATCATTATATTATTTTGAACCAACTATTAAAATACCTTTTACAGATATTACTTTTGGAGGATCTGTTCAAGATCAAGAAATTAAAACTTTAATAGATACTCCTTTAAAATATTTTAATCCTAAAAATAATGGAAAAGAAATAAATGAATTATATGAATTTAATGGAAAATATTATCATGAAAAAAGTAAAGCTATTAAAGATTTAAAATATGAAATATTTAAGAAACCAGAAGATTACTTAAAAACTAAAAAAATACTAACTTCAGTTATTAGTAAAGACAATACTTATAAATTGAATTTACCACAAGTATGTAATGGAGATGAAAAACAAAAAGACTGTATATCAAATTATGAATACAACAGAAGATTTGCACAAGAAAAAGAGAAATTTATAGAAAATTTATTTAATAGATTTTATGAAAATAGCAAAAAAGAATACTTTTTAGATGGTTTTGGTGGAGCACATACAAGCAAAGAAATAGCTATGAATGAGTTAAAAAGAAAAGCTGATAAAGTTGAAAACTATAAAAGAGTTTATATTTATATGCTAAATAATAATAGAGTTATTAAAAATAGATTAGAAGATATTAAAGAATTTATTAGAAATAATCAGCCTTTAGAATATAAAAATATTATAAATACAGATTTAATTAAAACTAATCATTTTGATAGTTTAAAAGAAAATAATAATTATACTTTTGATATCTGAAAAGTAAATTTCTATGGGCAAGAAAAATATTTTAGATCTCAATTAGAACTTTGAAAATTTTTAGAGAATAAACTAAATTACAAAGTTATGAATTATACAAGAGAAGAAACAACTCATGTTTATAACAATATAGAATTTATAAAAAAAGAAGAATTTATAAATTGAATTAATAATCAAATAGTAGAAGTTAGAAAACAAAAAATTAATTAAAAGGAGATAAAAAAATGTTTAAAAATATATTATTAACTTTATCTCTTACTAGTTTTTCAACAACTACTGTAAGTAGTTTAGTTGAAAAAAACAATGTAAGTGAAAAAGAAAAATTAATAAATTTTTTAAGAAATGATATTGAAAAGAAAAAAGTATTTTTAGGAAATGAAAATTACATAAAATTTGATAATAAAGTTTTTACTAATAAAAATTTATTAAATGAATATCTACTTTCAAATTCATATATTAAAAGTGAATTTACATTTTCAAATCCAAATAAAATTATAAAAGATTATGAAAATATGATTTTAGATAAGAACAGAATTTATAGTTTGGATATGGACAAATATACAAAAGTATATAGAGATGCTTTTGGAAATATTGCAAAAACTAGTAAGAATGCTTTAGATACTTATACTAATGCTGGACTTGTAAAGCAAAAGTATAGTTATGACGAAGTACAATGATTTGATACACCAGAGGAAGCTAAAATAAATCAAAAAGACAAAATGGAAATTAGAAGTTCACTTTATTATATTCATAATAATAAATATTATAATGCTTTTAATATTACAGATATAAATAATCTATTAGGAGATTTTAAGAAAGGTTATTTTGTAAATAAAGAAAAAAATATTGAAGGAAATAGATTATTAAAACCTATTAAAGAATATGGAGATAAAAAAGATATTTTTGACAAAATGATAAGAGAATTAAAAAGCAATTTTCTAGATTCCTACTTCTATAAGAGTTCAAAAGTTGAATACATAAATAAGCTTAAAATAAAATCTAAAGATGAAAATCAGTTTAGAGTTTTATTTCCTGGAGAAAATGAAGACATTTTTATGTATGGCAATGAAGCAGAACTTACTTTTGCAAATAAATATAGTACTTATCAAGAGATGTTAAATGATTTTAGAGACAGAAGTAAATGAATGAGACATCAAGAATGAGGAATAGTGAACTGCATATATTATTTACAAAGATGAATGGATTTAATAAATCCTAAAACTGGAAAAAAGGAAAGAGCCAGAATTGGCTTATTTCCAAAATGAGTACGTAATAATGAAGCTAGAATTGATAATTACGTATATTGAGATAATACAAAATCAACATTAATAAATTATTATGATGAGAGAAAACAAAACTCTATAACTACAATTAATCTTAACGCTCCAAGATATTCTTTAAAAGAAACATTGGTAACAGAAAGAGAATCAGTATATAATTCGTGATTCCTAGAATATTTTGCTAAAAATATCACAAATTTTGGAGTTGAAGAAAATACAAGAATTAATTATAAAGATATATTAAAAGAAAAATTCATTAAAAATATTGATGGATCTGTATATAAGGATTTACTATACGATGTTAATAATGCTAAAGGACATCCCTATTCTTTAATTAAAAGCTACTATGATTGACTTCCAATAAAACAAAGAATTTTACAAAGTCCAAAAGTAATTAATGGTAAAACTATGTATCAATTAAAACCAGACTTTTACGTAGAAAAAAAACAACTAGATACATATTTACCATTGCAAGGAAAATTTAGTACAGTATTGAAATTCTTTTATGGATCGACTTCAGATATTTCAAGTGAGGATGGAAAACTTCTATCAGATACATATGAAGAAGCAATGGAAAGAAAGTTTATAAATAGTAAACTTACTTTAAAGAAAAAATATATTGCCTTTAACGTATTTGGTGAATCAGTTGAAAGTGGAGAGTCTCAAGAAGAAGCTATTAGAAAATTGCAAAACTCAATTTTGTTAAATTCAAAAATGGTGCATAAAGATGAATATAATACTTGAAACTGAAATCTTAAAAAATCTTATGACTCTATAATTTCTGACGGTCGCTATATTGTCTATAAAGTATTTCTAAAAAACTCTAATGACTATATTTATTTTCCTTCTCAGGAAAGAGCTTTAAAAGCAGTATTATCAAATTCAATAAGTAACGGAAGTCTTAATGAATTTAGTACTAAAAAATATATGTATACATATATTGATTCTATAAACAAATTTGAATATAGTTTAATATTTTATGATAATGATATTCAATCAGCTATTAATAAAATTTTAGATAAAAGAAATTTAAATTAAACTTTATAAAAACAAGAAATAAAAAACTATGATAATAACTATCATAGTTTTTTATTTTTAGAATTTTAAGAGTTCTCAATTTCTTTAATTTTTGAAATAACTCTTGCTTGTTCTTGCTTCGATAATTTTTCATACTCCATTAAAACCCTATTTTCTCTTGGATTTAAAATAAAGCAATTTGCTACAGTTTTATTTGAAGCATTTTCAAACATTTTTTTATATAAAAATAATTGTGCATTATATTTTTCTACATAATTAACTTTACTTGTTTTAATGTCCATTATATAAAAAGTATCTTTAGATTTTAAAATAATATCTATTGTTCCTAAAAAATTACAATCATAGCCTGTATAAAAAAATGTTCTCTCTGAAAATATTTGATCAATATCATATTTATAAATAAAAGAGTTTAATTCCGTAATTATTCTTTTTGCAATATTTATATGATTCGAATTTTTACAATCCTTGATTATTAAATTTAATTTAAAATCTCTTCTCTCATTTATTGATTCAGAAATAATTTTATGTACACATTCACCTTGCTTAATTGAACTTTCAATTATTTCTTTTTTTATAAACTTACTTTGCAAAAAAGGAAAGCACTCTTCAAGTATCTTACTTACAAAAGGCAGTTTTATTTTTTTATTTTCTACAAATTGTTTTAAATCTTCTGGAAGTAGTTTTGTATCTTCTTTAACAAAATAATTAAACTGTTCATCTCTTTCAACTAAATTTGTTATATCATTAATCATATTTTTTCTCCTACTTATAACATTAACAAAAAAAATAACAGTTACCCATTATTTCTATTGTAATTATGTTTAGTTATTGATCTATTAATAATTGCTTTTGGTGTATTATTTTCAAGCTCATTTACAACTCTAGATATTGATTCTAGTTGTTTATTAATCTGTCTAAAATCTTGTATGACTTGATTATCAAATACTTTACTTCCTAAACTTTCAATTAAATTTTCTAAATTCAATATTCTCTCTTCAATAGTATTTAGTCTACTAAAATCAGTTGAATTAATATCAGCTTCAAATCTATTTAGTAATTCTTGTTCTTTTTCAAAAATGTATTTTTTAATTTCTTCAATTTGAAAATCATTATTACAGTTATGCACTGAATTATCTTTTTCTATTGTTTGACTTAATTCATTGCTATTTACTTTTGATTTTATTTCATTTAAATTACTTGATTCAATAACTGGTGCTATAAATTTTTCTTCTACAGTATTTTGTTCAACAAACTCATGTAAAGAGTTATTTTCTTCAACTGGTTTTTCAACTTCAAATTCAAAATTTTGTTCAGACAATATTGTTGGCTTTGCAACGAAACTTGGAGTTTGTATTGTAAGATTTATCTTTTCTTTAACATTTTTTGAATCTTGTTGTATAGGTTTAACAGTTACTTGATCATCTAATCTTCCAAAAACAGGTTCATTACTTTTTACCACTTTTTTTTGTTCTTCAAAATTATCTTCTTTTTTTAATAAAGTAGATTTTGATGAAAATATTTGTGAGATTGGATTTGTAATTTCATTATTATTTTCTTTTAATTCTCTAACTAAAACTTGACTTGCCAAATCTGGTTGATTAAAGTTGAAATCTGAATAGATTAAATTTTTATCTGCATCTGGTTCTTTAGATTCTATTAATTGATTTAAATCCATGTTAACAGCTCTTGCAAGTTTTTGTCTTAATAAATTTTCATCAAGAGAGATATTTTCAGATTTTGAAATAGTAGAAACTACTTCTTGTGAAGAAAGTAGTTTATTGCTTTCTTCTTCTTTTATTTCATTTGACTGTGATAAATTCACTAAATTATTATCACTAAAATCTAAAGAATCTTCTTCTTGAGTTTTACTTTCCTTTTCACTATCTTCTTGTTTTACAAAAACTTCTTGAGTTGAATTTAAATTATCTTCTTCTAAATTATCTTCTTTATCTTTTGCTTCAAGAATTATCACTTGTGAATCTAAACTATCATCTAAGTTTTGAGAATCATTGTCATCTAAGTTATTAAATTCATTGCTAATATCTACTACTTGTTGTGTATCAACTATATTAGTAATTTGTGTGATTGAATTTAAATTATCATTTTCATTTTCTGTATTTTTTACATTAATATATGAAACATGATAACTTTCTGGCATTTTTAACATTTTAGCAATAGAGTTTACCTTAGTAACATTTGTGTTAAATTTTTTAATTATATTTAATTTTTCATCTTCTGAGAATGAATTAACTTTAAATTCATTTTGAGTGGAAAATGGCAACGTAGAATTATCTTCTGTTTTTACTTGTTCATTCTCTTTTTGAAAATCCCCTTGAAGGTTTTTCAGATCTACGTTGCCAACCAACTTTCCCTGCTTAGATACCTCTTTTTCAAATTTTTTCTCTTCTTTATAAATTAAAATTAAATTTCTTTCTTCAGCATAATTATTTAATGCTTCTGAATCAAATAATATTGCTTCTAATAAAATAAACGCTATTAAAATTAAACCTGAAATTAAAACTAATAATAACTGTCCTGTTAATAATAATATAATTGATAAAACTACCATTGTAACTTTAATATAAGGTTTTGAGATTTTTTGTTGTTTTCTCAATCTTACTAATTCAATAATTGAAATAACAATTAATAGTATTGCTACAAAAAATGAAATAGTCATTCATATAATTGTAGCTAATTGATTATTTGAACCAGCTCCTTGAGTTGAAGAGTCAATAACTCCATTTGAACCATAAACTGGTGTGAATAATGGCTTTGTTATTATTTGTAAAATATTTGAAATTAACGCTATTGGATTTGAGCCACTTAACAATAACATCAAAGCCATTGAACCAAATAGTAATAGTCCAATTGATGAAACCAATGTTAATGACCATGCAAATATAATAAATATTGCAAACATAATTTTTCCCCCTAATTTTTAAATCTATCTCAGTTATTTGGAACTGATATTATTTTATTATCTCTTTGATTTTCTTGTTTCCTTCTCATTGACTCTTCAATATTAATTGGTGCTCTATTAATTAAAGAAGAACCTATATTATTTAAGTTTTGCTGAGATTGATTTACATATCTAGAATTGAAATTTTCTTCATTATTAGACATATTTGAATTTCTATCATTTGCAAATGGATTTGCAAATGGATTTAATATAACATCCTTTTTAGAAATTATTGAAGGATTAAATTCTGATTCCCGTTTTTTATTTATAAGAATTTGTTCTTCACGTTTCTGTTGCTCAATGATTTCTTGTTTTCTTGATTCCAATACTTTTTCCATATTAATTCTTAATTTAGAATCAATTCCTGAATCTTGATTTTCTTCTCTAATTTGACCATAGGAATTAGAAACAGAATTATTATTTCTATTTTCAGTTTCTTGCATATGTGCTCTTCTTTGAGCTTCTTCTTGTCAATTAAAAATATCTTCACGTACTTTTCTTAATTCTGAATTATGAGATTGATTATAATTATTTTGTTGTTGTGAATTTTGATTATATGTACTTGAGTTATTTCTATTTGTTTGAACTAATTTCTTTTCCAAATTAGAAGTGTGGTCAAAAATAATATAATCATATACTTTTGATAATTCATTAATTAATGAGTTATCAAAAGTATTTAAATTAATATTTAGTTTACATGATACACCAGGTATTTTTATTAAAAAATTAAGTACAAAGTCGTTAATATATAATATTTTATTTAATTCCAAATCTCTAGAATTAATTAAAATTAATTTAATTTGTTCATTAAAATTATATGAATTAAATAAATCTTTAAATTCATCTAGGAACATATTAAAAGGATCACCAATTAAATTTAACTCTTCTACTATATAATTTAGTTCTGAATCAGTTTTACCTCATTCTGTTGCAGCTAAAAATAATGATGTTCTTTCTCAAAGAACTTTTTTATCATCCAAACTTATATTAGATGGTAAGTTATTTATAAATTTCTTTAATATAAATAGACATGGATAAGAATAATGTATAGCTTTTTCTAAGTCTATAGTAATTAAATTTTTAAATTTATCTTCTTCAACTAATTCTGGATGATTTATTAATAAGATATTTTTTGTATCTAACTCACCATTTGCTTCTTTAATTCTATAATCCTTTGAAGAAATTATTTTATTATTAGCATATAAAGTTTTTTCACCCTCAAAGAATTGATCAAATTTTTCATCAAATGACTTTTGTAATAAAAGTTCATCTTCTAAATTATATTCTTCATTAACAAGTGGTCTATTATAATTATAATTTTGGCTTGAGTTATTTTGATTATGATTCAAAAACTCATTTCCATAACCTCTATTTGAATTAATTTGATTTTCATGTGAACTTATTTGTTCTTGACTTTCTGAATAATCAAACATCGGAGTGGGAGATGGAATTTCATTAAATGGATATACTCTTCTATTTTGATTATCAAGATTATTATTTTGATTATGTGAAGTATATCTAGATTCTGAATATAAATTATTACTATCTTCATAACTATTATTATAGTTGTTATTATTGTTAGGAACAGGAGTTTTTCTTTCTTCTCCTATTATTGTTTTAATAAATGAGGGAACTACAGCTCTTTCATCTGTAAAACCCATTTGTGCCCCTAATCTAGCATATTTTTCTTTTTCTCTTTCAATTTCTATACGTTTCTTTTCTTCTTCTTCATGTTTCTTTTTCATTCTTTCAAATGGATTTACATACATACGAATTGCCCCCAAACTCAAATTTATTATACCATATTTTTTGCAATTTTTTCCTCTATTTTATTGCAATAACAGTTGTAGTTTGATATGATATATTACTTTTTTTATTAGTAAATTTAGCAAATTAAAAAGAAGAGATAAGTAAACAAGCTATTAATACTGTTTAAAGACCCCGTCTTTTCTTTTATTAACTTTTACAAATATATTATAGCACAAAAAAACATATAATAATACACTAGTGCAAATATAAAATCAAACACTTTCTAAAATTTCTAGACTAAAAAAATGAAGAATTATAAGAATAAATATTTTACTTCTCTTTTATTTTTTTAAACCTTACACCTAGAATGATATATATAGTTGCTAAAAAACTTAAACTAATAACTGTTTGAGATATATATTTTAATCCTGACATTCATGGACTTGGATAAATTGATTGAGGAGAGTATCAAGAACCATAAACACTTTCCAAGTATTTTGATTCATATGCATTTGGATTAATTTGAATTAATTCTTTATTTCAAAGATTTGTTAATCTTTGTACTTCGTGAGTTGAATATGCAATTATTATAAGTATGCTAAGTATTTCAACAAGCAATATTGCAAACTCAACTGCAAATGTTTTTTTAGAACTTTTTCAATTTTGAATATATGCAATAGATGAAATTAATATATTTGATATTAAAAATCCTGAAACAATTATTGGTAAAAATTTAATTGAGAAATATGATCCTTCAATATTTATAACACTGTCAGTTGAAACAGATTTATAAAGATCAGGTATTATGAATGTTCAATTTAACATAGAATTCATTTTTGAACTTAATAAAGACATGTTAATGATATAAATTAAAGGAGTTATAAAAACTAAAGTTGTTGCAATGATTAATCAGAACTGAATATTTTTACGAGTGTTCAAAGAGAATTTATTAAGAAAATCTTTAGTTATAGATCTATTTATATTTCCATAAGTATTTTCTATTGTAAAAATTTTAGTTTTATTGTGTTTTAATCAAACATTGAAACACAATATTACTGCTATAATTTTAAAAATAGCCAATCATCAAGTTAAAGTATCTGTAGATCATTTATACTTGTAACTATTGCCATTTTCACCTTTATACATATCCATAAAAACATCTTGCATATTTTTAATATCTTCGTTTTTAAATAAATCTGCATTTTCATCTTGAGAAAGAAACTCAAACAAGTTATAAAATTTTGAATATGAGTATTCTGATATAGCAATAAAAACTATTGCTATTACAGAAAAAGAAGCTATAAAAATAATATATATTAGCTTATACAAACTATTTACTTTTGATTTTAAAAATAAAATTAAAAAGAATGTCATTATCAAACCTATAATTAAAAAAGATAAAGACAATCAAGCAAATATTTCTATTTCTCATTTATGAGCAATTACATTCTTTCCAAAATTATTTTCAACTACATTTAAATTTGCAAAATAATATTTAAGAGAAGGATTGATATTTAAAATAACAAGATAAGTAATAGTTGGAATAAATAAAAATACAAAAAGTACTGAAAATTTAATCAGTAGGGAATTTTTATTTTTATAATTATCAACTGCAAAATTATCTTGTAATTTCTCCATGATATTGCTCCTTAGATTTAATAATAAATATTCTTCAGTTATTTGAATAATCCTTTTTGAAATCTATATTATATTTTACTATTTTTGATGAAAAAATATTCTCTATTTCTTCTTTTTGTTCAAATCCAAATTCACAAACTATAATTAATTCTTTATTTAAATTAAATAATTTATCTAAGGAATTAAACAACTCCTTATAAAATTTTAAACCGTTATTTTCTGCAAACAAAGCTATTCCAGGTTCATATTTTTTTACATACTCACCAATATTTGAATCATTTACATCTATATAAGGAGGATTTATTGTAATAAAATCAGGAACAATTTTTGTTTCTTCAAAAACACTTAAAAAATCTGAGCAAAATAACTCTGCTTTTTGATTATGTTTTTTTAAATTTATTTCAGATACTTTTAAAGCTTCTTTTGATATATCACTTAAATACAAATTAATTTTGTTATTTAAATTTTTTAATGTAATACCAATACATCCACTTCCACAACAAATATCAAACAAGTTCTTATCATCTAATTTATATTTTAAAATCTCTTCAACTATTAATTCACTTTCTGATCTTGGTATTAATACATTTTCATTTACATAAAAATCATATTTATAAAAGTATTTATTATTTAACAAATATGCAATTGGTTTTTTAGTTTCCTTAAATTCTTCTATAATTTTTAAAAATAAATCTGATTCTCTCTTTGATAAGTTTTGATCCATTACAAAGTTAAAATCAGATTTATTTGTTATATTAATAATTATTTCTTTAAATTCATTTAAAGTTAATAAATTTGGAACATACTCATTTTTTAATTTATTTAAATTCATAATTAACCTTCTATATGTTGAGTGATTCGATTTTTTTGTTCATCATTTATTAGCTCAATGATAATTTCATCTAAGTTACCTTCCATTACTTGATCTAGTTTATTTAATGTTAAATTAACTCTATGATCAGTAACTCTATTTTGCGCATAATTATATGTTCTTATTTTTTCACTTCTTGCTCCAGTACCAACAGCATTTTTTCTTAAACTTGCTGCCTCACTTTGTTGTTTTTCAAGTTCTGCTTCATATATTCTTGCTCTTAACAAAGTCATGGCTTTATCTTTATTGTCATGTTGACTTCGTCCATCTTGTGAAGCTGCAACAATTCCAGTAGGAATATGAGTAATTCTTACAGCTGAATCAGTTGTATTAATATGTTGTCCACCAGCTCCTGAAGCTCTATAAGTGTCAATTCTTAAATCAGCTGTTTTAATGTCAACTTCAACATCACTAACTTCTGGAAGAACTGCAACAGTAGCTGTTGAAGTTTGAATTCTTCCTTTTGATTCTGTTTTAGGCACTCTTTGAACTCTATGACTTCCAGATTCGAACTTCATTTTTGAATATACTTTGTCACCCTTTACCATAAAAGAAATTTGACTAAAACCTCCAGCTGCTGATTCATTCATATCCATAACTTCTATTTTTCAGTTATTTTTTTCAGCATACTTTGTATAAAGTCTAAAAAGATCTCCTGCAAAAATATTTGCTTCATCTCCCCCAGCTGCTCCTCTAATTTCAAAAATAACATTTTTATCATCATTAGGATCTTTAGGAAGTAATAAAAGTTCTAAATCATCTTCTACTAAAATAATTTGTTCTTGTGCTTCTTCTAATTGAAGCTTTGCAAGACTTCTCATTTCTTCATCTTTTTCAGTTTCTAAAATTTGTTTAGCTTCTTCTATATCATTGTTTATTTTTTTGTATTCTTGATATTTGTTAACTACTTCTTCAAGACTAGCTCTTTCTTTATTTAATTCTGTAAGAAGTTTAATGTCTTTTAAAGTTTCTTCTTTTTGAATAGTTTCATCAATAGAATTTACTCTATTTTCCATAACGTTTAAAGCTTCTAATGTCTTTTTATTCATATTCTATCTCCTAGTCCTATTGTGGTTTAATATAACAATGTCTACATCTTGCTTCATATTTTTCATTTGCAGATATAACAATAATTGGTTCATTTGCTTTTGCAGGTTCTCCATTAATTATTCTTTGTGTTCTATTTGCATTACCACCACAAGAATGACAAATTGATGTTAATTTATCTACATATTCTGCTTCTACTAATAATTTATCTACGTTTTGAAAAGGATCATTTTTAAAATCCTTATCCAAACCATTTGCAACTACAATGACACCTTCATCAGCTAGTTTTTTAATAATTTCAACTATATTTGTATCAAGAAATTGAATTTCATCAATACCTATTATATCAACTTTTTCTTTCTCATTTTCTTTATAAAATATATCTAATAACTCTTCACTATCTTTAACTGGAATTGATTCAATACTCATTCCAGAATGAGAAAATGTATCTTTTTTTGAATATCTATCATCAATTAATGGTTTAAATACTAAAACATTTTGTTGTGCATATTTATATCTCTTTAGTCTTTTAATAAATTCTTCAGTTTTTCCTGCAAACATACATCCTGTAATTAATTCAATTCATCCTTTTTTACTGTTAAAATTCATTCTGTAAGTCATATCAATTTTCTCCCTTATAAATATATTATTCAATTAAACTACTTAAATCATTAACTAAAGATTTTATCTCTTTTCAACTATCAAGCTTAGCTCCAGAAGCTAACTTATGACCTCCACCATTATAATTAACTGCTATTGAGTTTATATCAAACTCTCTGCTTCTAATTGAGACTTTTATTTTATCACTGTCAATAGTTTTATATGCAAGAGCTCATATTTTCACTTCTTTAATACCTGACAAAACTGTTAAAGCACTTTTAATTTCTTCTTCACCAAGATCTAAATTTTTAAAATATTTCGTTTTAACTTTTATAAAAGCTATTTGATTTTTATTATAAAATTTAGCGATACTAAATGCTTTATTATGTCATTTTGCTAATTTTAATTCTTTTAGAAATAATTGTGAATATATCTCTGTAATTATAACACCAGCTTCAACTAAAATTTTTGCAGCTTGAAAAGTACTTCCATTTGTTTTATCAAAAAGAAATCTTCCTGAATCAGTTATTAAACCATAATAAAGATAAGTGCCAGCCTCTTTTGTTATTTTTAAATTATTTTGATTAGCTCACAGTGTAATAACTTGAGTACATGCTATTGCACTTACATCTACTATTTTGTTTTTTGTAAATTCATCAACTTCTAAATGATGATCAATTTTAAAAACTTCTTTAACTTCATTTTTAAATTCAAAATCAACTCTATCAAAGTTTGCAACATCAACAGTAATTAAAAGTGCAGATGATATAATATCTTTATTTAACTTAGACTCATCTTCTTCTCTTAAACCTAAATTTAATTTTTCTCCTACAACATATACACTTTTATTTTCAAAGTTTTTTAAAATAATTTCTCTTAAACCATATGCGCTTCCTTGTGTGTCTCAATCTGGAGAAACATGCTTTGAAATTATTATATTTTTATATTCTTTAATTTTTTTAATTAACACTAATTCATTATCTTTTATTTTCATATTTCTCCTTACATAATTTTTAAGATTGAATCTTCTCCAATGTATAATTTAACTTTCTCTTCAATTTCAAATTTTTGAGTTGAATAAAAGTATATTTTTAAATTGGTTTCTTTTATTAAAGCTTCATACATATTTGGATCTGCGAATTTATTATTTTCAATTATTGTTCCTACTAATTCTATAATGTAATTTTTATTTTCTTTTTTATTTGTATAAACTTTCATTGGATTAATAACTAATTTACCCACTTGGTCAAAAATATCACTTTGAGTTTTAGTTGTTTCATTCATTGTTTCTAATTTTTTACCATCATATTTATAACTAAATCGATTATTTTTTGCAAAGAAATCTCCCCCATAAGTTGAATAATATTTTTTCAAGATTTCATCTAAACTGTTTTCAACAAGTTCTTGTTCATTTATTAAATAAATATTCTTATTAAATTGAGCAATATCATTAATATTATCTTCAATAAAAACTATTGAAAAATGCGAATCTAAATTAAATAAATTATCAATTACACTTAGTAAATTTTGTTTTTCAGTATGATTTAATTTTGCAAGTACATTATAAAAAATAAGATTATATTTTTTTAAATATATTGCAGTTAGTAATTGAAATCAAATTTCTTCCATTTTACTCAACTTAAATGAAAGTAAATTAAATTCAAATCCAAGTTGTTTTGCTGTTTCATCAATAAATAAAGTTGATTGCTTGTAAACTGATGAGATTTCTCTTTTTAATCGATCTTTGTGAACTTTAAATTCATCAATTTCTCCTTTTTCACAATTATCATTTAATACTCTTTTGTGATATTTGTGCATTACTTCAACAATTTTTCCTCTTAAAGTAGTTGCTTCATCTGAAAGACCTTCAAAAAACATTTTTTCTTGTTTCTTTTTAAATTCAAATCTTTGATCATAAGAGGCTTTTCTTCATGTAAATAGTTCATCAAGATTTCTTATTCTTTTTTTTATAATTTCAGCTTTATTCAATTCAAAAACAATTTGTTTTTTAAGACCTTTAATTATAAAGTTATTTTTTGAGATTTTTGCTTTTATATTATTTACTTGTAAATCTAGTATTTTCAATTGTTTTCTAGTTACAAAGTTAATTTGATGGAAATTCAATTCTTTAGCTAATTTTCTTTTTTGTTTATCTTTTGATTTTTTAGTTACATATTCACAAGTACACAATGATGATAATTCCATAAATGTATAAACTTTATCAAAAAGAGTTTGTAAGAAAGTTTGAATGAATTCTAAATTTTGAGTCTTTTCAACTAGATAATAATAATCTTTAATAATAATTCTGATATGTTCTTCCATGTCTCCATAGCTTTTTTGTAAATTAGTATTATTAAATTTGACTATTTGATTTAAAAACTCTGAAACTCACTGTTCTTCAATTTCAATAGAGTTGTTTATGAATTTTGAAATCATAGTCTCTATTTTATCTCTCATTTCTAAATCAGTTTTATTATTTTTAGATGTTGAAAAAGATAAATAAGAATATTTTTTATTTATATAATTAATCTTTGCTTGACTGTAAAAATTTTTATTTAAAAGCAATGATGTATATAATCAAAATTTTTCAGGTCATTTTCTAAATAAAGTATTTGCTTTAATGACAGCAACTTTTCTTTTTGTTCATTGTTTATTAACTTTATCATATCCATCAATTTTAAATAAACCATTTTTTACAAGATATTTACCTTGTAAAATATTTTTAAAGTTACGTCTTAAGTTTTTATCATAAGAAATGACAGTAGTTTTTTCAGAATCTTTAGTCCTAAAAGTAGTGCTTTTAGGTGTTAATTTTCTATTAAAAAACTTGGCATTTTGAATTGTAAAGCTCATATAAAAGACCTCCATAACCTTATTATTGTATAACATTTTAAAATAAAAATAATAAAACTAGACCAATTACTAGTCTAGTTGTTTGTATTAAATTATTTTTTAGCCTCTTTTGATTTTTTTTGATTTTCAGCTTTTTGAGCAGCTGATGCTTTTTCAACTTCAGCAAGTTTTGCGTCTTTTTTAGCAAATTTTTCTTTGAATTTTTCAACACGTCCCTCTGCGTTTGCAAAGTTTTGTTTTCCAGTGTAGAAAGGATGACAATTTGAACAAGTATCGATTCTTACTTCTTCACCTTTTGTTGATCCTGACATGAATTCATTGCTGCAAGTTGTACAAACAAATTTAGCTTCGAAATATTGTGGATGTATATTTGCTTTTGGCATGTTTTCACCGTCCTTTATTTAAAGTCTCTCTAATACAAAGTAAATAATACCATATTTTTTCGAAATGTTATTTATTTTATATTTTTATTTAATAAAAAGTCTTTTAAATAAAGGAATTTGCAATAAAGTAGAGAATAAATATTACATCTAAACTTCAAATTACAGGACCAATTTCTTTCAGTTTTCCTGTTGCCATTGAACCAACTGTATAGGCAATAATTGCAAGTGCAATACCATTTGCAATATTGTAAGTGATTATCATAAATAAAATTGAGAAAAACGCTGCTATAGCCATTTCAGGTTTATTTCATTCAATTCCTGTTATGGACTTAATCACTACAGTTCCAATAAATACAGTTGCAGCTCCAGTTATACAAGAAGGCATCATTTGAAATATTGGAAATATAACTATACTTAAAAGTAAACCCATTGAAGTAACAAGAGAAGCAAAACCAGTTCTTGCTCCTTGTGAAACTCCAACACAACTTTCAGCATAACATGCAATGTTGGAAACACCAATTGATGCTCCAACAATTGTTGATGCACCATCAATTATTAATGCTCTTTGTGGAATATCAGATTCAACTCCCGATTCCCTGTTCATTTCCACATTAACAGCAGTAATTGTTCCAGTTGCATCAAAAAAAGTAAGTATAATAAAAACAAAAATAGAGACATACATTGTTGGATTTGATCATATCTTAGTATTTGTAAATTCACTTCAAGTAGATGAAATATTAGAAGCAAAGCCTTTGAATAATTTTGCGTAATTTCATTTATTGGAATCTCATTTGGCACTACCAAATGATTGATTTATTGCATGATTATCTATCGTGTTAGCTAAAATAATAGCTATTATAAAACCTATAACCATAACAACAGCTACAGGAGCAAAGAATTTTTTGAAGTTTAAGAAAATAGCTGTAAGTAAAACAATTGATCCTAAAATTATTTCTGGGTAATTTAATTTAAAATTACTCAATTCAGCTATCGGTAAACCCCCTTCGCTTTTTTGTACTCATCCTATATTTGCAATTCCTACATATGCAATAAAAAATCCGATTCCTACACCAATTGCTAAGTGAAGTGATTTTGGAAGACTTTTAATAATAAGTGTTCTTAATTTAGTAACAGAGATTATACAAAACATTATTCCTGAAATACTAGTTGCTATCAAAGCCCCTTCATATCCTAGTCCTCCTGAATTAGCTACACTGAATGTAAACATAGCATTTACACCCATACTTGGAGCAAGTGCAATAGGCACATTTGCAGCAATGCCCATCACAAATGTTGCTAAAAATGACATTATTGCTGTTGCTAAAAATACTCCATCAGCATTCATAAATGAATTTGAATCATTTATACTTTGTGCACCACTAAGTATTCCTGGTTCTACAGACAAAATATAAATCATTGATAATAAAGTGGAAATACCTCCAATTATTTCCTTTTTAAAAGTCGTTTTCATTTTACCAAAGCCAAAATATTTAGCTATTGGATTATTTGAAACAATTAAAGAGTCCTTGCCCTTTTCACCCTTAAAATTATTTTCTTTAATATTCATAGTTTTCCTTTTCTATAAATTCTAAAATACGAAATAAGCTATTTTTTAAAAATAACTTATAAAAAATTAAAGTTGTAATTAACAGGCACTTGCTTTTGCATTTATTAAAAAAATATAAATAGAAATCATAGAGACTAGATAGGTCTAATCGTAGAGACGCCAACCCAATATGTTGGTTTATACAAGATCTATTAATTACACTTTTATTTTACATTTTTTTAAAAAAAATACAAAGAAAAAAATAAAAAGTTTAAACTTTTTATTTTGAAATATTTTTAAATTTTAAATATTTTACTACTCAGCTTTTATCAAACTTTTGTTAGTCAATATATCCATTTTTTCATAATTACAAATTCTATCTAAAAATAAAATTAAATAATTAACAAGTGGTCCAACAAGAAAAGTAAAGCATACCGTTCCAAGACCAAAATTGGTAAGAAGAAAATCTGTTTTTGTAGATTCACCTTGTATAAAAGGGAAAAAAGCAAAACCTAGAGCAAATATAACTATATCAATAAGTAATCTACCAACTGTATAATTTAGTTTTGTTAATCTTAAAAATTGTGTACAGATATTGTTAAAAGGTCCTAACATTCAACCCGATTTAACTCAAAAACCAATTCCTAGTACAAAACAAAGAAATCCTGCTATAAATAATCAATTTCTAACTCCAATTGAAGAAGAAATTGATGTGCCATCTCTAGAAACTCATTGACTAACAATAGGCATAAACATTTTTATAATAAAAGGAACACTAAAAGTTATTACAAGGTCAGCTATTATTATTCAAACAAATAAAACTCAAATTTTATTTTTTTTTGTTGATTTATAATCATCAATTGAGGGCTTAATAGAAAATGCTATAGCAAATAAAATAAGTACTATATTTCAAATTAATAGAGTTGTAGGATAAATGGAAACAAATTTTTCTCCTGACAATGAACCATCACTTCCATATGGTATTATTGTTGCTATTATATTATAAAGTGTTCAATCTATTTGACTTCCCCCAACAGCTGGTTGTTGATATAAGGCAAGTCCAAAAGAACTTATAAAAAGTCCTAAAAATGCTAATATAATTTTTACTAAAATAGATAATCAATGATTACCTATATAAACTTTATTTTCTATAATTCACTTTTTCATTTTATTTATTTCCTCATTTATAAATACTTTACACAAAAAAAATAGGCAAAAAACCTATTTTTCATATTTAGTTTTCAGAGCTTCGATTCCACCTTGTTCGTATTTCCTAACTCAATTTCTCAAAGAAACAACACTTACATTTCTTGTTGGTGCAAATTGAGTTGCAGTAACTCCACTGTTTTTAAAATCCTTAATAATTTTCACTTTTTCTTCAACTGTTAAGTGCATTTTCTTCTCTCCTCAATACCTCATAAGCAAAATTTTTTAATTATTTTGCTTTACCTTGACAACCAAATACTTTTGTTAAATCTAAGAATGTTTGTTTTAAAGCTTTAAATCCTGGTGCAAGCAATTTACGAGGATCAAATCCTTTTGCTTCATCATCTAAGTCTTTTTTAGCTTCAATATATTCTCTTGTAGCATCTCTAAATGCTAATTGTAATTCTGTATTAACGTTAATTTTTGATATTCCTAATTTAATAGCTTTTTCAACTTGATCTTGAGGAATTCCTGATCCACCATGTAATACCATTGGTAATTTACATGCTGCTTGCAATTCTTCTAATGTATCAAATGATAATGATTTTCATCATTCAGGGTATTTTCCGTGAATGTTTCCTATTCCTGCAGCTAACATTGAGATTCCTGTAGTTGACATTTCAGCAGCTTGTTTAGGATCTCCTAATTCACCTTCACCTACAACACCATCTTCTTCTCCACCAATTGAACCAATTTCAGCTTCAACTGATACTTCATGAGAATTTGCAAATTCCATTAATTCTTTAACTTTTGCAATATTTTCTTCATATGGTAAATGTGATCCATCAAACATAACTGATGAATATCCTGCTTCTATACATTTTTTAGCCATTTCAACTGATTGACCATGATCTAAGTGTAAAGCAACTGGTACAGTAATATTTAATGAGTCTAGTAAACCATTAACCATACCAACAACAACTTTAACTCCTCCCATATACTTTAGAGCTCCTTCTGAAGTAGCAATAATTACAGGTGTTTTTGATTCCTGAGCTGCTTCTAAAATTGCTTTAGTTCATTCTAAGTTATTAATGTTAAAATGCCCAATAGCATATTTATTTGCATGTGCTTCTTTAACCATTTCTGTAGAATTCACTAATTTTGAATGATAAATTCTTGACATATTTCTATTTCCTCCTATAAAAGATACTTTATACTTTAACATTATACCCCTTTATTTTTAGTTAATATATCTTTTTCTTGCTTTATTGCAACTTTTCAAGTTCAGTTTCATTTTTGTCAATTATCTTTTGTTTTAGTTTAACTTTATTAAAACTAAAACAAAATATTGAAGCAAAAACAACTGTAAAACTATATTGAATTGAATCTGTTATAACTTCTACAATAGCTACAGAAGAGTCAAAAATTAAATATGCATATAATACATATATAAATATTCATATATAACTTATAAATATATTTAAATATAAAGGTATAAATTTTTTTAAAAGTATAAAAGTAATACCTATAAGAATTTTGACAATTACAGTTATAGGCATATAAATAAATCCCCCTGCATATAAATCTATTAATATCCCTGAAATAGATGCTGAAGTAATTAATAAAAAAGGATTCAAAAAGTTTAATAAAGATAAGTAAATTGTATCTGAAATTTGAAATATATTTTTACCACTGATATTTGAAATAAATGTAGATAAGGCACCAATACCAAACATAAGAGATGTTATTAAACCACAAATTGCAATACTCTTTGTACTTACTCTTTTCACCTTTATCACCTAATTTAATTTTAAATAAAAAAACAAAAAATAAGTAATTATTTTTTGTTAATTGCGTTTATAAATCCCATAAATAGCGGATTTGGTTTATTAGGTCTTGATGTAAATTCTGGATGATATTGAGCAGCTACAAAGAAATCATTTTTTGGATATTCGATAATTTCTACTAAATCTTGTTCTAAATATAAACCTGAGAAAACTATACCATTATCTTCAAAAACTTTTCTAAAGTTATTATTAAACTCATATCTATGTCTATGTCTTTCAATAGCAGTTTTTTGTTTATAAAGACTGTGTGCAATAGTTCCTTCTTTTAAAGAAGTAACATATCTTCCAAGTCTTAATGTTCCACCAATGTTTTCTCTATTTTTACCTTCCATAATATCAATAATTGGATTTTTTGTATGAGGATTGATTTCTGTTGTATGAGCATCTGGCAATTTAATAACATTTCTTGCAAATTCAATACAAGCTACTTGCATACCTAAACATATTCCTAAATAAGGAATATTGTTTTCTCTTGCATATTTAGCTGCAAGAATTTTTCCTTCCACACCATCTTCACCAAATCCTCCAGGTACTAAGATTCCCTTAGCACCTTCCAATTCAGCTTTCAAATTCTTTTCTGTAAGTTTTCTAGCATTAACTCATACAAATTTAATTTTTTTATTAATTTCATATCCTGAAAATTTTAATGATTCCATTACAGATAAATAAGCATCACTTAATTCAACATATTTTCCAACAATATGAACTGTAAGAATATCTTTTGAGTTATCAATATTATTTACTAATTTTTTTCAATCTTCTAATTTAGTTTCTTTTAAATTTAAAGTTAATTGCTTTGCAACAATTTTATGTAAATTACCTTTTTCAATAATCAAAGGTACTTTATAAATAGAGTCACTATCTGGACACTCAATAACATTTTCTACTGAAATACTGCAAAGTAATGATATTTTATCTTTTAATTTTTGTTCAAATTCCATTTCACTTCTTGCAACAATAACATCTGGTTGTATACCTAAACTTAATAGTTCTTTTACTGAATGTTGAATTGGTTTTGTTTTGAACTCTCCTGAAACTTTTAAATAAGGTAATAACGCAACATGAATAAACATTACATTTTCTTTCCCTTTTTCCATTCTAATTTGTCTCAGAGCTTCTAAAAATGGTTGAGATTCAATATCTCCAACAGTTCCTCCAATTTCTGTAATAACTACATCTGCTTTACTTTCAACTTCTGCTTTATAAATTTTTTGTTTTATTTCATTAGTAATGTGAGGAATAACTTGTACAGTTTTACCTCCATATTTACCATTTCTTTCTTTTTCTAAAGTTTCATAATATATTCTTCCAGCTGATGTTGAAGAGTTTTTTGATAAATTAACATCTATGAATCTTTCATAATGTCCTAAATCTAAATCAGTTTCTCCCCCATCATCAGTTACATAAACCTCTCCATGTTCTATTGGATTTATAGTACCAGGATCAATATTTAAATATGGATCAAATTTCTGCATAAATATTTTTAATCCACTATTTTTTAAAAGTACTCCAAGAGAACTTCCTGTAATACCTTTTCCTAATCCTGAAACTACTCCTCCTGTGATAAAAATATGTTTTGTCATAATTTAATTCTCCTTTAAAAATAAAAAGTAGCCAATAAAAACTACTTATAATTAAGTTTAATTTTAATAATCGTCGTCATCGTCATCATAATCATCATCGTCGTAATCATCATCGTCATCGTCATCTATAGTTGAATCAATTGAATCATCATCTGAGTTTAAATTTAATAGATTCTTCATTTTTCCAACACCTTCAGTTGTATCTTCATCGTATGTACTTAAACCAAGTATTGATTCAGAATCTAAATCTTCAAATTCCTCTGTTGTTTCAAATTTATCAACATATTCATATTGTTTTTTAACATCATCGAATTTAAGATATTCTCTTAAACCTCACTTACCATCTGATGTTAATGCAAATCTGTTATCTAAAACTAAATCACTGTAAAGTTCAGCTATTATTTCATTTTTGCTATCATTGTCTCCACTTATGTCTTTTGAAATTGTATTCCAGATATCTTCAAATGAAGCGCTATCTTTACATTCACTTAAGTAATCATAAGTTAAATTAATTGGTGATAGTTTGTTCATAACATTTCCTCCATAATTTCTATTCTACATTATACATTGGGAAAAATATAAACTTTTTTTACATTATTTTCTCAATCTATATTTAAAATTTCTGATAACTCTTTAAGATTATTTAATTTATCATTTTTCAAAATATAGATATTTTCATCTTTTTTCCCAGTACTATCTTTATAAATAAATACAGTTTTTATTGATATAGAATCAAAGTAATACTTTGCATCACCTTTAAATTCTGATTTTAATTTGTTAAACTCTTCTTTTGTCATATCATATGAGACTTTTAAGAATTTCCTATTTAATAATCTATTTGATAAGTCCTTTAATATTTCATCATTTTCATTCTTTAAACTTTTAAATATATCAAACATAGTATAGTCATCTAAAAATATATACTTATCTAAAGGCATTGCTTTCTCTTCAAATACCTCTTTAAATAATTCAACTGTTTGAGAATTTTTAAATTTAAATCCATTTTTGTAAAGATCTTTAAATCTTTTAAATCACATTTTAAAAGTGCTATCAAAAGCAGTAGAAATTTTATGCTCATAAACTTGTTTAAACATATGATACCTACCTAACAAAAAATTCTCTATTGCATTTAAAGATTTACTTGCAAAAACTATTTTATCATCTTGAATCTTTGCATTTCTAATAATTCAATCAATATCAGGTTTTGAATAATTAACTCCAGCACCAATTGAATCTCTTTGAAGATAATCTAATCTATCTGCGTCAAGTTGACTAGATACTAATAAATTGACAACTTTATTTTTGTGTTTTCCTTCAATAACAGAAACTACTTCTTTTGGATCCACTCCATTATTTAACAAGACCTTATTTATTTGAGTGTCACCTTTTATCAAATCAACACTGTATTGTTCATGACTTATTGATGAAATGGTTTCAAATGTATGGGAAAAAGGTCCATGACCAATATCATGAAGTAATCCTGCTATTTTTAATACTCTTTTATCTTTATCTAAGATATGTTTATTTATTTTTTCATTTTCAAGAAATTTACAAATAACATGATAAACACCAATACAATGTGAAAATCTTGTATGATTTGCACTTGGGAAAACAAATTGTCCTCCTCCAAGTTGGATTATTCTTCTTAATCTTTGAAATTCATCTGTATCAATTAATTCCAAAAATACCTTATCTTCTATGTAAATTTCTCCATGAACATTATCTCTTATGAATTTTTCCATAATTCACCTCTTACTTAAAGCTATTTATATTAGTTAAGACTTTTTCTTTACCAATTAAATTTATTGTTTTTGCTAATTCAGGACCATGCTCACTTAAAGTTGTATATATTCTTACTGGCATAAATAATTCTCTACCCTTTTTTTCAAACCTATTACCAGTCTCTTTAATTAATATTTTAATATTTTCTTCTGTAAAATCTTTTATATTTTCAATTTCTTTTGCTAAAAATGACATCATTTCCTTTAAATTTGCAAACTCTTTTAAAGTCTCTTTAGTTTTAATATCTAATTGCTTATCAAAAAATATATCTAAATGTTCATTTATTTGTAAACCATATTCTAGTTCTTTTTTAAAAAGTAATAAAACTGAATTTATTCATAATTCATTTTTTTCCTTTAAATTAAACTTAGTTTGATCAACAAAACTAATTATAAACTTTACATAATCTTCTTCAGACATTTTTTTAATTCATTGACTATTAATTCATTTCATTTTTACCATATCAAAAGTACTTGGTGATTTTGAAAATCTCTTTTCATCAAAAATTTTTATTAGCTCCTCTTTTGAAAAAATTTCTTGCTCATTGTTAGGACTTCACCCTAACAATGAAATGTAATTAAAAATTGCTTGAGGAAGATATCCCTGATCTCTATATTGAGAAATAAAAAACATTGCATTTCCACTTCTTTTTGAAAGTTTTTTCTTAGTTTCATCAACAATTAAAGTTAAATGACAAAAAGTAGGTTCTTTTCAACCAAAAGCTTCATAAATCATACATTGTCTTGGAGTATTTGATATATGTTCTTCTCCTCTTACAACATGTGTTATTTGCATATCATAATCATCAATTACAACAGCAAAATTGTATGTTGCAATTCCATTTGATTTTAAAATCACAAAATCTCCAATTTCTTTTGAGTTGAACTCAACATTTCCCCGAACAACATCATTTATCTTGTAAATCTTATTTTCAGGAACTTTAAATCTTATATTAAATGGTTTTGAATTATCTTCAATTTTATTTAGCAAACACTTTCGATTGTATTGAGGAGCTAGAATTCCTTTTGCTAATTGAAGTTCACGATCTTTTTCTAATTCTTCAGCTGTACAATAACATTTATAAGCCATATTTTTTTCAATTAATTTATTAGCATATTCTTTATATACATCAAATTTTTCAGATTGCATATATTTTCCATAGTTACTTTTTGGATTTCTAAATGACTCATCTGGAGTTATTCCTAATCACTCCATATTATCAAATTGTGATTCAATTGCTCCATTCACATTTCGTTCTATATCAGTATCTTCTATTCTTAAAATAAAATCTCCATCATAATGTTTTGCAAATAAATAATTCATTAATGCAGTTCTTGTATTTCCAATATGTAAAAAGCCTGTTGGACTTGGTGCATATCTAAGTCTAAATTTATTCATATTATTTTTCCTCACTTTTATAAACTAAAATATTACAATAACTTGTAATTATATTTGGAAAGTTATTTTCTGTTGTTGTAGCTTTAACAGATATTTGATTCAGTTTTATATTTAAAATTTTTGAAAGATTTTCTTTTATCTTAAATTTTCATTCAGTCAGTTTAGGATTATCTAGTTCAACTAAAATATCAATATTAGATATTTTATAATTATTTTCAAACAATATTTTTTGTGCATCTTCTAACATTAATAATGAGTTGAAATTTTTTTCCATATTTTTTGAATTATAATTCTCTCCAAGATCTTCTAATCCCATTGAACCAAAAATTGATTCTGCAAGGGAATGAATTATAACATCACCATCACTATAGGCATTAACTGCTTTACAAGAAGGTATTTCTATTCCTCCAAGAATAATTTTATTGCCTTCAATTAAGTTATGGGTATCTTTTGAAAAACCAACTTTAAATATCATAATAACTCCTTATAACAAAATGATTATAAAATAAAAAACGATTTATATCTAATTTAGTTAATAAATCGTAAAATTTTATTTATTAAATTTAAAAAAGCACACGTCTCCATCTTGAACAATATAGTTTTTTCCTTCAAGCTTAATTTTTCCACTATTTTTAAGTGCTTGTTCATCACCAAGTTCAAATATATCTTCACATTTATAAACATCTGCTTTAATAAATCCTTTTTCAAAATCTGTGTGAATAATACCTGCACATTGAGGAGCAGTTGAACCTTCTTTGAACTGTCACCCTCTTGCTTCTTGTGGACCACAAGTGAAATAAGTTTTCAAATCAAGAGTTGAATAAGCTGCTCTAATTAATTGTTCCAACCCTGATGTTTCAATTCCTGCATCTTGTAAAAATACTTCTTTATCATTTTTATCAAGCTCGCTTAACTCTTCTTCAATTTTTGCAGATATTTTAACAACTTGTGAATTACAAGATTGTGCATATTGTCTAACAAGTTTTACATACTCATTATCTTCTCTAACTTCATCTTCTCCAACATTTGCTACATAAATGATTTTTTTTGTAGTTAATAGTTGAAAAGATTTAATAGCTATTTTCTCTTCTTCTTCAAACTCTAATTTATTTAATAATTTACCTTCTGATAATTGATTTTCCAATTTCTTTAACAAGTTATATTCAAAAATAATATCTTTGTCTTTTGTTGATTTAAATTTTGGTTCAACTTTAGCAAGTCTTTTTTTAACACTTGCTTCATCTGCTAAAATTAATTCCAACTCTATTATTTCAATATCTCTAATTGGATCAACACTACCTTCAACATGAGTTATTTCTTTTGAATCAAAACATCTTATAACTTCACAAATTGCATCAGTTTCTCTAATATTAGCTAAAAAAGCATTTCCCAGACCTTCACCTTTACTTGCACCAGCTATTAATCCTGCAATATCAACAAATTCAATAGTAGTATAAATAGTTTTTTTAGAATTAAATATAGTTGCTAATTTATCTAGTCTTCAATCAGGAACTTCTACAACTCCAACGTTAGGTTCTATTGTTGCAAAAGGATAATTTGCAGCTTCAACTTTTGAATTTGTAATTGCATTAAATAAAGTTGATTTTCCAACATTTGGTAAACCCACTATTCCAACTTGTAATCCCATATTAATTTTCACTTTCTATTTTTTTTATACTTTTAATAAGAGAATCTTTTGTAAATTCCAATATTAAATCTTTATTAATATTAGATTGTAATTTATATATACTTCCAACTCTTATAACAATTCAAAAAACTGTTTTACTTGGGTGAGTTTTTTTTAAATAAATTTTATCTCCAATACTAATCTTCATCTGTTAATCCTAATAACTCTAATATTCTATTTAAATCATCATCACTTGAAAATCTAATTGTTAATTTTCCACTATCAATTGTAACTTTTGTTCCAAGTCTTCTCATTATTTTATTTTCAGTGTAAATGACTGCTGGATTTTTAGGAACATTTAATTTTTCAGTTTCATTTGAATTATTATTTTTAATTAATTGTTCAATTGCTCTTGCTGTTAAATCCTGTTCTAAAATTTTTTTAAAAATTGAGTCTAATAGTTGTTCATTATTAATAATTGAAAGTAATGGTTTGGCTTGACCCATAGTAACTTTTCTTTGTAACATCGCATCTTGAACTTTTTGAGGTAAGTTTAAAAGTCTCATAATGTTTGCAACATGTGATCTTGATTTACCAACTCTTATTGCAATTTCTTCTTGTTTCAATTTTAAATTTGTTGATAATTTTTTATAAGCAACTGCTTCTTCTATATCAAGTAAGTCTACTCTTTGAATATTTTCAATAATAGCAAACTCTTCCATTTGATCTGAACTAAGTTCTAAAATTATAGCAGGAATTTCTTTTAATCCCGCTATTTTTGCAGCTCTTGTTCTTCTTTCTCCTGCTACTATTTCATTTTGATTATTAATGATTATTGGTTGAATAATGCCATGAATTTTAATTGATTCTGCAAGTTCGTTTAATTCTTCTTCTTCAAAAGTTTTTCTTGGTTGAAATGGATTTGGCTTTAATAAATCAATACTAATCATAGTTTTGCTTTTATTAACTTTTTCTTTATCATTTTCAATACCACCAATTATGTCTGAAACTGATTCTCCAAAAATATCATCTAATCCTTTGAAATTATATTTTCCTTTAGTTTTGGCCATTTTCTTTTAGCACCTCTTTTACAAAATCAATATAGGCAATTGCTCCTGCTCCATTTTTATCATATTCATAAATTGATTTACCTTCCATTGAAGATTCAGAAATCTTAATATTTCTTGGTATAACTGACTTATAAACTTTTGGTCCAAAAGTTTTCATTATTTCTTCTAAAACATCATGAGCTAATCTTGTACGTGAGTCAAACATTGTCACTAAAACACCTTCAATTGTTAAATTAGGATTTAATGTTTCTTTAACTTTTTTAATAGTTCTTAAAAGTTGTGCCACCCCATGCATTGCATAATGTTCTGCTTGAATAGGAATTAAAACTGTATCAGAAATAGCTAAACCATTTCTATTTATTAATCCTAAACTTGGCGGACAGTCAATAATAATAAAATCATATAAGCTTGATATTTTTTCTATTTCATCTCTTAGAATATTTTGATTATTTGTTTTTTGTTCTAATAAAATTAAGTCAACAGCTGCAACGTCAATTGAACTTGGAGCTAAGTCTATATTTGGTTTAATATTTTTTATTATTACTTCTGAAAGTTGCTTTTGACCAGTAAATACATGATACATGCTTAAAGTATTACTATCTATCTCAAATCCAACACCAGTAGTTGCATTAAATTGAGGATCCATATCTATAAGTAGAACTTTTTTATTTGCTAAAGCAAGCCCGCAAGCTAAGTTTACTGATGTAGTTGTTTTACCAACCCCACCTTTTTGATTTGAAATTGAAATTACTTTTGTCATAAATTACCTCTCATAATGATTATTATACCCTAAATCTATTCTATTTTCCCAGTGGTCTTTTTCTTATTTGACTATAAAGTCTTGGGTATTCAATTGAAGTTGAACTATTTTTAATATAAAAAAGATTATTTCTTTCACCCAGTATATCATCTTCATAGTTTTGTTTTTTTTGTAAACTTAAACCAAGTTTAGTTTCTTGACCATTTAATTCATTTAATTCATTTGCAATGTTTTTTGATTTTAAACAGATAAATGTTCCTTTAATTTTAAGAGCTTGAACACCAACTTCTAGTAAAATATTTAAAGGTGCCATTGCTCTTGAAATTATTACATCAAATTTTTCTTTATTTTCTACTGAATATTCTTCTGCTCTAACTTTTAAAGTTCAAATATTTTTTAAATCTAATTCTTTGATTACAGTATTTAGGAAATTGATTTTTTTTCCATTAGATTCTAATAAATATATTTTTGAGTTTGGAAACATTATTTTTAAAACAACTCCTGGAAAACCAGCTCCTGTTCCAATATCTAATATTTCTAAACCATCTGGATTAAAAACTTTTGTAAATATTAACGAGTCATAAAAATGCTTATCAATAATTTCTTGATCTTGTGTTATTGCAGTCAAATTATGTATTTTATTTTGCTCTTGAAGAATATTTTTATACTTTATTAAATCTTGTTTTTGTTTTTCTGTAAATACAATATTTAATTCCTCAAACTTATTTCAATTCATAATAAATACCTCCAATTTAAAAAAAAATAAAAAAGCTTATGCTTTTTTATTTTACATTAATTTTTGTTTTATATTTTTCTATTTCTTTTTCTTTATTATATTTAAATCAATTTCTAGGTTGAATTCTTAAATAAAAATCATTCTCATCAATATTTGATTTTGAAAGCAAACATTCATTGATGATTCAAACTATTTCAATTATTATAGAAAAGAATATTAAAAGAATTGGATCAATCATTTTTTCTTTGTCTTTAAACTTATTAATAAAAAAATCATAATATATATAGCCCATAACAATTATTAATATTGTTGTAGTAATTATACCAATAACAAATCCACCTTTAATTTTATTTACTTCAACTTTATTTGTTCTTCTATTATGAAGAACTGCAATCATTAAAATTAAATATACAATGAAAGCAAACATTACTGTACTGTTAGAAGAATAATCTGCAACAAGAAAATAATTTATTTCATGTGTTCCATTTGGATCAGATGCAAAACCAATTGATATAGAGATAATTAAAAATAAAGTATAGATAGAAAGAGTTATTGCCATTCCTATGTAACCTGCTTTGATATAACTGATTTTTTCACTTCTAGATTTAGTATAAATGAATCCTTCTTCCACAGCTGATTGAACTGTTTTTGGAATAAGTGTAGTATAACCATTTACAGTTGTTACTAAAGTACAAGCTATTATTATTTTAAAAATAAGTGCAGCTCAAGGAGATTTTATAAATAAATTATCAAAGAAATTAAATACATTACCATCTTCTGCTCCCAAAAATATAGCTACAGTAATAATTGTATAAAATAATGTAACTGCAATTATTGCTGAAAGCATTGCTGGGGGAACAACTTCTTTATGTTCACAATCTTTTTGCAATGTAGCTGCATATATAAATCCATCAAATGCAAATAATATAGGAACAATAGTTGCAAAAAAAGGACTGATTCCAAAACTATTAATAGTTGAATGCTCTGGATTAAATGAATTATTTGCAGAAGGATTAAGTATGAATAATGTAAAACCACCAATAACTACAGAAATTAAAGGAATGAATTTAACTATTGTAAATATACTTTGAATTATTCTACTTGGTTTATGTGTATAAATATTCATTAACGAGAAACTAACTAAAAGTAGTGTTGATAAAATTAATTTAATTATCATAAGTTCTACTCGTCCTATTTTTTCAACTAAGAAAATACCTGTTGTTGAATGATAAAAAATATCGATTCCATTAAAAAGAGTATTTATTGTAAAAAGAGCACCTAGCCCAGCTAAAATTGGAAGATACATGCATATATATAAAATAGAACACATAGATGCTGTTTTTCTATTTATAAATGTATTTGCTCAACTTTGTGCAGTTGAATGTCCTAACTTAGTTTTTGAAGAAGCTGCTTCAATGAAAGTAAGCATAATTAATGAACACAGCACACCTATAAATATTCAAACGCAAAGAGCTAGATATGGATTATTGCCAGCTTGTGACAAAACTCCGTTTTCACCAGCATTTTTTAAGTAAATCCCACTACCAACAACAATACCAAAAACCATTGAAAAAATAGTGAAAAACTCAAATGCTTTATTTTTTCTTTTATTTGATTTATTTACCTTTATCATTTTTAAGTTCCTTTCTATTTTTAAAATCTTCTAAACATTTTTGTCTGTCGTACTTAAATCAATTTTTAGGATTTATTCTAAAATAAAAATCATTTTCTTCAATATTATTTTTTGAAATAATAACTTCATTAATAATTCAAGCTATAGCAAGAATTATTACAAAAACTAATCACATTAAAGGAGCAACTAAATCATCTCCTTTAATAATTGGATTTAAAATATTGAAATAATGAATAAGAGCAAGCATAAGTATTAACATTGAACAAGAAAATACACCCGCAAAATAAGCACCTCTAATTTTTCGAATTTCAACTCTTTTTGTTTTTCTATTTCTTAGCATTTGTATTAAAATTGGTAAATTTAATAAATAAACTATTATTATTGTTGAATCAGATGATAAATAAGCTGTAAATAAGTAATCATTTTCTAAAAGTAAGCCAGAAGCAACAAAACTAATAAAAAATACTGAAACTATTGCCATTGCAATTCAACTAGATTTTACTTTTGATAATTCTGCTCCGTTTTTTGAATGAATAAATTTCTCTTCAATTGAAGCTCTTATAACTAATGGGTAAATTACACTATATGCATTAACCATTGTAAGTAACGTTATTGTTATTATTAAATTAAACGCAAAGTGAGCTCTAGGATCTACTTTTTCAAAAATATTTAATATGTTTCCATCACTTGCTCCCATAAAAATTGCAATAGTAATAACTATATAAAATACTGACACTGCAACTATTCCTGTCATCATTGCAGGAGCAACAACCTCTTTATGTTCACAATCTTTTTGTATTGCAGCTGAATCTAAAAATCCATCAAAAGCAAACATTATTGGAACCATGGTCATAAATATATTACTAAATTTAAAAGGCTTTACATTTTCAGGACTAAATGAACTTTCATTGCCCATTGCAAAGAAAGTAATTCCTGCTATAAGAACAGTTAGTAAAGGTATAAACTTTAGAAATGACAATACTGTTTGTAGTATCTTTCCTGGTTTTGAACTGTAAGTATTCATAATTTGAAATAAGAACAATACAATTGCAGATACAAGTATTTCAATAGTAACTCTAAGCTCATAAGACATTAATTGAGCTTGAGAATCTCCAGTTGAAAATTTATGAATAATATCTAAAGATTGAAAAAAGCTACTAGTTGTGAACAGAGCTCCTATTATTATTAATACAGGTAAGTAAATTAATGCATAAAGAATTGTAACAAGAGAGCCATATCTTCTTCCAACAAATCTTCCTGCTCATGCAGTTAGTGTATTGTGTTCACCTTTTTTTGTTGAGCTTGATATTTCAATAAAAGTCAACATCATCATACAACAAAAAACTGCAATTAAAGTTCAAATAGATATAGCAAGATATGGATTATCTCCTGCTTTTGCCAAAACTCCATTATCACCTGCATTTTTTAAATAAATTCCACTACCAACAACAATACCAAAAGTCATTGAAAATACAGAAAGAAACTCAAATATTTTATTTTTAGTTTTATTCTTTTTATTTACCTTTATCATATTTTTATACCCCGTTATATTTTTTCTTTAAGTGAAATAAAAGCATTTGAATATCTGCAGGATTTACTCCAGTTATTCTTGATGCTTGACCTATTGAATTTGGTCTAACTCTCTCAAGTTTTTGTCTTGCTTCAACAGCAATATTTTCAACTTTTGAATAATCTATATCTTTAGGTATTTGTTTATTTTCTAGTTTAATAAATTTATCAATTGTTTCATTTTCTTTTTTAATATAACCTTCAAATCTAATTAAAATTAGCAGTGTTTGAAGTTGTTGTTTTGATAGAGTATTTAATTCTTTAATGTACTTTTTAAAAATATTAATATCCACTTTAGGTTGTTTCAAAATTTCAAAAGCACTAAATCCTTGATTAAGATTTGCTTGATCTTTTTCTTTTAATTCTATGGCCAATTCACTTTTAGGACTGAACCTAATTTCTTTTAATAATTCTATTTGCTCATAAATTTCTTTTTCAAATTTTTGATGTTCATTTCATTCTTCTTCAGTTATTAGTCCAATTTCATAACCATATTTTTTTAATCTAATTTCTGAATTATCATTTCTTAAAGTTAATCTATTCTCTGCTCTACTGGTAAGAAGTCTATAAGGTTCAATTACACCTTTATTAATTAGATCATCAATCATAACTCCAATATATGACTCATTTCTTTTTAAAATTAATGGGTCTTTATTATCAATTTTTCTTACAGCATTTATTCCAGCAATTAATCCCTGGCCTGCAGCCTCTTCATAACCACTTGTTCCATTAATTTGACCAGCTAAAAATAGGTTTTCAACTAATTTTAATTCTAATGATAATTTTAATTGTTGAGGATCAACACAATCATATTCAATTGCATATGCTCACTTATCAACTATAACATTTTCAAAACCTGGTAAACTTCTTAACATTTTATCTTGAATTTCAATAGGCATTGAAGTTGAAAAACCTTGTACATAAAATGTATCAAGTGATTTTGATTCTGGTTCTAAAAATATTTGATGAGTTTCTTTTGTATTGAATCTCACAATTTTATCTTCAAAACTTGGACAATATCTTGGTCCTATAGATTCAATTTCTCCTGAATACATTGCAGATTTGTATAAGTTATCTTCGATTATTTTTTTTGTATCAGAAGTTGAATGAATTAAATAGCAAACTTCTTGATCTTCAAAAGGTACAAATTTTTTTGTAGAGAAAGAAAACGCTAGATTTTCATTTGTTCCTGGTTCAATAATTGCTTTTGATAAATCAATTGAGCTTTTTTTAACTCTTGGTGGTGTTCCAGTTTTAAATCTAAAAGTTTTTAAACCAAGTTTAACCAAAGTCTGACTTAAAGATTTTGTAGTAATTTCATCATTTGGTCCACTTTCATATTTTTCTTCACCTCTATAAATTAAAGATGACAAATATGTGCCTGTTGTTAAAACAACAGATTGACAAAATATTTCATTTCCATCCTCTAATAAAACAGATTTAACTTTATTTGTTGAATCCAAAGTTATATCCTTAACTATTCCTATATATAGTTCTAGATTTTTTTGATTCTCTACAACTTTTTGCATATATTTTGAATATTCAATTTTATCAGATTGAGCTCTTAAAGCTCAAATACCTGGTCCTCTTGATGAATTTAATAGTTTCATTTGCAAGGCAGTAGCATCTGCTGCTTTTCCCATTTCTCCACCTAATGAATCTATTTCTCTAACCACAATTCCTTTCGCAGGACCTCCAATTGATGGATTGCAAGGCATTGTTGCTATTTTATCTCTATATAAATTTACTAGAATTGTTTTTTTTCCTAGTCTTGCAGCTGCAAGTGCAGCTTCTACTCCAGCATGCCCTGCACCAACTACAACTATATCAGCTTGCATATGCATGCCTCCATTCTAAAAATTATTTTATTCTTTCAAATAAAACTAATTTATTTATAATTTTGTCATAATCAAAATTATCTTTTATATTATTAAAATTTATTAACTCTGGTTTTAATCCCATTTGTTCAATCATACCTGGATAAGTTTTTACTAAAATAGGTTTTAAAAGATAAGAAATAATTATAATGTTTTTTTGCAATACAGATAATACTTCCAAAAGTTCATCTGTTTTACCTTCTTTTTCTAATGCTCAGGGTTTTGAATCTTCAATGAATTTATTACATTCTTGACCTAAACGTAAAACAACTTGAGTTGCTTCAGACATATTATATACATCCATTAATTTTTTATATTCTTCAATTGTTTCAAAGCCTTTTTTAATTAATCAATGTTTTGAGATATCTATTTTAGGAAGTTGACCGTCAAAATATTTTATAATCATATTTGAAACTCTTGATATCAAATTTCCAAGATTATTTGCAAGATTATTATTAAATGATTCAACAAAAAGTTCATCTGTAAAACTTCCATCTTTATCTGTTGGTAAATTATTTATTATATAAAATCTTAATGCATCACTTGAATACTTTTTAATAATTTCAATTGGATCTAAAACATTTCCAATTGATTTAGACATTTTTTTATCTCCACTTAAAATTCATCCATGTGATAACAATTTATCTGGAGTTTTAAGTCCTAATGAATGCAACATTACAGGTCAATAAATTGAATGAAATCTTGTAATTTCTTTTCCAATTATTTGCAAAATTTCTGTATCTTTACTTCAGAATTTTTTTAATAAATCATCATTTTTAGACTTAAATCCCAATGCTGTAATGTAATTTGAAAGAGCATCAAGTCATACATAAATAACATGTTTTGGATTTTCATTAATCTGAATTCCTCAATTAAAGCTTACCCGTGTAACTGATAAATCTTCTAAATCATTGTTTATAAAATTATTTAACATTTCTTTTTTTCTTGGTTCAGGCTCTAAAAAATTGGTTTCAAATAATTCTTGCAGATATTTTTGAAACTTTGACACTCTTAACATATATGTTTCTTCTTCAAAATCTATAGCTTCTTTACCACAAATTGTATGATGAAATGTTTCATCCATTTGTTCTACTGTTAAAAATTCCTCACAACTTATGCAATACTTTCCTTTGTAAGTTGAAGGATAAATTAAATCTTTTTCTAATAAATCAGTAAATATTTCTTTTACAGCAAAAATATGATCTTCATCAGTTGTTCTGATAAAACGATCATAGTCAATATCTAAAATTTTTCACAAATCAATAAAATTTTTCACAATTTGATCAACGTATTTTTTTGGAGGTAAATTATTTTCCTTCGCCTTTTGTTCAATTTTTTGTCCATGCTCATCAGAACCTGTTAAAAAGAAAACTTTATATCCACTTTCTTTTTTATATCTAGCAACAACATCAGCTAATGTTGTTGTATATGCATGACCTATGTGCAGATTTCCACTTGGATAGTAAATTGGTGTAGTTACATAAAATGTTTTTTTCATAATTATTCTTCTATTGAAAGACTATATATACCTTTTAGTCCTCTGTAACTTTCATTATAAGTTAGTCCATATCCAACAATAAATACATCTTCTAATTTAAATAAAGATGTACTTTCTAGATGAACAGTTCTTTCTTTATTATTTTTTTCAATTAAGTTTAAAATTTGTACATTTGCTGGTTCTTCTTTTTTCACTAAATTATATAATTTTTCCAGTCTAGTTCCTTTGTTTAAAATATCGTTTGCAATTAAAACGTTTTTTCCTTTTAAAGTTTTCTTTAAACCTAAATCTATTAACAATTCTTCATTTTCGTTATATGTAGTTACAAATTGAATTGTTGCATCAATTGGTAACTCTCTAATTAAATCTGCTATAAAAATGAATGAAGTTGAAAGTTCTGCAACAATAATTAATTGTTGATCTTCATATCTCTTACCTATATCAGTTCCAGCTTTAGTAATTGCAGCTTTAATTTCCTCTTCTGTAATTAAAGTAATTAACTTTTGATTTTCCATGATTATTTCATCACCCTTCTAAAAATTTTTTCTACATTTCTTTTGAAAAAATTAATATCAAAAAGATCATTTAATTCTTTTTCCTCTGAAATAAAATTTTTAATTCCATTTTTAAGTAAAATTTCTTTGAAATCTTTTTTTGTTTTTTGACATTCCAAAGTACATTTTTGAATGAAATCATAAACTTCTTCTCTTGAAAAATTATATTTCATTAAAATATACGTAAGTATTCTTTGACTATAAAATATCCCTTTTTGTTCATTAATATGTAACTCGATTTTATCTTTATTTATTACCAAATCATTTATTGTTGAAGTCATTCTTTTTGATACATAAGTAATTATATTATAAATATCTGGAAAAACCAGTCTTTCATTGGAACTATGAGATATATCTCTTTCATGTCATAAAACATTATTTTCAAAAGCTATATTTACAAAAGATCTTGCATATCTAGATAAACCACAAATATTTTCAGAACTTATTGGGTTTTTTTTATGAGGCATTGAACTTGAACCTTTTTGTTTATCTCCAAAACCTTCACATATTTCTTGTACTTCACTTCTTTGAAAATGTCTTATTTCTGTAGCTATTTTTTCCAAAGTTGATGCAATATTTGCTATTACAGATATTAAAAAAGCGTGTCTATCTCTTTGAGTAACTTGAGTAGAAATATTGTCTAAATTTAAATCCATTGCATTTGCAACATATTCTTCAATTTCAATTTCTAAATTTGCATAATTACCCATTGATCCAGATACTTTAGCAACTTCTATTTGCTTTCTTGCTAAATTTAATCTCTCAATTTGTCTATTTATTTCATCAAATCATAGTAAAAATTTTAACCCAAGTGATGTAGGCTCTCCATACATCCCATGTGTTCTTCCCATTATAATTATTTCTTTTGTTTCTTGTGCTTTTTGCTTAATAGCTTCACTTAATTTAATTAGTACATTTTCTAAGATTTTATTTGATTCTTGAATCATTTTATTTTGAGCTGTATCAACAATATCTGTTGAAGTTAACCCAAGATGAATTCATTTTTTTTCTGATCCAAGATTTTCAGAAATCATTCTAGTGAATGCTACAACGTCATGTTTTGTTTCTTGTTCAATTTCAAGCATTCTTTTAAAATCTACTTTTGCTTTACTATTGATTTTATCTGCTTCTTGTTTTGGAATAACTCCCAACTCAACTCAAGCATTAACAACTTGCTTTTCAACTTCTAATCAAATATTTAATTTATTAGTATCTGATCAAATTTCTTCTATTTCTTTAATTGCATAACGTTCTATCATTTTTATTAACCTCCACTAAAAGATATTTTCAAGTATTATTGTTTGTTTTCTATCTGGTCCTACTGAAAAACCAACAACATTTACTTCACATATTTTTTCAATCATTTTTAAATATTTTTTTGCAGCGTCAGGTAATTGATCAAATGAAGTTACTTTTGTAATATCTTCCTTTCATCCTGGATTTTTCATATAAATTGGTTTACATTTTTCATATTTTTGATTTGTGCTTGGAACAATATCAATTTCACGCCCATCAATTTCATATTTAACACAAATGTTAATTTCTTCAACACCTGAAAGAACATCAAGTAATGTTATAAAAATTGAATCTATTCCTGATGTTCTAATTGCGTGTTTTAAAGCAACTGCATCTAACCATCCAACTCTTCGTGGTCTTTTTGTGTTTGAACCATATTCATTACCACGTTCTCTAATTCCATCTCCGATTGTATCTTTCATTTCTGTTGGAAAGGCACCTGCACCTACTCTTGTTGAATAAGCCTTAACAACTCCCATTGTTGAATCAATTAATTTATGACTAATTCCACTTCCTATTGAAGCGTTATTTGCTGAAGTATTTGAACTTGTAACATATGGATATGTTCCATGATCAATATCAAGCAAAGCACCTTGTGCTCCTTCAAATAAAACTTTTTTGCCTTCTTTAATAGCTGATTCAATGAAAACTTCAGTATTAGTTATCTTATCTTTAATTTCATTGTATGCTGAGATCAAATCATTATAAGTTTTTTCAAAATCTAATGGCTCTACATTAAACATATTTTTCAAAAACTTCATTTGATAATCAAAAACTGTTTTAAATCTCTCTTTAAAGTTTTCATCTCCCAATTCACCAAGTCTAATTCCTAATCTAGAAGCTTTGTCTTGATATGCTGGTCCAATTCCTCTTTTTGTTGTTCCAATCTTATTTTCTCCACGAGATTCTTCTTGTGCTTCATCAATCTTTATATGATAAGGTAAAATTAATTGAACTCTATCTGAAATTAATAAATTCCCATGTTCAATTCCACTTTTTTTAATAATTTCAAATTCTTTTACTAAGTTTATTAAATTTACTACACAACCATTTGCAATAATATTTGTAACTCTTTTATTAAAAATTCCTGAAGGAACTATTGTAACTTTATGTTTTTGTCCATTAAAGTTTATTACATGACCTGCATTATCTCCACCAGCAAATCTAACAACTATATCTGCTATTTGAGCAAAATAGTCTGTCATTTTTCCTTTTCCTTCATCTCCTCATTGAGATCCAACAACAACTAATGAATTATATTTTTTCATTTTTTCTCCTTAATTAAACTTGTTCATAATTTTATTTAAATCATTTTCTAAAATAAAATCTTCAACAAAGTTTGATATATTTTTAATTTTTTCTTTAATTAAATTTATTTCTTCAACATTCATTTTTGATAATACCCAATCAACGATTTTGTATTGACCTGGTGAACCTATTCCAATTTTTAATCTATTAAAATTTTCTGTTTTTAAATGACTTATAATATTTTTAATTCCATTATGACCTGCAGAGCTTCCATTGTTTTTAAATCTAATATTTGAAAATTCTAAGTCTTTATCATCATAAATTACAATAAAATCTTTAATATCAATTTTGTAGTAACTCATAATTGAGATAACTGCTTCTCCAGATAAATTCATAAATGTTTGTGGTTTTACAAATAAAACTTTTTCTCCTTTAATATTTGAAAAATAAATTTTAGATTTAAAATCTTCTGTTTGTTTTTGAAAACCATACTTTTCTAATAAAACATCAATTGCAATAAAACCCGCATTGTGTCTTGTACTAGAATAATTATTTCCTGGATTACCTAATCCCACAATTAATTTTGACATATTATTTTTTAAATTCCTTTAAGTATTTTTCCACTCTTTTAACAATTTCATTTTGTTCGGCATTGTAAACTCCTGTTAAAGAAGATTCTTCATAAGAATTTTTTATCATTCTTGCTAATAAATTAGATACTGATATTATTTTTAAATTTTTAAATTTTCTTTCCTCAGAAATTTCAATTGTATCTGTAACAACAACTTGTTTTACAGTTCCATCATTTATTACTTTTTCCATTTTTGATACTGCCTCACCATTAAATAAACCATGACATGCAATTATATAAATTTCTTTTGCCCCTTGCTCTTTTAATGCCTCAGCACCTTTTATAATTGTTCCCCCTGTATCAATCATGTCATCGATAATAAAACAAGTTTTATCTTTAACATCACCTAATATAAACTCAACTTCAGCTTTATTTGGTTCTGGACGTCTTTTTGCAATAACAGCTATTCCATTTGTTATATTTCCTGTATATTTTGCAACACCATGAACTCTAGTTAAACCCCCATGGTCAGGTGACACTAAAATACAGTTTTCTGGATCTAATTTTTCTGAGATAATTGTATCTATTATTTCAGATGCAACTATTTGAGCAGTTGAAAAGTTATCAATGGGAATATTGAAAAAACCCATTATTTGAGCAGAGTGTAAATCAACAGTTATAACTCTATGTACTCCTGCTGTTTCAATTAGATTTGCAACTAATCTTGATGTAATTGGTTGTCTTCCTCTTGCTTTTCTATCTTGGCGAGCATATCCAAAATATGGTATTACAATATTTATTCTTGCAGCACTTGCTCTTTTAAATGCATCTACTGCTATCAATAATTCCATTAAATTATCATTTACTGGTTGATTTGTTGACTGAATAATATAAATTTCTTGACCTCTAACTGAATCAAGAGATTGAACGATCATTTCACCATCTAAAAACTTAGATGTTTTAGCTTCTGATTGCTGAACTCCTAAAATATCACAAATTTTTTTTGTTAAACTTTGATTTGATGACAAACCAAAAATCATAATTTCTTTTTTGTTCATATATAAATCTCCTTAAATATAATAACAAATTTTTATTACACCTGCTACACCTTCAAAATATACAAAATAAAAGGTTAAATAAAGAACTATTTTTTAAAGCAAAATAGTTAATTTTTTCAATTTACTATATAATTATTTTGACATTTAAAGATTTTTATCTTTAATATTAATCACTTTAAGTCTTAGGGACTTTTTTTATTACAAAAATTATGGAGGAAATAATTATGGGCTTAGTTTTTTTAGAAAATTTAACACATGCTAATGGAGGTAAAAAATTATATGATAATACTTCTTTTAGATTAAATAGAGGAGAACATATTGCATTAATTGGACCAAATGGTGCAGGTAAAACAACTTTATTAAATATAATAGCTGGTAAAATGTTAGCTGATAAAGGTGAATTGAAAATACACTCTAAAACAAAAATTGGATATTTAGACCAACATCAAGAAGTAAATCTTGAAGAAACAGTTGATTCTTATCTGAAAGGTGCTTTTTCAGAACTATTTGAACTTGAATCTAGAATGAATAAAATATATGAAGATATGGCAATTGAATATAAAGAAGAGGATCTTGTAAAGGCATTAGCTTATCAAGATACGCTAACTTTAAATGAATTTGATTCAATAGATAAAAAAATTGGTAACTTAGTTACAGGTTTAGGAATAGGATTAGAAAAGTTAGAAGCTAAAATGGGAGAACTTAGTGGGGGACAAAGAGGAAAAGTAATCTTAGCAAAACTTTTATTAAGTGGAGATGATTTCTTATTACTTGACGAACCTACAAACTTTTTAGATTTAGAACAAGTTAAATGACTTGCAAAGTTTTTACAATCTTTTGAAAAGGCTTTTATAATGGTTTCACATGACAATGATTTTATTAATAAAACTTGTGGAATTATTTATGCTTTAGATAATCTTAAACTTACAAGATATGTTGGTAATTATGATAAATATTTAGAAGAAGCAGAATTGCAAAAAGAACAATATGATAAAGCATTTATTTCTCAACAAAGAGAAATTAAAAAACTTGAAACATATGTTGCAAAAAATAAAGCTAGAGCATCAACTGCAAAGTCAGCACAATCAAGACAAAAGCAACTTGAAAAAATTGATGTTATGAAAGAAAGAAGAGACTTAACAAAACCAAAATTTAGTTTCTCATATAAAAGACCAAGTACAAATGTTATTGTAAAAGCAGAGAATTTAATAATAGGTTATGATTCTCCGCTTCTACATGCTTTAAACTTTGAATTAAGAGAGGGAGAAAAATGTATTATCAGTGGTAAAAATGGTATTGGTAAAACTACTTTTTTAAAAACTTTATCAACAGAAATACCTTCATTTGAAGGAGAAGTAAAATTAGGTACTGCTGTAGAGTATGCTTATTTTAAACAAATAGAAGATGTAAAAGGAATCACTCCTATACAATACTTAATGAATAAATTTGAAGATATAACAGACTCAGAAGCAAGATCTAAAATTGCTCAATTTGGTGTAAAAAGTGGTTTAATGATGCAACCTATGGAAAAACTTTCAGGGGGAGAGCAAACTAGAATTAGATTAGCTGCTTTAAGTATGATTCCATGTAGTTTATTGGTTTTGGACGAGCCTACAAATCATATTGATGTTTTAGCAAAAGAAGCACTATTAGAGGCAATTGAAAGTTTTAAAGGAACAGTTATTTTAACAACACATGATATTAACTTCTCTACAAATTGAGCCAATAAGACTTTGGATTTTTCAGATTTAGTGTAAAATATTTCTATATTTGGAGGTTCATACAATGAATAAAGAATTTGATTCATCTTGTTTTAAATGTGTTGAAGAAATGCAAAAATCAAAACAAGGTGGAGCTGCTGCAAGTATATTAGCTACAAAAATGCAACAAAATGTTGCTAATCAAGATTTAGATAGCATTCATGTTTGCAAAAGACATGCTTAAAAAAACTAGTTTATGATAAACTAGTTTTTTTAATAAATGTTGATCCTGAACCACTCATTTGTCCAATTTCTCTATATTCAATTAATTCACTGTAGATTTTTAAAGCAGGTATTTCTAGCATATTTGGTTCATATTTATTTTTTCAAGCTTTTATTTCATCAAACTTTTTATAAACCTCTTTTGTACTACAATTAATTCCAGTCAAAATTAAATCTTTAAATCTTATTATAGTTTCTTTTTTAGACTTTTTAATTTTATTACCATAACCTTTAACGATAGCTGTTTTATAATCATTGATAAAAAAATAACAGTCAGTACCAATTTGTTTTGCAATTTTGCTAAGTATTTTTTTATCTTTTGTAAAATACTTAGCAACAGCAACAGCATTACTACTACCTCCCCCTAATCCAGAACCAATTGGTATATTTTTTTTAATTGATATTTTGTAAAAACAATCTACAATACCCTCTTCTTTTAATATTTTTAAGACTTTAAAAATATAATTATCACTTTCTAACTCTTTAATGTTGCAAATAATTATATTTTTATTCTCCTTTGATTTTTCTATTTTGATTTCATCATAAAAATCTTCAACTATTGTAAATATTGAATATATTTTATGTAAATGTTTTTTCCTTTTTCTGACTTTTAAATTTATATTTACTTTGGCAAAGCTTTTTATTAACATGAAATTACCTCATTGTATATTTCTATAAATTGGTCTAAAGTTATATTTTCTGGTCTTAAATTCTCTTTTATATTTAGTTTTGTAAGAATATTTAAAGAAGTTTGTTTATTATTTGTAATATTTGTTAAATTATTTAATATAGTTTTTCTTTTATTATTAAAAATTTTTCTTACGAATGCAATAAATTTTATATCATCTTTAACTTTATTTAAGTTAATATCATTAAATTCAAAAGATATTATTGCAGAATCAACTTTAGGAATTGGTTTAAACATATTTTTATTAACAGTAAATTCATATTTAACATCAGAATATAGTTGAGTAGCAACTGATAAATTATTATAATTATTTTCATTTGGTTTTGCACAAATTCTTTGTGCAACTTCCTTTTGAACCATAAAAATTGCTTTATCTAATAGCTTAGATATTTTTAATGTTTTAAAAATAATCTCACTAGTTATATAATAAGGAGTATTTGAAATTAAAGAAACTCTGTTAAACTTATTTTCTTTGATTATTTCTTTAAAATTAACTTCTAAACAATCGTTAATTATTAATTCAAATTTATCTGAATCAATTTCTGATTTTAAAATAGTTTCCATATCATAATCAATTTCAATAGCTATAACTTTTTTAAATCTATTTACTAATTCTTTTGTTAAAGCTCCTCTACCAGGACCAATTTCAATTATCAAATGATTTGGATCTTGGTTTAAAATATCAATTATTTTTTTAATTAAATTTTTATCAGATATGAAATTTTGACCAAACTTCTTTTTTGCAAATTCCATTCATTTATTCTCCTATTATTTTTTTAATCTCTTCAACATCTAAATTAATTAAATTAAGTCATTTAAATAATCTTTTAGAGTTAATTTTTTCACTTCATTTATACTTTTCTGCTATTTTTTTTCTAACTTCTGGTTTAAAAAAATTATTATTTAAAAATTCTTCTCATGTTATACTTAGAGAATTTGAATCAAAAGTAATTAAATTGCTTAAAGCTTCACGTATATTTTCCTCATTTGCTTCTGCAATTCCCACTTTTTTAGAATTTTTTATCATTTTCTTATTGATAAATGCGTTAAAACATTTAAAATCTAAGTAGGTATTAATAATATCACGAATTCGTAAACCAGGTCCGTCAGGATCTGTAAAAATTATTACACCACGTGTTTTATTAACATCCGCAATTAAATTTAAAGTGTTTTTAGATAAAGCAGTACCATTTGTTTCGATTGTATCTATATTGCTATTTCCAAATATTTTCTTAAGTTTGGATGTATCAGTAGAACCTTCAACAATTACAACTTGTTTTATTTTCATAAGCATAAGCGTACCTTTCTCGTGTGTGATACTAGTATTTTAAATAAATATATAGTATAATTATACACGAAGGGTTTTTTTTCTTATAGAGGAGGAAATAAATATGGCATCATGAGATCGTAAAAGAGAATTCGTGGCTTTAGACTTAGGAACAGCTAACGTTGTTGCATACCTAGGTGGACAAGGTATCATTTATAATGAACCTTCAACTATGGCATACGATGTTCATACAAACACTGTTATAGCTTCAGGAGAACAAGCATACGAAATGATCGGAAAAACTAAAGACGACATTAGAATGGTAGTTCCATTAGTTGATGGAGTTATAGCTGACCTTGACGCAGCAAAAGATTTAATTAAAATAATCTTTTCACGTATTAAATTATCAGACATCTTAAAAAATGCATTAGTAGTTCTTGCTTGCCCTTCAGGAGTTACTGAATTAGAAAGAAGTGCATTAAAACAAGTTGTTGCTGATATGGGAGCAAGAAATGTTCTTGTTGAAGAAGAAGTTAAATTATCAGCAATTGGAGCTGGAATCAATATATCAATCGCAAGTGGACACTTAGTTGTTGACATTGGTGGAGGAACTACTGATATAGCTATTATATCAGCAGGAGATATTGTTATTTCAAGATCAATTAAAGTTGCTGGAAATCACTTTGATGAAGAAATAAGAAAATATATTCGTGCTGAATACAACGTATTAATCGGAATCAAAACTGCTGAAAAAATTAAAATTGAAATCGGTGCATTAACTAAAATAGATAATGGACGTACATTCCGTGCATTCGGACGTGACGTTATCTCTGGATTACCAAGAGAAGTAATTATCTCACCAGATGAAGTAAAAAATGCTTTATTAGCACCATTCTCAAAAATTACAGACTTAATTGTTGAAGTTATGGAAAACACACCAGCTGAATTAGCTGGAGATATCATTAGAAATGGTATTACAATTTGTGGAGGAGGAGCTCTAATCAGAGGAATTGATACATACTTTGAATCAATTTTCCAATTAAAAGTAATTAAAGCTCAAGATCCATTACTAACAGTTATTGAAGGAACTAAAGAATACGAAAAACAAGCAGAAAAATGATTAGAAATCGTTGAATTACGTGATTCAAGAGAATACAACATTAAATAATAAATAAGGAGGAAATTGAAACCTCCTTTTTTATTATTTTCTTTACTTTTTTATTATTTTTTTATTATTTTTTTATTTTATTTTTTTTTAATACTTAAATACTAGATTATTTTAAAAAAGTGTTTAAACTATTAATATATATAGACTAAAGGGAGGAATTCTTGTGGGAACAGCAAACTCAAAAGCAAAAAGACATATTGCAATTGATATTGGTACAAGCAAAACTAGAATTTTTATAGAACAACTTGGTATGGTTTTTAATGAAGCAAGTTTAATAGGAATAGATTATAAAACAAGAAAAGTAGTTTTAATAGGTGATGAAGCAAAAAAATTTGTAGGAAAAATGAGTGGAGCAATGGAAATTAAGCACTTATTAAAAAGAGGAGTTTTATCTGACTTAAATTTACTTAAAACATTTTTATCAACTGTATTAAGTAAATACCAAAATGAAATAAAAAATTCAATTGTTACATTAGCTTGCCCAATAAGTATCAGTATTTTAGAAAGAAATGCTCTCATAGATTCAATAAAATCTTTAGGTGTCTCACATGTTATTATACAAGATGATATCAAATTAGCTCTAATGGGTGCTGGAGTAAATATATATGGATCTGATTCATATATGTGTTTAGATATGGGTGCTGGTAAATCAACAATTGGTATTGTGACAAATGGAGAAACAATTAATTATAAATGAACAAGAGCCTCAGGTGAAGTTATTGATAATGAAATTATTAAACATTTAAAATCAAAGAAGAATCTTTTAATAGGAGATTTAAGCTCAGAAGCAGTAAAAATCGCTGTGGGTTCAATTGTTAAAAGCAAAGAACCTTTAAAAACAAAAGCTTATGGATATGACTTAAGTTCATCAAGACCTAGTGAAATAGAAGTTCAAGATAAAGATATCTCAAAAATTATTCTTTCAGTATTTGGAAATATCTCAAATACAATTACATCTTTACTTGAAGAAACTCAAAGTGAAATTGCTGGTGATATAATAAAGAACGGTTTAATAGTAACTGGAGGACTTTCTAAAATACCAGGAACTAAATTATTCTTTGAAAATTTCTTTGAAATTCCAGTAATAATTGCAAAAAATGCAGCTTCTTCAACAATTGAAGGAGCAATAAAACACAAAGATATTACATTTAAGTTAATTGAAGAAAGAAGTAGATAATTATAACCATTTTTATTAAAAAAGTGGTTTTTTTATTTTTCTTTAAGAGTGTAAAAACTCTTTTTTTGCACAAAATTTTAATTTTGTTTGTAAATAAAATATAAAATATAATAGTAGAAATAAGAGGTTGACTATGAATATACTAATAAACAAAATAAAACTAATAATTAAGAACTCAATTGAGAAATTAAATTTAAAGGGAACAATAATTGTAGAAAGACCTAAATTAGTTCAAAATGCTGACTTTGCAACAAATTTTGCATTAATCAATGCAAAATTAAATAGCTCTAACCCTATTCAAATTGCTGAAAAAATAGTAAATGATATAAAGGATAATGAATTATTTGAAAGTGTTGAATTTATAAAACCTGGTTTTATAAACTTTAAAATTAATAAAGTATTTCTTTCAGAAGTGATTGAACAAATTATTAAAGAAGGAAATAATTTTGGTAAATCAAAAAGTAAGAATGAAAAATATAATTTAGAACTTGTTTCTGCAAATCCTACAGGATATTTGCATGTAGGTCATGCAAGAAATGGAGCTATTGGAGATTCTGTGGCAAAAATTTTAAAATTTGCAGGATATGATGTTGAAACAGAATACTATACAAATGATGCTGGAAATCAAATTAATATCTCAGCAGCAACTCTTTTTTATCATTATAAAAAAATTCTAAATCTTCCAGTTGAAAAACCAGAAGAAACTTATGGTGGAGATATGTATAATGAAATTGCTCAAAAATTTGTTGATGAATACAAAGATGAATTTAAAGATGTAGAAATTGTTGATAATAAAATAAATGATGAAAAAGTTAATAATATATTTAAACAAAAATCAATTGAACTTTTCATGAAAGAAATAAAAAAACAATTAAAAGATTTGGATGTTAATATTGATTTCTATTCAAGTGAAGCAAAAATGTATGAAAACAATTCTATAAATAAAATTATAGATAAATATAAAAAACTTGATGCTAGTTATGAAAAAGATAACGCTTTATGATTAAAAACAACTCAATTTGGAGATGATAAAGATAGAGTTATTAGAAAATCAGATGGAACTTTTACATATATAACTCCAGATATAGCTTCTCACAGTGATAGAATTAAAAGATCAAAGGCAAATAAATATATTAACTTCTGAGGTGGAGATCACCATGGTTATATAATCAGATTAAGATCTGGATTAGCACTTTTAGGTTATGATTTTGATCTTGTAGATATTGATATGATTCAGATGGTACGTTTAATGAAAGATGGACAAGAATATAAAATGTCAAAAAGAAGAGGAACAGCTGTTTGGCTAGTTGATTTACTAGAAATGGTAGGAAAAGATGCCATTAGATATATGCTTGTTTCTAAAACTCCTTCTAGTCATATGGAATTTGATTTAGACATGGCTGTACAAAGAAATTCAACAAACCCAGTATATTATGCTCAATATGCAACTGCTAGATGTAATAAAATAATTAAAAGTTTTAATAATTTAAATTTAAAAGTTAACAAAGAAATAATATATGAAAGTCAAAAAGAAAAGGAATTAATAATTTTATTAGATAGTTTTAACTCTGTAATTGAATATGCTGCAAGTTCAAGATTACCAAATATTGTTTGTGATTATATTCAAACACTTGCAAAAACTTTCCATTCATATTATTCTGAAACTAAAATTTTAGATAATAATAACGAACAATTATCAAATCAAAGAATTTTACTGGTAAAATCAATATATCAAGTATTATCAAATGCATTTAATTTAATAGGAATTGAAGTAAAAGATAGTATGTAATAAAAAAAGTGGGGTTTGCAACTTCCCTTTTTTTATGATAAAATTACATCAGATTATACATTCTAGTTAGAATAGAAATGTATAATTCATACATTAAAAAATTATAAAGGAGAAATAAATAGTATGGCAAATAAAAAACCAACATTCGTTTCTATGGACTTAGGAACAGCTAATACTTTAGTATATATTGCTGGACAAGGTATAGTTTATAACGAACCATCAATAGTTGCTTACAGAATTAAAGAAAATAAAATTATCGCTGTAGGTGAAGAAGCATATAAAATGATCGGTAAAGGAAATAAAACTATTAGAGTTGTAAGACCAATGGTTGACGGAGTTATTACTGATATTAGAGCAACTGAAGCTCAATTAAGATATATTTTCTCAAAATTGAGAATTACAAAACAATTAAAACACTCAATTATGCTATTAGCATGTCCTTCAGTAATTACTGAATTAGAAAAAACAGCTCTTAAAAAAATCGCTGTTAACTTAGGTGCAGATCAAGTATTCGTTGAAGAAGAAGTAAAAATGGCTGCATTAGGTGGTGGAGTTAATATCTATGCACCAACAGGAAATTTAATTGTTGATATGGGTGGAGGAACTACTGATATAGCTGTTTTAGCATCAGGAGATATCGTTTTATCTAAATCAATTAAAGTTGCTGGAAACTATTTAAATGATGAATGTCAAAAATTCATTCGCTCACAATATGGATTAGAAATTGGTTCAAAAACAGCTGAATCAATCAAAGTTAATGTTGGATCATTAGCTAAATTCCCAGATGAAAGACGTATGAAAGTTTATGGACGTGACGTTGTTTCTGGATTACCAAGAGAAATTGAAATTACTCCAGAAGAAGTACGTGAAGTTCTAAAAGTACCAGTATCAAGAATTATTGATTTAACAGTTCAAGTTTTAGAAGATACACCACCTGAATTAGCTGGAGATATTTTCAGAAACGGAATTACAATTTGTGGAGGTGGAGCCTTAATTAAAGGAATCGACAAATACTTCGCAGATACATTACAATTACCAACAAAAATTGGTGAACAACCATTATTAGCCGTTATTAACGGAACTAAAAAATTCGAAAGTGAAATTTGAGAAATCGTTAAAGCTCAAAGATTACACGAAGATATCATGGGTAGATAATTTAAAAACTATTCATAATCCCTGCATAAAAGCAGGGATTTTTTCATTTTTTATAGTATATGAATATAATATTAGTTTAATAAACTATTTTTATATTTATAATCAATTAAGAAAGCTATTATATATATGTTAATTTATTTATAACTGAGGTGTCAAATGAAAAAAGAAATAATAAAGCTTTCAAGAAAAGATGAAATAACTTATGATTTAATTTCAGAAATAGTATATAAGTTTTTTACATATGAAGGTAAATCAATTTTAAAAGGAGCAGACTATAGAATTAGTAAAAATGAAAGAGTTTGATTTATTAATTTTGCTCCTTTAAAAAAAATAAATCAAATTATAAAAGAAGAAAAATATGCAATCTATCCTTCTCCTGATCTAAATAATATATTTTTTTTTAATGCTACAGGAACAAAAAAATTAATAGAAGATAGATTAGAGAAATTTAAAAGTAATAACGATAATATAATTGTTTTTGCAAAATTTAAAGATAATTTTAAATATGAAGGTTACAAATTTTTAGGTATATATAAATTTGAAAATACTATTGATAATGATATAAGTAATTTACTTTTCAAAAAAATAGAGGATGATTACGTTGTAAAAAAAGGCAAGTAATATTCTTGTTTTCTAAACTTTATAATAGTATAATAAAAGCACATATTTTATTAACTTAGGAGGAATTTATGAAAATTGACGAACGTACATTTATTGCATTAGATTTAGGTACAAGCAATATACTAGCTTTTGTAGGAAAGCAAGGAATAGTATATGAAGAACCATCAATTATGGCTTACGATAATGTTAGCAATACATTAGTAGCTTTAGGTACAGATGCATACAATATGATTGGTAAAACACATGAAAACATTAGAATGGTAGTTCCAATAAAAGATGGAGTTATCAAAGATTTAGATGCTGCAAAGGACATGTTAAAACACGTTTTTAGTAAACTAAAAATGTTAAATGATTGAAAAAACTCAATTATTTTACTTGCTTGTCCAAGTGAAGTTACTGAATTAGAAAGAGAAGCTTTAAAACAAGTTGCTTACGACATGGGTGCAGATATTGTAGTTGTTGAAGAAGAAGTAAAAATGGCTGCATTAGGAGCAGGAATTAATATTGATGTTCCAAAAGGAAACATAGTAATTGATATCGGTGGTGGAACTACTGATATAGCTATTATTTCAGCTGGTGATGTTATTATTTCAAGATCAATCAAAATGGCTGGAAATGCATTTGATGAAGAAATTAAAAAATACATTAAATCAGAATATAATGTAACAATTGGTGATAGAAGCGCTGAAGATGTTAAAAAAGAATTAGGATCATTGACTAAATACAAAGGTGAAAGAACAATGTCTGTATTTGGAAGAGATATTATTTCTGGATTACCAAAAGAAGCAGTACTTAGCTCTGAAGAAATTAGAAATGTTCTAGTTAATGCATTTAGTAGAATTACTGACTTATTAATTGAATTAATGGAAAATACTCCCCCAGAACTTGCTGGAGATATAATATCAAATGGATTTACAATCTGTGGTGGTGGTTCTTTAATAAGAGGAATCAAAGAATATTTTAATGGTATATTCTCAGTTCCTTGTCATATTTCTCCAAACCCTTTAACAGGTGTTATTGAAGGAGCTAAAGTATTCCAAAAAACTTTAAATGATAGAATTGAAAATGATTACTACGGAAAAAATGCAAAAAGTCTTAAAAAATCAAGTCAAACTTCATATTTATAGTAAATAAAAAAAATGGTTATTTAAAACCATTTTTTTTATTCTAAATTAAATACTTTCATAGCATTACTTGTTGTTGCTTCTATAACATCTGCTTTATTTATTTTTCTAATGCTAGCTATTTTTTCAATTGTATAAACTATATTCTTAGACATATTTAATTTTCCTCTTTTTGGTTCTGGAGTTAAATATGGAGCATCTGTTTCAACAATTATTTCATTCAAAGATAATTTCTCAACTGTTTCATGAAGAGAAGTTGCGTTTTTAAATGTAACAACTCCTGGTATAGAAATTAAGTATCCTCTACTTGTAAATTTTTTTGCTAATTCTATACCTCTTGTATAACAGTGAACAATTGCTCTTTCTACTTTTAATTCATCTAGAATTTCTAAAGCATCTAAATAAGCTTGATCAGAATCATCTTTATCTCTAATGTGCATCATTACTGCTAGATCATTTTTTAAAGCAATTTTAATCTGCTCTCTAAAGAATTTTTTTTGAACTTCTTTGTCTTCACTAGTATAATAGTAATCCAAACCTATTTCTCCAACTGCTACAACATTTTCACCATGAGCCATTGTGTCAATTTCATCTAAGTCTTCTAATGTAAATTTATTTACATCATTTGGATGTATTCCAACTGCTGCATAAACATTTGGATATTTTAAAGCATACTTACAAGCTTCTCTTGATGATTTAATGTCAAATCCCACGCAACAAAAGTTAGATACTCCTATTATTTTAGCTTCACTGATCATATCTGAAACTTCAAATTCTTTCTCCTTATAAACAACGTCATTAAAATGTGTATGTGTATCAAATATACCTGCCATATTTTTTCCCTACTTTCCTAAACAATATTTTCTAAATATATTGTCAATAACTTCTTCATCTGCATCATATATACCTAGAAGATTATTTAAAATTTTTAAAATTTCATATAAATCAATATTAATTAAATCAGTTGTAAATCCTTCATTAATATTTTTTAAACTATTTTTTAGTAATTTCAAAATATTTTTAAACATTTCTATATGAAAAGCATTTGATAATATTGGCACTTCACTTTCTAGTAAATCACCATTATTAAATTCTTCTTCAATTTTTTGGATAAGATTTTTAACTTGTCCTTTTAATGCTGATACAGTTACTAAATTTTTAAACTCCTTTTGAATCTCTTTAATTTCTTCATTTTTAAGTAGCTCTACTTTATTTAAAACTACTATATGTTTTTTATCCTTTATTTTTTCATATATCTCATAGTTAATTTTACTCTTATTTACAACAAATAATATAAGATTTGATGTATTAATTAGTGAAAAACTTTTTTCAATTCCAATTTTTTCAACTTCATTTTTTGTTTTTCTTATTCCAGCTGTATCAATAAGATTCAATGTAAAGTTTTCAAAATTTAGTTGACCTTCGACAATATCTCTTGTAGTTCCCTCAATATCTGTAACTATAGCTTTTTCTTCAGATATTAATGCATTTAATAAAGAAGACTTTCCAACATTTGTCTCTCCTATAATTAAAGTATTAATACCTGAATTTAAAAAATTAAATCTTTTACTTGTTTCTAAAACCTCTAAAACTTCATTTTGTAAATTTAGTAGTTCAACTTTTATTTCTTCAACACTTGCACCTTCAACATCATCATAATCAGGATAATCAATTGAGGTTTGAATTTTAGATATTAGATCTATTAATTTATTTTTCATATCTAAAAGAGACTTATTATTTTTTCCTTCCAAATTTAAGGCACTAATTTTTAAAGTTAATTCATTTTTCGAATCAATTAAATTATTAATACTTTCAGCTTGAATTAGATTTATCTTTCCATTTAGATATGCTCTTTGAGAAAACTCTCCTGGTTTAGCCGGTCTTGCACCGTGCTCAATGAGCAATGATATAATTTTATTAGTTAATAAAACTCCTCCATGACATTGAATTTCAACTACTTGCTCTCCAGTAAATGACTTTCCTTGTTCAAATGTTAAAATTAAAGATTCATCAATAATATCTTTGTTATCATAAATTTTTCTAAGTTGCATTTTATTGTTTTCATTTAATTTTTTATTTACTATTTTATTTACTATTTCTATTGATTGCTCTCCAGATAATCTAACAATTGATATTGCTTGTCTAGATACTTTTGTTGCACAAGCAACAATTGTATCATTTAAATTTATTTTCATATTATTATCATTCCAATCTTAATTATAACAAAAGAGAAATATAAATTATTTTATGGTTTATATATTATTCTAATTTTTCTTTCTCCAACAAGCCCAGTAGTTCTAGCTTTAATTTTGTCATATTTTCTTAATATTTCATTAATATTTTTTCTAATTTTTTTAGGATATGAAGGTAAAATAACTTCTTCTTTAGTTCTTAATACGTTATTTATATTTTTCTTCAGTTCAAAGATATCATAAGAATGTATATTTTTATTAGCGATATTGAAATTAACGAAATCAAAATTAATTATCATATCTAATTTGATTTTAAAAAGAGTTTTAATTAAGTTTATAAAACTATTTTTTAAAGAAATATCCAATTCAAATTTAGAATCATAGCATATTATATTTTTATTTTTTGATTTCATATAAAAAATAGAAATAATTTTTATATTAGAAATTTTTGATAGCTGCTCATTTAAAAATTTCATAAATTCTACTCTATTTTTTGTTTGAATAAATAAAATCACTTCATTAAAGTTATTTCAAAAAACTAATTTAGTTTTTGGTTTTCTACTTATTAAGAAGTGATTGAATTTATTATTTTTTATTTTTAGTTTCACTTGAGATTTTTGCAGCAATTGTTTTGTTTTTTTCAATTTGTTTATCTCTTTTCTTTTTCATTCTTGTAACTTTAGTTTCCTTTAAGAAATGGAAAGTTAAAGTTTGAATGATTTGGAAAGTTGAAGAGAAAATTCAATATATCGCTACACCCGAAGCTATATTAAACACAACGAATAAGAAAACTACCATGAATACTATTTGCATTATCAATTGTTTTTTTCTTGCTTTTTTTTGTTGTTCTGATTCCAACTTTGGTTTCTTCTTAAACATTTGAAGAATCATTGGAAGCATCATCGATACAATTTGTAAAGGTAAATAAATAACAATTAAAGTTAAATATATTCAATTCCCTTGTTTTAATTGTTCAAAAGGAACCTCAACTAATGTAATTTGTCCTACTGTTGCAACTTTAAGTGCATGTGTTGCTCTAACAACAGCAAACATGGCAAATAAGAAAGGCATTGATAGGAAGGATGTTGCTATTGAACTCATTGGACTAATACCTTCTCTTTTATATAAGGACATTAATTCCATTTGTTGCTTTTGTTTAGCACTTGGATCCGATGAGTTTTTATATTTTTCCTGTATTTCTGCTTGCTTAGCTTGTAATCCTTGCATTTTTTCTTGATTCAGTTGAGTTTTTCAAGTAAATGCCAGAGTTATACCTCTAATAATTATTGAAGTGAAGAATATTGCAAAAATAGCTGCCACTCCATATGATGCAGATTGAGGATTCAATCTTCCATCACTATGACTAGAAAATAAGCTAATAAAACTTACTAATAATCATGCTAATGGATAAACGAAGAATCCATAAAATGGAGATGAAGTAACTGTAAATGCTTGTCCTCAAGACGATATAGGATTAAATGAATATTCTTTTAATTCACCAGTTTTATCATCAATCTTAAATCAGTGAGTTTTTGAACTTCAATCACCTAATGATTTAATAATAATTTCAAATGATACCCCTGGAGAATATATTTTATTTCCAGCCATATCAGTTACTGTATTAACTGTATACTGTGGTTGGTACATTTGAACACAACCTCATAGCATAGAAACAATAATAAATACAAATAATATTAACTTAGTTCAAACTCAAACTAATTTCATTCAGTCCTTTGGCGTTTTTTTTCTATTGTTATTATTACTTAGGTATTTAGAATAGTCCTGTTTATACAAGATATTCACCTCTCTTTATTTTATTAATAAAAGCGATTTTCTAAGTTCTTCTAAATTATTTTCATAATTTTTATTTAGAATCATAGCTCTCGCCATTAAAACCACATCATAATTTTTATTTTTTTGTTCATTTAATAATTCATAAACCATGGATCTTATTTGTCTTTTTATTTTGTTTCTTAATACAGCGTTACCAATTTTTTTTCCAACAGATATACCATATCTAAATCTATCTAGATTATTATTTTTAAAATAAATTATAAAACCCTTTGTTTTAATAAATTTTTTATTTCCAATAATACTTTGGAATTCATGATTTTTTTTAATTATATTGATGTTTTTCATAGTTATTTATTAAGCAGTAAGTTTAGCTCTACCTTTAGCTCTTCTTGCTTTTATAACTTTTCTACCATTTTTAGTTGCCATTCTAGCTCTAAAACCATGAGTTCTAGCATGCTTGATTTTACTTGGCTGTCAAGTTCTTTTCATAAAATACCTCCTTTTTTAAACAAAACCTCATTTAAGATTATAACTTAAAACATAGTTTTTTTTTGTTAATATTGTAATTTTTCATTAATATTTATTAGAGTAACTTTTAATAACTTATTAATTATTTTTAAATGTGGATAACTGTTAAAAACTAGCATATTTATTGACTTTATTGTAAGTATTTTTCCACATTTAGTGCTAAAATCTATGTGTTTTTAAAGTTATCCACATTAAAACTATGTGGATAACTTATAATTTAGTTGTTAATATATGAGGTAAATAAAAA